CN108673110A - A kind of automatic assembling for torsional spring to be packed into snap-on - Google Patents

Abstract

Button assembling apparatus field is pulled the present invention relates to hook, refers in particular to a kind of automatic assembling for torsional spring to be packed into snap-on comprising frame body, torsional spring feed mechanism, torsional spring Material moving device, snap-on feed mechanism and assembling mechanism；The assembling mechanism includes first support, mounting plate, compression assemblies, pushing component, pushing material component and assisted extrusion block, and pushing material component offers snap-on storage tank；When squeezing torsional spring, assisted extrusion block abuts one end of torsional spring, and the other end that compression assemblies squeeze torsional spring makes torsional spring both ends mutually draw close；After torsional spring is pushed into snap-on by pushing component, the snap-on equipped with torsional spring is released assembling mechanism by pushing material component again.The application can squeeze torsional spring automatically, automatically assemble torsional spring and snap-on, greatly promote the packaging efficiency of snap-on and torsional spring, and then the production and assembly efficiency of enhancing hook.Package assembly is optimized, the action of mobile snap-on is reduced when work, saves the time of unnecessary action, promotes the packaging efficiency of snap-on and torsional spring.

Description

A kind of automatic assembling for torsional spring to be packed into snap-on

Technical field

Button assembling apparatus field is pulled the present invention relates to hook, is referred in particular to a kind of for torsional spring to be packed into the automatic of snap-on Kludge.

Background technology

It during daily life, needs using the hook multiple small parts of hanging support, for example, it is desired to be hung using hook Hold key, nail clipper, earpick etc., hook generally comprises coupler body, the hanging ring that is installed on coupler body and is rotatably connected on coupler body Button of pulling constitute, in the production process of hook, coupler body, hanging ring pull that buckle be separately molding, after the completion of waiting for three's molding, then It is assemblied together, and then completes the production and assembly of hook.

It includes snap-on and the torsional spring being installed in snap-on composition to pull button, in the production process for pulling button, first by snap-on and torsion Spring is separately separately formed, is then again assemblied together the two, in the prior art mainly by staff manually by snap-on It is assemblied together with torsional spring, the packaging efficiency for pulling button is extremely low, causes the production efficiency of hook also extremely low, cannot meet The needs of modern production.

If China Patent Publication No. is a kind of automatic assemblings for opening head and torsional spring of 206955186U, when work Principle is：Opening head feed mechanism is used for conveying opening head, torsional spring feed mechanism for conveying torsional spring, opening head Material moving device It is moved to assembling mechanism in the opening head for conveying opening head feed mechanism, torsional spring Material moving device is used for torsional spring feed mechanism is defeated The torsional spring sent is moved to assembling mechanism, then torsional spring is packed into opening head by assembling mechanism.This assembling mode exists need not Action, influence assembling efficiency.

Invention content

The technical problem to be solved in the present invention is to provide a kind of automatic assembling for torsional spring to be packed into snap-on, the application Torsional spring can be squeezed automatically, and torsional spring and snap-on are assembled automatically, greatly promote the packaging efficiency of snap-on and torsional spring, and then enhancing hook Production and assembly efficiency.Package assembly is optimized, reduces the action of mobile snap-on when work, and by subsequent pusher Action be incorporated into assembling mechanism, while convey next torsional spring completion pusher action, save unnecessary action when Between, further promote the packaging efficiency of snap-on and torsional spring.

In order to solve the above-mentioned technical problem, the present invention adopts the following technical scheme that：

A kind of automatic assembling for torsional spring to be packed into snap-on, including frame body, be installed in frame body torsional spring feed mechanism, Torsional spring Material moving device, snap-on feed mechanism and assembling mechanism, for conveying torsional spring, torsional spring Material moving device is used for torsional spring feed mechanism The torsional spring that torsional spring feed mechanism conveys is moved to assembling mechanism, snap-on feed mechanism is used to snap-on being delivered to assembling mechanism, Assembling mechanism is for fitting together the snap-on that the torsional spring that torsional spring Material moving device moves is conveyed with snap-on feed mechanism；Described group Mounting mechanism includes the first support for being installed in frame body, is installed in the mounting plate of first support and compression assemblies, is installed in mounting plate Pushing component and be slideably positioned in the pushing material component of mounting plate, pushing material component offers snap-on storage tank, snap-on feed mechanism For snap-on to be delivered to snap-on storage tank, mounting plate is used to hold the snap-on in snap-on storage tank；

