KR101440525B1 - Precision vice capable of adjusting angle - Google Patents

Abstract

The present invention relates to a precision vise capable of adjusting angles. The precision vise mounts workpieces on first and second rotating members each of which is equipped on first and second fixed members, and rotates an adjusting member, and accordingly, the second rotating member rotates to locate the workpiece on a correct position. At the same time, while rotating the adjusting member, a contact rod is rotated to be completely in contact with the second rotating member to fix the workpiece for processing the same.

Description

Precision vice capable of angle adjustment.

[0001] The present invention relates to a precision vise capable of adjusting an angle, and more particularly, to a vise capable of adjusting an angle, in which a work is placed on first and second rotors provided on one surface of first and second fixtures, The present invention relates to a precision vice capable of adjusting the angle of the workpiece by fixing the workpiece by rotating the adjusting rod while rotating the cooperating rod while rotating the adjusting rod.

Generally, a workpiece can be attached to a horizontal table on a machine tool for various kinds of machining such as milling, boring, drilling, tapping, etc., and the upper surface of the workpiece can be machined. That is, conventionally, in order to process the surface of a workpiece fixed on a table of a machine tool, that is, to machine a workpiece in a multiple plane, various jigs or clamps are used to fix the workpiece A method of releasing the fixed state of the workpiece in order to process the other machined surface of the workpiece after the upper surface is machined and changing the fixed position so that the surface to be machined is directed upward is repeatedly performed.

However, since the vise or the conventional vise that adjusts the rotation angle of the workpiece disclosed in Korean Patent Laid-Open No. 10-2013-0008260 merely fixes the workpiece on the horizontal table of the machine tool rigidly, There is a problem in that it takes much time to change the fixing position of the workpiece because the jig or the clamp is manually adjusted and the workpiece is fixed in the rest position.

Therefore, conventionally, when at least one workpiece is multi-faced or inclined using a machine tool, the productivity is lowered due to the time required for changing the position of the workpiece, and mass production of the workpiece is difficult.

In addition, there has been a problem that the quality of the workpiece is lowered due to the generation of defective products, and the manufacturing cost of the workpiece is increased.

The present invention relates to an apparatus and a method for adjusting the angle of a workpiece and fixing a workpiece by adjusting the angle of the workpiece by accommodating the workpiece in a precision vise fixed to a horizontal table of the machine tool and fixing the workpiece by adjusting the precision vice, It has a purpose to do.

The present invention is characterized in that a pair of guide grooves are formed on both sides of a guide groove and each of the guide grooves is formed with a predetermined length inward at both ends of the guide groove, A table having a fastening groove that is formed so as to be in contact with the table,

A support portion provided on one side of the table and formed with a fastening piece having a fastening hole formed at one surface corresponding to the fastening groove so as to be fastened to the fastening groove of the guide groove formed in the table through the fastening groove, A first insertion hole communicating with a center of the other side surface at a center of one side surface of the fixing body, and a groove recessed inwardly formed on an outer periphery of the first side insertion hole of the fixing body; A first fixture comprising a columnar first rotary hole and a columnar first contact piece protruding outward on the outer periphery of the other side first insertion hole of the fixation body, the thickness gradually decreasing,

A rotating body provided on an inner surface of the first fixed body and formed with a receiving groove at a predetermined length inwardly at one side so as to seat the work on the upper side of the first fixed body and one end integrally connected to the outer center of the rotating body, A first rotating body including a fixed shaft formed to be inserted into the first insertion hole of the fixed body and a columnar insertion piece protruding from the outer periphery of one end of the fixed shaft connected to the rotating body so as to be in contact with the first rotating hole of the fixed body,

A first tightening member inserted into the other end of the fixed shaft of the first rotating body and penetrating through the center so as to be coupled with the rotation of the knob formed at one side thereof and a second tightening member made of a columnar second tightening member whose thickness gradually decreases, ,

A second insertion hole formed at the other side of the upper surface of the table and horizontally passing through the center of the fixing body while being fixed to the table in the same shape as the supporting part and the fixing body of the first fixing body, A second fixing body having a screw thread formed on an inner peripheral surface thereof,

