CN109625824B - Double-layer sliding plate structure for conveying and assembling and double-layer lifting sliding plate - Google Patents

Abstract

The invention discloses a double-layer sliding plate structure for conveying and assembling and a double-layer lifting sliding plate, which comprises an upper-layer sliding plate frame assembly, wherein the upper-layer sliding plate frame assembly is used for assembling an operation platform; the lower-layer sliding plate frame assembly is used for rolling the conveying platform; the upper layer sliding plate frame assembly is connected with the lower layer sliding plate frame assembly through a stand column; the upper layer sliding plate frame assembly and/or the lower layer sliding plate frame assembly are/is provided with an electricity taking device for continuously taking electricity; the upper layer slide plate frame assembly is paved with a supporting plate for bearing during manual operation, and the supporting plate is provided with an illumination light source for illumination during manual operation. The invention has the advantages of simple structure and convenient use, not only has the advantages of the trolley type slide plate system that continuous line changing operation can be realized, but also has the advantages of high bearing capacity and stable operation of the slide plate system, and can provide illumination and brightness required by chassis line operation.

Description

Double-layer sliding plate structure for conveying and assembling and double-layer lifting sliding plate

Technical Field

The invention relates to a slide plate for conveying and assembling, belongs to the technical field of slide plate conveying systems in assembly workshops, and particularly relates to a double-layer slide plate structure for conveying and assembling and a double-layer lifting slide plate.

Background

Nowadays, automobiles are not only important transportation means for our daily life, but also important signs for scientific and technical development, and the automobile industry has become the pillar industry of national economy in China, which affects various parts of national economy.

The production line is used in the production and manufacturing processes of automobiles, the production line is used as a production line for producing automobiles, the production line comprises a car body assembly line, an interior assembly line, a chassis assembly line and the like, a slide plate system for conveying workpieces is arranged on each assembly line, and the slide plate systems on different assembly lines are transited through the switching equipment.

Currently, there are two main types of skateboard systems: skid-type skateboard system and trolley-type skateboard system. The skid type skateboard system generally comprises a skid, wherein the skid consists of two parallel longitudinal beams and a cross beam arranged between the two longitudinal beams, and the structure is shown as CN201304388Y, CN201317422Y, CN 201317419Y; the skid-type sliding plate system has the advantages of stable operation and high bearing capacity, and has the defect that continuous line replacement operation cannot be realized, because each skid-type sliding plate system can only be used for one type of assembly line, a plurality of skid-type sliding plate systems are required to be configured for a plurality of different types of assembly lines, and an automobile production line generally comprises a plurality of different types of assembly lines, a plurality of skid-type sliding plate systems are required to be configured, so that the defects of high equipment investment and large occupied area are caused.

The trolley type sliding plate system generally comprises an upper layer sliding plate frame assembly and two groups of roller assemblies which are arranged in an orthogonal mode and are arranged below the upper layer sliding plate frame assembly, the concrete structure of the trolley type sliding plate system is shown in CN203997879U, continuous line changing operation can be achieved, and the defects that bearing capacity is insufficient and the trolley type sliding plate system is easy to clamp in the operation process are overcome.

The two types of slide plate systems are not provided with illumination systems generally, when a vehicle chassis line needs to be assembled, fluorescent tubes are paved on the whole ground of the chassis line generally, the fluorescent tubes illuminate the vehicle chassis through the slide plate systems, and the illuminance transmitted to an assembly position is difficult to reach the normal illuminance required by manual operation because the fluorescent tubes on the ground have a height difference of about 1 meter from a honeycomb panel.

In view of the foregoing, there is a need for a skateboard apparatus that not only can accommodate different process assembly requirements for interior trim, chassis, final line, complete reliable support and transport of the body from the interior trim to the chassis to the final line, and process assembly procedures, but also has sufficient load-bearing capacity, operational stability, and provides sufficient lighting brightness for the chassis.

