CN110695940A

CN110695940A - Rotatory multilayer car of intelligence

Info

Publication number: CN110695940A
Application number: CN201910995680.8A
Authority: CN
Inventors: 杨海辉; 徐平建
Original assignee: NANTONG JINNIU MACHINERY MANUFACTURE CO Ltd
Current assignee: Nantong Binrui Intelligent Technology Co.,Ltd.
Priority date: 2019-10-18
Filing date: 2019-10-18
Publication date: 2020-01-17

Abstract

The invention relates to an intelligent rotary multilayer vehicle which comprises an upper sub-vehicle rotary platform, a lower sub-vehicle rotary platform and a fixed frame bottom plate, wherein rotary supporting pieces are distributed at the lower end of the upper sub-vehicle rotary platform and the lower end of each rotary supporting piece is provided with a rotary supporting fixed frame, the fixed frame bottom plate is arranged at the lower end of the rotary supporting fixed frame, a portal frame is arranged at the front part of the upper end of the upper sub-vehicle rotary platform and the lower sub-vehicle rotary platform, a walking frame is welded at the rear end of the portal frame, and a driven shaft is arranged at the joint of the walking. According to the invention, the upper sub-vehicle rotating platform and the lower sub-vehicle rotating platform are arranged, the upper sub-vehicle rotating platform and the lower sub-vehicle rotating platform and the rotary supporting piece are used as supporting structures of the whole equipment and are connected together in a welding mode, the connecting strength is high, the structure is stable, and the whole equipment is horizontally and vertically placed in the placing process, so that the gravity center of the whole equipment is distributed along the center of the equipment in the transportation process, and the rationality and the stability of the whole structure are ensured.

Description

Rotatory multilayer car of intelligence

Technical Field

The invention relates to the technical field of production and carrying instruments in brickyard, in particular to an intelligent rotating multilayer vehicle.

Background

The clay brick is also called as a baked brick and is an artificial small-sized block material for buildings, the clay brick is formed by processing, forming, drying and roasting clay (comprising powder materials such as shale and coal gangue) serving as a main raw material through solid and hollow materials, transportation equipment is required to carry the bricks in the production process, the effect of improving the transportation efficiency is achieved, and meanwhile, the multi-layer vehicle is rotated to serve as the transportation equipment, so that the effect of brick transportation in a brick factory can be effectively met.

The existing rotary multilayer vehicle has poor structural stability in use, is easy to turn over during work, has high friction coefficient between the rotary platform of the upper sub vehicle and the rotary support piece and high friction coefficient between the rotary platform of the lower sub vehicle and the rotary support piece, is easy to jam, and improves the load of the equipment.

Disclosure of Invention

The invention aims to provide an intelligent rotating multi-layer vehicle, which solves the problems that the existing rotating multi-layer vehicle in the background art is poor in structural stability in use and prone to rollover in work, and the friction coefficient between the rotating platform of the upper sub-vehicle and the rotating platform of the lower sub-vehicle and the rotating support piece is high, so that jamming is prone to occurring, and the load of the equipment is increased.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent rotary multilayer vehicle comprises an upper sub-vehicle rotary platform and a lower sub-vehicle rotary platform and a fixed frame bottom plate, wherein rotary supporting pieces are distributed at the lower end of the upper sub-vehicle rotary platform and a rotary supporting fixed frame is arranged at the lower end of each rotary supporting fixed frame, the fixed frame bottom plate is arranged at the lower end of each rotary supporting fixed frame, a door frame is arranged at the front part of the upper end of the upper sub-vehicle rotary platform and the front part of the lower end of the upper sub-vehicle rotary platform and the lower sub-vehicle rotary platform, a walking frame is welded at the rear end of the door frame, driven shafts are arranged at the joints of the walking frame and the upper sub-vehicle rotary platform and the lower sub-vehicle rotary platform, lifting structures are distributed in the middle of the door frame, cylinder positioning sleeves are arranged at the bottoms of the lower ends of the lifting structures, a first small driven shaft is arranged, and the outer wall laminating of bearing has the axle sleeve, the lower extreme both sides of first little driven shaft distribute has the shrouding, the middle part of sub-car rotary platform is provided with servo motor down, and servo motor's upper end is connected with chain sprocket shaft coupling, the inner wall lower extreme of walking frame is fixed with the balancing weight, and the upper end welding of walking frame has the reinforcement frame, the outer wall one side distribution of portal has the shovel, and the middle part opposite side of portal is fixed with the speed reducer, the lower extreme of sub-car rotary platform is fixed with end bearing structure all around.

