Title of Invention	"DOUBLE TAKE-OFF NEEDLE AND METHOD FOR PRODUCING IT"
Abstract	A take-off needle (1) comprising a main hollow lance (2) having a distal end adapted to perform a pricking operation, said hollow lance (2) being connected to two pipes (12) each provided with a spigot (7) for it to be connected to a tube, said needle (1) being characterized in that it comprises a body (8) for holding the main hollow lance (2), said holding body (8) defining two internal cylindrical surfaces forming said pipes (12), and in that the main hollow lance (2) comprises, at its proximal end, a sleeve (10) having an internal channel (18) of which the distal end is connected to the proximal end of the main hollow lance (2), and of which the proximal end opens into the holding body (8), said sleeve (10) comprising at its proximal end two crescent-shaped surfaces (19) inclined towards the interior of the internal channel (18) and towards the distal end of the sleeve (10), each of said crescent-shaped surfaces (19) being disposed so as to extend in line with one of the internal cylindrical surfaces (12) of the holding body (8).

Title of Invention

"DOUBLE TAKE-OFF NEEDLE AND METHOD FOR PRODUCING IT"

Abstract

A take-off needle (1) comprising a main hollow lance (2) having a distal end adapted to perform a pricking operation, said hollow lance (2) being connected to two pipes (12) each provided with a spigot (7) for it to be connected to a tube, said needle (1) being characterized in that it comprises a body (8) for holding the main hollow lance (2), said holding body (8) defining two internal cylindrical surfaces forming said pipes (12), and in that the main hollow lance (2) comprises, at its proximal end, a sleeve (10) having an internal channel (18) of which the distal end is connected to the proximal end of the main hollow lance (2), and of which the proximal end opens into the holding body (8), said sleeve (10) comprising at its proximal end two crescent-shaped surfaces (19) inclined towards the interior of the internal channel (18) and towards the distal end of the sleeve (10), each of said crescent-shaped surfaces (19) being disposed so as to extend in line with one of the internal cylindrical surfaces (12) of the holding body (8).

