CN109664117A - A kind of nonskid chain process equipment - Google Patents

Abstract

The present invention relates to technical field of mechanical transmission.A kind of nonskid chain process equipment, including chain processing platform and chain transfer device, chain transfer device are located at the top of chain processing platform, and chain transfer device is used for the chain transferring position in chain processing platform；Setting includes the first station, second station and 3rd station there are three station, three stations on chain processing platform.The chain processing platform includes machining support, processing carrier, processing driving assembly, processing cohesive component；First station, second station and the 3rd station is separately positioned on processing carrier.The beneficial effects of the present invention are: chain can be made to be delivered to corresponding station and processed by setting different station；By clamping the chain of 3 stations simultaneously, production and processing efficiency is improved；Chain can smoothly be conveyed and blanking.

Description

A kind of nonskid chain process equipment

Technical field

The present invention relates to technical field of mechanical transmission more particularly to a kind of nonskid chain process equipment and its method and it is complete from Dynamic truncation assembling equipment.

Background technique

Many complicated machines all have manually to be completed in modern industry manufacture, and which includes electronics Portable computer etc. in industry also includes automobile manufacture and other household electrical appliance etc..It is needed in these industry manufactures many small Assembling link combine the truncation and assembling of completion, especially chain together, be all manually to be cut pin shaft piece by truncation tool It is disconnected, then pin shaft is removed, the pin shaft and pin shaft piece that the length for measuring needs is taken away new again are assembled pin shaft piece by assembling tool Onto pin shaft, connect the chain for specifying length.In manual intercept and assembling process be very easy to occur truncation inaccuracy, Assemble loosely or assemble the phenomenon that misplacing, shape uniformity, consistency, the effect of accuracy various aspects after man-made assembly It is all bad, it is difficult to ensure that the quality of chain, and very high to the technical requirements of worker in truncation and assembling process, manually at This is also very high.And a small number of producers are assembled also by automation equipment, but are all by the way that mode and assembling is simply truncated Only chain is truncated simply by equipment for mode, then the chain of truncation is measured to the length needed, is transported to specified assembling Place carries out assembling processing, and not only artificial and equipment cost is high in this way, but also current equipment truncation is not sufficiently stable, and is easy to appear Deviation and dislocation, and be prone to wear during transportation, it is low to will lead to entire product quality and working efficiency.

Summary of the invention

The purpose of the present invention is: in view of the deficienciess of the prior art, chain is fixed on the positioning and can by offer Make the chain smooth transfer in processing, improves a kind of nonskid chain process equipment of conveying stability and accuracy.

Purpose to realize the present invention, is achieved using following technical scheme:

A kind of nonskid chain process equipment, the mechanism include chain processing platform and chain transfer device, chain transfer device position In the top of chain processing platform, chain transfer device is used for the chain transferring position in chain processing platform；Chain adds Setting includes the first station, second station and 3rd station there are three station, three stations on work platform；The chain processing Platform includes machining support, processing carrier, processing driving assembly, processing cohesive component；The machining support is arranged in rack On, the processing carrier is arranged on machining support, and the first station, second station and the 3rd station are separately positioned on It processes on carrier；Each station includes station bottom plate, two piece of first gripping block, two piece of second gripping block, first clamping plate, second Clamping plate, the first processing connecting plate and the second processing connecting plate；The station bottom plate is arranged on machining support, and described two pieces First gripping block is separately positioned on the inlet end and outlet end of station floor rear, and the bottom of two the first gripping blocks passes through First clamps connecting plate connection；The first processing connecting plate is fixed at the first clamping connecting plate in each station Top；Two piece of second gripping block is separately positioned on inlet end and outlet end on front side of station bottom plate, and two second Gripping block clamps connecting plate connection by second；The second processing connecting plate is fixed at the second folder in each station It is close to the lower part of fishplate bar；The feed end and discharge end of the first clamping plate are fixedly connected with two the first gripping blocks respectively；Institute The feed end and discharge end for the second clamping plate stated are fixedly connected with two the second gripping blocks respectively；Described first station that is located at The chain clip slot matched with chain is respectively arranged in first clamping plate and second clamping plate；Processing driving assembly is for making the first folder Plate and second clamping plate clamp or release；The processing cohesive component is for chain linking conveying.

Preferably, the chain transfer device includes transfer level movable stand, horizontal transfer cylinder, the vertical shifting of transfer Moving frame and vertical transfer cylinder；The transfer level movable stand is arranged on the rack by transferring slide rail and is located at chain and processed The top of platform, the horizontal transfer cylinder are arranged on transfer level movable stand, the fixation of the vertical transfer cylinder Portion is fixed on transfer level movable stand, the top of the vertical moving portion for shifting cylinder and the transfer vertical movement It is fixedly connected, the transfer vertical movement is arranged on transfer level movable stand by transfer guide rod, and by turning vertically It is mobile to move cylinder energy mobilization vertical movement, shifts and is provided with transfer station in vertical movement.

Preferably, the processing driving assembly includes the first processing driving motor, the second processing driving motor, first Guide rod, the second processing guide rod are processed, the rear portion of machining support feed end is arranged in the first processing driving motor, and first adds The rotation axis of work driving motor is connect by the first connection sleeve with the first driving coordinating block, and the first driving coordinating block is set It sets at the top of the first processing connecting plate feed end；The described second processing driving motor is arranged on machining support and is located at the The rotation axis of the lower section of one processing driving motor, the second processing driving motor passes through the second connection sleeve and the second driving coordinating block The bottom of the second processing connecting plate feed end is arranged in connection, the second driving coordinating block；The first processing guide rod The first gripping block and the second gripping block across each station upper feeding end, the second processing guide rod pass through each station and go out Expect first gripping block and the second gripping block at end；First processing driving motor and the second processing driving motor, which match, can make first Clamping plate and second clamping plate are unclamped or are clamped.

Preferably, the processing driving assembly includes the first processing driving motor, the second processing driving motor, first Guide rod, the second processing guide rod are processed, the rear portion of machining support feed end is arranged in the first processing driving motor, and first adds The rotation axis of work driving motor is connect by the first connection sleeve with the first driving coordinating block, and the first driving coordinating block is set It sets at the top of the first processing connecting plate feed end；The described second processing driving motor is arranged on machining support and is located at the The rotation axis of the lower section of one processing driving motor, the second processing driving motor passes through the second connection sleeve and the second driving coordinating block The bottom of the second processing connecting plate feed end is arranged in connection, the second driving coordinating block；The first processing guide rod The first gripping block and the second gripping block across each station upper feeding end, the second processing guide rod pass through each station and go out Expect first gripping block and the second gripping block at end；First processing driving motor and the second processing driving motor, which match, can make first Clamping plate and second clamping plate are unclamped or are clamped；

Preferably, the processing cohesive component includes processing linking support plate, processing linking cylinder and processing connecting block；Institute The processing linking support plate stated is arranged on machining support, in the processing linking cylinder setting processing linking support plate, adds Work linking cylinder moving portion be fixedly connected with the processing connecting block, in first station first clamping plate feed end with Chain processing groove is provided on second clamping plate feed end, processing connecting block moves back and forth below chain processing groove for being connected； The outlet end of the station bottom plate of first station is fixedly installed the reversing bar for chain commutation conveying.

