CN212635078U - Penetrating type tail lamp outer framework processing equipment - Google Patents

Abstract

The utility model discloses a penetrating type tail lamp outer framework processing device, which comprises an assembly cabinet body, wherein the top surface of the assembly cabinet body is provided with a tail lamp mounting seat fixing position and a screw machine mounting position, the top of the assembly cabinet body is also provided with a robot mounting rack, and the robot mounting rack is provided with a robot fixing plate; the tail lamp mounting seat fixing position is provided with a machining clamp which comprises a fixing bottom plate, the fixing bottom plate comprises a mounting top surface and a fixing bottom surface, a lamp holder clamp combination and a pressing device combination are mounted on the mounting top surface, the lamp holder clamp combination comprises two end mounting seats and a middle supporting seat, the two end mounting seats are symmetrically arranged, and the middle supporting seat is arranged between the two end mounting seats; the assembly cabinet body is at least internally provided with a control chamber and an oil-water filter installation control chamber; based on the intelligent and mechanical processing mode proposed in recent years, the processing is more stable and accurate, the efficiency is higher and the cost is lower in the processing penetration type tail lamp.

Description

Penetrating type tail lamp outer framework processing equipment

Technical Field

The utility model relates to the technical field of auto-parts, what especially relate to is a through type tail lamp exoskeleton processing equipment.

Background

As the automobile is more and more popularized in daily life of people to provide convenience for people, the automobile has become a household necessity; along with the popularization of automobiles, the total amount of automobiles rises, the urban road expansion and even the optimization of automobile parts are also in synchronous upgrade aiming at the automobile traffic safety, and the safety of individuals is protected while the high efficiency traffic brought by the automobiles is ensured undoubtedly; among them, from the development trend of automobiles of various brands (even automobile brands at home and abroad), the through tail lamp in the automobile design is more and more common, and seems to become an aesthetic trend, and is increasingly popular, and the through tail lamp not only brings aesthetic feeling, but also brings safety to drivers and passengers; compared with the traditional single-point tail lamp, the penetration type tail lamp is safer under the popularization of the LED light source, the light of the penetration type tail lamp can provide enough warning for a rear vehicle, and the rear-end collision traffic accident can be avoided at a high probability.

In the production of the through type tail lamp, the screw assembly of the outer framework and the lamp shell is manual assembly, the production amount is large based on automobile parts, the manual assembly is not only low in efficiency, but also low in assembly precision, and defective products are easy to occur.

The defect of the prior art lacks a processing frock of the exoskeleton of through type tail lamp, is convenient for fix the screw assembly of through type tail lamp.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a through type tail lamp exoskeleton processing equipment can be convenient for fix the screw assembly of through type tail lamp.

The technical scheme is as follows:

the utility model provides a run through formula tail lamp exoskeleton processing equipment, its key lies in, including the assembly cabinet body, this assembly cabinet body top surface is provided with tail lamp mount pad fixed position and M screw machine installation position assembly cabinet body top still is provided with the robot mounting bracket, and this robot mounting bracket is provided with M robot fixing plate.

The tail lamp mount pad fixed position is installed and is processed anchor clamps, and this processing anchor clamps include PMKD, and this PMKD is including installation top surface and fixed bottom surface, install lighting fixture combination and closing device combination on the installation top surface, lighting fixture combination includes two tip mount pads and middle part supporting seat, two the tip mount pad symmetry sets up, wherein, middle part supporting seat sets up two between the tip mount pad.

The pressing device combination comprises two end pressing devices, the two end pressing devices are correspondingly arranged on the periphery of the two end mounting seats one by one, and the pressing ends of the end pressing devices are positioned above the end mounting seats; the assembly cabinet body is at least internally provided with a control chamber and an oil-water filter installation control chamber.

