KR101066925B1 - Automatic tension regulation apparatus for enamel- wire twisting and winding machine - Google Patents

Abstract

The present invention relates to a wire tensioning for wires and automatic tensioning device of the winding machine.

The configuration of the present invention is a device for winding the bobbin by twisting the wire (W) of several strands inside the frame (Q),

Twisting the wire by the driving force of the motor (M) (Twisting) is made of a drive force transmission device for winding in the bobbin (V),

Load cell L and powder clutch for automatically adjusting the tension applied to the wire when the strands W are twisted and wound on the bobbin V. Configure (P),

The load cell (L) is configured in an apparatus for winding the wire (W) to the bobbin by twisting (Twisting),

The powder clutch P is configured by a driving force transmission device for winding the wire rod by the driving force of the motor M to wind the bobbin V.

The present invention as described above allows the tension to be automatically adjusted when twisting a plurality of wires for the wire (twisting) to the bobbin does not disconnect the wire, as well as the twist pitch is constant without twisting and winding state It can be made favorable.

Bow, Bobbin, Load Cell, Load Cell Circuit Board, Powder Clutch, Traverse

Description

Automatic tension regulation apparatus for enamel- wire twisting and winding machine}

The present invention relates to a wire tensioning wire and automatic tensioning device of the winding machine, and more particularly, twisting a plurality of wires for the wire (Twisting) to be automatically adjusted when the coil wound on the wire rod Of course, the wire tension for the wire and the automatic tension control device of the winding machine is not twisted, not stretched, the twist pitch is constant, and the twisting and winding state is good.

In the present invention, the wire for the wire is mainly a material of enamel wire and is wound on the bobbin by twisting a plurality of wires for the wire to coat with an insulating material.

Tension applied to wire rods according to the wound diameter change (stretching diameter) of wire rod due to winding when winding wire rod for winding in bobbin by winding wire rod for conventional wire winding and winding machine In the past, precise tension control was not maintained because the tension was manually adjusted.

For this reason, wire rods were often disconnected and stretched, the twist pitch was not constant, and the twisting and winding state were poor.

In this case, the insulation coating in the next process is poor, and the current supply is not smooth when the coated wire (for example, enamel wire) is used.

Therefore, the present invention is invented to solve the conventional problems as described above, the object of the present invention is to twist the plurality of wires for the wire (Twisting) so that the tension can be automatically adjusted when winding the bobbin The wire rod is not disconnected, of course, does not stretch, the twist pitch is constant, and the twisting and winding state is good wire tension for the wire and winding device for providing an automatic tension control device.

As a means for achieving the object of the present invention by twisting the wire of several strands inside the frame (Twisting) by winding the bobbin (Twisting) the wire by using the driving force of the device and the motor winding the bobbin (winding on the bobbin) A load cell for automatically adjusting the tension applied to the wire when the wires of the several strands are twisted and wound on the bobbin; In other words, it is also called an electronic scale] and a powder clutch.

The present invention as described above can obtain the following effects.

That is, by twisting a plurality of wires for wires, the tension can be automatically adjusted when winding the bobbin so that the wires are not disconnected and the twisting pitch is constant without being stretched, and the twisting and winding state are good. You can do it.

Hereinafter, illustrated in detail with reference to the accompanying drawings as follows.

1, 2 and 5 shown by using a driving force of the motor (M) and the device to wind the bobbin by twisting (twisting) several strands of wire (W) inside the frame (Q). Twisting the wire (Twisting) is made of a drive force transmission device for winding on the bobbin (V), the wires (W) of the several strands are twisted (Twisting) is applied to the wire rod when wound on the bobbin (V) Load cell for automatically adjusting the tension [Load cell; In other words, it is also referred to as electronic scale] (L) and powder clutch (P).

It describes a device for winding the bobbin by twisting the wire (W).

That is, a path in which the wire W is twisted and wound around the bobbin V will be described with reference to FIGS. 5 and 7, but will be described with reference to FIGS. 1 and 2 as necessary.

1 and 5, the primary guide roller 2 and the secondary guide roller 3 are installed on the first and second main shafts 1, 1a, which are arranged on both sides, and the first and second guide rollers 3 are disposed on the sides thereof. The second ply wheel 4 and 5 are coupled to each other, and the bow 6 is coupled between the first and second fly wheels 4 and 5 and corresponding to the bow 6. Balanced bow 7 is configured in the direction.

First and second support plates 8 and 9 (see FIGS. 1 and 2) are coupled to the first and second main shafts 1 and 1a, respectively, to form an inner side of the second support plate 9. The first guide roller 10 is installed, and the pitch roller 11 and the idle roller 12 are coupled to the upper side of the first guide roller 10, and the second guide roller is rearward of the pitch roller 11. (13) is installed, and a third guide roller (14) is installed on the front first support plate (8) of the second guide roller (13).

