CN106255404A - Tooling device for the dismounting of dual-in-line imageing sensor connector - Google Patents

Abstract

The invention discloses a kind of tooling device for the dismounting of dual-in-line imageing sensor connector, including: base, pressing plate, bracing frame, elevating mechanism, lifting block and claw；This equipment is in use, pcb board with imageing sensor can be fixed on base, pressing plate is inserted the space between pcb board and imageing sensor, and with screw, pressing plate is fixed with base, again claw is stretched between pcb board and imageing sensor in remaining space, hook the bottom of imageing sensor, and complete the assembling of whole equipment, afterwards can be by the rising of elevating mechanism, lifting block and claw is driven to rise, by slow for imageing sensor lifting, until the pin of imageing sensor all departs from connector, make in the unloading process of imageing sensor and connector, lifting block and claw are to imageing sensor uniform force application, avoid in the imageing sensor unloading process with connector, the pin of imageing sensor is caused damage.

Description

Tooling device for the dismounting of dual-in-line imageing sensor connector

Technical field

The present invention relates to imageing sensor connector dismantling technology field, pass for dual-in-line image particularly to one The tooling device of sensor connector dismounting.

Background technology

Imageing sensor is a kind of electrooptical device, during carrying out opto-electronic conversion, can produce more heat, The temperature causing imageing sensor raises.Along with the rising of temperature, the signal to noise ratio of the image of imageing sensor output can occur bright Aobvious decline, causes the hydraulic performance decline of imageing sensor.The degradation problem brought to solve imageing sensor to generate heat, needs Imageing sensor is carried out radiating treatment.

The common shell encapsulating material of imageing sensor is ceramic material, and the pin package of imageing sensor is typically simultaneously Existing three kinds of modes, be respectively inline package, welded ball array encapsulation (English: Ball GridArray, BGA) and double abbreviation: Flat package without pin (Dual Flat Non-leaded package, abbreviation: QFN) three kinds of modes.For direct insertion image Sensor, by placing a radiator at the back side of imageing sensor, can effectively increase the area of dissipation of imageing sensor, and Heat can be directly transferred on front panel or the side shell of imageing sensor, thus effectively reduce the temperature of imageing sensor Degree.In order to install radiator on the image sensor, it is necessary to imageing sensor is (English: Printed with printed circuit board Circuit Board, abbreviation: PCB) separate certain altitude, provide installing space for radiator.It is typically employed in the industry figure at present As connector mounting between sensor and PCB, imageing sensor is made to separate certain altitude with PCB, to facilitate the installation of radiator.

In actual production, it is sometimes desirable to imageing sensor is disassembled from connector.At present, imageing sensor with Dismounting between connector mostly is and manually completes, owing to the pin of common imageing sensor is (English: pin) quantity is more, less Then 30～40pin, at most 300～400pin, mode manually carries out dismounting and is easy to owing to exerting a force imageing sensor Inequality, causes being difficult to entirely disassemble imageing sensor from connector, thus causes the pin of imageing sensor Damage.

Summary of the invention

The goal of the invention of the present invention is to provide a kind of frock for the dismounting of dual-in-line imageing sensor connector to set Standby, easily uneven owing to imageing sensor is exerted a force in the dismounting mode solved between existing imageing sensor and connector, Cause being difficult to from connector, entirely disassemble imageing sensor, thus the pin of imageing sensor is caused damage Problem.

According to embodiments of the invention, it is provided that a kind of frock for the dismounting of dual-in-line imageing sensor connector sets Standby, including:

Base, pressing plate, bracing frame, elevating mechanism, lifting block and claw；

Described base is provided with placing trough, for placing the pcb board being arranged above connector and imageing sensor；

Described pressing plate includes the first daughter board and the second daughter board being located on described base；Described pressing plate is used for stretching into described Between pcb board and described imageing sensor, described pcb board is carried out pressure gear；Between described first daughter board and described second daughter board Removably connect；

Support frame as described above is fixed on described base and is set up in the top of described pressing plate；

Described elevating mechanism is located on support frame as described above and can being risen above and declining at described placing trough；

Described lifting block is connected and between support frame as described above and described base with described elevating mechanism；

Described claw is fixed on below described lifting block, including the first claw and the second claw；Described first claw and institute State the second claw for stretching between described pcb board and described imageing sensor, hook the bottom of described imageing sensor；Described Removably connect between first claw and described second claw.

