CN113478219B - Pantograph assembly line - Google Patents

Abstract

The invention discloses a pantograph assembly production line, and relates to the technical field of locomotive accessory production. The device comprises a material area, an assembly area and a test area. The material area comprises a material storage area and an operation island for storing accessories and semi-finished products, and the assembly area comprises a general assembly production line and a sub-assembly production line which are parallel to each other. The assembly area is arranged between the material storage area and the test area, and the operation island is arranged between the general assembly production line and the sub-assembly production line. The assembly production line is provided with at least one assembly car and at least one first AGV dolly, the first AGV dolly bears the assembly car and is in the circulation on the assembly production line. The layout of the whole production line is optimized, so that materials are delivered, the pantograph is produced, the quality of the pantograph is inspected, a smooth action line can be formed, and the production efficiency is improved. And the punctual delivery is realized by optimizing the storage and delivery of materials. The takt production and management and control are realized by optimizing the working mode of the final assembly production line.

Description

Pantograph assembling line

Technical Field

The invention relates to the technical field of locomotive accessory production, in particular to a pantograph assembly production line.

Background

A new industrial revolution is the deep integration of information technology and manufacturing industry, is a new industrial revolution initiated by the breakthrough of superposing new energy, new materials and the like on the basis of Internet of things and service networking by taking the digitalization, networking and intellectualization of the manufacturing industry as a core, and brings a deep revolution to the manufacturing industry in the world. The intelligent transformation is implemented, and an intelligent manufacturing new mode rail transit equipment enterprise is initiated to adapt to the future market demand and accelerate the departure, so that the method is suitable for the inevitable selection of new normality of economy in China.

The existing pantograph production line adopts a fixed station position production mode, 6 parallel pantograph final assembly stations are arranged, and each final assembly station completes all final assembly procedures of a pantograph; and 5 subpackaging stations are arranged simultaneously, and each subpackaging station completes all subpackaging procedures. A subpackage material storage area is arranged at the side of the subpackage station; and a final assembly material storage area is arranged at the side of the final assembly station. The sub-packaging station and the final assembly station are relatively independent, and all sub-packaged materials are transferred to the side of the final assembly station according to the type of the pantograph.

Therefore, in the existing production mode, the materials need to be manually delivered, split charging semi-finished products exist, the materials need to be delivered again, and then the materials are transported to each final assembly station, so that the problems of high material transportation difficulty and untimely material delivery exist. The production efficiency cannot be improved, and the metronomic production cannot be realized.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a pantograph assembly production line aiming at the defects of the prior art, wherein the temporary storage of semi-finished products is realized through an operation island between a final assembly production line and a sub-assembly production line; the AGV trolley is adopted to realize the distribution of materials and semi-finished products, and the takt circulation of the final assembly process is realized.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a pantograph assembly production line comprises a material area, an assembly area and a test area. The material area comprises a material storage area and an operation island for storing accessories and semi-finished products, and the assembly area comprises a general assembly production line and a sub-assembly production line which are parallel to each other. The assembly area is arranged between the material storage area and the test area, and the operation island is arranged between the general assembly production line and the sub-assembly production line. The assembly production line comprises at least one assembly car and at least one first AGV car, and the first AGV car bears the assembly car and flows on the assembly production line.

The material area is specifically an area for storing materials in a production line. The assembly area is specifically an area for assembling the pantograph in a production line. The test area is specifically an area used for detecting whether finished pantograph products are qualified in a production line. The assembly area is located the material deposit the district with between the test area, can realize the material delivery in proper order, the production of pantograph and pantograph quality inspection form smooth action line, improve production efficiency. The assembly line and the sub-assembly line are arranged on the operating island, and the sub-assembly line are arranged on the operating island. The assembly line comprises at least one assembly car and at least one first AGV trolley, and patent document with publication number CN201810315790.0 states that the AGV means an automatic guide transport vehicle, and is a transport vehicle which is provided with an electromagnetic or optical automatic guide device, can travel along a specified guide path, and has safety protection and various transfer functions. First AGV dolly bears the total loading is in the total assembly line circulation, accessible control first AGV dolly comes the management and control production process, can realize the beat circulation of total assembly line. And when the total loading car and the AGV dolly quantity increase, the production beat accelerates.

