Title of Invention	AFFIXING AN ANCHOR IN A DRILLED HOLE.
Abstract	An anchor is fastened into a drilled hole in substrate layer such as concrete by providing on an end portion of the anchor a surrounding layer of an adhesive of a character that it softens when heated and sets when it cools with a portion of the anchor exposed outside the hole. The exposed portion is heated by an inductive heating device in a heating cycle where the heating cycle is actuated by the operator switch but accurately controlled and limited to a single operation in the presence of the anchor by a control in the device in dependence on sensed environmental conditions and a measured size of the anchor.

Title of Invention

AFFIXING AN ANCHOR IN A DRILLED HOLE.

Abstract

An anchor is fastened into a drilled hole in substrate layer such as concrete by providing on an end portion of the anchor a surrounding layer of an adhesive of a character that it softens when heated and sets when it cools with a portion of the anchor exposed outside the hole. The exposed portion is heated by an inductive heating device in a heating cycle where the heating cycle is actuated by the operator switch but accurately controlled and limited to a single operation in the presence of the anchor by a control in the device in dependence on sensed environmental conditions and a measured size of the anchor.

Full Text	WO 2006/056058 PCT/CA2005/001781 1 AFFIXING AN ANCHOR IN A DRILLED HOLE This invention relates to a method of and apparatus for affixing an anchor in a drilled hole. It is well known that such drilled holes can be formed in concrete or other materials but the field with which the present invention is concerned is primarily concrete anchors. The use of a setting or curing resin or other plastic material to bond an anchor into a drilled hole is known from a number of prior art documents. In particular US patent 6,484,471 of the present inventors issued November 26, 2002 discloses a method in which an anchor is inserted into a drilled hole with the anchor having a central core within which is a chemical which reacts with oxygen in an exothermic reaction to generate heat within the anchor to affect an adhesive material on the exterior of the anchor. It is known that the anchor itself may be formed of a threaded rod or may be more complex in shape including a threaded section and a bottom insert section. In most cases however the bottom insert section will have external projections for engaging into the adhesive or resin material on the exterior surface. Thus the arrangement disclosed herein can utilize any of the above features including those disclosed in the above patent, disclosure of which is incorporated herein by reference. US Patent 6,484,471 describes the method of placing the adhesive on the anchor, thus eliminating the problems involved with mixing adhesives, usually consisting of two or more compounds, and after mixing, applying these adhesives into holes provided for the anchors. The arrangement shown herein, while useful under certain conditions, is expensive to manufacture and difficult to WO 2006/056058 PCT/CA2005/001781 2 store and handle. An induction heating head or probe is disclosed for example in US patent 4,355,222 (Geithman) assigned to Boeing and issued October 19th, 1982. This patent discloses a technique by which a cylindrical ferrite core is excited with 35 kHz energy for a period of about 10 seconds thereby heating the fastener to approximately 600 degrees F. SUMMARY OF THE INVENTION It is one object of the present invention to provide an improved method and apparatus for actuating an adhesive anchor in a hole for adhesive attachment of the anchor in the hole. According to the invention there is provided a method for affixing an anchor to a substrate layer comprising: drilling a hole in the substrate layer; providing an anchor having one end portion shaped and arranged to fit in the hole; providing on said one end portion of the anchor a surrounding layer of an adhesive of a character that it softens when heated and sets when it cools; inserting the portion with the adhesive layer thereon into the hole; a portion of the anchor being exposed outside the substrate layer out of the hole; applying inductive heating by an inductive heating device in a heating cycle to the exposed portion of the anchor sufficient to heat the adhesive layer in the hole so that the adhesive layer conforms to an exterior surface of the portion and to an interior surface of the hole; and allowing the adhesive layer to cool so as to set in the hole to WO 2006/056058 PCT/CA2005/001781 3 attach the portion of the anchor to the hole. Preferably the portion includes projecting elements thereon for engaging into the adhesive layer for example the portion may be threaded. Preferably the method includes varying the heating cycle in accordance with a size of the anchor so as to effect a required level of heating for a selected anchor. Preferably the heating cycle is varied by measuring the size of the anchor. Preferably the method includes providing on the heating device a receptacle for receiving the anchor and for locating the heating device on the anchor and providing on the heating device a measuring device for measuring the anchor while located in the receptacle. Preferably the measuring device comprises a measuring arm movable relative to the heating device in response to engagement with the anchor. Preferably the heating device includes a manually actuable switch for commencing the heating cycle and the heating cycle is automatically controlled by the heating device. Preferably the method includes detecting the presence of the anchor at the heating device and actuating the heating cycle only when the anchor is present. Preferably the method includes detecting the presence of the anchor at the heating device and actuating the heating cycle only once until heating device is removed from anchor. Preferably the heating device includes an indicating light to confirm WO 2006/056058 PCT/CA2005/001781 4 the heating cycle is complete. Preferably the method includes varying the heating cycle in accordance with environmental conditions. Preferably the method includes providing on the heating device at least one sensor for the environmental conditions. Preferably the at least one sensor is arranged to measure temperature and humidity. According to a second aspect of the invention there is provided an apparatus for affixing an anchor into a drilled hole in a substrate layer wherein the anchor has one end portion shaped and arranged to fit in the hole with a layer of an adhesive of a character that it softens when heated and sets when it cools and an exposed portion of the anchor exposed outside the substrate layer out of the hole, the apparatus comprising: a manually movable housing for moving to the exposed portion of the anchor; an inductive heating coil mounted on the housing; a receptacle for locating the heating coil at the exposed portion of the anchor; a control for applying a heating cycle to the exposed portion of the anchor sufficient to heat the adhesive layer in the hole so that