A third insertion hole provided in an inner surface of the second fixing body and having the same shape as a rotation body and a receiving groove of the first rotating body and passing through the center of the rotating body, A first rotation hole penetrating inwardly from one surface of a main end in a third insertion hole penetrating through the center of the other side of the rotary body and extending to the second rotation hole, A second rotating body formed with grooves,

A fourth insert hole penetrating through the center of the third insert hole and having a thread formed on an outer circumferential surface thereof so as to be coupled to a threaded line of the second insert hole of the second fixture, And a second engaging groove extending from the other end of the other end of the fourth insertion hole to the third rotation hole,

Is inserted into the third insertion hole of the second rotating body through the fourth insertion hole of the screw body fastened to the second insertion hole of the second fixing body and is coupled to the first rotation hole of the second rotation body and the second rotation hole A second locking protrusion protruded on the outer peripheral surface so as to be engaged with the third rotation hole and the second locking groove of the screw body and a handle portion which is fastened to the one end of the screw body, Provides precision angle-adjustable vise.

In the present invention, instead of using a separate adjustment and fastening means for adjusting the angle of the workpiece and fixing the workpiece in the conventional vise, after the angle of the workpiece is adjusted by using one adjuster, the adjuster is moved to fix the workpiece, The angle and the fixing of the workpiece can be easily performed by a simple operation. Therefore, the workpiece can be firmly fixed, thereby increasing the machining efficiency of the workpiece by the machine tool and increasing the productivity.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of an angle adjustable precision vise of the present invention; Fig.
Fig. 2 is a front view of the angle-adjustable precision vise of the present invention. Fig.
Figure 3 is an enlarged cross-sectional view of the "P" portion of the angle-adjustable precision vise according to the invention of Figure 2;
Fig. 4 is a schematic view of a second embodiment of the present invention in which a second fixture is fixed to a table in an angle-adjustable precision vice. Fig.
5 is a perspective view of the assembly of a precision vise capable of adjusting the angle of the present invention.
Fig. 6 is a perspective view of the tightening body, the first fixing device and the first rotary assembly in the angle-adjustable precision vise of the present invention. Fig.
7 is a front perspective view (a) and an AA sectional perspective view (b) of the first fixture in the angle adjustable precision vise of the present invention.
8 is a rear perspective view (a) and a BB sectional view (b) of the first fixture in the angle adjustable precision vise of the present invention.
9 is a first full frontal perspective view (a), a rear perspective view (b), and a cross-sectional view (c) in an angle adjustable precision vise of the present invention.
10 is a top view (a) and an internal sectional view (b) of a tightening body in an angle adjustable precision vise of the present invention.
11 is a second all-second fixture-screw body-adjuster assembly structural view in an angle adjustable precision vise of the present invention.
12 is a perspective view of a second fixture in an angle adjustable precision vise of the present invention.
FIG. 13 is a front perspective view and a front view (a) and a rear perspective view and a front view thereof (b) of the second rotating body in the angle-adjustable precision vise of the present invention.
Figure 14 is a CC sectional view of a screw body in a angle-adjustable precision vise of the present invention and a perspective view (a) and CC section and a perspective view (b) of its "E"
FIG. 15 is a perspective view of the second rotating body and the screw body mounting structure according to the movement and rotation of the adjusting body in the assembled state of the second rotating body-second fixing body-screw body- Figures (a) and (b).
FIG. 16 is an assembled view (a) in which a shield plate is assembled on one surface of a second rotating body in an angle adjustable precision vise of the present invention, and FIG. 16 (b) after assembly.
FIG. 17 is a structural view (a) and (b) of the present invention in which a workpiece is rotated by installing a workpiece on a precision vice capable of adjusting the angle.

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described in detail with reference to the drawings.

Note that the same or corresponding portions in the drawings are denoted by the same reference numerals and the description thereof will not be repeated.

