KR101505812B1 - block locking device - Google Patents

Abstract

A block locking system is disclosed. According to an embodiment of the present invention, the block locking system separably fixates a jig block on the upper portion of a base, and includes: a guide rod extended toward the lower portion of the jig block, and coupled to the base to be slid upward and downward; and a locking shaft rotatably installed in the base to be perpendicular to the guide rod to restrain the sliding operation of the guide rod during the rotation within at least one cycle.

Description

A block locking device

The present invention relates to a block locking system.

When machining a workpiece with a machining device such as a machine tool, the workpiece must be normally supported in a stable state on the workbench through the jig block. In consideration of the case where the other jigblock must be installed while the workpiece is changed, Is detachably secured to the base mounted on the workbench through the system.

Japanese Utility Model Laid-Open No. 58-126140 discloses a conventional block locking system.

As disclosed in the above publication, in the conventional block locking system, the jig block is detachably fixed to the base through a plurality of fastening means which are fastened around a portion for supporting the workpiece.

However, in the conventional block locking system, since the jig blocks can be replaced only after the process of separating a plurality of fastening means fastened at a plurality of places, there is a limit in improving the workability of replacing the jig blocks during the machining operation.

In order to solve this problem, it is possible to reduce the number of fastening means. In this case, however, the fixing force of the jig block with respect to the base is insufficient, which may cause another problem that it is difficult to stably support the workpiece during machining .

Japan Public Utility Model Official Gazette, No. 58-126140

The embodiment of the present invention is intended to provide a block locking system capable of effectively supporting replacement workability of a jig block with respect to a base while enabling stable support of a workpiece.

According to an aspect of the present invention, there is provided a block locking system for detachably fixing a jig block on a base, comprising: a guide rod extending to the jig block bottom and fastened to the base such that the jig block is slidable in a vertical direction; And a locking shaft vertically installed on the guide rod so as to be rotatable on the base so as to restrain the sliding motion of the guide rod during a rotation operation of at least one rotation.

A sliding guide groove formed vertically so that the guide rod is vertically slidably inserted into the base; a rotation guide groove communicating with the sliding guide groove so as to be perpendicular to the sliding guide groove so as to be rotatable; And an intersecting hole for communicating the sliding guide groove and the rotation guide groove at an intersection between the sliding guide groove and the rotation guide groove may be provided.

The block locking system may further include a pair of supporting jaws provided integrally with the base on the base to support both sides of the bottom of the jig block.

Wherein the block locking system comprises a guide protrusion provided on one of the upper surface of the base and the engagement surface of the lower portion of the jig block and a guide groove provided on the other upper one of the upper surface of the base and the lower surface of the jig block, .

The guide protrusion may have a smaller cross-sectional area than the guide groove, so that the guide protrusion may be coupled to the guide groove in a state in which lateral flow is limited.

Wherein the first and second inner curved surfaces are respectively provided on the outer surfaces of the guide rod and the locking shaft corresponding to the intersecting hole positions, and the locking shaft around the second inner curved surface enters the sliding guide groove through the intersecting hole The first inner curved surface can be restrained by hanging the first inner curved surface.

The second inner curved surface may be provided so as to be coincident with the intersecting hole.

At least one end of the locking shaft may be protruded to the outside of the base for a rotation operation of the locking shaft.

A release preventing member is fastened to the base to prevent the locking shaft inserted into the rotation guide groove from being detached from the rotation guide groove, and the release preventing member is engaged with the rotation guide groove And may be arranged to block the movement of the locking shaft in the longitudinal direction.

The first inner curved surface may be provided so as to face the intersecting hole while the guide rod is engaged with the sliding guide groove.

A block locking system according to an embodiment of the present invention is provided so that a guide rod inserted in a direction perpendicular to a base can be constrained or unfastened to a base by a rotation operation of less than one rotation of a locking shaft rotatably installed on the base do.