the adhesive layer conforms to an exterior surface of the portion and to an interior surface of the hole; a manually operable switch for commencing the heating cycle; the control being arranged to effect varying of the heating cycle in accordance with a size of the anchor so as to effect a required level of heating for WO 2006/056058 PCT/CA2005/001781 5 a selected anchor. Preferably there is provided a measuring device on the heating device for measuring the anchor while located in the receptacle. Preferably the measuring device comprises a measuring arm movable relative to the heating device in response to engagement with the anchor. Preferably there is provided a detecting device for detecting the presence of the anchor at the heating device and wherein the control is arranged to actuate the heating cycle only when the anchor is present. Preferably the detecting device and the control are arranged to actuate the heating cycle only once until heating device is removed from anchor. Preferably there is provided an indicating light to confirm the heating cycle is complete. Preferably there is provided a sensor for measuring environmental conditions and wherein the control is arranged to vary the heating cycle in accordance with environmental conditions. DESCRIPTION OF THE DRAWINGS One embodiment of the invention will now be described in conjunction with the accompanying drawings in which: Figure 1 is a cross sectional view showing an anchor inserted into a drilled hole prior to activation of the adhesive. Figure 2 is a similar cross sectional view showing the anchor inserted and in the process of being heated by an induction heating head. Figure 3 is a cross sectional view showing the finished installed anchor. WO 2006/056058 PCT/CA2005/001781 6 Figure 4 is an isometric view of the anchor and induction heating assembly with the housing omitted for convenience of illustration. Figure 5 is schematic illustration of induction heating assembly of Figure 4. In the drawings like characters of reference indicate corresponding parts in the different figures. DETAILED DESCRIPTION In Figure 1 is shown an anchor body 10 in the form of a rod with external projections 11 in an upper portion 12 and projections 13 in a lower insert portion 14 arranged to be inserted into a drilled hole 15 in a body of concrete 16 or the material. The projections 11 and 13 are formed in the embodiment shown as a continuous threaded section on the exterior of a rod. However other projections can be provided in many different arrangements as is well known to one skilled in the art. The anchor 10 carries on its exterior surface a band 18 of an adhesive which has the character that it softens when heated and sets when it cools, such as a hot melt adhesive. Thus the band 18 is generally cylindrical where an inner surface 19 in contact with and engagement with the exterior surface of the rod so that it follows the shape of the surface with the projections 13. The band 18 has an exterior surface 20 which is generally cylindrical so as to approximately match the cylindrical surface of the drilled hole 15. The adhesive is thus formed with a thickness which is the difference between the exterior diameter of the anchor 10 and the interior diameter of the hole 15. This thickness is sufficient to allow the projections 13 to be received within the hole leaving a WO 2006/056058 PCT/CA2005/001781 7 clearance between the exterior of the projection and the interior of the hole. The difference in diameter is maintained relatively small so as to avoid providing shear forces through the structure of the hot melt adhesive when force is applied to the anchor. Hot melt adhesive is readily available from many manufacturers and has the property that it is solid and non-tacky at ambient temperatures but can be melted at elevated temperatures well above ambient temperatures so that it flows and thus can enter pores and intestacies to provide an effect bond as the material cools and resets. Many different such thermoplastic materials are readily available providing a required strength and temperature of melting as will be determined by a person skilled in the art. The anchor as supplied is inserted into the drilled hole 15 and an induction heating head is applied over the upper section 11 of the anchor which is exposed above the hole. This arrangement can be used to heat the exterior portion 11 above the hole so that the heat is conducted through the body of the anchor to the hot melt adhesive 18 to effect melting of the adhesive and spreading of the adhesive into the interior between the anchor and the drilled hole so as to provide bonding of the exterior surface of the adhesive into the intestacies and pores of the drilled hole to adhesively attach the anchor into the drilled hole. After activation of the adhesive 18, the anchor is completed by a bracket 9 which is held in place by a washer 8 clamped by a nut 7 on the threaded portion 11. One example is now described of a device and method which may be used to produce a product at a considerably lower cost thereby making it WO 2006/056058 PCT/CA2005/001781 8 economically feasible for use by a larger number of individuals and companies. By retaining the concept of placing the adhesive on the anchor body as shown in US Patent 6,484,471 but replacing the internal heat source with an external source a much simpler and economical anchor can be produced. The outside source of heat is generated by a known technology generally referred to as induction heating. The process of induction heating relies on induced currents (eddy currents) within material to produce heat within that material. The basic components of an induction heating system are an alternating current (AC) power supply, an induction coil and the article in which heat is to be generated. The power supply sends an alternating current through a coil, preferably placed in close proximity to the article to be heated. Under these circumstances, eddy currents are induced within the article to be heated, generating controllable amounts of heat without physical contact between the coil and the article. Alternating current at frequencies of 5 to 30 kHz are commonly used and there is a direct relationship between the frequency of the alternating current and the depth of heat penetration and the time taken to heat an article of a given size. The induced current flow within an article is most intense on the surface so the outside of an object will heat more rapidly than the inner portion. It is desirable to cause the metallic portion of the anchor to reach such a temperature that the attached heat sensitive adhesive is brought to a temperature where, in the case of a two part adhesive coating, the activating agent and the main adhesive component are caused to melt or liquefy, later to cool and harden. The method may use a single component adhesive is used, such as WO 2006/056058 PCT/CA2005/001781 9 a 'hot melt' adhesive, where enough heat must be generated to bring the adhesive to a liquid or molten state. The use of induction heating provides the rapid heating and precise control of temperatures required