CN218658927U - Assembly workbench for aluminum cantilever production - Google Patents

Abstract

The utility model relates to an equipment workstation is used in production of aluminium cantilever, including the equipment workstation body, the equipment workstation body is equipped with the equipment platform base plate including the equipment platform support body on the equipment platform support body, install equipment platform load cable seat storage rack on the equipment platform base plate, equipment platform tube socket storage rack, equipment platform cantilever pressure holds device I, equipment platform cantilever pressure holds device II and equipment platform cantilever pressure and holds the device, the position is adjustable about the equipment platform load cable seat storage rack, equipment platform cantilever pressure holds the device and the height-adjustable festival that equipment platform cantilever pressure held the device. The utility model discloses a to the casing seat with the messenger seat deposit, to compressing tightly of wrist arm pipe fixed to be convenient for flat cantilever, oblique cantilever and the automatic tightening after casing seat and messenger seat equipment, solved among the prior art because of lack special accessory deposit, the fixed and assembly device of wrist arm pipe and can't realize the automated production's of aluminium cantilever problem, thereby provide technical support for the automated production of aluminium cantilever.

Description

Assembly workbench for aluminum cantilever production

Technical Field

The utility model relates to a contact net aluminium cantilever production field, concretely relates to aluminium cantilever production is with equipment workstation.

Background

With the rapid development of railway construction in China, new requirements are put forward on the process quality standards of related parts in the railway industry, and the requirements on construction and maintenance accuracy of a driving line are higher and higher. In a railway train line, a contact network is an important component for ensuring the normal operation of a railway, is lapped on an electric railway power supply line, and directly undertakes the primary task of conveying energy for an electric train. The cantilever is a contact net support device, and cantilever pre-assembly is an important content in electrified railway construction. The requirement of high-speed railways on the installation precision of contact nets is extremely high, most parts of high-speed railway contact net engineering cannot be repeatedly disassembled and assembled, after accurate calculation, a cantilever supporting device must be accurately assembled in place at one time, the cantilever supporting device is limited by conditions such as on-site high altitude and the like, a mode of prefabricating in batches on the ground in advance needs to be adopted, the quality of one-time construction in the whole contact suspension is good, and the quality, the progress and the construction efficiency of subsequent construction are directly influenced. In the production process of the aluminum cantilever, a single lug needs to be sleeved on the inclined cantilever and the inclined cantilever, then the inclined cantilever and the inclined cantilever are respectively arranged in the two sleeve seats of the sleeve seat 16 in a penetrating manner, an upper messenger wire seat 26 is sleeved at one end of the inclined cantilever, and then fastening bolts on the messenger wire seat 26 and the sleeve seat 16 are screwed down.

As shown in fig. 2, the cannula holder 16 includes a cannula I161, a cannula II162 and a connection portion 163 in the cannula holder, and the cannula I161 and the cannula II162 are both in a circular tube shape, which is not convenient for stable placement. As shown in fig. 3, the messenger base 26 includes a messenger base cross tube portion 261, a messenger base lug portion 262, a messenger base vertical tube portion 263, a messenger base locking portion 264, and a messenger base cable-supporting clamp 265, the messenger base 26 needs to place the messenger base locking portion 264 upward to meet the requirements when being assembled with the flat cantilever, the messenger base cross tube portion 261 and the messenger base vertical tube portion 263 are perpendicular to each other and are both in a circular tube shape, and the messenger base cable-supporting clamp 265 is further provided at the other end of the messenger base vertical tube portion 263, resulting in imbalance of the weights at both sides of the messenger base cross tube portion 261, and are easily inclined toward the messenger base cable-supporting clamp 265 side, which are not easy to place stably, and therefore require special storage parts, cantilever tube fixing and assembling devices, so as to assemble the flat cantilever, the oblique cantilever, the sleeve base, and the messenger base. In the prior art, a casing seat and a carrier cable seat are mostly provided with manual devices, so that the operation efficiency is low, the problems of inaccurate positioning of assembly positions, uneven locking force and the like are easily caused by manual assembly, and the qualification rate of products is reduced.

In view of this, the utility model provides an aluminium cantilever production is with equipment workstation has realized depositing, compressing tightly fixedly to flat cantilever and oblique cantilever of sleeve pipe seat and messenger wire seat to the automation of being convenient for flat cantilever, oblique cantilever and sleeve pipe seat and messenger wire seat post assembling is screwed up, has solved among the prior art because of lack special accessory and has deposited, the problem of the fixed and assembly device automated production that can't realize the aluminium cantilever of cantilever pipe, thereby provides technical support for the automated production of aluminium cantilever.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it is anticipated that an aluminium cantilever production is with equipment workstation is provided to solve the not enough that exists among the prior art, the utility model discloses the technical problem who solves realizes through following technical scheme.