Full Text	The invention concerns the general field of take-off needles adapted to be pricked through an elastic wall in order to take off liquid contained in a container closed by the wail. The invention more particularly concerns such a take-off needle which comprises a hollow lance generally formed from a fine steel tube provided at its distal end with a sharp pricking tip. This hollow lance is furthermore connected by its proximal end to two pipes each provided with a spigot for it to be connected to a tube. The pricking tip is adapted to pass through said elastic wall to enable the liquid to flow in the hollow lance towards the two pipes and tubes connected to the spigots, to take off liquid in two containers. The flow of the liquid in the lance towards the two pipes is thus divided into two such that half the liquid taken off is collected by each of the containers via a pipe. Such needles are for example used to take off liquid from a bottle closed by a rubber bung. The two spigots are then each connected in advance to a tube leading to a container. Next the needle is pricked into the bung such that its distal end passes through the bung and reaches the medium to be taken-off. The liquid to be taken off then flows to the two containers, each of the containers thus receiving half of the liquid taken-off, for example by gravity or with the help of a peristaltic pump or else by the pressurization of the bottle containing the liquid. The hollow lance and the two pipes are generally arranged in a Y to efficaciously divide the flow from the hollow lance to the pipes. These needles are referred to as "double needles". These double needles may be vented, that is to say that they comprise a second hollow lance, of smaller diameter than the main hollow lance, which is inserted in the main hollow lance. This second hollow lance allows the progressive introduction of air into the bottle containing the liquid to take off as the liquid flows in the main hollow lance. Such a vented needle makes it possible to carry out take-off operations from a fluid-tight bottle. Such double needles are known which comprise a hollow lance of which the proximal end is held in a polymer body defining an internal channel which extends from the proximal end of the hollow lance and which divides into two to form the two pipes leading to the two spigots. The division of the flow coming from the hollow lance is thus performed within the polymer body. The efficacy of this division may be measured by the difference in the volumes collected at the outlet of the two spigots, the volumes ideally being equal. The efficacy of the division here depends on the hydrodynamic quality of the pipes inside the polymer body, and in particular the capability of the pipes to divide the flow without creating disturbance in the flow. The object of the invention is to improve this type of double needle. To that end, the invention is directed to a take-off needle comprising a main hollow lance having a distal end adapted to perform a pricking operation, said hollow lance being connected to two pipes each provided with a spigot for it to be connected to a tube, said needle being characterized in that it comprises a body for holding the main hollow lance, said holding body defining two internal cylindrical surfaces forming said pipes, and in that the main hollow lance comprises, at its proximal end, a sleeve having an internal channel of which the distal end is connected to the proximal end of the main hollow lance, and of which the proximal end opens into the holding body, said sleeve comprising at its proximal end two crescent-shaped surfaces inclined towards the interior of the internal channel and towards the distal end of the sleeve, each of said crescent-shaped surfaces being disposed so as to extend in line with one of the internal cylindrical surfaces of the holding body. The internal geometry of such a needle ensures an equal distribution of the flow to each of the two pipes. The liquid to take off is led directly from the proximal end of the hollow lance to the two pipes, without dead space, that is to say without a zone in which the product could stagnate. A laminar flow of liquid can thus be established between the hollow lance and the two pipes. The extension of the cylindrical surfaces of the pipes into the sleeve of the hollow lance enables the presence of imperfections in the path of the liquid to be avoided. The flow of the liquid is consequently not disturbed in that flows along a pipe free of imperfections. Since the forms of the pipes and of the sleeve are complementary, the use of glue or any other surface preparation is furthermore avoided. Such a needle can consequently be mass produced at low cost. According to a preferred feature, the sleeve extends beyond the proximal end of the main hollow lance, the crescent-shaped surfaces being disposed away from the proximal end of the main hollow lance. The sleeve may furthermore be fixed to the holding body for improved rigidity of the needle. According to an advantageous embodiment, the sleeve is molded onto the main hollow lance. The sleeve may also comprise angular fool-proof devices which serve, for example, for positioning it in a mold. According to an embodiment, the needle further comprises a venting hollow lance inserted in the main hollow lance, the venting hollow lance passing through the internal channel of the sleeve, so as to form a vented needle. As for the main hollow lance, the venting hollow lance may comprise a support at its proximal end, the support being fixed to the holding body for improved rigidity of the needle. The support may also be molded onto the proximal end of the venting hollow tance. Furthermore, the holding body may be molded onto the sleeve and onto the support, so rigidly ensuring their positioning. According to a preferred feature, the holding body comprises a housing in which the sleeve is held; two pipes communicating with said housing; a housing for the support; said housings being aligned. The holding body may further comprise a connecting channel receiving the venting hollow lance and communicating with the two pipes. For a good connection of the two internal pipes of the holding body with the crescent-shaped surfaces, the sleeve may be elastically deformable. According to other advantageous features, the main hollow lance comprises a crushed heel at its distal end; the needle further comprises grasping means attached to the holding body. The invention also relates to a method of manufacturing a take-off needle as described earlier, said method comprising the following steps: - molding the sleeve onto the main hollow lance using a V-shaped core adapted to form the crescent-shaped surfaces on the sleeve; - molding the holding body onto the sleeve using two cylindrical core pins forming a V of the same form as said core. This method makes it possible to produce a take-off needle having the advantages cited above, in particular of avoiding the formation of imperfections in the junction zone extending between the proximal end of the main hollow lance and the two pipes, so as not to disturb the flow of the taken-off liquid. Other features and advantages of the invention appear in the light of the following description of a preferred embodiment, given by way of non-limiting example, and made with reference to the accompanying drawings in which: - Figure 1 is a perspective view of a needle according to the invention positioned for taking off liquid contained in a