KR200471379Y1 - A multi vice - Google Patents

Abstract

The present invention relates to multiple vises, and to a plurality of vises having a plurality of unit blocks on a fixed block to fix several workpieces at the same time.
To this end, the present invention is a guide rail is installed on both sides in the longitudinal direction and both ends of the guide rail is fixed to both ends of the guide rail and a fixed block formed with a fixed height to prevent the separation of the moving block, and penetrates the guide rail And a moving block moving on the fixed block along the guide rail and moving means for moving the moving block, wherein the moving block is at least two on the inner space formed by the fixing part. It is composed of a unit block is provided so that the guide rail is penetrated, any one of the unit blocks are combined with the moving means and the unit block is moved by the moving means to move the remaining unit blocks each unit It is made to fix the workpiece between the blocks, the plurality of units Between the locks, each unit block is moved to one side of the fixed block by the operation of the moving means and is contracted when fixing the workpiece, and elastically operated when the fixing force of the unit block is released by the reverse operation of the moving means. An elastic member is installed to push the unit block, and the elastic member is characterized in that the coil spring is fitted to the outer periphery of the guide rail.

Description

A multi vice

The present invention relates to multiple vises, and more particularly, to multiple vises provided with a plurality of unit blocks on a fixed block to simultaneously fix several workpieces.

In general, the machining of the workpiece is the setting of coordinates, which is the task of clamping the workpiece on the bed and then recognizing the position of the workpiece on the CNC machine, and programming the CNC machine to operate so that the actual machining can be performed. Measure and post process the parts. In this way, the workpiece is machined in a fixed state by a clamping device such as a vice.

A typical vise includes a fixed block fixed together with a rail and a moving block moving relative to the fixed block along the rail. And the workpiece is processed while the workpiece is fixed between the fixed block and the moving block.

However, such a conventional vise structure is limited in the number of workpieces that can be fixed between the fixed block and the moving block has a disadvantage in that workability, such as increased work time due to replacement of the workpiece when processing a plurality of workpieces.

In order to solve this problem and improve the workability, in addition to the reciprocating movement of the moving block, a structure in which the moving block is rotated with respect to the fixed block can be fixed according to the shape or size of the workpiece. Patent Publication No. 2010-0093932 (name of the invention: rotary vise, published date: 2010.08.26) is disclosed.

However, the above-described technique also has a disadvantage that the number of workpieces to be fixed is limited and thus several workpieces cannot be fixed.

Also, Registered Utility Model Publication No. 0444640 (Designation: Automated Multi-Jig Vise, Registration Date: May 20, 2009), Utility Model Publication No. 1990-0000948 (Designation: Automatic Clamp Jig Using Rotary Valve, Publication Date: 1990.02 As described in .02), a technique is disclosed in which several workpieces to be machined are fixed and processed.

However, in the case of the above technologies, the working time may be shortened, but only a plurality of vises are installed, and the size thereof is not only increased, but is limited to the installation place, and there is a problem of low economic efficiency due to increased cost.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a multi-vise that can be fixed by machining several workpieces simultaneously between the fixed block and the moving block.

In addition, the purpose of the present invention is to provide a multi-vise capable of fixing various types of workpieces by firmly fixing a workpiece corresponding to each shape by replacing a workpiece fixing piece.

The configuration of the present invention for achieving the above object, the guide rail is installed on both sides in the longitudinal direction, both ends of the guide rail is fixed to both ends in the longitudinal direction and the fixed block is formed at a fixed height to prevent the departure of the moving block And a moving block penetrating the guide rail and moving on the fixed block along the guide rail, and moving means for moving the moving block, wherein the moving block is formed on the inner side of the guide rail. It is composed of at least two unit blocks are provided in the space provided so that the guide rail penetrates, any one unit block of the unit block is combined with the moving means and the unit block is moved by the moving means the remaining unit Move the block to fix the workpiece between each unit block And, between the plurality of unit blocks each unit block is moved to one side of the fixed block by the operation of the moving means is contracted when fixing the workpiece and the fixing force of the unit block is released by the reverse operation of the moving means In this case, the elastic member is installed to push each unit block while the elastic operation, the elastic member is characterized in that the coil spring is fitted to the outer periphery of the guide rail.

Insertion grooves are formed on the upper surface of the fixed block to a predetermined depth to move while the unit block is inserted, and a fitting protrusion protrudes to fit into the insertion groove on the bottom surface of the unit block.

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The side of the unit block is preferably formed with a spring seating groove so that the end portion of the elastic member is inserted and seated.

The upper surface of each unit block is coupled to each of the clamping piece is formed with a binding groove for binding the workpiece, the binding groove is formed in the same shape as the external shape of the workpiece to be fixed.

