阅读说明：本技术 一种建筑设计样品移动展示装置 (Architectural design sample removes display device ) 是由 马凯 于 2020-07-31 设计创作，主要内容包括：本发明公开了一种建筑设计样品移动展示装置,包括底载盘、旋撑台、提连盘、移撑盘和移载机构,所述底载盘内部上方设置有第一电机,且第一电机上方通过输出轴转动连接有呈长方体形结构的旋撑台。本发明的有益效果是：将建筑设计样品放置到移载机构的摆放盘上进行展示,随后,第四电机通过输出轴带动转板旋转,通过两个夹座上的橡胶垫分别建筑设计样品底部两侧压夹固定,在保证建筑设计样品被移动展示的过程中更加稳固牢靠的同时,又避免夹座对建筑设计样品造成刮擦损坏；第一电机通过输出轴带动旋撑台整体旋转调节,改变建筑设计样品展示的位置,极大的提高了该装置能够带动建筑设计样品移动的位置范围。(The invention discloses a mobile display device for architectural design samples, which comprises a base load disc, a rotary support table, a lifting connecting disc, a movable support disc and a moving and carrying mechanism, wherein a first motor is arranged above the inside of the base load disc, and the rotary support table in a cuboid structure is rotatably connected above the first motor through an output shaft. The invention has the beneficial effects that: the building design sample is placed on a placing plate of a transfer mechanism for displaying, then, a fourth motor drives a rotating plate to rotate through an output shaft, and the rotating plate is pressed and clamped at two sides of the bottom of the building design sample respectively through rubber pads on two clamping seats for fixing, so that the building design sample is more stable and firm in the moving and displaying process, and meanwhile, the clamping seats are prevented from scraping and damaging the building design sample; first motor passes through the output shaft and drives the whole rotation regulation of rotary supporting platform, changes the position of architectural design sample show, very big improvement the device can drive the position scope that architectural design sample removed.)

1. The utility model provides a architectural design sample removes display device, includes that the end carries dish (1), supports platform (2) soon, carries even dish (3), moves and props dish and move and carry mechanism (9), its characterized in that: a first motor (10) is arranged above the inner part of the bottom loading disc (1), a rotary support table (2) in a cuboid structure is rotatably connected above the first motor (10) through an output shaft, a lifting connecting disc (3) is arranged above the rotary support table (2), the lifting connecting disc (3) comprises six hydraulic cylinders (4), the six hydraulic cylinders (4) are respectively and vertically arranged at the edge of the upper end surface of the rotary support table (2), the upper parts of the six hydraulic cylinders (4) are respectively connected with a lifting rod (5) through a hydraulic column (401) in an extending way, a supporting component is horizontally arranged above the lifting connecting disc (3), buckling frames (6) are respectively arranged at both sides of the supporting component, an end connecting seat (7) is respectively arranged at both ends between the two buckling frames (6), a plurality of moving and supporting discs (8) are hung between the two buckling frames (6), and moving and supporting mechanisms (9) are arranged above the plurality of moving and supporting discs (8);

wherein, the upper parts of the middle parts of the two buckle frames (6) are respectively provided with a rolling groove (11), and a plurality of convex teeth (12) with triangular sections are arranged below the inner wall at one side of the rolling groove (11);

a supporting box (14) in a rectangular structure is arranged below the middle of the support moving disc (8), conveying sub-discs (16) are arranged on two sides of the upper end of the supporting box (14), sleeve frames (27) with U-shaped sections are arranged on the two conveying sub-discs (16), third motors (22) are arranged at two ends of the outer wall of each sleeve frame (27), one ends of the third motors (22) are rotatably connected with transmission shafts (23), the transmission shafts (23) are sleeved with rotary discs (24) in cylindrical structures, crawler belts (25) are rotatably connected onto the rotary discs (24), supporting legs (18) with L-shaped sections are arranged on two sides of the bottom of each sleeve frame (27), a second motor (19) is vertically arranged below each supporting leg (18), and a gear (20) is rotatably connected below each second motor (19) through an output shaft;

the second motors (19) below the two sides of the bottom of the distributing disc 16 are respectively connected to the rolling grooves (11) of the two buckling frames (6), the gears (20) are meshed and connected with the convex teeth (12) on the inner wall of one side of the rolling grooves (11), and one ends of the supporting legs (18) are welded to the side wall of the supporting box (14) through fixing blocks (17);