sealed bottle; - Figure 2 is a partial view in cross-section showing the cooperation of the take-off needle and the bung of the bottle of the arrangement of Figure 1; - Figure 3 is a perspective view of the take-off needle of Figure 1 which is shown with its accessories removed; - Figure 4 is a longitudinal cross-section of the take-off needle represented in Figure 3; - Figure 5 shows the main hollow lance, provided with its sleeve, which is used in the take-off needle of Figures 1 to 4; - Figure 6 is a perspective view of the venting hollow lance, provided with its support, which is used in the take-off needle of Figures 1 to 4; - Figure 7 is a perspective view of the hollow lances of Figures 5 and 6 arranged in cooperation with the pins in a V, this assembly enabling a holding body to be molded on to form the take-off needle of Figure 3; - Figure 8 is an enlarged view of the point of the V formed by the pins shown in Figure 7; - Figure 9 is a longitudinal cross-section of the assembly of Figure 7; - Figure 10 is a detail view of the cooperation between the pins in a V and the sleeve of the main hollow lance; - Figure 11 shows the product obtained after the holding body is molded onto the assembly of Figure 7, that is to say the take-off needle of Figure 3; - Figure 12 is a longitudinal cross-section of the take-off needle as presented in Figure 11; - Figure 13 is a perspective view in longitudinal cross-section of the holding body alone as molded onto the assembly of Figure 7; - Figure 14 is a perspective view in longitudinal cross-section of the holding body of Figure 13, this longitudinal cross-section being made here along a plane perpendicular to the plane of the longitudinal cross-section of Figure 13; and - Figures 15 and 16 are views of the pricking tip of the main hollow lance, respectively in lateral cross-section, and from the front. Figure 1 shows a common situation of use of a take-off needle 1 according to the invention. The main hollow lance 2 of the needle 1 is pricked onto the rubber bung 3 of a bottle 4 connecting a liquid to be taken off. Figure 2 is a view in cross-section showing the bung 3 with the main hollow lance 2 passing through it. The needle 1 is a vented needle in that it comprises a venting hollow iance 5 disposed coaxially relative to and within the main hollow lance 2. The arrows that can be seen in Figure 2, within the bottle 4, show the path along the main hollow lance 2 of the liquid taken off while air bubbles come out of the venting hollow lance 5 inside the bottle 4 progressively as the liquid contained in the bottle 4 is taken off. The venting filter 6 which can be seen in Figure 1, behind the needle 1, is connected to the venting hollow lance 5 and allows sterile air to be introduce into the bottle 4. The needle 1 comprises two spigots 7 projecting laterally from a holding body 8. These spigots 7 are connected to two internal pipes of the holding body 8 which are connected to the main hollow lance 2. The spigots 7 must consequently each be connected to a take-off tube (not shown) which thus enables the taken-off liquid to be collected. The flow of taken-off liquid flowing in the main hollow lance 2 is thus divided into two equal flows each directed to one of the spigots 7, which enables two equal volumes of taken off liquid to be obtained by a single take-off operation. The needle 1 furthermore comprises two gripping cheeks 9 adapted for its manual manipulation by the user. Figure 3 is a perspective representation of the take-off needle 1 after removal of the gripping cheeks 9 and the venting filter 6. The cross-section of Figure 4 shows the internal constitution of the needle 1. The main hollow lance 2 is fixed in a sleeve 10 over a portion of its length. In the same way, the venting hollow lance 5 is fixed in a support 11 also over a portion of its length. The back of the support 11 is open to the exterior to enable the venting hollow lance 5 to be in contact with the air, either directly, or via a venting filter 6 (see Figure 1) which can be inserted in a housing 13 provided for that purpose in the support 11. The holding body 8 forms a rigid structure holding the sleeve 10 and the support 11 in relation to each other such that the venting hollow lance 5 is inserted in the main hollow lance 2, the two hollow lances 2, 5 being coaxial. The holding body 8 defines in addition two pipes 12 forming a Y with the main hollow lance 2 to enable the flow in the hollow lance 2 to be divided into two separate and equal flows. The needle 1 further comprises, on each spigot 7, a collar 14 acting as an abutment for the tubes which are adapted to be connected to the spigots 7. The method of manufacturing the take-off needle 1 of the present example will now be described with reference to Figures 5 to 12. A first step consists of providing a main hollow lance 2 with a sleeve 10 to obtain the assembly represented in Figure 5. The hollow lance 2 is formed from a tube of stainless steel comprising an end adapted to form the proximal end of the hollow lance 2 (this is the end represented in Figure 5). The sleeve 10 is molded onto this end in a mold of appropriate form in order for the sleeve 10 to have a cylindrical general form on which two flats 15, 16 of different length are formed (see Figure 4), as well as three collars 17. On molding the sleeve 10 onto the main hollow lance 2, a core of appropriate form enables there to be formed in addition an internal channel 18 in the sleeve 10 of cylindrical form extending in line with the hollow lance 2 and comprising, at the proximal end of the sleeve 10, two crescent-shaped surfaces 19 inclined towards the interior of the internal channel 18 and towards the distal end of the sleeve 10. This core, enabling the internal channel 18 and the surfaces 19 to be formed, is in the shape of a Y obtained by the joining together of three cylinders corresponding to the negative forms of the inner channel 18 and of the two pipes 12 (see Figure 4). With reference to Figure 6, a second step consists of molding another sleeve, referred to here as support 11, onto a tube of stainless steel of diameter less than that forming the main hollow lance 2, this tube being adapted to form the venting hollow lance 5. In the same way, the support 11 is molded onto the venting hollow lance 5 by virtue of a mold of appropriate form to give it the external form visible in Figure 6, while an appropriate core enables the venting filter housing 13 (see Figure 4) to be formed within the support 11. Support 11 is such that the venting hollow lance 5 opens into the venting filter housing 13. The venting hollow lance 5 provided with its support 11 is then inserted into the main hollow lance 2, from the end with sleeve 10 in order to slide the venting hollow lance 5 inside the main hollow lance 2 (see Figure 7). With reference to Figures 7 to 10, the hollow lances 2, 5 are disposed in a mold in which an operation will be performed of molding on the holding body 8. This mold (not shown) enables the precise positioning of the sleeve 10 with respect to the support 11 in the respective positions that these parts must occupy with respect to each other in the finished needle (see Figure 4). The flats 15, 16 of the sleeve furthermore enables angular orientation of sleeve 10 about its longitudinal axis so as to locate the crescent-shaped surfaces 10 in a predetermined position. Figure 7 shows the result of the operation consisting of enclosing two cylindrical core pins 20 on the back of