Preferably, the transfer station is three and respectively the first transfer station, the second transfer station and third Transfer station；Each transfer station includes transfer station support plate, transfer shaft and three groups of transfer clamping jaws, and described turns It moves station support plate to be located in transfer vertical movement, the middle part of transfer station support plate is arranged in the transfer shaft, transfer The end of axis is provided with transfer motor, and three groups of transfer clamping jaws are separately positioned in transfer shaft, and transfer shaft rotational energy makes Three groups of transfer clamping jaw clamp or releases, three groups of transfer clamping jaws include the first clamping jaw and the second clamping jaw, first clamping jaw Bottom and the bottom of the second clamping jaw be equipped with the curved slot matched with chain；Positioned at feed end in three groups of transfer clamping jaws Transfer clamping jaw bottom is provided with two transfer gag lever posts.

A kind of transfer method of nonskid chain process equipment, the chain processing platform make to add by processing linking cylinder Work connecting block is mutually connected with the feed end of station bottom plate, and the chain of truncation is delivered to first clamping plate and the second folder on the first station It, will by the first processing driving motor and the second processing driving motor after chain is completely transferred on station bottom plate between plate First clamping plate and second clamping plate clamp, and after the processing for completing a station, first clamping plate and second clamping plate are unclamped, and are held in the mouth by processing Connecing cylinder makes processing connecting block be moved back into original position；Chain transfer device by horizontal transfer cylinder mobilization horizontal moving frame to After move, by shifting cylinder energy mobilization vertical movement vertically to decline, be moved at the chain of the first station, pass through Transfer motor mobilization axis rotation clamps the first clamping jaw and the second clamping jaw by the chain of the first station, passes through horizontal transfer gas Chain is delivered to second station and processed by cylinder and vertical transfer cylinder, and second station passes through same mode after processing is completed Chain is clamped and is processed to 3rd station, when the chain clamping of second station to 3rd station, the chain of the first station Item is clamped onto second station, and 3rd station is after processing is completed transferred out the chain transfer of finished product by same mode Material, and the chain that second station is completed the process is clamped to 3rd station.

Assembling equipment is automatically truncated in a kind of chain, which includes rack, chain feed conveying device, chain truncation dress It sets, pin shaft conveying device, pin shaft assembling device, chain stamping device and nonskid chain process equipment described in claim 1.

Preferably, the pin shaft conveying device is for reinstalling the pin shaft of truncation to chain；Pin shaft conveying device Including pin shaft conveying movable stand, pin shaft lifting cylinder, pin shaft horizontal feed cylinder, pin shaft conveyer slideway, pin shaft conveying movable block, Pin shaft positioning cylinder, pin shaft conveying hinge bar, pin shaft conveying hinged block and pin shaft convey coordinating block.

Preferably, the pin shaft assembling device is used to pin shaft piece being encased in pin shaft；Pin shaft assembling device includes Pin shaft assembles bracket, pin shaft assembling lifting cylinder, pin shaft assembling movable stand, pin shaft and assembles coordinating block, Assembly of pin pedestal, pin shaft Piece feeds cylinder, pin shaft piece charging ram and pin shaft piece laying rack.

Compared with prior art, the beneficial effects of the present invention are:

(1) by setting different station, chain can be made to be delivered to corresponding station and processed；

(2) chain for passing through while clamping 3 stations improves production and processing efficiency；

(3) chain can smoothly be conveyed and blanking.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention.

Fig. 2 is the structural schematic diagram of chain feed module.

Fig. 3 is the structural schematic diagram of chain cutting device.

Fig. 4 is the structural schematic diagram of chain conveyor module.

Fig. 5 is the structural schematic diagram of conveying assembly.

Fig. 6 is the structural schematic diagram of chain processing platform.

Fig. 7 is the structural schematic diagram of pin shaft conveying device.

Fig. 8 is the structural schematic diagram of chain transfer device.

Fig. 9 is the structural schematic diagram of pin shaft assembling device.

Figure 10 is the structural schematic diagram of chain stamping device.

Specific embodiment

In order to make the present invention more obvious and understandable, cooperation attached drawing is described in detail below.

Embodiment 1

As shown in Figure 1, a kind of nonskid chain process equipment, including rack 1, chain feed conveying device 2, chain processing platform 3, Chain cutting device 4, pin shaft conveying device 5, chain transfer device 6, pin shaft assembling device 7, chain stamping device 8.Described Chain feed conveying device 2 is arranged in rack 1, and chain feed conveying device 2 includes that chain feed module and chain convey mould Block.The top in rack 1 and being located at chain feed module is arranged in chain conveyor module.Chain conveyor module be used for by chain into Chain in material module is delivered in the chain processing platform 3.Chain processing platform 3 is arranged in rack 1, chain processing Setting includes the first station 301, second station 302 and 3rd station 303 there are three station, three stations on platform 3.Described The feed end of first station 301 is mutually connected with the discharge end of chain feed module.The chain cutting device 4 is arranged in rack Side on 1 and positioned at chain feed module, chain cutting device 4 is for chain to be truncated.The pin shaft conveying device 5 is set The lower section of chain feed module is set in rack 1 and is located at, pin shaft conveying device 5 is used to the pin shaft being truncated being delivered to chain Pin shaft is reinstalled to chain at the feed end of processing platform 3.The chain transfer device 6 be arranged in rack 1 and Above chain processing platform 3.Chain transfer device 6 is used to the chain on chain processing platform 3 being transferred to fixed station Process and finished product discharges.The charging in rack 1 and being located at second station 302 is arranged in the pin shaft assembling device 7 End side, pin shaft assembling device 7 are used to pin shaft piece being encased in pin shaft.The chain stamping device 8 be arranged in rack 1 and Positioned at the charging end side of 3rd station 303, chain stamping device 8 is for fixing pin shaft piece with pin shaft.On chain processing platform 3 The side of 3rd station 303 is provided with discharging fishplate bar 9.