The assembling mechanism further includes the assisted extrusion block for being installed in first support, and assisted extrusion block is adjacent with pushing material component Setting, the assisted extrusion block squeeze torsional spring for assisted extrusion component；Torsional spring is moved to assisted extrusion by torsional spring Material moving device Block, assisted extrusion block abut one end of torsional spring, and compression assemblies squeeze the other end of torsional spring and torsional spring both ends is made mutually to draw close；

Torsional spring after pushing component is used to squeeze compression assemblies is pushed into the snap-on in snap-on storage tank；Torsional spring is pushed into bullet After in button, the snap-on equipped with torsional spring is released assembling mechanism by pushing material component.

Further, the first support, which is equipped with, is oriented to cammed surface, is oriented to the torsion that cammed surface is abutted with assisted extrusion block One end of spring is arranged in a crossed manner；Compression assemblies include crushing block and the first driving means for driving crushing block to move；First drives Dynamic device driving crushing block is moved along cammed surface is oriented to, and crushing block is used to abut the other end of torsional spring.

Further, the assisted extrusion block includes the assisted extrusion block body for being installed in first support, is set to auxiliary The boss of block body is squeezed, boss forms from the surface projection of assisted extrusion block body, and assisted extrusion block body and boss form the One step surface, snap-on storage tank appear First terrace；First driving means drive crushing block to be moved along cammed surface is oriented to, and squeeze Briquetting abuts one end of torsional spring, and First terrace abuts the other end of torsional spring.

Further, the pushing material component includes expeller and the second driving device for driving expeller to move, bullet Button storage tank is located at the one end of expeller far from the second driving device.

Further, the pushing material component further includes the convex block for being set to expeller, and convex block is located under snap-on storage tank Side, convex block are used to hold the snap-on in snap-on storage tank.

Further, the convex block is equipped with the evacuation inclined wedge for coordinating compression assemblies close to the side of snap-on storage tank Face.

Further, the mounting plate include mounting plate ontology and interval be installed in mounting plate ontology the first link block and Second link block；First link block and the second link block, which enclose, is set as guide runner, and expeller is slideably positioned in guide runner.

Further, the snap-on feed mechanism includes being installed in the vibrating disk of first support and being installed in mounting plate ontology Guide pad, guide pad offers deflector chute, and deflector chute one end is connected to the output end of vibrating disk, the deflector chute other end and snap-on Storage tank is connected to, and the snap-on of vibrating disk output end enters via deflector chute in snap-on storage tank under the effect of gravity.

Further, second link block is equipped with second step face, the pusher close to the end face of the first link block Packaged to be equipped with limited block, limited block is slideably positioned in second step face；When deflector chute is connected to snap-on storage tank, limited block contradicts the The step of two step surfaces.

Further, the pushing component includes the supporting rack for being installed in the first link block, the third for being installed in supporting rack Driving device and the pushing block for being connected to third driving device output end；After the completion of compression assemblies squeeze torsional spring, third driving dress It sets and drives pushing block top pressure torsional spring and torsional spring is pushed into the snap-on in snap-on storage tank.

Beneficial effects of the present invention：When work, torsional spring feed mechanism is for conveying torsional spring, and torsional spring Material moving device will be for that will turn round The torsional spring of spring feed mechanism conveying is moved to assisted extrusion block, meanwhile, snap-on feed mechanism, which is used to snap-on being delivered to snap-on, to be held It sets in slot, waits torsional spring to be installed.After torsional spring is moved to assisted extrusion block, assisted extrusion block abuts one end of torsional spring, then squeezes It presses component operation, compression assemblies to press the other end of torsional spring and torsional spring both ends is made mutually to draw close, realizes the automatic extruding of torsional spring, Without manually squeezing torsional spring, after the completion of waiting for that torsional spring squeezes, torsional spring is simultaneously pushed into snap-on storage tank by pushing component work In snap-on, without manually assembling the snap-on and torsional spring of pulling button, the packaging efficiency of snap-on and torsional spring is greatly promoted, and then promoted The production and assembly efficiency of hook.After torsional spring is completed with snap-on, the snap-on equipped with torsional spring is released assembling mechanism by pushing material component, Without artificial feeding, packaging efficiency is greatly promoted.Then pushing material component resets, and waits for snap-on feed mechanism that next snap-on is defeated It send to snap-on storage tank, while compression assemblies and pushing component reset, torsional spring Material moving device again conveys torsional spring feed mechanism Torsional spring be moved to assisted extrusion block, so realize cycle operation, and each parts work at the same time, promoted packaging efficiency.