The utility model provides an aluminium cantilever production is with equipment workstation, includes the equipment workstation body, the equipment workstation body is including the equipment platform support body, be equipped with the equipment platform base plate on the equipment platform support body, install equipment platform load cable seat storage rack, equipment platform sleeve seat storage rack, equipment platform cantilever pressure and hold device I, equipment platform cantilever pressure and hold device II and the oblique cantilever pressure of equipment platform and hold the device on the equipment platform base plate, position is adjustable about the equipment platform load cable seat storage rack, equipment platform cantilever pressure and hold the device and the oblique cantilever pressure of equipment platform holds the height-adjustable of device.

Preferably, the assembling table carrier cable seat storage rack comprises an assembling table carrier cable seat side plate I and an assembling table carrier cable seat side plate II which are arranged at intervals at the left and right, and assembling table carrier cable seat support shafts which are arranged between the assembling table carrier cable seat side plate I and the assembling table carrier cable seat side plate II at intervals at the front and the back, the assembling table carrier cable seat side plate I and the assembling table carrier cable seat side plate II are respectively provided with an assembling table carrier cable seat arc part I and an assembling table carrier cable seat arc part II on the upper end faces, the assembling table carrier cable seat arc part I and the assembling table carrier cable seat arc part II are matched with the inner hole of the carrier cable seat cross pipe part of the carrier cable seat, the assembling table carrier cable seat side plate I and the assembling table carrier cable seat side plate II are fixedly connected with the assembling table carrier cable seat front plate, the assembling table carrier cable seat support shaft III is arranged on the upper end face of the assembling table carrier cable seat front plate, the assembling table carrier cable seat support shafts are respectively positioned on the bearing cable seat front plate, and the assembling table carrier cable seat support shafts are respectively positioned on the two sides of the assembling table carrier cable seat support shafts.

Preferably, the assembly station messenger wire seat side panel I is higher than the assembly station messenger wire seat side panel II.

Preferably, an assembly table messenger wire seat moving cylinder is installed on the assembly table base plate, the output end of the assembly table messenger wire seat moving cylinder is fixedly connected with an assembly table messenger wire seat moving plate, the assembly table messenger wire seat storage rack is installed on the assembly table messenger wire seat moving plate, the assembly table messenger wire seat moving cylinder drives the assembly table messenger wire seat moving plate to move left and right, and an assembly table guide device is arranged between the assembly table messenger wire seat moving plate and the assembly table base plate.

Preferably, the assembling platform cantilever pressing device I comprises an assembling platform cantilever pressure head cylinder I installed on the assembling platform messenger cable seat moving plate, an assembling platform cantilever pressure head I is installed at the upper end of an output shaft of the assembling platform cantilever pressure head cylinder I, the assembling platform cantilever pressure head cylinder I drives the assembling platform cantilever pressure head I to move up and down and rotate around the axis of the output shaft of the assembling platform cantilever pressure head cylinder I, and an inverted V-shaped groove is formed in the lower end face of the assembling platform cantilever pressure head I.

Preferably, equipment platform cantilever pressure holds device II including install in equipment platform cantilever pressure head cylinder II on equipment platform support body upper end right side, equipment platform cantilever pressure head II is installed to the upper end of equipment platform cantilever pressure head cylinder II's output shaft, equipment platform cantilever pressure head cylinder II drive equipment platform cantilever pressure head II reciprocates and winds the axis of equipment platform cantilever pressure head cylinder II's output shaft is rotatory, equipment platform cantilever pressure head II's lower terminal surface is equipped with the V-arrangement groove that falls, install equipment platform cantilever layer board on the equipment platform support body, equipment platform cantilever layer board is located equipment platform cantilever pressure head II's below, the upper end of equipment platform cantilever layer board be equipped with the outer diameter assorted U-shaped groove of cantilever.

Preferably, the right side of the assembly table base plate is provided with an assembly table sleeve seat storage rack tooling plate, the assembly table sleeve seat storage rack tooling plate is provided with symmetrically-installed assembly table sleeve seat storage racks, each assembly table sleeve seat storage rack comprises an assembly table sleeve seat side plate I and an assembly table sleeve seat side plate II which are arranged at left and right intervals, and assembly table sleeve seat support shafts arranged between the assembly table sleeve seat side plate I and the assembly table sleeve seat side plate II at front and back intervals, the upper end faces of the assembly table sleeve seat side plate I and the assembly table sleeve seat side plate II are respectively provided with an assembly table sleeve seat circular arc part I and an assembly table sleeve seat frame circular arc part II, the bottoms of the assembly table sleeve seat side plate I and the assembly table sleeve seat side plate II are fixedly connected with the assembly table sleeve seat frame bottom plate, the assembly table sleeve seat base plate is provided with a sleeve seat tightening bolt matched through groove bottom plate, the assembly table sleeve seat storage rack tooling plate is provided with an assembly table sleeve seat base plate matched with the assembly table sleeve seat tooling plate through groove, and the assembly table sleeve seat base plate is provided with an assembly table base plate matched with the assembly table base plate through groove.