Preferably, the upper and lower sub-vehicle rotating platforms and the rotary supporting piece are of a welding integrated structure, and the upper and lower sub-vehicle rotating platforms are horizontally and vertically distributed.

Preferably, a frame structure is arranged between the gantry and the walking frame, and a detachable structure is arranged between the gantry and the walking frame.

Preferably, the bottom supporting structure comprises an ear seat, roller needle bearings, gaskets, pin shafts and adjusting seats, the roller needle bearings are movably connected to the middle of the upper ends of the ear seats, the gaskets are arranged on two sides of the inner walls of the roller needle bearings, the pin shafts are arranged at the joints of the roller needle bearings and the ear seats, and the adjusting seats are distributed at the lower ends of the ear seats.

Preferably, the roller needle roller bearings are uniformly distributed at the lower ends of the upper sub-vehicle rotating platform and the lower sub-vehicle rotating platform in a circular ring shape at equal intervals, and the roller needle roller bearings form a rotating structure through pin shafts and lug seats.

Preferably, the lifting structure comprises a lower fixing seat, a lower pin shaft, a gasket, a radial key bearing, an electric cylinder, an upper pin shaft and an upper fixing seat, wherein the lower pin shaft penetrates through the upper end of the lower fixing seat, the gasket is distributed at the connection part of the lower pin shaft and the lower fixing seat, the radial key bearing is distributed at the top of the upper end of the lower pin shaft, the electric cylinder is arranged at the top of the upper end of the radial key bearing, the upper pin shaft is arranged at the top of the electric cylinder, and the upper fixing seat is movably connected to the top of the upper pin shaft.

Preferably, the electric cylinders are distributed along the vertical central axis of the gantry and form a rotating structure with the top of the gantry through the upper pin shaft and the upper fixing seat.

Preferably, the balancing weights are uniformly distributed on the inner wall of the walking frame at equal intervals, and the sizes of the balancing weights are matched with the size of the inner wall of the walking frame.

Preferably, the shovels are distributed in an I shape, and the shovels are parallel to each other.

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

1. according to the invention, the upper sub-vehicle rotating platform and the lower sub-vehicle rotating platform are arranged and distributed in a horizontal vertical shape, the upper sub-vehicle rotating platform and the lower sub-vehicle rotating platform are connected with the rotary supporting piece as the supporting structure of the whole equipment in a welding mode, the connecting strength is high, the structure is stable, and the whole equipment is placed in a horizontal vertical shape in the placing process, so that the gravity center of the whole equipment is distributed along the center of the equipment in the transportation process, and the rationality and the stability of the whole structure are ensured.

2. According to the detachable gantry, due to the arrangement of the gantry and the walking frame, a detachable structure is arranged between the gantry and the walking frame, the whole gantry is of a steel structure, the internal capacity is large, the weight is low, the load on the equipment is reduced, and the detachable gantry is detachable.

3. According to the invention, through the arrangement of the upper pin shaft and the upper fixing seat, the electric cylinder forms a rotating structure with the top of the portal frame through the upper pin shaft and the upper fixing seat, when a user needs to move the fixing frame bottom plate at the lower end upwards, and when the user needs to pull the cylinder positioning sleeve upwards through the lifting structure, the user can open the electric cylinder, the electric cylinder is connected with the sliding structure through the lower fixing seat at the bottom and the lower pin shaft, and the sliding structure is connected with the cylinder positioning sleeve, so that the effect of the labor cylinder positioning sleeve is achieved, and the electric cylinder is pulled slowly at a constant speed, so that the stability of the whole structure in the pulling process can be ensured.