Described pressing plate is I-shaped, and described first daughter board is in " one " font, and middle part is provided with link slot；Described second daughter board In " T " font, including fixed part and with described fixed part in the middle part of connecting portion connected vertically；The width of described connecting portion and institute State link slot suitable.

In described claw, described first claw and described second claw all include horizontal stitching section and the splicing of described level Vertical component effect that the end vertical in portion connects and being connected with the end vertical of described vertical component effect and to the one of described horizontal stitching section The lifting portion that side extends；The length in described lifting portion is less than the length of described horizontal stitching section.

Support frame as described above include top board, be vertically connected on described top board relative to both sides and to the same side of described top board Two side plates and being respectively perpendicular extended are connected to described side end and extend to the outside of support frame as described above two are solid Determine plate；Described fixed plate is fixed on described base by screw.

Support frame as described above top is provided with tapped through hole；Described telescoping mechanism includes being threadedly connected in described tapped through hole Screw rod and the rotary handle being located at described screw tip；Described rotary handle and described screw rod are in the radially rotation of described screw rod Connect；Described lifting block is rotationally connected in the axial direction of described screw rod with described screw rod.

Described screw tip is provided with the mounting groove running through described screw rod side face, and the screw rod of described mounting groove both sides is provided with One through hole；Described rotary handle end is provided with the installation portion suitable with described mounting groove, and described installation portion is provided with second and leads to Hole；Described installation portion is located in described mounting groove, and by through described first through hole and the bolt of described second through hole and The nut being threadedly connected to described bolt end is connected.

It is provided with annular groove bottom described screw rod；Described lifting block upper surface is provided with installing blind；Described installing blind Inner peripheral surface is provided with the screwed hole running through described lifting block side；It is located at bottom described screw rod in described installing blind, described screw thread Being provided with screw in hole, the end of described screw stretches in described annular groove.

The both sides of the corresponding described installing blind of described lifting block upper surface are additionally provided with screw mounting hole.

It is filled with lubriation material between described screw and described annular groove.

The side plate of support frame as described above is provided with the slit running through described side plate surfaces externally and internally；Described lifting block is towards described narrow The end face of groove is vertically connected with location bar；Described location bar passes perpendicularly through described slit.

From above technical scheme, the frock for the dismounting of dual-in-line imageing sensor connector of the present invention sets Standby, including: base, pressing plate, bracing frame, elevating mechanism, lifting block and claw；Base is provided with placing trough, is used for placing top The pcb board of connector and imageing sensor is installed；Pressing plate includes the first daughter board and the second daughter board being located on base；Pressing plate is used In stretching between pcb board and imageing sensor, pcb board is carried out pressure gear；Removably connect between first daughter board and the second daughter board； Bracing frame is fixed on base and is set up in the top of pressing plate；On elevating mechanism is located on bracing frame and can be above placing trough Rise and decline；Lifting block is connected and between bracing frame and base with elevating mechanism；Claw is fixed on below lifting block, including First claw and the second claw；First claw and the second claw are used for stretching between pcb board and imageing sensor, hook image and pass The bottom of sensor；Removably connect between first claw and the second claw；The present invention connects for dual-in-line imageing sensor Pcb board with imageing sensor in use, can be fixed on base, by the second of pressing plate by the tooling device of plug-in unit dismounting Daughter board inserts the space between pcb board and imageing sensor, the first daughter board and the second daughter board is connected, and with screw by pressing plate with Base is fixed, then is respectively protruding between pcb board and imageing sensor remaining by the first claw and second claw of claw In space, hook the bottom of imageing sensor, and by the first claw and the second claw split, and complete the assembling of whole equipment, Lifting block and claw can be driven to rise by the rising of elevating mechanism, by slow for imageing sensor lifting, until image passes afterwards The pin of sensor all departs from connector so that imageing sensor is with the unloading process of connector, and lifting block and claw are to figure As sensor uniform force application, thus imageing sensor entirely can be dismantled from connector, it is to avoid imageing sensor with connect In the unloading process of plug-in unit, the pin of imageing sensor is caused damage.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to institute in embodiment The accompanying drawing used is needed to be briefly described, it should be apparent that, the accompanying drawing in describing below is only some enforcements of the present invention Example, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtains according to these accompanying drawings Obtain other accompanying drawing.