Disclosure of Invention

Aiming at different sliding plate structural forms of the traditional assembly workshop, the invention provides a double-layer sled type lifting sliding plate, which can simultaneously meet the conveying and positioning requirements of interior decorations, chassis and final line car bodies, can realize the lifting change of the car bodies from 200 mm-1750 mm in height according to the assembly requirements of different stations, and can provide the illumination brightness required by the line operation of the chassis.

In order to achieve the purpose, the invention discloses a double-layer sliding plate structure for conveying and assembling, which comprises an upper-layer sliding plate frame assembly, wherein the upper-layer sliding plate frame assembly is used for assembling an operation platform; the lower-layer sliding plate frame assembly is used for rolling the conveying platform; the upper layer sliding plate frame assembly is connected with the lower layer sliding plate frame assembly through a stand column; the upper-layer sliding plate frame assembly and/or the lower-layer sliding plate frame assembly are/is provided with an electricity taking device for continuously taking electricity; the upper layer slide plate frame assembly is paved with a supporting plate for bearing during manual operation, and the supporting plate is provided with an illumination light source for illumination during manual operation.

In a preferred embodiment of the present invention, the support plate is a honeycomb plate, and the illumination light source is a fluorescent tube, and the fluorescent tube is mounted in the honeycomb plate.

In a preferred embodiment of the present invention, the lower slider frame assembly is provided with a first feed direction roller and a second feed direction roller.

In a preferred embodiment of the present invention, the first and second transport direction rollers on the lower deck pallet assembly are of unequal roller-to-roller widths.

In a preferred embodiment of the present invention, the lower deck pallet assembly includes a longitudinal skid and a lateral skid arranged perpendicular to each other.

In a preferred embodiment of the invention, the upper layer sliding plate frame assembly is formed by sequentially connecting a first frame, a second frame and a third frame, wherein the first frame and the third frame are respectively provided with a material trolley track, the second frame is provided with a front-back suspension trolley track, and the material trolley tracks and the front-back suspension trolley tracks are mutually parallel.

In a preferred embodiment of the present invention, a wood board assembly is laid over the upper deck rack assembly, the wood board assembly including wood boards and honeycomb boards.

In a preferred embodiment of the invention, the wood panel assembly consists essentially of thick container wood panels and honeycomb panels; wood boards are paved on two sides, and honeycomb boards are paved in the middle; the wood plate is drilled with countersunk screw holes, and is matched with the drill screw holes on the framework on the sliding plate on site and fixed by screws; the middle is paved with a milky white honeycomb plate, the light transmittance is good, the milky white honeycomb plate is used for lighting the bottom of chassis operation, and the milky white honeycomb plate is also connected with a slide plate frame by adopting countersunk screws.

In a preferred embodiment of the invention, the electricity taking device comprises an electricity taking device mounting bracket and an electricity taking device mounted on the electricity taking device mounting bracket, wherein the electricity taking device mounting bracket is T-shaped, and the electricity taking device at least comprises two groups of sliding contact line connectors which are arranged in parallel.

The invention also discloses a double-layer lifting slide plate for conveying and assembling, which comprises a double-layer slide plate structure for conveying and assembling, wherein a lifting mechanism assembly is arranged on the upper-layer slide plate frame assembly and/or the lower-layer slide plate frame assembly.

In a preferred embodiment of the present invention, the lifting mechanism assembly is bottom supported on the lower floor skid assembly through the upper floor skid assembly.

In a preferred embodiment of the present invention, the upper layer slider frame assembly and/or the lower layer slider frame assembly are/is connected with a waveguide communication device, the waveguide communication device comprises a waveguide antenna mounting bracket and a waveguide antenna mounted on the waveguide antenna mounting bracket, and the waveguide antenna mounting bracket is L-shaped.