Adopt above-mentioned design, to running through formula tail lamp, design out the processing frock to current intelligent design, installed the robot mounting bracket, and with the installation of later stage robot, improve the screw assembly efficiency of running through formula tail lamp, reduce the cost of labor. And aiming at the processing equipment needed by processing, a control chamber and an oil-water filter installation control chamber are designed for installing the control equipment and the oil-water filter.

Further, the end portion mounting seat comprises a mounting seat body, the mounting seat body comprises a first side face and a third side face along the length direction, a second side face and a fourth side face along the width direction, a top face and a bottom face along the height direction, a clamping arc-shaped groove is formed in the top face of the mounting seat body, the clamping arc-shaped groove penetrates out of the first side face of the mounting seat body along the length direction of the mounting seat body, and a notch close to the first side face in the clamping arc-shaped groove is lower than a notch close to the third side face in the clamping arc-shaped groove.

An arc-shaped bearing block extends out of the bottom of the clamping arc-shaped groove along the arc-shaped circle center direction of the clamping arc-shaped groove, and the clamping arc-shaped groove is divided into a first mounting groove and a second mounting groove by the arc-shaped bearing block.

And a lamp holder limiting block is extended from the top surface of the arc-shaped bearing block along the arc-shaped circle center direction of the clamping arc-shaped groove and is close to the first side surface of the mounting seat body.

And a support groove is formed in the top of the middle support seat, and the extending direction of the support groove is consistent with the extending direction of the clamping arc-shaped groove.

And the pressing end of the end pressing device is positioned above the notch of the clamping arc-shaped groove.

By adopting the scheme, the penetrating type tail lamp outer framework is fixed through the symmetrically arranged end mounting seats at two sides and the middle supporting seat, wherein the end mounting seats and the middle supporting seat are respectively provided with the clamping arc-shaped groove and the supporting groove correspondingly according to the shape of the lampshade at the outer side of the penetrating type tail lamp outer framework, and the lampshade at the outer side of the penetrating type tail lamp outer framework is attached, so that the penetrating type tail lamp outer framework is more stably fixed, and the displacement condition occurs in the processing process; and the vertical direction pressing force of the penetrating type tail lamp outer framework is applied by combining the end pressing device, so that the penetrating type tail lamp outer framework is more firmly fixed.

Still further, the lamp holder fixture assembly further includes a first auxiliary support seat and a second auxiliary support seat, the first auxiliary support seat and the second auxiliary support seat are installed on two sides of the middle support seat in an axisymmetric manner, and the first auxiliary support seat and the second auxiliary support seat are located between the two end installation seats and on a straight line where the end installation seats and the middle support seat are located.

First auxiliary supporting seat includes first lateral wall, second lateral wall, third lateral wall and fourth lateral wall, the second auxiliary supporting seat includes first lateral wall, second lateral wall, third lateral wall and fourth lateral wall, the top of first auxiliary supporting seat and second auxiliary supporting seat is followed the joint arc wall direction has all been seted up the auxiliary stay groove, the auxiliary stay groove of first auxiliary supporting seat runs through the first lateral wall face and the second lateral wall of first auxiliary supporting seat, the auxiliary stay groove of second auxiliary supporting seat runs through the first lateral wall and the second lateral wall of second auxiliary supporting seat.

The pressing device combination further comprises a first auxiliary pressing device and a second auxiliary pressing device, and the first auxiliary pressing device and the second auxiliary pressing device are correspondingly arranged on the periphery of the first auxiliary supporting seat and the second auxiliary supporting seat one by one; the pressing end of each auxiliary pressing device is located above the auxiliary supporting notch.

By adopting the scheme, the two additionally arranged auxiliary supporting seats increase bearing stress points in the fixed through type tail lamp outer framework, so that the fixed through type tail lamp outer framework is better fixed, and the fixed through type tail lamp outer framework is prevented from deforming in the machining process

Still further, the bottom surface of the mounting seat body is connected to the top surface of the height adjusting table, the bottom surface of the height adjusting table is connected to the mounting surface of the fixed base plate through a height adjusting rod set, and the height adjusting rod set at least includes three height adjusting rods.