4. According to the shovel, the walking frame and the balancing weights are arranged, the size of the balancing weights is matched with the size of the inner wall of the walking frame, when bricks are fully distributed at the upper end of the shovel, the weight of the front end of the shovel is higher, the balancing weights need to be matched, the weight of the two ends of the whole device is moderated, the balancing weights and the balancing weights are in a splicing structure, the two balancing weights can be connected, the structure is stable, the balancing weights are not prone to being separated, the walking frame limits and fixes the balancing weights, and the situation that the balancing weights are separated is further prevented.

5. According to the invention, through the arrangement of the shovel, the shovel and the shovel are parallel to each other, the design of the shovel can effectively fix the tray, the combined operation of a plurality of shovels enables the equipment to accommodate a large number of bricks at one time, the transportation efficiency is improved, and the shovel are parallel to each other, so that the shovel and the shovel can be mutually overlapped through the tray and the bricks in transportation, and the possibility of large-angle bending of the shovel in long-term use is reduced.

Drawings

FIG. 1 is a schematic three-dimensional structure of an intelligent rotary multi-deck vehicle according to the present invention;

FIG. 2 is a schematic front view of an intelligent rotary multi-deck vehicle according to the present invention;

FIG. 3 is a schematic side view of an intelligent rotary multi-deck vehicle according to the present invention;

FIG. 4 is a schematic view of the rear structure of the intelligent rotary multi-deck vehicle of the present invention;

fig. 5 is a schematic top view of the intelligent rotary multi-deck vehicle according to the present invention.

In the figure: 1. the upper sub-vehicle and the lower sub-vehicle rotate the platform; 2. a slewing support; 3. a rotary support fixing frame; 4. a fixed frame bottom plate; 5. a gantry; 6. a driven shaft; 7. a traveling frame; 8. a bottom support structure; 801. an ear mount; 802. a roller needle bearing; 803. a gasket; 804. a pin shaft; 805. an adjusting seat; 9. a lifting structure; 901. a lower fixed seat; 902. a lower pin shaft; 903. a gasket; 904. a centripetal key bearing; 905. an electric cylinder; 906. an upper pin shaft; 907. an upper fixed seat; 10. a cylinder positioning sleeve; 11. a first small driven shaft; 12. a second small driven shaft; 13. a bearing; 14. a shaft sleeve; 15. closing the plate; 16. a servo motor; 17. a chain sprocket coupling; 18. a balancing weight; 19. reinforcing the frame; 20. a shovel; 21. and a speed reducer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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. 1-5, the present invention provides a technical solution: an intelligent rotary multi-layer vehicle comprises an upper sub-vehicle rotary platform 1, a lower sub-vehicle rotary platform 1, rotary supporting pieces 2, a rotary supporting fixing frame 3, a fixing frame bottom plate 4, a door frame 5, a driven shaft 6, a walking frame 7, a bottom supporting structure 8, an ear seat 801, a roller needle bearing 802, a gasket 803, a pin shaft 804, an adjusting seat 805, a lifting structure 9, a lower fixing seat 901, a lower pin shaft 902, a gasket 903, a centripetal key bearing 904, an electric cylinder 905, an upper pin shaft 906, an upper fixing seat 907, a cylinder positioning sleeve 10, a first small driven shaft 11, a second small driven shaft 12, a bearing 13, a shaft sleeve 14, a sealing plate 15, a servo motor 16, a chain and sprocket coupling 17, a balancing weight 18, a reinforcing frame 19, a shovel 20 and a speed reducer 21, wherein the rotary supporting pieces 2 are distributed at the lower ends of the upper sub-vehicle rotary platform 1 and the lower sub-vehicle rotary platform 1, the rotary supporting pieces 2 are welded into an, the upper sub-vehicle rotating platform 1 and the lower sub-vehicle rotating platform 1 are distributed in a horizontal vertical shape, the upper sub-vehicle rotating platform 1 and the lower sub-vehicle rotating platform 2 are used as supporting structures of the whole equipment and are connected together in a welding mode, the connecting strength is high, the structure is stable, the whole equipment is horizontally and vertically placed in the placing process, the gravity center of the whole equipment is distributed along the center of the equipment in the transportation process, and the reasonability and the stability of the whole structure are guaranteed;