Preferably, the height of the assembly table bushing seat side plate I is higher than the height of the assembly table bushing seat side plate II.

Preferably, the device is held to oblique cantilever of equipment platform pressure including install in the oblique cantilever pressure head cylinder of equipment platform on the equipment platform base plate, the oblique cantilever pressure head of equipment platform is installed to the upper end of the output shaft of the oblique cantilever pressure head cylinder of equipment platform, the oblique cantilever pressure head cylinder drive of equipment platform the oblique cantilever pressure head of equipment platform reciprocates and winds the axis of the output shaft of the oblique cantilever pressure head cylinder of equipment platform is rotatory.

Preferably, the upper end of the output shaft of the assembly platform inclined cantilever pressure head cylinder is provided with an assembly platform inclined cantilever pressure head connecting block, and the lower end of the assembly platform inclined cantilever pressure head connecting block is fixedly connected with an assembly platform inclined cantilever pressure head.

The utility model discloses in, add man-hour to the aluminium cantilever, the material loading is cut somebody's hair the device and is snatched casing seat and messenger seat respectively from casing seat conveyor and messenger seat conveyor to place respectively on equipment platform casing seat storage rack and equipment platform messenger seat storage rack on the equipment workstation. The truss gripper above the production line grips and conveys the flat cantilever to the right side of the assembly workbench, the flat cantilever clamping and pushing device clamps the right end part of the flat cantilever, the feeding and pushing device installs the guide cone at the left end part of the flat cantilever so as to enable the flat cantilever to smoothly penetrate through the sleeve seat and the bearing cable seat, the flat cantilever clamping and pushing device rotates the flat cantilever to enable the direction of a single lug installed at the right end part of the flat cantilever to meet the requirement, then under the combined action of the flat cantilever clamping and pushing device and the truss gripper, the flat cantilever sequentially penetrates through the sleeve I of the sleeve seat and the bearing cable seat transverse tube part of the bearing cable seat from right to left, then, the assembly platform flat cantilever clamping and pushing device I and the assembly platform flat cantilever clamping and pushing device II are respectively clamped above the left end and the right end of the flat cantilever so as to fix the flat cantilever on the assembly platform, then the flat cantilever clamping and pushing device releases the right end of the flat cantilever, the feeding and pushing device moves to the left side of the assembly workbench, and takes out the guide cone at the left end of the flat cantilever. The truss gripper above the production line grips and conveys the inclined cantilever to the right side of the assembly workbench and places the inclined cantilever on the inclined cantilever supporting device, the inclined cantilever clamping and pushing device clamps the right end of the inclined cantilever, the feeding and pushing device moves to the left side of the inclined cantilever, the guide cone is installed at the left end of the inclined cantilever so that the inclined cantilever can smoothly penetrate through the casing seat, the inclined cantilever clamping and pushing device rotates the inclined cantilever to enable the directions of two single ears installed on the inclined cantilever to meet the requirements, then the inclined cantilever clamping and pushing device pushes the inclined cantilever to enable the inclined cantilever to penetrate through the casing II of the casing seat from right to left, then the inclined cantilever clamping and fixing device of the assembly workbench presses and fixes the inclined cantilever, then the inclined cantilever clamping and pushing device releases the right end of the inclined cantilever and moves to the left side of the inclined cantilever to take out the guide cone from the left end of the inclined cantilever. The tightening devices move to the lower portion of the sleeve II respectively, the fastening bolts below the sleeve II are tightened, the truss tightening devices above the production line tighten the fastening bolts on the carrier cable seat and the upper side of the sleeve seat respectively, the sleeve seat and the carrier cable seat are fixedly installed on the wrist arm pipe, and therefore the aluminum wrist arm is machined.

The utility model provides an equipment workstation is used in production of aluminium cantilever has realized depositing, compressing tightly fixedly to flat cantilever and oblique cantilever of casing seat and messenger wire seat to be convenient for flat cantilever, oblique cantilever and casing seat and messenger wire seat post assembling's automation screw up, solved among the prior art because of lack special accessory deposit, the problem of the automated production of aluminium cantilever can't be realized to the fixed and assembly device of cantilever pipe, thereby provide technical support for the automated production of aluminium cantilever.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a casing seat according to the present invention;

fig. 3 is a schematic structural view of a messenger wire seat in the present invention;