The application can squeeze torsional spring automatically, automatically assemble torsional spring and snap-on, and the assembling for greatly promoting snap-on and torsional spring is imitated Rate, and then the production and assembly efficiency of enhancing hook.Package assembly is optimized, the action of mobile snap-on is reduced when work, And the action of subsequent pusher is incorporated into assembling mechanism, the action of pusher, section are completed while conveying next torsional spring The time of unnecessary action is saved, the packaging efficiency of snap-on and torsional spring is further promoted.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the present invention.

Fig. 2 is the dimensional structure diagram of the assembling mechanism and guide pad of the present invention.

Fig. 3 is the dimensional structure diagram of the assembling mechanism of the present invention and another visual angle of guide pad.

Fig. 4 is the exploded perspective view of the assembling mechanism and guide pad of the present invention.

Fig. 5 is the dimensional structure diagram of the first support of the present invention.

Fig. 6 is the dimensional structure diagram of the compression assemblies of the present invention.

Fig. 7 is the dimensional structure diagram of the assisted extrusion block of the present invention.

Fig. 8 is the dimensional structure diagram of the pushing material component of the present invention.

Fig. 9 is the dimensional structure diagram of the mounting plate of the present invention.

Figure 10 is the dimensional structure diagram of the guide pad of the present invention.

Figure 11 is the dimensional structure diagram of the pushing component of the present invention.

Reference sign：

Frame body 1, torsional spring feed mechanism 2, torsional spring Material moving device 3, snap-on feed mechanism 4, vibrating disk 41, guide pad 42 are led Hopper 43, assembling mechanism 5, first support 51, mounting plate 52 are oriented to cammed surface 53, mounting plate ontology 521, the first link block 522, the second link block 523, guide runner 524, second step face 525, step 526, compression assemblies 6, crushing block 61, the first driving Device 62, pushing component 7, supporting rack 71, third driving device 72, pushing block 73, pushing material component 8, snap-on storage tank 81, pusher Block 82, the second driving device 83, convex block 84 avoid cammed surface 85, limited block 86, assisted extrusion block 9, assisted extrusion block body 91, boss 92, First terrace 93.

Specific implementation mode

For the ease of the understanding of those skilled in the art, the present invention is made further with reference to embodiment and attached drawing Bright, the content that embodiment refers to not is limitation of the invention.

As shown in Figures 1 to 4, a kind of automatic assembling for torsional spring to be packed into snap-on provided by the invention comprising Frame body 1 is installed in torsional spring feed mechanism 2, torsional spring Material moving device 3, snap-on feed mechanism 4 and the assembling mechanism 5 of frame body 1, torsional spring Feed mechanism 2 is used to the torsional spring that torsional spring feed mechanism 2 conveys being moved to kludge for conveying torsional spring, torsional spring Material moving device 3 Structure 5, snap-on feed mechanism 4 are used to snap-on being delivered to assembling mechanism 5, what assembling mechanism 5 was used to move torsional spring Material moving device 3 The snap-on that torsional spring is conveyed with snap-on feed mechanism 4 fits together；The assembling mechanism 5 includes be installed in frame body 1 first Frame 51, the mounting plate 52 for being installed in first support 51 and compression assemblies 6, the pushing component 7 for being installed in mounting plate 52 and sliding are set It is placed in the pushing material component 8 of mounting plate 52, pushing material component 8 offers snap-on storage tank 81, and snap-on feed mechanism 4 is used for snap-on is defeated It send to snap-on storage tank 81, mounting plate 52 is used to hold the snap-on in snap-on storage tank 81；

The assembling mechanism 5 further includes the assisted extrusion block 9 for being installed in first support 51, assisted extrusion block 9 and pusher group Part 8 is disposed adjacent, and the assisted extrusion block 9 squeezes torsional spring for assisted extrusion component 6；Torsional spring Material moving device 3 moves torsional spring To assisted extrusion block 9, assisted extrusion block 9 abuts one end of torsional spring, and compression assemblies 6 squeeze the other end of torsional spring and make torsional spring both ends Mutually draw close；

Torsional spring after pushing component 7 is used to squeeze compression assemblies 6 is pushed into the snap-on in snap-on storage tank 81；Torsional spring pushes away After entering in snap-on, the snap-on equipped with torsional spring is released assembling mechanism 5 by pushing material component 8.