to accomplish this. There are three primary variables involved in attaining the required amount of heat, the first being the size of the anchor installed. There is, for the most part, a direct relationship between the length and diameter of the various anchors to be used with this system. Two other variables, ambient temperature and humidity within the immediate area of the anchor to be activated are important in order to determine the precise amount of time the unit needs to operate to provide the required temperature. Using known technology, two sensors are provided to make measurable signals available to the microprocessor. The control system of the heating device is arranged to control the heating cycle in dependence upon these measured characteristics to ensure an accurate application of heat to the exposed portion of the anchor and thus to the adhesive. The heating device 19 includes a manually portable housing 20 which can be lifted by the operator by a handle 20A and moved form anchor to anchor located in a concrete substrate layer. The housing includes a circuit having a manually operable switch 21 for actuation of heat to a coil 22. The coil is located at a receptacle 23 in the form of a pair of surfaces which define a V-shape by sides 24. This acts to locate the anchor when in the V-shaped receptacle so that it is properly placed within the heating coil above the receptacle 23. At the receptacle is located a detecting or measuring arm 25 so that WO 2006/056058 PCT/CA2005/001781 10 as the anchor enters the receptacle it engages the arm 25 and depresses the arm. The arm is mounted on a sensor 26 so that it can move in dependence upon its engagement with the anchor surface of the exposed portion of the anchor above the hole. The receptacle carries a micro-switch 27 which provides an indication of when the anchor is properly located in the receptacle. The circuit receives power from a source 28 controlled by a power supply module 29. The power to the coil is controlled in a heating cycle of required length for the conditions by a microprocessor controller 30. Input to the microprocessor 30 is provided from the measuring arm sensor 26 and the gate micro-switch 27 responsive to the presence of the anchor in the receptacle and by environment sensors including temperature sensor 31 and humidity sensor 32. The sizing plate or receptacle 23, mentioned in the technical description, with its V-shaped opening (sizing notch) defined by sides 24 and the position sensor (size (diameter) sensor) 33 provides a measurable signal, related to the diameter of the exposed portion of the anchor, to the microprocessor 30 in the following manner. With the anchor positioned in its hole in the substrate and before the adhesive is activated, the unit carrying the sizing plate is positioned before the anchor and moved toward the anchor, the exposed portion of the anchor enters the V-shaped notch in the sizing plate. At some point, dependant on the diameter of the anchor, the sizing plate can not be moved further in a forward direction because the anchor has come to rest against both angle edges of the V-shaped notch. During this operation, the sizing sensor arm 25 is forced rearward by contact with the exposed portion of the anchor and a measurable signal is made available to the microprocessor indicating the diameter of the exposed portion of the anchor. WO 2006/056058 PCT/CA2005/001781 11 The sizing sensor 26 may be of known technology such as a resistance measuring device which is calibrated in relation to the length and angle of the sizing slot edges so as to provide and accurate and repeatable signal directly related to anchor diameter. When the operating switch 21 is activated information from these three sensors 31, 32 and 33 is correlated within the programmable microprocessor controller 30 to provide a time related signal to the power supply 29 which then operates for the required time period to supply induction heating energy to the coil 22. Due to the critical nature of the temperature levels required, it is desirable to remove as much control as possible from the operator of the device. This is accomplished by providing the activating switch 21 of the momentary contact type which only begins the process, after which control is maintained by the microprocessor. Two warning lights 35 and 36 are provided on the heating unit. The first 35, green in color, is controlled by the microprocessor 30, and is illuminated when the unit is turned on or connected to line power, indicating to the operator that the unit is ready to use. A second warning light 36, red in color, also controlled by the microprocessor, illuminates when the momentary contact operating switch is.pressed and remains illuminated until the heating cycle is complete, after which it is turned off and the green warning light is illuminated informing the operator that the unit is ready to be applied to another anchor. In order to prevent an anchor from being heated twice, an arm or gate 37 is positioned on the sizing plate or receptacle 23 in such a position that it extends across the opening leading to the V-shaped opening in the sizing plate 23. The pivoted end of this gate 37 is spring loaded in order to return to its WO 2006/056058 PCT/CA2005/001781 12 normal, at rest, position across the V-shaped opening. The opposite end of the spring loaded arm rests against the normally closed microswitch 27, which is also mounted on the sizing plate, holding the switch 27 in its open position. When the unit is positioned before the anchor and moved in a forward direction, the movement of the exposed portion of the anchor into the V-shaped slot in the sizing plate 23 causes the gate 37 to move away from the microswitch 27, allowing it to close. This information, in the form of a measurable signal informs the microprocessor that the unit is positioned over an anchor to be activated allowing the unit to operate through one cycle, however, if the operating switch 21 is activated more than once without moving the unit away from the anchor to allow the gate to open the microswitch 27, the microprocessor is programmed to block further operation. When an inactivated anchor is to be processed the unit is positioned before the anchor and then moved forward till the anchor enters the angled sizing notch in the receptacle or sizing plate. The unit is then moved forward until the anchor will not enter the notch further. At this time, the pivoted gate 37, which normally rests across the opening to the receptacle 23, is also displaced rearwardly by the movement of the exposed portion of the anchor. This causes the switch 27 to move to its normally closed condition. Closing the switch 27 signals the microprocessor to allow sensor readings from the ambient temperature sensor 31, the humidity sensor 32 and the size sensor 33 to be correlated by the microprocessor to calculate optimum time for operation of the heating coil. At this time, the green warning light is illuminated to inform the operator that the unit is ready to be activated. WO 2006/056058 PCT/CA2005/001781 13 When the operator presses the momentary