As depicted in figs. 1 and 2, chain feed module includes chain charging support 211, chain feedboard 212, chain charging Connecting plate 213, the first adjustment gear 214, the second adjustment gear 215, the first chain charging engagement plate 216 and the second charging linking Plate 217.The feed end in rack 1 and being located at rack 1, the chain feedboard is arranged in the chain charging support 211 212 are arranged in chain charging support 211, and feeding-passage 2121 funnel-shaped is provided on chain feedboard 212, described The feed end of chain charging connecting plate 213 is mutually connected with the discharge end of chain feedboard 212, and the chain feeds connecting plate The first charging transfer passage 2131 is provided on 213.First adjustment gear 214 is arranged in chain charging support 211 And it is located at the joining place of chain charging connecting plate 213 and chain feedboard 212, it is additionally provided with and is used in chain charging support 211 Adjust the first adjusting screw rod 2141 of the first adjustment gear 214.Second adjustment gear 215 setting is fed in chain to be connected The bottom of plate 213, chain feed the second adjusting screw rod being additionally provided on connecting plate 213 for adjusting the second adjustment gear 215 2151, the gear teeth of the gear teeth of the second adjustment gear 215 and the first adjustment gear 214 are matched with chain.

When work, chain is fed by feeding-passage 2121, chain respectively with the first adjustment gear 214 and the second adjustment gear 215 engagements, and the first adjustment gear 214 and the are adjusted separately by the first adjusting screw rod 2141 and the second adjusting screw rod 2151 The mated condition of two adjustment gears 215 and gear, the conveying that chain can be made stable prevent card chain.Chain is delivered to chain In cutting device 4.

As shown in figures 1 and 3, chain cutting device 4 includes truncation bracket 41, truncation sliding panel 42, horizontal truncation cylinder 43, fixed block 44, truncation hinge bar 45, truncation connecting rod 46, vertical truncation cylinder 47 and truncation link block 48 is truncated.Described Truncation bracket 41 is arranged in rack 1 and the feed end of truncation bracket 41 is mutually connected with the discharge end of chain feed module, described Truncation sliding panel 42 setting truncation bracket 41 on, and be truncated sliding panel 42 can truncation bracket 41 on slide.The water The rear portion of truncation sliding panel 42 is arranged in truncate cylinder 43 of dying, and the truncation fixed block 44 is fixed at truncation sliding panel 42 Top, truncation fixed block 44 is in type shape, and the middle part of truncation fixed block 44 is provided with truncation hinged groove 441, described to cut Disconnected hinge bar 45 and truncation 44 top of fixed block are hinged, and truncation hinge bar 45 is arranged in hinged groove 441.The vertical truncation 47 moving portion of cylinder is connected with the rear portion of truncation hinge bar 45, and the front of the truncation fixed block 44 is provided with interrupts grooves 442, The truncation connecting rod 46 is arranged in interrupts grooves 442, and truncation connecting rod 46 passes through truncation link block 48 and truncation hinge bar Front linking, and be truncated link block 48 and truncation fixed block 44 between be provided with truncation connecting spring 481, be truncated connecting rod 46 Bottom is provided with two truncation bars 461, and the lower section on bracket 41 positioned at truncation bar 461 is truncated and is provided with the first truncation engagement plate 411 and the second truncation engagement plate 412, the discharge end of the described first truncation engagement plate 411 with second be truncated engagement plate 412 into Material end is mutually connected, and is provided with truncation transfer passage on the discharge end of the first truncation engagement plate 411 and the second truncation engagement plate 412 4111.It is respectively arranged at the feed end of the discharge end of the discharge end of first truncation engagement plate 411 and the second truncation engagement plate 412 First cutting U-type groove and the second cutting U-type groove.And first chain cutting U-type groove and second cutting U-type groove be oppositely arranged.It is described Truncation bracket 41 on be located at first truncation engagement plate 411 and second truncation 412 joining place of engagement plate rear be provided with blanking Through-hole, truncation 41 top bottom surface of bracket, which is located at below blanking through-hole, is provided with blanking fishplate bar 49.It is truncated to be located on bracket 41 and cut Mobile limit plate 413 is provided on front side of disconnected bar, the rear end of mobile limit plate 413 is provided with the M type limit for fixed pin shaft Head.

It when work, is moved forward by horizontal truncation cylinder 43 by sliding panel 42 is truncated, truncation sliding panel 42 drives truncation Fixed block 44 makes to be truncated in fixed block 44 in two truncation bars 461 and the first truncation engagement plate 411 and the second truncation engagement plate 412 Chain pin axis hole it is corresponding, move up the rear end that hinge bar 45 is truncated by the way that cylinder 47 is truncated vertically, so as to make to be truncated The front end of hinge bar 45 is pressed downward truncation link block 48, and truncation link block 48 passes through truncation connecting spring 481 and truncation connecting rod 46 match, and make two truncation bars 461 that 46 bottom of connecting rod is truncated that the pin shaft of chain is cut U-type groove and the from the first chain It is extruded in two cutting U-type grooves.And mobile limit plate 413 can be moved in a pin shaft gap in truncated process, by pin shaft It limits and keeps pin shaft fixed, more effectively pin shaft can be made to be truncated.The pin shaft piece of truncation is fallen by blanking through-hole.

The device is able to solve, and manually chain is truncated, and stability difference is truncated in truncated process and truncation is ineffective Problem.Hingedly cooperated by truncation hinge bar 45 and truncation fixed block 44, so that two truncation bars 461 is pushed and connection is truncated Improve working efficiency.Engagement plate 412 is truncated by the first truncation engagement plate 411, second and mobile limit plate 413 limits chain More stable chain can be truncated.And pin shaft piece is recycled by being provided with blanking through-hole.

As shown in Figure 1, Figure 4 and Figure 5, chain conveyor module includes chain transfer gantry 221, front and back conveying cylinder 222, passes Dynamic component, conveying assembly 24.The rear portion of chain transfer gantry 221, the chain is arranged in the front and back conveying cylinder 222 The both ends bottom of transfer gantry 221 passes through front and back conveyer slideway 223 and is slidably connected with chain conveying pedestal, the transmission group Part includes driving motor 231, driving gear 232, driven gear 233 and conveyer belt 234, and the setting of driving motor 231 exists At the top of the discharge end of chain transfer gantry 221, the rotation axis of the driving gear 232 and driving motor 231 passes through first axle Hold connection, the driven gear 233 is connected by conveyer belt 234 and the tensioning of driving gear 232, and driven gear 233 passes through the The bottom of 221 feed end of chain transfer gantry is arranged in two bearings.The conveying assembly 24 includes conveying support plate 241, defeated Send lifting cylinder 242, conveying link block 243, conveying connecting plate 244, conveying positioning cylinder 245, conveying coordinating block 246, positioning Coordinating block 247, T-type coordinating block 248 and conveying locating piece 249.The conveying support plate 241 passes through horizontal feed sliding rail 224 It is arranged on 221 bottom front of chain transfer gantry, the conveyer belt 234 is fixed at conveying support plate 241 in level Between conveyer slideway 223, and conveyer belt 234, for driving conveying support plate to move horizontally, the conveying lifting cylinder 242 is solid The top of conveying support plate 241 is set calmly, and the moving portion of the conveying link block 243 and conveying lifting cylinder 242 is fixed Connection, conveying link block 243 are arranged in conveying support plate 241 by conveying connecting sliding rail 2411, the conveying connecting plate 244 are fixed at the bottom of mobile bar in conveying connecting sliding rail 2411, and the conveying locating piece 249 is fixed at conveying The top face of connecting plate 241, the setting of conveying coordinating block 246 convey coordinating block below conveying locating piece 249 Location fit slot 2461 is provided on 246, below conveying coordinating block 246, positioning is matched for the setting of location fit block 247 It closes and is provided with location fit bar 2471 on block 247, the location fit slot 2461 is arranged in the location fit bar 2471 Interior, the bottom of conveying connecting plate 244 is arranged in the T-type coordinating block 248, and the front of T-type coordinating block 248 is provided with hinged groove 2481, it is provided with positioning hinge bar 2482 in hinged groove 2481, positions and is provided between hinge bar 2482 and T-type coordinating block 248 Locating rod 25 is provided with hemispherical convex surface 251 at the top of the locating rod 25, is located at locating rod 25 in locating rod 25 and matches with T-type Close and be provided with the first connecting spring 252 between block 248, the top of locating rod 25 be located at the middle left side of positioning hinge bar 2482 and with Positioning hinge bar 2482 matches, and locating rod 25 passes through T-type coordinating block 248 and positions for chain, the location fit block 247 Conveying lever 26 is provided between T-type coordinating block 248, the top of conveying lever 26 is cooperated by the second connecting spring 261 with conveying The bottom of block 246 connects, and conveying lever 26 passes through T-type coordinating block 248 and is used for conveyor chain.The conveying positioning cylinder 245 Fixed part is fixed on the top of conveying connecting plate 244 by positioning cylinder fixed plate 2451, conveys the moving portion of positioning cylinder 245 It is connected across conveying coordinating block 246 with the one end for positioning hinge bar 2482.