A kind of tooling device for the dismounting of dual-in-line imageing sensor connector that Fig. 1 provides for the embodiment of the present invention Structural representation；

Fig. 2 is the exploded pictorial of the tooling device for the dismounting of dual-in-line imageing sensor connector in Fig. 1；

Fig. 3 is the structural representation of the pressing plate in Fig. 2；

Fig. 4 is the structural representation of the claw in Fig. 2；

Fig. 5 is the structural representation of the base in Fig. 2；

Fig. 6 is the structural representation of the bracing frame in Fig. 2；

Fig. 7 is the structural representation of the screw rod in Fig. 2；

Fig. 8 is the structural representation of the rotary handle in Fig. 2；

Fig. 9 is the structural representation of lifting block in Fig. 2.

In figure: 1-base；2-pressing plate；3-bracing frame；4-elevating mechanism；5-lifting block；6-claw；10-PCB plate；11-is put Put groove；20-imageing sensor；21-the first daughter board；22-the second daughter board；30-connector；31-top board；32-side plate；33-fixes Plate；34-tapped through hole；35-slit；41-screw rod；42-rotary handle；43-bolt；44-nut；51-gag lever post；61-first Claw；62-the second claw；211-link slot；221-fixed part；222-connecting portion；411-mounting groove；412-annular groove； 413-the first through hole；421-installation portion；422-the second through hole；500-screw mounting hole；501-installing blind；502-screwed hole； 503-screw；The horizontal stitching section of 601-；602-vertical component effect；603-lifting portion.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Whole description, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments.Based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under not making creative work premise Embodiment, broadly falls into the scope of protection of the invention.

Referring to Fig. 1 to Fig. 9, the one provided for the embodiment of the present invention is torn open for dual-in-line imageing sensor connector The tooling device unloaded, including:

Base 1, pressing plate 2, bracing frame 3, elevating mechanism 4, lifting block 5 and claw 6.

Specifically, on base, 1 is provided with placing trough 11, is arranged above connector 30 and imageing sensor 20 for placing Pcb board 10.

The shape of placing trough 11 is suitable with the shape of pcb board 10, and placing trough 11 can be square, it is also possible to be circle etc. Arbitrary shape, needs to be designed according to the profile of pcb board 10, and the edge of placing trough 11 needs to leave to can be used to fix The screw of pcb board 10, the quantity of screw is at least 4, is distributed in the surrounding of placing trough 11.

The material of base 1 can be to have some strength and any metal of weight or nonmetallic materials, base 1 strong Degree and weight can be according to practical situations, and weight and the number of pin of reference picture sensor 20 are configured.

Specifically, pressing plate 2 includes the first daughter board 21 and the second daughter board 22 being located on base 1.

Wherein, for removably connecting between the first daughter board 21 and the second daughter board 22.

In the present embodiment, the pressing plate 2 obtained after the first daughter board 21 and the second daughter board 22 assembly is in I-shaped.

Wherein, the first daughter board 21 is in " one " font, and middle part is provided with link slot 211, and link slot 211 is for accommodating the second daughter board 22, in order to the first daughter board 21 and the second daughter board 22 are installed.