the fixed frame bottom plate 4 is arranged at the lower end of the rotary supporting fixed frame 3, the front part of the upper end of the upper sub-vehicle rotating platform 1 and the lower sub-vehicle rotating platform 1 is provided with a portal 5, the rear end of the portal 5 is welded with a walking frame 7, a frame structure is arranged between the portal 5 and the walking frame 7, a detachable structure is arranged between the portal 5 and the walking frame 7, the whole portal 5 is of a steel structure, the internal capacity is large, the weight is low, the load on the equipment is reduced, the detachability is realized, when a mold area is damaged, the equipment can be directly taken down through bolts at the connecting part, the maintenance efficiency is improved, and the use by a user;

a driven shaft 6 is arranged at the joint of the walking frame 7 and the upper and lower sub-vehicle rotating platform 1, a lifting structure 9 is distributed in the middle of the portal frame 5, a cylinder positioning sleeve 10 is arranged at the bottom of the lower end of the lifting structure 9, the lifting structure 9 comprises a lower fixing seat 901, a lower pin shaft 902, a gasket 903, a centripetal key bearing 904, an electric cylinder 905, an upper pin shaft 906 and an upper fixing seat 907, a lower pin shaft 902 penetrates through the upper end of the lower fixing seat 901, a gasket 903 is distributed at the joint of the lower pin shaft 902 and the lower fixing seat 901, the centripetal key bearing 904 is distributed at the top of the upper end of the lower pin shaft 902, an electric cylinder 905 is arranged at the top of the centripetal key bearing 904, an upper pin shaft 906 is arranged at the top of the electric cylinder 905, the upper fixing seat 907 is movably connected to the top of the upper pin shaft 906, the electric cylinder is distributed along the vertical central axis of the portal frame 5, and the electric cylinder 905 and, when a user needs to move the fixing frame bottom plate 4 at the lower end upwards and needs to pull the cylinder positioning sleeve 10 to move upwards through the lifting structure 9, the user can start the electric cylinder 905, the electric cylinder 905 is connected with the sliding structure through the bottom lower fixing seat 901 and the lower pin shaft 902, the sliding structure is connected with the cylinder positioning sleeve 10, the effect of the labor cylinder positioning sleeve 10 is achieved, the electric cylinder 905 is pulled slowly at a constant speed, and the stability of the whole structure in the pulling process can be guaranteed;

a first small driven shaft 11 is arranged at the joint of the upper and lower sub-vehicle rotary platform 1 and the portal frame 5, second small driven shafts 12 are distributed on two sides of the outer wall of the first small driven shaft 11, bearings 13 are distributed at the joint of the first small driven shaft 11 and the second small driven shafts 12, a shaft sleeve 14 is attached to the outer wall of each bearing 13, seal plates 15 are distributed on two sides of the lower end of each first small driven shaft 11, a servo motor 16 is arranged in the middle of the upper and lower sub-vehicle rotary platform 1, a chain and sprocket coupling 17 is connected to the upper end of the servo motor 16, a counterweight block 18 is fixed on the lower end of the inner wall of the walking frame 7, a reinforcing frame 19 is welded on the upper end of the walking frame 7, shovels 20 are distributed on one side of the outer wall of the portal frame 5, a speed reducer 21 is fixed on the other side of the middle of the portal frame 5, the counterweight blocks 18, when the upper end of the shovel 20 is fully covered with bricks, the weight of the front end of the shovel is high, the shovel needs to be matched with the balancing weight 18 to moderate the weight of two ends of the whole device, and a splicing structure is adopted between the balancing weight 18 and the balancing weight 18, so that the two balancing weights 18 can be ensured to be stable in structure and not easy to break away when connected, and the walking frame 7 of the shovel carries out limiting and fixing on the balancing weight 18 to further prevent the situation that the balancing weight 18 breaks away;

