CN107486796A - Vice - Google Patents

Abstract

A kind of vice, including：Movable part and the fixed part of fixed setting, have jaw between the movable part and fixed part；The vice also includes：Clamping device, one of portion in the fixed part and movable part, the portion is as installation portion；The clamping device includes：Clamp-press part outside the installation portion, for being moved towards the installation portion to clamp wire harness in the installation portion.Utilize the technical program, either big line footpath wire harness still has the RVV of screen resilience, it is fixed without knotting using the mode of cramping, is not in the wire harness for going for various line footpaths the problem of starting partial exfoliation and the wire harness with screen resilience easily.

Description

Vice

Technical field

The present invention relates to vice technical field, more particularly to a kind of vice.

Background technology

There is extensive inductance coil should in consumer electronics, semiconductor, wave filter, transformer production industry With because Cost Problems or capacity of equipment limit, inductance coil coiling generally requires to have been manually done, in hand The vice of clamping magnet ring or bar magnet can be used during work coiling.

Reference picture 1, vice 1 have jaw 10.In coiling, magnet ring 11 is fixed on jaw 10 first, paint Envelope curve 12 passed through since magnet ring 10 and coiling.In the prior art, hand winding industry universal way is One wrapping post 13 is being installed close to the position of jaw 10, so less enamel-covered wire 12 of line footpath is opened in coiling Part of starting is wound on to the fixation that enamel-covered wire 12 is realized on wrapping post 13 during the beginning.

This wire harness fixed form has following drawback：Because wire harness is wound on wrapping post by craft, this for The coil and RVV with resilience of big line footpath, it may appear that the problem of part of starting easily releases.

The content of the invention

The present invention solves the problems, such as, in existing hand winding, line of the wire harness fixed form for big line footpath Circle and RVV with resilience, it may appear that the problem of part of starting easily releases.

To solve the above problems, the present invention provides a kind of vice, the vice includes：Movable part and fixation are set The fixed part put, there is jaw between the movable part and fixed part；The vice also includes：Clamping Mechanism, one of portion in the fixed part and movable part, the portion is as installation portion；The folder Holding mechanism includes：Clamp-press part outside the installation portion, for being moved towards the installation portion to clamp Wire harness is in the installation portion.

Alternatively, the clamping device includes：At least two clamp-press parts.

Alternatively, all clamp-press parts cross same straight line.

Alternatively, the clamping device also includes：Drive division, for driving the clamp-press part described in Installation portion, which moves to, clamps wire harness in the installation portion.

Alternatively, the clamping device includes：Two clamp-press parts, the drive division are used to drive simultaneously All clamp-press parts are moved to move towards the installation portion.

Alternatively, the drive division linear movement output, the clamping device also include：Power transmission shaft；

First transmission mechanism, between the drive division and the power transmission shaft, for by the drive division The transform linear motion of output is rotary motion of the power transmission shaft along own central axis line；

Second transmission mechanism, between the power transmission shaft and one of them described clamp-press part, for by institute It is linear motion of one of them the described described clamp-press part towards the installation portion to state convert rotational motion；

3rd transmission mechanism, between the power transmission shaft and another described clamp-press part, for by described in Convert rotational motion is linear motion of another the described described clamp-press part towards the installation portion.

Alternatively, first transmission mechanism is：Located at the first radially protruding part of the power transmission shaft；Institute State drive division and be used for linear movement output to drive first radially protruding part and drive axis.

Alternatively, the output shaft of the drive division is provided with adjustment portion, the drive division with thread fiting mode Output shaft pass through the adjustment portion and drive first radially protruding part to rotate.

Alternatively, first transmission mechanism is lead screw transmission mechanism.

Alternatively, first transmission mechanism is rack and pinion drive mechanism.

Alternatively, second transmission mechanism includes：Located at the second radially protruding part of the power transmission shaft； With rotating shaft and can around the rotating shaft rotate connecting rod；One of clamp-press part, which has, stretches into the peace The first axle in dress portion；The first pin and another is provided with one of in one end of the connecting rod and the first axle One is provided with the first hole, and first pin is stretched into first hole and between the hole wall in first hole With gap, the other end of the connecting rod and rotation side of second radially protruding part along the power transmission shaft To abutting.

Alternatively, the 3rd transmission mechanism includes：The 3rd radially protruding part on the power transmission shaft； Another described clamp-press part is provided with the second axle for stretching into the installation portion；3rd radially protruding part and institute One of state in the second axle and to be provided with the second pin and another is provided with the second hole, described second sells and stretch into institute Stating has gap in the second hole and between the hole wall in second hole.