Second daughter board 22 in " T " font, including fixed part 221 and with fixed part 221 in the middle part of connecting portion connected vertically 222。

Wherein, the width of connecting portion 222 is suitable with link slot 211, and on link slot 211, the end of connecting portion 222 And on fixed part 221, it is equipped with through hole, thus by screw, the first daughter board 21 and the second daughter board 22 can be spliced into pressing plate 2, And be fixed on base 1.

Pressing plate 2 is used for stretching between pcb board 10 and imageing sensor 20, pcb board 10 carries out pressure gear, in order to image sensing Device 20 disassembles from connector 30.

Pressing plate 2 can also be other shapes in addition to I-shaped, needs to set accordingly according to the profile of pcb board 10 Meter, also needs to consider the pin arranging rule of imageing sensor 20 simultaneously.

The material of pressing plate 2 can be any metal or the nonmetallic materials with some strength, and its intensity needs examining Consider imageing sensor 20 to be designed on the premise of pcb board 10 spacing, it is also contemplated that each pipe of imageing sensor 20 simultaneously Foot extracts required power from connector 30, so that it is determined that the intensity of pressing plate 2.

Specifically, bracing frame 3 is fixed on base 1 and is set up in the top of pressing plate 2.

In the present embodiment, bracing frame 3 include top board 31, be vertically connected on top board 31 relative to both sides and to top board 31 Two side plates 32 and being respectively perpendicular of extending of the same side be connected to side plate 32 end and extend two to the outside of bracing frame 3 Individual fixed plate 33.

Fixed plate 33 can be fixed on base 1 by screw, and then bracing frame 3 is fixed with base 1.

Further, bracing frame 3 top is provided with tapped through hole 34.

Specifically, elevating mechanism 4 is located on bracing frame 3 and can being risen above and declining at placing trough 11.

In the present embodiment, telescoping mechanism 4 includes the screw rod 41 being threadedly connected in tapped through hole 34 and is located at screw rod 41 The rotary handle 42 at top.

Wherein, rotary handle 42 and screw rod 41 being radially rotationally connected at screw rod 41, in order to by rotating rotary handle 42 drive screw rod 41 to rotate.

Lifting block 5 is rotationally connected in the axial direction of screw rod 41 with screw rod 41, in order to when screw rod 41 rotates, lifting block 5 can Produce relative motion with screw rod 41 and do not rotate with screw rod 41.

Screw rod 41 top is provided with the mounting groove 411 running through screw rod 41 side face, and the screw rod 41 of mounting groove 411 both sides is provided with One through hole 413；Rotary handle 42 end is provided with the installation portion 421 suitable with mounting groove 411, and installation portion 421 is provided with second Through hole 422；Installation portion 421 is located in mounting groove 411, and by through the first through hole 413 and the second through hole 422 bolt 43 with And the nut 44 being threadedly connected to bolt end is connected.

Further, it is provided with annular groove 412 bottom screw rod 41.

In elevating mechanism 4, the material of screw rod 41 and rotary handle 42 can be any metal or nonmetallic materials, screw rod 41 and the intensity of rotary handle 42 can also be according to the pin of the weight of imageing sensor 20 and imageing sensor 20 from patching The size of power required during dismounting on part 3 is designed.

Lifting block 5 is connected and between bracing frame 3 and base 1 with elevating mechanism 4；

Specifically, lifting block 5 upper surface is provided with installing blind 501；The inner peripheral surface of installing blind 501 is provided with and runs through lifting block The screwed hole 502 of 5 sides；It is located at bottom screw rod 41 in installing blind 501, in screwed hole 502, is provided with screw 503, screw 503 End stretches in annular groove 412.

The both sides of lifting block 5 upper surface correspondence installing blind 501 are additionally provided with screw mounting hole 500, screw mounting hole 500 Quantity is 4, and every side of installing blind 501 is provided with two screw mounting holes 500.

The material of lifting block 5 can be any metal or the nonmetallic materials with some strength, and its intensity needs root It is determined according to the weight of imageing sensor 20 and the number of pin of imageing sensor 20.