FIG. 4 is a schematic view of the assembly structure of the aluminum cantilever production line of the present invention;

the reference numbers in the drawings are, in order: 10. a sleeve seat conveying device 16, a sleeve seat 161, a sleeve I,162, a sleeve II,20, a carrier cable seat conveying device 26, a carrier cable seat 261, a carrier cable seat cross tube portion 262, a carrier cable seat lug portion 263, a carrier cable seat vertical tube portion 264, a carrier cable seat locking portion 265, a carrier cable seat wire supporting clamp 30, an inclined cantilever clamping and pushing device 40, a feeding and pushing head device 50, a flat cantilever clamping and pushing device 51, a flat cantilever pushing head bracket 52, a flat cantilever pushing head cross bracket 53, a flat cantilever pushing head pushing plate 54, a flat cantilever swinging cylinder 55, a flat cantilever pushing clamping jaw 56, a flat cantilever pushing bottom plate 57, a flat cantilever pushing driving motor 621, an assembly workbench body 61, an assembly workbench body 62, an assembly workbench base plate 621, an assembly workbench base plate, an assembly workbench sleeve tube seat tooling plate, a cable seat moving cylinder 631, an assembly workbench moving cylinder 632 and an assembly workbench connecting plate, 633, assembly platform bearing cable seat moving plate, 634, assembly platform guide rail, 641, assembly platform cantilever press head air cylinder I,642, assembly platform cantilever press head connecting block I,643, assembly platform cantilever press head upper press plate I,644, assembly platform cantilever press head I,65, assembly platform bearing cable seat storage rack, 651, assembly platform bearing cable seat side plate I,6511, assembly platform bearing cable seat arc part I,652, assembly platform bearing cable seat side plate II,6521, assembly platform bearing cable seat arc part II,653, assembly platform bearing cable seat support shaft, 661, assembly platform inclined arm press head air cylinder, 662, assembly platform inclined cantilever press head connecting block, 663, assembly platform inclined cantilever press head, 67, assembly platform sleeve seat storage rack, 671, assembly platform sleeve seat frame side plate I, 6711, assembly platform sleeve seat frame arc part I,672, assembly platform sleeve seat frame side plate II, 6721. equipment platform sleeve pedestal arc portion II,673, equipment platform sleeve pedestal back shaft 681, equipment platform cantilever pressure head cylinder II,682, equipment platform cantilever pressure head connecting block II,683, equipment platform cantilever pressure head top board II,684, equipment platform cantilever pressure head II,69, equipment platform cantilever layer board, 70, oblique cantilever strutting arrangement, 80, screw up the device.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1, an assembly workbench for aluminum wrist arm production is improved in that: including the equipment workstation body 60, the equipment workstation body 60 includes the equipment platform support body 61, be equipped with the equipment platform base plate 62 on the equipment platform support body 61, install equipment platform messenger seat storage rack 65, equipment platform sleeve seat storage rack 67, equipment platform cantilever and press and hold device I, equipment platform cantilever and press and hold device II and the oblique cantilever of equipment platform and press and hold the device on the equipment platform base plate 62, the position is adjustable about the equipment platform messenger seat storage rack 65, the equipment platform cantilever presses and holds the device and the oblique cantilever of equipment platform and press and hold the height-adjustable of device.

In this embodiment, referring to fig. 4, with the ground rail assembly 90 as a reference, the casing seat conveying device 10 and the messenger seat conveying device 20 are disposed in front of the ground rail assembly 90, the assembly table body 60 is disposed at the left rear side of the ground rail assembly 90, the wrist clamping and pushing device 50 is mounted at the right end of the ground rail assembly 90 and can move left and right, and the wrist supporting device 70 is disposed at the rear side of the ground rail assembly 90 and at the right side of the assembly table body 60. Two groups of tracks which are arranged side by side from front to back and can be used for other components to move left and right are arranged on the ground rail assembly 90 and are called front ground rail tracks and rear ground rail tracks from bottom to top, the inclined cantilever clamping and pushing device 30 and the tightening device 80 are arranged on the rear ground rail tracks and can move left and right, the feeding pushing head device 40 and the flat cantilever clamping and pushing device 50 are arranged on the front ground rail tracks and can move left and right, the front ground rail tracks and the rear ground rail tracks respectively comprise two ground rail guide rails which are transversely arranged at a front-back interval, the bottoms of the inclined cantilever clamping and pushing device 30, the tightening device 80, the feeding pushing head device 40 and the flat cantilever clamping and pushing device 50 are respectively provided with ground rail slide blocks which are matched with the ground rail guide rails, and the ground rail guide rails are matched with the ground rail slide blocks to play a role in guiding.