contact operating switch 21 a signal is sent to the microprocessor 30. On receipt of this signal, the microprocessor 30 turns off the green warning light and turns on the red warning light informing the operator that the heating process is under way. At the same time, the microprocessor sends a control signal to the power supply 29 which, in turn, supplies an alternating current of the preferred frequency to the heating coil for the precise amount of time required to heat the anchor and activate the adhesive. At the end of the heating cycle, the microprocessor 30 turns off the red warning light. The action of the green warning light is dependant upon the unit being removed from the activated anchor allowing the sizing plate gate switch to open. Since various modifications can be made in my invention as herein above described, and many apparently widely different embodiments of same made within the spirit and scope of the claims without departing from such spirit and scope, it is intended that all matter contained in the accompanying specification shall be interpreted as illustrative only and not in a limiting sense. WO 2006/056058 PCT/CA2005/001781 14 CLAIMS: 1. A method for affixing an anchor to a substrate layer comprising: drilling a hole in the substrate layer; providing an anchor having one end portion shaped and arranged to fit in the hole; providing on said one end portion of the anchor a surrounding layer of an adhesive of a character that it softens when heated and sets when it cools; inserting the portion with the adhesive layer thereon into the hole; a portion of the anchor being exposed outside the substrate layer out of the hole; applying inductive heating by an inductive heating device in a heating cycle to the exposed portion of the anchor sufficient to heat the adhesive layer in the hole so that the adhesive layer conforms to an exterior surface of the portion and to an interior surface of the hole; and allowing the adhesive layer to cool so as to set in the hole to attach the portion of the anchor to the hole. 2. The method according to Claim 1 wherein the portion includes projecting elements thereon for engaging into the adhesive layer. 3. The method according to Claim 1 or 2 wherein the portion is threaded. 4. The method according to Claim 1, 2 or 3 wherein the adhesive layer is cylindrical. 5. The method according to any one of Claims 1 to 4 wherein including varying the heating cycle in accordance with a size of the anchor so as WO 2006/056058 PCT/CA2005/001781 15 to effect a required level of heating for a selected anchor. 6. The method according to Claim 5 wherein the heating cycle is varied by measuring the size of the anchor. 7. The method according to Claim 6 including providing on the heating device a receptacle for receiving the anchor and for locating the heating device on the anchor and providing on the heating device a measuring device for measuring the anchor while located in the receptacle. 8. The method according to Claim 7 wherein the measuring device comprises a measuring arm movable relative to the heating device in response to engagement with the anchor. 9. The method according to any one of Claims 1 to 8 wherein the heating device includes a manually actuable switch for commencing the heating cycle and the heating cycle is automatically controlled by the heating device. 10. The method according to Claim 9 including detecting the presence of the anchor at the heating device and actuating the heating cycle only when the anchor is present. 11. The method according to Claim 9 or 10 including detecting the presence of the anchor at the heating device and actuating the heating cycle only once until heating device is removed from anchor. 12. The method according to any one of Claims 1 to 11 wherein the heating device includes an indicating light to confirm the heating cycle is complete. 13. The method according to any one of Claims 1 to 12 including varying the heating cycle in accordance with environmental conditions. WO 2006/056058 PCT/CA2005/001781 16 14. The method according to Claim 13 including providing on the heating device at least one sensor for the environmental conditions. 15. The method according to Claim 14 wherein the at least one sensor is arranged to measure temperature and humidity. 16. Apparatus for affixing an anchor into a drilled hole in a substrate layer wherein the anchor has one end portion shaped and arranged to fit in the hole with a layer of an adhesive of a character that it softens when heated and sets when it cools and an exposed portion of the anchor exposed outside the substrate layer out of the hole, the apparatus comprising: a manually movable housing for moving to the exposed portion of the anchor; an inductive heating coil mounted on the housing; a receptacle for locating the heating coil at the exposed portion of the anchor; a control for applying a heating cycle to the exposed portion of the anchor sufficient to heat the adhesive layer in the hole so that the adhesive layer conforms to an exterior surface of the portion and to an interior surface of the hole; a manually operable switch for commencing the heating cycle; the control being arranged to effect varying of the heating cycle in accordance with a size of the anchor so as to effect a required level of heating for a selected anchor. 17. The apparatus according to Claim 16 including a measuring device on the heating device for measuring the anchor while located in the receptacle. WO 2006/056058 PCT/CA2005/001781 17 18. The apparatus according to Claim 17 wherein the measuring device comprises a measuring arm movable relative to the heating device in response to engagement with the anchor. 19. The apparatus according to Claim 16, 17 or 18 including a detecting device for detecting the presence of the anchor at the heating device and wherein the control is arranged to actuate the heating cycle only when the anchor is present. 20. The apparatus according to Claim 19 wherein the detecting device and the control are arranged to actuate the heating cycle only once until heating device is removed from anchor. 21. The apparatus according to any one of Claims 16 to 20 including an indicating light to confirm the heating cycle is complete. 22. The method according to any one of Claims 16 to 21 including a sensor for measuring environmental conditions and wherein the control is arranged to vary the heating cycle in accordance with environmental conditions. 18 (54) Title: AFFIXING AN ANCHOR IN A DRILLED HOLE An anchor is fastened into a drilled hole in substrate layer such as concrete by providing on an end portion of the anchor a surrounding layer of an adhesive of a character that it softens when heated and sets when it cools with a portion of the anchor exposed outside the hole. The exposed portion is heated by an inductive heating device in a heating cycle where the heating cycle is actuated by the operator switch but accurately controlled and limited to a single operation in the presence of the anchor by a control in the device in dependence on sensed environmental conditions and a measured size of the anchor.