Further, between screw 413 and annular groove 412, it is filled with lubriation material, produces with lifting block 5 with lift-bolt 41 Smooth degree when life rotates against, wherein lubriation material can be the solid lubricating material such as lubricating oil, grease, it is also possible to be liquid State lubriation material.

Elevating mechanism 4 is in addition to can being the structure being made up of screw rod 41 and rotary handle 42 that the present embodiment provides, also Can be any one based in hydraulic stem, rack-and-pinion, crank connecting link, cam, worm and gear, feed screw nut and Timing Belt Plant the liftable structure of mechanism's composition.

The side plate 32 of bracing frame 3 is provided with the slit 35 running through side plate 32 surfaces externally and internally；Lifting block 5 is towards slit 35 side Face is vertically connected with location bar 51；Location bar 51 passes perpendicularly through slit 35.

Can use to threaded between location bar 51 and lifting block 5 and be fixed, it is possible to use bonded, pin connects Any one mode in connecing, weld, rivet and cohering is fixed.

Claw 6 is fixed on below lifting block 5, including the first claw 61 and the second claw 62；First pawl 61 and the second claw 62 are used for stretching between pcb board 10 and imageing sensor 20；First claw 61 and the second claw 62 removably connect.In claw 6, First claw 61 and the second claw 62 all include that horizontal stitching section 601 is vertical with what the end vertical of horizontal stitching section 601 was connected Portion 602 and the lifting portion 603 being connected with the end vertical of vertical component effect 602 and extending to the side of horizontal stitching section 601；Lifting The length in portion 603 is less than the length of horizontal stitching section 601.

Advise wherein it is desired to arrange according to the pin of the space between imageing sensor 20 and pcb board 10, imageing sensor 20 Then, the profile of the quantity of imageing sensor 20 pin, the profile of imageing sensor 20 and pcb board 10 designs the profile of claw 6.

The material of claw 6 can be any metal or the nonmetallic materials with some strength, and its intensity needs basis Space between imageing sensor 20 and pcb board 10, the pin arranging rule of imageing sensor 20, imageing sensor 20 pin The weight of quantity and imageing sensor 20 is so that it is determined that the intensity of claw 6.

The tooling device for the dismounting of dual-in-line imageing sensor connector of the present invention, during specifically used, Needs follow the steps below assembling:

First, the pcb board 10 with imageing sensor 20 is placed on base 1, and profit is screwed.

The connecting portion 222 of the second daughter board 22 is inserted the space between pcb board 10 and imageing sensor 20, connecting portion 222 End extend in the link slot 211 of the first daughter board 21, and with screw, connecting portion and first daughter board 21 of the second daughter board 22 are entered Row is fixing, makes the first daughter board 21 and the second daughter board 22 be assembled into pressing plate 2, and pressing plate 2 pressure is kept off on pcb board 10, then by the first daughter board 21 and second are fixed by screw between daughter board 22 and base 1.

First claw 61 of claw 6 and the lifting portion 603 of the second claw 62 are stretched into pcb board 10 and image respectively from both sides Between sensor 20, above pressing plate 2 in remaining space, hook the bottom of imageing sensor 20.

By the first claw 61 and horizontal stitching section 601 split of the second claw 62, fasten with screw.

Together with lifting block 5 is screwed with claw 6.

To be fixed by screw between two fixed parts 33 and the base of bracing frame 3.

By location bar 51 through the slit 35 of the side plate 32 of bracing frame 3, it is attached with the two ends of lifting block 5.

Screw rod 41 dextrorotation is proceeded to the installing blind 501 of lifting block 5 upper end, and in screwed hole 502, screws in screw 503, the end of screw 503 stretches in annular groove 412, makes screw rod 41 fix with lifting block 5.

Finally rotary handle 42 is connected with screw rod 41.