A traverse shaft 15 is installed in the transverse direction between the first and second support plates 8 and 9, and a traverse 16 is installed in the traverse shaft 15, and a bracket 16a is provided in the traverse 16. It is integrally coupled with the bracket (16a) to install the fourth guide roller 17 in the transverse direction and the fifth guide roller 18 in the longitudinal direction. The bracket 16a is movably coupled to the guide shaft 51 provided in the transverse direction between the first and second support plates 8 and 9 as shown in FIG. 2.

As described above, the apparatus for winding the wire (W) to the bobbin by twisting the wire (W) is the primary guide roller (2) of the first main shaft (1), as shown in Figs. Bow 6, secondary guide roller 3, first guide roller 10, pitch roller 11 and idle roller 12 (the wire rod passes through the wire several times to prevent slippage) , The second guide roller 13, the third guide roller 14, the fourth guide roller 17, and the fifth guide roller 18 are sequentially wound on the bobbin V via the first guide roller 13.

A driving force transmission device for twisting the wire rod by using the driving force of the motor M and winding the bobbin V to be wound on the bobbin V will be described with reference to FIG. 5. It demonstrates with reference to.

As shown in FIG. 5, the first pulley 19 and the long shaft 20 forward are coupled to the drive shaft m of the motor M, and the first pulley 19 and the first belt 21 are connected to each other. 2 pulleys 22 are arranged on the first main shaft 1.

A third pulley 23 is installed on the first main shaft 1 and a fourth pulley 25 connected to the third pulley 23 and the second belt 24 is attached to the first support plate 8. It is installed by the pulley shaft (26).

A fifth pulley 27 is arranged on the pulley shaft 26 and a sixth pulley 29 connected to the fifth pulley 27 and the third belt 28 is arranged on the rotation shaft 30.

And one side of the third belt 28 is provided with a tension adjusting roller 31 for adjusting the tension of the belt.

The rotary shaft 30 is rotatably arranged in the transverse direction on the first and second support plates 8 and 9 on both sides, and the seventh and eighth pulleys 32 on the right end of the rotary shaft 30. ) And the ninth pulley 35 connected to the seventh pulley 32 and the fourth belt 34 is laid on the clutch shaft 36. And one side of the fourth belt 34 is provided with a tension adjusting roller 37 for adjusting the tension of the belt.

The clutch shaft 36 is rotatably arranged in the transverse direction on the second support plate 9, and coupled to the clutch shaft 36 by a powder clutch P on the left side and a tenth on the right side. The pulley 38 is built up.

The eleventh pulley 40 connected to the tenth pulley 38 and the fifth belt 39 is laid on the bobbin shaft 41, and the bobbin shaft 41 is transverse to the second support plate 9. And the bobbin (V) coupled to the left side of the bobbin shaft (41), the twelfth pulley (42) on the side of the eleventh pulley (40) to the right of the bobbin shaft (41). Stock up)

The first idler pulley af connected to the twelfth pulley 42 and the idler belt a is arranged on the shaft s, and a second idler pulley bf is disposed on the side of the first idler pulley af. It accumulates in the said shaft s.

The thirteenth pulley 44 connected to the second idler pulley bf and the sixth belt 43 is laid on the traverse shaft 15, and the traverse shaft 15 is formed on the first and second support plates ( 8) It is installed so that rotation is possible in the horizontal direction between (9).

The fourteenth pulley 46 connected to the eighth pulley 33 and the seventh belt 45 is laid on the pitch roller shaft 47, and the pitch roller shaft 47 is transverse to the second support plate 9. It is rotatably installed in the direction, but the pitch roller 11 is arranged on the left side of the pitch roller shaft 47, and the second support plate by the idle roller 12 in front of the pitch roller 11 by the shaft (12a) We build in (9).

A fifteenth pulley 48 is arranged at the front end of the long shaft 20 and a sixteenth pulley 50 connected to the fifteenth pulley 48 and the eighth belt 49 is connected to the second main shaft 1a. Stock up on.

As described above, the apparatus for transmitting the driving force for winding the wire rod by using the driving force of the motor M and winding the bobbin V has been described.

The guide shaft 51 is fixedly installed in the transverse direction between the first and second support plates 8 and 9 and the first and second brackets 52 and 53 are mounted on the guide shaft 51 by the first and second brackets 52 and 53. 2 Guide rollers 13 and third guide rollers 14 are provided, respectively.

The load cell L is configured as shown in FIG. 6 as an apparatus for automatically detecting the tension applied to the wire rod when the wire rod W is wound on the bobbin V. As shown in FIG.

That is, the load cell L is fixedly installed on the first support plate 8, and the second bracket 53 of the load cell L and the third guide roller 14 is fixed. The first and second spring connecting rods 54 and 55 are respectively configured to connect the coil spring 56 between the first and second spring connecting rods 54 and 55.