By adopting the scheme, the height of the end mounting seat is adjusted through the height adjusting platform, so that the end mounting seat is suitable for the penetrating type tail lamp outer framework with different end heights.

Further, at least two fixture fixing through holes are formed in the mounting surface of the fixing base plate, and fixture fixing bolts are mounted in the fixture fixing through holes.

By adopting the scheme, the fixed bottom plate is fixed on the top surface of the assembly cabinet body of the processing tool through the fixture fixing through hole.

Still further, an illumination mounting plate is arranged on the top of the robot mounting frame along the length direction, and an illumination lamp is fixed on one side of the illumination mounting plate facing the assembling cabinet body.

Adopt above-mentioned scheme, light and tail lamp mount pad fixed plate all set up along assembly cabinet body length direction, and then the tail lamp in the processing that the light can be clear shines. The visual sensor of staff and robot discernment, resolution of being convenient for. In order to improve the illumination effect, one side of the illumination mounting plate facing the assembly cabinet body is a mirror surface.

Further describing, the whole frame of the assembly cabinet body is rectangular, the frame in the height direction is made of square steel tube materials, and after the square steel tubes extend upwards and are connected with the mounting rack in the length direction and the width direction at the top, the robot mounting rack is formed.

The top of any square steel pipe is provided with a connecting rod for connecting a display, and the connecting line of the display extends to the control chamber through the connecting rod and the square steel pipe.

By adopting the scheme, the whole frame of the assembly cabinet body is in a cuboid shape, the frame in the height direction is made of square steel tube materials, and after the square steel tubes extend upwards, the top of the square steel tubes is connected with the mounting rack in the length direction and the width direction to form the robot mounting rack; the top of any square steel pipe is provided with a connecting rod for connecting a display, and the connecting line of the display extends to the control chamber through the connecting rod and the square steel pipe.

The frame of the assembly cabinet body is integrally rectangular, the frame in the height direction is made of square steel tube materials, and the rest bottom plates, the side wall cabinet body and the cabinet door are made of stainless steel panels.

The square steel pipe is combined, so that the effect of building a frame is achieved, and the hollow structure inside the square steel pipe is utilized for pipe arrangement and wiring, so that pipelines are protected.

Still further, the oil-water filter installation control chamber is arranged near any one square steel pipe and used for installing an oil-water filter, and a power transmission pipeline of the oil-water filter extends to the robot installation frame through the adjacent square steel pipe.

By adopting the scheme, because the oil-water filter installation control cavity is used for installing the oil-water filter, a large amount of oil inlet and oil outlet pipelines are needed during oil-water filtration, the oil-water filter installation control cavity is close to the square steel pipe, and the space inside the steel pipe can be utilized for pipe distribution and wiring.

Further, M controller mounting locations and a wiring board are arranged in the control chamber, and the wiring board is detachably mounted at the bottom of the control chamber.

Still further, a cabinet support is arranged at the bottom of the assembly cabinet.

The utility model has the advantages that: the through type tail lamp outer framework is firmly fixed on the through type tail lamp outer framework clamp through the lamp holder clamp combination and the pressing device combination, wherein the end mounting seat and the middle supporting seat are respectively provided with a clamping arc-shaped groove and a supporting groove corresponding to the shape of the through type tail lamp outer framework outer side lampshade, the through type tail lamp outer framework outer side lampshade is attached, the through type tail lamp outer framework is fixed more stably, and the displacement condition occurs in the machining process; the end pressing device is combined to press the vertical direction of the outer framework of the penetrating tail lamp, so that the outer framework of the penetrating tail lamp is more firmly fixed; the size of a processing platform required in the processing of the existing penetrating tail lamp is met, and the installation space and the installation position of the robot are designed based on the intelligent and mechanical processing mode proposed in recent years. In addition, the problem that pipelines needing the oil-water filter are multiple is considered, the oil-water filter installation control chamber is arranged close to the square steel pipe, and reasonable planning is carried out on the subsequent installation pipelines; two auxiliary stay seats that add increase bearing stress point in fixed through type tail lamp outer frame, not only let fixed through type tail lamp outer frame better fixed, still avoid fixed through type tail lamp outer frame to take place deformation in the course of working.