After assembling, confirm that various piece screw fastens the most, it is provided that neonychium, neonychium is placed into image sensing In space between device 20 and the horizontal stitching section 601 of claw 6, to protect the surface of imageing sensor 20, it is to avoid image sensing Device 20 surface damage.

The material of neonychium can be sponge, foam, the material that hardboard etc. can buffer.

Further, it is also possible to 4 stabilizing springs are provided, 4 stabilizing springs are placed between lifting block 5 and bracing frame 3, It is placed on bottom stabilizing spring in screw mounting hole 500.

When using stabilizing spring to carry out horizontal stable, the stabilizing spring of use needs to have identical steel wire diameter, has The effect number of turns, mean diameter of coil, spring rate and types of springs, material can be the metal being commonly used in and making spring or non- Metal material.

After assembling, carrying out the disassembling section between imageing sensor 20 and connector 30, rotary handle 42 makes screw rod 41 rise in bracing frame 3, thus drive lifting block 5 and claw 6 to rise, and claw 6 is by slow for imageing sensor 20 lifting, simultaneously Check the flatness of lifting block 5.Treat that the pin of imageing sensor 20 all departs from connector 30, by imageing sensor 20 from claw Take out in 6, this equipment can be dismantled afterwards, so that pcb board 10 is taken out, so far complete between imageing sensor 20 and connector 30 Disassembling section.

From above technical scheme, the frock for the dismounting of dual-in-line imageing sensor connector of the present invention sets Standby, including: base 1, pressing plate 2, bracing frame 3, elevating mechanism 4, lifting block 5 and claw 6；Base 1 is provided with placing trough 11, is used for Place the pcb board 10 being arranged above connector 30 and imageing sensor 20；Pressing plate 2 includes the first daughter board being located on base 1 21 and second daughter board 22；Pressing plate 2 is used for stretching between pcb board 10 and imageing sensor 20；First daughter board 21 and the second daughter board 22 Removably connect；Bracing frame 3 is fixed on base 1 and is set up in the top of pressing plate 2；Elevating mechanism 4 is located on bracing frame 3 and can Rising above and declining at placing trough 11；Lifting block 5 is connected and between bracing frame 3 and base 1 with elevating mechanism 4；Card Pawl 6 is fixed on below lifting block 5, including the first claw 61 and the second claw 62；First claw 61 and the second claw 62 are used for stretching Enter between pcb board 10 and imageing sensor 20；First claw 61 and the second claw 62 removably connect；The present invention for biserial Pcb board 10 with imageing sensor 20 in use, can be fixed by the tooling device of straight cutting imageing sensor connector dismounting On base 1, the first daughter board 21 and second daughter board 22 of pressing plate 2 are inserted the space between pcb board 10 and imageing sensor 20, First daughter board 21 and the second daughter board 22 are connected, and with screw, pressing plate 2 is fixed with base 1, then by the first pawl of claw 6 Portion 61 and the second claw portion 62 do not stretch between pcb board 10 and imageing sensor 20 in remaining space, hook imageing sensor The bottom of 20, and by the first claw 61 and the second claw 62 split, and complete the assembling of whole equipment, elevator can be passed through afterwards The rising of structure 4, drives lifting block 5 and claw 6 to rise, by slow for imageing sensor 20 lifting, until the pipe of imageing sensor 20 Foot all departs from connector 30 so that imageing sensor 20 is with the unloading process of connector 30, and lifting block 5 and claw 6 are to figure As sensor 20 uniform force application, thus imageing sensor 20 entirely can be dismantled from connector 30, it is to avoid at image sensing The pin of imageing sensor 20, with the unloading process of connector 30, is caused damage by device 20.

Those skilled in the art, after considering description and putting into practice invention disclosed herein, will readily occur to its of the present invention Its embodiment.The application is intended to any modification, purposes or the adaptations of the present invention, these modification, purposes or Person's adaptations is followed the general principle of the present invention and includes the undocumented common knowledge in the art of the present invention Or conventional techniques means.Description and embodiments is considered only as exemplary, and true scope and spirit of the invention are by following Claim is pointed out.