When work, cylinder 222 is conveyed by front and back and is able to drive the forward movement of chain transfer gantry 221, makes conveying assembly 24 are moved to the top of chain truncated position, and the moving portion by conveying lifting cylinder 242, which moves down, enables conveying assembly 24 It is moved down by conveying connecting sliding rail 2411, the conveying lever 26 in conveying assembly 24 is made to be inserted into the pin shaft hole of the chain of truncation It is interior, drive driving gear 232 to rotate by driving motor 231, driving gear 232 drives driven gear 233 by conveyer belt 234 Rotation, enables conveying assembly 24 to be conveyed on conveyer belt 234, when conveying is completed, by the movement for conveying positioning cylinder 245 Portion drives conveying coordinating block 246 to push, so that positioning hinge bar 2482 be made to be rotated down, is made by positioning hinge bar 2482 fixed Locating rod 25 between position hinge bar 2482 and T-type coordinating block 248 pushes, so that locating rod 25 be made to be inserted into another pin shaft hole It is interior, chain is positioned.

The module is able to solve unstable in transmission process, Caton is easy in transmission process and the problem of can not position. It is inserted into pin shaft hole, and can moved back and forth by the conveying lever 26 in conveying assembly.Pass through locating rod after the completion of mobile 25 are positioned, and can be improved the stability of conveying and the accuracy of processing.

As shown in figures 1 to 6, chain processing platform 3 includes machining support 31, processing carrier, processing driving assembly, processing Cohesive component.The machining support 31 is arranged in rack 1, and the processing carrier is arranged on machining support 31, described The first station 301, second station 302 and 3rd station 303 be separately positioned on processing carrier on, each station includes station 321, two piece first of bottom plate, 322, two piece second of gripping block gripping block 323, first clamping plate 324, second clamping plate 325, first are processed Connecting plate 326 and the second processing 327 plates of connection.The station bottom plate 321 is arranged on machining support 31, and described two pieces the One gripping block 322 is separately positioned on the inlet end and outlet end of the rear side of station bottom plate 321, two the first gripping blocks 322 Bottom clamps connecting plate 3221 by first and connects.The first processing connecting plate 326 is fixed in each station First clamps the top of connecting plate 3221.Two piece of second gripping block 323 be separately positioned on the front side of station bottom plate 321 into Expect end and outlet end, two the second gripping blocks 323 clamp connecting plate 3231 by second and connect.Second processing connects Fishplate bar 327 is fixed at the lower part of the second clamping connecting plate 3231 in each station.The charging of the first clamping plate 324 End and discharge end are fixedly connected with two the first gripping blocks 322 respectively.The feed end and discharge end of the second clamping plate 325 point It is not fixedly connected with two the second gripping blocks 323.The first clamping plate 324 and second clamping plate 325 positioned at the first station 301 On be respectively arranged with the chain clip slot 3251 matched with chain.The processing driving assembly includes the first processing driving motor 331, the second processing driving motor 332, first processes guide rod 333, second and processes guide rod 334, the first processing driving electricity The rear portion of 31 feed end of machining support is arranged in machine 331, and the rotation axis of the first processing driving motor 331 passes through the first connection sleeve It is connect with the first driving coordinating block 3311, first driving coordinating block 3311 setting is fed in the first processing connecting plate 326 The top at end.The second processing driving motor 332 is arranged on machining support 31 and is located at the first processing driving motor 331 Lower section, second processing driving motor 332 rotation axis by second connection sleeve with second drive coordinating block 3321 connect, institute The bottom of the second processing 327 feed end of connecting plate is arranged in the second driving coordinating block 3321 stated.The first processing guide rod 333 pass through first gripping block 322 and the second gripping block 323 at each station upper feeding end, and the second processing guide rod 334 is worn Cross the first gripping block 322 and the second gripping block 323 of each station discharge end.First processing driving motor 331 and the second processing Driving motor 332, which matches, can make first clamping plate 324 and second clamping plate 325 unclamp or clamp.The processing cohesive component packet Include processing linking support plate 341, processing linking cylinder 342 and processing connecting block 343.The processing linking support plate 341 is set It sets on machining support 31, in the processing linking setting processing linking support plate 341 of cylinder 342, processing linking cylinder 342 Moving portion be fixedly connected with the processing connecting block 343, in first station 301 324 feed end of first clamping plate and It is provided with chain processing groove 3241 on 325 feed end of second clamping plate, processes connecting block 343 below chain processing groove 3241 back and forth Movement is for being connected.The outlet end of the station bottom plate 321 of first station is fixedly installed to commutate for chain and convey Reversing bar 3211.

When work, makes to process connecting block 343 by processing linking cylinder 342 and the discharge end of chain cutting device 4 is mutually held in the mouth It connects, the chain of truncation is delivered to first clamping plate 324 on the first station 301 and the by conveying assembly 24 by chain conveyor module Between second splint 325, after chain is completely transferred on station bottom plate 321, added by the first processing driving motor 331 and second Work driving motor 332 clamps first clamping plate 324 and second clamping plate 325, makes to process connecting block by processing linking cylinder 342 343 are moved back into original position, and the pin shaft being truncated originally is delivered at the feed end of station bottom plate 321 by pin shaft conveying device 5, will Pin shaft is reinstalled to chain.