Drawings

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

fig. 2 is a schematic view of the overall structure of the present invention;

fig. 3 is a schematic diagram of the overall structure of the present invention;

FIG. 4 is a structural view of the machining jig of the present invention;

fig. 5 is a first assembly structure diagram of the machining fixture and the penetrating type tail lamp of the present invention;

fig. 6 is a second assembly structure diagram of the processing fixture and the penetrating type tail lamp of the present invention;

fig. 7 is a first structural view of the end mount of the present invention;

fig. 8 is a second structural view of the end mounting seat of the present invention;

FIG. 9 is a first view of the auxiliary support seat and the middle support seat of the present invention;

fig. 10 is a second structural view of the auxiliary support seat and the middle support seat of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and the following detailed description.

It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

In the present embodiment:

as can be seen from fig. 1-4, a penetrating type tail lamp exoskeleton processing device comprises an assembly cabinet body D1, wherein a tail lamp mounting seat fixing position D2 and M screw machine mounting positions D3 are arranged on the top surface of the assembly cabinet body D1, a robot mounting frame D4 is further arranged on the top of the assembly cabinet body D1, and M robot fixing plates D5 are arranged on the robot mounting frame D4.

In this embodiment, it can be seen that M is 3 in conjunction with fig. 1.

As can be seen in fig. 1 to 4, 1 robot arm is respectively disposed on the 3 robot fixing plates D5; 3 feeding screw machines are arranged on the 3 screw machine mounting positions D3.

The tail lamp mounting seat fixing position D2 is provided with a machining clamp, the machining clamp comprises a fixing base plate 1, the fixing base plate 1 comprises a mounting top surface and a fixing bottom surface, a lamp holder clamp combination 2 and a pressing device combination 3 are mounted on the mounting top surface, the lamp holder clamp combination 2 comprises two end mounting seats 21 and a middle supporting seat 22, the two end mounting seats 21 are symmetrically arranged, and the middle supporting seat 22 is arranged between the two end mounting seats 21;

the pressing device assembly 3 comprises two end pressing devices 31, the two end pressing devices 31 are correspondingly arranged around the two end mounting bases 21, and the pressing ends of the end pressing devices 31 are located above the end mounting bases 21.

At least a control chamber D6 and an oil-water filter installation control chamber D7 are arranged in the assembly cabinet body D1.

As can be seen from fig. 4-6, end mount 21 includes mount body a, and this mount body a includes first side and third side along length direction, second side and fourth side along width direction, top surface and bottom surface along direction of height, and joint arc wall a1 has been seted up to mount body a's top surface, and this joint arc wall a1 wears out mount body a's first side along mount body a's length direction, and the notch that is close to first side in joint arc wall a1 is lower than the notch that is close to the third side in joint arc wall a 1.

An arc-shaped bearing block A2 extends out of the bottom of the clamping arc-shaped groove A1 along the arc-shaped circle center direction of the clamping arc-shaped groove A1, and the clamping arc-shaped groove A1 is divided into a first mounting groove B1 and a second mounting groove B2 by the arc-shaped bearing block A2.

A lamp holder limiting block A3 extends from the top surface of the arc-shaped bearing block A2 along the arc-shaped circle center direction of the clamping arc-shaped groove A1, and the lamp holder limiting block A3 is close to the first side surface of the mounting seat body A.

The top of the middle supporting seat 22 is provided with a supporting groove, and the extending direction of the supporting groove is consistent with the extending direction of the clamping arc-shaped groove A1; the pressing end of the end presser 31 is located above the notch of the catching arc-shaped groove a 1.