1 to 15, a pair of guide grooves 21 are formed on both sides of the guide groove 22 and extend from both ends of the guide groove 21, (20) having a fastening groove (23) formed to penetrate into the latching groove (22) at a predetermined length on one side of each of the guide grooves (21)

The table 20 is provided at one side of the upper surface of the table 20 and is fastened to the fastening groove 22 of the guide groove 21 formed in the table 20 and fastened with the bolt 40 through the fastening groove 23 And a fixing body 120 which extends upward by connecting the upper surfaces of the supporting portions 110. The supporting body 110 is formed on both sides of the fixing body 111, A first insertion hole 121a communicating with the center of the other side surface from the center of one side of the fixed body 120 and a concave groove formed inwardly on the outer periphery of the first side insertion hole 121a of the fixed body 120 The first contact hole 123 is a columnar first rotating hole 122 and a columnar first contact piece 123 that protrudes outward on the outer periphery of the other side first insertion hole 121a of the fixed body 120 and gradually decreases in thickness The first fixing member 100a,

A rotating body 210 provided on the inner side of the first fixing body 100a and having a receiving groove 211 formed at a predetermined length inwardly from one end so as to seat the work 30 on the inner upper side, A fixing shaft 220 integrally connected to the center of the outer side of the fixed body 210 and inserted into the first insertion hole 121a of the first fixing body 100a, A first rotating body 200a including a columnar insertion piece 230 protruding from the outer periphery of one end of a fixed shaft 220 connected to the rotating body 210 so as to be in contact with the rotating body 210,

A first fastening hole 311 penetrating the center of the fixed shaft 220 of the first rotating body 200a is formed so as to be engaged with the rotation of the handle 320 formed at one side of the first rotating body 200a, A tightening body 300 made of a second cylindrical close-contact piece 310,

And is fixed to the table in the same shape as the supporting part 110 and the fixing body 120 of the first fixing body 100a and horizontally arranged at the center of the fixing body 120. [ A second fixing body 100b having a second insertion hole 121b formed therethrough and a thread formed on an inner peripheral surface of the second insertion hole 121b,

The rotating body 210 has the same shape as the rotating body 210 and the receiving groove 211 of the first rotating body 200a and is provided at the center of the rotating body 210, A second insertion hole 240 and a second rotation hole 241 extending inwardly on the inner periphery of the third insertion hole 240 on one side of the rotation body 210; And a first engaging groove 242 extending from the one end of the main end of the third insert hole 240 to the second rotation hole 241, 200b,

A fourth inserting hole 410 and a fourth inserting hole 410 formed at the center of the second fixing member 200b and threaded on the outer circumferential surface so as to be coupled to the threaded line of the second inserting hole 121b of the second fixing body 200b, A third rotation hole 420 extending inwardly on one side of the inner circumferential surface and a second engagement groove 422 extending inward from the other end surface of the fourth insertion hole 410 in the third rotation hole 420 430) are formed on the surface of the screw body (400)

Is inserted into the third insertion hole 240 of the second rotating body 200b through the fourth insertion hole 410 of the screw body 400 fastened to the second insertion hole 121b of the second fixing body 100b A first locking protrusion 510 protruding from one surface of the outer circumference so as to be engaged with the first locking groove 242 or the second rotation hole 241 of the second rotating body 200b while being inserted, A second locking protrusion 520 protruding from the outer peripheral surface so as to be coupled to the rotation hole 20 or the second locking groove 430 and a handle 530 fastened to the one end of the second locking protrusion 520, A precision vise 10 (hereinafter referred to as a "precision vise") capable of adjusting the angle is provided.

1 and 5, the precision vise 10 of the present invention includes a table 20, a first fixing body 100a which is inserted and fixed to a guide groove 21 on one side of the upper surface of the table 20, A first rotating body 200a coupled to one side of the first fixing body 100a, a fastening body 300 fastening the first fixing body 100a and the first rotating body 200a, A second fixing body 100b inserted and fixed to the other side guide groove 21 on the upper surface of the first fixing body 100b, a second rotating body 200b coupled to one side of the second fixing body 100b, And a control body 500 for controlling the rotation of the second rotating body 200b and the rotation of the screw body 400. The screw body 400 includes a screw body 400 coupled to the second rotating body 200b to move the second rotating body 200b to the left and right, do.

1, 9, and 13, the first rotating body 200a is formed to face the second rotating body 200b, and the first rotating body 200a is formed to face the receiving groove 211 of the first rotating body 200a, It is preferable that the receiving grooves 211 of the second rotating body 200b are formed symmetrically with respect to each other and the shapes of the receiving grooves 211 of the first rotating body 200a and the second rotating body 200b are different from each other, So that one end of the workpiece 30 is brought into contact with the other closed end of the receiving recess 211 so that the first and second rotors 200a and 200b Even if both ends of the lower portion of the work 30 are seated in the receiving grooves 211 of the first and second rotating bodies 200a and 200b, the work 30 is released to the outside .