In a preferred embodiment of the present invention, the upper layer slider frame assembly and/or the lower layer slider frame assembly are/is connected with a position recognition device, and the position recognition device includes a two-dimensional code read-write head mounting bracket and a two-dimensional code read-write head mounted on the two-dimensional code read-write head mounting bracket.

The invention relates to a bottom groined sledge, a split lifting platform and a slide plate upper frame; the bottom groined sled is used as a main bearing conveying beam, the lifting platform is directly arranged on the bottom sled, the upper framework of the sliding plate is in threaded connection with the bottom sled through the stand column of the supporting leg, a double-layer structure is formed, and the installation space of the lifting platform and the operation bearing requirements are guaranteed.

In a preferred embodiment of the invention, the lower layer skateboard frame assembly is fixedly connected with a guide wheel device for guiding the linear running of the skateboard.

In a preferred embodiment of the invention, the guide wheel device comprises a guide wheel roller, a mounting bracket, a deep groove ball bearing, a guide wheel shaft and an adjusting shim. The pin shaft is in clearance fit with the bearing and the guide wheel idler wheel, so that the installation is convenient; after the guide wheel is adjusted, a heavy positioning pin and a sledge body are matched for drilling a mounting hole for positioning, so that the running reliability of the sliding plate is ensured.

The lifting mechanism assembly is used for bearing the vehicle body and realizing lifting change of the vehicle body height from 200-1750 mm according to different process requirements; the position recognition device is used for accurately recognizing and positioning the slide plate in the process of line switching or running; the power taking device adopts a sliding wire to take power and is used for providing power electricity for the lifting platform mechanism assembly; the waveguide communication device is used for transmitting and feeding back the electrical signals in the operation process.

In a preferred embodiment of the invention, the lifting mechanism assembly comprises a rigid chain, a universal coupling, a motor reducer, a scissor lift 1, a scissor lift 2, a pull rope encoder, a mounting bottom frame and the like; the lifting platforms 1/2 are respectively arranged on the bottom frames, the motor speed reducers are arranged in the middle positions and are directly connected with the rigid chains on the left side and the right side through the couplings and the flanges, the rigid chains on the left side and the right side are connected with the upper table top bolts of the lifting platforms 1/2 on the left side and the right side, and the motor speed reducers drive the rigid chains to lift and descend upwards, so that the lifting and descending of the lifting platforms on the left side and the right side are realized.

In a preferred embodiment of the present invention, the position recognition device includes a two-dimensional code read-write head, a two-dimensional code read-write head mounting bracket, and a two-dimensional code band. The two-dimensional code strip is fixed on the track support along the running direction of the line body, the two-dimensional code read-write head is fixed on the sliding plate sledge body through the installing support, the two-dimensional code strip is identified and stuck above the track aluminum alloy through the two-dimensional code read-write head in the running process, the two-dimensional code information is recorded, the purpose of identifying the position is achieved through reading the information, the accuracy can reach within +/-0.2 mm, and the accurate positioning is achieved.

In a preferred embodiment of the present invention, the electricity taking device includes an electricity taking device mounting bracket, an electricity taking device, and a sliding wire. The slide wire is fixed in track support aluminum alloy side along the line body direction of operation, and 2 sets of electricity extractors are fixed in on the slide sled body through the installing support when unilateral operation, for the reliable power supply of elevating platform in the walking process.

In a preferred embodiment of the present invention, the waveguide communication device includes a waveguide, an antenna, and an antenna mounting bracket. The waveguide tube is fixed on the aluminum alloy side of the track support along the running direction of the line body, the communication antenna is fixed on the skid body through the mounting support, the communication antenna penetrates into the waveguide tube cavity in the running process, communication information transmission is realized through the microwave waveguide tube, and the mode is high in transmission speed and high in anti-interference capability.

