CN203047415U - Multi-station assembling line for heavy vehicle - Google Patents

Multi-station assembling line for heavy vehicle Download PDF

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Publication number
CN203047415U
CN203047415U CN 201320016873 CN201320016873U CN203047415U CN 203047415 U CN203047415 U CN 203047415U CN 201320016873 CN201320016873 CN 201320016873 CN 201320016873 U CN201320016873 U CN 201320016873U CN 203047415 U CN203047415 U CN 203047415U
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CN
China
Prior art keywords
station
adapter plate
roller
parts
heavy
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Withdrawn - After Issue
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CN 201320016873
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Chinese (zh)
Inventor
周晓军
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HANGZHOU ZHEDA BENYUE TECHNOLOGY CO LTD
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HANGZHOU ZHEDA BENYUE TECHNOLOGY CO LTD
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Priority to CN 201320016873 priority Critical patent/CN203047415U/en
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Publication of CN203047415U publication Critical patent/CN203047415U/en
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Abstract

The utility model discloses a multi-station assembling line for a heavy vehicle. The assembling line comprises a plurality of stations distributed on a straight line. Guide rails are arranged on the ground of a last station. The guide rails are arranged on the ground and are symmetrically distributed relative to the center of the stations. Two sides of a first station and two sides of the last station are at least respectively provided with two lifting platform parts. Two sides of each middle station are at least respectively provided with two fixing platform parts. An assembling platform is arranged on each station. The assembling platforms are arranged on the lifting platform parts or the fixing platform parts. Each lifting platform part on the last station is provided with a lifting bracket part. The multi-station assembling line for the heavy vehicle can achieve automatism of multi-station operation. The overall height of the assembling line corresponds to the operation height of workers. Overall cost of the assembling line is low. The multi-station assembling line can be applied to the heavy vehicle or other heavy equipment.