First, the process of fixing the workpiece 30 after the angle is adjusted by seating the workpiece 30 on the precision vise 10 of the present invention will be described as follows.

As shown in FIG. 1, first and second fixing bodies 100a and 100b are assembled on one side of the top surface and the other side of the top surface of the table 20, respectively.

1 to 5, the holding pieces 111 of the supporting portions 110 formed on the first and second fixing members 100a and 100b are inserted into the locking grooves 22 of the table 20 The first fixing body 100a and the second fixing body 100b are adjusted so as to correspond to the length of the workpiece 30 and then the fastening groove 23 formed at the side of the guide groove 21 of the table 20 The bolts 40 are inserted and fastened by the bolts 40 through the fastening holes 112 formed on one side of the fastening pieces 111 of the support 110 to fasten the first and second fastening bodies 100a and 100b to the table 20, As shown in Fig.

That is, a coupling groove 23 formed at a predetermined length on one side of the guide groove 21 of the table 20 is inserted through the coupling groove 22 and inserted into the first and second fixing bodies The fastening holes 112 formed on one side of the fastening pieces 111 of the first fastening pieces 100a and 100b are fastened to the fastening holes 23 and fastened by the bolts 40 through the fastening holes 23 and fastening holes 112, And the two fixing bodies 100a and 100b are fixed.

6, a fixing shaft 220 formed on one side surface of the rotating body 210 of the first rotating body 200a provided on one side of the first fixing body 100a is inserted into a first A cylindrical insert piece (not shown) which is inserted into the first insertion hole 121a of the fixing body 100a and protruded from the outer periphery of one end of the fixed shaft 220 connected to the rotating body 210 of the first rotating body 200a 230 are inserted into a first rotation hole 122 having an inner concave groove formed on the outer periphery of the first insertion hole 121a formed on one side of the fixed body 120 of the first fixing member 100a.

6, 7, and 9 so that the first rotating body 200a can rotate freely at the same time as the second rotating body 200b is rotated so as to be placed at a predetermined position of the workpiece 30 The insertion piece 230 of the first rotating body 200a is inserted into the first rotating hole 122 of the first fixing body 100a so that the first rotating body 200a freely rotates without restraint or interference / RTI >

8 and 10, the first fastening hole 311 formed in the second fastening piece 310 of the tightening body 300 is inserted into the first insertion hole 121a of the first fixing body 100a So that the one end of the fixed shaft 220 of the first rotating body 200a is fastened.

As shown in Fig. 11 to Fig. 15, in the screw hole formed in the inner periphery of the second insertion hole 121b penetrating the fixed body 120 of the second fixing body 100b provided on the other side of the upper surface of the table 20, And the second rotating body 200b is brought into contact with one side surface of the second fixing body 100b and then the rear end of the adjusting body 500 is inserted into the second rotating body 200b Passes through the third insertion hole 240 and passes through the fourth insertion hole 410 of the screw body 400 fastened to the second insertion hole 121b of the second fixing body 100b.

At this time, as shown in FIG. 15 (a), the first locking protrusion 510 of the adjuster 500 is positioned in the first locking groove 242 of the second rotating body 200b, 500 is assembled such that the second locking protrusion 520 of the adjusting member 500 is positioned in the third rotation hole 420 of the screw body 400 and the knob 530 ) Are fastened and fixed.

In the precision vise 10 assembled on the table 20, as shown in FIG. 17 (a), the first rotating body 200a receiving groove 211 and the second rotating body 200b receiving groove 211 And both lower ends of the work 30 are seated.

15 (a), the first locking protrusion 510 of the adjusting body 500 is inserted into the receiving groove 211 of the first and second rotors 200a and 200b, The second locking projection 520 of the adjusting body 500 is positioned in the third rotation hole 420 of the screw body 400 while the first locking groove 242 of the rotating body 200b is positioned, The first locking protrusion 510 is tightly received in the first locking groove 242 and the adjusting body 500 is rotated to rotate the second rotating body 200b. At this time, The rotating body 200a rotates in the same direction.

Of course, the second locking protrusion 520 of the adjuster 500 is received in the third rotation hole 420 of the screw body 400, and the second locking protrusion 520 is rotated by the rotation of the adjuster 500 And freely rotate in the third rotation hole 420 without restraint or interference.