Alternatively, the drive division is cylinder, hydraulic cylinder or magnetic valve.

Alternatively, the drive division output rotary motion, the clamping device include：Transmission mechanism, use Transported in by the straight line that the convert rotational motion of the drive division is two clamp-press parts towards the installation portion It is dynamic.

Alternatively, the transmission mechanism is rack and pinion drive mechanism.

Alternatively, screwed hole is provided with the installation portion, the clamp-press part is provided with thread spindle, the screw thread Axle forms screw thread with the screwed hole and coordinated.

Alternatively, the clamping device also includes：Elastic component；The elastic component is used for：In the cramping Portion is extruded when being moved towards the installation portion and deformed by the clamp-press part, and the folder is driven in resilience Splenium counter motion extremely resets.

Compared with prior art, technical scheme has advantages below：

In coiling, harness clips are pressed between clamp-press part and installation portion.In existing wire harness fixed form, The bad knotting of big line footpath wire harness, even if can knot, also easily unclamp；RVV with screen resilience exists After knotting, easy resilience.Unlike the prior art, the technical program, either big line footpath wire harness are utilized Or the RVV with screen resilience, it is fixed without knotting using the mode of cramping, easily Be not in go for the wire harness of various line footpaths the problem of starting partial exfoliation and there is screen resilience Wire harness.

Brief description of the drawings

Fig. 1 is the stereogram of the vice of prior art；

Fig. 2 is the stereogram of the vice of this practical specific embodiment；

Fig. 3 is profile of the vice shown in Fig. 2 along CC directions.

Embodiment

It is understandable to enable the above objects, features and advantages of the present invention to become apparent, below in conjunction with the accompanying drawings The specific embodiment of the present invention is described in detail.

Reference picture 2, vice includes：Movable part and the fixed part 2 of fixed setting, in movable part and fixed part There is jaw 21, the movable part can be used as installation portion 3 between 2.Vice also includes：Clamping device 4, Located at installation portion 3.Clamping device 4 includes：Clamp-press part outside installation portion 3, respectively first clamps Portion 40 ' and the second clamp-press part 40 ", for being moved towards installation portion 3 to clamp wire harness 5 in installation portion 3.

In coiling, wire harness 5 is clamped between clamp-press part and installation portion 3.In existing wire harness fixation side In formula, the big bad knotting of line footpath wire harness, even if can knot, also easily unclamp；Shield with screen resilience Line is covered after knotting, easy resilience.Unlike the prior art, the technical program, either big line are utilized Footpath wire harness still has the RVV of screen resilience, is fixed without knotting using the mode of cramping, Be not in go for the wire harness of various line footpaths the problem of starting partial exfoliation and there is resilience easily The wire harness of power.

Installation portion 3 of the movable part as clamping device 4 is selected, movable part provides enough spaces to load Clamping device 4, clamping device 4 can be synchronized with the movement with installation portion 3.Alternatively, fixed part 2 and movable part in any one portion, under conditions of installing space permission or can expire slightly modified On the premise of sufficient assembled condition, it can serve as installing the installation portion of clamping device 4.

In vice, movable part can be relatively fixed portion 2 and move towards fixed part 2 and be transported away from fixed part 2 It is dynamic, with the size of adjusting jaw 21.Wherein, guide rail 14 is provided with movable part, movable part passes through guide rail 14 are arranged on fixed part 2, are to be slidably matched between guide rail 14 and fixed part 2.Set guide rail 14 be Cuboid or other prisms, make to relatively rotate between guide rail 14 and fixed part 2.In fixation Portion 2 is provided with supporting mechanism 15 to fix and support whole vice.

It can be lead screw transmission mechanism between movable part and fixed part 2.The lead screw transmission mechanism can include： Screw mandrel 30, through movable part, guide rail 14 and fixed part 2, handle 31 is screwed with being exposed to outside movable part, Screw mandrel 30 can be rotated around own central axis line, but axial movement is defined in movable part；Feed screw nut's (figure Not shown in), it is fixedly mounted with movable part and forms feed screw nut's cooperation with screw mandrel 30.Along two-phase negative side Handle 31 is screwed to rotation, the convert rotational motion of screw mandrel 30 is the linear motion of feed screw nut and movable part, Movable part can be relatively fixed portion 2 by guide rail 14 and slide, with the size of adjusting jaw 21.