the sleeve. The two core pins 20 are beveled at their end so as to form a V when these two beveled ends are enclosed onto the venting hollow lance 5. The beveled end of each core pin 20 furthermore comprises a duct enabling a passage 21 to be formed for the venting hollow lance 5 when the two core pins 20 are closed (see Figure 8). Figure 9 is a longitudinal cross-section of the assembly of Figure 7 and shows in detail the cooperation of the core pins 20 once enclosed with the venting hollow lance 5 and the sleeve 10. The V formed by the core pins 20 reproduces the form of the core which enabled the crescent-shaped surfaces 19 to be produced. The core pins 20, when in the position of Figures 7 and 9, thus perfectly mates with the shape of the sleeve 10 at the crescent-shaped surfaces 19 (see Figure 10, which is a detail view of Figure 9, the venting hollow lance 5 not being shown in this Figure for greater clarity). Preferably the sleeve 10 is made from polymer material and the core pins 20 are of metal such that the metal/polymer contact is fluid-tight. The molding on of the holding body 8 is next performed in the mold which is adapted to form, around sleeve 10, support 11 and core pins 20, a holding body 8 of polymer in accordance with the external form in Figures 3 and 11. The core pins 20 are then withdrawn along their longitudinal axis after having formed the internal cylindrical surfaces of the holding body 8 which define the pipes 12. Figure 12, which is a longitudinal cross-section of the needle of Figure 11, shows a plan view of the arrangement of the sleeve 10 and the support 11 as was set by the holding body 8 being molded on, the latter in addition defining the pipes 12. This method consequently leads to the production of internal cylindrical surfaces (the pipes 12) extending partially into sleeve 10 (the crescent-shaped surfaces 19). The view of Figure 12 shows the crescent-shaped surfaces 10 in a position extending in line with the pipes 12. Figures 13 and 14 show the internal form of the holding body 8 obtained further to the operations described earlier. The cross-section of Figure 13 in a horizontal plane shows the communication between the pipes 12, a housing 22 receiving the sleeve 10, a connecting channel 23 adapted to receive the venting hollow lance 5, and a housing 24 for the support 11. The housings 22, 24 and the connecting channel 23 are formed for fluid-tight reception of the respective member with which they are adapted to cooperate. Figure 14 shows the same members 22, 23, 24 when a cross-section is taken of the holding body 8 in a vertical plane. Furthermore, with reference to Figures 15 and 16, the sharpened distal tip of the main hollow lance 2, that is to say the end which is adapted to perform a pricking operation, may be produced with a crushed heel 25 making it possible to limit the diameter of the opening of the beveled point of the main hollow lance 2. This provision makes it possible to avoid "coring", that is to say that it makes it possible to avoid cutting out a cylinder from the bung 3 of the bottle 4, at the time of piercing, that rubber cylinder potentially blocking the main hollow lance 2. The crushed heel 25 may advantageously be produced at the time of the operation of molding on the holding body 8 by situating a punch in the mold providing that molding-on operation. The punch may be actuated to strike the main hollow lance 2 when the latter is placed in the mold. Variant embodiments of the take-off needle described and of its method of manufacture may be envisaged without departing from the scope of the invention. In particular, methods of plastic deformation may be implemented to form the crescent-shaped surfaces 19. CLAIMS 1. A take-off needle (1) comprising a main hollow lance (2) having a distai end adapted to perform a pricking operation, said hollow lance (2) being connected to two pipes (12) each provided with a spigot (7) for it to be connected to a tube, said needle (1) being characterized in that it comprises a body (8) for holding the main hollow lance (2), said holding body (8) defining two internal cylindrical surfaces forming said pipes (12), and in that the main hollow lance (2) comprises, at its proximal end, a sleeve (10) having an internal channel (18) of which the distal end is connected to the proximal end of the main hollow lance (2), and of which the proximal end opens into the holding body (8), said sleeve (10) comprising at its proximal end two crescent-shaped surfaces (19) inclined towards the interior of the internal channel (18) and towards the distal end of the sleeve (10), each of said crescent-shaped surfaces (19) being disposed so as to extend in line with one of the internal cylindrical surfaces (12) of the holding body (8). 2. A take-off needle according to claim 1, characterized in that the sleeve (10) extends beyond the proximal end of the main hollow lance (2), the crescent-shaped surfaces (19) being disposed away from the proximal end of the main hollow lance (2). 3. A take-off needle according to one of claims 1 and 2, characterized in that the sleeve (10) is fixed to the holding body (8). 4. A take-off needle according to one of claims 1 to 3, characterized in that the sleeve (10) is molded onto the main hollow lance (2). 5. A take-off needle according to one of claims 1 to 4, characterized in that the sleeve (10) comprises angular fool-proof devices (15, 16). 6. A take-off needle according to one of claims 1 to 5, characterized in that it further comprises a venting hollow lance (5) inserted in the main hollow lance (2), the venting hollow lance (5) passing through the internal channel (18) of the sleeve (10). 7. A take-off needle according to claim 6, characterized in that the venting hollow lance (5) comprises a support (11) at its proximal end, the support (11) being fixed to the holding body (8). 8. A take-off needle according to claim 7, characterized in that the support (11) is molded onto the proximal end of the venting hollow lance (5). 9. A take-off needle according to one of claims 7 and 8, characterized in that the holding body (8) is molded onto the sleeve (10) and onto the support (11). 10. A take-off needle according to one of claims 7 to 9, characterized in that the holding body (8) comprises a housing (22) in which the sleeve (8) is held; two pipes (12) communicating with said housing (22); a housing (24) for the support (11); said housings (22, 24) being aligned. 11. A take-off needle according to claim 10, characterized in that the holding body (8) further comprises a connecting channel (23) receiving the venting hollow lance (5) and communicating with the two pipes (12). 12. A take-off needle according to one of claims 1 to 11, characterized in that the sleeve (10) is elastically deformable. 13. A take-off needle according to one of claims 1 to 12, characterized in that the main hollow lance (2) comprises a crushed heel (25) at its distal end. 14. A take-off needle according to one of claims 1 to 13, characterized in that it further comprises grasping means (9) attached to the holding body (8). 15. A method of manufacturing a take-off needle (1) in accordance with one of claims 1 to 14, the method comprising the following steps: - molding the sleeve (10) onto the main hollow iance (2) using a V-shaped core adapted to form the crescent-shaped surfaces (19) on the sleeve (10); - molding the holding body (8) onto the sleeve (10) using two cylindrical core pins (20) forming a V of the same form as said core.