the transfer mechanism (9) comprises an inner mounting seat (28), the inner mounting seat (28) is arranged below the middle part of the transfer mechanism (9), a mounting frame (31) is arranged on the transfer mechanism (9), two inner supporting frames (32) are welded above the middle part of the mounting frame (31), a welding plate (33) is welded in the middle part between the upper end faces of the two inner supporting frames (32), a fourth motor (34) is sleeved in the middle part of the welding plate (33), a rotating plate (35) is rotatably connected above the fourth motor (34) through an output shaft, first pin shafts (36) are arranged at two ends of the rotating plate (35), pull arms (37) are sleeved on the two first pin shafts (36), second pin shafts (41) are sleeved at one ends of the two pull arms (37) far away from the first pin shafts (36), slide mounting plates (40) in a rectangular structure are vertically welded below the two second pin shafts (41), and clamp seats (30) with inverted L-shaped structures in cross sections are welded at the upper ends of the two slide mounting plates (40), side supporting frames (42) are welded above two sides of the installing frame (31), a placing disc (29) is welded above the two side supporting frames (42), and two sides of the bottom of the installing frame (31) are respectively fixedly connected with two tracks (25) on the moving and supporting disc (8) through viscose glue;

the clamping seat (30) is vertically provided with a vertical plate (43), the upper end of the side wall of one side of the vertical plate (43) is welded with a top welding frame (44) in a rectangular structure, and one end, far away from the vertical plate (43), of the top welding frame (44) is provided with a rubber pad (45) in a rectangular structure.

2. The mobile display device of claim 1, wherein the base carrier (1) is located below the middle of the rotary support platform (2), and the base carrier (1) is a rectangular parallelepiped structure.

3. A mobile construction design sample display device according to claim 2, wherein the top of the output shaft of the first motor (10) is welded to the middle inner part of the rotary supporting platform (2).

4. The mobile display device for architectural design samples according to claim 2, wherein the bottoms of the two buckling frames (6) are vertically connected with three pushing and lifting rods (5), and the hydraulic cylinder (4) is movably connected with the buckling frames (6) and the moving and supporting disc (8) through the pushing and lifting rods (5).

5. The mobile display device for architectural design samples according to claim 4, wherein the cross section of the two end connecting seats (7) is of a T-shaped structure, a penetrating shaft (701) which is of a cylindrical structure is arranged between the two end connecting seats (7), the supporting box (14) is provided with a sleeve hole (15) which is matched with the penetrating shaft (701), and the penetrating shaft (701) penetrates through the sleeve hole (15).

6. The architectural design sample moving and displaying device according to claim 5, wherein sliding grooves (13) are formed above the inner walls of the two sides of the rolling groove (11) of the two buckle frames (6), and the extending plates (21) of the two sides of the second motor (19) are respectively connected into the sliding grooves (13) of the two sides of the rolling groove (11).

7. The mobile display device for architectural design samples according to claim 5, wherein the rotary table (24) is located at an end of the sleeve frame (27), the transmission shaft (23) penetrates through the sleeve frame (27), a concave rolling groove II is arranged in the middle of an edge of the rotary table (24), a plastic ring is sleeved in the rolling groove II, and the crawler (25) is sleeved in the rolling groove II.

8. The mobile display device of claim 7, wherein a top supporting plate (26) is horizontally arranged above the middle of the sleeve frame (27), and the top supporting plate (26) is located between the turntables (24) at the two ends of the sleeve frame (27).

9. The architectural design sample moving display device according to claim 1, wherein the fourth motor (34) is movably connected with the pull arm (37) and the sliding plate (40) through a rotating plate (35), the two ends of the upper end surfaces of the two inner supporting frames (32) are respectively provided with a sliding rail (38), the two sides of the bottom of the sliding plate (40) are respectively provided with a sliding sleeve (39), the sliding sleeves (39) at the two sides of the bottom of the sliding plate (40) are respectively covered on the sliding rails (38) at the end parts of the two inner supporting frames (32), the two clamping seats (30) are symmetrically arranged, the cross section of the placing plate (29) is of an inverted U-shaped structure, and the upper end surface of the placing plate (29) is of a planar structure.

10. The architectural design sample mobile display device according to claim 1, wherein the method of using the architectural design sample mobile display device specifically comprises the following steps:

the method comprises the following steps: placing the architectural design sample on a placing disc (29) of a transfer mechanism (9), then, driving a rotating plate (35) to rotate by a fourth motor (34) through an output shaft, driving two pull arms (37) and two sliding plates (40) to slide by the rotating plate (35) through first pin shafts (36) at two ends respectively, and pressing and clamping and fixing two sides of the bottom of the architectural design sample through rubber pads (45) on two clamping seats (30) respectively;

step two: the third motor (22) drives the rotary table (24) to rotate through the transmission shaft (23), the rotary table (24) drives the crawler belt (25) to roll, the crawler belt (25) drives the transfer mechanism (9) and the architectural design samples to move back and forth, the positions of the architectural design samples to be displayed are changed, the second motor (19) drives the gear (20) to be meshed with the convex teeth (12) to roll, the transfer support disc (8), the transfer mechanism (9) and the architectural design samples are driven to move left and right on the buckle frame (6) to be adjusted, and the positions of the architectural design samples to be displayed are changed;

step three: first motor (10) pass through the output shaft and drive the whole rotation regulation of spiral brace platform (2), change the position of architectural design sample show, six pneumatic cylinders (4) are in step through hydraulic pressure post (401) drive push-off rod (5), detain frame (6) and architectural design sample lift adjustment height.