Therefore, according to the block locking system according to the embodiment of the present invention, it is possible to stably fix the jig block constituting one body with the guide rod to the base, thereby stably supporting the workpiece, It is possible to effectively improve the property.

FIG. 1 is a perspective view illustrating a structure of a base and a jig block in which a block locking system according to an embodiment of the present invention is employed. FIG.
2 is an exploded perspective view of a base and a jig block employing a block locking system according to an embodiment of the present invention.
3 is a plan view of a base and a jig block in which a block locking system according to an embodiment of the present invention is employed.
FIG. 4 is a cross-sectional view showing the structure of a jig block and a base employing a block locking system according to an embodiment of the present invention, in which a guide rod is loaded on a base.
FIG. 5 shows a state in which the loading process of the guide rod with respect to the base is completed in the state of FIG.
6 shows a state in which the locking shaft rotates in the state of FIG. 5 and the first restricting surface of the guide rod is restrained by the locking shaft.
Fig. 7 shows a state in which the release preventing member is fastened to the base in the state of Fig. 6;
FIG. 8 is a perspective view showing a modified example of a coupling structure of the guide rod and the jig block according to the embodiment of the present invention, in which the jig block is turned upside down.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are provided by way of example so that those skilled in the art can fully understand the present invention. The present invention is not limited to the embodiments described below, but may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted in the drawings, and the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

1 to 3, the block locking system 10 according to the present embodiment includes a base 100 installed on a work table of a processing machine such as a machine tool, and a jig block 200 A guide rod extending from the bottom of the jig block 200 in a state where the jig block 200 is in a state of being fitted and being fastened to the base 100 so as to be slidable in the vertical direction, And a locking shaft 30 vertically crossing the guide rod 20 so as to be rotatable on the base 100 so as to restrain the sliding operation of the guide rod 20 during a rotation operation of at least one rotation, Respectively.

As described above, the guide shaft 20, which is integrally formed with the jig block 20 and is loaded on the base 100 so as to be slidable in the up-and-down direction, The structure of the block locking system 10 provided for restricting the jig block 200 to the base 100 by the rotation operation of the base 100 is to improve the workability of replacing the jig block 200 with respect to the base 100, So that the fastening portion of the jig block 200 is reduced to a single position. Further, in the structure of the block locking system 10 in which the sliding operation of the guide rod 20 is restricted during the rotation operation of the locking shaft 30 within one rotation, the binding and unbinding time of the fastening portion can be reduced, The replacement workability of the battery 200 can be further improved.

The jig block 200 is seated on the lower surface of the base 100 so as to be in close contact with the upper surface of the base 100 and a workpiece supporting portion 210 is provided on the jig block 200 for stably supporting the workpiece. The workpiece support 210 may be provided in various shapes and sizes corresponding to the shape and volume of the workpiece to be machined. In this embodiment, the workpiece support unit 210 is composed of two pairs of supports 211 arranged to face each other in a 'V' shape. The base 10 may be fixed to the work table of the processing machine by welding or the like, and may be fixed so that a separate fixing means can be moved on the work table.

The guide rod 20 can be manufactured to be one body with the jig block 200 in the process of manufacturing the jig block 200 and can also be used commonly in a jig block having a different shape and size of the workpiece support portion 210 The jig block 200 may be detachably coupled to the jig block 200 in a separately manufactured state.

In this embodiment, the guide rod 20 is manufactured separately from the jig block 200. A fastening hole 220 is formed at the center of the jig block 200 between the supporting blocks 211 serving as the center of gravity of the supporting block and the fastening portion 21 formed at the upper portion of the guide rod 20 is fastened to the fastening hole 220, The lower part of the jig block 200 is extended to the bottom of the jig block 200 to form a body with the jig block 200.

The fastening part 21 and the fastening hole 220 can be fastened to each other by a screw method. For this purpose, a male screw and a female screw can be machined on the outer periphery of the fastening part 21 and the inner periphery of the fastening hole 220, respectively.

