Indian Patents. 220878:TOP ARM COMPACT PRESSURE UNIT

Title of Invention	TOP ARM COMPACT PRESSURE UNIT
Abstract	ABSTRACT Top arm compact pressure unit for textile machine comprises a main body, a handle to apply pressure a saddle fitted to the main body having from middle and back portion to allow yarn to pass through, a coil spring incorporated within the chamber said handle when activated generate and maintain mechanical pressure resulting in consistent yam thickness and improved strength of yam.

Full Text	Field of Invention The present invention relates to Textile Industry and more Particularly this invention relates to Top Arm compact pressure unit. Hitherto, in Textile Machine such as Simplex Machine, Spinning Machine wherein the Air Pressure is applied over the unit through Hose. This method has its own liabilities such as leakage of air, breakdown of compressor motor. Correspondingly the quality of yam is affected and also reduction in quality. Background of the Invention: In the existing technology, compressor motor for creating air pressure is found necessary. In order to operate the compressor, electrical energy is required. Even though. Air-pressure unit is of vogue from the early days of Textile Technology, it has its own disadvantage such as specific need of electricity with consequent maintenance problem in the compressor motor. In addition, during the period of power cut, the entire textile manufacturing unit would be left idle, there by causes degeneration of textile products. Further, energy saving is the need of the hour. In such context, it decided to innovate an alternate technology to replace the Air pressure unit. The objective of the invention is to overcome the problem in the prior art. Following are the draw-backs associated with the existing technology. 1. Total shutdown during power-cut. 2. Maintenance is required periodically. 3. Energy saving methodology is not followed. 4. Installation and dependency rate is high. 5. Capital investment is comparatively high. 6. Every resumption of textile unit after shutdown or failure in compression occurs, the yam m each and every top-arm at its end used to be terminated. It requires skilled labour to work again, manually. Various methods such as magnetic compression, hydraulic compression and electrical compression were tried. Though the compressive force was acquired, the net achievement was not satisfactory resulting m this invention. Summary of the Invention: Top arm compact pressure unit for textile machine is characterized in that it comprises a main body (3) where the handle (1) is fitter at the top, a handle (1) which is to apply required pressure, a saddle (2) which is fitted to the main body (3) having front, middle and back portion to allow yam to pass through, a chamber (8) where the coil spring (7) is incorporated, a enact platform (9) which is fitted at the top portion of the spring where the required pressure is applied, a pressure plate (10) which is fitted at the bottom portion of the coil spring (7), a pressure screw(12) which is fixed with pressure plate at the bottom where the required pressure is adjusted. Detailed Description of the Invention: In the field of textile musty, top arm compactor unit plays main role in producing good quality of yam. Main projective of the invention using mechanical force all the above said problems were solved. The Textiles Industry played a key role in fulfilling the one of the basic necessities of human bema. Quality yam produced better quality in Cloth. The Ring Frame top-arm pressure, is one of the main aspect to produce better quality yam. Therefore the Technology, now innovated is pressure applied thro' the coil. Hitherto, Pneumatic pressure Top-arm used in Textile Simplex wherein the Air pressure is causing leakage of air, breakdown of Compressor Motor etc., Correspondingly the quality of yam is affected with reduction in the quantity. Therefore we conducted trials with various methods for applying the pressure over the unit. We succeeded in our attempt and have invented the COMPACT PRESSURE UNIT without the disadvantages found in the pneumatic pressure unit. The Mechanical is applied over the unit. "Basic Amenity" with Energy saving and Quality Serving manner product by means of the newly innovated " COMPACT PRESSURE UNIT" The top arm pressure unit consists of, 1.Handle 2.saddle 3.Main body 4.clamp bracket 5.Air tube. 6.Rubber hose y.coil spring 8. chamber 9.Impact platform. 