In this embodiment, when the aluminum cantilever is machined, the feeding pusher 40 grips the thimble seat 16 and the messenger seat 26 from the thimble seat conveyor 10 and the messenger seat conveyor 20, respectively, and places them on the assembly table thimble seat storage rack 67 and the assembly table messenger seat storage rack 65 on the assembly table, respectively. The truss gripper above the production line grips and conveys the flat cantilever to the right side of the assembly workbench body 60, the flat cantilever clamping and pushing device 50 clamps the right end part of the flat cantilever, the feeding and pushing device 40 installs the guide cone 49 at the left end part of the flat cantilever so that the flat cantilever smoothly penetrates through the sleeve seat 16 and the bearing cable seat 26, the flat cantilever clamping and pushing device 50 rotates the flat cantilever so that the direction of a single lug installed at the right end part of the flat cantilever meets the requirement, then under the combined action of the flat cantilever clamping and pushing device 50 and the truss gripper, the flat cantilever sequentially penetrates through the sleeve I161 of the sleeve seat 16 and the bearing cable seat cross tube part 261 of the bearing cable seat 26 from right to left, then, the assembly workbench flat cantilever pressing and holding device I and the assembly workbench flat cantilever pressing and holding device II are respectively pressed above the left end and the right end of the flat cantilever so as to fix the flat cantilever on the assembly workbench, then the flat cantilever clamping and pushing device 50 releases the right end of the flat cantilever, the feeding and the assembly workbench body 40 moves to the left end of the guide cone 49 and takes out the flat cantilever from the left end of the guide cone 49. The truss gripper above the production line grips and conveys the inclined cantilever to the right side of the assembly workbench body 60 and places the inclined cantilever on the inclined cantilever supporting device 70, the inclined cantilever clamping and pushing device 30 clamps the right end of the inclined cantilever, the feeding and pushing device 40 moves to the left side of the inclined cantilever, the guide cone 49 is installed at the left end of the inclined cantilever, so that the inclined cantilever smoothly penetrates through the casing seat 16, the inclined cantilever clamping and pushing device 30 rotates the inclined cantilever to enable the directions of two single ears installed on the inclined cantilever to meet the requirements, then the inclined cantilever clamping and pushing device 30 pushes the inclined cantilever to enable the inclined cantilever to penetrate through the casing II162 of the casing seat 16 from right to left, then the inclined cantilever clamping and pushing device of the assembly workbench presses and fixes the inclined cantilever, then the inclined cantilever clamping and pushing device 30 releases the right end of the inclined cantilever and moves to the left side of the inclined cantilever, and the guide cone 49 is taken out from the left end of the inclined cantilever. The tightening devices 80 move to the positions below the sleeves II162 respectively to tighten the fastening bolts below the sleeves II162, and the truss tightening devices above the production line tighten the fastening bolts on the upper sides of the messenger wire seats 26 and the sleeve seats 16 respectively to fixedly install the sleeve seats 16 and the messenger wire seats 26 on the wrist arm pipe, so that the aluminum wrist arm is machined.

The embodiment provides an equipment workstation is used in production of aluminium cantilever, realized depositing casing seat and messenger wire seat, to flat cantilever and the compressing tightly of oblique cantilever fixed to be convenient for flat cantilever, oblique cantilever and casing seat and messenger wire seat post assembling automatic screw up, solved among the prior art because of lack special accessory deposit, the problem of the automated production of aluminium cantilever can't be realized to the fixed and assembly device of cantilever pipe, thereby provide technical support for the automated production of aluminium cantilever.

Further, the assembly bench messenger wire seat storage rack 65 comprises an assembly bench messenger wire seat side plate I651 and an assembly bench messenger wire seat side plate II652 which are arranged at left and right intervals, and an assembly bench messenger wire seat support shaft 653 which is arranged between the assembly bench messenger wire seat side plate I651 and the assembly bench messenger wire seat side plate II652 at a front and rear interval, the upper end surfaces of the assembly bench messenger wire seat side plate I651 and the assembly bench messenger wire seat side plate II652 are respectively provided with an assembly bench messenger wire seat arc portion I6511 and an assembly bench messenger wire seat arc portion II6521, the assembly bench messenger wire seat arc portion I6511 and the assembly bench messenger wire seat arc portion II6521 are respectively matched with the inner hole of the messenger wire seat cross pipe portion 261 of the messenger wire seat 26, the front end surfaces of the assembly bench messenger wire seat side plate I651 and the assembly bench messenger wire seat side plate II652 are fixedly connected with the assembly bench messenger wire seat front plate, the upper end surface of the assembly bench messenger wire seat carrier seat side plate I651 is provided with the bearing wire seat arc portion 261 of the assembly bench messenger wire seat I652, the assembly bench messenger wire seat support shaft 653, and the assembly bench messenger wire seat support shaft 653 are respectively positioned on the assembly bench messenger wire seat side plate III.

In this embodiment, the assembly station messenger wire seat side plate I651 and the assembly station messenger wire seat side plate II652 limit the left and right positions of the messenger wire seat 26, the assembly station messenger wire seat support shaft 653 supports the messenger wire seat cross tube portion 261, and the assembly station messenger wire seat front plate supports the messenger wire seat upright tube portion 263 and plays a certain limiting role in the front and rear positions of the messenger wire seat 26.

Further, the height of the assembly station messenger wire seat side plate I651 is higher than the height of the assembly station messenger wire seat side plate II 652. When the planar cantilever is threaded through the messenger seat cross tube portion 261 from right to left, the assembly station messenger seat side plate I651 on the left side is better able to prevent the messenger seat 26 from moving to the left due to stress.

Further, an assembly table messenger wire seat moving cylinder 631 is installed on the assembly table base plate 62, the output end of the assembly table messenger wire seat moving cylinder 631 is fixedly connected with an assembly table messenger wire seat moving plate 633, an assembly table messenger wire seat storage rack 65 is installed on the assembly table messenger wire seat moving plate 633, the assembly table messenger wire seat moving cylinder 631 drives the assembly table messenger wire seat moving plate 633 to move left and right, and an assembly table guide device is arranged between the assembly table messenger wire seat moving plate 633 and the assembly table base plate 62.