Specifically, the assembly line sequentially comprises an underframe assembly station, an air circuit assembly station, a pantograph lifting assembly station, a lower arm rod assembly station, an upper frame assembly station and a pantograph head assembly station. Each final assembly station can complete one of the final assembly processes, the whole final assembly processes can be combined into a flow line, and the working efficiency of final assembly is improved.

Specifically, the bow final assembly station is adjacent to the test zone. The pantograph general assembly station completes the last process, so that a complete pantograph can be produced on the station, the pantograph is transferred to a test area from the pantograph general assembly station, and the requirements of routine test points of the pantograph are met, so that the test can be completed to determine whether the pantograph is a qualified product.

Specifically, the partial shipment assembly line is in the gas circuit assembly station rise bow assembly station down the armed lever assembly station go up the frame assembly station with the position that the bow assembly station corresponds is equipped with gas circuit partial shipment station, rises bow partial shipment station, lower armed lever partial shipment station, upper frame partial shipment station and bow partial shipment station in proper order. Can realize every the partial shipment station is accomplished one of them partial shipment process, accomplishes the partial shipment back, can directly place semi-manufactured goods the operation island is directly taken by the final assembly station that corresponds, when improving partial shipment work efficiency, has also improved final assembly work efficiency.

Further, the partial shipment station is including the partial shipment workstation, the partial shipment workstation is equipped with the installation interface of compatible each type pantograph spare part. Therefore, the pantograph can be suitable for producing various types of pantographs.

Specifically, underarm pole partial shipment station is equipped with underarm pole pressure equipment, underarm pole pressure equipment includes two pressure equipment mechanisms, two be equipped with the guide rail between the pressure equipment mechanism. The guide rail makes the press-fitting mechanism can slide along the axial direction of the lower arm rod, and is compatible with the press-fitting of the lower arm rods of pantographs of various types.

Specifically, pressure heads are arranged at two ends of the press-fitting mechanism, and pressure sensors are arranged on the pressure heads. Both ends of the press-fitting mechanism are provided with pressure heads, so that both ends of the lower arm rod of the pantograph can be simultaneously pressed, the pressure of the press-fitting can be known after the pressure sensor is installed, and the lower arm rod is more convenient to control.

Specifically, the assembly area and the test area are provided with hoisting equipment. The loading and unloading of large parts are more convenient.

Specifically, the material area further comprises a second AGV trolley for transferring the material; the running route is between the material storage area and the operation island. Use the second AGV dolly is followed the accessory the material is deposited the district and is transported extremely the operation island realizes the automatic delivery of material, makes things convenient for the staff to take the material, then accomplishes partial shipment work and generates semi-manufactured goods. Use the material that the second AGV dolly will not need the partial shipment is followed the material district is transported extremely the operation island makes things convenient for the staff directly to take extremely the assembly line.

Specifically, first AGV dolly with the second AGV dolly all is equipped with the camera, pastes the two-dimensional code that is used for navigation on its route of traveling. The camera reads two-dimension code information, obtains the position and the angle deviation of first AGV dolly or second AGV dolly, control system at first AGV dolly or the in-process that second AGV dolly moved next two-dimension code is adjusted. And after reaching the target point, the actions of speed reduction, stopping, steering, material taking and discharging and the like are carried out.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the assembly area is arranged between the material storage area and the test area, the operation island is arranged between the assembly line and the sub-assembly line, the first AGV trolley is used for bearing the flow of the assembly truck in the assembly line, and the second AGV trolley is used for transferring accessories from the material storage area to the operation island, so that the layout of the whole production line is optimized, the material distribution, the production of the pantograph and the quality inspection of the pantograph can be realized, a smooth action line can be formed, and the production efficiency is improved. And the punctual delivery is realized by optimizing the storage and delivery of materials. Through optimizing the working mode of the final assembly line, the metronomic production and control are realized. And hoisting equipment is adopted to realize the loading and unloading of the large parts.