Full Text

The invention concerns the general field of take-off needles adapted to be pricked through an elastic wall in order to take off liquid contained in a container closed by the wail.
The invention more particularly concerns such a take-off needle which comprises a hollow lance generally formed from a fine steel tube provided at its distal end with a sharp pricking tip. This hollow lance is furthermore connected by its proximal end to two pipes each provided with a spigot for it to be connected to a tube.
The pricking tip is adapted to pass through said elastic wall to enable the liquid to flow in the hollow lance towards the two pipes and tubes connected to the spigots, to take off liquid in two containers.
The flow of the liquid in the lance towards the two pipes is thus divided into two such that half the liquid taken off is collected by each of the containers via a pipe.
Such needles are for example used to take off liquid from a bottle closed by a rubber bung. The two spigots are then each connected in advance to a tube leading to a container. Next the needle is pricked into the bung such that its distal end passes through the bung and reaches the medium to be taken-off.
The liquid to be taken off then flows to the two containers, each of the containers thus receiving half of the liquid taken-off, for example by gravity or with the help of a peristaltic pump or else by the pressurization of the bottle containing the liquid.
The hollow lance and the two pipes are generally arranged in a Y to efficaciously divide the flow from the hollow lance to the pipes. These needles are referred to as "double needles".
These double needles may be vented, that is to say that they comprise a second hollow lance, of smaller diameter than the main hollow
lance, which is inserted in the main hollow lance. This second hollow lance allows the progressive introduction of air into the bottle containing the liquid to take off as the liquid flows in the main hollow lance. Such a vented needle makes it possible to carry out take-off operations from a fluid-tight bottle.
Such double needles are known which comprise a hollow lance of which the proximal end is held in a polymer body defining an internal channel which extends from the proximal end of the hollow lance and which divides into two to form the two pipes leading to the two spigots.
The division of the flow coming from the hollow lance is thus performed within the polymer body. The efficacy of this division may be measured by the difference in the volumes collected at the outlet of the two spigots, the volumes ideally being equal. The efficacy of the division here depends on the hydrodynamic quality of the pipes inside the polymer body, and in particular the capability of the pipes to divide the flow without creating disturbance in the flow.
The object of the invention is to improve this type of double needle.
To that end, the invention is directed to a take-off needle comprising a main hollow lance having a distal end adapted to perform a pricking operation, said hollow lance being connected to two pipes each provided with a spigot for it to be connected to a tube, said needle being characterized in that it comprises a body for holding the main hollow lance, said holding body defining two internal cylindrical surfaces forming said pipes, and in that the main hollow lance comprises, at its proximal end, a sleeve having an internal channel of which the distal end is connected to the proximal end of the main hollow lance, and of which the proximal end opens into the holding body, said sleeve comprising at its proximal end two crescent-shaped surfaces inclined towards the interior of the internal channel and towards the distal end of the sleeve, each of said crescent-shaped surfaces being disposed so as to extend in line with one of the internal cylindrical surfaces of the holding body.
The internal geometry of such a needle ensures an equal distribution of the flow to each of the two pipes.
The liquid to take off is led directly from the proximal end of the hollow lance to the two pipes, without dead space, that is to say without a zone in which the product could stagnate.
A laminar flow of liquid can thus be established between the hollow lance and the two pipes.
The extension of the cylindrical surfaces of the pipes into the sleeve of the hollow lance enables the presence of imperfections in the path of the liquid to be avoided. The flow of the liquid is consequently not disturbed in that flows along a pipe free of imperfections. Since the forms of the pipes and of the sleeve are complementary, the use of glue or any other surface preparation is furthermore avoided.
Such a needle can consequently be mass produced at low cost.
According to a preferred feature, the sleeve extends beyond the proximal end of the main hollow lance, the crescent-shaped surfaces being disposed away from the proximal end of the main hollow lance.
The sleeve may furthermore be fixed to the holding body for improved rigidity of the needle.
According to an advantageous embodiment, the sleeve is molded onto the main hollow lance. The sleeve may also comprise angular fool-proof devices which serve, for example, for positioning it in a mold.
According to an embodiment, the needle further comprises a venting hollow lance inserted in the main hollow lance, the venting hollow lance passing through the internal channel of the sleeve, so as to form a vented needle.
As for the main hollow lance, the venting hollow lance may comprise a support at its proximal end, the support being fixed to the holding body for improved rigidity of the needle. The support may also be molded onto the proximal end of the venting hollow tance.
Furthermore, the holding body may be molded onto the sleeve and onto the support, so rigidly ensuring their positioning.
According to a preferred feature, the holding body comprises a housing in which the sleeve is held; two pipes communicating with said housing; a housing for the support; said housings being aligned. The holding body may
