KR100406974B1 - Tensioner - Google Patents

Abstract

The present invention relates to a strap, the tong plate for fixing the side ends of the tension material other than the tensioning material is possible to move in the tensile direction of the tensile material, as well as composed of a plurality of blocks that are spaced apart from each other, Simultaneously with the tension, the plurality of blocks are spaced apart from each other to achieve tension of the tensile material, thereby achieving uniform tension with respect to the entire surface of the tension material, and both the tong plates and both end tong plates are composed of a plurality of blocks. As it is possible to control the tension area of the tong plate is to improve the utility of the strap.

Description

Strapping Machine {TENSIONER}

TECHNICAL FIELD The present invention relates to a strap, and more particularly, to a strap such that a tong plate for supporting both ends of a tensile material moves in the tensile direction of the tensile material to achieve a strap of the tensile material.

In general, an elongating machine stretches and stretches the tensile material to precisely print on the surface of the tensile material, prints on the tensile surface of the tensile material, and maintains the printed tensile surface in the original material state. To achieve precise printing and so on.

As shown in FIG. 4, the conventional strap is composed of a tong plate 100, a work table 200, and a tensioning means.

The tong plate 100 comprises an upper plate 110 and a lower plate 120 to pinch and fix one end of the tensile material 90, and the upper plate 110 to closely contact the upper plate 110 and the lower plate 120. The clamp 130 is installed on the outside of the lower plate 120.

The upper plate 110 and the lower plate 120 is formed to form a rectangular plate shape, and is formed by attaching a rubber member to the inner surface where the upper plate 110 and the lower plate 120 abut.

The clamp 130 is in contact with one side of the outer surface of the upper plate 110 and the lower plate 120, and the bonding member in contact with the outer surface of the upper plate 110 and the lower plate 120 by the operator's operation is the center. It is formed to move in the direction.

Here, the tong plates 100 are each composed of four independent parts, and the four parts are arranged to form a rectangle.

In addition, the fixing groove 140 and the guide groove 150 is formed at the lower end of the one side clip plate 100.

The fixing groove 140 is formed so as to form a box shape and protrudes from the lower end of the center portion of the tong plate 100 to the outside, and is hollow so that the center portion of the fixing groove 140 can be inserted and fixed.

The guide groove 150 is formed in a box shape and protrudes from the lower side of both sides of the tong plate 100 formed with the fixing groove 140 to the outside, the longitudinal direction in which the tong plate 100 is arranged long in the center The slit is formed to be perpendicular to.

The workbench 200 is composed of a universal rectangular work frame, and a guide guide 210 protruding while being horizontal with the upper surface of the workbench 200 is formed at one side end thereof.

The guide table 210 is formed to protrude in a plate shape to the outside from both ends of the front end of the work platform 200 on which the clamping plate 100 formed with the fixing groove 140 and the guide groove 150 is seated, The guide grooves 150 are formed in the longitudinal direction in which the guides 210 are arranged in the longitudinal direction such that the guide grooves 150 are inserted and movable on the top surface thereof.

The tension means is in the lower fixing groove 140 of the tong plate 100 to move the one side tong plate 100 formed with the fixing groove 140 and the guide groove 150 to the outside of the work table 200. In addition to being connected and fixed, it consists of a hydraulic press 300 and a pressure rod 310 formed to press the tong plate 100.

The oil press 300 is a device for pressurizing a predetermined object by using a hydraulic pressure, and the pressurizing rod 310 is connected to the oil press 300 at one end thereof, and the other end of the press plate ( The center is bent to form a vertical so as to be fixed to the fixing groove 140 of the (100).

Here, each of the four tong plates 100 is fixed to the top surface of the worktable 200, respectively, the one side clamp plate 100 formed with the fixing groove 140 and the guide groove 150 is the guide plate 210 is coupled to the pressure rod 310.

Therefore, the operator rotates each of the clamps 130 formed on the outer side of the clamping plate 100 to space the gap between the upper and lower joining members of the clamp 130, and according to the separation of the clamps 130. The upper plate 110 and the lower plate 120 of the tong plate 100 are spaced apart while the fixing force close to each other is abolished.

