KR102163946B1 - a connector of handle for vise - Google Patents

Abstract

The present invention relates to a connector for a vise handle part, which comprises: a main body having an insertion groove formed at one side thereof with a large diameter at a predetermined depth to allow an end of a tightening shaft to be fitted and inserted therein; a sub-body protruding from a central surface of the other side of a coupled body of the tightening shaft, and having an insertion groove formed at a central surface thereof with a small diameter at a predetermined depth to allow one end of a handle to be fitted and inserted therein; and a fastening screw fastened to penetrate to the inside from the outer surfaces of the main body and the sub-body, and fixing a relative position between the main body and the tightening shaft and a relative position between the sub-body and the handle. According to the present invention, a handle and a shaft can be stably assembled to and separated from each other without separate processing of a shaft end.

Description

Connector for vise handle {a connector of handle for vise}

The present invention relates to a vise, and more particularly, to a connector for a vise handle portion capable of easily coupling and separating a handle for interlocking a moving jaw toward a fixed jaw to a shaft.

In general, a vise is a tool used to firmly fix the fixture so that it does not move during processing of the fixture.

Looking at the general structure of such a vise, as shown in FIG. 1, a main body 1 is provided, and a fixed-side jaw 2 is fixedly installed on one side of the main body 1.

A moving-side jaw (3) is disposed on the opposite side facing the fixed-side jaw (2), and the moving-side jaw (3) is fixed to one end of the shaft (4).

A through hole 5 is formed at the other end of the shaft 4 and is installed through the body 1 by screwing, and a long rod-shaped lever 6 is fitted in the through hole 5.

In such a conventional vise, when a fixture is placed between the fixed-side jaws 2 and the moving-side jaws 3, and the lever 6 is rotated in the forward or reverse direction as indicated by the arrow in FIG. 1, the shaft 4 and Since the main body (1) is screwed, the movable jaw (3) is moved in a direction away or closer to the fixed jaw (2) to tighten or loosen the fixture.

In addition, as shown in FIG. 2, in Application No. 20-1999-0018681 (the clamping lever structure of the vise), a clamping shaft 15 for moving the moving tub 14 of the vise 12 to the fixed tub 13 is provided. In the tightening lever that rotates forward and backward, the shaft end 19 of the tightening lever is formed in a polygonal shape, and the tightening lever 20 is coupled to the shaft end 19, and the tightening lever 20 has a long body 21 A two-ply bracket 22 is formed at the top of ), and a hole is made at the top thereof, and a drive gear 23 having an insertion hole 24 into which the shaft end 19 is inserted and a gear groove 25 are built , Between the body (21) and the gear has both operating blades (32a) (32b) and a forward and reverse ratchet (33a) (33b) inserted into the gear groove (25) of the driving gear (23) at the top, and the lower center It has a protrusion 34 and a reverse selection lever 30 that is rotated by a hinge shaft 31, and the protrusion 34 is intercepted at the upper center of the body 21 to intercept the forward and reverse ratchets 33a and 33b. A clamping lever structure of a vise, characterized in that a stopper 35 for maintaining the angle of is installed, has been proposed.

In addition, 20-2002-005091 (vise with ratchet handle) includes a main body, a fixed-side jaw fixed to one side of the main body, and a moving-side jaw disposed on the opposite side facing the fixed-side jaw, as shown in FIG. , In a vise configured to fix a fixture between the fixed-side jaws and the moving-side jaws, the movable-side jaws are fixed to one end and the other end is composed of jaws pins installed by screwing through the main body, and the jaws pins ( A square protrusion 22 of the ratchet handle 20 having a square hole 14a formed at the end of 14) at a predetermined depth in the axial direction and provided with a ratchet mechanism 21 which is a one-way rotation means in the square hole 14a A ratchet handle attachment vise, characterized in that the jaws pins 14 and the square protrusions 22 are detachably fixed with a fixing screw 23 by combining them has been proposed.