The moving means includes a rotating shaft having one side coupled to the unit block and having a screw thread formed on an outer circumferential surface thereof, and a handle provided on the other side of the rotating shaft, and the rotating shaft is screwed through one of the fixing portions.

According to the multiple vise composed of the above configuration, it is possible to simultaneously process a plurality of workpieces through a plurality of moving blocks installed in one fixed block, thereby improving the product productivity by reducing the working time , By fixing the workpiece of various shapes, there is an effect that can be processed precisely.

1 is a perspective view showing a multiple vise according to the present invention,
2 is an exploded perspective view of the multiple vise according to the present invention;
3 is a cross-sectional view taken along line AA of FIG. 1;
4 is a state in which the workpiece is fixed to the unit block in the multiple vise according to the invention,
5 is a side view of FIG.
Figure 6 is a state in which the clamping piece is formed in the binding groove formed in multiple vise according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a multiple vise according to a preferred embodiment of the present invention.

As shown in the figure, the multiple vise according to the present invention is fixed to the guide rail 20 is installed in the longitudinal direction on both sides and the guide rail 20, the guide rail 20 through the guide rail 20 The moving block 30 is moved on the fixed block 10 along with, and the moving means 40 for moving the moving block 30, the moving block 30 is composed of a plurality of unit blocks The elastic member 50 is installed to elastically move each unit block between the unit blocks.

The fixed block 10 may be lower in shape depending on the shape of the bed (Bed) to be coupled and fixed, it is formed to a predetermined length.

Fixing parts 12 and 13 are formed at predetermined heights at both ends in the longitudinal direction of the fixing block 10, and the fixing parts 12 and 13 are configured to fix both ends of the guide rail 20. It serves to prevent the departure of the moving block (30).

In the accompanying drawings, the rotating shaft 42 of the moving means 40 passes through one of the fixing parts 12 and 13, and the other fixing part 13 is clamped on the upper surface. The piece 36 is shown coupled to engage the workpiece with the clamping piece coupled to the unit block farthest from the means of movement.

Of course, the fixing part 13 can be fixed to the workpiece only by unit blocks by increasing the number of unit blocks further without coupling the clamping pieces.

Two guide rails 20 installed on the fixed block 10 are preferably installed on each side of the fixed block 10 so as to guide the smooth movement of the moving block 20, and are formed as round bars.

The moving block 30 may include at least two or more unit blocks 31 and 32 provided on at least two inner spaces formed by the fixing units 12 and 13 to penetrate the guide rail 20. .

In the accompanying drawings, the number of the unit blocks is shown as three, the first unit block is indicated by the reference numeral 31, the second unit block is indicated by the reference numeral 32, the last unit block is indicated by the reference numeral 33, the first unit block 31 is shown to be coupled to the moving means 40. Here, if the number of unit blocks is two, there will be no last unit block.

These unit blocks are moved at a predetermined interval while the unit block 31 coupled to the moving unit is moved by the operation of the moving unit 40, and the remaining unit blocks are moved in stages, and between each unit block. It is to fix the provided workpiece.

In this case, an insertion groove 14 is formed at a predetermined depth so that each of the unit blocks is inserted in the upper surface of the fixed block 10 for smooth movement of the unit blocks moved on the fixed block 10. A fitting protrusion 34 fitted into the insertion groove 14 protrudes from the bottom of the field.

Therefore, the unit blocks are moved in the state in which the fitting protrusion 34 formed on the bottom surface is inserted into the insertion groove 14 while both sides are penetrated by the guide rail 20 to prevent the torsion or detachment at the source. It is moved.

The elastic member 50 installed between the unit blocks is preferably a coil spring penetrating the guide rail 20, as shown in Figure 3, in addition to the unit block is provided between the unit blocks through the elastic operation Any means can be used to move.

The elastic member 50 is contracted when each of the unit blocks are moved to one side of the fixed block 10 by the operation of the moving means 40, that is, when fixing the workpiece. In addition, when the fixing force of the unit blocks 31 and 32 is released by the reverse operation of the moving means 40, that is, when the fixed state of the workpiece is released, the unit blocks are pushed and moved while being elastically operated.

The reason why the elastic member 50 is installed is to allow the worker to move itself by the elastic force of the elastic member even if the worker wants to release the workpiece without moving the unit blocks.

At this time, the elastic member 50 is provided so that the end portion is inserted and seated in the spring seating groove 52 formed on the side of the unit block so as not to flow during the operation as well as effectively push the unit block.

The unit blocks may directly fix the workpiece, or may separately couple the clamping piece 36 to the upper surface so that the workpiece may be fixed by the clamping piece 36.