Full Text

WO 2006/056058 PCT/CA2005/001781
1
AFFIXING AN ANCHOR IN A DRILLED HOLE
This invention relates to a method of and apparatus for affixing an
anchor in a drilled hole.
It is well known that such drilled holes can be formed in concrete or
other materials but the field with which the present invention is concerned is
primarily concrete anchors.
The use of a setting or curing resin or other plastic material to bond
an anchor into a drilled hole is known from a number of prior art documents. In
particular US patent 6,484,471 of the present inventors issued November 26,
2002 discloses a method in which an anchor is inserted into a drilled hole with the
anchor having a central core within which is a chemical which reacts with oxygen
in an exothermic reaction to generate heat within the anchor to affect an adhesive
material on the exterior of the anchor.
It is known that the anchor itself may be formed of a threaded rod or
may be more complex in shape including a threaded section and a bottom insert
section. In most cases however the bottom insert section will have external
projections for engaging into the adhesive or resin material on the exterior
surface. Thus the arrangement disclosed herein can utilize any of the above
features including those disclosed in the above patent, disclosure of which is
incorporated herein by reference.
US Patent 6,484,471 describes the method of placing the adhesive
on the anchor, thus eliminating the problems involved with mixing adhesives,
usually consisting of two or more compounds, and after mixing, applying these
adhesives into holes provided for the anchors. The arrangement shown herein,
while useful under certain conditions, is expensive to manufacture and difficult to

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store and handle.
An induction heating head or probe is disclosed for example in US
patent 4,355,222 (Geithman) assigned to Boeing and issued October 19th, 1982.
This patent discloses a technique by which a cylindrical ferrite core is excited with
35 kHz energy for a period of about 10 seconds thereby heating the fastener to
approximately 600 degrees F.
SUMMARY OF THE INVENTION
It is one object of the present invention to provide an improved
method and apparatus for actuating an adhesive anchor in a hole for adhesive
attachment of the anchor in the hole.
According to the invention there is provided a method for affixing an
anchor to a substrate layer comprising:
drilling a hole in the substrate layer;
providing an anchor having one end portion shaped and arranged
to fit in the hole;
providing on said one end portion of the anchor a surrounding layer
of an adhesive of a character that it softens when heated and sets when it cools;
inserting the portion with the adhesive layer thereon into the hole;
a portion of the anchor being exposed outside the substrate layer
out of the hole;
applying inductive heating by an inductive heating device in a
heating cycle to the exposed portion of the anchor sufficient to heat the adhesive
layer in the hole so that the adhesive layer conforms to an exterior surface of the
portion and to an interior surface of the hole;
and allowing the adhesive layer to cool so as to set in the hole to

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attach the portion of the anchor to the hole.
Preferably the portion includes projecting elements thereon for
engaging into the adhesive layer for example the portion may be threaded.
Preferably the method includes varying the heating cycle in
accordance with a size of the anchor so as to effect a required level of heating for
a selected anchor.
Preferably the heating cycle is varied by measuring the size of the
anchor.
Preferably the method includes providing on the heating device a
receptacle for receiving the anchor and for locating the heating device on the
anchor and providing on the heating device a measuring device for measuring
the anchor while located in the receptacle.
Preferably the measuring device comprises a measuring arm
movable relative to the heating device in response to engagement with the
anchor.
Preferably the heating device includes a manually actuable switch
for commencing the heating cycle and the heating cycle is automatically
controlled by the heating device.
Preferably the method includes detecting the presence of the
anchor at the heating device and actuating the heating cycle only when the
anchor is present.
Preferably the method includes detecting the presence of the
anchor at the heating device and actuating the heating cycle only once until
heating device is removed from anchor.
Preferably the heating device includes an indicating light to confirm

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the heating cycle is complete.
Preferably the method includes varying the heating cycle in
accordance with environmental conditions.
Preferably the method includes providing on the heating device at
least one sensor for the environmental conditions.
Preferably the at least one sensor is arranged to measure
temperature and humidity.
According to a second aspect of the invention there is provided an
apparatus for affixing an anchor into a drilled hole in a substrate layer wherein the
anchor has one end portion shaped and arranged to fit in the hole with a layer of
an adhesive of a character that it softens when heated and sets when it cools and
an exposed portion of the anchor exposed outside the substrate layer out of the
hole, the apparatus comprising:
a manually movable housing for moving to the exposed portion of
the anchor;
an inductive heating coil mounted on the housing;
a receptacle for locating the heating coil at the exposed portion of
the anchor;
a control for applying a heating cycle to the exposed portion of the
anchor sufficient to heat the adhesive layer in the hole so that the adhesive layer
conforms to an exterior surface of the portion and to an interior surface of the
hole;
a manually operable switch for commencing the heating cycle;
the control being arranged to effect varying of the heating cycle in
accordance with a size of the anchor so as to effect a required level of heating for

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a selected anchor.
Preferably there is provided a measuring device on the heating
device for measuring the anchor while located in the receptacle.
Preferably the measuring device comprises a measuring arm
movable relative to the heating device in response to engagement with the
anchor.
Preferably there is provided a detecting device for detecting the
presence of the anchor at the heating device and wherein the control is arranged
to actuate the heating cycle only when the anchor is present.
Preferably the detecting device and the control are arranged to
actuate the heating cycle only once until heating device is removed from anchor.
Preferably there is provided an indicating light to confirm the
heating cycle is complete.
Preferably there is provided a sensor for measuring environmental
conditions and wherein the control is arranged to vary the heating cycle in
accordance with environmental conditions.
DESCRIPTION OF THE DRAWINGS
One embodiment of the invention will now be described in
conjunction with the accompanying drawings in which:
Figure 1 is a cross sectional view showing an anchor inserted into a
drilled hole prior to activation of the adhesive.
Figure 2 is a similar cross sectional view showing the anchor
inserted and in the process of being heated by an induction heating head.
Figure 3 is a cross sectional view showing the finished installed
anchor.