10.Pressure plate 11.Press unit. 12.Pressure screw When handle is pressed yarn pass through front middle and back roll of the saddle. When thread pass through the last saddle exact dimension is obtained. When air flow through the air tube (5) which is fitted with clamp bracket (4) air does not pass through evenly. Further rubber hose (6) get worn out resuk in leakage of air and break down of compressor. The object of the invention is overcome of the problem there by increase the quality of yarn. The inventor has provided a spring coil inside a chamber and mechanical pressure is applied through the coil. A chamber may be either circular or hexogonal as explained different embodiments of invention. In order to keep the coil spring 7 in place inside the chamber (8) there is provided an impact platform at the top of the spring and a pressure plate (10) at the bottom. (Fig 7 and 8). Press unit is denoted by numeral (11) Detailed Description of the Drawings: The invention will now be described in detail with reference to drawings accompany the complete specification. Figure 1 shows in elevation air pressing unit for simplex and spinning machine known in the art wherein the air inlet pipe is circular. Figure 2 shows in elevation air pressing unit for simplex and spinning machine known in the art wherein the air inlet pipe is hexagonal. Figure 3 shows top arm compact pressure unit according to the invention wherein the arm is in un-engaging position and when the spring is enclosed in a circular chamber. Figure 4 shows top arm compact pressure unit according to the invention wherein the arm is in engaging position and when the spring is enclosed in a circular chamber. Figure 5 shows top arm compact pressure unit accordingly to the invention, wherein the arm is in un-engaging position and when the spring is enclosed in a hexagonal chamber. Figure 6 show top arm compact pressure unit accordingly to the invention. wherein the arm is in engaging position and when the spring is enclosed in a hexagonal chamber. Figure 7 & 8 show how spring is fitted inside either the circular or hexagonal chamber. Referring to the drawings the unit consist a handle (I) fitted to the main body (3). The main body has a saddle (2). The saddle has front, middle and end portion to accommodate three rolls where the yam pass through. In the conventional method shown in Figure (1) air is passed through rubber hose (6) either in the circular steel pipe or hexognonai steel pipe. When handle is pressed yarn pass through front middle and back roll of the saddle. When thread pass through the last saddle exact dimension is obtained. When air flow through the air tube (5) which is fitted with clamp bracket (4) air does not pass through evenly. Further rubber hose (6) get worn out result in leakage of air and break down of compressor. The object of the invention is overcome of the problem there by increase the quality of yam. The inventor has provided a spring coil inside a chamber and mechanical pressure is applied through the coii. A chamber may be either circular or hexogonal as explained different embodiments of invention. In order to keep the coil spring 7 in place inside the chamber (8) there is provided an impact platform at the lop of the spring and a pressure plate (10) at the bottom. (Fig 7 and 8). Press unit is denoted by numeral (1!) Figure 1 and 2 illustrate the futures of conventional device wherein in Figure 1 the device has a circular pipe and in figure 2 the device has hcxogonal pipe. By virtue of the invention the tube and associated fitting means are eliminated figures 3 to 7 show various arrangements of mechanical spring coil to generate the required pressure. Figure 3 shows the arrangement of the mechanism when the handle is not operated and figure 4 when the handle is operated how the device will be in the operative condition where the spring is enclosed in a circular chamber. Similarly the hexional chamber is provided as enclosure shown in figure 5 and 6. Shown as different embodiments of The arrangement when the handle is in the inoperative and operative condition respective. Figure 7 and 8 explain the fixing arrangement of the coil spring. There is provided a pressure screw (12) to adjust the required pressure. By virtue of this arrangement the problem existing in the conventional system is eliminated. Further this invention when adopted result in saving energy and improvement in quality of yam. The adaptation of the invention is both economical and viable. 1 claim 1. A top arm compact pressure unit for textile machine characterized in that it comprises a main body(3) where the handle(l) is fitted at the top; a handle(l) which is to apply required pressure; a saddle (2) which is fitted to the main body(3) having front middle and back portion to allow yam to pass through; a chamber(8) where the coil spring(7) is incorporated, a impact platform (9) which is fitted at the top portion of the spring where the required pressure is applied; a pressure plate (10) which is fitted at the bottom portion of the coil spring (7) ; a pressure screw (12) which is fixed with pressure plate at the bottom where the required pressure is adjusted. 2. The top arm compact pressure unit as claimed in claim I wherein chamber is chuckler in shape. 3. The top arm compact pressure unit as claimed in claim I wherein chamber is hexagonal in shape. 4. The top arm compact pressure unit as claimed in claim 1 where coil spring (7) is made of steel alloys. 5. The top arm compact pressure unit as claimed in claim 1 wherein coil spring (7) is made any hardened polymeric material. 6. The top arm compact pressure unit substantially as herein described and illustrated with reference to accompanying drawings.