The load cell circuit board Lh is coupled to one side of the load cell L.

In the present invention configured as described above, as shown in FIGS. 1 and 5, when the motor M is driven, the driving force of the motor M is based on the driving shaft m, the first pulley 19, the first belt 21, 2nd pulley 22, 1st main shaft 1, 3rd pulley 23, 2nd belt 24, 4th pulley 25, pulley shaft 26, 5th pulley 27, 1st It is sequentially transmitted to the three belts 28, the sixth pulley 29, the rotating shaft 30, the seventh pulley 32 and the eighth pulley 33, and the fourth belt 34 from the seventh pulley 32. ), The ninth pulley 35, the clutch shaft 36, the tenth pulley 38, the fifth belt 39, the eleventh pulley 40, and the twelfth pulley 42. 11 The driving force is transmitted from the pulley 42 to the bobbin V by the bobbin shaft 41 to be rotated.

At the same time, the driving force is sequentially driven from the twelfth pulley 42 to the idle belt a, the first idle pulley af, the second idle pulley bf, the sixth belt 43 and the thirteenth pulley 44. To rotate the traverse shaft 15 and to move the traverse 16 horizontally.

The traverse 16 is a conventional device having a function of horizontally moving left and right when the traverse shaft 15 is rotated. -

In addition, the driving force is sequentially transmitted from the eighth pulley 33 via the seventh belt 45 and the fourth pulley 46 to rotate the pitch roller 11 through the pitch roller shaft 47.

In addition, the driving force of the motor M from the driving shaft m is sequentially transferred to the driving force through the long shaft 20, the fifteenth pulley 48, the eighth belt 49, and the sixteenth pulley 50, and the second main body. Rotate the shaft 1a and rotate the first and second ply wheels 4 and 5 by rotating the first and second main shafts 1 and 1a to cause the bow 6 and the balance bow. Rotate (7).

As described above, the plurality of wires W supplied from the wire feeder (not shown) are twisted and twisted at the left and the right of the bow 6 rotated by the driving force of the motor M. As described above, the wire (W) is to be wound around the bobbin (V) which is guided along the plurality of guide rollers to rotate.

However, when the wire rod W is wound on the bobbin V, the diameter of the bobbin V is increased by the wire rod wound up.

In this case, as the diameter of the bobbin V increases, the speed of winding the wire rod to the bobbin V increases, and thus the speed of pulling the wire rod W increases, and tension occurs in the wire rod W.

At this time, the wire rod W passing through the third guide roller 14 acts to pull the third guide roller 14 and pulls the second bracket 53 and the second spring connecting rod 55. At the same time, a pulling force is applied to the first spring connecting rod 54 through the coil spring 56 so that the load cell L senses the tension of the wire rod W.

At this time, the voltage of the powder clutch P is adjusted through the circuit device of the load cell circuit Lh, and the powder clutch P is adjusted by the voltage of the powder clutch P. The rotation speed of the bobbin (V) is adjusted by generating and inducing slip, which is a main function of.

As described above, the tension applied to the wire rod is automatically adjusted by the load cell L and the powder clutch P as the diameter of the bobbin V in which the wire rod is wound increases. The wire is not disconnected, of course, does not stretch, the twist pitch is constant, it is possible to improve the twisting and winding state.

1 is an overall configuration front view according to the present invention.

Figure 2 is an enlarged perspective view of the main portion excerpt according to the present invention.

3 is a bottom view along the line A-A of FIG. 1 in accordance with the present invention.

4 is a bottom view taken along line B-B of FIG. 1 in accordance with the present invention.

5 is an overall schematic configuration diagram illustrating a path in which a wire rod is twisted and wound on a bobbin and a path in which a driving force of a motor is transmitted according to the present invention.

6 is a perspective view showing an extract of a load cell configuration according to the present invention.

7 is a schematic diagram illustrating a path in which the wire rod according to the present invention is twisted and wound around the bobbin.

<Brief description of symbols for the main parts of the drawings>

L: Load Cell Lh: Load Cell Circuit Board

M: Motor P: Powder Clutch

Q: Frame W: Wire Rod

m: drive shaft

1, 1a: first and second main shafts 2, 3: primary and secondary guide rollers

4, 5: 1st and 2nd flywheel 6: Bow

7: Balance bow 8, 9: 1st and 2nd support plate

10: first guide roller 11: pitch roller

12: Children roller 13: 2nd guide roller

14: 3rd guide roller 15: traverse shaft

16: Traverse 17: 4th roller guide

18: 5th guide roller 19: 1st pulley

20: long shaft 21: first belt

22: second pulley 23: third pulley

24: 2nd belt 25: 4th pulley

26: pulley shaft 27: fifth pulley

28: third belt 29: sixth pulley

30: rotation axis 31, 37: tension adjusting roller

32, 33: 7th and 8th guide rollers 34: 4th belt

35: 9th pulley 36: clutch shaft

38: 10th pulley 39: fifth belt

40: eleventh pulley 41: bobbin shaft

42: 12th pulley 43: 6th belt

44: thirteenth pulley 45: seventh belt

46: 14th Pulley 47: Pitch Roller Shaft

48: fifteenth pulley 49: eighth belt

50: 16th Pulley 51: Guide Shaft

52, 53: First and second brackets 54: First spring connecting rod

55: second spring connecting rod 56: coil spring

Claims (4)