After the rotation of the second rotating body 200b is completed by the adjusting body 500, the handle 320 of the tightening body 300 is rotated as shown in FIGS. 8 and 10, A second shaft member 310 having a cylindrical shape and gradually decreasing in thickness as the fixing shaft 220 of the first rotating body 200a assembled with the first shaft fastening member 311 of the fastening member 310 is fastened, The first fixing piece 123 of the first fixing member 100a is protruded outward at the outer periphery of the first insertion hole 121a of the fixing body 120 and is gradually reduced in thickness. The one side of the first contact piece 123 and the one side of the second contact piece 310 are closely contacted and fixed by the rotation of the tightening body 300. [

The position of the workpiece 30 is fixed by fixing the first rotating body 100a provided at one side of the first fixed shaft 100a in the fixed position of the workpiece 30. [

15 (b), the adjuster 500 is moved backward so that the first locking protrusion 510 of the adjusting body 500 is moved in the second rotation direction And the second locking protrusion 520 of the adjusting body 500 is seated in the second locking groove 430 of the screw body 400 so as to be restrained.

When the adjusting body 500 is rotated as described above, the first locking protrusion 510 of the adjusting body 500 freely rotates without being constrained or interfered with the second rotating hole 241 of the second rotating body 200b The second locking protrusion 520 of the adjusting body 500 is restrained by the second locking groove 430 of the screw body 400 to rotate the screw body 400, The screw body 400 having the thread on the outer circumferential surface formed in the inner circumference of the second insertion hole 121b advances in one direction and protrudes outside the second insertion hole 121b of the second fixing body 100b, 400 pushes one surface of the second rotating body 200b and advances the second rotating body 200b in one direction so that both ends of the workpiece 30 are moved in the first and second rotating directions as shown in FIG. (200a, 200b).

Accordingly, after the work 30 has been operated, the following operation is performed to remove the work 30 from the precision vise 10.

15 (b), the adjusting member 500 is moved backward so that the first locking protrusion 510 of the adjusting member 500 is inserted into the second rotation hole 241 of the second rotating body 200b, And the second locking protrusion 520 of the adjuster 500 is closely accommodated in the second locking groove 430 of the screw body 400 so that the second locking protrusion 520 is inserted into the second locking groove 430, (520).

The adjusting body 500 is rotated in the direction opposite to the fixing direction of the work 30 and the second locking protrusion 520 of the adjusting body 500 contacts the second locking groove 430 of the screw body 400 The first locking protrusion 510 of the adjusting body 500 rotates freely without restraint or interference with the second rotation hole 241 of the second rotating body 200b, The second rotating body 200b which has been tightly fixed to the screw body 400 is released and the workpiece 30 is brought into close contact with the receiving grooves 211 of the first and second rotating bodies 200a and 200b, The work 30 is removed.

As shown in FIG. 16, a third insertion hole (not shown) of the second rotating body 200b is coupled to one surface of the second rotating body 200b formed with the second rotating hole 241 of the second rotating body 200b, And a fifth insertion hole 610 having the same circumference as the circumference of the second insertion hole 240 is formed.

This is because the first locking projection 510 of the adjusting body 500 is received in the second rotating hole 241 to detach the workpiece 30 after machining of the workpiece 30, The screw body 400 which is fixed to the second latching groove 430 by the unit 520 moves backward due to the rotation of the adjusting body 500 and the screw body 400 is moved backward by the rotation of the adjusting body 500, The first rotation stopper 510 of the adjusting body 500 rotates freely in the second rotation hole 241 of the second rotating body 200b and the second rotating body 200b can move backward simultaneously, And a fifth insertion hole 610 of the blocking plate 600 blocking the inside of the first locking protrusion 510 so that the second locking hole 510 is not separated from the second rotation hole 241 of the second rotating body 200b .

At this time. The inner diameter of the fifth insertion hole 610 is the same as the inner diameter of the third insertion hole 240 of the second rotating body 200b.

Although not shown in the drawing, an angle adjusting scale (not shown) is formed on the outer periphery of the second insertion hole 121b of the second fixing body 100b, and a position of the adjusting body 500 (Not shown) protruding from one surface is provided and provided.