An end of the tensile material 90 is inserted into a gap between the upper plate 110 and the lower plate 120, and the upper plate 110 and the lower plate 120 are inserted in the state where the end of the tensile material 90 is inserted. The clamp 130 installed on the outer side of the rotating operation by the operator is the upper plate 110 and the lower plate 120 is in close contact again.

As the upper plate 110 and the lower plate 120 of the tong plate 100 is in close contact with each other, one end of the tension material 90 is fixed in a straight line along the shape of the tong plate 100.

In this case, the tensile material 90 is generally formed in the same rectangular shape as the array shape of the forceps plate 100, and thus the four-direction side ends of the tensile material 90 constituting the rectangular shape are the four. It is fixed by the tong plates 100, respectively.

In the state where the four-way side ends of the tension material 90 are fixed by the tong plate 100, the tong plate 100 on which the guide groove 150 and the fixing groove 140 are formed is the oil pressure of the worker 300. It moves to the outside of the worktable 200 along the shape of the guide 210 by the operation).

Here, a predetermined pressure is applied to one end of the pressure bar 310 fixed to the inside of the oil pressure machine according to the operation of the oil pressure machine 300 of the worker, and the pressure is applied to one end of the pressure bar 310 of the oil pressure machine 300. As the pressure rod 310 is spaced apart from the oil press 300, as shown in FIG. 5, the pressure bar 310 is moved to the outside of the work table 200.

One side clip plate formed with the fixing groove 140 is formed while the fixing groove 140 fixed to the end of the pressure rod 310 is moved to the outside relative to the work table 200 is pressed outward with respect to the work table 200 100 is moved to the outside of the work table 200.

As the fixing groove 140 is formed, one side end of the tension material 90 fixed to the tongs plate 100 is pulled from the outside in accordance with the movement of the one tongs plate 100. Is tensioned.

At this time, one side end of the tension material 90 fixed to the moving tong plate 100 receives a force to be pulled outward, the three-way side end of the tension material 90 is fixed on the work table 200 While being fixed by the three tong plates 100, the external pressure by the one side of the tong plate 100 is moved to have a stress.

Here, the stress generated in the tensile material 90 is formed in the opposite direction to the direction in which the one end of the tension material 90 is pulled by the moving one side clip plate 100 is moved, accordingly the tension The side end of the tension material 90 fixed to the forceps plate 100 formed in a direction opposite to the one side end of the material 90 is opposite to the one end of the tension material 90 fixed to the forceps plate 100 to be moved. It will have a stress that is pulled in the direction.

In addition, both ends of the tension material 90 fixed by the forceps plate 100 on both sides fixed in the vertical direction with respect to the forceps plate 100 is pulled one end of the tension material 90 to be moved As the stress in the losing direction and the vertical direction is applied, the tension material 90 at both ends receives a force synthesized diagonally with respect to one end of the tension material 90 fixed by the moving tong plate 100. .

Here, the force applied to the tensile material 90 is, as shown in Figure 6, the end of the warp yarn 92 is pulled in one direction pulled by the forceps plate 100 is moved in one direction is fixed weft ( 91 is deformed while bending in the pulled direction.

Therefore, as the forceps plate 100 at one end is moved, tension is applied to the tensile material 90 fixed to the four forceps plates 100, and the surface of the tension material 90 is tensioned. Printing is achieved.

The technical problem to be achieved by the present invention is that the three side ends of the tensile material is fixed in accordance with the prior art, and only one side end of the tension material to which the three side ends are fixed to the tension material is made to move Accordingly, as shown in FIGS. 5 and 6, wrinkles are generated at each corner of the tensile material 90 while receiving the combined force in the direction in which the edge portions of the tensile material 90 are perpendicular to each other. 90) is to solve the problem that the uniform tension is impossible.

In addition, conventionally, as shown in Figure 7 for the measurement of the tensile force and the degree of elongation of the tensile material, a vise 400 which is moved in opposite directions to each other is provided, the tension material in the vise 400 Although the tension force of the tensile material 90 is measured while fixing the 90 to both sides, the tension material 90 fixed to the vise 400 and pulled to both sides has both ends thereof without a fixing force. As the shape of the initial tensile material 90 is deformed while being embedded inward, it is possible to solve the problem that precise measurement of the tensile material 90 is impossible.