As described above, the conventional vise places great importance on the coupling between the handle and the shaft and takes various coupling structures.

However, these conventional vises have the following fatal problems.

First, there is a problem that the shape of the joint portion between the handle and the shaft must be the same polygon.

That is, since the shaft has to be rotated through the handle, it is difficult to apply to the shaft of various shapes because it has to take a square or hexagonal cross-sectional shape of the same shape.

And the most fatal problem is that the shaft must be machined according to the shape of the handle.

That is, the outer surface of the circular shaft must be processed into a polygonal shape according to the shape of the handle, and thus there is a concern that workability may be deteriorated and bending deformation may be caused on the shaft during the processing.

The present invention was created to solve the above problems, and it is possible to stably assemble and separate the handle and the shaft without further processing the shaft end. In particular, even if the shaft diameter is variable, it is easy to combine and separate the handle and the shaft An object thereof is to provide a connector for a vise handle part made.

The connector for a vise handle part according to the present invention for achieving such an object comprises: a base comprising a flat plate shape and a fixed plate fixed to the bottom surface and a support plate formed to protrude upward from one end of the fixed plate for a predetermined distance; A fixed jaw mounted so as to protrude upward from an upper surface of the other side of the base, and on which a fixed embossing plate having an embossing for increasing friction is mounted on a side facing the support plate; A through hole is formed horizontally in the center of the support plate fixed to the base, a thread is formed on the inner surface of the through hole, and a round bar shape and a thread fastened to a thread formed on the inner surface of the through hole is formed on the outer circumferential surface. A rotating shaft; Mounted at one end adjacent to the fixed jaw of the rotating shaft, which is horizontally fastened to the center of the support plate fixed to the base with a through hole and a thread, and embossing is formed on the surface facing the fixed jaw to increase frictional force. A plate is provided, and a vise consisting of a movable jaw slidable on an upper surface of the fixed plate of the base is provided,
A fixed body formed with a hollow portion and attached to the support plate by a bolt); A support part having a through hole through which the end of the rotation shaft passes and an outer circumferential surface having a cylindrical tube shape; A connection body formed with a hollow portion to communicate with the through hole and connected to the fixed body; The support part and the connection body are made integrally, the bolt is fastened to the support plate by penetrating the connection body and the fixed body, and the internal hollow part has a shape surrounding the outer circumferential surface of the end of the rotation shaft, and the outer circumferential surface has a drum number. A main body provided with a main bar disk hole of the; And a subbody formed to protrude integrally with the front of the main body and having a handle hole through which the tip of the handle penetrates, and the tip of the handle can be inserted into the end of the rotation shaft penetrating the support. A rotation shaft groove is formed in the same shape as the cross section of the handle tip, and the handle hole is also formed in a shape that is uneven with the cross section of the handle tip, so that the tip of the handle passes through the handle hole and is seated in the rotation shaft groove. The main bar disk grooves formed on the outer circumferential surface of the main body are formed in an even number of at least 6 places, and the tip portions of the screws respectively fastened to the main bar disk grooves press the outer circumferential surfaces of the rotation shaft distal ends, respectively, and a sub A bar disk-like groove is formed, and a screw fastened to the sub-bar disk-like groove presses the outer peripheral surface of the handle penetrating the handle groove.

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The connector for the vise handle according to the present invention is inserted by inserting the main body into the shaft, fixing the shaft and the main body through a fastening screw, and inserting the handle on a sub-body integrally provided on one side of the main body. After that, by fixing each other through fastening screws, you can easily tighten and loosen the workpiece by rotating the shaft through the handle.

In addition, since a separate shaft processing is not required, there is an effect of preventing the fear of deterioration and deformation due to the conventional shaft processing.

In addition, even if the diameter of the shaft is changed to some extent, it is possible to easily couple and separate the handle and the shaft through the main and sub-body.