Technical Field

The invention relates to a mobile display device, in particular to a mobile display device for architectural design samples, and belongs to the technical field of application of the architectural design sample display device.

Background

Architectural design sample is various, accomplishes the back at architectural design sample processing, often places on removing display device, drives architectural design sample through removing display device and removes the position of adjusting by the show, makes the visitor can be better, more comprehensive appreciate architectural design sample.

Present architectural design sample removes display device still has very big defect when using, architectural design sample when placing current removal display device and go up the removal, easily take place the shake, empty, easily lead to the damage of architectural design sample, lead to the architectural design sample to place the fastness on the current removal display device, the security is relatively poor, and current removal display device can drive the scope that architectural design sample removed the show very little, the region that is used for loading the part of architectural design sample on the removal display device can be adjusted by the activity is very little, the staff gets to removing display device, it is very inconvenient to put architectural design sample, the stability when current removal display device wholly uses is very poor, and the volume that can load architectural design sample is very little.

Disclosure of Invention

The invention aims to solve the problems that when a building design sample is placed on the existing mobile display device to move, the building design sample is easy to shake and topple, the building design sample is easy to damage, and the building design sample is poor in firmness and safety when placed on the existing mobile display device; the existing mobile display device can drive the architectural design samples to be displayed in a very small range in a mobile way, and the area of the mobile display device, which is used for loading the architectural design samples, can be movably adjusted is very small; the worker is very inconvenient to take and place the architectural design sample on the mobile display device; the existing mobile display device has poor stability when being used integrally; and the small quantity of the architectural design samples can be loaded, and the architectural design sample mobile display device is provided.

The purpose of the invention can be realized by the following technical scheme: a building design sample moving display device comprises a bottom carrying disc, a rotary supporting table, a lifting connecting disc, a moving supporting disc and a moving and carrying mechanism, wherein a first motor is arranged above the inner portion of the bottom carrying disc, the upper portion of the first motor is connected with the rotary supporting table in a rectangular structure through an output shaft in a rotating mode, the lifting connecting disc is arranged above the rotary supporting table and comprises six hydraulic cylinders, the six hydraulic cylinders are respectively and vertically arranged at the edge of the upper end face of the rotary supporting table, a pushing rod is connected above the six hydraulic cylinders in an extending mode through hydraulic columns, a supporting and supporting assembly is horizontally arranged above the lifting connecting disc, buckling frames are arranged on two sides of the supporting and supporting assembly, end connecting seats are arranged at two ends between the two buckling frames, a plurality of moving and supporting discs are hung between the two buckling frames, and the moving and carrying mechanism is arranged above the plurality of moving and supporting discs;

wherein, the upper parts of the middle parts of the two buckling frames are respectively provided with a rolling groove, and a plurality of convex teeth with triangular sections are arranged below the inner wall at one side of the rolling groove, so that the convex teeth are conveniently meshed with the gear;

a supporting box in a rectangular structure is arranged below the middle of the moving and supporting disc, conveying and separating discs are arranged on two sides of the upper end of the supporting box, sleeve frames with U-shaped sections are arranged on the two conveying and separating discs, third motors are arranged at two ends of the outer walls of the sleeve frames, one ends of the third motors are rotatably connected with transmission shafts, the transmission shafts are sleeved with rotating discs in cylindrical structures, tracks are connected to the rotating discs in a rolling mode, supporting legs with L-shaped sections are arranged on two sides of the bottoms of the sleeve frames, second motors are vertically arranged below the supporting legs, and gears are rotatably connected below the second motors through output shafts;

the second motors below two sides of the bottom of the conveying and distributing disc are respectively connected to the rolling grooves of the two buckling frames, the gear is meshed with the convex teeth on the inner wall of one side of the rolling groove, and one end of each support leg is welded to the side wall of the supporting box through the fixing block;

the transfer mechanism comprises an inner seat which is arranged below the middle part of the transfer mechanism, a frame is arranged on the transfer mechanism, two inner supporting frames are welded above the middle part of the frame, and a welding plate is welded in the middle between the upper end surfaces of the two inner support frames, a fourth motor is sleeved in the middle of the welding plate, a rotating plate is rotatably connected above the fourth motor through an output shaft, two ends of the rotating plate are respectively provided with a first pin shaft, and pull arms are sleeved on the two first pin shafts, second pin shafts are sleeved on the ends of the two pull arms far away from the first pin shafts, sliding plates in a rectangular structure are vertically welded below the two second pin shafts, clamping seats with inverted L-shaped sections are welded at the upper ends of the two sliding plates, side supporting frames are welded above two sides of the containing frame, a placing disc is welded above the two side supporting frames, and two sides of the bottom of the containing frame are fixedly connected with the two tracks on the moving and supporting disc respectively through viscose glue;

the vertical plate is vertically arranged on the clamping seat, the top welding frame in a rectangular structure is welded at the upper end of the side wall of one side of the vertical plate, a rubber pad in the rectangular structure is arranged at one end, far away from the vertical plate, of the top welding frame, and when the rubber pad is attached to the side wall of the bottom of the architectural design sample, violent collision or shaking cannot occur, and the architectural design sample cannot be damaged.