When work, torsional spring feed mechanism 2 is for conveying torsional spring, and torsional spring Material moving device 3 is for conveying torsional spring feed mechanism 2 Torsional spring be moved to assisted extrusion block 9, meanwhile, snap-on feed mechanism 4 is waited for for snap-on to be delivered in snap-on storage tank 81 Torsional spring is installed.After torsional spring is moved to assisted extrusion block 9, assisted extrusion block 9 abuts one end of torsional spring, 6 work of subsequent compression assemblies Make, compression assemblies 6 press the other end of torsional spring and torsional spring both ends is made mutually to draw close, and realize the automatic extruding of torsional spring, are not necessarily to people Work manual squeezing torsional spring, after the completion of waiting for that torsional spring squeezes, torsional spring is simultaneously pushed into the snap-on in snap-on storage tank 81 by the work of pushing component 7 It is interior, without manually assembling the snap-on and torsional spring of pulling button, greatly promote the packaging efficiency of snap-on and torsional spring, and then enhancing hook Production and assembly efficiency.After torsional spring is completed with snap-on, the snap-on equipped with torsional spring is released assembling mechanism 5, nothing by pushing material component 8 Artificial feeding is needed, packaging efficiency is greatly promoted.Then pushing material component 8 resets, and waits for snap-on feed mechanism 4 that next snap-on is defeated It send to snap-on storage tank 81, while compression assemblies 6 and pushing component 7 reset, torsional spring Material moving device 3 is again by torsional spring feed mechanism The torsional spring of 2 conveyings is moved to assisted extrusion block 9, so realizes cycle operation, and each parts work at the same time, and promotes assembling Efficiency.

The application can squeeze torsional spring automatically, automatically assemble torsional spring and snap-on, and the assembling for greatly promoting snap-on and torsional spring is imitated Rate, and then the production and assembly efficiency of enhancing hook.Package assembly is optimized, the action of mobile snap-on is reduced when work, And the action of subsequent pusher is incorporated into assembling mechanism 5, the action of pusher, section are completed while conveying next torsional spring The time of unnecessary action is saved, the packaging efficiency of snap-on and torsional spring is further promoted.

As shown in Figures 2 to 7, in the present embodiment, the first support 51, which is equipped with, is oriented to cammed surface 53, is oriented to cammed surface 53 One end of the torsional spring abutted with assisted extrusion block 9 is arranged in a crossed manner；Compression assemblies 6 are including crushing block 61 and for driving crushing block The first driving means 62 of 61 movements；First driving means 62 drive crushing block 61 to be moved along cammed surface 53 is oriented to, crushing block 61 other end for abutting torsional spring.

The assisted extrusion block 9 includes the assisted extrusion block body 91 for being installed in first support 51, is set to assisted extrusion The boss 92 of block body 91, boss 92 are formed from the 91 surface projection of assisted extrusion block body, assisted extrusion block body 91 and boss 92 form First terrace 93, and snap-on storage tank 81 appears First terrace 93；First driving means 62 drive 61 edge of crushing block The movement of guiding cammed surface 53, crushing block 61 abuts one end of torsional spring, and First terrace 93 abuts the other end of torsional spring.

When work, torsional spring feed mechanism 2 is for conveying torsional spring, and torsional spring Material moving device 3 is for conveying torsional spring feed mechanism 2 Torsional spring be moved to First terrace 93, boss 92 abuts one end of torsional spring, and 91 support of assisted extrusion block body torsional spring.So First driving means 62 drive crushing block 61 to be moved along cammed surface 53 is oriented to afterwards, and crushing block 61 stretches out First terrace 93 and supports The other end for connecing torsional spring, with the lasting movement of crushing block 61 so that the close direction rotation to each other of the both ends of torsional spring is realized The automatic extruding of torsional spring.During snap-on and torsional spring assemble, crushing block 61 remains abutting torsional spring, prevents because torsional spring is sent out It gives birth to change in location and causes to pull button assembly failure.When moving, being oriented to cammed surface 53, there are one lead crushing block 61 to crushing block 61 To effect, ensure that crushing block 61 is moved along being correctly oriented, it is ensured that can assembling that is accurate, favorably accomplishing torsional spring and snap-on.