further comprise a connecting channel receiving the venting hollow lance and communicating with the two pipes.
For a good connection of the two internal pipes of the holding body with the crescent-shaped surfaces, the sleeve may be elastically deformable.
According to other advantageous features, the main hollow lance comprises a crushed heel at its distal end; the needle further comprises grasping means attached to the holding body.
The invention also relates to a method of manufacturing a take-off needle as described earlier, said method comprising the following steps:
- molding the sleeve onto the main hollow lance using a V-shaped core adapted to form the crescent-shaped surfaces on the sleeve;
- molding the holding body onto the sleeve using two cylindrical core pins forming a V of the same form as said core.
This method makes it possible to produce a take-off needle having the advantages cited above, in particular of avoiding the formation of imperfections in the junction zone extending between the proximal end of the main hollow lance and the two pipes, so as not to disturb the flow of the taken-off liquid.
Other features and advantages of the invention appear in the light of the following description of a preferred embodiment, given by way of non-limiting example, and made with reference to the accompanying drawings in which:
- Figure 1 is a perspective view of a needle according to the invention positioned for taking off liquid contained in a sealed bottle;
- Figure 2 is a partial view in cross-section showing the cooperation of the take-off needle and the bung of the bottle of the arrangement of Figure 1;
- Figure 3 is a perspective view of the take-off needle of Figure 1 which is shown with its accessories removed;
- Figure 4 is a longitudinal cross-section of the take-off needle represented in Figure 3;
- Figure 5 shows the main hollow lance, provided with its sleeve, which is used in the take-off needle of Figures 1 to 4;
- Figure 6 is a perspective view of the venting hollow lance, provided with its support, which is used in the take-off needle of Figures 1 to 4;
- Figure 7 is a perspective view of the hollow lances of Figures 5 and 6 arranged in cooperation with the pins in a V, this assembly enabling a holding body to be molded on to form the take-off needle of Figure 3;
- Figure 8 is an enlarged view of the point of the V formed by the pins shown in Figure 7;
- Figure 9 is a longitudinal cross-section of the assembly of Figure 7;
- Figure 10 is a detail view of the cooperation between the pins in a V and the sleeve of the main hollow lance;
- Figure 11 shows the product obtained after the holding body is molded onto the assembly of Figure 7, that is to say the take-off needle of Figure 3;
- Figure 12 is a longitudinal cross-section of the take-off needle as presented in Figure 11;
- Figure 13 is a perspective view in longitudinal cross-section of the holding body alone as molded onto the assembly of Figure 7;
- Figure 14 is a perspective view in longitudinal cross-section of the holding body of Figure 13, this longitudinal cross-section being made here along a plane perpendicular to the plane of the longitudinal cross-section of Figure 13; and
- Figures 15 and 16 are views of the pricking tip of the main hollow lance, respectively in lateral cross-section, and from the front.
Figure 1 shows a common situation of use of a take-off needle 1 according to the invention. The main hollow lance 2 of the needle 1 is pricked onto the rubber bung 3 of a bottle 4 connecting a liquid to be taken off.
Figure 2 is a view in cross-section showing the bung 3 with the main hollow lance 2 passing through it. The needle 1 is a vented needle in that it comprises a venting hollow iance 5 disposed coaxially relative to and within the main hollow lance 2. The arrows that can be seen in Figure 2, within the bottle 4, show the path along the main hollow lance 2 of the liquid taken off while air
bubbles come out of the venting hollow lance 5 inside the bottle 4 progressively as the liquid contained in the bottle 4 is taken off.
The venting filter 6 which can be seen in Figure 1, behind the needle 1, is connected to the venting hollow lance 5 and allows sterile air to be introduce into the bottle 4.
The needle 1 comprises two spigots 7 projecting laterally from a holding body 8. These spigots 7 are connected to two internal pipes of the holding body 8 which are connected to the main hollow lance 2. The spigots 7 must consequently each be connected to a take-off tube (not shown) which thus enables the taken-off liquid to be collected.
The flow of taken-off liquid flowing in the main hollow lance 2 is thus divided into two equal flows each directed to one of the spigots 7, which enables two equal volumes of taken off liquid to be obtained by a single take-off operation.
The needle 1 furthermore comprises two gripping cheeks 9 adapted for its manual manipulation by the user.
Figure 3 is a perspective representation of the take-off needle 1 after removal of the gripping cheeks 9 and the venting filter 6.
The cross-section of Figure 4 shows the internal constitution of the needle 1.
The main hollow lance 2 is fixed in a sleeve 10 over a portion of its length. In the same way, the venting hollow lance 5 is fixed in a support 11 also over a portion of its length.
The back of the support 11 is open to the exterior to enable the venting hollow lance 5 to be in contact with the air, either directly, or via a venting filter 6 (see Figure 1) which can be inserted in a housing 13 provided for that purpose in the support 11.
The holding body 8 forms a rigid structure holding the sleeve 10 and the support 11 in relation to each other such that the venting hollow lance 5 is inserted in the main hollow lance 2, the two hollow lances 2, 5 being coaxial.