The invention has further technical improvements that: the bottom loading disc is positioned below the middle part of the rotary support table and is of a rectangular structure.

The invention has further technical improvements that: the top of an output shaft on the first motor is welded to the middle of the rotary supporting table, and the first motor is convenient to drive the whole rotary movement of the rotary supporting table.

The invention has further technical improvements that: two three promotion poles of all connecting perpendicularly of frame bottom are detained to two, and the pneumatic cylinder through promotion pole with detain the frame, move the support dish and all be swing joint, six pneumatic cylinders drive promotion pole, detain frame and architectural design sample lift adjustment height through the hydraulic pressure post in step, have further improved the scope that architectural design sample can move the regulation, and help the architectural design sample to carry out better, more comprehensive show.

The invention has further technical improvements that: the cross section of two end connection seats is T-shaped structure, and is provided with the cross-under axle that is cylindrical structure between two end connection seat below, is provided with the trepanning with cross-under axle looks adaptation on the support case, and the cross-under axle runs through the trepanning, and the support case passes through the trepanning and cup joints the epaxial slip of cross-under, guarantees to move the supporting disk, moves the mechanism that moves and stabilizes more firm when removing, very big improvement the device stability of working.

The invention has further technical improvements that: two detain the slot both sides inner wall top of frame and all be provided with the spout, the board that stretches of second motor both sides is connected to the spout of slot both sides respectively, guarantees that the second motor drives the gear meshing dogtooth and rolls more firm, avoids the second motor and detains the frame and takes place to break away from, and detains frame one end and be provided with and turn over the board, turns over the board bottom and rotate with detaining the frame through the hinge and be connected, turns over board lateral wall top and be provided with magnet, through turning over the board, be convenient for pull down the support dish from detaining the slot of frame, be convenient for move and prop the dish installation or dismantle on the device.

The invention has further technical improvements that: the carousel is located the tip of cover frame, and the transmission shaft runs through the cover frame, and carousel edge middle part is provided with the raceway two of indent, and the cover has connect the plastic ring in the raceway two, and the track cup joints in raceway two, and the track pastes tightly with the plastic ring, and the frictional force of increase track and carousel contact guarantees that the track rolls more steadily, in the same direction as smooth.

The invention has further technical improvements that: the top of the middle of the sleeve frame is horizontally provided with a top supporting plate, the top supporting plate is located between the turntables at the two ends of the sleeve frame, and the track is supported through the top supporting plate, so that the track is more stable and firm when the moving and carrying mechanism is driven by the track.

The invention has further technical improvements that: the fourth motor is movably connected with the pull arm and the sliding plate through the rotating plate, the fourth motor drives the rotating plate to rotate through the output shaft, the rotating plate drives the two pull arms and the two sliding plates to slide through first pin shafts at two ends respectively, the two sides of the bottom of the architectural design sample are pressed and clamped and fixed through rubber pads on the two clamping seats respectively, the architectural design sample is prevented from being scratched and damaged by the clamping seats while being more stable and firm in the moving and displaying process, the sliding sleeves are arranged at two ends of the upper end surfaces of the two inner supporting frames, the sliding sleeves are arranged at two sides of the bottom of the sliding plate and respectively cover and connect the sliding sleeves at the end parts of the two inner supporting frames, the arc-shaped convex blocks arranged at two sides of the sliding sleeves are connected into grooves arranged on the sliding sleeves, the sliding plates and the clamping seats are ensured to move more stably and firmly, and the stability of the inner supporting seats in use is improved, guarantee that the rubber pad can not take place violent collision or shake when laminating with architectural design sample bottom lateral wall, guarantee that architectural design sample can not receive the damage, two holders are the symmetry setting, and the cross-section of putting the dish is "U" shape structure down, and puts a set up end for planar structure, guarantees that architectural design sample places more firm on putting the dish.