An object of the present invention is to invent the above problems, and as the tong plates fixed to the end of the tension material in the same direction as the tension direction of the tension material is moved, uniformity for each part of the tension material It is to provide a strap that enables one tension.

Another object of the present invention is to provide a strap that can be tensioned and measured for a tension material of various sizes while the strap area is reduced or enlarged according to the size of the tension material.

It is still another object of the present invention to provide an epaulette which serves as a measuring device for measuring the tensile force and elongation through the uniform tension as well as precise printing on the tensile surface through uniform tension of the tensile material. .

1 is a perspective view of the separation and bonding of the strap according to the present invention.

Figure 2 is a state diagram of the operation of the strap according to the present invention.

Figure 3 is a tensile state of the fabric according to the invention.

4 is an exploded perspective view of a conventional strapping machine.

5 is a state diagram of the conventional strapping machine.

Figure 6 is a fabric tension state of the conventional strapping machine.

Figure 7 is a fabric tension measurement state in accordance with the prior art.

<Description of Symbols for Major Parts of Drawings>

10-Clip Plate 11-Support Plate

12-Mobile Home 13-Home

20-Roller 21-Roller Shaft

30-load plate 40-block

41-Top 42-Bottom

43-hole 44-clamp

45-shaft 50-controller

51-motor 52-motor shaft

53-Belt 54-Pulley

55-Ballscrew 56-Mounting Plate

57-encoder 58-sensor

60-Workbench 61-Fixture

62-Guide bar 90-Tension material

The present invention for achieving the technical problem to be achieved by the present invention, characterized in that configured to move in the tension direction, while the clamping plate for fixing or moving the side end of the tensile material is divided into a plurality of blocks.

Another feature of the present invention is characterized in that a ball screw is used as a pressing means for moving the tongs to which the tensile material is fixed.

Another feature of the present invention is characterized by using an encoder installed at the end of the ball screw to measure the degree of rotation of the ball screw as a measuring means for measuring the degree of tension of the tensile material.

Another feature of the present invention is characterized by having a roller at the bottom of a tong plate consisting of a plurality of movable blocks, wherein each block is supported and moved.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 shows the strap according to the present invention, the present invention is a tension means, a power means for achieving a pressing operation of the tension means, and the work plate 60 is provided with the forceps plate 10 and the tension means It consists of.

The tension means is composed of four tong plates 10 in accordance with the shape of the material to be tensile and tensile measurement, the four tong plates 10 are configured in a rectangular shape arranged.

The tong plate 10 is composed of a block 40, a clamp 44, a shaft 45, a roller 20, and a support plate 11.

The block 40 is composed of an upper plate 41 and a lower plate 42 to fix the ends of the tensile material 90, the upper plate 41 and the lower plate 42 are combined to form a rectangular box shape.

In addition, a plurality of blocks 40 are formed to fix one end of the tension material 90 at a plurality of points.

In addition, the blocks 40 are formed in a state where they are spaced apart from each other so as to apply a uniform fixing force to one end of the tensile material 90.

The clamp 44 is fixed to one end of the lower plate 42 so as to adjust the separation gap between the upper plate 41 and the lower plate 42 of the block 40, and is fixed to the upper surface center of the upper plate 41. In order to apply pressure to the central portion of the upper plate 41 according to the operator's operation, the central portion is bent vertically, and the working rod in contact with the upper plate 41 is formed to move up and down with respect to the block 40.

At this time, by attaching a friction plate of a rubber material having a frictional force to the inner surface of the upper plate 41 and the lower plate 42 can of course increase the fixing force of the tensile material.

The shaft 45 is formed in a rod shape so as to be inserted into the flow port 43 penetrated in the arrangement direction of the block 40 on the lower plate 42 of the block 40, the flow port 43 at both ends thereof Finishing material larger than the diameter of is formed to prevent the departure of the block 40.

In addition, the shaft 45 has a length greater than or equal to the length of the entire block 40 arranged on one side so as to penetrate all the plurality of blocks 40 arranged to form one side plate 10, the block ( According to the predetermined length of the gap between the 40, it is formed to have a length longer than the length of the entire block (40).

The roller 20 is formed in contact with the lower end of the lower plate 42 of the block 40 to support the lower end of the block 40, the block 40 arranged in a straight line is the shape of the shaft 45 It is fixed in the vertical direction with respect to the block 40 arranged in the longitudinal direction to move along.