The holding body 8 defines in addition two pipes 12 forming a Y with the main hollow lance 2 to enable the flow in the hollow lance 2 to be divided into two separate and equal flows.
The needle 1 further comprises, on each spigot 7, a collar 14 acting as an abutment for the tubes which are adapted to be connected to the spigots 7.
The method of manufacturing the take-off needle 1 of the present example will now be described with reference to Figures 5 to 12.
A first step consists of providing a main hollow lance 2 with a sleeve 10 to obtain the assembly represented in Figure 5.
The hollow lance 2 is formed from a tube of stainless steel comprising an end adapted to form the proximal end of the hollow lance 2 (this is the end represented in Figure 5). The sleeve 10 is molded onto this end in a mold of appropriate form in order for the sleeve 10 to have a cylindrical general form on which two flats 15, 16 of different length are formed (see Figure 4), as well as three collars 17.
On molding the sleeve 10 onto the main hollow lance 2, a core of appropriate form enables there to be formed in addition an internal channel 18 in the sleeve 10 of cylindrical form extending in line with the hollow lance 2 and comprising, at the proximal end of the sleeve 10, two crescent-shaped surfaces 19 inclined towards the interior of the internal channel 18 and towards the distal end of the sleeve 10. This core, enabling the internal channel 18 and the surfaces 19 to be formed, is in the shape of a Y obtained by the joining together of three cylinders corresponding to the negative forms of the inner channel 18 and of the two pipes 12 (see Figure 4).
With reference to Figure 6, a second step consists of molding another sleeve, referred to here as support 11, onto a tube of stainless steel of diameter less than that forming the main hollow lance 2, this tube being adapted to form the venting hollow lance 5.
In the same way, the support 11 is molded onto the venting hollow lance 5 by virtue of a mold of appropriate form to give it the external form visible
in Figure 6, while an appropriate core enables the venting filter housing 13 (see Figure 4) to be formed within the support 11.
Support 11 is such that the venting hollow lance 5 opens into the venting filter housing 13.
The venting hollow lance 5 provided with its support 11 is then inserted into the main hollow lance 2, from the end with sleeve 10 in order to slide the venting hollow lance 5 inside the main hollow lance 2 (see Figure 7).
With reference to Figures 7 to 10, the hollow lances 2, 5 are disposed in a mold in which an operation will be performed of molding on the holding body 8.
This mold (not shown) enables the precise positioning of the sleeve 10 with respect to the support 11 in the respective positions that these parts must occupy with respect to each other in the finished needle (see Figure 4). The flats 15, 16 of the sleeve furthermore enables angular orientation of sleeve 10 about its longitudinal axis so as to locate the crescent-shaped surfaces 10 in a predetermined position.
Figure 7 shows the result of the operation consisting of enclosing two cylindrical core pins 20 on the back of the sleeve. The two core pins 20 are beveled at their end so as to form a V when these two beveled ends are enclosed onto the venting hollow lance 5.
The beveled end of each core pin 20 furthermore comprises a duct enabling a passage 21 to be formed for the venting hollow lance 5 when the two core pins 20 are closed (see Figure 8).
Figure 9 is a longitudinal cross-section of the assembly of Figure 7 and shows in detail the cooperation of the core pins 20 once enclosed with the venting hollow lance 5 and the sleeve 10.
The V formed by the core pins 20 reproduces the form of the core which enabled the crescent-shaped surfaces 19 to be produced.
The core pins 20, when in the position of Figures 7 and 9, thus perfectly mates with the shape of the sleeve 10 at the crescent-shaped surfaces 19 (see Figure 10, which is a detail view of Figure 9, the venting hollow lance 5 not being shown in this Figure for greater clarity).
Preferably the sleeve 10 is made from polymer material and the core pins 20 are of metal such that the metal/polymer contact is fluid-tight.
The molding on of the holding body 8 is next performed in the mold which is adapted to form, around sleeve 10, support 11 and core pins 20, a holding body 8 of polymer in accordance with the external form in Figures 3 and 11.
The core pins 20 are then withdrawn along their longitudinal axis after having formed the internal cylindrical surfaces of the holding body 8 which define the pipes 12.
Figure 12, which is a longitudinal cross-section of the needle of Figure 11, shows a plan view of the arrangement of the sleeve 10 and the support 11 as was set by the holding body 8 being molded on, the latter in addition defining the pipes 12.
This method consequently leads to the production of internal cylindrical surfaces (the pipes 12) extending partially into sleeve 10 (the crescent-shaped surfaces 19).
The view of Figure 12 shows the crescent-shaped surfaces 10 in a position extending in line with the pipes 12.
Figures 13 and 14 show the internal form of the holding body 8 obtained further to the operations described earlier.
The cross-section of Figure 13 in a horizontal plane shows the communication between the pipes 12, a housing 22 receiving the sleeve 10, a connecting channel 23 adapted to receive the venting hollow lance 5, and a housing 24 for the support 11.
The housings 22, 24 and the connecting channel 23 are formed for fluid-tight reception of the respective member with which they are adapted to cooperate.
Figure 14 shows the same members 22, 23, 24 when a cross-section is taken of the holding body 8 in a vertical plane.
Furthermore, with reference to Figures 15 and 16, the sharpened distal tip of the main hollow lance 2, that is to say the end which is adapted to perform a pricking operation, may be produced with a crushed heel 25 making it