Drawings

Fig. 1 is a schematic general layout diagram of a pantograph assembly line according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of a lower arm press-fitting apparatus in a pantograph assembly line according to an embodiment of the present invention.

The automatic assembling system comprises a material area 1, an operation island 101, a material storage area 102, an assembling area 2, a sub-packaging assembly line 201, a final assembly line 202, a test area 3, a test bench 301, a gas circuit sub-packaging station 4, a bow lifting sub-packaging station 5, a lower arm sub-packaging station 6, an upper frame sub-packaging station 7, a bow head sub-packaging station 8, a chassis final assembly station 9, a gas circuit final assembly station 10, a bow lifting final assembly station 11, a lower arm final assembly station 12, an upper frame final assembly station 13, a bow head final assembly station 14, a pressure head 15, a first pressure head 151, a second pressure head 152, a press-mounting mechanism 16, a guide rail 17, a KBK18, an all-in-one machine support 19 and an AGV charging pile 20.

Detailed Description

As shown in fig. 1, a pantograph assembly line according to an embodiment of the present invention includes a material area 1, an assembly area 2, and a test area 3. The material area 1 is specifically an area for storing materials in a production line. The assembling area 2 is specifically an area for assembling the pantograph in a production line. The test area 3 is specifically an area used for inspecting whether finished pantograph products are qualified in a production line.

The material area 1 comprises a working island 101 and a material storage area 102, and the assembly area 2 comprises a sub-assembly production line 201 and a final assembly production line 202 which are arranged in parallel. The assembly area 2 is arranged between the material storage area 102 and the test area 3. The material storage area 102 and the assembly area 2 are further provided with an AGV charging pile 20, and when the AGV does not have a task, the AGV charging pile can stop at the position of the charging pile 20 to wait for a next task instruction.

The test zone 3 is provided with two test stands 301. The test bed 301 comprises a control host, a touch screen, a display screen, a lifting bow tension testing device, a lifting bow time testing device, a gas circuit control device, an operating platform, a product mounting platform, a checking device, a printer and the like, and is used for completing the requirements of pantograph routine test item points. The test bed 301 adopts an LED display screen to display data such as a height value, a tension value, an air pressure value and the like of a tested piece in real time, and test data can be transmitted and stored in a control system. Test bench 301 possesses the laser surveying and rises bow height function, avoids the tongue to cause the space extravagant, and integrated pantograph weight measurement function conveniently detects the pantograph test item point of weighing.

The material storage area 102 is provided with a computer for managing materials and a two-dimensional code printer, and printed two-dimensional codes are used for tracing the materials. The storage platforms of the material storage area 102 are spliced by adopting aluminum alloy sections, and the bearing requirement of a single independent unit is more than or equal to 500kg.

The working island 101 is disposed between the racking line 201 and the final assembly line 202. The operation island 101 is used for storing the sub-packaging assembly line 201, the parts required by the final assembly line 202 and the semi-finished products generated by the sub-packaging assembly line 201, and the work personnel can directly take the parts without walking to the material storage area 102 to take the parts, so that the material taking time is shortened, and the production is more convenient and faster. The operation island 101 deposit the platform and adopt the aluminium alloy concatenation mode, be convenient for disassemble and assemble, and do not interfere with station and frock.

As shown in fig. 1, the assembly line 202 includes six stations, which are, in sequence, an underframe assembly station 9, an air circuit assembly station 10, an arch raising assembly station 11, a lower arm assembly station 12, an upper frame assembly station 13, and a bow assembly station 14. The assembly station can complete one of the assembly procedures, the whole assembly procedure can be combined into a production line, and the assembly work efficiency is improved. Each final assembly station is provided with an all-in-one machine for material calling and process guidance, and the all-in-one machine is arranged on an all-in-one machine support 19 beside the final assembly station.