The sliding guide groove 110 is vertically penetrated so that the guide rod 20 at the bottom of the jig block 200 is slidably inserted in the vertical direction at the center of the base 100, A rotation guide groove 120 communicating with the sliding guide groove 110 in a state of perpendicularly intersecting the sliding guide groove 110 for fastening the locking shaft 30 is provided in the housing 100. An intersection hole 130 for communicating between the sliding guide groove 110 and the rotation guide groove 120 is provided at an intersection between the sliding guide groove 110 and the rotation guide groove 120.

A shaft inlet 121 for guiding the entry of the locking shaft 30 into the rotation guide groove 120 is formed on one side of the base 100 . The rotation guide groove 120 communicates with the sliding guide groove 110 through the intersection hole 130 between the shaft inlet 121 and the inner end of the base 100.

The locking shaft 30 is rotatably supported in the rotation guide groove 120 in a state where the locking shaft 30 is inserted into the rotation guide groove 120 in the base 100 through the shaft inlet 121. In this state, Constitutes an operating portion 31 protruding out of the base 100 for rotating operation of the locking shaft 30.

The first and second inner curved surfaces 22 and 32 are formed on the outer surfaces of the guide rod 20 and the locking shaft 30 corresponding to the positions of the intersecting holes 130, respectively. The locking shaft 30 around the second inner curved surface 32 is inserted into the sliding guide groove 110 through the intersecting hole 130 in the rotating operation of the locking shaft 30, The jig block 200 seated on the base 100 can be kept fixed to the base 100 so as to be detachable. .

The radius of curvature of the locking shaft 30 is set such that the radius of curvature of the first inward curved surface 22 formed on the guide rod 20 is smaller than the radius of curvature of the first inward curved surface 22, It is preferable that it is larger than the radius of curvature.

A second inner curved surface 32 provided on the locking shaft 30 to securely guide the sliding operation of the guide rod 20 to the sliding guide groove 110, Is preferably provided so as to be able to coincide with the intersection hole (130) in a state of being positioned toward the intersection hole (130) by the rotation of the locking shaft. The second inner curved surface 32 in the state of being in agreement with the intersecting hole 130 forms the same curved surface as the inner surface of the sliding guide groove 110 in the vicinity of the intersecting hole 130.

The first inside curved surface 22 is formed so that the guide rod 20 is fastened to the sliding guide groove 110 so that the sliding movement of the guide rod 20 inserted into the sliding guide groove 110 is restricted by the locking shaft 30. [ It should be arranged so as to face the intersection hole 130. [

For this purpose, the fastening part 21 and the fastening hole 220 of the fastening part 21 are completely fastened to the female thread of the fastening hole 220, 22) can be directed to the intersection hole (130).

As shown in FIG. 8 showing a modified example of the fastening structure between the guide rod 20 'and the jig block 200, an auxiliary member (not shown) which communicates with the fastening hole 220' inside the bottom surface of the jig block 200 on one side of the fastening hole 220 ' The rotation restraint groove 23 and the auxiliary fastening hole 23 are formed in a state in which the fastening hole 230 'is formed and the rotation restricting groove 23 is provided on one side of the fastening portion side guide rod 20 corresponding to the assisting fastening hole 230' Shaped rotation restricting member 40 between the jig block 200 and the jig block 200 so that the first curved surface 22 can be directed toward the intersection hole 130, ). The rotation restricting member 40 may be fastened between the rotation restricting groove 23 and the auxiliary fastening hole 230 in a threaded manner.

In order to prevent the locking shaft 30 inserted in the rotation guide groove 120 from being detached from the rotation guide groove 120, the release preventing member 50 may be fastened to the base 100, The preventing member 50 may be provided to prevent the locking shaft 30 from being moved along the longitudinal direction of the rotation guide groove 120 in a state in which the locking shaft 30 is allowed to rotate.