In addition, the roller 20 is preferably formed in pairs so as to be supported over the front and rear of the bottom of the lower plate 42 of the block 40.

In addition, the roller 20 is formed in the shape of a disc, the roller shaft 21 is fastened to the center of the disc is formed so as to rotate freely.

In addition, the rollers 20 are fastened to be spaced apart from each other so that two or three rollers 20 are paired and supported with respect to one block 40 so as to support the lower end of the block 40 at both sides. .

The support plate 11 is formed in a plate shape having a width equal to the width of the array formed by the plurality of rollers 20 so that the ends of the plurality of roller shafts 21 are fixed.

In addition, the support plate 11 has a flat surface in the direction of the block 40 is formed so that the roller shaft 21 is fastened to the front surface thereof, is perpendicular to the lower end of the front surface and the direction of the block 40 A rectangular plate is formed in the opposite direction and the lower plate is extended.

A moving groove 12 having a through hole formed with a screw thread formed therein is formed in the center of the bottom surface of the lower plate so as to protrude downwardly in a rectangular shape and the bolt is coupled to the center to allow rotation and movement.

Here, the through hole is formed by penetrating in the vertical direction with respect to the longitudinal direction in which the support plate 11 is arranged long.

In addition, a pair of guides protruding while forming a box shape in the lower direction on both lower ends of the support plate 11, and a recessed portion recessed inward while being horizontal with the through-hole direction of the moving groove 12 in the center portion thereof. Grooves 13 are formed.

Here, the central portion of the support plate 11 and the central portion of the lower plate 42 of one block 40 of the arranged blocks 40 are fixed to each other.

At this time, it is preferable to connect the block 40 installed in the center of the blocks 40 among the plurality of blocks 40 constituting the one side clip plate 10 and the support plate 11.

In addition, the support plate 11 and the block 40 positioned at the center of the load are connected by the load plate 30 having a substantially "-" shape, and the load applied to the block 40 and the support plate 11. It is configured to support it elastically.

Here, the load plate 30 is one end is drawn by the pulling force of the support plate 11 while the "c" bent portion of one end is extended by a predetermined width to support the pulling force and reaction force elastically, the block The force 40 is drawn by the stress of the tensile material 90 supports the other end of the "C" bent portion of the load plate 30 while the predetermined width is extended, and the "C" bent portions of the both ends are joined to each other. In addition to supporting external loads applied to the support plate 11 and the block 40, the forces applied to the support plate 11 and the block 40 are mutually transmitted.

The power means is composed of a motor 51, a belt 53, a pulley 54, a ball screw 55, a fixing plate 56 and an encoder 57.

The motor 51 is composed of a universal electric motor 51 for converting the electrical energy into a rotational force in accordance with the application of the current of the controller 50, and outputs the control, the control of the power source and the rotation of the motor 51 The controller 50 is connected via a conductor or the like.

Here, the controller 50 is connected to an external power source, and is configured to control an interruption and strength of the external power applied to the motor 51 by a user and a self-operating operation.

The belt 53 is formed to form a belt so as to span the motor shaft 52 of the motor 51 to transmit the rotational force of the motor shaft 52 to other members.

The pulley 54 is formed in a disk shape so that the other end of the belt 53, one end of which extends to the motor shaft 52, receives the power of the motor shaft 52.

The ball screw 55 is coupled to the central portion of the pulley 54 to achieve the same rotation as the rotation of the pulley 54, forms a rod shape and forms a plurality of threads on the outer periphery of the support plate 11 It is formed to be coupled with the moving groove 12 of.

The fixing plate 56 is fixed to both ends of the ball screw 55 to fix the arrangement of the ball screw 55 and at the same time to support the rotation of the ball screw 55.

The encoder 57 is installed at the opposite end of the pulley 54 fixed to the tip of the ball screw 55, and measures the rotational degree of the ball screw 55 to convert this measurement information into electrical signal information And to transmit to the controller 50.

The worktable 60 is formed in a rectangular frame shape, and forms a frame to install the motor 51 and the controller 50 at the lower end thereof, and a fixing stand 61 to fasten the tensioning means at the upper end thereof. And guide rods 62 are formed.