Further, the assembly table guide device includes an assembly table guide rail 634 mounted on the upper end surface of the assembly table base plate 62 and an assembly table slider mounted on the lower end surface of the assembly table messenger wire seat moving plate 633.

Further, the output end of the assembly table messenger seat moving cylinder 631 is fixedly connected with the assembly table connecting plate 632, and the assembly table messenger seat moving plate 633 is fixedly connected with the assembly table connecting plate 632.

Further, the assembly platform cantilever pressing device I comprises an assembly platform cantilever pressing head cylinder I641 installed on the assembly platform messenger cable seat moving plate 633, an assembly platform cantilever pressing head I644 is installed at the upper end of an output shaft of the assembly platform cantilever pressing head cylinder I641, the assembly platform cantilever pressing head cylinder I641 drives the assembly platform cantilever pressing head I644 to move up and down and rotate around the axis of the output shaft of the assembly platform cantilever pressing head cylinder I641, and an inverted V-shaped groove is formed in the lower end face of the assembly platform cantilever pressing head I644.

Further, an assembly platform wrist arm pressure head connecting block I642 is mounted at the upper end of the output shaft of the assembly platform wrist arm pressure head air cylinder I641, the lower end of the assembly platform wrist arm pressure head connecting block I642 is fixedly connected with an assembly platform wrist arm pressure head upper pressure plate I643, and the assembly platform wrist arm pressure head I644 is mounted on the lower end surface of the assembly platform wrist arm pressure head upper pressure plate I643.

Further, equipment platform cantilever pressure holds device II including install in equipment platform cantilever pressure head cylinder II681 on equipment platform support body 61 upper end right side, equipment platform cantilever pressure head II684 is installed to the upper end of the output shaft of equipment platform cantilever pressure head cylinder II681, equipment platform cantilever pressure head II681 drive equipment platform cantilever pressure head II684 reciprocates and winds the axis of the output shaft of equipment platform cantilever pressure head cylinder II681 is rotatory, the lower terminal surface of equipment platform cantilever pressure head II684 is equipped with the V-arrangement groove, install equipment platform cantilever layer board 69 on the equipment platform support body 61, equipment platform cantilever layer board 69 is located the below of equipment platform cantilever pressure head II684, the upper end of equipment platform cantilever layer board 69 is equipped with the outer diameter assorted U-shaped groove with the cantilever.

Further, an assembly platform cantilever pressure head connecting block II682 is installed at the upper end of the output shaft of the assembly platform cantilever pressure head cylinder II681, the lower end of the assembly platform cantilever pressure head connecting block II682 is fixedly connected with an assembly platform cantilever pressure head upper press plate II683, and the assembly platform cantilever pressure head II684 is installed on the lower end face of the assembly platform cantilever pressure head upper press plate II 683.

Further, assembly platform sleeve seat storage rack tooling plate 621 is installed on the right side on assembly platform base plate 62, be provided with the equipment platform sleeve seat storage rack 67 of symmetry installation on the assembly platform sleeve seat storage rack tooling plate 621, assembly platform sleeve seat storage rack 67 includes assembly platform sleeve seat side plate I671 and assembly platform sleeve seat support side plate II672 that control the interval setting, locates between assembly platform sleeve seat side plate I671 and the assembly platform sleeve seat support side plate II672 and the assembly platform sleeve seat support shaft 673 that the interval set up before and after, the bottom and the assembly platform sleeve seat support bottom plate fixed connection of assembly platform sleeve seat support base plate of assembly platform sleeve seat support side plate I671 and assembly platform sleeve seat support side plate II672 are equipped with assembly platform sleeve seat circular arc portion I6711 and assembly platform sleeve seat support circular arc portion 6721 respectively, be equipped with on the assembly platform sleeve seat base plate and screw up the assorted sleeve seat bolt-tightening bolt-tight mounting on the assembly platform sleeve seat base plate, be equipped with the logical groove on the assembly platform sleeve seat base plate 62 the assembly platform sleeve seat base plate matches the assembly platform sleeve seat support base plate and the logical groove 62.

In this embodiment, after the sleeve holder 16 is placed on the assembly table sleeve holder storage rack 67, the sleeve I161 is erected between two assembly table sleeve holder support shafts 673 arranged in the front and rear direction on the assembly table sleeve holder storage rack 67 on the front side, and the sleeve II162 is erected between two assembly table sleeve holder support shafts 673 arranged in the front and rear direction on the assembly table sleeve holder storage rack 67 on the rear side. The assembly stage sleeve pedestal side plate I671 and the assembly stage sleeve pedestal side plate II672 limit the left and right positions of the sleeve pedestal 16. The arrangement of the through groove of the bottom plate of the casing seat frame, the through groove of the tooling plate of the assembly table and the through groove of the base plate of the assembly table facilitates the tightening device 80 to tighten the fastening bolt on the lower side of the casing seat 16 from the bottom.