As can be seen from fig. 9 and 10, the lamp holder fixture assembly 2 further includes a first auxiliary support base 23 and a second auxiliary support base 24, the first auxiliary support base 23 and the second auxiliary support base 24 are axisymmetrically installed at two sides of the middle support base 22, and the first auxiliary support base 23 and the second auxiliary support base 24 are located between the two end portion installation bases 21 and on a straight line where the end portion installation base 21 and the middle support base 22 are located.

First auxiliary supporting seat 23 includes first lateral wall, the second lateral wall, the third lateral wall and fourth lateral wall, second auxiliary supporting seat 24 includes first lateral wall, the second lateral wall, third lateral wall and fourth lateral wall, auxiliary stay groove has all been seted up along joint arc wall A1 direction at the top of first auxiliary supporting seat 23 and second auxiliary supporting seat 24, the auxiliary stay groove of first auxiliary supporting seat 23 runs through the first lateral wall face and the second lateral wall of first auxiliary supporting seat 23, the auxiliary stay groove of second auxiliary supporting seat 24 runs through the first lateral wall and the second lateral wall of second auxiliary supporting seat 24.

The pressing device assembly 3 further comprises a first auxiliary pressing device 32 and a second auxiliary pressing device 33, wherein the first auxiliary pressing device 32 and the second auxiliary pressing device 33 are correspondingly arranged around the first auxiliary supporting seat 23 and the second auxiliary supporting seat 24 one by one; the pressing end of each auxiliary presser 32 is located above the auxiliary support notch.

As can be seen from fig. 4, the bottom surface of the mount body a is connected to the top surface of the height adjusting stage 6, the bottom surface of the height adjusting stage 6 is connected to the mounting surface of the fixed base plate 1 via a height adjusting bar set, and the height adjusting bar set includes four height adjusting bars 61.

As shown in fig. 4, two jig fixing through holes 4 are formed in the mounting surface of the fixing base plate 1, and jig fixing bolts 41 are installed in the jig fixing through holes 4.

As can be seen from fig. 4-6, two extraction handles 5 are provided on the mounting surface of the fixed base plate 1.

As can be seen from fig. 9 to 10, a clamping block mounting groove is formed in the second side surface or the fourth side surface of the mounting seat body a along the width direction of the mounting seat body a, and the clamping block mounting groove is communicated with the first mounting groove B1; the bottom of the clamping block mounting groove close to the bottom surface of the mounting seat body A is provided with a clamping mounting hole, the clamping block mounting groove is provided with a clamping block, and the clamping block can be fixed in the clamping block mounting groove through a bolt.

As can be seen from fig. 9-10, the bottom of the first side of the mounting seat body a extends out of the first mounting block a4 along the length direction of the mounting seat body a.

The bottom of the third side surface of the mounting seat body A extends out of a second mounting block A5 along the length direction of the mounting seat body A.

Two installation screw thread through-holes have been seted up to first installation piece A4's top surface, and two installation screw thread through-holes have been seted up to second installation piece A5's top surface, and this installation screw thread through-hole is oval through-hole, and end portion mount pad 21 passes through installation screw thread through-hole on first installation piece A4, the second installation piece A5 and highly adjusts platform 6 through bolt fixed connection.

As can be seen from fig. 7 and 8, the top of the groove wall of the first mounting groove B1 near the second side surface is chamfered; and a lamp holder clamping step is arranged on the groove wall of the second mounting groove B2 along the length direction of the mounting seat body A.

The groove edge of the clamping arc-shaped groove A1, the edge of the arc-shaped bearing block A2 and the edge of the lamp holder limiting block A3 are all subjected to fillet treatment; the groove bottom edges of the first mounting groove B1 and the second mounting groove B2 are rounded.