the shovels 20 are distributed in an I-shaped shape, the shovels 20 are parallel to the shovels 20, the design of the shovels 20 can effectively fix the tray, and the plurality of shovels 20 can work together to enable the equipment to accommodate a large number of bricks at one time, so that the transportation efficiency is improved, and the shovels 20 are parallel to each other, so that the shovels 20 and the shovels 20 can be overlapped with each other through the tray and the bricks in transportation, and the possibility of large-angle bending of the shovels 20 in long-term use is reduced;

a bottom supporting structure 8 is fixed around the lower end of the upper and lower sub-vehicle rotating platform 1, the bottom supporting structure 8 comprises an ear seat 801, roller needle roller bearings 802, gaskets 803, pin shafts 804 and adjusting seats 805, the roller needle roller bearings 802 are movably connected with the middle part of the upper end of the ear seat 801, the gaskets 803 are arranged on two sides of the inner wall of the roller needle roller bearings 802, the pin shafts 804 are arranged at the joints of the roller needle roller bearings 802 and the ear seat 801, the adjusting seats 805 are distributed at the lower end of the ear seat 801, the roller needle roller bearings 802 are uniformly distributed at the lower end of the upper and lower sub-vehicle rotating platform 1 in an annular shape with equal intervals, the roller needle roller bearings 802 form a rotating structure through the pin shafts 804 and the ear seat 801, the bottom supporting structure 8 carries out lubricating supporting force on the bottom of the upper and lower sub-vehicle rotating platform 1, the lower friction coefficient of the upper and lower sub-vehicle rotating platform 1 is ensured, the supporting force around the upper and lower sub-vehicle rotating platform 1 is the same, and the possibility that the whole upper and lower sub-vehicle rotating platform 1 inclines is not easy to occur.

The working principle of the embodiment is as follows: the intelligent rotating multilayer vehicle is characterized in that when a fixing frame bottom plate 4 at the lower end is required to move upwards in use, when a user needs to pull an air cylinder positioning sleeve 10 to move upwards through a lifting structure 9, the user can open an electric cylinder 905, the electric cylinder 905 is connected with a sliding structure through a bottom lower fixing seat 901 and a lower pin shaft 902, the sliding structure is connected with the air cylinder positioning sleeve 10, the effect of working the air cylinder positioning sleeve 10 is achieved, the electric cylinder 905 is pulled slowly at a constant speed, when bricks are fully distributed at the upper end of a shovel 20, the weight of the front end of the shovel 20 is higher, the weight of the front end of the shovel needs to be matched with a balancing weight 18, the weight of two ends of the whole device is gentle, a splicing structure is adopted between the balancing weight 18 and the balancing weight 18, the situation that the two balancing weights 18 are connected and stable in structure and are not prone to break away is guaranteed, and when the, need pass through 18 cooperations of balancing weight, the weight at whole equipment both ends gently to adopt concatenation formula structure between its balancing weight 18 and the balancing weight 18, can guarantee two balancing weights 18 when connecting, stable in structure, the difficult condition that breaks away from that takes place, and its walking frame 7 carries out spacing fixed to balancing weight 18, further prevents the condition that balancing weight 18 breaks away from, and the end user starts this rotatory multilayer car, looks over the operation effect.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a rotatory multilayer car of intelligence, includes sub-car rotary platform (1) and mount bottom plate (4) from top to bottom, its characterized in that: the lower end of the upper and lower sub-vehicle rotating platform (1) is distributed with a rotary supporting piece (2), the lower end of the rotary supporting piece (2) is provided with a rotary supporting fixing frame (3), a fixing frame bottom plate (4) is arranged at the lower end of the rotary supporting fixing frame (3), the front part of the upper end of the upper and lower sub-vehicle rotating platform (1) is provided with a door frame (5), the rear end of the door frame (5) is welded with a walking frame (7), the joint of the walking frame (7) and the upper and lower sub-vehicle rotating platform (1) is provided with a driven shaft (6), a lifting structure (9) is distributed in the middle part of the door frame (5), the bottom of the lower end of the lifting structure (9) is provided with an air cylinder positioning sleeve (10), the joint of the upper and lower sub-vehicle rotating platforms (1) and the door frame (5) is provided with a first small driven shaft (11), and second small driven, the connection department of first little driven shaft (11) and second little driven shaft (12) has distributed bearing (13), and the outer wall laminating of bearing (13) has axle sleeve (14), the lower extreme both sides of first little driven shaft (11) distribute shrouding (15), the middle part of sub-car rotary platform (1) is provided with servo motor (16) down, and the upper end of servo motor (16) is connected with chain sprocket shaft coupling (17), the inner wall lower extreme of walking frame (7) is fixed with balancing weight (18), and the upper end welding of walking frame (7) has reinforced frame (19), the outer wall one side distribution of portal (5) has shovel (20), and the middle part opposite side of portal (5) is fixed with speed reducer (21), the lower extreme of sub-car rotary platform (1) is fixed with end bearing structure (8) all around.

