CN111441627B - New energy sharing automobile placing bin - Google Patents

Abstract

The invention discloses a new energy shared automobile placing bin which structurally comprises a platform plate, wherein fixing columns are fixedly arranged on the upper end surface of the platform plate in an annular array mode, parking cavities are fixedly arranged on the upper end surfaces of the fixing columns, surface parking devices which are convenient for upper layer vehicles to park and vehicles to park in equipment are arranged in the parking cavities, vertical storage devices which are positioned between the platform plate and the parking cavities and are convenient for storing new energy vehicles are arranged below the surface parking devices in an annular array mode and are arranged in a cross mode, a lifting vehicle moving device which is convenient for transporting the vehicles from the surface parking devices to the vertical storage devices is arranged between the vertical storage devices, the equipment adopts the surface parking devices, the vertical storage devices and the lifting vehicle moving device, realizes that the new energy vehicles are accurately placed in the equipment after being driven by adopting lifting and rotating modes, the space utilization rate of the equipment and the parking efficiency of the vehicle are greatly improved.

Description

New energy sharing automobile placing bin

Technical Field

The invention belongs to the technical field of new energy automobiles, and particularly relates to a new energy shared automobile storage bin.

Background

The shortcoming of prior art is that car storage facilities has the storage efficiency and hangs down, and occupies the great characteristics of ground space, makes equipment not have fine practicality when using, makes equipment when storing the automobile body, makes personnel consume more time and wait for, and in new energy automobile popularization process, the parking problem still is the main problem of popularization dynamics. For this reason, long-term research has been conducted and various solutions have been proposed.

For example, chinese patent document discloses an automobile body-in-white smart storage device [ application No.: 201810590672.0], comprising an inlet track, an outlet track and a plurality of rows of storage bin tracks, wherein the inlet track and the outlet track are arranged on the ground in parallel; the storage bin track is formed by connecting a plurality of storage vehicle frames end to end; the warehouse entry rail and the warehouse exit rail are respectively provided with a transportation frame, and the two transportation frames are respectively matched with the warehouse entry rail and the warehouse exit rail; the intelligent storage device also comprises a main controller, a parking space detector is also installed on the storage frame, and the detection signal output end of the parking space detector is connected with the detection signal input end in the main controller; meanwhile, the main controller is also connected with the vertical transmission motor and the horizontal transmission motor through wires respectively; the invention is improved aiming at the technical problems of low utilization rate of the existing white automobile body storage space, low production line efficiency and the like, and has the advantages of high intelligence degree, ordered storage and taking, full-automatic operation in the transportation process and the like.

Above-mentioned scheme has reduced work efficiency, still adopts the single process of storing the frame with the automobile body storage, has not realized comparatively practicing thrift the space and be convenient for deposit and the structural design who takes out yet, makes the inconvenient and inefficiency of equipment when using.

Disclosure of Invention

The invention aims to solve the problems and provides equipment which has the advantages that the mode of embedding the equipment below the ground is adopted, the utilization efficiency of a parking area is greatly improved, and a new energy automobile is efficiently stored by using lifting rotation and other modes.

The invention is realized by the following technical scheme: the new energy shared automobile placing bin comprises a platform plate, wherein fixing columns are fixedly arranged on the upper end face of the platform plate in an annular array mode, a parking cavity is fixedly arranged on the upper end face of each fixing column, a surface parking device which is convenient for an upper vehicle to park and a vehicle to park in equipment is arranged in each parking cavity, a vertical storage device which is located between the platform plate and the parking cavity and is convenient for storing the new energy vehicle is arranged below each surface parking device, and a lifting vehicle moving device which is convenient for transporting the vehicle from the surface parking device to the vertical storage device is arranged between the vertical storage devices.

Further technical scheme, the surface parking device including set firmly in park the rail of chamber up end, it has set firmly the baffle of a plurality of longitudinal symmetries to park the chamber up end, the baffle will it separates into a plurality of even parking areas to park the chamber, it is equipped with the wearing chamber that runs through from top to bottom to park the intracavity, thereby utilizes it parks the vehicle of upside to park the chamber, utilizes simultaneously the wearing chamber is with the leading-in equipment of vehicle in park.