The problem of device is able to solve the positioning fixation of chain and re-assemblies passes through the first processing driving motor 331 and second processing driving motor 332 can make 325 clamp or release of first clamping plate 324 and second clamping plate, and be provided with plus Work cohesive component can more preferably carry out conveying and positioning action.

As shown in Figure 1 and Figure 7, pin shaft conveying device 5 includes that pin shaft conveys movable stand 51, pin shaft lifting cylinder 52, pin shaft Horizontal feed cylinder 53, pin shaft conveyer slideway 54, pin shaft conveying movable block 55, pin shaft positioning cylinder 56, pin shaft convey hinge bar 57, pin shaft conveying hinged block 58 and pin shaft convey coordinating block 59.The pin shaft conveying movable stand 51 conveys guide rod by pin shaft 511 are arranged in rack 1 and are located at the lower section of chain cutting device 4, and the bottom of rack 1 is arranged in the pin shaft lifting cylinder 52 The moving portion in portion, pin shaft lifting cylinder 52 is fixedly connected with pin shaft conveying 51 top bottom surface of movable stand, and the pin shaft level is defeated Cylinder 53 of supplying gas is fixed on the pin shaft conveyer slideway 54 by pin shaft horizontal feed cylinder connecting plate, and pin shaft conveying is slided The setting of rail 54 passes through pin shaft conveyer slideway 54 and pin shaft in 51 top of pin shaft conveying movable stand, the pin shaft conveying movable block 55 Conveying movable stand 51 is slidably connected, and the charging of pin shaft conveying movable block 55 is arranged in the fixed part of the pin shaft positioning cylinder 56 End, the moving portion connection of pin shaft positioning cylinder 56 are fixedly connected with one end of the pin shaft conveying hinge bar 57, and pin shaft is defeated It send the other end and the pin shaft conveying hinged block 58 of hinge bar 57 hinged, it is defeated to be provided with pin shaft on pin shaft conveying hinged block 58 Matching hole 581 is sent, in pin shaft conveying matching hole 581, pin shaft conveying is matched for the bottom setting of the pin shaft conveying coordinating block 59 The top for closing block 59 passes through pin shaft conveying movable block 55 and is arranged on pin shaft conveying movable block 55, and pin shaft conveys on coordinating block 59 It is provided with the pin shaft bearing groove 591 for carrying truncation rear pin shaft, pin shaft conveying 59 top of coordinating block is provided with gas-tpe fitting.

When work, so that pin shaft is conveyed movable stand 51 by pin shaft lifting cylinder 52 and be moved to specified height, pass through pin shaft Horizontal feed cylinder 53 by the lower section for being moved to the first truncation engagement plate 411 and the second truncation 412 joining place of engagement plate, pass through So that pin shaft is conveyed the pin shaft bearing groove 591 on coordinating block 59, and the first chain cuts U-type groove and the second cutting U-type groove is corresponding. Pin shaft bearing groove 591 and the first chain cutting U-type groove and the second cutting U on 56 pin shaft of pin shaft positioning cylinder conveying coordinating block 59 Type groove is corresponding, enables pin shaft is truncated and falls into pin shaft bearing groove 591, by pin shaft horizontal feed cylinder 53 that pin shaft is defeated The feed end for sending 55 upper pin of movable block conveying coordinating block 59 to be delivered to chain processing platform 3, passes through 56 band of pin shaft positioning cylinder Dynamic pin shaft conveying coordinating block 59 is rotated by 90 °, and is aligned the pin shaft in pin shaft bearing groove 591 with the starting point of chain and end, and Pin shaft is inserted into the pin shaft hole of chain by pin shaft lifting cylinder 52, re-assemblies chain.

The device is able to solve pin shaft waste and the problem of assembles pin shaft, by by the pin shaft of truncation be reinstalled to On chain, material cost can be saved, and be able to ascend processing efficiency.Conveying the rotation of coordinating block 59 by pin shaft can be by pin Axis is accurately reinstalled to chain, is improved precision degree, is saved extra positioning device and artificial cost.

As illustrated in figures 1 and 8, chain transfer device 6 includes transfer level movable stand 61, horizontal transfer cylinder 62, transfer Vertical movement 63 and vertical transfer cylinder 64.The transfer level movable stand 61 is arranged by transferring slide rail 611 in rack 1 Top that is upper and being located at chain processing platform 3, the horizontal transfer cylinder 62 is arranged on transfer level movable stand 61, described The fixed part of vertical transfer cylinder 64 be fixed on transfer level movable stand 61, the vertical moving portion for shifting cylinder 64 with The top of the transfer vertical movement 63 is fixedly connected, and the transfer vertical movement 63 is existed by transfer guide rod setting On transfer level movable stand 61, and it is mobile by 64 energy mobilization vertical movement 63 of transfer cylinder vertically, shift vertical move Transfer station is provided in moving frame 63, transfer station is three and respectively the first transfer station 601, the second transfer station 602 With third transfer station 603.Each transfer station includes that transfer station support plate 661, transfer shaft 662 and three groups turn Clamping jaw 663 is moved, the transfer station support plate 661 is located in transfer vertical movement 64, and the setting of transfer shaft 662 exists The middle part of transfer station support plate 661, the end of transfer shaft 662 are provided with transfer motor, and three groups of transfer clamping jaws 663 divide She Zhi not be in transfer shaft 662, and 662 rotational energy of transfer shaft makes three groups of 663 clamp or releases of transfer clamping jaw, three groups of transfer clamping jaws 663 include the first clamping jaw 6631 and the second clamping jaw 6632, the bottom of first clamping jaw 6631 and the second clamping jaw 6632 Bottom be equipped with the curved slot 6633 matched with chain.It is located at the transfer clamping jaw of feed end in three groups of transfer clamping jaws 663 663 bottoms are provided with two transfer gag lever posts 6634.

When work, it is moved forward and backward by 62 mobilization horizontal moving frame 61 of horizontal transfer cylinder, by shifting gas vertically Cylinder 64 can 63 vertical lifting of mobilization vertical movement, pass through transfer motor mobilization axis 662 and rotate and the can be made Chain can be transferred to specified station and convey discharging by 6632 clamp or release of one clamping jaw 6631 and the second clamping jaw.

The device is able to solve chain and shifts the problem of unstable and chain can not discharge.Pass through chain transfer device 6 It is able to drive chain to be moved forward and backward up and down, and chain can be transferred to by the first clamping jaw 6631 and the second clamping jaw 6632 by finger Determine station to carry out processing and the chain processed discharges.And it can be increased by curved slot 6633 and transfer gag lever post 6634 Add the stability accuracy of transfer and chain is positioned and is limited.