The beneficial effects of the invention are as follows: the invention has the advantages of simple structure and convenient use, not only has the advantages of the trolley type slide plate system that continuous line changing operation can be realized, but also has the advantages of high bearing capacity and stable operation of the slide plate system, and can provide illumination required by chassis line operation, thereby facilitating the assembly of the bottom of the vehicle body by operators; according to the invention, the upper-layer sliding plate frame assembly and the lower-layer sliding plate frame assembly are matched with the lower-layer sliding plate frame assembly of at least two sliding skis which are arranged in a crossed manner, so that the collinear operation of the sliding plate is realized, and meanwhile, the bearing capacity and the operation stability of the sliding plate are ensured; furthermore, the lower-layer sliding plate frame assembly is designed to be composed of the longitudinal sliding plate and the transverse sliding plate which are mutually and vertically arranged, so that the modularization processing and the manufacturing of the lower-layer sliding plate frame assembly are facilitated, and the assembly and the replacement are facilitated; furthermore, the width of the longitudinal skid and the width of the transverse skid are designed to be different sizes, so that the collinear operation of the sliding plate is realized; furthermore, the upper-layer sliding plate frame assembly is designed into a split structure, so that the upper-layer sliding plate frame assembly is convenient to install and transport; furthermore, the invention is convenient for the use of the slide plate by adding the material trolley track and the front and rear suspension trolley tracks on the upper slide plate frame assembly; furthermore, the wood board assembly is paved on the upper-layer sliding plate frame assembly, so that construction work of the upper-layer sliding plate frame assembly is facilitated for constructors; furthermore, the invention combines the rigid chain lifting table, the sliding wire electricity taking, the waveguide communication, the groined sled and the sliding plate frame, realizes stable conveying, reliable positioning and lifting change of different process heights of the vehicle body in the process of assembly of the final wire process assembly of the final assembly of the inner decoration, the chassis, reduces the wire transferring difficulty among wire body equipment and greatly lightens the operation intensity of a wire operator. The invention has high automation flexibility degree, meets the modern production requirement of factories, and has good practicability and popularization.

Drawings

FIG. 1 is a front view of an overall conveyor structure of the present invention;

FIG. 2 is a top view of the unitary conveying structure of the present invention;

FIG. 3 is a left side view of the overall conveyor structure of the present invention;

FIG. 4 is an isometric view of the unitary conveying structure of the present invention;

FIG. 5 is an isometric view of a main frame structure of the present invention;

FIG. 6 is an isometric view of an upper frame structure of the present invention;

FIG. 7 is an isometric view of a herringbone sled structure + column arrangement in accordance with the present invention;

FIG. 8 is an isometric view of a herringbone sled structure of the present invention;

FIG. 9 is a top view of a wood board assembly of the present invention;

FIG. 10 is an isometric view of a guide wheel assembly of the present invention;

FIG. 11 is a front view of a guide wheel assembly of the present invention;

FIG. 12 is a front view of a lift mechanism assembly of the present invention;

FIG. 13 is an isometric view of a lifting mechanism assembly of the present invention;

FIG. 14 is an isometric view of a lift table of the present invention;

FIG. 15 is an isometric view of a position identification apparatus of the present invention;

FIG. 16 is an isometric view of an electrical power take-off device of the present invention;

FIG. 17 is an isometric view of a waveguide communication device according to the present invention;

FIG. 18 is a schematic view of a solar light tube according to the present invention;

FIG. 19 is a schematic view showing a part of a fluorescent tube according to the present invention;

FIG. 20 is a sectional view showing the installation of a fluorescent tube according to the present invention;

