CN220612918U - Automatic installation equipment for automobile tailstock - Google Patents

Abstract

The utility model discloses automatic mounting equipment for an automobile tailstock, which comprises a control cabinet, a feeding device, a positioning device, a screw gun assembly and a mechanical arm, wherein the control cabinet is arranged on the upper part of the control cabinet; the positioning device is arranged beside the feeding device and connected with the control cabinet; the screw gun assembly is arranged on the ground and is positioned beside the positioning device; the mechanical arm is arranged between the feeding device and the positioning device and is connected with the control cabinet, and the movable end of the mechanical arm moves back and forth among the feeding device, the positioning device and the screw gun assembly. When the automobile tail frame is assembled, only external equipment is needed to place the automobile tail frame on the positioning device, then the connecting piece in the feeding device is sent to the positioning device through the mechanical arm and matched with the automobile tail frame, then the connecting piece is fixedly installed on the automobile tail frame through the matching of the mechanical arm and the screw gun assembly, the whole automation degree is higher, no extra manual participation is needed, the labor cost is reduced, meanwhile, the assembly efficiency is greatly improved, and the processing requirement is met.

Description

Automatic installation equipment for automobile tailstock

Technical Field

The utility model relates to the technical field of automobile assembly and processing, in particular to automatic installation equipment for an automobile tailstock.

Background

With the continuous development of economy and the continuous improvement of living standard of people, daily travel of people becomes more convenient. Automobiles are very common transportation means in daily life, and play a very important role in cargo transportation and daily travel of people. For automobiles, the tailgate is one of the important components. Currently, common automotive tailgates include electric tailgates and manual tailgates. Wherein, the electric tail door refers to the trunk to be opened or closed in an electric or remote control mode; the manual tail door means that the trunk is opened or closed manually, and the tail doors in two opening modes are assembled by firstly assembling connecting pieces and then assembled on an automobile.

The existing automobile tail frame connecting frame and the automobile tail frame are mostly manually matched with external equipment in a semi-automatic machining process, the connecting piece and the automobile tail frame are required to be matched together manually and automatically, then the connecting piece and the automobile tail frame are fixedly installed together through an external installation mechanism, the degree of automation is low, higher labor cost is required, the assembly efficiency is low, and the machining requirement cannot be met; therefore, a new solution is needed to solve the above problems.

Disclosure of Invention

In view of the above, the present utility model aims at overcoming the drawbacks of the prior art, and its primary object is to provide an automatic installation device for a tail frame of an automobile, which can effectively solve the problems of low automation degree, high cost and low assembly efficiency in the existing installation process of the tail frame of the automobile.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

an automatic mounting device for an automobile tailstock comprises a control cabinet, a feeding device, a positioning device, a screw gun assembly and a mechanical arm; the control cabinet is arranged on the ground; the feeding device is arranged on the ground and connected with the control cabinet; the positioning device is arranged beside the feeding device and connected with the control cabinet; the screw gun assembly is arranged on the ground and is positioned beside the positioning device; the mechanical arm is arranged between the feeding device and the positioning device and is connected with the control cabinet, and the movable end of the mechanical arm moves back and forth among the feeding device, the positioning device and the screw gun assembly.

As a preferred scheme, still include a rail, switch board and rail fixed mounting are in the same place, screw rifle subassembly and arm all set up in the rail, and the opening that supplies the operator to pass in and out has been seted up to the rail, has still seted up two installation positions on the rail, loading attachment and positioner all set up in the installation position.

As a preferable scheme, the feeding device comprises a feeding frame, a feeding unit and a grabbing head; the feeding frame is arranged on the ground, the feeding units are arranged in an array, each feeding unit is obliquely arranged, the lower end of each feeding unit faces the direction of the mechanical arm, the grabbing head is arranged on the feeding frame, and the grabbing head is matched with the free end of the mechanical arm.