1 to 3 are front views and perspective views showing a coupling state between a handle and a shaft of a conventional vise.
Figure 4 is an exploded perspective view showing a state of use of the connector for a vise handle according to the present invention.
Figure 5 is a combined perspective view showing a state of use of the vise handle connector according to the present invention.
Figure 6 is a cross-sectional view showing a state of use of the connector for a vise handle according to the present invention.
7 and 8 are perspective views showing the external form of the vise handle part connector according to the present invention.

Hereinafter, a connector for a vise handle according to the present invention will be described in detail with reference to the accompanying drawings.

First, Figure 4 is an exploded perspective view showing the state of use of the connector for the vise handle portion according to the present invention, Figure 5 is a perspective view showing the use of the connector for the vise handle portion according to the present invention, Figure 6 is a vise handle according to the present invention It is a cross-sectional view showing the state of use of the bouillon connector.

And Figures 7 and 8 are perspective views showing the external shape of the vise handle part connector according to the present invention.

As shown, in the connector for a vise handle part according to the present invention, the end of the clamping shaft 100 on one side in connecting the clamping shaft for moving the moving jaw of the vise to the fixed jaw with the tightening shaft forward and reverse rotation The main body 200 is provided with an insertion groove 210 having a predetermined depth to be inserted therein.

In addition, a sub body 300 is protruded from the other side of the main body 200 to which the tightening shaft 100 is coupled, and one end of the handle 400 is formed on the central surface of the sub body 200. An insertion groove 310 of a predetermined depth is formed to be inserted and inserted.

At this time, the insertion groove 210 formed on the main body 200 described above has a relatively large diameter compared to the insertion groove 310 of the sub-body 300 because the diameter of the tightening shaft 100 is relatively large. It is formed, and the insertion grooves 210 and 310 are preferably formed to communicate with each other.

However, it is not limited thereto, and it is not necessary to communicate with each other.

On the other hand, from the outside of the main body 200 and the sub-body 200 described above, the bar is fastened through the fastening screw (S), through the fastening screw (S) the main body 200 and the tightening shaft 100 The positions are fixed to each other, and the sub-body 300 and the handle 400 are fixed to each other.

At this time, it is preferable that at least one fastening screw (S) to be fastened for position fixing is installed in plural, and this is to further strengthen the position fixing force.

In this way, when installing a plurality of fastening screws (S), it is installed at an isometric angle, that is, 180 degrees isometric angle when two are installed, 120 degrees when three are installed, and 90 degrees isometric angle when four are installed. It is desirable to

At this time, it is natural that screw holes 220 and 320 for fastening the fastening screw S are formed on the outer surfaces of the main body 100 and the sub body 200.

Meanwhile, it is preferable that the insertion grooves of the main body 200 and the sub-body 300 described above have a circular cross-sectional shape.

However, it would be desirable that the insertion groove 310 formed in the sub-body 300 has a cross-sectional shape of a polygonal shape (which is a hexagonal shape) rather than a circular shape.

This is because when the end of the handle 400 and the insertion groove 310 of the sub-body 300 are circular, the screw is loosened when repeatedly working for a long time while the position is fixed through the fastening screw (S). This is because there is an inherent fear of causing a (slip) phenomenon.

Therefore, when the end portion of the handle 400 and the insertion groove 310 of the sub-body 300 are formed in the same polygonal shape, the fear of slip can be eliminated even if the operation is repeated for a long time.

In addition, although not shown, in the case of forming the insertion groove 310 of the above-described sub-body 300 in a ratchet shape having a plurality of grooves, a fastening screw (S ) To fix the position.

In addition, the same groove 110 as the handle 400 is formed on the central surface of the end portion of the tightening shaft 100, that is, it has a circular or polygonal cross-sectional shape, and the end of the handle 400 is inserted therein to fix the position. It is okay to practice.

At this time, in processing the groove in the tightening shaft 100, since the central portion of the shaft end is processed, it is possible to prevent the fear of bending deformation that may occur when processing the outer surface of the shaft as in the prior art.

Meanwhile, the outer peripheral surfaces of the main body 200 and the sub-body 300 described above may be formed in a circular or polygonal shape.