in the figure, the lower layer slide plate frame assembly, the 2-wood plate assembly, the 3-guide wheel assembly, the 4-lifting mechanism assembly, the 5-electricity taking device, the 6-position identification device, the 7-waveguide communication device, the 8-upper layer slide plate frame assembly, the 9-upright post, the 10-material trolley track, the 11-front and back suspension trolley track, the 12-pin shaft, the 13-first frame, the 14-second frame, the 15-third frame, the 16-longitudinal sledge body, the 17-transverse sledge body, the 18-wood plate, the 19-honeycomb plate, the 20-locating pin, the 21-guide wheel mounting seat, the 22-guide wheel shaft, the 23-deep groove ball bearing, the 24-guide wheel roller, the 25-adjusting cushion plate, the 26-lifting platform, the 27-universal coupling, the 28-motor reducer, the 29-rigid chain, the 30-lifting platform bottom frame, the 31-front supporting block, the 32-upper platform, the 33-supporting arm, the 34-rear supporting block, the 35-encoder, the 36-fixed seat, the 37-sliding support seat, the 38-device, the 38-39-linear rack support, the 40-rack support, the reading device, the linear support and the reading device are mounted on the antenna mount, the guide brackets, the 43 and the reader-wharf, and the reader and the antenna are mounted on the support and the reader and the 4; 47-fluorescent tube.

Description of the embodiments

The invention is described in further detail below with reference to the attached drawings and specific examples:

the sled type lifting slide board shown in fig. 1, 2, 3 and 4 mainly comprises a lower layer slide board frame assembly 1, a wood board assembly 2, a guide wheel assembly 3, a lifting mechanism assembly 4, an electricity taking device 5, a position identification device 6, a waveguide communication device 7 and an upper layer slide board frame assembly 8. The lower-layer sliding plate frame assembly 1 is in a groined structure as shown in the figure, and the guide wheel assembly 3, the lifting mechanism assembly 4, the power taking device 5, the position identifying device 6 and the waveguide communication 7 are all fixed on the lower-layer sliding plate frame assembly 1 by adopting screw connection; the wood board assembly 2 is inlaid on the upper-layer sliding plate frame assembly 8 and is fixed by countersunk bolts; the lower layer sliding plate frame assembly 1 is supported and connected with the upper layer sliding plate frame assembly 8 through upright posts 9 by bolts.

In the above technical solution, as shown in fig. 5 and 6, the upper layer slide plate rack assembly 8 includes a first frame 13, a second frame 14, a third frame 15, a material trolley track 10, and a front-rear suspension trolley track 11; the first frame 13, the second frame 14 and the third frame 15 are sleeved through the pin shafts 12, an integral frame is formed by adopting M16 bolt connection, and when the bolts are screwed, the Loose-preventing glue is smeared to prevent loosening, so that the integral rigidity of the frame is ensured to be enough; the upper frame is laid with material trolley tracks 10 along the length direction and two side edges, and front and rear suspension trolley tracks 11 are laid in the middle, and the tracks are connected and fixed with the frame by countersunk screws.

In the above technical solution, as shown in fig. 7 and 8, the lower layer slider frame assembly 1 includes a longitudinal slider body 16 and a transverse slider body 17; the two sets of transverse sledges 17 are respectively arranged at the left side and the right side of the longitudinal sledges 16 to form a groined sledge; through bolted connection, join in marriage after the adjustment and bore locating pin mounting hole, limit through the locating pin, skid body junction bottom is polished smoothly, ensures that skid body bottom flatness satisfies the operation requirement, and the walking is steady.

In the above technical solution, as shown in fig. 9, the board assembly 2 includes a board 18 and a honeycomb board 19. The wood board 18 adopts a container wood board, the thickness is 28mm, and the bearing capacity is not less than 250kg/m2; the honeycomb plate 19 is milk white semitransparent, so that the illumination requirement of the operation inside the lifting table during chassis operation is met; the lower end of the honeycomb plate 19 is provided with a fluorescent lamp mounting groove in which a fluorescent lamp tube 47 is arranged.

In the above technical solution, as shown in fig. 10 and 11, the guide wheel assembly 3 includes a positioning pin 20, a guide wheel mounting seat 21, a guide wheel shaft 22, a deep groove ball bearing 23, a guide wheel roller 24, and an adjusting pad 25; the straightness installation requirement of the guide wheels is that the guide wheel assemblies are fixed in a group of three in two vertical directions of the longitudinal line sledge body within +/-0.5 mm, so that the sliding plate can reliably guide the longitudinal running and the transverse running of the sliding plate.