Full Text

Field of Invention
The present invention relates to Textile Industry and more Particularly this invention relates to Top Arm compact pressure unit. Hitherto, in Textile Machine such as Simplex Machine, Spinning Machine wherein the Air Pressure is applied over the unit through Hose. This method has its own liabilities such as leakage of air, breakdown of compressor motor. Correspondingly the quality of yam is affected and also reduction in quality.
Background of the Invention:
In the existing technology, compressor motor for creating air pressure is found necessary. In order to operate the compressor, electrical energy is required. Even though. Air-pressure unit is of vogue from the early days of Textile Technology, it has its own disadvantage such as specific need of electricity with consequent maintenance problem in the compressor motor. In addition, during the period of power cut, the entire textile manufacturing unit would be left idle, there by causes degeneration of textile products. Further, energy saving is the need of the hour. In such context, it decided to innovate an alternate technology to replace the Air pressure unit.
The objective of the invention is to overcome the problem in the prior art.
Following are the draw-backs associated with the existing technology.
1. Total shutdown during power-cut.
2. Maintenance is required periodically.
3. Energy saving methodology is not followed.
4. Installation and dependency rate is high.
5. Capital investment is comparatively high.

6. Every resumption of textile unit after shutdown or failure in compression occurs, the yam m each and every top-arm at its end used to be terminated. It requires skilled labour to work again, manually.
Various methods such as magnetic compression, hydraulic compression and electrical compression were tried. Though the compressive force was acquired, the net achievement was not satisfactory resulting m this invention.
Summary of the Invention:
Top arm compact pressure unit for textile machine is characterized in that it comprises a main body (3) where the handle (1) is fitter at the top, a handle (1) which is to apply required pressure, a saddle (2) which is fitted to the main body (3) having front, middle and back portion to allow yam to pass through, a chamber (8) where the coil spring (7) is incorporated, a enact platform (9) which is fitted at the top portion of the spring where the required pressure is applied, a pressure plate (10) which is fitted at the bottom portion of the coil spring (7), a pressure screw(12) which is fixed with pressure plate at the bottom where the required pressure is adjusted. Detailed Description of the Invention:
In the field of textile musty, top arm compactor unit plays main role in producing good quality of yam. Main projective of the invention using mechanical force all the above said problems were solved.
The Textiles Industry played a key role in fulfilling the one of the basic necessities of human bema. Quality yam produced better quality in Cloth. The Ring Frame top-arm pressure, is one of the main aspect to produce better quality yam. Therefore the Technology, now innovated is pressure applied thro' the coil. Hitherto, Pneumatic pressure Top-arm used in Textile Simplex wherein the Air pressure is causing leakage of air, breakdown of Compressor Motor etc.,

Correspondingly the quality of yam is affected with reduction in the quantity. Therefore we conducted trials with various methods for applying the pressure over the unit. We succeeded in our attempt and have invented the COMPACT PRESSURE UNIT without the disadvantages found in the pneumatic pressure unit. The Mechanical is applied over the unit. "Basic Amenity" with Energy saving and Quality Serving manner product by means of the newly innovated " COMPACT PRESSURE UNIT"
The top arm pressure unit consists of,
1.Handle
2.saddle
3.Main body
4.clamp bracket
5.Air tube.
6.Rubber hose
y.coil spring
8. chamber
9.Impact platform.
10.Pressure plate
11.Press unit.
12.Pressure screw
When handle is pressed yarn pass through front middle and back roll of the saddle. When thread pass through the last saddle exact dimension is obtained. When air flow through the air tube (5) which is fitted with clamp bracket (4) air does not pass through evenly. Further rubber hose (6) get worn out resuk in leakage of air and break down of compressor. The object of the invention is overcome of the problem there by increase the quality of yarn. The inventor has provided a spring coil inside a chamber and mechanical pressure is

applied through the coil. A chamber may be either circular or hexogonal as explained different embodiments of invention.
In order to keep the coil spring 7 in place inside the chamber (8) there is provided an impact platform at the top of the spring and a pressure plate (10) at the bottom. (Fig 7 and 8). Press unit is denoted by numeral (11)
Detailed Description of the Drawings:
The invention will now be described in detail with reference to drawings accompany the complete specification.
Figure 1 shows in elevation air pressing unit for simplex and spinning machine known in the art wherein the air inlet pipe is circular.
Figure 2 shows in elevation air pressing unit for simplex and spinning machine known in the art wherein the air inlet pipe is hexagonal.
Figure 3 shows top arm compact pressure unit according to the invention wherein the arm is in un-engaging position and when the spring is enclosed in a circular chamber.
Figure 4 shows top arm compact pressure unit according to the invention wherein the arm is in engaging position and when the spring is enclosed in a circular chamber.