The fixing table 61 forms a plate shape such that the ball screw 55, the fixing plate 56, and the encoder 57 are seated and fixed, and an upper end surface of the working table 60 outside the upper end of the working table 60. It is formed to protrude outward so as to be horizontal with the.

Here, the fixing stand 61 is formed to protrude outward from the central portion of the working table 60 so that the moving groove 12 formed at the lower center of the ball screw 55 and the support plate 11 is coupled.

The guide rod 62 forms a rod shape such that guide grooves 13 formed at both ends of the lower end of the support plate 11 are coupled to each other, and the same as the forming point of the guide groove 13. It protrudes outward from the outside of the tip.

Here, the guide rod 62 is formed to protrude outward from the outside of the work table 60 to be horizontal with the fixing table 61.

In addition, the holder 61 and the guide rod 62 is projected to the outside while perpendicular to the top four sides of the work table 60 so that the four tong plates 10 are seated on the work table 60, respectively. Is formed.

In addition, by attaching the sensor 58 to monitor both ends of the ball screw 55 to one side of the fixing base 61 to monitor whether the ball screw 55 is separated from the fixing plate 56 and In addition, of course, the degree of rotation of the ball screw 55 can be measured.

In this case, the sensor 58 is connected to the controller 50 via a conductor to transmit the information generated by the sensor 58 to the controller 50.

Next, the operation of the strap according to the present invention configured as described above will be described.

The size of the tensioning means is adjusted according to the size of the initial tension material (90).

At this time, each of the tong plates of the tension means 10 forms a variety of rectangular shapes as the interval between each block 40 is enlarged or reduced by the operation of the motor 51 of the operator.

The tension material 90 is fixed to the tensioning means that is sized to a size suitable for the size of the tension material 90.

Here, the fixing of the tension material (90) is by the operator of the clamp 44, the upper plate 41 and the lower plate 42 of the tension means are spaced apart from each other to form a gap, each of which is the tension The end of the means is inserted, and the upper plate 41 and the lower plate 42 are brought into close contact by operating the clamp 44 with the end of the tensioning means inserted.

In the state where the end of the tension material 90 is fixed, the tong plate 10 is moved by the operator's controller 50 to make the tension or tension measurement of the tension material 90.

Here, the tension of the tensile material 90 is applied to the motor 51 from the controller 50 by the operation of the controller 50 of the operator, the motor 51 is applied in accordance with the application of this power Rotation operation is performed, and the belt 53 connected to the motor shaft 52 of the motor 51 is rotated by the rotation operation of the motor 51.

As the belt 53 is rotated, the pulley 54 on which the belt 53 extends is rotated, and the ball screw 55 coupled to the central portion of the pulley is rotated by the rotation of the pulley 54.

As the ball screw 55 is rotated, the thread of the moving groove 12 coupled to the thread of the ball screw 55 is moved along the thread shape of the ball screw 55, and the movement of the moving groove 12 The support plate 11 coupled to the movable groove 12 by the movement is moved outward with respect to the work bench 60 at the initial position.

At this time, the movement of the support plate 11 is the guide groove 13 supported by the guide rod 62 protruding to the outside of the work table 60 to move along the shape of the guide rod 62, the work table It is moved outward while being perpendicular to the side end of 60.

As the support plate 11 moves, the load plate 30 fixed to the front surface of the support plate 11 and the block 40 connected to the load plate 30 are moved outwardly with respect to the work table 60. The end of the tension material 90 fixed to the block 40 by the movement of the block 40 is moved outward with respect to the worktable 60.

Here, a plurality of blocks 40 connected to both sides of the central block 40 fixed to the load plate 30 via the shaft 45 may include a central block 40 to which the load plate 30 is fixed. Simultaneously moving, pressurization is performed in the outward moving direction with respect to the entirety of one end of the tensile material 90.

In addition, the motor 51 driven by the operator's operation is to be driven in pairs with the motor 51 installed in the opposite direction of the work table 60, the one side clamp by the operator's tension operation The tong plate 10 installed on the plate 10 and the opposite working platform 60 is moved to the outside of the working table 60 at the same time to achieve a tension on the tensile material (90).

Accordingly, as shown in FIG. 2, the tensile material 90 is tensioned in one side with respect to the center thereof and in both sides of the opposite one side thereof.