delete delete delete Twisting several strands of wire (W) on the inner side of the frame (Q) (winding) to the bobbin, and twisting the wire by the driving force of the motor (M) (Twisting) wound on the bobbin (V) It consists of a driving force transmission device for The apparatus for winding the bobbin by twisting the wire (W) of the several strands, Primary guide rollers 2 and secondary guide rollers 3 are provided on the first and second main shafts 1 and 1a, which are arranged on both sides, respectively, and the first and second ply wheels 4 on these sides. (5) is coupled and the bow (6) between the first and second ply wheel (4) (5), First and second support plates 8 and 9 are coupled to the first and second main shafts 1 and 1a, respectively, and the first guide roller 10 is inward of the second support plate 9. Install and combine the pitch roller 11 and the idle roller 12 to the upper side of the first guide roller 10, the second guide roller 13 is installed to the rear of the pitch roller 11, A third guide roller 14 is installed on the front first support plate 8 of the second guide roller 13, The traverse shaft 15 is installed in the transverse direction between the first and second support plates 8 and 9, and the traverse 16 is installed in the traverse shaft 15, and the traverse 16 is provided in the transverse direction. 4 and install the fifth guide roller 18 in the longitudinal direction with the guide roller 17, The driving force transmission device for winding the wire rod by the driving force of the motor (M) to wind the bobbin (V), The second pulley 22 coupled with the first pulley 19 and the long shaft 20 forward to the drive shaft m of the motor M and connected with the first pulley 19 and the first belt 21. To a first main shaft (1), a fourth pulley (23) to the first main shaft (1) and the third pulley (23) connected by the second belt (24) The pulley 25 is installed on the first support plate 8 as a pulley shaft 26, A fifth pulley 27 is arranged on the pulley shaft 26 and a sixth pulley 29 connected to the fifth pulley 27 and the third belt 28 is arranged on the rotation shaft 30, The rotary shaft 30 is rotatably arranged in the transverse direction on the first and second support plates 8 and 9 on both sides, and the seventh and eighth pulleys 32 on the right end of the rotary shaft 30. And a 9th pulley 35 connected to the seventh pulley 32 and the fourth belt 34 on the clutch shaft 36. The clutch shaft 36 is rotatably arranged on the second support plate 9 in a lateral direction, and the tenth pulley 38 is arranged on the right side of the clutch shaft 36. An eleventh pulley 40 connected to the fifth belt 39 is arranged on the bobbin shaft 41, and the bobbin shaft 41 is rotatably arranged on the second support plate 9 in a lateral direction. Combining and installing the bobbin (V) to the left side of the bobbin shaft (41), A first idler pulley is arranged on the right side of the bobbin shaft 41 on the side of the eleventh pulley 40 and connected to the twelfth pulley 42 by an idle belt a. af) is laid in the shaft s and a second idle pulley bf is laid in the shaft s on the side of the first idle pulley af, The thirteenth pulley 44 connected to the second idler pulley bf and the sixth belt 43 is laid on the traverse shaft 15, and the traverse shaft 15 is formed on the first and second support plates ( 8) (9) between the installation so as to rotate in the transverse direction, The fourteenth pulley 46 connected to the eighth pulley 33 and the seventh belt 45 is laid on the pitch roller shaft 47, and the pitch roller shaft 47 is transverse to the second support plate 9. The pitch roller 11 is arranged on the left side of the pitch roller shaft 47, and the idler roller 12 is placed in front of the pitch roller 11 to support the second support plate (a). 9) A fifteenth pulley 48 is arranged at the front end of the long shaft 20 and a sixteenth pulley 50 connected to the fifteenth pulley 48 and the eighth belt 49 is connected to the second main shaft 1a. It is made by building in Load cell L and powder clutch for automatically adjusting the tension applied to the wire when the strands W are twisted and wound on the bobbin V. Configure (P), The load cell L is fixed to the first support plate 8 together with the load cell circuit board Lh, and the second bracket 53 and the coil spring coupled to the third guide roller 14. 56), Powder clutch (Powder Clutch) (P) is installed on the clutch shaft 41 to adjust the rotational force of the bobbin (V), characterized in that the wire rod twisting for the wire and automatic tension control device.

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