Further, the height of the assembly table bushing seat side plate I671 is higher than that of the assembly table bushing seat side plate II 672. When the flat cantilever and the inclined cantilever are inserted into the casing I161 and the casing II162 from right to left, the casing holder side plate I671 of the assembly station on the left side can better prevent the casing holder 16 from moving to the left due to stress.

Further, the oblique cantilever pressure of equipment platform holds device including install in the oblique cantilever pressure head cylinder 661 of equipment platform on the equipment platform base plate 62, the oblique cantilever pressure head 663 of equipment platform is installed to the upper end of the output shaft of the oblique cantilever pressure head cylinder 661 of equipment platform, the oblique cantilever pressure head cylinder 661 of equipment platform drives the oblique cantilever pressure head 663 of equipment platform reciprocates and winds the axis of the output shaft of the oblique cantilever pressure head cylinder 661 of equipment platform rotates.

Further, an assembly platform inclined cantilever pressure head connecting block 662 is installed at the upper end of an output shaft of the assembly platform inclined cantilever pressure head cylinder 661, and the lower end of the assembly platform inclined cantilever pressure head connecting block 662 is fixedly connected with an assembly platform inclined cantilever pressure head 663.

It should be noted that the above detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise. Furthermore, it will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in other sequences than those illustrated or otherwise described herein.

Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements explicitly listed, but may include other steps or elements not explicitly listed or inherent to such process, method, article, or apparatus.

For ease of description, spatially relative terms such as "over … …", "over … …", "over … …", "over", etc. may be used herein to describe the spatial positional relationship of one device or feature to another device or feature as shown in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" may include both orientations of "above … …" and "below … …". The device may also be oriented in other different ways, such as by rotating it 90 degrees or at other orientations, and the spatially relative descriptors used herein interpreted accordingly.

In the foregoing detailed description, reference is made to the accompanying drawings, which form a part hereof. In the drawings, like numerals typically identify like components, unless context dictates otherwise. The illustrated embodiments described in the detailed description, drawings, and claims are not meant to be limiting. Other embodiments may be utilized, and other changes may be made, without departing from the spirit or scope of the subject matter presented here.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an aluminium cantilever production is with equipment workstation which characterized in that: including equipment table body (60), equipment table body (60) are including equipment table support body (61), be equipped with equipment table base plate (62) on equipment table support body (61), install equipment table messenger wire seat storage rack (65), equipment platform sleeve seat storage rack (67), equipment table platform cantilever pressure on equipment table base plate (62) and hold device I, equipment table platform cantilever pressure and hold device II and the oblique cantilever pressure of equipment table and hold the device, the position is adjustable about equipment table messenger wire seat storage rack (65), the equipment table platform cantilever pressure holds the device and the oblique cantilever pressure of equipment table holds the height-adjustable of device.

2. The assembly workbench for aluminum wrist arm production according to claim 1, wherein: the assembling table carrier cable seat storage rack (65) comprises an assembling table carrier cable seat side plate I (651) and an assembling table carrier cable seat side plate II (652) which are arranged at left and right intervals, and an assembling table carrier cable seat support shaft (653) which is arranged between the assembling table carrier cable seat side plate I (651) and the assembling table carrier cable seat side plate II (652) at a front and back interval, wherein the upper end surfaces of the assembling table carrier cable seat side plate I (651) and the assembling table carrier cable seat side plate II (652) are respectively provided with an assembling table carrier cable seat circular arc part I (6511) and an assembling table carrier cable seat circular arc part II (6521), the assembling table carrier cable seat circular arc part I (6511) and the assembling table carrier cable seat circular arc part II (6521) are matched with the inner hole of the carrier cable seat cross tube part (261) of the carrier cable seat (26), the front end faces of the assembling table carrier cable seat side plate I (651) and the assembling table carrier cable seat side plate II (652) are fixedly connected with the assembling table carrier cable seat front plate, the upper end face of the assembling table carrier cable seat front plate is provided with an assembling table carrier cable seat arc part III, a carrier cable seat (26) is placed on the assembling table carrier cable seat storage rack (65) and then is positioned between the assembling table carrier cable seat side plate I (651) and the assembling table carrier cable seat side plate II (652), and two sides of the bottom of a carrier cable seat transverse tube part 261 (261) of the carrier cable seat (26) are respectively lapped on the assembling table carrier cable seat support shafts (653), a bearing cable seat support shaft (653), and a bearing cable seat support shaft I and a bearing cable seat arc part II are respectively arranged on the assembling table carrier cable seat storage rack, the messenger wire seat vertical pipe part (263) is lapped on the assembling table messenger wire seat arc part III on the assembling table messenger wire seat front plate.