As shown in fig. 1, the bow assembly station 11 is adjacent to the test stand 301. After the assembly of the pantograph head is completed by the pantograph head assembly station 11, a complete pantograph can be produced on the station, the pantograph is transferred to the test area 3 from the pantograph head assembly station 11, and the requirements of routine pantograph test items are met, so that the test can be completed to determine whether the pantograph is a qualified product.

As shown in fig. 1, the sub-packaging assembly line 201 is provided with five stations corresponding to the assembly line 202, which are respectively an air channel sub-packaging station 4, a pantograph lifting sub-packaging station 5, a lower arm sub-packaging station 6, an upper frame sub-packaging station 7 and a pantograph head sub-packaging station 8, and each sub-packaging station can complete one sub-packaging process. As shown in fig. 1, the air circuit sub-packaging station 4 corresponds to the air circuit general-packaging station 10, the arch sub-packaging station 5 corresponds to the arch general-packaging station 11, the lower arm sub-packaging station 6 corresponds to the lower arm general-packaging station 12, the upper frame sub-packaging station 7 corresponds to the upper frame general-packaging station 13, and the bow sub-packaging station 8 corresponds to the bow general-packaging station 14. As the underframe does not need to be split, a underframe split-charging station is not needed, the underframe is directly delivered to the operation island beside the underframe general-charging station 9, and the underframe can be taken for general charging during general charging.

In the sub-assembly line 201, the semi-finished products subjected to sub-assembly are placed on the working island 101, and can be directly used in the final assembly line 202. Every partial shipment station all disposes the computer that is used for material calling and technology to guide, and every partial shipment station is other to be equipped with a material and deposits the platform, can deposit the required material in the partial shipment work for the efficiency of partial shipment assembly line is higher.

The upper frame subpackaging station 7 comprises an upper frame press-fitting device, a pneumatic press-fitting mode is adopted, and the press-fitting machine is located on the side of an upper frame subpackaging platform and is operated manually. The upper frame is fixed manually by using the tool clamp, the shaft sleeve is placed into the pressure head tool, and the shaft sleeve is pressed automatically by manually starting the button.

As shown in fig. 1 and 2, the lower arm racking station 6 is provided with a pull rod press-fitting device and a lower arm press-fitting device, and the pull rod press-fitting device is operated manually in a pneumatic press-fitting manner. Underarm pole pressure equipment includes host computer, measurement and monitoring system and two parallel pressure equipment mechanisms 16, and the pressure equipment mode is automatic pressure equipment, two the both ends of pressure equipment mechanism 16 all are equipped with pressure head 15, pressure head 15 includes first pressure head 151 and second pressure head 152, can carry out the pressure equipment simultaneously to the both ends of underarm pole of pantograph, promotes work efficiency, pressure equipment mechanism 16 itself is equipped with the slide rail, makes first pressure head 151 with distance between the second pressure head 152 is adjustable. A guide rail 17 is arranged between the two press-fitting mechanisms 16, so that the distance between the two press-fitting mechanisms 16 can be adjusted, and the pantograph assembly machine can be suitable for assembling pantographs of more models. The pressure head 15 is provided with a sensor, can acquire the pressure of the pressure equipment of lower armed lever in real time, can acquire the pressure value in real time, treats that the pressure equipment of work piece is finished, scans semi-manufactured goods's two-dimensional code and corresponds pressure value information and semi-manufactured goods, with pressure curve storage to control system, the later stage can be traceed back.

The lower arm press-fitting apparatus has two modes of a manual mode and a programmed automatic mode, and the press-fitting mechanism 16 is provided with a display screen for displaying the press-fitting assembly process.