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Figure 4 is an isometric view of the anchor and induction heating
assembly with the housing omitted for convenience of illustration.
Figure 5 is schematic illustration of induction heating assembly of
Figure 4.
In the drawings like characters of reference indicate corresponding
parts in the different figures.
DETAILED DESCRIPTION
In Figure 1 is shown an anchor body 10 in the form of a rod with
external projections 11 in an upper portion 12 and projections 13 in a lower insert
portion 14 arranged to be inserted into a drilled hole 15 in a body of concrete 16
or the material.
The projections 11 and 13 are formed in the embodiment shown as
a continuous threaded section on the exterior of a rod. However other
projections can be provided in many different arrangements as is well known to
one skilled in the art.
The anchor 10 carries on its exterior surface a band 18 of an
adhesive which has the character that it softens when heated and sets when it
cools, such as a hot melt adhesive. Thus the band 18 is generally cylindrical
where an inner surface 19 in contact with and engagement with the exterior
surface of the rod so that it follows the shape of the surface with the projections
13. The band 18 has an exterior surface 20 which is generally cylindrical so as to
approximately match the cylindrical surface of the drilled hole 15. The adhesive
is thus formed with a thickness which is the difference between the exterior
diameter of the anchor 10 and the interior diameter of the hole 15. This thickness
is sufficient to allow the projections 13 to be received within the hole leaving a

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clearance between the exterior of the projection and the interior of the hole. The
difference in diameter is maintained relatively small so as to avoid providing
shear forces through the structure of the hot melt adhesive when force is applied
to the anchor.
Hot melt adhesive is readily available from many manufacturers and
has the property that it is solid and non-tacky at ambient temperatures but can be
melted at elevated temperatures well above ambient temperatures so that it flows
and thus can enter pores and intestacies to provide an effect bond as the
material cools and resets. Many different such thermoplastic materials are
readily available providing a required strength and temperature of melting as will
be determined by a person skilled in the art.
The anchor as supplied is inserted into the drilled hole 15 and an
induction heating head is applied over the upper section 11 of the anchor which is
exposed above the hole. This arrangement can be used to heat the exterior
portion 11 above the hole so that the heat is conducted through the body of the
anchor to the hot melt adhesive 18 to effect melting of the adhesive and
spreading of the adhesive into the interior between the anchor and the drilled
hole so as to provide bonding of the exterior surface of the adhesive into the
intestacies and pores of the drilled hole to adhesively attach the anchor into the
drilled hole.
After activation of the adhesive 18, the anchor is completed by a
bracket 9 which is held in place by a washer 8 clamped by a nut 7 on the
threaded portion 11.
One example is now described of a device and method which may
be used to produce a product at a considerably lower cost thereby making it

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8
economically feasible for use by a larger number of individuals and companies.
By retaining the concept of placing the adhesive on the anchor body as shown in
US Patent 6,484,471 but replacing the internal heat source with an external
source a much simpler and economical anchor can be produced.
The outside source of heat is generated by a known technology
generally referred to as induction heating. The process of induction heating relies
on induced currents (eddy currents) within material to produce heat within that
material. The basic components of an induction heating system are an
alternating current (AC) power supply, an induction coil and the article in which
heat is to be generated. The power supply sends an alternating current through
a coil, preferably placed in close proximity to the article to be heated. Under
these circumstances, eddy currents are induced within the article to be heated,
generating controllable amounts of heat without physical contact between the coil
and the article.
Alternating current at frequencies of 5 to 30 kHz are commonly
used and there is a direct relationship between the frequency of the alternating
current and the depth of heat penetration and the time taken to heat an article of
a given size. The induced current flow within an article is most intense on the
surface so the outside of an object will heat more rapidly than the inner portion.
It is desirable to cause the metallic portion of the anchor to reach
such a temperature that the attached heat sensitive adhesive is brought to a
temperature where, in the case of a two part adhesive coating, the activating
agent and the main adhesive component are caused to melt or liquefy, later to
cool and harden.
The method may use a single component adhesive is used, such as

WO 2006/056058 PCT/CA2005/001781
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a 'hot melt' adhesive, where enough heat must be generated to bring the
adhesive to a liquid or molten state. The use of induction heating provides the
rapid heating and precise control of temperatures required to accomplish this.
There are three primary variables involved in attaining the required
amount of heat, the first being the size of the anchor installed. There is, for the
most part, a direct relationship between the length and diameter of the various
anchors to be used with this system.
Two other variables, ambient temperature and humidity within the
immediate area of the anchor to be activated are important in order to determine
the precise amount of time the unit needs to operate to provide the required
temperature. Using known technology, two sensors are provided to make
measurable signals available to the microprocessor.
The control system of the heating device is arranged to control the
heating cycle in dependence upon these measured characteristics to ensure an
accurate application of heat to the exposed portion of the anchor and thus to the
adhesive.
The heating device 19 includes a manually portable housing 20
which can be lifted by the operator by a handle 20A and moved form anchor to
anchor located in a concrete substrate layer. The housing includes a circuit
having a manually operable switch 21 for actuation of heat to a coil 22.
The coil is located at a receptacle 23 in the form of a pair of
surfaces which define a V-shape by sides 24. This acts to locate the anchor
when in the V-shaped receptacle so that it is properly placed within the heating
coil above the receptacle 23.
At the receptacle is located a detecting or measuring arm 25 so that