However, the present invention is not limited thereto, and the outer surface of the main body 200 is formed in a circular polygon, and the sub-body 300 may be formed to have an outer surface opposite to the main body 200.

This is because it can be formed to have various external surfaces in consideration of workability and workability.

The connector for a vise handle part according to the present invention configured as described above is inserted by inserting the end of the clamping shaft 100 of the vise onto the insertion groove 210 of the main body 200.

At this time, since the end of the tightening shaft 100 and the insertion groove 210 of the main body 200 are circular, they are easily inserted into each other.

Next, when the fastening screw S is fastened from the outside of the main body 200 toward the mutually coupled portion, the positions are firmly fixed to each other.

At this time, the fastening screw (S) is fastened at one or more isometric angles, thereby performing a stable position fixing operation.

And after inserting the end of the handle 400 into the insertion groove 310 of the sub-body 300, and then fastening the fastening screw (S) by fastening the position of the handle 400 and the sub-body 300 is made.

Therefore, by rotating the handle 400 in a clockwise or counterclockwise direction, the tightening shaft 100 is rotated, and the moving jaw is interlocked toward the fixed jaw to tighten the workpiece or release the tightening force.

On the other hand, even if the diameter of the tightening shaft 100 is variable, when it is positioned in the insertion groove 210 of the main body 200 and the fastening screw S is fastened, the position fixing operation is performed stably.

That is, to some extent, the diameter of the tightening shaft 100 is changed, which makes it difficult to fix the position of each other can be ignored.
And another embodiment of the present invention will be described with reference to FIGS. 3 and 4.
As shown in the drawing, in another embodiment, a base in which a fixing plate 10 is formed in a flat shape and fixed to the bottom surface and a support plate 16 formed to protrude from one end of the fixing plate 10 to the top by a certain distance. (17) and; A fixed jaw 11 mounted to protrude upward from the other side of the base 17, and on the side facing the support plate 16, on which a fixed embossing plate 12 is mounted on which embossing is formed to increase frictional force. ; A through hole is formed horizontally in the center of the support plate 16 fixed to the base 17, a thread is formed on the inner surface of the through hole, and the outer circumferential surface is formed in a thread formed on the inner surface of the through hole. A rotating shaft 14 on which a screw thread to be fastened is formed; It is mounted at one end adjacent to the fixing jaw 11 of the rotating shaft 14, which is fastened horizontally to the center of the support plate 16 fixed to the base 17 with a through hole and a screw thread, and the fixing jaw ( A moving embossing plate 13 is provided on the surface facing 11) to increase friction by embossing, and a vise composed of a moving jaw 15 slidable on the upper surface of the fixing plate 10 of the base 17 is provided. A fixed body 150 having a hollow portion formed thereon and attached to the support plate 16 by a bolt 160; A support part 113 having a through hole through which the end portion 100 of the rotation shaft 14 passes and the outer circumferential surface thereof in the shape of a cylindrical tube; A connection body 112 formed with a hollow portion to communicate with the through hole and connected to the fixed body 150; The support part 113 and the connection body 112 are integrally formed, and the bolt 160 penetrates the connection body 112 and the fixed body 150 and is fastened to the support plate 16, and the inside The hollow portion of the main body 200 is formed in a shape surrounding the outer circumferential surface of the end portion 100 of the rotation shaft 14, and having a north-numbered main bar disk type hole 220 on the outer circumferential surface; And a subbody 300 formed to protrude integrally with the front of the main body 200 and having a handle hole 310 through which the tip of the handle 400 penetrates, and penetrates the support part 113 In the end 100 of the rotation shaft 14, a rotation shaft groove 110 is formed in the same shape as the cross section of the front end of the handle 400 so that the tip of the handle 400 can be inserted, and the handle hole 310 ) Is also made of a cross section and a protruding shape of the front end of the handle 400, so that the tip of the handle 400 passes through the handle hole 310 and is seated in the rotation shaft groove 110. The main bar disk grooves 220 formed on the outer circumferential surface of the main body 200 are formed in an even number of at least 6 places, and the front end of the screws S respectively fastened to the main bar disk grooves 220 is the rotation shaft 14 ) Each of the outer circumferential surfaces of the tip portion 100 is compressed, and a sub-bar disk groove 220 is formed on the outer circumferential surface of the sub-body 300, and the screw S fastened to the sub-bar disk groove 220 is the handle groove It is a configuration in which the outer circumferential surface of the handle 400 that has passed through 310 is pressed.