That is, the first locking protrusion 510 of the adjusting body 500 is restrained in the first locking groove 242 of the second rotating body 200b so that the adjusting body 500 is rotated while the adjusting body 500 rotates, The reference display portion formed on one surface of the second fixing body 100b is positioned on the angle adjusting scale of the second fixing body 100b and the rotation angle is adjusted by the angle adjusting scale indicated by the reference display portion according to the rotation of the adjusting body 500, Position.

As described with reference to the above embodiments, the precision vice which can be adjusted in angle can be manufactured by variously changing the design. The principle of the present invention is limited to the construction of the present invention, Knowledgeable person can easily make a design change.

Precision vise: 10 Insertion piece: 230
Table: 20 3rd Insertion Hole: 240
Guide groove: 21 2nd rotation hole: 241
Clamping groove: 22 1st clinging groove: 242
Fastening groove: 23 tightening body: 300
First fixing member: 100a Second tight contact member: 310
Second fixture: 100b First fixture: 311
Support part: 110 Hand part: 320
Engaging piece: 111 Screw body: 400
Fastening hole: 112 fourth insertion hole: 410
Fixing Body: 120 3rd Rotating Hole: 420
First insertion hole: 121a Second engagement groove: 430
Second insertion hole: 121b Controlling element: 500
First rotation hole: 122 First locking protrusion: 510
First tight contact piece: 123 Second lock protrusion: 520
First Whole: 200a Handle: 530
Second whole: 200b Block plate: 600
Rotating body: 210th Fifth insertion hole: 610
Accommodation Home: 211
Fixed shaft: 220

Claims (1)

A pair of guide grooves formed on both sides of each of the guide grooves and each having a guide groove formed on both sides of the lower end of the guide groove and forming a predetermined length of the inner side of the guide groove, A table with grooves;
A support portion provided on one side of the table and formed with a fastening piece having a fastening hole formed at one surface corresponding to the fastening groove so as to be fastened to the fastening groove of the guide groove formed in the table through the fastening groove, A first insertion hole communicating with a center of the other side surface at a center of one side surface of the fixing body, and a groove recessed inwardly formed on an outer periphery of the first side insertion hole of the fixing body; A first fixture comprising a columnar first rotary hole and a columnar first contact piece protruding outward on the outer periphery of the other side first insertion hole of the fixation body and having a gradually decreasing thickness;
A rotating body provided on an inner surface of the first fixed body and formed with a receiving groove at a predetermined length inwardly at one side so as to seat the work on the upper side of the first fixed body and one end integrally connected to the outer center of the rotating body, A first rotating body including a fixed shaft formed to be inserted into the first insertion hole of the fixed body and a columnar insertion piece protruding from the outer periphery of one end of the fixed shaft connected to the rotating body so as to be inserted into the first rotating hole of the fixed body; ,
A tightening body made of a cylindrical second tightening piece having a first fastening hole inserted into the other end of the fixed shaft of the first rotating body and passing through the center so as to be fastened by the rotation of the knob formed at one side and gradually decreasing in thickness; Wow,
A second insertion hole formed at the other side of the upper surface of the table and horizontally passing through the center of the fixing body while being fixed to the table in the same shape as the supporting part and the fixing body of the first fixing body, A second fixing body having a screw thread formed on an inner peripheral surface thereof,
A third insertion hole provided in an inner surface of the second fixing body and having the same shape as a rotation body and a receiving groove of the first rotating body and passing through the center of the rotating body, A first rotation hole penetrating inwardly from one surface of a main end in a third insertion hole penetrating through the center of the other side of the rotary body and extending to the second rotation hole, A second rotating body formed with grooves,
A fourth insert hole penetrating through the center of the third insert hole and having a thread formed on an outer circumferential surface thereof so as to be coupled to a threaded line of the second insert hole of the second fixture, And a second engaging groove penetrating the other end of the other end of the main end of the fourth insertion hole and extending to the third rotation hole; And
Is inserted into the third insertion hole of the second rotating body through the fourth insertion hole of the screw body fastened to the second insertion hole of the second fixing body and is coupled to the first rotation hole of the second rotation body and the second rotation hole A second locking protrusion protruded on the outer peripheral surface so as to be engaged with the third rotation hole and the second locking groove of the screw body and a handle portion which is fastened to one end of the screw body; Wherein the angle adjustable vise is configured to be adjustable.

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