As the block 40 on both sides moves outward with respect to the worktable 60 according to the operation of the motor 51, the tension material 90 is tensioned, and the tension material 90 is referred to the center thereof. The two sides 40 of the two sides of the tensioning material 90 are fixed while being tensioned in both ends and are spaced apart while increasing the separation interval between the blocks 40 at the same time as the tensioning material 90. .

At this time, while fixing the both ends of the tension material 90, the block 40 of the both sides in which the power of the motor 51 is abolished induces sliding movement of the roller 20 installed at the lower end of the block 40 As a result, the tensile material 90 is moved in the tensile direction.

Here, the block 40 formed at the center of both end portions is fixed to the central portion of the tensile material 90 by the fixing of the load plate 30, the block provided at both sides of the block 40 provided at the center ( 40 are moved in the tension direction of the tension material 90 to achieve tension of the tension material 90.

In addition, the ball screw 55 rotated by the operation of the motor 51 is measured by the encoder 57 provided at the end of the ball screw 55, the rotation degree and the rotation speed is measured, The rotation information of the ball screw 55 measured by the ball screw 55 is transmitted to the controller 50, and the information of the ball screw 55 transmitted to the controller 50 is displayed or is displayed after the arithmetic processing. The tension level of 90) is displayed.

The load plate 30 fixed between the front surface of the support plate 11 and the block 40 is drawn to both sides by the stress of the tensile material 90 and the driving force of the motor 51. Degree is measured and transmitted to the controller 50.

At this time, the tensile material 90 is tensioned in the direction of the arrow shown in Figures 2 and 3, and the central portion of the tensile material 90 to the central end block 40 at both ends moved by the operation of the motor 51. As a result of uniform tension, both ends of the tension material 90 are tensioned with the same tensile force as the tensile force of the central portion while the blocks 40 of the both end portions are moved in the tensile direction.

Here, the warp yarns 92 fixed by the both end tong plates 10 are moved in a direction in which both end tong plates 10 move, and the weft yarns fixed by the both side nipper plates 10 and the block 40 ( 91 is moved in the tensile direction of the tensile material 90 together with the block 40 of both ends of the tong plate 10 in accordance with the movement of the joint portion is fixed to the warp yarn 92.

In addition, according to the information on the degree of tension of the tensile material 90 measured by the encoder 57 and the load plate 30, the tensile information of the tensile material 90 can be measured.

Therefore, both ends of the tension material 90 are pulled out of the worktable 60 by the driving force of the motor 51, and at the same time, a plurality of side end blocks 40 fixing both ends of the tension material 90 are fixed to each other. As the gap is opened, both ends of the tensile material 90 are fixed to achieve uniform tension with respect to the entire surface of the tensile material 90.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, according to the present invention, as the block fixing the side end portion of the tensile material in the tensile direction of the tensile material is moved to achieve the tension of the tensile material, the effect of achieving uniform tension on the entire surface of the tensile material is achieved. There is.

Another effect of the present invention is to enlarge or reduce the size of the entire tong plate for fixing the side end of the tensile material according to the size of the tensile material, so that more precise tension and measurement of the tensile material is made of course , There is an effect that can prevent the damage for mounting the tensioner of the tensile material.

Another effect of the present invention, due to the uniform tension on the entire surface of the tensile material has an effect that can accurately measure the degree of tension of the tensile material.

Claims (5)

In the strap device to fix both ends of the tensile material by the two forceps plate, pull out both ends by both ends of the forceps plate to tension the tensile material, Strapping device characterized in that the both side plates are made of a plurality of blocks that are moved while being spaced apart from each other in the tensile direction of the tensile material. The method of claim 1, Blocks in the center of the block constituting the two clamping plate is fixed, a plurality of blocks connected to both sides of the fixed block via a shaft is moved in the direction of the both ends of the clamping plate according to the tension of the tension material, respectively Strap made with. delete The method of claim 1, Strapping unit is characterized in that the block is formed on the bottom of the fixed support plate and the inner groove has a screw groove formed in the inner circumferential surface, the ball screw coupled to the screw thread of the moving groove and rotated according to the drive of the motor . The method of claim 1, Strapping device characterized in that the two sides of the index plate and both ends of the index plate is composed of a plurality of blocks capable of mutually expanding / axially changed the measurement area of the tension material consisting of the tong plates.