As a preferable scheme, the feeding unit comprises a mounting frame, a feeding groove, a fixing rod, a first material blocking head, a first feeding driving mechanism, a second material blocking head and a second feeding driving mechanism; the mounting frame is arranged on the upper material frame and is obliquely arranged; the feeding groove is arranged on the mounting frame and is also obliquely arranged; the fixed rod is arranged on the mounting frame and is positioned right above the feeding groove; the first material blocking head can be movably arranged on the fixed rod back and forth and downwards extend into the feeding groove, the first feeding driving mechanism is arranged on the fixed rod and drives the first material blocking head to move back and forth, and the first feeding driving mechanism is connected with the control cabinet; the second material blocking head can be movably arranged on the fixed rod back and forth and downwards extend into the feeding groove, the second material blocking head is positioned on the outer side of the first material blocking head, the second material blocking driving mechanism is arranged on the fixed rod and drives the second material blocking head to move back and forth, and the second material blocking driving mechanism is connected with the control cabinet.

As a preferable scheme, the feeding unit further comprises a blowing head which is arranged on the fixed rod and extends into the feeding groove inwards, the blowing head is positioned between the first material blocking head and the second material blocking head, and the blowing head is communicated with an external air pipe and connected with the control cabinet.

As a preferable scheme, the positioning device comprises a positioning frame, a mounting plate, a supporting rod, a pressing component and a feeding component; the positioning frame is arranged on the ground; the mounting plate is arranged on the positioning frame and is obliquely arranged; the support rods are arranged on the mounting plate, the upper ends of the support rods are provided with support parts matched with the automobile tail frames, and the support rods are arranged at intervals; the pressing component is arranged on the mounting plate and positioned on one side of the mounting plate, and is connected with the control cabinet; the feeding component is arranged on the locating frame and located beside the mounting plate, and is connected with the control cabinet.

As a preferable scheme, the material pressing assembly comprises a material pressing frame, a material pressing rod and a material pressing driving mechanism; the material pressing frame is arranged on the mounting plate; the material pressing rod is hinged with the material pressing frame; the pressing driving mechanism is arranged on the pressing frame and connected with one end of the pressing rod, the pressing driving mechanism drives the pressing rod to press the automobile tail frame, and the pressing driving mechanism is connected with the control cabinet.

As a preferable scheme, the feeding assembly comprises a movable seat, a first feeding driving mechanism, a pressing part and a second feeding driving mechanism; the movable seat can be movably arranged on the positioning frame back and forth towards the mounting plate, a positioning groove is formed in the movable seat, and a processing groove communicated with the positioning groove is formed in the movable seat; the first feeding driving mechanism is arranged on the positioning frame and drives the movable seat to move back and forth, and is connected with the control cabinet; the pressing part can be movably arranged on the movable seat back and forth and is positioned beside the positioning groove; the second feeding driving mechanism is arranged on the movable seat and drives the pressing part to move back and forth, and the second feeding driving mechanism is connected with the control cabinet.

As a preferred scheme, the screw gun assembly comprises a storage rack and a screw gun, wherein the storage rack is arranged on the ground; the screw gun is placed on the storage rack, a connecting part matched and connected with the free end of the mechanical arm is arranged on the screw gun, and the screw gun is connected with an external air pipeline.

As a preferable scheme, the mechanical arm comprises a base, a mechanical arm unit and a mounting head; the base is arranged on the ground; one end of the mechanical arm unit is fixedly arranged on the base, and the mechanical arm unit is connected with the control cabinet; the mounting head is arranged at the free end of the mechanical arm unit and driven by the mechanical arm unit to move back and forth.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, and in particular, the technical scheme can be as follows:

through being provided with loading attachment, positioner, screw rifle subassembly and arm for during the equipment, only need external equipment to place the automobile tailstock on positioner, then send the connecting piece in the loading attachment to positioner through the arm and cooperate with the automobile tailstock, then through the cooperation of arm and screw rifle subassembly with connecting piece fixed mounting on the automobile tailstock, whole degree of automation is higher, does not need extra manual participation, has reduced the cost of labor, and assembly efficiency also obtains great promotion simultaneously, makes it can satisfy higher processing demand.