As shown in Fig. 2, Fig. 3 and Fig. 8, in the present embodiment, the pushing material component 8 is including expeller 82 and for driving pusher The second driving device 83 that block 82 moves, snap-on storage tank 81 are located at the one end of expeller 82 far from the second driving device 83.

The pushing material component 8 further includes the convex block 84 for being set to expeller 82, and convex block 84 is located under snap-on storage tank 81 Side, convex block 84 are used to hold the snap-on in snap-on storage tank 81.

The convex block 84 is equipped with the evacuation cammed surface 85 for coordinating compression assemblies 6 close to the side of snap-on storage tank 81.

When work, for snap-on feed mechanism 4 for snap-on to be delivered in snap-on storage tank 81, snap-on is located at snap-on storage tank Mounting plate 52 holds the bottom of snap-on when 81, and convex block 84 holds the side of snap-on, and mounting plate 52 and convex block 84 are provided to Prevent snap-on from dropping out snap-on storage tank 81.Meanwhile the torsional spring that torsional spring Material moving device 3 is used to convey torsional spring feed mechanism 2 moves To assisted extrusion block 9, after torsional spring is moved to assisted extrusion block 9, assisted extrusion block 9 abuts one end of torsional spring, then extruding group Part 6 works, and compression assemblies 6 stretch out the other end that press torsional spring and torsional spring both ends is made mutually to draw close, and compression assemblies 6 are in stretching When can pass through in 84 side of convex block, in order to prevent convex block 84 hinder compression assemblies 6 stretching or contraction, opened up on convex block 84 There is evacuation cammed surface 85, ensures that compression assemblies 6 swimmingly can be stretched out or be shunk, torsional spring is enable successfully to be extruded.Wait for that torsional spring squeezes After the completion of pressure, torsional spring is simultaneously pushed into snap-on by the work of pushing component 7；After torsional spring is completed with snap-on, the second driving device 83 Expeller 82 is driven to move, in the process of moving, torsional spring gradually loses installation to expeller 82 with the product that snap-on is completed Then the support of plate 52 falls to the sliding slot that gathers materials under self gravitation effect.After completing pusher action, the second driving device 83 is driven Dynamic expeller 82 moves backward, and prepares the assembly working of next snap-on.The package assembly of the application is optimized, when work The action of mobile snap-on is reduced, and the action of subsequent pusher is incorporated into assembling mechanism 5, is conveying the same of next torsional spring When complete pusher action, save the time of unnecessary action, further promoted snap-on and torsional spring packaging efficiency.

As shown in Fig. 2, Fig. 3, Fig. 8 and Fig. 9, in the present embodiment, the mounting plate 52 includes mounting plate ontology 521 and interval It is installed in the first link block 522 and the second link block 523 of mounting plate ontology 521；First link block 522 and the second link block 523 enclose and are set as guide runner 524, and expeller 82 is slideably positioned in guide runner 524；Pushing component 7 is installed in the first link block 522, Second link block 523 is installed in first support 51.

When work, the second link block 523 is installed in first support 51 for mounting plate ontology 521 to be fixed on first support 51, pushing component 7 is installed in the first link block 522, keeps the output position of pushing component 7 constant, allows pushing component 7 can be accurately By in the torsional spring push-in snap-on after extruding, realize that the snap-on and torsional spring of button are pulled in automatic assembling.Second driving device 83 drives pusher Block 82 slides on guide runner 524, and the first link block 522 and the second link block 523 all play the role of guiding to expeller 82, make Expeller 82 can be moved along being correctly oriented.The design of mounting plate 52 keeps entire assembling mechanism 5 compact-sized, and work is continuous suitable Freely.

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 9 and Figure 10, in the present embodiment, the snap-on feed mechanism 4 includes being installed in the The vibrating disk 41 of one holder 51 and the guide pad 42 for being installed in mounting plate ontology 521, guide pad 42 offer deflector chute 43, guide 43 one end of slot is connected to the output end of vibrating disk 41, and 43 other end of deflector chute is connected to snap-on storage tank 81, snap-on storage tank 81 Positioned at the lower section of deflector chute 43, the snap-on of 41 output end of vibrating disk enters snap-on storage tank via deflector chute 43 under the effect of gravity In 81.