Clamping device 4 can include：Two clamp-press parts, respectively the first clamp-press part 40 ' and the second clamp-press part 40″.When the partial-length requirement of starting to wire harness 5 is longer, there is certain distance between two clamp-press parts, Corresponding design requirement can be met.Moreover, two clamp-press parts can more firmly fix the line of big line footpath Beam.Therefore, as a further improvement, the clamp-press part in clamping device can be not limited to two, clamping machine Structure can include at least two clamp-press parts.

Two clamp-press parts can cross same straight line outside installation portion 3.Include being more than in clamping device During two clamp-press parts, all clamp-press parts can cross same straight line.So, can when clamping wire harness 5 So that the part of starting of wire harness 5 along straight line while is placed between two clamp-press parts and installation portion 3, compare appearance It is easy to operate.Moreover, all clamp-press parts are regularly arranged along straight line, vice can be made to manufacture and fill Easily controllable with technique, manufacture controllability is high.

Reference picture 3, clamping device 4 also include：Drive division 41, for driving clamp-press part towards installation portion 3 Move to and clamp wire harness 5 in installation portion 3.It is possible, firstly, to starting for wire harness 5 is first partially disposed in clamp-press part Between installation portion 3；Afterwards, operating drive division 41 drives clamp-press part to be moved towards installation portion 3 to clamping line Beam 5.

Using drive division 41, cramping fixation easily can be carried out to wire harness 5.Drive division 41 can be located at On installation portion 3 so that the structure of vice is compacter.

The clamping device 4 of the technical program includes：Two clamp-press parts, drive division 41 can be used for driving simultaneously All clamp-press parts are moved to move towards installation portion 3.Wherein, drive division 41 can be clamped with linear movement output Mechanism 4 can include：Power transmission shaft 42；

First transmission mechanism 43, between drive division 41 and power transmission shaft 42, for drive division 41 is defeated The transform linear motion gone out is rotary motion of the power transmission shaft 42 along own central axis line；

Second transmission mechanism 44, located at power transmission shaft 42 and one of them described clamp-press part (first folder in left side Splenium 40 ') between, the convert rotational motion for power transmission shaft 42 to be exported is the direction of the first clamp-press part 40 ' The linear motion of installation portion 3；

3rd transmission mechanism 45, located at power transmission shaft 42 and another described clamp-press part (second cramping on right side Portion 40 ") between, the convert rotational motion for power transmission shaft 42 to be exported is the second clamp-press part 40 " towards peace The linear motion in dress portion 3.

Using power transmission shaft 42, the first transmission mechanism 43, the second transmission mechanism 44 and the 3rd transmission mechanism 45, Drive division 41 can drive two clamp-press parts to be moved towards fixed part 2 simultaneously, without operating two respectively Clamp-press part moves, more convenient operation, and control efficiency is high.Power transmission shaft 42, the first transmission mechanism 43, Two transmission mechanisms 44 and the 3rd transmission mechanism 45 can be with integrated installation portions 3, the integrated level lifting of vice, Structure is compacter.

Specifically, the first transmission mechanism 43 can be：Located at the first radially protruding part 46 of power transmission shaft 42, Drive division 41 is used for linear movement output to drive the first radially protruding part 46 and power transmission shaft 42 to rotate.When Drive division 41 to the first radially protruding part 46 it is for linear motion when, the first radially protruding part 46 is promoted Power transmission shaft 42 is driven to be moved around own central axis line.

Drive division 41 can select cylinder, hydraulic cylinder or magnetic valve.By taking cylinder as an example, set in cylinder There are piston 410 and piston rod 411, piston rod 411 is directed at the first radially protruding part 46.Filled into cylinder Gas, air pressure promote piston 410 and piston rod 411 to move, and piston rod 411 drives the first radially protruding part 46 and power transmission shaft 42 rotate.During wire harness 5 clamps, inflated condition can be kept, to maintain wire harness 5 Cramping state.The small volume of cylinder, it is easy to operate, required air pressure can be provided.And cylinder is with gas It is easily controllable for moving medium, will not be to leakage problem produced by job site.

The output shaft (being piston rod 411) of drive division 41 is provided with adjustment portion 6 with thread fiting mode, The output shaft of drive division 41 drives the first radially protruding part 46 to rotate by adjustment portion 6.By relatively living Stopper rod 411 screws adjustment portion 6, the distance of the 411 to the first radially protruding part of adjusting piston bar 46, enters And adjust the first radially protruding part 46 and the rotatable angle range of power transmission shaft 42.To close to the first radial direction The direction of protuberance 46 screws adjustment portion 6, can increase the angle rotatable model of the first radially protruding part 46 Enclose；Adjustment portion 6 is screwed to the direction away from the first radially protruding part 46, it is radially projecting that first can be reduced The rotatable angle range in portion 46.