As shown in fig. 1, the operating island 101 and the lower arm racking station 6, the upper frame racking station 7 and the area adjacent to the bow racking station 8 are respectively provided with an integrated machine support 19 for installing an integrated machine, and the integrated machine is used for material calling and process guidance.

The workbench of each sub-packaging station is provided with an installation interface compatible with parts of various types of pantographs, so that the pantograph type sub-packaging station is suitable for producing various types of pantographs. The frame of the workbench of the split charging station is spliced by aluminum alloy sections, and the bearing capacity is more than or equal to 200kg. The workbench of the subpackaging station is fixed with the ground in a foundation bolt mode, a vertical plate is arranged on the rear side of the platform, a tool for subpackaging is arranged on the vertical plate, a plastic box is arranged below the vertical plate on the rear side and used for storing standard parts, a tool clamp for fixing workpieces is arranged on the subpackaging table, and assembly and disassembly of parts are facilitated. The workbench is compatible with various pantograph part installation interfaces, and the installation mode is convenient, rapid and reliable.

As shown in fig. 1, a KBK (KombiniertKran) 18 is arranged on the top of the assembly area 2 and the test area 3, the KBK18 is used for realizing station loading and unloading, the KBK18 comprises a crane rail, a suspension device, a travelling trolley electrical system and a lifting device, and all modules are standard components. The lifting device mainly adopts a ring chain electric device, a hanging gripper and a lifting hook, and the cross beam adopts an aluminum beam.

As shown in fig. 1, the material area 1 is provided with a second AGV for transferring material, and the travel route thereof is between the material storage area 102 and the working island 101. Use second AGV dolly 4 is with the material follow material storage area 102 is transported extremely operation island 101 makes things convenient for the staff to take the material, then accomplishes partial shipment work and generates semi-manufactured goods. Use the material that the second AGV dolly will not need the partial shipment is followed material district 1 is transported extremely operation island 101 makes things convenient for the staff directly to take to the final assembly line.

The final assembly line 202 is provided with six final assemblies and six first AGV carts. Through process circulation is realized to first AGV dolly and artifical two kinds of modes. After the operation of each station is completed, an operator reports completion through the all-in-one machine on the operation island 101, or sets the process operation time to forcibly flow according to the process time, the control system receives completion information and makes logical judgment between the upper process and the lower process, the transfer information is transferred to the first AGV trolley, and the first AGV trolley completes the flow of the final assembly workbench according to instructions. As shown in FIG. 1, each of the first AGV carts carries one of the final assemblies and is routed between six final assembly stations of the final assembly line 202. The production beat is managed and controlled to accessible control first AGV dolly, and then realizes the beat circulation of assembly line.

First AGV dolly with the second AGV dolly all is equipped with the camera, pastes the two-dimensional code that is used for navigation on its route of traveling. The camera reads two-dimension code information, obtains the position and the angle deviation of first AGV dolly or second AGV dolly, control system is in first AGV dolly or second AGV dolly moves the in-process of next two-dimension code and adjusts. And the first AGV or the second AGV performs actions such as deceleration, stopping, steering, taking and placing materials and the like after reaching a target point. First AGV dolly with the second AGV dolly adopts mecanum wheel drive, and 4 wheat wheels pass through direct current servo motor and planetary reducer independent control respectively to link to each other with the automobile body through independent suspension mechanism. The rotational speed and the steering of four wheat wheels of accurate control can realize first AGV dolly with the second AGV dolly advance, retreat, around the original place rotation of automobile body centroid, sideshift the motion function such as move.