The invention has further technical improvements that: the use method of the mobile display device for the architectural design samples specifically comprises the following steps:

the method comprises the following steps: placing the architectural design sample on a placing plate of a transfer mechanism, then driving a rotating plate to rotate through an output shaft by a fourth motor, driving two pull arms and two sliding plates to slide respectively through first pin shafts at two ends of the rotating plate, and pressing and clamping and fixing two sides of the bottom of the architectural design sample respectively through rubber pads on two clamping seats;

step two: the third motor drives the rotary table to rotate through the transmission shaft, the rotary table drives the caterpillar track to roll, the caterpillar track drives the transfer mechanism and the architectural design sample to move back and forth, the position of the architectural design sample to be displayed is changed, the second motor drives the gear to be meshed with the convex teeth to roll, and the transfer support disc, the transfer mechanism and the architectural design sample are driven to move left and right on the buckle frame to be adjusted, so that the position of the architectural design sample to be displayed is changed;

step three: the first motor drives the rotary supporting table to rotate integrally through the output shaft, the position of the architectural design sample is changed, and the six hydraulic cylinders synchronously drive the push-up rod, the buckling frame and the architectural design sample to lift and adjust the height through the hydraulic columns.

Compared with the prior art, the invention has the beneficial effects that:

1. when the movable display device is used, a building design sample is placed on the placing plate of the transfer mechanism for display, then the fourth motor drives the rotating plate to rotate through the output shaft, the rotating plate respectively drives the two pull arms and the two sliding plates to slide through the first pin shafts at the two ends, and the rubber pads on the two clamping seats respectively press and fix the two sides of the bottom of the building design sample, so that the building design sample is more stable and firm in the movable display process, and the clamping seats are prevented from scraping and damaging the building design sample.

2. The fourth motor drives the rotating plate to rotate through the output shaft, the rotating plate drives the two pull arms and the two sliding plates to slide through the first pin shafts at the two ends respectively, so that the two clamping seats are driven to move and adjust, the two clamping seats can be ensured to be different in width and size, the architectural design samples are compressed and fixed in size, the stability and the safety of the architectural design samples when being displayed in a moving mode are improved, in the process of sliding adjustment of the two sliding plates, the two sliding sleeves of the bottom of each sliding plate, which are of an inverted U-shaped structure, are respectively sleeved on the two sliding rails to slide, the sliding plates are ensured, the clamping seats are more stable and firm in moving, the stability of the built-in seats when in use is improved, the rubber pads are ensured to be attached to the side walls of the bottom of the architectural design samples, violent collision or shaking cannot occur, and.

3. After the architectural design samples are placed on the transfer mechanism, the third motor drives the rotating disc to rotate through the transmission shaft, the rotating disc drives the caterpillar track to roll, the caterpillar track drives the transfer mechanism and the architectural design samples to move back and forth, the positions of the architectural design samples to be displayed are changed, and the second motor drives the gear to be meshed with the convex teeth to roll, drives the moving support disc, the moving mechanism and the architectural design sample to move left and right on the buckle frame for adjustment, changes the position of the architectural design sample to be displayed, and first motor passes through the output shaft and drives the whole rotation regulation of spin-brace platform, changes the position of architectural design sample show, on the one hand, very big improvement the device can drive the position scope that architectural design sample removed, improved the regional size that architectural design sample can be covered by the show, on the other hand, the staff of being more convenient for gets on the device, puts architectural design sample and demonstrates.

4. Move four second motors synchronous belt gears on propping the dish and mesh the dogtooth and roll to the support case cup joints through the trepanning and slides on the cross-under axle, guarantees to move and props the dish, moves and carries that the mechanism is more firm when removing, very big improvement the device stability of work, when having improved the device's life, can improve architectural design sample again greatly by the stationarity and the security of removal regulation on the device.

5. The device is last to load a plurality of moves and props the dish and move the mechanism and put different architectural design samples, be convenient for different architectural design samples better demonstrate simultaneously, the dish that moves of a plurality of difference can carry out the free removal adjusting position respectively, and six pneumatic cylinders drive the lifting rod through the hydraulic pressure post in step, detain frame and architectural design sample lift adjustment height, further improved the scope that architectural design sample can the removal regulation, and help the architectural design sample to carry out better, more comprehensive show.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

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

FIG. 2 is a schematic view of the structure of the chassis of the present invention.

Fig. 3 is a schematic structural diagram of the hydraulic cylinder of the present invention.

Fig. 4 is an enlarged view of the area a in fig. 1 according to the present invention.

FIG. 5 is a schematic view of the structure of the sliding support plate of the present invention

Fig. 6 is a front view of the racking disk of the present invention.

Fig. 7 is a cross-sectional view of a bezel of the present invention.

Fig. 8 is a schematic structural view of a transfer mechanism according to the present invention.

Fig. 9 is an exploded perspective view of the transfer mechanism of the present invention.

Fig. 10 is a schematic view of the interior mount structure of the present invention.

FIG. 11 is a schematic view of a holder structure according to the present invention.