In order to more clearly illustrate the structural features and efficacy of the present utility model, the present utility model will be described in detail below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic perspective view of a preferred embodiment of the present utility model;

FIG. 2 is a schematic perspective view of a loading device according to a preferred embodiment of the present utility model;

FIG. 3 is a schematic perspective view of a feeding unit according to a preferred embodiment of the present utility model;

FIG. 4 is an enlarged partial schematic view at A in FIG. 3;

FIG. 5 is a schematic perspective view of a robot arm according to a preferred embodiment of the present utility model;

FIG. 6 is a schematic perspective view of a screw gun assembly according to a preferred embodiment of the present utility model;

FIG. 7 is a schematic perspective view of a positioning device according to a preferred embodiment of the utility model

FIG. 8 is a schematic perspective view of a feeding assembly according to a preferred embodiment of the present utility model.

The attached drawings are used for identifying and describing:

10. control cabinet 20 and feeding device

21. Feeding frame 22 and feeding unit

221. Mounting frame 222 and feeding groove

223. Fixing rod 224, first material blocking head

225. First feeding driving mechanism 226 and second material blocking head

227. Second feeding driving mechanism 228 and blow head

23. Grabbing head 30 and positioning device

301. Positioning groove 302 and processing groove

31. Positioning frame 32, mounting plate

33. Support rod 331 and support portion

34. Material pressing assembly 341 and material pressing frame

342. Pressing rod 343 and pressing driving mechanism

35. Feeding assembly 351 and movable seat

352. First feeding driving mechanism 353 and pressing part

354. Second feed drive mechanism 40, screw gun assembly

41. Storage rack 42, screw gun

421. Connecting portion 50, mechanical arm

51. Base 52, mechanical arm unit

53. Mounting head 60, fence

601. Opening 602, mounting location.

Detailed Description

Referring to fig. 1 to 8, a specific structure of a preferred embodiment of the present utility model is shown, wherein the specific structure comprises a control cabinet 10, a feeding device 20, a positioning device 30, a screw gun assembly 40 and a mechanical arm 50.

The control cabinet 10 is disposed on the ground.

The feeding device 20 is arranged on the ground and connected with the control cabinet 10, and the feeding device 20 is used for realizing an automatic feeding process for the connecting piece; in this embodiment, the feeding device 20 includes a feeding frame 21, a feeding unit 22, and a grabbing head 23; the feeding frame 21 is arranged on the ground, the feeding units 22 are arranged in an array, each feeding unit 22 is obliquely arranged, so that the feeding process can be completed through gravity, the lower end of each feeding unit 22 faces the direction of the mechanical arm 50, the grabbing head 23 is arranged on the feeding frame 21, and the grabbing head 23 is matched with the free end of the mechanical arm 50, so that the mechanical arm 50 can grab up connecting pieces in the feeding units 22 through the matching with the grabbing head 23, and the subsequent assembly process is completed; the feeding unit 22 comprises a mounting frame 221, a feeding groove 222, a fixing rod 223, a first material blocking head 224, a first feeding driving mechanism 225, a second material blocking head 226 and a second feeding driving mechanism 227; the mounting frame 221 is disposed on the upper material frame 21, and the mounting frame 221 is disposed obliquely; the feeding groove 222 is arranged on the mounting frame 221, and the feeding groove 222 is also obliquely arranged, so that the connecting piece can feed along the feeding groove 222 under the action of gravity, and an additional driving mechanism is not needed to push, so that the structure is simpler; the fixed rod 223 is arranged on the mounting frame 221 and is positioned right above the feeding groove 222; the first material blocking head 224 can be movably arranged on the fixed rod 223 back and forth and downwards extend into the material feeding groove 222, the first material feeding driving mechanism 225 is arranged on the fixed rod 223 and drives the first material blocking head 224 to move back and forth, and the first material feeding driving mechanism 225 is connected with the control cabinet 10; the second material blocking head 226 can be movably arranged on the fixed rod 223 back and forth and extend downwards into the material feeding groove 222, the second material blocking head 226 is positioned at the outer side of the first material blocking head 224, the second material feeding driving mechanism 227 is arranged on the fixed rod 223 and drives the second material blocking head 226 to move back and forth, and the second material feeding driving mechanism 227 is connected with the control cabinet 10, so that only one connecting piece can be used for conveying the first material blocking head 224 outwards at a time in the material feeding process through the cooperation of the first material blocking head 224 and the second material blocking head 226; the feeding unit 22 further comprises a blowing head 228, the blowing head 228 is disposed on the fixing rod 223 and extends into the feeding groove 222, the blowing head 228 is located between the first blocking head 224 and the second blocking head 226, the blowing head 228 is communicated with an external air pipe and is connected with the control cabinet 10, and the blowing head 228 is used for blowing out a connecting piece between the first blocking head 224 and the second blocking head 226 backwards, so that the connecting piece is prevented from being blocked between the first blocking head 224 and the second blocking head 226 to affect the whole feeding process.