Figure 5 shows top arm compact pressure unit accordingly to the invention, wherein the arm is in un-engaging position and when the spring is enclosed in a hexagonal chamber.
Figure 6 show top arm compact pressure unit accordingly to the invention. wherein the arm is in engaging position and when the spring is enclosed in a hexagonal chamber.
Figure 7 & 8 show how spring is fitted inside either the circular or hexagonal chamber.
Referring to the drawings the unit consist a handle (I) fitted to the main body (3). The main body has a saddle (2). The saddle has front, middle and end portion to accommodate three rolls where the yam pass through.
In the conventional method shown in Figure (1) air is passed through rubber hose (6) either in the circular steel pipe or hexognonai steel pipe.
When handle is pressed yarn pass through front middle and back roll of the saddle. When thread pass through the last saddle exact dimension is obtained. When air flow through the air tube (5) which is fitted with clamp bracket (4) air does not pass through evenly. Further rubber hose (6) get worn out result in leakage of air and break down of compressor. The object of the invention is overcome of the problem there by increase the quality of yam. The inventor has provided a spring coil inside a chamber and mechanical pressure is applied through the coii. A chamber may be either circular or hexogonal as explained different embodiments of invention.

In order to keep the coil spring 7 in place inside the chamber (8) there is provided an impact platform at the lop of the spring and a pressure plate (10) at the bottom. (Fig 7 and 8). Press unit is denoted by numeral (1!)
Figure 1 and 2 illustrate the futures of conventional device wherein in Figure 1 the device has a circular pipe and in figure 2 the device has hcxogonal pipe.
By virtue of the invention the tube and associated fitting means are eliminated figures 3 to 7 show various arrangements of mechanical spring coil to generate the required pressure. Figure 3 shows the arrangement of the mechanism when the handle is not operated and figure 4 when the handle is operated how the device will be in the operative condition where the spring is enclosed in a circular chamber.
Similarly the hexional chamber is provided as enclosure shown in figure 5 and 6. Shown as different embodiments of The arrangement when the handle is in the inoperative and operative condition respective. Figure 7 and 8 explain the fixing arrangement of the coil spring. There is provided a pressure screw (12) to adjust the required pressure.
By virtue of this arrangement the problem existing in the conventional system is eliminated. Further this invention when adopted result in saving energy and improvement in quality of yam. The adaptation of the invention is both economical and viable.

1 claim
1. A top arm compact pressure unit for textile machine characterized in that
it comprises a main body(3) where the handle(l) is fitted at the top; a
handle(l) which is to apply required pressure; a saddle (2) which is fitted
to the main body(3) having front middle and back portion to allow yam to
pass through; a chamber(8) where the coil spring(7) is incorporated, a
impact platform (9) which is fitted at the top portion of the spring where
the required pressure is applied; a pressure plate (10) which is fitted at the
bottom portion of the coil spring (7) ; a pressure screw (12) which is fixed
with pressure plate at the bottom where the required pressure is adjusted.
2. The top arm compact pressure unit as claimed in claim I wherein chamber
is chuckler in shape.
3. The top arm compact pressure unit as claimed in claim I wherein chamber
is hexagonal in shape.
4. The top arm compact pressure unit as claimed in claim 1 where coil
spring (7) is made of steel alloys.
5. The top arm compact pressure unit as claimed in claim 1 wherein coil spring (7) is made any hardened polymeric material.
6. The top arm compact pressure unit substantially as herein described and illustrated with reference to accompanying drawings.

Documents:

1825-che-2005 abstract duplicate.pdf

1825-che-2005 abstract.pdf

1825-che-2005 claims duplicate.pdf

1825-che-2005 claims.pdf

1825-che-2005 correspondence -others.pdf

1825-che-2005 correspondence -po.pdf

1825-che-2005 description (complete) duplicate.pdf

1825-che-2005 description (complete).pdf

1825-che-2005 drawings duplicate.pdf

1825-che-2005 drawings.pdf

1825-che-2005 form-1.pdf

1825-che-2005 form-18.pdf

1825-che-2005 form-9.pdf

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Patent Number

220878

Indian Patent Application Number

1825/CHE/2005

PG Journal Number

29/2008

Publication Date

18-Jul-2008

Grant Date

10-Jun-2008

Date of Filing

14-Dec-2005

Name of Patentee

RAMASAMY KUMARAVEL

Applicant Address

Inventors:

#	Inventor's Name	Inventor's Address
1	RAMASAMY KUMARAVEL

PCT International Classification Number

B65H59/00

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1			NA