possible to limit the diameter of the opening of the beveled point of the main hollow lance 2. This provision makes it possible to avoid "coring", that is to say that it makes it possible to avoid cutting out a cylinder from the bung 3 of the bottle 4, at the time of piercing, that rubber cylinder potentially blocking the main hollow lance 2.
The crushed heel 25 may advantageously be produced at the time of the operation of molding on the holding body 8 by situating a punch in the mold providing that molding-on operation. The punch may be actuated to strike the main hollow lance 2 when the latter is placed in the mold.
Variant embodiments of the take-off needle described and of its method of manufacture may be envisaged without departing from the scope of the invention. In particular, methods of plastic deformation may be implemented to form the crescent-shaped surfaces 19.

CLAIMS
1. A take-off needle (1) comprising a main hollow lance (2) having a
distai end adapted to perform a pricking operation, said hollow lance (2) being
connected to two pipes (12) each provided with a spigot (7) for it to be
connected to a tube, said needle (1) being characterized in that it comprises a
body (8) for holding the main hollow lance (2), said holding body (8) defining
two internal cylindrical surfaces forming said pipes (12), and in that the main
hollow lance (2) comprises, at its proximal end, a sleeve (10) having an internal
channel (18) of which the distal end is connected to the proximal end of the
main hollow lance (2), and of which the proximal end opens into the holding
body (8), said sleeve (10) comprising at its proximal end two crescent-shaped
surfaces (19) inclined towards the interior of the internal channel (18) and
towards the distal end of the sleeve (10), each of said crescent-shaped surfaces
(19) being disposed so as to extend in line with one of the internal cylindrical
surfaces (12) of the holding body (8).
2. A take-off needle according to claim 1, characterized in that the sleeve (10) extends beyond the proximal end of the main hollow lance (2), the crescent-shaped surfaces (19) being disposed away from the proximal end of the main hollow lance (2).
3. A take-off needle according to one of claims 1 and 2, characterized in that the sleeve (10) is fixed to the holding body (8).
4. A take-off needle according to one of claims 1 to 3, characterized in that the sleeve (10) is molded onto the main hollow lance (2).
5. A take-off needle according to one of claims 1 to 4, characterized in that the sleeve (10) comprises angular fool-proof devices (15, 16).
6. A take-off needle according to one of claims 1 to 5, characterized in that it further comprises a venting hollow lance (5) inserted in the main hollow lance (2), the venting hollow lance (5) passing through the internal channel (18) of the sleeve (10).
7. A take-off needle according to claim 6, characterized in that the venting hollow lance (5) comprises a support (11) at its proximal end, the support (11) being fixed to the holding body (8).
8. A take-off needle according to claim 7, characterized in that the support (11) is molded onto the proximal end of the venting hollow lance (5).
9. A take-off needle according to one of claims 7 and 8, characterized in that the holding body (8) is molded onto the sleeve (10) and onto the support (11).

10. A take-off needle according to one of claims 7 to 9, characterized in that the holding body (8) comprises a housing (22) in which the sleeve (8) is held; two pipes (12) communicating with said housing (22); a housing (24) for the support (11); said housings (22, 24) being aligned.
11. A take-off needle according to claim 10, characterized in that the holding body (8) further comprises a connecting channel (23) receiving the venting hollow lance (5) and communicating with the two pipes (12).
12. A take-off needle according to one of claims 1 to 11, characterized in that the sleeve (10) is elastically deformable.
13. A take-off needle according to one of claims 1 to 12, characterized in that the main hollow lance (2) comprises a crushed heel (25) at its distal end.
14. A take-off needle according to one of claims 1 to 13, characterized in that it further comprises grasping means (9) attached to the holding body (8).
15. A method of manufacturing a take-off needle (1) in accordance with one of claims 1 to 14, the method comprising the following steps:

- molding the sleeve (10) onto the main hollow iance (2) using a V-shaped core adapted to form the crescent-shaped surfaces (19) on the sleeve (10);
- molding the holding body (8) onto the sleeve (10) using two cylindrical core pins (20) forming a V of the same form as said core.

Documents:

http://ipindiaonline.gov.in/patentsearch/GrantedSearch/viewdoc.aspx?id=ulnug1C4FqyP7C4TXPHIWg==&loc=+mN2fYxnTC4l0fUd8W4CAA==

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Patent Number

269539

Indian Patent Application Number

2506/DEL/2005

PG Journal Number

44/2015

Publication Date

30-Oct-2015

Grant Date

27-Oct-2015

Date of Filing

16-Sep-2005

Name of Patentee

EMD MILLIPORE CORPORATION

Applicant Address

290 CONCORD ROAD, BILLERICA, MASSACHUSETTS 01821, U.S.A.

Inventors:

#	Inventor's Name	Inventor's Address
1	JEROME GEYER	2 RUE DES PRES, WAHLENHEIM, FR67170, FRANCE.
2	NOLWENN STEPHAN	9 RUE DE LA NIEDERBOURG, ILLKIRCH, FR067400, FRANCE.
3	MATHIEU ARRAULT	37 RUE DU MARECHAL JOFFRE, SAVERNE, FR067700, FRANCE.

PCT International Classification Number

A61M 5/32

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	0411415	2004-10-26	France