In the above technical solution, as shown in fig. 12 and 13, the lifting mechanism assembly 4 includes a lifting platform 26, a universal coupling 27, a motor reducer 28, a rigid chain 29, and a lifting platform bottom frame 30; the lifting platforms 26 are respectively arranged on left and right lifting platform bottom frames 30, the motor speed reducer 28 is arranged in the middle position and is directly connected with the rigid chains 29 on the left and right sides through universal couplings 27 and flanges, and the rigid chains 29 on the left and right sides are connected with the upper table top bolts of the lifting platforms 26 on the left and right sides; the motor speed reducer 28 drives the rigid chain 29 to rotate, so that the rigid chain 29 can be lifted upwards and lowered, the lifting table 26 can be lifted upwards and lowered, the vehicle body can be arranged above the lifting table supporting block, and the change of different heights of the vehicle body according to process requirements can be realized.

In the above technical solution, as shown in fig. 14, the lifting platform 26 includes a front supporting block 31, an upper table top 32, a supporting arm 33, a rear supporting block 34, a pull rope encoder 35, a fixing base 36, a lifting platform bottom frame 30, a sliding support 37, a self-locking device 38, a linear sliding rail 39, and a rack 40.

In the above technical solution, as shown in fig. 15, the position identifying device 6 includes a two-dimensional code read-write head 42 and a two-dimensional code read-write head mounting bracket 41. The two-dimensional code read-write head 42 is fixed on the lower layer slide plate frame assembly 1 through the two-dimensional code read-write head installing support 41, the two-dimensional code tape stuck above the track aluminum alloy is identified through the two-dimensional code read-write head 42 in the walking process, the two-dimensional code information is recorded, the purpose of identifying the position is achieved through reading the information, the two-dimensional code positioning accuracy can reach within +/-0.2 mm, and therefore the accurate positioning of the slide plate is achieved.

In the above technical solution, as shown in fig. 16, the electricity taking device 5 includes an electricity taking device mounting bracket 43 and an electricity taking device 44. The electricity taking device 44 is fixed on the side edge of the lower-layer sliding plate frame assembly 1 through the electricity taking device mounting bracket 43, copper bars of the electricity taking device 44 are arranged in the inner cavity of the sliding wire in the running process, and the electricity taking device 44 is ensured to be in effective contact with the sliding wire in the track system through the tension spring mechanism of the electricity taking device 44, so that a 380v alternating current power supply is reliably provided.

In the above technical solution, as shown in fig. 17, the waveguide communication device 7 includes a waveguide antenna 46 and a waveguide antenna mounting bracket 45. The waveguide antenna 46 is fixed on the lower-layer sliding plate frame assembly 1 through the waveguide antenna mounting bracket 45, the waveguide antenna 46 penetrates into the waveguide pipe inner cavity in the track system in the running process, communication information is transmitted and received through microwave transmission, and the mode is high in transmission speed and high in anti-interference capability.

The working process of the invention is as follows: when the sliding plate assembly runs along the running direction, the longitudinal/transverse beams of the lower sliding plate frame assembly 1 are supported on the carrier roller rubber coating wheels of the track system, the guide wheel rollers 24 run in the guide grooves to play a role in guiding so as to ensure the linear running of the sliding plate, the electricity collector 44 is in effective contact with the power supply of the track system in the running process, the waveguide antenna 46 runs in the waveguide communication pipe to realize continuous real-time power supply and communication, the two-dimensional code belt is laid on the whole process section, the lifting station is required to recognize and position the two-dimensional code through the two-dimensional code read-write head 42 in the assembly process, the lifting station is reached, the position signals are fed back through the PLC, the motor speed reducer 28 of the lifting station drives the rigid chains 29 on the left side and the right side to realize the synchronous lifting station to rise, the motor speed reducer starts to reversely rotate through the PLC feedback signals after the operation is finished, the rigid chains reversely rotate, the lifting station synchronously descends, the process can realize continuous lifting and real-time communication on the whole line as required, and the like.