The mode that the screw thread coordinates can be：The end of piston rod 411 is provided with external screw thread, adjustment portion 6 It can select with female sleeve；Or the end of piston rod is set as having female sleeve, Adjustment portion can be with externally threaded screw rod.

Hydraulic cylinder is used as moving medium using liquid.Solenoid valves, piston rod movement can be driven to drive First radially protruding part 46 and power transmission shaft 42 rotate.

As a kind of variation, the first transmission mechanism can be lead screw transmission mechanism.In the screw rod transmission machine In structure, the output end of drive division can be provided with nut, drive division can drive nut it is for linear motion along axis Motion, but nut can not rotate around own central axis line；Power transmission shaft can be used as screw mandrel, and nut can It is enclosed in a manner of being coordinated by screw thread on screw mandrel, screw mandrel can rotate around own central axis line, but can not make axle To motion.Drive division drive nut is for linear motion, and the linear motion of power transmission shaft is restricted and relative spiral shell Mother rotates.In this case, drive division drives power transmission shaft along two opposite directions, can control Clamp-press part processed is moved to clamp wire harness towards installation portion, and moved away from installation portion to unclamp wire harness.

As another variation, the first transmission mechanism can be rack and pinion drive mechanism.Drive division Output shaft is provided with rack, and power transmission shaft is provided with gear, rack and pinion engagement.When rack is for linear motion, In the presence of engagement force, drive gear is with drive axis.In this case, drive division is along two Individual opposite direction drives power transmission shaft, can control clamp-press part along two towards installation portion and away from installation portion Move in direction.

Second transmission mechanism 44 includes：The second radially protruding part 47 on power transmission shaft 42；With turn Axle 48 and can around the shaft 48 rotation connecting rod 49；First clamp-press part 40 ', which has, stretches into the first of installation portion 3 Axle 50.One end (being first end A) of connecting rod 49 is provided with the first hole 490, and first axle 50 is provided with First pin 51, the first pin 51, which stretches into, has gap in the first hole 490 and between the hole wall in the first hole 490. The other end (being the second end B) and rotation of second radially protruding part 47 along power transmission shaft 42 of connecting rod 49 Direction abuts.

When the radially protruding part 47 of power transmission shaft 42 and second rotates, connecting rod 49 is by the second radially protruding part 47 Drive and 48 rotate around the shaft.Due to having gap between the first pin 51 and the hole wall in the first hole 490, Therefore connecting rod 49 around the shaft 48 rotation will not be by the stop of first axle 50.First pin 51 can be used Moved in the hole wall along the first hole 490 in the first hole 490, so that the clamp-press part of first axle 50 and first 40 ' is for linear motion along the axial direction of first axle 50.When connecting rod 49 rotates, the first pin 51 around the shaft 48 Rotate.The hole wall in the first hole 490 by the first pin 51 pressure, because first axle 50 can not be vertical Moved in the either direction of first axle 50, therefore, component of the pressure on the axial direction of first axle 50 Make first axle 50 axially movable.

As shown in figure 3, working as the counterclockwise movement of power transmission shaft 42, first axle 50 drives the court of the first clamp-press part 40 ' It is for linear motion to installation portion 3.When the clockwise movement of power transmission shaft 42, first axle 50 drives first to clamp It is for linear motion that portion 40 ' can deviate from installation portion 3.

First pin 51 and the first hole 490 cooperate, and it is for linear motion that the first clamp-press part 40 ' can be achieved. Therefore, as admissible improvement, the can be provided with one of in one end and first axle of connecting rod One pin and another be provided with the first hole.

3rd transmission mechanism 45 includes：The 3rd radially protruding part 52 on power transmission shaft 42；Second folder Splenium 40 " is provided with the second axle 53 for stretching into installation portion 3.3rd radially protruding part 52 is provided with the second pin 55 And second axle 53 be provided with the second hole 530, the second pin 55 stretch into the second hole 530 and with the second hole 530 There is gap between hole wall.