As can be seen from fig. 1 to 3, a lighting mounting plate D8 is provided at the top of the robot mounting frame D4 along the length direction, and a lighting lamp D9 is fixed to the side of the lighting mounting plate D8 facing the mounting cabinet D1.

As can be seen from fig. 1 to 3, the frame of the assembly cabinet D1 is a rectangular parallelepiped, the frame in the height direction is made of square steel tube, and after the square steel tube extends upwards and the top is connected with the mounting frames in the length and width directions, the robot mounting frame D4 is formed.

The top of any one square steel tube is provided with a connecting rod D10 for connecting a display, and a connecting circuit of the display extends to the control chamber D6 through the connecting rod D10 and the square steel tube; in this embodiment, the connecting bar D10 is connected to a liquid crystal display.

As can be seen from fig. 1 to 3, the profit filter installation control chamber D7 is provided near any one of the square steel pipes, and in this embodiment, the profit filter installation control chamber D7 is provided with a profit filter, and the power transmission line of the profit filter extends to the robot mounting frame D4 through the adjacent square steel pipe.

As can be seen from fig. 1 to 3, M controller mounting sites and a wiring board detachably mounted on the bottom of the control chamber D6 are provided in the control chamber D6.

As can be seen from FIGS. 1-3, a cabinet support D11 is provided at the bottom of the assembly cabinet D1.

Claims (10)

1. The penetrating type tail lamp exoskeleton processing equipment is characterized by comprising an assembly cabinet body (D1), wherein a tail lamp mounting seat fixing position (D2) and M screw machine mounting positions (D3) are arranged on the top surface of the assembly cabinet body (D1), a robot mounting rack (D4) is further arranged at the top of the assembly cabinet body (D1), and M robot fixing plates (D5) are arranged on the robot mounting rack (D4);

the tail lamp mounting seat fixing position (D2) is provided with a machining clamp, the machining clamp comprises a fixing base plate (1), the fixing base plate (1) comprises a mounting top surface and a fixing bottom surface, a lamp holder clamp combination (2) and a pressing device combination (3) are mounted on the mounting top surface, the lamp holder clamp combination (2) comprises two end mounting seats (21) and a middle supporting seat (22), the two end mounting seats (21) are symmetrically arranged, and the middle supporting seat (22) is arranged between the two end mounting seats (21);

the pressing device combination (3) comprises two end pressing devices (31), the two end pressing devices (31) are correspondingly arranged on the periphery of the two end mounting seats (21) one by one, and the pressing ends of the end pressing devices (31) are positioned above the end mounting seats (21);

at least a control chamber (D6) and an oil-water filter installation control chamber (D7) are arranged in the assembly cabinet body (D1).

2. The penetrating tail lamp exoskeleton processing equipment as claimed in claim 1, wherein the end mount (21) comprises a mount body (a) which comprises a first side and a third side along the length direction, a second side and a fourth side along the width direction, a top surface and a bottom surface along the height direction, the top surface of the mount body (a) is provided with a clamping arc-shaped groove (a1), the clamping arc-shaped groove (a1) penetrates out of the first side of the mount body (a) along the length direction of the mount body (a), and a notch close to the first side in the clamping arc-shaped groove (a1) is lower than a notch close to the third side in the clamping arc-shaped groove (a 1);

an arc-shaped bearing block (A2) extends out of the bottom of the clamping arc-shaped groove (A1) along the arc-shaped circle center direction of the clamping arc-shaped groove (A1), and the clamping arc-shaped groove (A1) is divided into a first mounting groove (B1) and a second mounting groove (B2) by the arc-shaped bearing block (A2);

a lamp holder limiting block (A3) extends from the top surface of the arc-shaped bearing block (A2) along the arc-shaped circle center direction of the clamping arc-shaped groove (A1), and the lamp holder limiting block (A3) is close to the first side surface of the mounting seat body (A);

the top of the middle supporting seat (22) is provided with a supporting groove, and the extending direction of the supporting groove is consistent with the extending direction of the clamping arc-shaped groove (A1);

the pressing end of the end pressing device (31) is positioned above the notch of the clamping arc-shaped groove (A1).