A kind of transfer method of nonskid chain process equipment, chain processing platform are connected processing by processing linking cylinder Block is mutually connected with the feed end of station bottom plate, the chain of truncation be delivered to first clamping plate on the first station and second clamping plate it Between, after chain is completely transferred on station bottom plate, driving motor is processed for first by the first processing driving motor and second Clamping plate and second clamping plate clamp, and after the processing for completing a station, first clamping plate and second clamping plate are unclamped, and are connected gas by processing Cylinder makes processing connecting block be moved back into original position；Chain transfer device is moved back by horizontal transfer cylinder mobilization horizontal moving frame It is dynamic, by shifting cylinder energy mobilization vertical movement vertically to decline, it is moved at the chain of the first station, passes through transfer The rotation of motor mobilization axis clamps the first clamping jaw and the second clamping jaw by the chain of the first station, by horizontal transfer cylinder and Chain is delivered to second station and processed by vertical transfer cylinder, and second station is after processing is completed by same mode by chain Item clamping is processed to 3rd station, when the clamping of the chain of second station to 3rd station, the chain quilt of the first station It clamping in second station, 3rd station is after processing is completed discharged the chain transfer conveying of finished product by same mode, and The chain that second station is completed the process is clamped to 3rd station.

As shown in Fig. 1 and Fig. 9, pin shaft assembling device 7 includes pin shaft assembling bracket 71, pin shaft assembling lifting cylinder 72, pin Axis assembles movable stand 73, pin shaft assembling coordinating block 74, Assembly of pin pedestal 75, pin shaft piece and feeds cylinder 76, pin shaft piece charging ram 77, pin shaft piece laying rack 78.The pin shaft assembling bracket 71 is arranged in rack 1 and pin shaft assembling bracket 71 is located at the second work Above the feed end of position 302, the fixed part setting of the pin shaft assembling lifting cylinder 72 is on pin shaft assembling bracket 71, pin shaft The moving portion for assembling lifting cylinder 72 is fixedly connected with the top of the pin shaft assembling movable stand 73, and pin shaft assembles movable stand 73 It assembles guide rod 731 by pin shaft to be slidably connected with pin shaft assembling bracket 71, pin shaft assembling 73 lower part of movable stand is provided with pin shaft group Shifting chute 732 is filled, is provided with pin shaft assembling block 74 on the pin shaft assembling shifting chute 732, pin shaft assembles block 74 and pin shaft group It is provided with pin shaft assembly and connection spring 741 between dress movable stand 73, two pin shaft assembling positioning are provided on pin shaft assembling block 74 Bar 742, the pin shaft, which assembles, is provided with pin shaft assembling briquetting 751 below locating rod 742, the pin shaft assembles briquetting 751 The Assembly of pin pedestal 75 is set, mobile mating groove 752 is provided on Assembly of pin pedestal 75, the pin shaft piece pushes away The setting of material bar 77 matches in mobile mating groove 752 with Assembly of pin pedestal 75, and the pin shaft piece charging cylinder 76 is arranged In 77 side of pin shaft piece charging ram, the outlet end of pin shaft piece charging ram 77 is provided with M type positioning head 771, and M type positioning head 771 top surface is provided with the pin shaft film trap for feeding channel piece, is located at the two of M type positioning head 771 on pin shaft piece charging ram 77 Side is connected with pin shaft piece gag lever post 772 by pusher spring, and the pin shaft piece laying rack 78 is fixed at Assembly of pin bottom On seat 75, pin shaft piece laying rack 78 is located at the top of pin shaft piece charging ram 77.It is provided on pin shaft piece laying rack 78 in track type The pin shaft sheet material slot 781 of shape.78 top of pin shaft piece laying rack is provided with the pin shaft piece for adjusting pin shaft piece and adjusts rope 782, The lower part that the pin shaft piece adjusts rope 782 passes through two pin shaft holes in pin shaft piece and is located in pin shaft sheet material slot 781, pin The top that axis piece adjusts rope 782 is set on fixed hook 783.

When work, when chain is delivered in second station 302 by the first station 301, positioned at pin shaft group at the assembling of chain When filling on briquetting 751, cylinder 76 is fed by pin shaft piece, pin shaft piece charging ram 77 is driven to be moved under pin shaft piece laying rack 78 Side, falls into pin shaft piece into pin shaft film trap, and fix pin shaft piece by pin shaft piece gag lever post 772, then passes through pin shaft piece Feeding cylinder 76 drives pin shaft piece charging ram 77 to release, and pin shaft piece is made to be located at the top at chain assembling, and M type positioning head At 771 insertion assemblings in the gap of pin shaft, pin shaft at assembling is limited.Lifting cylinder 72, which is assembled, by pin shaft drives pin shaft assembling Two pin shafts assembling locating rod 742 in movable stand 73 moves down, and two pin shaft assembling locating rods 742 is made to be inserted into the pin of pin shaft piece It is withstood in axis hole and with the pin shaft at assembling, then lifting cylinder 72 is assembled by pin shaft and is pressed downward, make pin shaft assembling block 74 by pin Axis piece is pressed into being assembled at the assembling of chain.

The device, which is able to solve the conveying of pin shaft piece and pin shaft piece, can not accurately be assembled into problem on pin shaft.Pass through pin shaft Piece charging ram 77 and pin shaft piece laying rack 78, which cooperate, is delivered to pin shaft piece above pin shaft, and assembles block 74 by pin shaft and carry out group Dress, can be effectively solved the charging of pin shaft piece and pin shaft piece is accurately assembled on pin shaft, prevent assembled position deviation And assembling is insecure.

As shown in Fig. 1 and Figure 10, chain stamping device 8 include stamped bracket 81, stamping cylinder 82, stamping connection block 83, First pressing block 84, punching press limit base 85, pressing block pedestal 86 and the second pressing block 87,.The setting of stamped bracket 81 exists On chain processing platform 3 and it is located at the charging of 3rd station 303 end side, the top of stamped bracket 1 is arranged in the stamping cylinder 82 Portion, it is fixed by cylinder connector 821 and the stamping connection block 83 that the moving portion of stamping cylinder 82 passes through stamped bracket 81 Connection, stamping connection block 83 are arranged in stamped bracket 81 by two punching press guide rods 831, and the first pressing block 84 setting exists The bottom of stamping connection block 83.The punching press limit base 85 is arranged below stamped bracket 81, and punching press limit base 85 is arranged There is the punching press limiting slot 851 cooperated with stamping connection block 83, the pressing block pedestal 86 is arranged in the one of punching press limit base 85 Side and pressing block pedestal 86 are located at the lower section of the first pressing block 84, and second pressing block 87 is arranged in pressing block pedestal 86 On, the second pressing block 87 is located at the underface of the first pressing block 84.

When work, assembled chain is delivered on pressing block pedestal 86 by chain transfer device 6, by the group of chain It is placed at dress on the second pressing block 87, drives the first pressing block 84 on stamping connection block 83 to push by stamping cylinder 82, Further stamping at the assembling of chain is reinforced.