Description

A kind of heavy-duty vehicle multistation assembling line
Technical field
The utility model relates to a kind of multistation assembling line, relates in particular to a kind of heavy-duty vehicle multistation assembling line.
Background technology
The automation assembling line is the important equipment in the modern manufacturing industry, has obtained widespread use in the production of industrially developed country such as the U.S., Japan and Europe.At home, then later relatively to the The Research of Relevant Technology exploitation, the high-end production line for automatically assembling of design and manufacturing also is in the stage of fumbling voluntarily.
Particularly for the assembling of heavy-duty vehicle and equipment, how to be undertaken by manpower in the past, along with development of science and technology, begin gradually to make the multistation assembling line toward the automation direction development, but the characteristics of heavy-duty vehicle and equipment, cause generally complex structure all of its fitting line, floor area is big; Another most important shortcoming is because vehicle or equipment are heavier, so the bottom of manufacturing line must lay guide rail and dolly is transported in installation, if integral installation is on the ground line like this, then whole height is higher on the dolly, the operation of workman on station is very difficult, has reduced efficient; If in order to make the suitable manual operation of whole height, then must dig a hollow place in the manufacturing line bottom, cost is higher, and has increased workman's danger greatly.
Summary of the invention
The purpose of this utility model is the deficiency higher or that need dig pit in order to reduce height at weight equipment multistation assembling line whole height, and a kind of heavy-duty vehicle multistation assembling line is provided.
The purpose of this utility model is achieved through the following technical solutions: a kind of heavy-duty vehicle multistation assembling line, described manufacturing line straight line a plurality of stations that distribute, the ground upper mounting rail of last station, guide rail is installed on the ground and is symmetrically distributed about the center of station, and by the below that extends to last station from first station to the opposite direction of last station; First station is all at least respectively installed two lifting table parts with the both sides of last station, two fixed platform parts are all at least respectively installed in the both sides of intermediate stations, one assembly floor is installed on each station, and assembly floor is installed on lifting table parts or the fixed platform parts; On each lifting table parts on the last station shears parts are installed all.
Further, the lifting table parts of described first station and last station comprise: lifting motor, elevating screw, lifting nut, platform adapter plate, first motor, Z-shaped adapter plate, first roller, first transition axis, angle case and steering box; Lifting motor is fixed in the hole below the ground line by the angle case, and the angle case connects on a plurality of elevating screws by a plurality of steering boxs, a nested lifting nut in each elevating screw, and a plurality of lifting nuts are connected on the platform adapter plate simultaneously; The bottom surface of the lower shoe of Z-shaped adapter plate is fixed on the ground, and the upper end of elevating screw is fixed in the hole of bottom surface of upper plate of Z-shaped adapter plate; Be with first transition axis by bearing in the platform adapter plate, one side of first transition axis is connected with the output shaft of first motor on being installed in the platform adapter plate, opposite side is equipped with first roller, and the groove of assembly floor by the bottom surface cooperates with the projection of first roller of both sides lifting table parts and be installed on first roller.
Further, the shears parts of described last station comprise: fixed block, orienting sleeve, Г type carriage and cylinder; The fixed block of hollow is fixed on the last end face of upper plate of Z-shaped adapter plate, and the lower end of Г type carriage is installed on the upper end of fixed block inside by orienting sleeve, and is connected with the push rod of cylinder on being installed on the fixed block bottom surface.
Further, the fixed platform parts of described intermediate stations comprise: first adapter plate, second motor, second transition axis, the 3rd motor, the 3rd transition axis, the 3rd roller and second roller; The bottom surface of first adapter plate in the described fixed platform parts is fixed on the ground, the upper and lower part of first adapter plate is with the 3rd transition axis and second transition axis by bearing respectively, one side of the 3rd transition axis is connected with the output shaft of the 3rd motor on being installed in first adapter plate, opposite side is installed the 3rd roller have projection, and the groove of the assembly floor that is supporting heavy vehicle by the bottom surface cooperates with the projection of the 3rd roller and be installed on the 3rd roller; One side of second transition axis is connected with the output shaft of second motor on being installed in first adapter plate, opposite side is installed second roller that has projection, the groove of assembly floor by the bottom surface of laying down the zero load of heavy-duty vehicle cooperates with the projection of second roller and is installed on second roller, and the upper surface of the assembly floor of following zero load and above be equipped with between the assembly floor of heavy-duty vehicle gapped.