To this end, a locking groove 33 is provided along the circumferential direction on the outer surface of the locking shaft 30 between the shaft inlet 121 and the intersecting hole 130. The leading end of the separation preventing member 20 is inserted into the locking groove 33 The base 100 is inserted into the base 100 to be inserted into the base 100 and the base 100 is provided with a release prevention groove 140 communicating with the rotation guide groove 120 in a direction perpendicular to the rotation guide groove 120, Can be provided.

In this embodiment, the release preventing member 50 is provided so as to be fastened to the release preventing groove 140 in a simple fitting manner so that the locking shaft 30 can be quickly separated from the base 100 if necessary. However, The preventing member 50 may be provided to press the outer surface of the locking shaft 30 so that the locking state of the locking shaft 30 is maintained more firmly. At this time, it is preferable that the release preventing member 50 is screwed to the release preventing groove 140 so as to press the outer circumference of the locking shaft 30 toward the locking groove 33 through the end.

In addition, the block locking system 10 according to the present embodiment can reliably support the workpiece by the jig block 200 in the processing process even in a state where the structure is improved so that the jig block 200 can be easily replaced and separated As shown in FIG.

A pair of supporting protrusions 150 are integrally formed on both sides of the upper portion of the base 100 so as to support both sides of the bottom of the jig block 200, A guide groove 240 for engaging the guide protrusions 160 and the guide protrusions 160 is formed on the coupling surface between the upper portion of the base 100 and the lower portion of the jig block 200,

The guide protrusion 160 protrudes upward from the center of the upper surface of the base 100 between the pair of support protrusions 150 and the guide protrusion 160 protrudes upward The guide protrusion 160 and the guide groove 240 may be reversed from each other in the inside of the jig block 200 on the bottom surface of the jig block 200.

Therefore, the pair of support jaws 150, the guide protrusions 160, and the guide grooves 240 guide the seating operation of the jig block 200 in the course of the seating of the jig block 200 on the base 100, The flow of the jig block 200 relative to the base 100 is surely blocked during the processing of the workpiece, so that the jig block 200 can more reliably support the workpiece during the processing of the workpiece.

The guide protrusions 160 are formed on the base 100 so as to facilitate the movement of the jig block 200 which is seated on the base 100, The guide groove 240 may have a smaller cross sectional area than the guide groove 240 and may be coupled to the guide groove 240 in a state in which the flow in the lateral direction is restricted within the guide groove 240.

In the present embodiment, the guide groove 240 is formed to have a circular cross-sectional shape, and the cross-section of the guide protrusion 160 is formed in an elliptical shape having a major axis length equal to the diameter of the guide groove 240, The guide protrusion 160 can be easily inserted into the guide groove 240 and the flow of the guide protrusion 160 inserted into the guide groove 240 is effectively restricted. It is preferable that the guide protrusion 160 is inclined around the end of the guide protrusion 160 so that the inserting operation of the guide protrusion 160 inserted into the guide groove 240 can be more easily guided.

Hereinafter, the operation of fixing and separating the jig block 200 using the block locking system 10 constructed as described above will be described.

4, when the jig block 200 is fixed to the base 100, the lower portion of the guide rod 20, which is fastened to the jig block 200 and extends to the bottom of the jig block 200, 100 into the sliding guide groove 110 of the sliding door. At this time, the guide rod 20 is inserted into the sliding guide groove 110 so that the first inward curved surface 22 faces the intersecting hole 130. The second inward curved surface 32 of the guide shaft 20 is inserted into the intersecting hole 130, the insertion operation of the guide rod 20 to be loaded into the sliding guide groove 110 is smoothly guided.

5 shows a structure in which the guide rod 20 is inserted into the sliding guide groove 110 while the bottom surface of the jig block 200 is supported on the upper surface of the base 100. At this time, both sides of the bottom of the jig block 200 are supported through a pair of support protrusions 150 provided on both sides of the base 100. At the coupling surface between the bottom surface of the earth block 200 and the upper surface of the base 100, 160 are coupled to the guide groove 240. Therefore, the jig block 200 in this state stably stays on the upper portion of the base 100 without being sideways or rotating.