When the radially protruding part 52 of power transmission shaft 42 and the 3rd rotates, the second pin 55 is used for along the second hole 530 Hole wall motion, the second pin 55 is used for hole wall along the second hole 530 and moves, so that the second axle 53 and the It is for linear motion that two clamp-press parts 40 " along the second axle 53 are axially facing installation portion 3.Also, in power transmission shaft 42 When rotating counterclockwise, the second axle 53 drives the second clamp-press part 40 " for linear motion towards installation portion 3.When The clockwise movement of power transmission shaft 42, the second axle 53 drive the second clamp-press part 40 " can make directly away from installation portion 3 Line moves.

As admissible improvement, the 3rd radially protruding part is with that can be provided with the one of in the second axle Two pin and another can be provided with the second hole, for realize transmission cooperation.

Therefore, when 42 rotate counterclockwise of power transmission shaft, the axle 53 of first axle 50 and second can be driven simultaneously It is synchronous for linear motion so that the first clamp-press part 40 ' and the second clamp-press part 40 " are transported simultaneously towards installation portion 3 Move and moved away from installation portion 3.This can lift operating efficiency.

First radially protruding part 46, the second radially protruding part 47 and the 3rd radially protruding part 52 are integrated in peace Fill on ring 7, the fixed cover of mounting ring 7 is set outside power transmission shaft 42 between mounting ring 7 and power transmission shaft 42 There is axle sleeve 8, axle sleeve 8 can strengthen the bonding strength of mounting ring 7 and power transmission shaft 42.As an improvement Can be one between first radially protruding part, the second radially protruding part and the 3rd radially protruding part and power transmission shaft Body formed setting.

Clamping device 4 also includes：Elastic component, elastic component are used for：Moved in clamp-press part towards installation portion 3 When extruded and deform by clamp-press part, and drive in resilience clamp-press part counter motion to reset.Around knot Shu Hou, elastic component can be with resiliences so that clamp-press part moves to reset away from installation portion 20.Moreover, resetting State, elastic component can apply elastic force to reach pretension effect to clamp-press part so that clamp-press part keeps stable.

Elastic component has two, respectively the first elastic component 54 ' and the second elastic component 54 ".Clamped with first Exemplified by portion 40 ', the first elastic component 54 ' is axially distant from the side of the first clamp-press part 40 ' located at first axle 50.

Especially, the first transmission mechanism 43 shown in Fig. 3, the second driver are included in clamping device 4 When structure 44 and three transmission mechanisms 45, the first clamp-press part 40 ' extrudes the first elastic component by first axle 50 54 ' deformations.

After coiling terminates, the piston rod 411 of operation drive division 41 makees reverse linear motion, the first elasticity The resilience of part 54 ', the clamp-press part 40 ' of first axle 50 and first is driven to move downward；

By the second transmission mechanism 44, the clockwise movement of power transmission shaft 42, and then pass through the 3rd transmission mechanism 45 the second axles 53 of drive and the second clamp-press part 40 " are moved downward, resetted to power transmission shaft 42.In this feelings Under condition, the first elastic component 54 ' " can play reset response to the first clamp-press part 40 ' and the second clamp-press part 40 simultaneously.

Wherein, groove 22 is provided with installation portion 3 to accommodate the first elastic component 54 ', the first elastic component 54 ' With first axle 50 axially against.

For second elastic component 54 " being located at the second clamp-press part 40 " between installation portion 3, the second elastic component 54 " can " to play reset response to the second clamp-press part 40." set in the second clamp-press part 40 towards the surface of installation portion 3 There is the first holding tank 401, installation portion 3 is provided with the second holding tank that is relative with the first holding tank 401 and setting 201.The both ends of second elastic component 54 " can be respectively received in the first holding tank 401 and the second holding tank 201 In.

Therefore, in the case where not interfering cramping wire harness 5, elastic component can be located at rational position.

Elastic component can select helical spring or other elastomers.

As a kind of deformation program, the fit system of drive division and clamp-press part can be：Drive division can be with defeated Go out rotary motion, clamping device can include：Transmission mechanism, for by the convert rotational motion of drive division Linear motion for two clamp-press parts towards installation portion.For example, the transmission mechanism can select rack-and-pinion Mechanism, two clamp-press parts have a rack for stretching into installation portion, the output shaft of drive division be provided with respectively with two Rack meshed gears.When rotated, two gear synchronous rotate drive division, and then it is straight to drive rack to make Line moves.

As another deformation program, clamping device can be not provided with drive division.Clamp-press part is provided with thread spindle, Installation portion is provided with screwed hole, and thread spindle forms screw thread with screwed hole and coordinated.Folder is screwed along two opposite directions Splenium, clamp-press part can be controlled to be moved along close to installation portion with the both direction away from installation portion, this also may be used To realize that clamp-press part is controlled the cramping of wire harness.