Second link block 523 is equipped with second step face 525, the pusher close to the end face of the first link block 522 Block 82 is installed with limited block 86, and limited block 86 is slideably positioned in second step face 525；Deflector chute 43 is connected to snap-on storage tank 81 When, limited block 86 contradicts the step 526 in second step face 525.

When needing snap-on feed mechanism 4 that snap-on is delivered to snap-on storage tank 81, the second driving device 83 first drives pusher Block 82 moves, and deflector chute 43 is made to be directed at snap-on storage tank 81.When deflector chute 43 is directed at snap-on storage tank 81, it is installed in expeller 82 limited block 86 contradicts the step 526 in second step face 525, it is ensured that deflector chute 43 is directed at snap-on storage tank 81, ensure that Subsequent assembly working reliably, can be carried out successfully.After deflector chute 43 is directed at snap-on storage tank 81, vibrating disk 41 will the side of adjusting To snap-on be delivered in snap-on storage tank 81 through deflector chute 43, at this time the second link block 523 hold the bottom of snap-on to prevent Only snap-on is fallen out of snap-on storage tank 81, since 41 output end of vibrating disk is higher than snap-on storage tank 81, what vibrating disk 41 exported Snap-on can be automatically fallen into along deflector chute 43 in snap-on storage tank 81 under self gravitation effect, and having additional deflector chute 43 can be very Vibrating disk 41 is exported well and is connected with snap-on storage tank 81.

After torsional spring is completed with snap-on, when needing pushing material component 8 that the snap-on equipped with torsional spring is released assembling mechanism 5, the Two driving devices 83 drive expeller 82 move, with expeller 82 move, be located at snap-on storage tank 81 in snap-on also with Expeller 82 moves together, and snap-on gradually loses the support of the second link block 523, finally falls to the sliding slot that gathers materials, and completes pusher The action of 8 pusher of component.The action of subsequent pusher is incorporated into assembling mechanism 5 by the application, is conveying the same of next torsional spring When complete pusher action, save the time of unnecessary action, further promoted snap-on and torsional spring packaging efficiency.

As shown in Fig. 2, Fig. 3 and Figure 11, in the present embodiment, the pushing component 7 includes being installed in the first link block 522 Supporting rack 71, the third driving device 72 for being installed in supporting rack 71 and the pushing block for being connected to 72 output end of third driving device 73；After the completion of compression assemblies 6 squeeze torsional spring, third driving device 72 drives 73 top pressure torsional spring of pushing block and torsional spring is pushed into snap-on In storage tank in 81 snap-on.

After the completion of compression assemblies 6 squeeze torsional spring, torsional spring is simultaneously pushed into snap-on by the work of pushing component 7.Specifically, third is driven Dynamic device 72 drives pushing block 73 to move, and 73 top pressure of pushing block torsional spring and torsional spring is pushed into snap-on.In 73 top pressure of pushing block When torsional spring, compression assemblies 6 remain the state for squeezing torsional spring, prevent pushing block 73 during top pressure torsional spring, torsional spring Because screen resilience deforms, cause pushing block 73 that torsional spring can not be pushed into snap-on.After torsional spring is completed with snap-on, compression assemblies 6 It is resetted with pushing component 7.Torsional spring can be automatically pushed into snap-on by pushing component 7, without manually assembling the snap-on for pulling button With torsional spring, the packaging efficiency of snap-on and torsional spring, and then the production and assembly efficiency of enhancing hook are greatly promoted.

All technical characteristics in the present embodiment can be freely combined according to actual needs.

Above-described embodiment is the preferable implementation of the present invention, and in addition to this, the present invention can be realized with other manner, Do not depart from the technical program design under the premise of it is any it is obvious replacement within protection scope of the present invention.

Claims (10)

1. a kind of automatic assembling for torsional spring to be packed into snap-on, including frame body are installed in the torsional spring feed mechanism of frame body, turn round Spring Material moving device, snap-on feed mechanism and assembling mechanism, for torsional spring feed mechanism for conveying torsional spring, torsional spring Material moving device is used for will The torsional spring of torsional spring feed mechanism conveying is moved to assembling mechanism, and snap-on feed mechanism is used to snap-on being delivered to assembling mechanism, group Mounting mechanism is for fitting together the snap-on that the torsional spring that torsional spring Material moving device moves is conveyed with snap-on feed mechanism；Its feature exists In：The assembling mechanism includes the first support for being installed in frame body, is installed in mounting plate and compression assemblies, the installing of first support In mounting plate pushing component and be slideably positioned in the pushing material component of mounting plate, pushing material component offers snap-on storage tank, snap-on Feed mechanism is used to snap-on being delivered to snap-on storage tank, and mounting plate is used to hold the snap-on in snap-on storage tank；