In the figure: 1. an undercarriage pan; 2. a rotation support table; 3. lifting and connecting the disc; 4. a hydraulic cylinder; 401. a hydraulic column; 5. a push-up rod; 6. buckling a frame; 7. an end connection base; 701. a shaft is connected in a penetrating way; 8. moving the supporting disc; 9. a transfer mechanism; 10. a first motor; 11. rolling a groove; 12. a convex tooth; 13. a chute; 14. supporting the box; 15. trepanning; 16. a distribution disc; 17. a fixed block; 18. a support leg; 19. a second motor; 20. a gear; 21. extending the plate; 22. a third motor; 23. a drive shaft; 24. a turntable; 25. a crawler belt; 26. a top pallet; 27. sleeving a frame; 28. an internal mounting seat; 29. placing the plate; 30. a holder; 31. framing; 32. an inner support frame; 33. welding the plate; 34. a fourth motor; 35. rotating the plate; 36. a first pin shaft; 37. pulling the arm; 38. a slide rail; 39. a sliding sleeve; 40. a slide-mounting plate; 41. a second pin shaft; 42. a side support frame; 43. a vertical plate; 44. top welding the frame; 45. and (7) a rubber pad.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, a mobile display device for architectural design samples comprises a bottom loading tray 1, a rotary supporting platform 2, a lifting tray 3, a supporting tray and a transferring mechanism 9, wherein a first motor 10 is disposed above the bottom loading tray 1, a rotary supporting platform 2 in a cuboid structure is rotatably connected above the first motor 10 through an output shaft, a lifting connecting disc 3 is arranged above the rotary supporting platform 2, the lifting connecting disc 3 comprises six hydraulic cylinders 4, the six hydraulic cylinders 4 are respectively and vertically arranged at the edge of the upper end surface of the rotary support table 2, the upper parts of the six hydraulic cylinders 4 are respectively connected with a lifting rod 5 through a hydraulic column 401 in an extending way, a support component is horizontally arranged above the lifting connecting disc 3, buckling frames 6 are respectively arranged at two sides of the support component, an end connecting seat 7 is respectively arranged at two ends between the two buckling frames 6, a plurality of moving and supporting discs 8 are hung between the two buckling frames 6, and moving and supporting mechanisms 9 are arranged above the plurality of moving and supporting discs 8;

wherein, the upper part of the middle part of the two buckle frames 6 is provided with a rolling groove 11, and a plurality of convex teeth 12 with triangular sections are arranged below the inner wall at one side of the rolling groove 11, so that the convex teeth 12 are conveniently meshed with the gear 20;

a supporting box 14 in a rectangular structure is arranged below the middle part of the support moving disc 8, conveying and separating discs 16 are arranged on two sides of the upper end of the supporting box 14, sleeve frames 27 with U-shaped sections are arranged on the two conveying and separating discs 16, third motors 22 are arranged at two ends of the outer walls of the sleeve frames 27, one ends of the third motors 22 are rotatably connected with transmission shafts 23, the transmission shafts 23 are sleeved with a rotary disc 24 in a cylindrical structure, tracks 25 are connected on the rotary disc 24 in a rolling manner, supporting legs 18 with L-shaped sections are arranged on two sides of the bottom of each sleeve frame 27, second motors 19 are vertically arranged below the supporting legs 18, and gears 20 are rotatably connected below the second motors 19 through output shafts;

wherein, the second motors 19 below the two sides of the bottom of the distributing disc 16 are respectively connected to the rolling grooves 11 of the two buckling frames 6, the gear 20 is meshed with the convex teeth 12 on the inner wall of one side of the rolling groove 11, and one end of the supporting leg 18 is welded on the side wall of the supporting box 14 through the fixing block 17;

the transfer mechanism 9 comprises an inner seat 28, the inner seat 28 is arranged below the middle part of the transfer mechanism 9, a containing frame 31 is arranged on the transfer mechanism 9, two inner supporting frames 32 are welded above the middle part of the containing frame 31, a welding plate 33 is welded in the middle part between the upper end surfaces of the two inner supporting frames 32, a fourth motor 34 is sleeved in the middle part of the welding plate 33, a rotating plate 35 is rotatably connected above the fourth motor 34 through an output shaft, first pin shafts 36 are arranged at the two ends of the rotating plate 35, pull arms 37 are sleeved on the two first pin shafts 36, second pin shafts 41 are sleeved at the ends of the two pull arms 37 far away from the first pin shafts 36, slide-mounting plates 40 in a cuboid structure are vertically welded below the two second pin shafts 41, clamping seats 30 in an inverted L-shaped structure are welded at the upper ends of the two slide-mounting plates 40, side supporting frames 42 are welded above the two sides of the containing frame 31, a placing tray 29 is welded above the two side supporting frames 42, both sides of the bottom of the installing frame 31 are respectively fixedly connected with the two crawler belts 25 on the moving support disc 8 through viscose glue;

the vertical plate 43 is vertically arranged on the clamping seat 30, the top welding frame 44 in a rectangular structure is welded at the upper end of the side wall of one side of the vertical plate 43, the rubber pad 45 in the rectangular structure is arranged at one end, far away from the vertical plate 43, of the top welding frame 44, and when the rubber pad 45 is attached to the side wall of the bottom of the architectural design sample, violent collision or shaking cannot occur, and the architectural design sample cannot be damaged.