The beneficial effects of the utility model are: the multistation assembling line of the utility model heavy-duty vehicle can be realized the ultromotivity of multistation operation, and the whole height of assembling line is suitable highly mutually with workman's operation; The overall cost of manufacturing line is lower.The utility model can be applied to the multistation assembling line of heavy-duty vehicle or other weight equipment.
Description of drawings
Fig. 1 is each station general illustration of the present utility model;
Fig. 2 is the first station general illustration of the present utility model;
Fig. 3 is last station general illustration of the present utility model;
Fig. 4 is lifting table block construction figure of the present utility model;
Fig. 5 is that lifting screw of the present utility model connects arrangement plan;
Fig. 6 is shears block construction figure of the present utility model;
Fig. 7 is intermediate stations general illustration of the present utility model;
Fig. 8 is intermediate stations fixed platform block construction figure of the present utility model;
Fig. 9 is that last station of the present utility model loads the transportation general illustration;
Among the figure: 1, heavy-duty vehicle, 2, anchor clamps, 3, assembly floor, 4, guide rail, 5, the lifting table parts, 6, the shears parts, 7, lifting motor, 8, elevating screw, 9, lifting nut, 10, the platform adapter plate, 11, first motor, 12, Z-shaped adapter plate, 13, first roller, 14, first transition axis, 15, the angle case, 16, fixed block, 17, orienting sleeve, 18, Г type carriage, 19, cylinder, 20, steering box, 21, transport carriage, 22, the fixed platform parts, 23, first adapter plate, 24, second motor, 25, second transition axis, 26, the 3rd transition axis, 27, the 3rd transition axis, 28, the 3rd roller, 29, second roller.
The specific embodiment
The utility model will be further described below in conjunction with drawings and embodiments.
As shown in Figure 1, the multistation assembling line that provides of the utility model comprises: heavy-duty vehicle 1, assembly floor 3, guide rail 4, transport carriage 21.The whole production line straight line station a plurality of stations altogether that distribute from first station to second station to the last, the ground upper mounting rail 4 of last station is equipped with transport carriage 21 above the guide rail 4; Heavy-duty vehicle 1 is installed on assembly floor 3, first station is installed two lifting table parts 5 at least with every side of last station both sides, assembly floor 3 is installed on the lifting table parts 5, every side of intermediate stations both sides is installed two fixed platform parts 22 at least, and assembly floor 3 is installed on the fixed platform parts 22.
As shown in Figure 2, first station comprises: heavy-duty vehicle 1, anchor clamps 2, assembly floor 3, lifting table parts 5.Heavy-duty vehicle 1 is fixed on the assembly floor 3 and with anchor clamps 2 heavy-duty vehicle 1 and assembly floor 3 is clamped, and every side of the first station both sides is installed two lifting table parts 5 at least, and the groove of assembly floor 3 bottom surfaces is installed on the lifting table parts 5 on both sides.
As shown in Figure 3, last station comprises: heavy-duty vehicle 1, anchor clamps 2, assembly floor 3, guide rail 4, lifting table parts 5, shears parts 6.Heavy-duty vehicle 1 is fixed in heavy-duty vehicle 1 on the assembly floor 3 by anchor clamps 2, and every side of last station both sides is installed two lifting table parts 5 at least, and assembly floor 3 is installed on the lifting table parts 5 on both sides by the groove of bottom surface; Shears parts 6 are fixed on the assembly floor 3, also can be fixed in last; Pair of guide rails 4 is installed on the ground and is symmetrically distributed about the center of station, and with the below that extends to last station from first station to the opposite direction of last station.