3. The penetrating tail light exoskeleton processing equipment as claimed in claim 2, wherein the fixture clamp assembly (2) further comprises a first auxiliary support seat (23) and a second auxiliary support seat (24), the first auxiliary support seat (23) and the second auxiliary support seat (24) are axially symmetrically installed at two sides of the middle support seat (22), and the first auxiliary support seat (23) and the second auxiliary support seat (24) are located between the two end mounting seats (21) and on a straight line where the end mounting seat (21) and the middle support seat (22) are located;

the first auxiliary supporting seat (23) comprises a first side wall, a second side wall, a third side wall and a fourth side wall, the second auxiliary supporting seat (24) comprises a first side wall, a second side wall, a third side wall and a fourth side wall, auxiliary supporting grooves are formed in the tops of the first auxiliary supporting seat (23) and the second auxiliary supporting seat (24) along the direction of the clamping arc-shaped groove (A1), the auxiliary supporting groove of the first auxiliary supporting seat (23) penetrates through the first side wall surface and the second side wall of the first auxiliary supporting seat (23), and the auxiliary supporting groove of the second auxiliary supporting seat (24) penetrates through the first side wall and the second side wall of the second auxiliary supporting seat (24);

the pressing device combination (3) further comprises a first auxiliary pressing device (32) and a second auxiliary pressing device (33), wherein the first auxiliary pressing device (32) and the second auxiliary pressing device (33) are correspondingly arranged on the periphery of the first auxiliary supporting seat (23) and the second auxiliary supporting seat (24) one by one; the pressing end of each auxiliary presser (32) is located above the auxiliary support notch.

4. The penetrating tail lamp exoskeleton processing equipment as claimed in claim 2, wherein the bottom surface of the mount base body (a) is connected with the top surface of a height adjusting table (6), the bottom surface of the height adjusting table (6) is connected to the mounting surface of the fixed base plate (1) through a height adjusting rod set, and the height adjusting rod set at least comprises three height adjusting rods (61).

5. The penetrating type tail lamp outer frame processing device according to claim 2, wherein at least two clamp fixing through holes (4) are formed in the mounting surface of the fixing base plate (1), and clamp fixing bolts (41) are mounted in the clamp fixing through holes (4).

6. The penetrating tail light exoskeleton processing apparatus as claimed in claim 1, wherein an illumination mounting plate (D8) is provided at a top of the robot mounting bracket (D4) along a length direction, and an illumination lamp (D9) is fixed to a side of the illumination mounting plate (D8) facing the assembly cabinet (D1).

7. The equipment for processing the outer frame of the penetrating tail lamp as claimed in claim 1, wherein the frame of the assembly cabinet (D1) is a cuboid, the frame in the height direction is made of square steel tube, and the robot mounting frame (D4) is formed after the square steel tube extends upwards and is connected with the mounting frames in the length and width directions at the top;

the top of any one of the square steel pipes is provided with a connecting rod (D10) for connecting a display, and the connecting line of the display extends to the control chamber (D6) through the connecting rod (D10) and the square steel pipe.

8. The penetrating tail light exoskeleton processing apparatus as claimed in claim 7, wherein said hydro-filter installation control chamber (D7) is provided near any one of the square steel tubes for installing a hydro-filter whose power transmission line extends to the robot mount (D4) through the adjacent square steel tube.

9. The equipment for processing the outer frame of the tail light of claim 1, wherein M controller mounting positions and a wiring board are arranged in the control chamber (D6), and the wiring board is detachably mounted at the bottom of the control chamber (D6).

10. The equipment for processing outer frame of tail light of the penetrating type as claimed in claim 1, wherein the bottom of the assembly cabinet (D1) is provided with a cabinet support (D11).

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