The technical idea should not be interpreted as limited to the above-described embodiments of the present invention. As well as a variety of application ranges, various modifications can be made at the level of those skilled in the art without departing from the gist of the present invention claimed in the claims. Therefore, these improvements and changes are obvious to those skilled in the art, and fall within the scope of the present invention.

100: tightening shaft
110: home
200: main body
210,310: insertion groove
220,320: screw hole
300: sub body
400: handle
S: fastening screw

Claims (6)

A base 17 integrally formed with a plate-shaped fixing plate 10 fixed to the bottom surface and a support plate 16 protruding upward from one end of the fixing plate 10 by a predetermined distance;
A fixed jaw 11 mounted to protrude upward from the other side of the base 17, and on the side facing the support plate 16, on which a fixed embossing plate 12 is mounted on which embossing is formed to increase frictional force. ;
A through hole is formed horizontally in the center of the support plate 16 fixed to the base 17, a thread is formed on the inner surface of the through hole, and the outer circumferential surface is formed in a thread formed on the inner surface of the through hole. A rotating shaft 14 on which a screw thread to be fastened is formed;
It is mounted at one end adjacent to the fixing jaw 11 of the rotating shaft 14, which is fastened horizontally to the center of the support plate 16 fixed to the base 17 with a through hole and a screw thread, and the fixing jaw ( A moving embossing plate 13 is provided on the surface facing 11) to increase friction by embossing, and a vise composed of a moving jaw 15 slidable on the upper surface of the fixing plate 10 of the base 17 is provided. Become,
A fixed body 150 formed with a hollow portion and attached to the support plate 16 by a bolt 160;
A support part 113 having a through hole through which the end portion 100 of the rotation shaft 14 passes and the outer circumferential surface thereof in the shape of a cylindrical tube;
A connection body 112 formed with a hollow portion to communicate with the through hole and connected to the fixed body 150;
The support part 113 and the connection body 112 are integrally formed, and the bolt 160 penetrates the connection body 112 and the fixed body 150 and is fastened to the support plate 16,
The inner hollow part is formed in a shape surrounding the outer circumferential surface of the end portion 100 of the rotation shaft 14, and the main body 200 is provided with a north-numbered main bar disk hole 220 on the outer circumferential surface; And
It is formed to protrude integrally on the front surface of the main body 200, and is composed of a sub-body 300 having a handle hole 310 through which the tip of the handle 400 passes,
The rotation shaft groove 110 is formed in the same shape as the cross section of the front end of the handle 400 so that the tip of the handle 400 can be inserted into the end 100 of the rotation shaft 14 passing through the support 113 And, the handle hole 310 is also made of a cross-section and a protruding shape at the tip end of the handle 400, so that the tip of the handle 400 passes through the handle hole 310 and is seated in the rotation shaft groove 110 .
The main bar disk grooves 220 formed on the outer circumferential surface of the main body 200 are formed in an even number of at least 6 places, and the front end of the screws S respectively fastened to the main bar disk grooves 220 is the rotation shaft 14 ) Each of the outer circumferential surfaces of the tip portion 100 is compressed,
The sub-bar disc groove 220 is formed on the outer circumferential surface of the sub-body 300, and the screw S fastened to the sub-bar disc groove 220 is the handle 400 passing through the handle groove 310 A connector for a vise handle, characterized in that the outer circumferential surface of the vise is compressed.


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