The assembling mechanism further includes the assisted extrusion block for being installed in first support, and assisted extrusion block is adjacent with pushing material component to be set It sets, the assisted extrusion block squeezes torsional spring for assisted extrusion component；Torsional spring is moved to assisted extrusion block by torsional spring Material moving device, Assisted extrusion block abuts one end of torsional spring, and compression assemblies squeeze the other end of torsional spring and torsional spring both ends is made mutually to draw close；

Torsional spring after pushing component is used to squeeze compression assemblies is pushed into the snap-on in snap-on storage tank；Torsional spring is pushed into snap-on Afterwards, the snap-on equipped with torsional spring is released assembling mechanism by pushing material component.

2. a kind of automatic assembling for torsional spring to be packed into snap-on according to claim 1, it is characterised in that：Described One is provided with guiding cammed surface, and the one end for being oriented to the torsional spring that cammed surface is abutted with assisted extrusion block is arranged in a crossed manner；Extruding group Part includes crushing block and the first driving means for driving crushing block to move；First driving means drive crushing block along guiding Cammed surface moves, and crushing block is used to abut the other end of torsional spring.

3. a kind of automatic assembling for torsional spring to be packed into snap-on according to claim 2, it is characterised in that：It is described auxiliary It includes the assisted extrusion block body for being installed in first support to help crushing block, is set to the boss of assisted extrusion block body, boss is certainly The surface projection of assisted extrusion block body forms, and assisted extrusion block body forms first step face with boss, and snap-on storage tank appears First terrace；First driving means drive crushing block to be moved along cammed surface is oriented to, one end of crushing block abutting torsional spring, and first Step surface abuts the other end of torsional spring.

4. a kind of automatic assembling for torsional spring to be packed into snap-on according to claim 1, it is characterised in that：It is described to push away Material component includes expeller and the second driving device for driving expeller to move, and snap-on storage tank is located at expeller far from the One end of two driving devices.

5. a kind of automatic assembling for torsional spring to be packed into snap-on according to claim 4, it is characterised in that：It is described to push away Material component further includes the convex block for being set to expeller, and convex block is located at the lower section of snap-on storage tank, and convex block is accommodating for holding snap-on Snap-on in slot.

6. a kind of automatic assembling for torsional spring to be packed into snap-on according to claim 5, it is characterised in that：It is described convex Block is equipped with the evacuation cammed surface for coordinating compression assemblies close to the side of snap-on storage tank.

7. a kind of automatic assembling for torsional spring to be packed into snap-on according to claim 4, it is characterised in that：The peace Loading board includes the first link block and the second link block that mounting plate ontology and interval are installed in mounting plate ontology；First link block and Second link block, which encloses, is set as guide runner, and expeller is slideably positioned in guide runner.

8. a kind of automatic assembling for torsional spring to be packed into snap-on according to claim 7, it is characterised in that：The bullet It includes the vibrating disk for being installed in first support and the guide pad for being installed in mounting plate ontology to detain feed mechanism, and guide pad, which offers, leads Hopper, deflector chute one end are connected to the output end of vibrating disk, and the deflector chute other end is connected to snap-on storage tank, vibrating disk output end Snap-on enter in snap-on storage tank via deflector chute under the effect of gravity.

9. a kind of automatic assembling for torsional spring to be packed into snap-on according to claim 8, it is characterised in that：Described Two link blocks are equipped with second step face close to the end face of the first link block, and the expeller is installed with limited block, and limited block is slided It is dynamic to be set to second step face；When deflector chute is connected to snap-on storage tank, limited block contradicts the step in second step face.

10. a kind of automatic assembling for torsional spring to be packed into snap-on according to claim 7, it is characterised in that：It is described Pushing component includes the supporting rack for being installed in the first link block, is installed in the third driving device of supporting rack and is connected to third drive The pushing block of dynamic device output end；After the completion of compression assemblies squeeze torsional spring, third driving device drives pushing block top pressure torsional spring simultaneously Torsional spring is pushed into the snap-on in snap-on storage tank.