WO 2006/056058 PCT/CA2005/001781
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as the anchor enters the receptacle it engages the arm 25 and depresses the
arm. The arm is mounted on a sensor 26 so that it can move in dependence
upon its engagement with the anchor surface of the exposed portion of the
anchor above the hole. The receptacle carries a micro-switch 27 which provides
an indication of when the anchor is properly located in the receptacle.
The circuit receives power from a source 28 controlled by a power
supply module 29. The power to the coil is controlled in a heating cycle of
required length for the conditions by a microprocessor controller 30. Input to the
microprocessor 30 is provided from the measuring arm sensor 26 and the gate
micro-switch 27 responsive to the presence of the anchor in the receptacle and
by environment sensors including temperature sensor 31 and humidity sensor 32.
The sizing plate or receptacle 23, mentioned in the technical
description, with its V-shaped opening (sizing notch) defined by sides 24 and the
position sensor (size (diameter) sensor) 33 provides a measurable signal, related
to the diameter of the exposed portion of the anchor, to the microprocessor 30 in
the following manner. With the anchor positioned in its hole in the substrate and
before the adhesive is activated, the unit carrying the sizing plate is positioned
before the anchor and moved toward the anchor, the exposed portion of the
anchor enters the V-shaped notch in the sizing plate. At some point, dependant
on the diameter of the anchor, the sizing plate can not be moved further in a
forward direction because the anchor has come to rest against both angle edges
of the V-shaped notch. During this operation, the sizing sensor arm 25 is forced
rearward by contact with the exposed portion of the anchor and a measurable
signal is made available to the microprocessor indicating the diameter of the
exposed portion of the anchor.

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The sizing sensor 26 may be of known technology such as a
resistance measuring device which is calibrated in relation to the length and
angle of the sizing slot edges so as to provide and accurate and repeatable
signal directly related to anchor diameter.
When the operating switch 21 is activated information from these
three sensors 31, 32 and 33 is correlated within the programmable
microprocessor controller 30 to provide a time related signal to the power supply
29 which then operates for the required time period to supply induction heating
energy to the coil 22.
Due to the critical nature of the temperature levels required, it is
desirable to remove as much control as possible from the operator of the device.
This is accomplished by providing the activating switch 21 of the momentary
contact type which only begins the process, after which control is maintained by
the microprocessor. Two warning lights 35 and 36 are provided on the heating
unit. The first 35, green in color, is controlled by the microprocessor 30, and is
illuminated when the unit is turned on or connected to line power, indicating to the
operator that the unit is ready to use. A second warning light 36, red in color,
also controlled by the microprocessor, illuminates when the momentary contact
operating switch is.pressed and remains illuminated until the heating cycle is
complete, after which it is turned off and the green warning light is illuminated
informing the operator that the unit is ready to be applied to another anchor.
In order to prevent an anchor from being heated twice, an arm or
gate 37 is positioned on the sizing plate or receptacle 23 in such a position that it
extends across the opening leading to the V-shaped opening in the sizing plate
23. The pivoted end of this gate 37 is spring loaded in order to return to its

WO 2006/056058 PCT/CA2005/001781
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normal, at rest, position across the V-shaped opening. The opposite end of the
spring loaded arm rests against the normally closed microswitch 27, which is also
mounted on the sizing plate, holding the switch 27 in its open position. When the
unit is positioned before the anchor and moved in a forward direction, the
movement of the exposed portion of the anchor into the V-shaped slot in the
sizing plate 23 causes the gate 37 to move away from the microswitch 27,
allowing it to close. This information, in the form of a measurable signal informs
the microprocessor that the unit is positioned over an anchor to be activated
allowing the unit to operate through one cycle, however, if the operating switch 21
is activated more than once without moving the unit away from the anchor to
allow the gate to open the microswitch 27, the microprocessor is programmed to
block further operation.
When an inactivated anchor is to be processed the unit is
positioned before the anchor and then moved forward till the anchor enters the
angled sizing notch in the receptacle or sizing plate. The unit is then moved
forward until the anchor will not enter the notch further. At this time, the pivoted
gate 37, which normally rests across the opening to the receptacle 23, is also
displaced rearwardly by the movement of the exposed portion of the anchor. This
causes the switch 27 to move to its normally closed condition. Closing the switch
27 signals the
microprocessor to allow sensor readings from the ambient temperature sensor
31, the humidity sensor 32 and the size sensor 33 to be correlated by the
microprocessor to calculate optimum time for operation of the heating coil. At this
time, the green warning light is illuminated to inform the operator that the unit is
ready to be activated.

WO 2006/056058 PCT/CA2005/001781
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When the operator presses the momentary contact operating switch
21 a signal is sent to the microprocessor 30. On receipt of this signal, the
microprocessor 30 turns off the green warning light and turns on the red warning
light informing the operator that the heating process is under way. At the same
time, the microprocessor sends a control signal to the power supply 29 which, in
turn, supplies an alternating current of the preferred frequency to the heating coil
for the precise amount of time required to heat the anchor and activate the
adhesive. At the end of the heating cycle, the microprocessor 30 turns off the red
warning light. The action of the green warning light is dependant upon the unit
being removed from the activated anchor allowing the sizing plate gate switch to
open.
Since various modifications can be made in my invention as herein
above described, and many apparently widely different embodiments of same
made within the spirit and scope of the claims without departing from such spirit
and scope, it is intended that all matter contained in the accompanying
specification shall be interpreted as illustrative only and not in a limiting sense.