6, one side of the second inside curved surface 30 of the locking shaft 30 is inserted into the inside of the sliding guide groove 110 through the intersection hole 130, so that the first inside curved surface 30 22 to rotate the locking shaft 30 by rotating the operating portion 31. [ The guide rod 20 inserted into the sliding guide groove 110 maintains the state where the jig block 200 is fixed to the base 100 in a state in which the sliding in the vertical direction is constrained. At this time, in the state where the second curved surface 32 is aligned with the intersecting hole by the difference in radius of curvature between the first curved surface 22 and the locking shaft 30, The rotation number of the locking shaft 30 becomes less than one rotation until the first inward curved surface 22 is engaged.

In this state, when the guide rod 20 is constrained to the sliding guide groove 110, the operator finally inserts the separation preventing member 50 into the separation preventing groove 140 so that the locking shaft 30 rotates in the rotation guide groove 120, And the fixing operation of the jig block 200 is thus completed. 7 shows the structure of the jig block 200 in a state where the fixing operation is completed.

When the jig block 200 fixed to the base 100 is to be reversely removed from the base 100, the operator rotates the locking shaft 30 in the opposite direction to the state shown in Fig. The jig block 200 can be easily removed from the base 100 while being lifted up to the upper portion of the base 100. In this state,

10: Block locking system 20: Guide rod
21: fastening part 22: first inner curved surface
30: locking shaft 31:
32: second inner curved surface 33: engaging groove
50: release preventing member 100: base
110: a sliding guide groove 120; Rotation guide groove
130: cross hole 140; Release prevention groove
150: support jaw 160; Guide projection
200: jig block 210: workpiece support
211: support member 220: fastening hole
240: guide groove

Claims (10)

A block locking system for releasably securing a jig block on a base,
A guide rod extending to the bottom of the jig block and fastened to the base in a state of being slidable in a vertical direction;
A locking shaft vertically installed on the guide rod so as to be rotatable on the base so as to restrain the sliding motion of the guide rod during a rotation operation of at least one rotation;
A pair of supporting jaws provided integrally with the base on the base to support both sides of the bottom of the jig block;
A guide protrusion provided on any one of an upper surface of the base and a lower surface of the jig block; And
And a guide groove provided on the other of the coupling surface of the base and the lower portion of the jig block so that the guide protrusion is engaged. The method according to claim 1,
A sliding guide groove formed vertically so that the guide rod is vertically slidably inserted into the base; a rotation guide groove communicating with the sliding guide groove so as to be perpendicular to the sliding guide groove so as to be rotatable; And an intersecting hole is formed at an intersection between the sliding guide groove and the rotation guide groove to communicate the sliding guide groove with the rotation guide groove. delete delete The method according to claim 1,
Wherein the guide protrusion has a smaller cross-sectional area than the guide groove, so that the guide protrusion is coupled to the guide groove in a state in which lateral flow is restricted. 3. The method of claim 2,
First and second inner curved surfaces are respectively provided on the outer surfaces of the guide rod and the locking shaft corresponding to the intersecting hole positions,
Wherein the locking shaft around the second inside curved surface is provided so as to be able to restrain the first inside curved surface in a state in which the locking shaft enters the inside of the sliding guide groove through the cross hole. The method according to claim 6,
And the second inward curved surface is provided so as to coincide with the intersecting hole. 3. The method of claim 2,
Wherein at least one end of the locking shaft protrudes out of the base for rotational operation of the locking shaft. 3. The method of claim 2,
A release preventing member is fastened to the base to prevent the locking shaft inserted in the rotation guide groove from being detached from the rotation guide groove,
And the release preventing member is provided to block the movement of the locking shaft in the longitudinal direction of the rotation guide groove while allowing the rotation of the locking shaft. The method according to claim 6,
Wherein the first inside curved surface is provided so as to face the intersecting hole in a state where the guide rod is engaged with the sliding guide groove.

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