The positioning device 30 is arranged beside the feeding device 20 and connected with the control cabinet 10, and the positioning device 30 is used for positioning the automobile tail frame; in this embodiment, the positioning device 30 includes a positioning frame 31, a mounting plate 32, a support rod 33, a pressing component 34, and a feeding component 35; the positioning frame 31 is arranged on the ground; the mounting plate 32 is arranged on the positioning frame 31, and the mounting plate 32 is obliquely arranged; the supporting rod 33 is arranged on the mounting plate 32, the upper end of the supporting rod 33 is provided with a supporting part 331 matched with the automobile tail frame, and the supporting rods 33 are arranged at intervals; the material pressing assembly 34 is arranged on the mounting plate 32 and positioned on one side of the mounting plate 32, and the material pressing assembly 34 is connected with the control cabinet 10; the feeding component 35 is arranged on the positioning frame 31 and is positioned beside the mounting plate 32, and the feeding component 35 is connected with the control cabinet 10; the pressing assembly 34 includes a pressing frame 341, a pressing rod 342, and a pressing driving mechanism 343; the material pressing frame 341 is arranged on the mounting plate 32; the material pressing rod 342 is hinged with the material pressing frame 341; the pressing driving mechanism 343 is disposed on the pressing frame 341 and connected to one end of the pressing rod 342, the pressing driving mechanism 343 drives the pressing rod 342 to press the automobile tail frame, and the pressing driving mechanism 343 is connected to the control cabinet 10.

The feeding assembly 35 comprises a movable seat 351, a first feeding driving mechanism 352, a pressing part 353 and a second feeding driving mechanism 354; the movable seat 351 can be movably arranged on the positioning frame 31 back and forth towards the mounting plate 32, the movable seat 351 is provided with a positioning groove 301, the movable seat 351 is also provided with a processing groove 302 communicated with the positioning groove 301, the positioning groove 301 is used for placing a connecting piece, the processing groove 302 is used for enabling a working head of the screw gun assembly 40 to extend into the positioning groove 301 through the processing groove 302 and fixedly assembling the connecting piece in the positioning groove 301 on the automobile tail frame; the first feeding driving mechanism 352 is arranged on the positioning frame 31 and drives the movable seat 351 to move back and forth, and the first feeding driving mechanism 352 is connected with the control cabinet 10; the pressing part 353 can be movably arranged on the movable seat 351 back and forth and is positioned beside the positioning groove 301; the second feeding driving mechanism 354 is arranged on the movable seat 351 and drives the pressing part 353 to move back and forth, the second feeding driving mechanism 354 is connected with the control cabinet 10, and the pressing part 353 is used for pressing and positioning the connecting piece in the positioning groove 301.

The screw gun assembly 40 is disposed on the ground and beside the positioning device 30; in this embodiment, the screw gun assembly 40 includes a storage rack 41 and a screw gun 42, and the storage rack 41 is disposed on the ground; the screw gun 42 is placed on the storage rack 41, a connecting part 421 which is matched and connected with the free end of the mechanical arm 50 is arranged on the screw gun 42, and the screw gun 42 is connected with an external air pipeline.