The device is able to solve chain assembling insecure the problem of being easy to appear chain rupture and truncated position loosening.Pass through chain The phenomenon that assembled chain can directly be carried out punching press reinforcing by stamping device 8, prevent chain from chain rupture occur or loosening.

A kind of chain fully automatic working method, successively includes the following steps:

(1) chain is fed on the first station 301 being delivered in chain processing platform 3 by chain feed conveying device 2, is passed through The starting point of chain is entered and turned back by 3 feed end of chain processing platform by chain conveyor module is delivered to chain processing platform 3 Feed end.

(2) chain selects fixed length, passes through chain during going back to the feed end of chain processing platform 3 Cutting device 4 is matched with pin shaft conveying device 5, and chain is truncated and falls into the pin shaft of truncation in pin shaft conveying device 5.It cuts It has no progeny and is again all located at the starting point of chain and end by chain conveyor module at the feed end of chain processing platform 3.

(3) pin shaft of truncation is delivered to the feed end of chain processing platform 3 by pin shaft conveying device 5, by truncation Pin shaft is reinstalled on chain and connecting the starting point of chain with end.

(4) chain that connection is completed is delivered to by the second station 302 in processing platform 3 by chain transfer device 6 On, pin shaft piece is assembled on pin shaft by pin shaft assembling device 7.

(5) chain being completed is delivered to by chain transfer device 6 by the 3rd station 303 in processing platform 3 On, the chain being completed is carried out by punching press reinforcing by chain stamping device 8.

(6) finished product is discharged by chain transfer device 6.

In conclusion chain can be carried out to stable conveying by the way that chain feed conveying device 2 is arranged, and chain is existed It is positioned before assembling.Chain can be truncated automatically by the way that chain cutting device 4 is arranged, and reduce the mill of the pin shaft of truncation Damage.The pin shaft of truncation can be recycled by setting pin shaft conveying device 5 and be assembled on chain again, reduce workpiece and pin shaft conveying The cost of equipment.Pin shaft piece can directly be assembled with pin shaft by the way that pin shaft assembling device 7 is arranged, and pin shaft piece conveniently changes Material, packaging efficiency are high.Assembled chain can further be reinforced by the way that chain stamping device 8 is arranged, improve product Quality.

Embodiment 2

A kind of nonskid chain process equipment, the mechanism include chain processing platform 3 and chain transfer device 6, chain processing platform 3 It is identical as structure in 1 is implemented with chain transfer device 6.

A kind of transfer method of nonskid chain process equipment, chain processing platform 3 make to process by processing linking cylinder 342 Connecting block 343 is mutually connected with the feed end of station bottom plate 321, and the chain of truncation is delivered to the first clamping plate on the first station 301 Between 324 and second clamping plate 325, after chain is completely transferred on station bottom plate 321, pass through the first processing driving motor 331 First clamping plate 324 and second clamping plate 325 are clamped with the second processing driving motor 332, after the processing for completing a station, first Clamping plate 324 and second clamping plate 325 are unclamped, and so that processing connecting block 343 is moved back into original position by processing linking cylinder 342；Chain turns Moving device 6 is moved backward by 62 mobilization horizontal moving frame 61 of horizontal transfer cylinder, by shifting 64 energy band of cylinder vertically Turn moves vertical movement 63 to decline, is moved at the chain of the first station 301, by shifting motor mobilization axis 662 Rotation clamps the first clamping jaw 6631 and the second clamping jaw 6632 by the chain of the first station 301, passes through 62 He of horizontal transfer cylinder Chain is delivered to second station 302 and processed by vertical transfer cylinder 64, and second station 302 is after processing is completed by same Chain is clamped and is processed to 3rd station 303 by mode, when the chain clamping of second station 302 to 3rd station 303, The chain of first station 301 is clamped onto second station 302, and 3rd station 303 after processing is completed will by same mode The chain transfer conveying discharging of finished product, and the chain that second station 302 completes the process is clamped to 3rd station 303.

Claims (10)

1. a kind of nonskid chain process equipment, it is characterised in that including chain processing platform (3) and chain transfer device (6), chain Transfer device (6) is located at the top of chain processing platform (3), and chain transfer device (6) is used for chain processing platform (3) In chain transferring position；Setting is there are three station on chain processing platform (3), and three stations include the first station (301), the Two stations (302) and 3rd station (303)；The chain processing platform (3) includes machining support (31), processing carrier, adds Work driving assembly, processing cohesive component；The machining support (31) is arranged on rack (1), the processing carrier setting On machining support (31), first station (301), second station (302) and 3rd station (303), which are separately positioned on, to be added On work carrier；Each station include station bottom plate (321), two piece of first gripping block (322), two piece of second gripping block (323), First clamping plate (324), second clamping plate (325), the first processing connecting plate (326) and second processing connection (327) plate；The work Position bottom plate (321) is arranged on machining support (31), and two piece of first gripping block (322) is separately positioned on station bottom plate (321) bottom of inlet end and outlet end on rear side of, two the first gripping blocks (322) clamps connecting plate by first (3221) it connects；First processing connecting plate (326) is fixed at the first clamping connecting plate in each station (3221) top；Two piece of second gripping block (323) be separately positioned on inlet end on front side of station bottom plate (321) and Outlet end, two the second gripping blocks (323) clamp connecting plate (3231) connection by second；The second processing connecting plate (327) second be fixed in each station clamps the lower part of connecting plate (3231)；The first clamping plate (324) into Material end and discharge end are fixedly connected with two the first gripping blocks (322) respectively；The feed end of the second clamping plate (325) and go out Material end is fixedly connected with two the second gripping blocks (323) respectively；The first clamping plate (324) positioned at the first station (301) With the chain clip slot (3251) matched with chain is respectively arranged on second clamping plate (325)；Processing driving assembly is for making the One clamping plate (324) and second clamping plate (325) clamp or release；The processing cohesive component is for chain linking conveying.

2. a kind of nonskid chain process equipment according to claim 1, which is characterized in that the chain transfer device It (6) include transfer level movable stand (61), horizontal transfer cylinder (62), transfer vertical movement (63) and vertical transfer cylinder (64)；The transfer level movable stand (61), which is arranged on rack (1) by transferring slide rail (611) and is located at chain processing, puts down The top of platform (3), the horizontal transfer cylinder (62) are arranged on transfer level movable stand (61), the vertical transfer gas The fixed part of cylinder (64) is fixed on transfer level movable stand (61), shifts the moving portion of cylinder (64) and described vertically It is fixedly connected at the top of transfer vertical movement (63), the transfer vertical movement (63) is being turned by the setting of transfer guide rod It moves on horizontal moving frame (61), and mobile by transfer cylinder (64) energy mobilization vertical movement (63) vertically, transfer is perpendicular Translation moving frame is provided with transfer station on (63).