The bottom loading disc 1 is positioned below the middle part of the rotary support table 2, and the bottom loading disc 1 is of a cuboid structure.

The top of the output shaft of the first motor 10 is welded to the middle of the rotary supporting table 2, so that the first motor 10 drives the rotary supporting table 2 to rotate integrally.

Two detain frame 6 bottoms and all connect three promotion pole 5 perpendicularly, and pneumatic cylinder 4 all is swing joint through promotion pole 5 with detain frame 6, move and prop dish 8, six pneumatic cylinders 4 drive promotion pole 5, detain frame 6 and architectural design sample lift adjustment height through hydraulic pressure post 401 in step, have further improved the scope that the architectural design sample can the mobile regulation, and help the architectural design sample to carry out better, more comprehensive show.

The cross section of two end connection seats 7 is T-shaped structure, and be provided with between two end connection seats 7 below and be cylindrical structure's cross-under shaft 701, be provided with on the support case 14 with the trepanning 15 of cross-under shaft 701 looks adaptation, and cross-under shaft 701 runs through trepanning 15, support case 14 cup joints through trepanning 15 and slides on cross-under shaft 701, guarantee to move supporting disk 8, move and move mechanism 9 and more firm when removing, very big improvement the device job stabilization nature.

The sliding grooves 13 are formed in the upper portions of the inner walls of the two sides of the rolling groove 11 of the two buckling frames 6, the extending plates 21 on the two sides of the second motor 19 are connected to the sliding grooves 13 on the two sides of the rolling groove 11 respectively, it is guaranteed that the second motor 19 drives the gear 20 to be meshed with the convex teeth 12 to roll more stably and firmly, the second motor 19 is prevented from being separated from the buckling frames 6, the turning plate is arranged at one end of each buckling frame 6, the bottom of the turning plate is connected with the buckling frames 6 in a rotating mode through a hinge, magnets are arranged above the side walls of the turning plate, the turning plate is turned over through turning, the moving supporting disc 8 is convenient to detach from the rolling groove 11 of the buckling frames.

Carousel 24 is located the tip of cover frame 27, and transmission shaft 23 runs through cover frame 27, and 24 edge middle parts of carousel are provided with the indent second race, and the cover has connect the plastic ring in the second race, and track 25 cup joints in second race, and track 25 pastes tightly with the plastic ring, and the frictional force of increase track 25 and the contact of carousel 24 guarantees that track 25 rolls more steadily, in the same direction as smooth.

The top supporting plate 26 is horizontally arranged above the middle of the sleeve frame 27, the top supporting plate 26 is located between the rotating discs 24 at two ends of the sleeve frame 27, the crawler 25 is supported through the top supporting plate 26, and the crawler 25 is guaranteed to be more stable and firm when the moving and loading mechanism 9 is driven by the crawler 25 to move.

The fourth motor 34 is movably connected with the pull arm 37 and the sliding plate 40 through the rotating plate 35, the fourth motor 34 drives the rotating plate 35 to rotate through the output shaft, the rotating plate 35 drives the two pull arms 37 and the two sliding plates 40 to slide through the first pin shafts 36 at the two ends respectively, the two sides of the bottom of the architectural design sample are respectively pressed and fixed through the rubber pads 45 on the two clamping seats 30, the architectural design sample is ensured to be more stable and firm in the process of moving and displaying, the clamping seats 30 are prevented from scraping and damaging the architectural design sample, the two ends of the upper end faces of the two inner supporting frames 32 are respectively provided with the sliding rails 38, the two sides of the bottom of the sliding plate 40 are respectively provided with the sliding sleeves 39, the sliding sleeves 39 at the two sides of the bottom of the sliding plate 40 are respectively covered on the sliding rails 38 at the end parts of the two inner supporting frames 32, the arc-shaped convex blocks at the two sides of the sliding sleeves 39 are connected in the grooves arranged on the sliding rails, improve the stability of built-in seat 28 when using, guarantee that rubber pad 45 can not take place violent collision or shake when laminating with architectural design sample bottom lateral wall, guarantee that architectural design sample can not receive the damage, two holder 30 are the symmetry and set up, and the cross-section of putting dish 29 is for falling "U" shape structure, and puts the dish 29 up end and be planar structure, and it is more firm to guarantee that architectural design sample places on putting dish 29.