3. The assembly workbench for aluminum wrist arm production according to claim 2, wherein: the height of the assembling table messenger wire seat side plate I (651) is higher than that of the assembling table messenger wire seat side plate II (652).

4. The assembly workbench for aluminum wrist arm production according to claim 1, wherein: install assembly station messenger wire seat on assembly station base plate (62) and remove cylinder (631), the output and assembly station messenger wire seat movable plate (633) fixed connection of assembly station messenger wire seat shift cylinder (631), assembly station messenger wire seat storage rack (65) install in on the assembly station messenger wire seat movable plate (633), assembly station messenger wire seat shift cylinder (631) drive about assembly station messenger wire seat movable plate (633), assembly station messenger wire seat movable plate (633) with be equipped with assembly station guider between assembly station base plate (62).

5. The assembling workbench for aluminum wrist arm production according to claim 4, wherein: the equipment platform cantilever pressing device I comprises an equipment platform cantilever pressing head cylinder I (641) installed on an equipment platform messenger cable seat moving plate (633), an equipment platform cantilever pressing head I (644) is installed at the upper end of an output shaft of the equipment platform cantilever pressing head cylinder I (641), the equipment platform cantilever pressing head cylinder I (641) drives the equipment platform cantilever pressing head I (644) to move up and down and rotate around the axis of the output shaft of the equipment platform cantilever pressing head cylinder I (641), and an inverted V-shaped groove is formed in the lower end face of the equipment platform cantilever pressing head I (644).

6. The assembly workbench for aluminum wrist arm production according to claim 1, wherein: equipment platform cantilever pressure holds device II including install in equipment platform cantilever pressure head cylinder II (681) on equipment platform support body (61) upper end right side, equipment platform cantilever pressure head II (684) is installed to the upper end of the output shaft of equipment platform cantilever pressure head cylinder II (681), equipment platform cantilever pressure head cylinder II (681) drive equipment platform cantilever pressure head II (684) reciprocates and winds the axis of the output shaft of equipment platform cantilever pressure head cylinder II (681) is rotatory, the lower terminal surface of equipment platform cantilever pressure head II (684) is equipped with the V-arrangement groove that falls, install equipment platform cantilever layer board (69) on equipment platform support body (61), equipment platform cantilever layer board (69) are located the below of equipment platform cantilever pressure head II (684), the upper end of equipment platform cantilever layer board (69) is equipped with the outer diameter assorted U-shaped groove with the cantilever.

7. The assembly workbench for aluminum wrist arm production according to claim 1, wherein: the right side is installed on equipment platform base plate (62) and is equipped with equipment platform sleeve seat storage rack tooling plate (621), be provided with equipment platform sleeve seat storage rack (67) of symmetry installation on equipment platform sleeve seat storage rack tooling plate (621), equipment platform sleeve seat storage rack (67) including control equipment platform sleeve seat curb plate I (671) and equipment platform sleeve seat curb plate II (672) that the interval set up, locate between equipment platform sleeve seat curb plate I (671) and equipment platform sleeve seat curb plate II (672) and around the assembly platform sleeve seat support shaft (673) that the interval set up, the up end of equipment platform sleeve seat curb plate I (671) and equipment platform sleeve seat curb plate II (672) is equipped with equipment platform sleeve seat circular arc portion I (6711) and equipment platform sleeve seat circular arc portion II (6721) respectively, the bottom and the equipment platform sleeve seat bottom plate fixed connection of equipment platform sleeve seat curb plate I (671) and equipment platform sleeve seat rack circular arc portion II (672) are equipped with the equipment platform sleeve seat base plate and pass through groove 16 that the equipment platform sleeve seat base plate matches the groove of the equipment platform sleeve seat base plate and the equipment platform sleeve seat base plate matched with the groove bolt match the equipment platform sleeve seat base plate and pass through groove 62.

8. The assembly workbench for aluminum wrist arm production according to claim 7, wherein: the height of assembly station bushing mount side plate I (671) is higher than the height of assembly station bushing mount side plate II (672).

9. The assembly workbench for aluminum wrist arm production according to claim 1, wherein: the device is held to oblique cantilever of equipment platform pressure including install in the oblique cantilever pressure head cylinder (661) of equipment platform on equipment platform base plate (62), the oblique cantilever pressure head (663) of equipment platform is installed to the upper end of the output shaft of the oblique cantilever pressure head cylinder (661) of equipment platform, the drive of the oblique cantilever pressure head cylinder (661) of equipment platform the oblique cantilever pressure head (663) of equipment platform reciprocates and winds the axis of the output shaft of the oblique cantilever pressure head cylinder (661) of equipment platform is rotatory.

10. The assembly workbench for aluminum wrist arm production according to claim 9, wherein: an assembly platform inclined cantilever pressure head connecting block (662) is installed at the upper end of an output shaft of the assembly platform inclined cantilever pressure head cylinder (661), and the lower end of the assembly platform inclined cantilever pressure head connecting block (662) is fixedly connected with an assembly platform inclined cantilever pressure head (663).

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