Further technical scheme, vertical strorage device including set firmly in platform board and the upright case of parking between the chamber, found the incasement and be equipped with the open-ended inner chamber, inner chamber both sides end wall in-connection is provided with a plurality of appearance chambeies of bilateral symmetry, hold chamber and exterior space intercommunication, be provided with in the inner chamber with hold the corresponding just being located of chamber a plurality of subassemblies of parking above holding the chamber to the utilization is parked the subassembly and is better parking of new forms of energy vehicle.

Further technical scheme, park the subassembly include with found the case fixed and be located the backup pad of inner chamber, be equipped with the inner chamber that runs through from top to bottom in the backup pad, the terminal surface sets firmly the side face chamber of symmetry under the backup pad, the side face chamber will the backup pad with found the case better fixed to utilize above-mentioned structure to realize new energy automobile park in the backup pad top.

Further technical scheme, go up and down to move the car device include with the lifter plate that fixed column sliding fit connects, the lifter plate is located between the founding case, the lifter plate up end is provided with drive assembly, and the drive assembly top is provided with the horizontal car subassembly that moves that drives the vehicle and deposit in vertical strorage device, and horizontal car subassembly that moves is by the drive assembly drive work, fixed column one side is provided with the drive the vertical lift subassembly that the lifter plate reciprocated to utilize above-mentioned subassembly to realize depositing the work efficiency who has improved equipment of accurate of vehicle.

In a further technical scheme, the driving component comprises a reinforcing rib fixedly arranged on the upper end surface of the lifting plate, an opening transmission inner cavity is arranged in the reinforcing rib, a plurality of buffer blocks arranged in an array are fixedly arranged on the lower end surface of the lifting plate, the lower end surface of the lifting plate is fixedly provided with rotary motors arranged in an annular array, the rotary motors are internally and dynamically connected with a top rotary shaft, the outer surface of the top rotating shaft is fixedly provided with driven gears, driving gears are meshed between the driven gears, the driving gear is connected with the upper end wall and the lower end wall of the transmission cavity in a rotating fit manner, a penetrating shaft is fixedly arranged on the upper end surface of the driving gear, the penetrating connecting shaft penetrates through the upper end wall of the transmission inner cavity in a rotating manner, the penetrating connecting shaft is connected with the horizontal moving vehicle component in a matching manner, therefore, the driven gear is used for driving the driving gear to rotate after rotating, and the horizontal moving vehicle assembly is further rotated.

Further technical scheme, horizontal moving vehicle subassembly include with wear the fixed connection plate that even axle is fixed, fixed connection plate up end annular array is provided with the backing plate, the fixed connection plate up end has set firmly bilateral symmetry's rotation seat, the backing plate up end has set firmly the movable plate, all set firmly the roof on the movable plate, the roof has set firmly the tire backing plate that is used for the vehicle to place all around, it is located to be provided with between the pneumatic cylinder to promote in the roof and the open-ended chamber that passes through, the movable plate downside is provided with the storage structure that drives the vehicle and deposit, thereby utilizes roof and tire backing plate are temporarily placed the vehicle and are utilized the storage structure to deposit the vehicle high efficiency.

According to a further technical scheme, the storage structure comprises frames which are fixedly arranged on the lower end face of the movable plate and are symmetrical front and back, racks are fixedly arranged on the lower end face of the frames, cross beams are fixedly arranged between the frames, a driving motor is fixedly arranged on the end face of the cross beam on the right side, an external threaded shaft is arranged in the driving motor in a power connection mode, the external threaded shaft is connected with the rotating seat on the right side in a rotating matching mode, sliding shafts which are symmetrical front and back are fixedly arranged between the cross beams, connecting plates are arranged on the outer surfaces of the sliding shafts in a sliding mode, a fixed support is fixedly arranged between the connecting plates, an internal threaded plate is arranged on the lower side of the fixed support and in a threaded matching mode, engaging gears which are symmetrical left and right are arranged on the end faces of the connecting plates far away from the fixed connecting plates in a rotating mode, the engaging gears are engaged with the racks, and a flat plate is fixedly arranged on the end face of the connecting plate far away from the fixed connecting plates, the terminal surface sets firmly the promotion pneumatic cylinder under the tiling board, the promotion pneumatic cylinder left and right sides is provided with bilateral symmetry's slide bar, slide bar with tiling board sliding fit connects, the slide bar up end sets firmly and bulldozes the board, bulldoze the board with push rod power in the promotion pneumatic cylinder is connected, thereby utilizes the drive of promotion pneumatic cylinder bulldoze the board will the vehicle jack-up of roof upside utilizes it drives to rotate the motor drive the fixed bolster removes, makes new energy automobile obtain the efficient and places.