The use method of the mobile display device for the architectural design samples specifically comprises the following steps:

the method comprises the following steps: placing the architectural design sample on the placing plate 29 of the transfer mechanism 9, then, driving the rotating plate 35 to rotate by the fourth motor 34 through the output shaft, driving the two pull arms 37 and the two sliding plates 40 to slide by the rotating plate 35 through the first pin shafts 36 at the two ends respectively, and pressing and clamping the two sides of the bottom of the architectural design sample respectively and fixing the architectural design sample through the rubber pads 45 on the two clamping seats 30;

step two: the third motor 22 drives the rotating disc 24 to rotate through the transmission shaft 23, the rotating disc 24 drives the crawler 25 to roll, the crawler 25 drives the transfer mechanism 9 and the architectural design sample to move back and forth, the position of the architectural design sample to be displayed is changed, the second motor 19 drives the gear 20 to engage with the convex teeth 12 to roll, the transfer support disc 8, the transfer mechanism 9 and the architectural design sample are driven to move left and right on the buckle frame 6 to be adjusted, and the position of the architectural design sample to be displayed is changed;

step three: the first motor 10 drives the rotary supporting table 2 to rotate integrally through an output shaft, the position of the architectural design sample is changed, and the six hydraulic cylinders 4 synchronously drive the push-up rod 5, the buckling frame 6 and the architectural design sample to lift and adjust the height through the hydraulic columns 401.

When the mobile exhibition device is used, architectural design samples are placed on the placing disc 29 of the transfer mechanism 9 for exhibition, then the fourth motor 34 drives the rotating plate 35 to rotate through the output shaft, the rotating plate 35 drives the two pull arms 37 and the two sliding plates 40 to slide through the first pin shafts 36 at two ends respectively, and the two sides of the bottom of the architectural design samples are pressed and clamped and fixed through the rubber pads 45 on the two clamping seats 30 respectively, so that the architectural design samples are more stable and firmer in the mobile exhibition process, and meanwhile, the clamping seats 30 are prevented from scraping and damaging the architectural design samples;

the fourth motor 34 drives the rotating plate 35 to rotate through an output shaft, the rotating plate 35 drives the two pull arms 37 and the two sliding plates 40 to slide through the first pin shafts 36 at the two ends respectively, so as to drive the two clamping seats 30 to move and adjust, and ensure that the two clamping seats 30 can compress and fix architectural design samples with different widths and sizes, thereby improving the stability and safety of the architectural design samples when the architectural design samples are moved and displayed, in the process of sliding and adjusting the two sliding plates 40, the two sliding sleeves 39 in the inverted U-shaped structure at the bottom of the sliding plates 40 are respectively sleeved on the two sliding rails 38 to slide, so as to ensure that the sliding plates 40 and the clamping seats 30 move more stably and firmly, improve the stability of the internal seat 28 during use, and ensure that violent collision or shaking cannot occur when the rubber pad 45 is attached to the side wall at the bottom of the architectural design samples, and ensure that the architectural design samples cannot be damaged;

after the architectural design sample is placed on the transfer mechanism 9, the third motor 22 drives the rotary table 24 to rotate through the transmission shaft, the rotary table 24 drives the caterpillar belt 25 to roll, the caterpillar belt 25 drives the transfer mechanism 9 and the architectural design sample to move back and forth, the position where the architectural design sample is displayed is changed, the second motor 19 drives the gear 20 to be meshed with the convex teeth 12 to roll, the transfer support disc 8, the transfer mechanism 9 and the architectural design sample are driven to move left and right on the buckle frame 6 to be adjusted, the position where the architectural design sample is displayed is changed, the first motor 10 drives the rotary support table 2 to integrally rotate and adjust through the output shaft, and the position where the architectural design sample is displayed is changed Placing a building design sample for display;

four second motors 19 on the moving support disc 8 synchronously drive the gears 20 to be meshed with the convex teeth 12 to roll, the supporting box 14 is sleeved on the penetrating shaft 701 through the sleeve hole 15 to slide, the moving support disc 8 and the moving support mechanism 9 are guaranteed to be more stable and firm when moving, the working stability of the device is greatly improved, the service life of the device is prolonged, and meanwhile, the stability and the safety of moving and adjusting the architectural design samples on the device can be greatly improved.

Can load on the device a plurality of move and prop dish 8 and move and carry mechanism 9 and put different architectural design samples, be convenient for the better demonstration simultaneously of going on of different architectural design samples, a plurality of difference moves and props dish 8 and can carry out free removal adjusting position respectively, and six pneumatic cylinders 4 drive the lifting rod 5 through hydraulic pressure post 401 in step, detain frame 6 and architectural design sample lift adjustment height, further improved the scope that the architectural design sample can move the regulation, and help the architectural design sample to carry out better, more comprehensive show.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.