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CLAIMS:
1. A method for affixing an anchor to a substrate layer
comprising:
drilling a hole in the substrate layer;
providing an anchor having one end portion shaped and arranged
to fit in the hole;
providing on said one end portion of the anchor a surrounding layer
of an adhesive of a character that it softens when heated and sets when it cools;
inserting the portion with the adhesive layer thereon into the hole;
a portion of the anchor being exposed outside the substrate layer
out of the hole;
applying inductive heating by an inductive heating device in a
heating cycle to the exposed portion of the anchor sufficient to heat the adhesive
layer in the hole so that the adhesive layer conforms to an exterior surface of the
portion and to an interior surface of the hole;
and allowing the adhesive layer to cool so as to set in the hole to
attach the portion of the anchor to the hole.
2. The method according to Claim 1 wherein the portion
includes projecting elements thereon for engaging into the adhesive layer.
3. The method according to Claim 1 or 2 wherein the portion is
threaded.
4. The method according to Claim 1, 2 or 3 wherein the
adhesive layer is cylindrical.
5. The method according to any one of Claims 1 to 4 wherein
including varying the heating cycle in accordance with a size of the anchor so as

WO 2006/056058 PCT/CA2005/001781
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to effect a required level of heating for a selected anchor.
6. The method according to Claim 5 wherein the heating cycle
is varied by measuring the size of the anchor.
7. The method according to Claim 6 including providing on the
heating device a receptacle for receiving the anchor and for locating the heating
device on the anchor and providing on the heating device a measuring device for
measuring the anchor while located in the receptacle.
8. The method according to Claim 7 wherein the measuring
device comprises a measuring arm movable relative to the heating device in
response to engagement with the anchor.
9. The method according to any one of Claims 1 to 8 wherein
the heating device includes a manually actuable switch for commencing the
heating cycle and the heating cycle is automatically controlled by the heating
device.
10. The method according to Claim 9 including detecting the
presence of the anchor at the heating device and actuating the heating cycle only
when the anchor is present.
11. The method according to Claim 9 or 10 including detecting
the presence of the anchor at the heating device and actuating the heating cycle
only once until heating device is removed from anchor.
12. The method according to any one of Claims 1 to 11 wherein
the heating device includes an indicating light to confirm the heating cycle is
complete.
13. The method according to any one of Claims 1 to 12 including
varying the heating cycle in accordance with environmental conditions.

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16
14. The method according to Claim 13 including providing on the
heating device at least one sensor for the environmental conditions.
15. The method according to Claim 14 wherein the at least one
sensor is arranged to measure temperature and humidity.
16. Apparatus for affixing an anchor into a drilled hole in a
substrate layer wherein the anchor has one end portion shaped and arranged to
fit in the hole with a layer of an adhesive of a character that it softens when
heated and sets when it cools and an exposed portion of the anchor exposed
outside the substrate layer out of the hole, the apparatus comprising:
a manually movable housing for moving to the exposed portion of
the anchor;
an inductive heating coil mounted on the housing;
a receptacle for locating the heating coil at the exposed portion of
the anchor;
a control for applying a heating cycle to the exposed portion of the
anchor sufficient to heat the adhesive layer in the hole so that the adhesive layer
conforms to an exterior surface of the portion and to an interior surface of the
hole;
a manually operable switch for commencing the heating cycle;
the control being arranged to effect varying of the heating cycle in
accordance with a size of the anchor so as to effect a required level of heating for
a selected anchor.
17. The apparatus according to Claim 16 including a measuring
device on the heating device for measuring the anchor while located in the
receptacle.

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17
18. The apparatus according to Claim 17 wherein the measuring
device comprises a measuring arm movable relative to the heating device in
response to engagement with the anchor.
19. The apparatus according to Claim 16, 17 or 18 including a
detecting device for detecting the presence of the anchor at the heating device
and wherein the control is arranged to actuate the heating cycle only when the
anchor is present.
20. The apparatus according to Claim 19 wherein the detecting
device and the control are arranged to actuate the heating cycle only once until
heating device is removed from anchor.
21. The apparatus according to any one of Claims 16 to 20
including an indicating light to confirm the heating cycle is complete.
22. The method according to any one of Claims 16 to 21
including a sensor for measuring environmental conditions and wherein the
control is arranged to vary the heating cycle in accordance with environmental
conditions.

18
(54) Title: AFFIXING AN ANCHOR IN A DRILLED HOLE

An anchor is fastened
into a drilled hole in substrate layer
such as concrete by providing on an end
portion of the anchor a surrounding layer
of an adhesive of a character that it softens
when heated and sets when it cools with a
portion of the anchor exposed outside the
hole. The exposed portion is heated by
an inductive heating device in a heating
cycle where the heating cycle is actuated
by the operator switch but accurately
controlled and limited to a single
operation in the presence of the anchor
by a control in the device in dependence
on sensed environmental conditions and
a measured size of the anchor.

Documents:

http://ipindiaonline.gov.in/patentsearch/GrantedSearch/viewdoc.aspx?id=dTtkfETYyK2TiRP1fvv9kQ==&loc=wDBSZCsAt7zoiVrqcFJsRw==

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Patent Number

270423

Indian Patent Application Number

2073/KOLNP/2007

PG Journal Number

52/2015

Publication Date

25-Dec-2015

Grant Date

21-Dec-2015

Date of Filing

07-Jun-2007

Name of Patentee

PATENT APPLIED TECHNOLOGY

Applicant Address

380, MCGEE STREET, WINNIPEG, MANITOBA R3G 1M9

Inventors:

#	Inventor's Name	Inventor's Address
1	STEED, WILLIAM	BUILDING C-109, BRAID STREET, NEW WESTMINSTER, BRITISH COLUMBIA V3L 5H4
2	LANGTRY, DAVID	BUILDING C-109, BRAID STREET, NEW WESTMINSTER, BRITISH COLUMBIA V3L 5H4

PCT International Classification Number

F16B 13/14

PCT International Application Number

PCT/CA2005/001781

PCT International Filing date

2005-11-24

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	60/630,655	2004-11-26	U.S.A.