The mechanical arm 50 is arranged between the feeding device 20 and the positioning device 30 and is connected with the control cabinet 10, and the movable end of the mechanical arm 50 moves back and forth among the feeding device 20, the positioning device 30 and the screw gun assembly 40; in this embodiment, the mechanical arm 50 includes a base 51, a mechanical arm unit 52, and a mounting head 53; the base 51 is disposed on the ground; one end of the mechanical arm unit 52 is fixedly arranged on the base 51, and the mechanical arm unit 52 is connected with the control cabinet 10; the mounting head 53 is disposed at a free end of the arm unit 52 and is driven by the arm unit 52 to move back and forth.

Still including a rail 60, switch board 10 and rail 60 fixed mounting are in the same place, screw rifle subassembly 40 and arm 50 all set up in rail 60, and opening 601 that supplies the operator to get in and out is offered to rail 60, has still offered two installation positions 602 on the rail 60, loading attachment 20 and positioner 30 all set up in installation position 602.

The working principle of the embodiment is described in detail as follows:

during operation, the feeding is completed in the feeding device 20 by manpower, the connecting pieces are sequentially placed in the feeding groove 222, then the automobile tail frame is placed in the positioning device 20 by external equipment, the automobile tail frame is pressed by the pressing component 34, the connecting pieces in the feeding device 20 are matched with the second retaining head 226 through the first retaining head 224, the lowest connecting piece is sent out of the first retaining head 224, then the mechanical arm 50 is matched with the grabbing head 23 in the feeding device 20, the connecting pieces in the feeding groove 222 are taken out by the grabbing head 23 and placed in the positioning groove 301, then the connecting pieces in the positioning groove 301 are pressed and positioned by the pressing component 353, then the grabbing head 23 is taken down by the mechanical arm 50, then the connecting pieces are matched with the connecting component 421 of the screw gun 42 in the screw gun component 40, the working head of the screw gun 42 is stretched into the positioning groove 301 by the processing groove 302, the connecting pieces in the positioning groove 301 are fixedly mounted, and after the assembly is completed, the automobile tail frame is taken down.

The design focus of the utility model is that: through being provided with loading attachment, positioner, screw rifle subassembly and arm for during the equipment, only need external equipment to place the automobile tailstock on positioner, then send the connecting piece in the loading attachment to positioner through the arm and cooperate with the automobile tailstock, then through the cooperation of arm and screw rifle subassembly with connecting piece fixed mounting on the automobile tailstock, whole degree of automation is higher, does not need extra manual participation, has reduced the cost of labor, and assembly efficiency also obtains great promotion simultaneously, makes it can satisfy higher processing demand.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model are still within the scope of the technical solutions of the present utility model.

Claims (10)

1. An automatic installation equipment of car tailstock, its characterized in that: comprises a control cabinet, a feeding device, a positioning device, a screw gun assembly and a mechanical arm; the control cabinet is arranged on the ground; the feeding device is arranged on the ground and connected with the control cabinet; the positioning device is arranged beside the feeding device and connected with the control cabinet; the screw gun assembly is arranged on the ground and is positioned beside the positioning device; the mechanical arm is arranged between the feeding device and the positioning device and is connected with the control cabinet, and the movable end of the mechanical arm moves back and forth among the feeding device, the positioning device and the screw gun assembly.

2. The automatic automobile tailstock mounting apparatus according to claim 1, wherein: still including a rail, switch board and rail fixed mounting are in the same place, screw rifle subassembly and arm all set up in the rail, and the opening that supplies the operator to pass in and out has been seted up to the rail, has still seted up two installation positions on the rail, loading attachment and positioner all set up in the installation position.

3. The automatic automobile tailstock mounting apparatus according to claim 1, wherein: the feeding device comprises a feeding frame, a feeding unit and a grabbing head; the feeding frame is arranged on the ground, the feeding units are arranged in an array, each feeding unit is obliquely arranged, the lower end of each feeding unit faces the direction of the mechanical arm, the grabbing head is arranged on the feeding frame, and the grabbing head is matched with the free end of the mechanical arm.