3. a kind of nonskid chain process equipment according to claim 1, which is characterized in that the processing driving assembly packet Include the first processing driving motor (331), the second processing driving motor (332), the first processing guide rod (333), the second processing guide rod (334), first processing driving motor (331) setting is in the rear portion of machining support (31) feed end, the first processing driving The rotation axis of motor (331) is connect by the first connection sleeve with the first driving coordinating block (3311), and first driving is matched Block (3311) setting is closed at the top of first processing connecting plate (326) feed end；Second processing driving motor (332) is set The lower section of the first processing driving motor (331) is set on machining support (31) and is located at, the second processing driving motor (332) turns Moving axis is connect by the second connection sleeve with the second driving coordinating block (3321), second driving coordinating block (3321) setting In the bottom of second processing connecting plate (327) feed end；First processing guide rod (333) passes through each station upper feeding end The first gripping block (322) and the second gripping block (323), described second processing guide rod (334) passes through each station discharge end The first gripping block (322) and the second gripping block (323)；First processing driving motor (331) and the second processing driving motor (332) matching can make first clamping plate (324) and second clamping plate (325) unclamp or clamp.

4. a kind of nonskid chain process equipment according to claim 1, which is characterized in that the processing driving assembly packet Include the first processing driving motor (331), the second processing driving motor (332), the first processing guide rod (333), the second processing guide rod (334), first processing driving motor (331) setting is in the rear portion of machining support (31) feed end, the first processing driving The rotation axis of motor (331) is connect by the first connection sleeve with the first driving coordinating block (3311), and first driving is matched Block (3311) setting is closed at the top of first processing connecting plate (326) feed end；Second processing driving motor (332) is set The lower section of the first processing driving motor (331) is set on machining support (31) and is located at, the second processing driving motor (332) turns Moving axis is connect by the second connection sleeve with the second driving coordinating block (3321), second driving coordinating block (3321) setting In the bottom of second processing connecting plate (327) feed end；First processing guide rod (333) passes through each station upper feeding end The first gripping block (322) and the second gripping block (323), described second processing guide rod (334) passes through each station discharge end The first gripping block (322) and the second gripping block (323)；First processing driving motor (331) and the second processing driving motor (332) matching can make first clamping plate (324) and second clamping plate (325) unclamp or clamp.

5. a kind of nonskid chain process equipment according to claim 1, which is characterized in that the processing cohesive component packet Include processing linking support plate (341), processing linking cylinder (342) and processing connecting block (343)；The processing is connected support plate (341) it is arranged on machining support (31), in processing linking cylinder (342) setting processing linking support plate (341), adds The moving portion of work linking cylinder (342) is fixedly connected with the processing connecting block (343), in first station (301) It is provided with chain processing groove (3241) on first clamping plate (324) feed end and second clamping plate (325) feed end, processes connecting block (343) move back and forth below chain processing groove (3241) for being connected；The station bottom plate (321) of first station goes out Material end is fixedly installed the reversing bar (3211) for chain commutation conveying.

6. a kind of nonskid chain process equipment according to claim 2, which is characterized in that the transfer station is three And respectively the first transfer station (601), the second transfer station (602) and third transfer station (603)；Each transfer Station includes transfer station support plate (661), transfer shaft (662) and three groups of transfer clamping jaws (663), the transfer station branch Fagging (661) is located in transfer vertical movement (64), and the transfer shaft (662) is arranged in transfer station support plate (661) Middle part, the end of transfer shaft (662) is provided with transfer motor, and three groups of transfer clamping jaws (663) are separately positioned on transfer On axis (662), and transfer shaft (662) rotational energy makes three groups of transfer clamping jaw (663) clamp or releases, three groups of transfer clamping jaws (663) It include the first clamping jaw (6631) and the second clamping jaw (6632), the bottom of first clamping jaw (6631) and the second clamping jaw (6632) bottom is equipped with the curved slot (6633) matched with chain；It is located at feed end in three groups of transfer clamping jaws (663) Transfer clamping jaw (663) bottom be provided with two transfer gag lever posts (6634).

7. a kind of nonskid chain process equipment according to claim 1, which is characterized in that further include rack (1), chain into Material conveying device (2), chain cutting device (4), pin shaft conveying device (5), pin shaft assembling device (7), chain stamping device (8) With nonskid chain process equipment described in claim 1.

8. a kind of nonskid chain process equipment according to claim 7, which is characterized in that the pin shaft conveying device (5) for reinstalling the pin shaft of truncation to chain；Pin shaft conveying device (5) includes pin shaft conveying movable stand (51), pin shaft liter Sending down abnormally ascending cylinder (52), pin shaft horizontal feed cylinder (53), pin shaft conveyer slideway (54), pin shaft conveying movable block (55), pin shaft positioning Cylinder (56), pin shaft conveying hinge bar (57), pin shaft conveying hinged block (58) and pin shaft conveying coordinating block (59).

9. a kind of nonskid chain process equipment according to claim 7, which is characterized in that the pin shaft assembling device (7) for pin shaft piece to be encased in pin shaft；Pin shaft assembling device (7) includes pin shaft assembling bracket (71), pin shaft assembling lifting Cylinder (72), pin shaft assembling movable stand (73), pin shaft assemble coordinating block (74), Assembly of pin pedestal (75), pin shaft piece feeding gas Cylinder (76), pin shaft piece charging ram (77) and pin shaft piece laying rack (78).

10. a kind of transfer method of nonskid chain, which is characterized in that the chain processing platform (3) passes through processing linking gas Cylinder (342) is connected processing connecting block (343) mutually with the feed end of station bottom plate (321), and the chain of truncation is delivered to the first work Between first clamping plate (324) and second clamping plate (325) on position (301), when chain is completely transferred on station bottom plate (321) Afterwards, driving motor (332) are processed for first clamping plate (324) and second clamping plate by the first processing driving motor (331) and second (325) it clamps, after the processing for completing a station, first clamping plate (324) and second clamping plate (325) are unclamped, and are connected by processing Cylinder (342) makes processing connecting block (343) be moved back into original position；Chain transfer device (6) is driven by horizontal transfer cylinder (62) Transfer level movable stand (61) moves backward, downward by shifting cylinder (64) energy mobilization vertical movement (63) vertically Drop, is moved at the chain of the first station (301), makes the first clamping jaw by transfer motor mobilization axis (662) rotation (6631) chain of the first station (301) is clamped with the second clamping jaw (6632), passes through horizontal transfer cylinder (62) and vertical turn Chain is delivered to second station (302) and processed by shifting cylinder (64), and second station (302) is after processing is completed by same Chain is clamped to 3rd station (303) and is processed by mode, is clamped when the chain of second station (302) to 3rd station (303) when, the chain of the first station (301) by clamping to second station (302), lead to after processing is completed by 3rd station (303) Same mode is crossed by the transfer conveying discharging of the chain of finished product, and the chain that second station (302) completes the process is clamped to the On three stations (303).