In this case, as shown in FIG. 6, the clamping piece 36 may form a binding groove 37 for binding a workpiece. The binding groove 37 may have a plurality of shapes different from each other depending on the workpiece to be bound. It is preferable that two clamping pieces 36 are provided. The reason for changing the shape of the binding groove 37 is that the appearance of the workpiece to be bonded is different depending on the workpiece. Even though the shape of the workpiece is different in this way, the binding groove of the same shape as the shape of the workpiece to be fixed ( 37) to replace the clamping piece 36 is formed so as to bind the workpiece of various shapes into the hole formed by the mutual coupling of the binding groove 37 to bind.

The moving means 40 is configured to include a rotary shaft 42, one side of which is coupled to the unit block 31, the threaded portion is formed on the outer circumferential surface, and a handle 44 provided on the other side of the rotary shaft 42, The rotating shaft 42 penetrates and is screwed into one of the fixing parts 12 of the fixing parts.

The moving means 40 can be any means that can move the unit block 31, so that in addition to the structure of moving the unit block 31 by the rotation using the handle 44 is formed in a cylindrical manner, etc. Of course you can.

The multi-vice of the present invention configured as described above has a workpiece to be processed between each unit block, and then moves the unit block 31 connected to the moving means 40 using the moving means 40 in the opposite direction, that is, The other unit block 32 is moved in the direction provided.

 When the unit block 31 is pressed to fix the workpiece provided between the other unit blocks 32 by the movement of the unit block 31, the unit block 31 and the other unit block 32 are moved together, and another unit block. While moving in the direction in which 33 is provided, the second workpiece provided between the other unit block 32 and another unit block 33 is pressurized and fixed.

This process is repeated to fix the third workpiece. If the number of unit blocks is larger, the process is repeated to fix the fourth and fifth workpieces.

On the other hand, if you want to release the fixed state after the workpiece processing, if the rotating shaft 42 of the moving means that was rotated forward to move in the direction of the first position, the above process is reversed while the fixed state of the workpiece As the fixing force of the unit block is released, it is released.

As described above, the present invention can fix a plurality of workpieces through a plurality of unit blocks installed in one fixed block 10, thereby significantly reducing the work time due to the workpiece replacement when the workpiece is processed, thereby It will improve workability.

In addition, even if the shape of the workpiece to be processed is different, by replacing the clamping piece 36 coupled to the unit block with a clamping piece 36 having a binding groove 37 of the same shape as the workpiece shape, the workpiece of various shapes It is possible to process by binding.

10: fixed block 12, 13: fixed part
14: Insertion groove 20: Guide rail
30: moving block 31, 32: unit block
34: fitting 36: clamping piece
37: binding groove 40: vehicle
42: axis of rotation 44: knob
50: elastic member 52: spring seating groove

Claims (8)

Guide rails 20 are installed on both sides in the longitudinal direction, and both ends of the guide rails 20 are fixed to both ends of the longitudinal direction, and fixing parts 12 and 13 are formed at a predetermined height to prevent separation of the moving block 30. Fixed block 10, a moving block 30 penetrating through the guide rail 20 and moved on the fixed block 10 along the guide rail 20, and a movement for moving the moving block 30 In a vise comprising means 40,
The moving block 30 is composed of at least two unit blocks provided on the inner space formed by the fixing parts 12 and 13 so that the guide rail 20 is penetrated, and any of the unit blocks One unit block 31 is combined with the moving means 40 and the unit block 31 is moved by the moving means 40 to move the remaining unit blocks to fix the workpiece between each unit block. Lose,
Between the plurality of unit blocks, each unit block is moved to one side of the fixed block 10 by the operation of the moving means 40 is contracted when fixing the workpiece and by the reverse operation of the moving means 40 When the fixing force of the unit block is released, the elastic member 50 is installed to push each unit block while elastically actuating, and the elastic member 50 is a coil spring installed on the outer circumference of the guide rail 20. Multiple vise, characterized in that.
The method of claim 1,
The upper surface of the fixed block 10 is formed with an insertion groove 14 to a predetermined depth to move while the plurality of unit blocks are inserted,
Multi-vise, characterized in that the fitting protrusion (34) protrudes to be inserted into the insertion groove 14 on the bottom of the unit block.
delete delete The method of claim 1,
The side of the unit block is a multiple vise, characterized in that the spring seating groove 52 is formed so that the end portion of the elastic member 50 is inserted and seated.
The method of claim 1,
Clamping pieces (36) are respectively coupled to the upper surface of each unit block, the clamping piece (36), characterized in that the binding groove (37) is formed for binding the workpiece.
The method according to claim 6,
The binding groove 37 is a multiple vise, characterized in that formed in the same shape as the external shape of the workpiece to be fixed.
The method of claim 1,
The moving means 40 includes a rotary shaft 42, one side of which is coupled to the unit block 31 and a screw thread formed on an outer circumferential surface thereof, and a handle 44 provided on the other side of the rotary shaft 42.
Multiple vise, characterized in that the rotating shaft (42) is screwed through the fixing portion (12) of one of the fixing portion.

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