Shown in Fig. 4,5, described lifting table parts 5 comprise: lifting motor 7, elevating screw 8, lifting nut 9, platform adapter plate 10, first motor 11, Z-shaped adapter plate 12, first roller 13, first transition axis 14, angle case 15, steering box 20.Lifting motor 7 is fixed in the hole below the ground line by angle case 15, angle case 15 is connected to the lower end of the elevating screw 8 of a plurality of vertical distributions by a plurality of steering boxs 20, a nested lifting nut 9 in each elevating screw 8, a plurality of lifting nuts 9 are connected on the platform adapter plate 10 simultaneously; The bottom surface of Z-shaped adapter plate 12 lower shoes is fixed on the ground, and the upper end of elevating screw 8 is fixed in the hole of bottom surface of upper plate of Z-shaped adapter plate 12; Be with first transition axis 14 by bearing in the platform adapter plate 10, one side of first transition axis 14 is connected with the output shaft of first motor 11 on being installed in platform adapter plate 10, opposite side is equipped with first roller 13 that has projection, and the groove of assembly floor 3 by the bottom surface cooperates with the projection of first roller 13 of both sides lifting table parts 5 and be installed on first roller 13.
As shown in Figure 6, described shears parts 6 comprise: fixed block 16, orienting sleeve 17, Г type carriage 18, cylinder 19.Fixed block 16 be fixed in assembly floor 3 on, also can be fixed in last.The fixed block 16 of hollow is fixed on the last end face of Z-shaped adapter plate 12 upper plates, and the lower end of Г type carriage 18 is installed on the upper end of fixed block 16 inside by orienting sleeve 17, and is connected with the push rod of cylinder 19 on being installed on fixed block 16 bottom surfaces.
As shown in Figure 7, intermediate stations comprises: heavy-duty vehicle 1, anchor clamps 2, assembly floor 3, fixed platform parts 22.Heavy-duty vehicle 1 is fixed in heavy-duty vehicle 1 on the assembly floor 3 by anchor clamps 2, and every side of each intermediate stations both sides is installed two fixed platform parts 22 at least, and assembly floor 3 is installed on the fixed platform parts 22 on both sides by the groove of bottom surface.
As shown in Figure 8, described fixed platform parts 22 comprise: first adapter plate 23, second motor 24, second transition axis 25, the 3rd motor 26, the 3rd transition axis 27, the 3rd roller 28, second roller 29.The bottom surface of first adapter plate 23 is fixed on the ground, the upper and lower part of first adapter plate 23 is with the 3rd transition axis 27 and second transition axis 25 by bearing respectively, one side of the 3rd transition axis 27 is connected with the output shaft of the 3rd motor 26 on being installed in first adapter plate 23, opposite side is installed the 3rd roller 28 have projection, and the groove of the assembly floor 3 that is supporting heavy vehicle 1 by the bottom surface is installed on the 3rd roller 28 by the projection of the 3rd roller 28; One side of second transition axis 25 is connected with the output shaft of second motor 24 on being installed in first adapter plate 23, opposite side is installed second roller 29 that has projection, the projection of the groove of assembly floor 3 by the bottom surface by second roller 29 of laying down the zero load of heavy-duty vehicle 1 is installed on second roller 29, and the upper surface of the assembly floor 3 of following zero load and above be equipped with between the assembly floor 3 of heavy-duty vehicle 1 certain clearance arranged.
As shown in Figure 9, described last station heavy-duty vehicle 1 is positioned on the transport carriage 21, and transport carriage 21 is installed on the guide rail 4 by wheel.
Described cylinder 19 also useable electric moter connects ball guide screw nat and replaces, and motor is fixed on the bottom surface in the fixed block 16 of hollow, and the output shaft of motor is connected with leading screw by coupler, is with nut on the leading screw, and nut is connected with the lower end of Г type carriage 18.
First transition axis 14 in the described lifting table parts 5 is connected with the output shaft of first motor 11, replaceablely be: any one between first transition axis 14 in the plural lifting table parts 5 of each station one side be local installs a motor, the output shaft of motor is installed chain, on each first transition axis 14 sprocket wheel is installed all, the output shaft of sprocket wheel and motor is installed chain and is meshing with each other.
Second transition axis 25 in the described fixed platform parts 22 is connected with the output shaft of second motor 24, the 3rd transition axis 27 in the fixed platform parts 22 is connected with the output shaft of second motor 24, replaceablely be: the optional positions in the middle of the plural fixed platform parts 22 of each station one side install two respectively with second transition axis 25, the motor of the 3rd transition axis 27 horizontal alignments, the output shaft of two motors is installed chain respectively, each second transition axis 25, on the 3rd transition axis 27 sprocket wheel is installed all, with tooth bar on the motor output shaft of second transition axis, 25 horizontal alignments and the sprocket engagement of second transition axis 25 on this station; With tooth bar on the motor output shaft of the 3rd transition axis 27 horizontal alignments and the sprocket engagement of the 3rd transition axis 27 on this station.
Want the workflow of utility model as follows:
1. the assembly floor 3 of first station is unloaded when just having begun, and is positioned at initial position;