The foregoing is merely a specific structural manner of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the scope of the present invention should be included in the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims (9)

1. The utility model provides a carry assembly with double-deck slide structure which characterized in that: comprising

The upper-layer sliding plate frame assembly (8), wherein the upper-layer sliding plate frame assembly (8) is used for assembling an operation platform;

the lower-layer sliding plate frame assembly (1), and the lower-layer sliding plate frame assembly (1) is used for rolling a conveying platform;

the upper-layer sliding plate frame assembly (8) is connected with the lower-layer sliding plate frame assembly (1) through a stand column (9);

the upper-layer sliding plate frame assembly (8) and/or the lower-layer sliding plate frame assembly (1) are/is provided with an electricity taking device (5) for continuously taking electricity;

the upper-layer sliding plate frame assembly (8) is paved with a supporting plate for carrying during manual operation, and the supporting plate is provided with an illumination light source for illumination during manual operation;

the lower-layer sliding plate frame assembly (1) comprises a longitudinal sledge body (16) and a transverse sledge body (17); two sets of transverse sledges (17) are respectively arranged at the left side and the right side of the longitudinal sledges (16) to form a groined sledge.

2. The double-deck slide plate structure for transportation and assembly according to claim 1, wherein: the support plate is a honeycomb plate, the illumination light source is a fluorescent tube, and the fluorescent tube is arranged in the honeycomb plate.

3. The double-deck slide plate structure for transportation and assembly according to claim 1, wherein: the lower-layer sliding plate frame assembly (1) is provided with a first conveying direction roller and a second conveying direction roller.

4. A double-deck slide plate structure for transportation and assembly according to claim 3, wherein: the roller distance width of the first conveying direction roller and the second conveying direction roller on the lower-layer sliding plate frame assembly (1) is unequal.

5. The double-deck slide plate structure for transportation and assembly according to claim 1, wherein: the upper-layer sliding plate frame assembly (8) is formed by sequentially connecting a first frame (13), a second frame (14) and a third frame (15), material trolley tracks (10) are arranged on the first frame (13) and the third frame (15), front and rear suspension trolley tracks (11) are arranged on the second frame (14), and the material trolley tracks (10) and the front and rear suspension trolley tracks (11) are arranged in parallel.

6. Double-deck lift slide is used in transportation assembly, its characterized in that: comprising a double-deck skid structure for transportation and assembly according to any one of claims 1-5, wherein the upper layer skid frame assembly (8) and/or the lower layer skid frame assembly (1) are provided with lifting mechanism assemblies (4).

7. The double-deck lifting slide for conveying and assembling according to claim 6, wherein: the bottom of the lifting mechanism assembly (4) is supported on the lower-layer sliding plate frame assembly (1) and penetrates through the upper-layer sliding plate frame assembly (8).

8. The double-deck lifting slide for conveying and assembling according to claim 6, wherein: the upper-layer sliding plate frame assembly (8) or/and the lower-layer sliding plate frame assembly (1) is connected with a waveguide communication device (7), the waveguide communication device (7) comprises a waveguide antenna mounting bracket (46) and a waveguide antenna (47) mounted on the waveguide antenna mounting bracket (46), and the waveguide antenna mounting bracket (46) is L-shaped.

9. The double-deck lifting slide for conveying and assembling according to claim 6, wherein: the upper-layer slider frame assembly (8) or/and the lower-layer slider frame assembly (1) is connected with a position identification device (6), and the position identification device (6) comprises a two-dimensional code read-write head mounting bracket (41) and a two-dimensional code read-write head (43) mounted on the two-dimensional code read-write head mounting bracket (41).