The work flow of the subpackaging assembly line of the embodiment of the invention comprises the following steps:

the second AGV trolley delivers parts required by each sub-packaging station to a position corresponding to the operation island 101 through the material storage area 102. The second AGV returns to charging pile 20 to wait for the control system to dispatch. The gas circuit sub-packaging station 4 is used for completing the assembly of a gas circuit in the sub-packaging, the arch sub-packaging station 5 is used for completing the assembly of an arch in the sub-packaging, the lower arm rod sub-packaging station 6 is used for completing the assembly of a lower arm rod in the sub-packaging, the upper frame sub-packaging station 7 is used for completing the assembly of an upper frame in the sub-packaging, and the bow sub-packaging station 8 is used for completing the assembly of a bow in the sub-packaging. And the assembled air path, lift bow, lower boom, upper frame and bow are transferred to the working island 101.

The work flow of the final assembly production line of one embodiment of the invention comprises the following steps:

the second AGV delivers parts that do not require to be distributed to the position corresponding to the working island 101 from the material storage area 102. The second AGV returns to charging pile 20 to wait for the control system to dispatch. The staff follows the part that each final assembly station needs is taken to operation island 101 carries out the final assembly work, first AGV dolly bears the final assembly is in the equipment of chassis in the final assembly station 9 completion final assembly, later traveles to the equipment of gas circuit in the final assembly of gas circuit final assembly station 10 completion gas circuit next traveles rise the equipment of bow in the bow final assembly station 11 completion final assembly, travel again to the equipment of upper arm pole in the lower arm pole final assembly station 12 completion final assembly, then travel to the equipment of frame in the upper frame final assembly station 13 completion final assembly, travel to bow final assembly station 14 and accomplish the equipment of bow in the final assembly, can accomplish the production of pantograph, then first AGV dolly continues to travel the next pantograph production is accomplished to chassis final assembly station 9.

When the pantograph is produced, the worker takes the finished product onto the test bed 301 for testing, and the routine test item requirement of the pantograph is completed, so that whether the pantograph is a qualified product or not can be determined.

Claims (7)

1. A pantograph assembly production line comprises a material area, an assembly area and a test area, and is characterized in that the material area comprises a material storage area and an operation island for storing accessories and semi-finished products, and the assembly area comprises a general assembly production line and a sub-assembly production line which are parallel to each other;

the assembling area is arranged between the material storage area and the testing area;

the operation island is arranged between the final assembly production line and the sub-assembly production line;

the assembly line is provided with at least one assembly truck and at least one first AGV;

the first AGV trolley bears the total loading to circulate on the total loading production line;

the material area also comprises a second AGV trolley for transferring materials, and the driving route of the second AGV trolley is between the material storage area and the operation island;

the assembly line comprises an underframe assembly station, an air circuit assembly station, a pantograph lifting assembly station, a lower arm rod assembly station, an upper frame assembly station and a pantograph head assembly station which are sequentially arranged in the extension direction of the assembly line;

the partial shipment assembly line is in the gas circuit assembly station rise the bow assembly station down the armed lever assembly station go up the frame assembly station with the position that the bow assembly station corresponds is equipped with gas circuit partial shipment station, rises bow partial shipment station, lower armed lever partial shipment station, upper ledge partial shipment station and bow partial shipment station respectively.

2. Pantograph assembly line according to claim 1, wherein the pantograph head assembly station is adjacent to the test area.

3. The pantograph assembly line of claim 1, wherein the work table of each racking station is provided with a mounting interface compatible with each type of pantograph parts.

4. The pantograph assembly line of claim 1, wherein the lower arm lever split charging station is provided with a lower arm lever press-fitting device, the lower arm lever press-fitting device comprises two press-fitting mechanisms, and a guide rail is provided between the two press-fitting mechanisms.

5. The pantograph assembly line of claim 4, wherein the pressing mechanism is provided with a pressing head at both ends thereof, and the pressing head is provided with a pressure sensor.

6. Pantograph assembly line according to any one of claims 1-5, wherein the assembly area and the test area are provided with hoisting devices.

7. The pantograph assembly line of claim 1, wherein the first AGV trolley and the second AGV trolley are provided with cameras, and two-dimensional codes for navigation are pasted on the running routes of the first AGV trolley and the second AGV trolley.

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