2. crane winches to the position of assembly floor 3 top correspondences with heavy-duty vehicle, and is placed on assembly floor 3, and anchor clamps 2 interfix assembly floor 3 and heavy-duty vehicle;
3. at first station assembly manipulation, behind the EO, first motor 11 rotates, and drives first transition axis 14 and rotate platform adapter plate 10 in, thereby drive assembly floor 3 and heavy-duty vehicle 1 move to second station;
4. after moving to second station, after second station manipulation finished, the 3rd motor 26 on second station rotated, and drove the 3rd transition axis 27 and rotate first adapter plate 23 in, thereby drive assembly floor 3 and heavy-duty vehicle 1 move to the 3rd station; Station to the last so circulates;
5. after station assembling was in the end finished, lifting motor 7 rotations drove all elevating screws 8 and rotate, and move down thereby drive lifting nut 9, platform adapter plate 10, assembly floor 3 and heavy-duty vehicle 1; When dropping to certain height, heavy-duty vehicle 1 contacts with the upper surface of Г type carriage 18, anchor clamps 2 are unloaded from assembly floor 3, Г type carriage 18 supports no longer past decline with heavy-duty vehicle 1, stops operating after the assembly floor 3 that lifting motor 7 continuation rotating band moving platform adapter plates 10 reach the zero load that has unloaded is moved downward to lowest order;
6. first motor, 11 contrarotations on last station drive first roller, 13 backward rotation, oppositely move to the penult station thereby drive unloaded assembly floor 3 levels; The 3rd motor 26 contrarotations on the penult station drive the 3rd roller 28 backward rotation, oppositely move to three stations reciprocal thereby drive unloaded assembly floor 3 levels; So circulation is up to moving to first station;
7. after Kong Zai assembly floor 3 moves to first station, lifting motor 7 contrarotations, thereby driving lifting nut, platform adapter plate 10 and unloaded assembly floor 3 rises, stop after rising to the height of initial needs, wait for nextly needing the heavy-duty vehicle lifting of assembling to unloaded assembly floor 3;
8. in the end on station, after unloaded assembly floor 3 is removed, be not free below the heavy-duty vehicle 1, at this moment, with transport carriage 21 from driving into to come and be positioned over below the heavy-duty vehicle 1 with first station to the, five formula position reversed in order directions, cylinder 19 shrinks drive Г type carriage 18 and heavy-duty vehicle 1 decline and is positioned on the transport carriage 21, after cylinder 19 continuation contraction Г type carriages 18 continue to drop to certain altitude and heavy-duty vehicle 1 do not contact, transport carriage 21 delivery heavy-dutys vehicle 1 always the time direction drive away, 19 liters long in cylinder and Г type carriage 18 rise to elemental height.
Therefore, when lifting motor 7 rotations, elevating screw 8 rotates in vertical direction, thereby drive lifting nut 9 and platform adapter plate 10 move up and down; And because lifting motor 7 and angle case 15 all are in following position, ground line, so platform adapter plate 10 can drop to the position of basic ground proximity.
The bottom surface of the lower shoe of Z-shaped adapter plate 12 is fixed on the ground, and the upper end of elevating screw 8 is fixed in the hole of bottom surface of upper plate of Z-shaped adapter plate 12;
Be with first transition axis 14 by bearing in the platform adapter plate 10, one side of first transition axis 14 is connected with the output shaft of first motor 11 on being installed in platform adapter plate 10, opposite side is equipped with first roller 13, therefore, first motor 11 can drive first transition axis 14 and rotate in platform adapter plate 10, and drives 13 rotations of first roller.
The fixed block 16 of the hollow of shears parts 6 is fixed on the last end face of upper plate of Z-shaped adapter plate 12, the lower end of Г type carriage 18 is installed on the upper end of fixed block 16 inside by orienting sleeve 17, and be connected with the push rod of cylinder 19 on being installed on fixed block 16 bottom surfaces, therefore, when cylinder 19 had air pressure, the push rod of cylinder 19 can drive Г type carriage 18 and move up and down in fixed block 16.
One side of first transition axis 14 is connected also with the output shaft of first motor 11 on being installed in platform adapter plate 10 can install sprocket wheel in the middle of first transition axis 14, a motor is installed in somewhere in the middle of all stations, the output shaft of motor connects chain, sprocket wheel on chain and all stations is connected, first motor 11 of only needs of all station one sides reduces cost like this.