4. An automotive tailstock automatic installation apparatus according to claim 3, wherein: the feeding unit comprises a mounting frame, a feeding groove, a fixing rod, a first material blocking head, a first feeding driving mechanism, a second material blocking head and a second feeding driving mechanism; the mounting frame is arranged on the upper material frame and is obliquely arranged; the feeding groove is arranged on the mounting frame and is also obliquely arranged; the fixed rod is arranged on the mounting frame and is positioned right above the feeding groove; the first material blocking head can be movably arranged on the fixed rod back and forth and downwards extend into the feeding groove, the first feeding driving mechanism is arranged on the fixed rod and drives the first material blocking head to move back and forth, and the first feeding driving mechanism is connected with the control cabinet; the second material blocking head can be movably arranged on the fixed rod back and forth and downwards extend into the feeding groove, the second material blocking head is positioned on the outer side of the first material blocking head, the second material blocking driving mechanism is arranged on the fixed rod and drives the second material blocking head to move back and forth, and the second material blocking driving mechanism is connected with the control cabinet.

5. The automatic automobile tailstock mounting apparatus according to claim 4, wherein: the feeding unit further comprises a blowing head which is arranged on the fixed rod and extends into the feeding groove inwards, the blowing head is located between the first material blocking head and the second material blocking head, and the blowing head is communicated with an external air pipe and connected with the control cabinet.

6. The automatic automobile tailstock mounting apparatus according to claim 1, wherein: the positioning device comprises a positioning frame, a mounting plate, a supporting rod, a pressing component and a feeding component; the positioning frame is arranged on the ground; the mounting plate is arranged on the positioning frame and is obliquely arranged; the support rods are arranged on the mounting plate, the upper ends of the support rods are provided with support parts matched with the automobile tail frames, and the support rods are arranged at intervals; the pressing component is arranged on the mounting plate and positioned on one side of the mounting plate, and is connected with the control cabinet; the feeding component is arranged on the locating frame and located beside the mounting plate, and is connected with the control cabinet.

7. The automatic automobile tailstock mounting apparatus according to claim 6, wherein: the material pressing assembly comprises a material pressing frame, a material pressing rod and a material pressing driving mechanism; the material pressing frame is arranged on the mounting plate; the material pressing rod is hinged with the material pressing frame; the pressing driving mechanism is arranged on the pressing frame and connected with one end of the pressing rod, the pressing driving mechanism drives the pressing rod to press the automobile tail frame, and the pressing driving mechanism is connected with the control cabinet.

8. The automatic automobile tailstock mounting apparatus according to claim 6, wherein: the feeding assembly comprises a movable seat, a first feeding driving mechanism, a pressing part and a second feeding driving mechanism; the movable seat can be movably arranged on the positioning frame back and forth towards the mounting plate, a positioning groove is formed in the movable seat, and a processing groove communicated with the positioning groove is formed in the movable seat; the first feeding driving mechanism is arranged on the positioning frame and drives the movable seat to move back and forth, and is connected with the control cabinet; the pressing part can be movably arranged on the movable seat back and forth and is positioned beside the positioning groove; the second feeding driving mechanism is arranged on the movable seat and drives the pressing part to move back and forth, and the second feeding driving mechanism is connected with the control cabinet.

9. The automatic automobile tailstock mounting apparatus according to claim 1, wherein: the screw gun assembly comprises a storage rack and a screw gun, wherein the storage rack is arranged on the ground; the screw gun is placed on the storage rack, a connecting part matched and connected with the free end of the mechanical arm is arranged on the screw gun, and the screw gun is connected with an external air pipeline.

10. The automatic automobile tailstock mounting apparatus according to claim 1, wherein: the mechanical arm comprises a base, a mechanical arm unit and a mounting head; the base is arranged on the ground; one end of the mechanical arm unit is fixedly arranged on the base, and the mechanical arm unit is connected with the control cabinet; the mounting head is arranged at the free end of the mechanical arm unit and driven by the mechanical arm unit to move back and forth.