It should be appreciated that the invention is not limited in precision architecture described above and illustrated in the accompanying drawings, and And various modifications and changes can carried out without departing from the scope.The scope of the present invention is only limited by appended claim.

Claims (10)

1. the tooling device for the dismounting of dual-in-line imageing sensor connector, it is characterised in that including:

Base, pressing plate, bracing frame, elevating mechanism, lifting block and claw；

Described base is provided with placing trough, for placing the pcb board being arranged above connector and imageing sensor；

Described pressing plate includes the first daughter board and the second daughter board being located on described base；Described pressing plate is used for stretching into described pcb board And between described imageing sensor, described pcb board is carried out pressure gear；Between described first daughter board and described second daughter board detachably Connect；

Support frame as described above is fixed on described base and is set up in the top of described pressing plate；

Described elevating mechanism is located on support frame as described above and can being risen above and declining at described placing trough；

Described lifting block is connected and between support frame as described above and described base with described elevating mechanism；

Described claw is fixed on below described lifting block, including the first claw and the second claw；Described first claw and described Two claws are used for stretching between described pcb board and described imageing sensor, hook the bottom of described imageing sensor；Described first Removably connect between claw and described second claw.

Equipment the most according to claim 1, it is characterised in that described pressing plate is I-shaped, described first daughter board in " one " font, middle part is provided with link slot；Described second daughter board in " T " font, including fixed part and with described fixed part in the middle part of Connecting portion connected vertically；The width of described connecting portion is suitable with described link slot.

Equipment the most according to claim 1, it is characterised in that in described claw, described first claw and described second pawl Portion all includes vertical component effect that horizontal stitching section is connected and the end with described vertical component effect with the end vertical of described horizontal stitching section The lifting portion that portion vertically connects and extends to the side of described horizontal stitching section；The length in described lifting portion is spelled less than described level Connect the length in portion.

Equipment the most according to claim 1, it is characterised in that support frame as described above includes top board, is vertically connected at described top On plate relative to both sides and two side plates extended to the same side of described top board and be respectively perpendicular and be connected to described side plate end Portion and two fixed plates extended to the outside of support frame as described above；Described fixed plate is fixed on described base by screw.

Equipment the most according to claim 4, it is characterised in that support frame as described above top is provided with tapped through hole；Described flexible Mechanism includes the screw rod being threadedly connected in described tapped through hole and is located at the rotary handle of described screw tip；Described rotation hands Handle and described screw rod being radially rotationally connected at described screw rod；Described lifting block and described screw rod are in the axial direction of described screw rod It is rotationally connected.

Equipment the most according to claim 5, it is characterised in that described screw tip is provided with the peace running through described screw rod side face Tankage, the screw rod of described mounting groove both sides is provided with the first through hole；Described rotary handle end is provided with fits mutually with described mounting groove The installation portion joined, described installation portion is provided with the second through hole；Described installation portion is located in described mounting groove, and by through described The bolt of the first through hole and described second through hole and be threadedly connected to the nut of described bolt end and be connected.

Equipment the most according to claim 6, it is characterised in that be provided with annular groove bottom described screw rod；Described lifting block Upper surface is provided with installing blind；The inner peripheral surface of described installing blind is provided with the screwed hole running through described lifting block side；Described spiral shell Being located at bottom bar in described installing blind, be provided with screw in described screwed hole, the end of described screw stretches into described annular groove In.

Equipment the most according to claim 7, it is characterised in that the two of the corresponding described installing blind of described lifting block upper surface Side is additionally provided with screw mounting hole.

Equipment the most according to claim 8, it is characterised in that be filled with lubrication between described screw and described annular groove Material.

Equipment the most according to claim 9, it is characterised in that the side plate of support frame as described above is provided with and runs through described side plate The slit of surfaces externally and internally；Described lifting block is vertically connected with location bar towards the end face of described slit；Described location bar is vertically worn Cross described slit.