The medium and heavy vehicle 1 of first station in the multistation is fixed on the assembly floor 3 and with anchor clamps 2 heavy-duty vehicle 1 is clamped, the groove of assembly floor 3 by the bottom surface is installed on respectively on the lifting table parts 5 on both sides on first roller 13, namely first station does not need shears parts 4, its principle of work is: crane winches to heavy-duty vehicle the position of assembly floor 3 top correspondences, anchor clamps 2 are fixing with assembly floor 3 with heavy-duty vehicle 1, the workman is operating at this station, after operation is finished, 11 rotations of first motor drive first roller 13 and rotate, and are being with heavy vehicle 1 to be moved horizontally to next station thereby drive assembly floor 3.
Last station in the multistation comprises heavy-duty vehicle 1, anchor clamps 2, assembly floor 3, shears parts 4, lifting table parts 5, guide rail 6, its principle of work is: after a last station is finished, assembly floor 3 is being with heavy vehicle 1 to move to last station, last station is also behind the EO, lifting motor 7 rotations drive all elevating screws 8 and rotate, and move down thereby drive lifting nut 9, platform adapter plate 10, assembly floor 3 and heavy-duty vehicle 1; When dropping to certain height, heavy-duty vehicle 1 contacts with the upper surface of Г type carriage 18, and Г type carriage 18 withstands no longer past decline with heavy-duty vehicle 1, and lifting motor 7 continues to stop operating after rotating band moving platform adapter plates 10 are moved downward to lowest order; 11 contrarotations of first motor drive first roller, 13 backward rotation, thereby drive unloaded assembly floor 3 levels and oppositely move to previous station, at this moment be not free below the heavy-duty vehicle 1, at this moment, transport carriage 21 is driven into the other way around and is positioned over below the heavy-duty vehicle 1, cylinder 19 shrinks drive Г type carriage 18 and heavy-duty vehicle 1 decline and is placed on the transport carriage 30, after cylinder 19 continuation contraction Г type carriages 18 continue to drop to certain altitude and heavy-duty vehicle 1 do not contact, transport carriage 21 delivery heavy-dutys vehicle 1 always the time direction drive away, 19 liters long in cylinder and Г type carriage 18 rise to elemental height.
Because the assembly floor 3 of the assembly floor 3 of intermediate stations and the zero load of laying down heavy-duty vehicle 1 of going back does not need to move up and down, therefore do not need lifting table parts 5, only need fixed platform parts 22 to get final product, heavy-duty vehicle 1 is fixed on the assembly floor 3 and with anchor clamps 2 heavy-duty vehicle 1 is clamped, and the groove of assembly floor 3 by the bottom surface is installed on respectively on the fixed platform parts 22 on both sides on the 3rd roller 28; The groove of assembly floor 21 by the bottom surface of having laid down the zero load of heavy-duty vehicle 1 is installed on respectively on the fixed platform parts 22 on both sides on second roller 29; First adapter plate 23 in the fixed platform parts 22 is fixed on the ground, the upper and lower part of first adapter plate 23 is with the 3rd transition axis 27 and second transition axis 25 by bearing respectively, one side of the 3rd transition axis 27 is connected with the output shaft of the 3rd transition axis 26 on being installed in first adapter plate 23, and opposite side is equipped with the 3rd roller 28; One side of second transition axis 25 is connected with the output shaft of second motor 24 on being installed in first adapter plate 23, and opposite side is equipped with second roller 29; The assembly floor 3 that namely delivers heavy-duty vehicle 1 is installed on the 3rd top roller 28, moves to next station from top one deck; The assembly floor 3 of having laid down the zero load of heavy-duty vehicle 1 is installed on the second following roller 29, move from following one deck and to return a supreme station, and the assembly floor 3 of the zero load on each station all moves to previous station, and progressively is back to and moves to first station.
After unloaded assembly floor 3 is back to first station, lifting motor 7 contrarotations, thereby driving lifting nut, platform adapter plate 10 and unloaded assembly floor 3 rises, stop after rising to the height of initial needs, row is waited for and is nextly needed the heavy-duty vehicle lifting of assembling to unloaded assembly floor 3.
Cylinder 19 also useable electric moter connects ball guide screw nat and replaces, and namely motor connects ball-screw and rotates and drive nut and move, and the lower end of Г type carriage is connected with nut, so the same characteristics that move up and down of realizing.
At least each needs to install two lifting table parts 5 on each limit on the both sides of each station of first station and the 5th station; At least each needs to install two fixed platform parts 22 on each limit on the both sides of each station of intermediate stations; And several fixed platform parts 22 can be installed between each station, to play transition assembly floor 3, reduce roller above each fixed platform parts 22 and the pressure of transition axis.
Guide rail 4 only last station needs, and drives into and heavy-duty vehicle 1 is delivered away from negative side to cooperate transport carriage 21.