Further technical scheme, vertical lifting unit including set up in the seat found of fixed column one side, found the seat with the landing slab is fixed, found the internal rotation of seat and be provided with the runner, the runner by set up in the motor drive who found seat one side rotates, the winding of runner surface is provided with power chain, power chain one end with the runner external surface is fixed, and fixed mode can adopt the welding, the runner top is provided with and is located park the chamber below and with the indirect transmission structure that the runner is relative, thereby utilize indirect transmission structure to make the runner is in motor drive drives down the lifter plate reciprocates.

According to the technical scheme, the indirect transmission structure comprises a top seat fixed with the parking cavity, a transition wheel is arranged in the top seat in a rotating mode, and the power chain bypasses the outer surface of the transition wheel and is fixed with the lifting plate, so that the motor indirectly drives the rotating wheel to rotate, and the power chain drives the lifting plate to move up and down.

The invention has the beneficial effects that: this equipment has adopted surface parking device, vertical strorage device and lift to move the car device, has realized adopting the mode of going up and down and rotating, places the accuracy inside equipment after driving new energy automobile, very big improvement the space utilization of equipment and the high efficiency that the vehicle berthed.

The above advantages are embodied in that the partition board divides the parking cavity into several parts, the divided parts are used for parking a vehicle, the motor drives the rotating wheel to rotate, the rotating wheel drives the power chain to move, then the lifting plate is lifted to a designated position, the structural arrangement of the top seat and the transition wheel enables the power chain to run more smoothly and efficiently, the through cavity is used for protruding the moving plate, the vehicle is better parked above the top plate and the tire liner plate, the tire liner plate is used for parking a vehicle wheel, the through cavity is used for facilitating the vehicle to enter, the driven gear is meshed with the driving gear during parking, and the structural characteristic of the transmission inner cavity is used for enabling the driven gear to simultaneously drive the driving gear to rotate, the penetrating shaft and the fixed connecting plate rotate simultaneously, the structure greatly ensures that the fixed connecting plate rotates more safely and stably, the movable plate is driven to rotate by the fixed connecting plate after the fixed connecting plate rotates, vehicles can be placed in different vertical boxes, the accommodating cavity is convenient for the movable plate to rotate without interference phenomenon in the vehicle placing process, the supporting plate is used for placing and parking the vehicles, the space utilization efficiency of the equipment is greatly improved, the pushing and pressing plate is jacked by the pushing and pressing hydraulic cylinder, the vehicles are lifted by the pushing and pressing plate, the jacking and rotating shaft, the movable plate and the vehicles move to the upper end face of the supporting plate after the driving and rotating motor rotates and drives the external threaded shaft to rotate, the practical reliability and the space utilization efficiency of the equipment are greatly improved, and the structural stability is improved by the arrangement of the reinforcing ribs, and the arrangement of the buffer block enables the equipment to be better buffered when being close to the ground.

Drawings

FIG. 1 is a schematic diagram of the apparatus of the present invention;

FIG. 2 is an enlarged schematic view of the platform plate of FIG. 1 taken in the direction A in accordance with the present invention;

FIG. 3 is a schematic bottom view of the apparatus of the present invention;

FIG. 4 is an enlarged schematic view of the parking chamber of FIG. 3 taken in the direction B in accordance with the present invention;

FIG. 5 is a sectional view of the present invention showing the support plate;

FIG. 6 is an enlarged view of the lifter plate of FIG. 5 in the direction of C in accordance with the present invention;

FIG. 7 is a sectional view of the present invention showing the fixing connection plate;

FIG. 8 is an enlarged view of the reinforcement bar of FIG. 7 taken in the direction D in accordance with the present invention;

FIG. 9 is a schematic rear side view of the apparatus of FIG. 7 in accordance with the present invention;

FIG. 10 is a schematic view of the invention in the direction E of the mullion of FIG. 9;