2. The intelligent rotary multi-deck vehicle of claim 1, wherein: the upper sub-vehicle rotating platform and the lower sub-vehicle rotating platform (1) and the rotary supporting piece (2) are of a welding integrated structure, and the upper sub-vehicle rotating platform and the lower sub-vehicle rotating platform (1) are horizontally and vertically distributed.

3. The intelligent rotary multi-deck vehicle of claim 1, wherein: a frame structure is arranged between the portal frame (5) and the walking frame (7), and a detachable structure is arranged between the portal frame (5) and the walking frame (7).

4. The intelligent rotary multi-deck vehicle of claim 1, wherein: the bottom supporting structure (8) comprises an ear seat (801), roller needle roller bearings (802), gaskets (803), pin shafts (804) and adjusting seats (805), the middle of the upper end of the ear seat (801) is movably connected with the roller needle roller bearings (802), the gaskets (803) are arranged on two sides of the inner wall of the roller needle roller bearings (802), the pin shafts (804) are arranged at the joints of the roller needle roller bearings (802) and the ear seat (801), and the adjusting seats (805) are distributed at the lower ends of the ear seat (801).

5. The intelligent rotary multi-deck vehicle of claim 4, wherein: the roller needle roller bearings (802) are uniformly distributed at the lower ends of the upper sub-trolley rotating platform and the lower sub-trolley rotating platform (1) in an annular shape at equal intervals, and the roller needle roller bearings (802) form a rotating structure with the lug seats (801) through pin shafts (804).

6. The intelligent rotary multi-deck vehicle of claim 1, wherein: the lifting structure (9) comprises a lower fixing seat (901), a lower pin shaft (902), a gasket (903), a radial key bearing (904), an electric cylinder (905), an upper pin shaft (906) and an upper fixing seat (907), wherein the upper end of the lower fixing seat (901) penetrates through the lower pin shaft (902), the gasket (903) is distributed at the connection position of the lower pin shaft (902) and the lower fixing seat (901), the radial key bearing (904) is distributed at the top of the upper end of the lower pin shaft (902), the electric cylinder (905) is arranged at the top of the upper end of the radial key bearing (904), the upper pin shaft (906) is arranged at the top of the electric cylinder (905), and the upper fixing seat (907) is movably connected to the top of the upper pin shaft (906).

7. The intelligent rotary multi-deck vehicle of claim 6, wherein: the electric cylinders (905) are distributed along the vertical central axis of the door frame (5), and the electric cylinders (905) and the top of the door frame (5) form a rotating structure through an upper pin shaft (906) and an upper fixing seat (907).

8. The intelligent rotary multi-deck vehicle of claim 1, wherein: the balancing weights (18) are uniformly distributed on the inner wall of the walking frame (7) at equal intervals, and the size of the balancing weights (18) is matched with that of the inner wall of the walking frame (7).

9. The intelligent rotary multi-deck vehicle of claim 1, wherein: the turners (20) are distributed in an I shape, and the turners (20) are parallel to the turners (20).