Claims (4)

1. heavy-duty vehicle multistation assembling line, it is characterized in that: described manufacturing line straight line a plurality of stations that distribute, the ground upper mounting rail (4) of last station, guide rail (4) is installed on the ground and is symmetrically distributed about the center of station, and by the below that extends to last station from first station to the opposite direction of last station; First station is all at least respectively installed two lifting table parts (5) with the both sides of last station, two fixed platform parts (22) are all at least respectively installed in the both sides of intermediate stations, one assembly floor (3) is installed on each station, and assembly floor (3) is installed on lifting table parts (5) or the fixed platform parts (22); On each lifting table parts (5) on the last station shears parts (6) are installed all.
2. according to the described heavy-duty vehicle multistation of claim 1 assembling line, it is characterized in that: the lifting table parts (5) of described first station and last station comprise: lifting motor (7), elevating screw (8), lifting nut (9), platform adapter plate (10), first motor (11), Z-shaped adapter plate (12), first roller (13), first transition axis (14), angle case (15) and steering box (20); Lifting motor (7) is fixed in the following hole of ground line by angle case (15), angle case (15) connects on a plurality of elevating screws (8) by a plurality of steering boxs (20), a nested lifting nut (9) in each elevating screw (8), a plurality of lifting nuts (9) are connected on the platform adapter plate (10) simultaneously; The bottom surface of the lower shoe of Z-shaped adapter plate (12) is fixed on the ground, and the upper end of elevating screw (8) is fixed in the hole of bottom surface of upper plate of Z-shaped adapter plate (12); Be with first transition axis (14) by bearing in the platform adapter plate (10), one side of first transition axis (14) is connected with the output shaft of first motor (11) on being installed in platform adapter plate (10), opposite side is equipped with first roller (13), and the groove of assembly floor (3) by the bottom surface cooperates with the projection of first roller (13) of both sides lifting table parts (5) and be installed on first roller (13).
3. according to the described heavy-duty vehicle multistation of claim 1 assembling line, it is characterized in that: the shears parts (6) of described last station comprise: fixed block (16), orienting sleeve (17), Г type carriage (18) and cylinder (19); The fixed block of hollow (16) is fixed on the last end face of upper plate of Z-shaped adapter plate (12), the lower end of Г type carriage (18) is installed on the inner upper end of fixed block (16) by orienting sleeve (17), and is connected with the push rod of cylinder (19) on being installed on fixed block (16) bottom surface.
4. according to the described heavy-duty vehicle multistation of claim 1 assembling line, it is characterized in that: the fixed platform parts (22) of described intermediate stations comprise: first adapter plate (23), second motor (24), second transition axis (25), the 3rd motor (26), the 3rd transition axis (27), the 3rd roller (28) and second roller (29); The bottom surface of first adapter plate (23) in the described fixed platform parts (22) is fixed on the ground, on first adapter plate (23), the lower part is with the 3rd transition axis (27) and second transition axis (25) by bearing respectively, one side of the 3rd transition axis (27) is connected with the output shaft of the 3rd motor (26) on being installed in first adapter plate (23), opposite side is installed the 3rd roller (28) have projection, and the groove of the assembly floor (3) that is supporting heavy vehicle (1) by the bottom surface cooperates with the projection of the 3rd roller (28) and be installed on the 3rd roller (28); One side of second transition axis (25) is connected with the output shaft of second motor (24) on being installed in first adapter plate (23), opposite side is installed second roller (29) that has projection, the groove of assembly floor (3) by the bottom surface of laying down the zero load of heavy-duty vehicle (1) cooperates with the projection of second roller (29) and is installed on second roller (29), and the upper surface of the assembly floor of following zero load (3) and above be equipped with between the assembly floor (3) of heavy-duty vehicle (1) gapped.
CN 201320016873 2013-01-11 2013-01-11 Multi-station assembling line for heavy vehicle Withdrawn - After Issue CN203047415U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201320016873 CN203047415U (en) 2013-01-11 2013-01-11 Multi-station assembling line for heavy vehicle

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201320016873 CN203047415U (en) 2013-01-11 2013-01-11 Multi-station assembling line for heavy vehicle

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Publication Number Publication Date
CN203047415U true CN203047415U (en) 2013-07-10

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Application Number Title Priority Date Filing Date
CN 201320016873 Withdrawn - After Issue CN203047415U (en) 2013-01-11 2013-01-11 Multi-station assembling line for heavy vehicle

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Country Link
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103042388A (en) * 2013-01-11 2013-04-17 杭州浙大奔月科技有限公司 Heavy vehicle multi-station assembling production line
CN112623069A (en) * 2020-11-12 2021-04-09 南京理工大学 Bearing device and special automobile assembly production line

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103042388A (en) * 2013-01-11 2013-04-17 杭州浙大奔月科技有限公司 Heavy vehicle multi-station assembling production line
CN103042388B (en) * 2013-01-11 2015-05-20 杭州浙大奔月科技有限公司 Heavy vehicle multi-station assembling production line
CN112623069A (en) * 2020-11-12 2021-04-09 南京理工大学 Bearing device and special automobile assembly production line

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