Although present disclosure is as above, the present invention is not limited to this.Any those skilled in the art, Without departing from the spirit and scope of the present invention, can make various changes or modifications, therefore the guarantor of the present invention Shield scope should be defined by claim limited range.

Claims (17)

1. a kind of vice, including：Movable part and the fixed part of fixed setting, the movable part and fixed part it Between there is jaw；

Characterized in that, the vice also includes：Clamping device, in the fixed part and movable part One of portion, the portion is as installation portion；

The clamping device includes：Clamp-press part outside the installation portion, for towards the installation portion Move to clamp wire harness in the installation portion.

2. vice as claimed in claim 1, it is characterised in that the clamping device includes：At least two institutes State clamp-press part.

3. vice as claimed in claim 2, it is characterised in that all clamp-press parts cross same straight line.

4. vice as claimed in claim 1, it is characterised in that the clamping device also includes：Drive division,

Wire harness is clamped in the installation portion for driving the clamp-press part to be moved to towards the installation portion.

5. vice as claimed in claim 4, it is characterised in that the clamping device includes：Two folders Splenium, the drive division are used to drive all clamp-press parts to move towards the installation portion simultaneously.

6. vice as claimed in claim 5, it is characterised in that the drive division linear movement output, it is described Clamping device also includes：Power transmission shaft；

First transmission mechanism, between the drive division and the power transmission shaft, for by the drive division The transform linear motion of output is rotary motion of the power transmission shaft along own central axis line；

Second transmission mechanism, between the power transmission shaft and one of them described clamp-press part, for by institute It is linear motion of one of them the described described clamp-press part towards the installation portion to state convert rotational motion；

3rd transmission mechanism, between the power transmission shaft and another described clamp-press part, for by described in Convert rotational motion is linear motion of another the described described clamp-press part towards the installation portion.

7. vice as claimed in claim 6, it is characterised in that first transmission mechanism is：Located at described First radially protruding part of power transmission shaft；The drive division is used for linear movement output to drive described first Radially protruding part and drive axis.

8. vice as claimed in claim 7, it is characterised in that the output shaft of the drive division is coordinated with screw thread Mode is provided with adjustment portion, and the output shaft of the drive division drives described first radially by the adjustment portion Protuberance rotates.

9. vice as claimed in claim 6, it is characterised in that first transmission mechanism is screw rod transmission machine Structure.

10. vice as claimed in claim 6, it is characterised in that first transmission mechanism passes for rack-and-pinion Motivation structure.

11. vice as claimed in claim 6, it is characterised in that second transmission mechanism includes：

Located at the second radially protruding part of the power transmission shaft；

With rotating shaft and can around the rotating shaft rotate connecting rod；

One of clamp-press part has the first axle for stretching into the installation portion；

The first pin is provided with one of in one end of the connecting rod and the first axle and another is provided with the One hole, first pin, which stretches into, has gap in first hole and between the hole wall in first hole, The other end of the connecting rod abuts with direction of rotation of second radially protruding part along the power transmission shaft.

12. the vice as described in claim 6 or 11, it is characterised in that the 3rd transmission mechanism includes：

The 3rd radially protruding part on the power transmission shaft；

Another described clamp-press part is provided with the second axle for stretching into the installation portion；

3rd radially protruding part is with being provided with the second pin one of in second axle and another sets There is the second hole, second pin is stretched between having in second hole and between the hole wall in second hole Gap.

13. vice as claimed in claim 6, it is characterised in that the drive division be cylinder, hydraulic cylinder or Magnetic valve.

14. vice as claimed in claim 5, it is characterised in that the drive division exports rotary motion, described Clamping device includes：Transmission mechanism, for being described in two by the convert rotational motion of the drive division Linear motion of the clamp-press part towards the installation portion.

15. vice as claimed in claim 14, it is characterised in that the transmission mechanism is rack pinion machine Structure.

16. vice as claimed in claim 1, it is characterised in that screwed hole is provided with the installation portion, it is described Clamp-press part is provided with thread spindle, and the thread spindle forms screw thread with the screwed hole and coordinated.

17. the vice as described in any one of claim 1-11,13-16, it is characterised in that the clamping device Also include：Elastic component；The elastic component is used for：When the clamp-press part moves towards the installation portion Extruded and deformed by the clamp-press part, and the clamp-press part counter motion is driven to reset in resilience.