FIG. 11 is a sectional view of the rotary electric machine according to the present invention;

in the figure, an inner cavity 101, a vertical box 102, a containing cavity 103, a reinforcing rib 104, a lifting plate 105, a through cavity 106, a partition plate 107, a fence 108, a parking cavity 109, a fixed column 110, a buffer block 112, a platform plate 113, a vertical seat 201, a rotating wheel 202, a motor 203, a power chain 204, a top seat 301, a transition wheel 302, a supporting plate 401, an inner cavity 402, a side face cavity 403, a pushing hydraulic cylinder 501, a sliding rod 502, a flat laying plate 503 and a rack 505, the device comprises a frame 506, a top plate 507, a pushing plate 508, a through cavity 509, a tire pad plate 510, a moving plate 511, a pad plate 602, a rotating seat 603, a fixed connecting plate 604, a meshing gear 605, a driving gear 606, an internal thread plate 607, a driven gear 608, an external thread shaft 609, a top rotating shaft 610, a fixed support 611, a transmission inner cavity 612, a connecting plate 613, a sliding shaft 614, a penetrating shaft 620, a driving and rotating motor 701, a cross beam 702, a driving and rotating motor 801, a surface parking device 950, a vertical storage device 951 and a lifting and moving device 952.

Detailed Description

As shown in fig. 1 to 11, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the up-down, left-right and front-back direction is consistent with the up-down, left-right and front-back direction of the projection relation of the figure 1, the new energy sharing automobile placing bin comprises a platform plate 113, fixing columns 110 arranged in an annular array are fixedly arranged on the upper end face of the platform plate 113, the height of the fixing columns 110 is at least 6m, at least 4 fixing columns 110 are arranged, the diameter of each fixing column 110 is at least 15cm, a parking cavity 109 is fixedly arranged on the upper end face of each fixing column 110, a surface parking device 950 convenient for parking of upper-layer vehicles and parking of the vehicles in the equipment is arranged in the parking cavity 109, a vertical storing device 951 convenient for storing new energy vehicles is arranged below the surface parking device 950 and between the platform plate 113 and the parking cavity 109, at least 4 vertical storing devices 951 are arranged in an annular array and arranged in a cross shape, and a lifting vehicle moving device convenient for transporting the vehicles from the surface parking device 950 to the vertical storing devices 951 is arranged between the vertical storing devices 951 Device 952 to utilize above-mentioned device to realize efficient space availability factor, and make the parking process more convenient high-efficient.

Advantageously, the surface parking apparatus 950 includes a rail 108 fixed on the upper end surface of the parking chamber 109, the height of the rail 108 is at least 5cm, the rail 108 surrounds the parking chamber 109 into a concave structure, a plurality of partition boards 107 are fixed on the upper end surface of the parking chamber 109, the number of partition boards 107 is at least 6, the parking chamber 109 is divided into a plurality of uniform parking areas by the partition boards 107, a through chamber 106 which penetrates vertically is arranged in the parking chamber 109, the length of the through chamber 106 is at least 5m, and the width of the through chamber 106 is at least 2m, so that the vehicle on the upper side is parked by the parking chamber 109, and the vehicle is guided into the equipment by the through chamber 106 to be parked.

Beneficially, wherein, vertical strorage device 951 includes upright case 102 of setting firmly between platform board 113 and the chamber 109 of parking, and the height of upright case 102 is the same with fixed column 110, is equipped with open-ended inner chamber 101 in upright case 102, and the intercommunication is provided with a plurality of appearance chambeies 103 of bilateral symmetry in the inner chamber 101 both sides end wall, and the height that holds chamber 103 is 20cm at least, holds chamber 103 and exterior space intercommunication, is provided with in the inner chamber 101 and holds the corresponding and be located a plurality of subassemblies of parking that hold the chamber 103 top of holding chamber 103 with holding chamber 103 to utilize the subassembly of parking with the better parking of new energy vehicle.

Beneficially, wherein, the parking assembly includes a supporting plate 401 fixed to the upright box 102 and located in the inner cavity 101, the supporting plate 401 is of a convex structure, the minimum width of the supporting plate 401 is smaller than the width of the inner cavity 101, an inner cavity 402 penetrating vertically is formed in the supporting plate 401, symmetrical side face cavities 403 are fixedly formed in the lower end face of the supporting plate 401, and the supporting plate 401 and the upright box 102 are better fixed by the side face cavities 403, so that the new energy automobile is parked above the supporting plate 401 by using the above structure.

Beneficially, wherein, the lifting car moving device 952 includes the lifter plate 105 that is connected with fixed column 110 sliding fit, lifter plate 105 is cross structure, lifter plate 105 is located between upright case 102, prevent that lifter plate 105 from interfering with other structures when carrying out work, the lifter plate 105 up end is provided with drive assembly, the drive assembly top is provided with the horizontal car moving subassembly that drives the vehicle and deposit in vertical strorage device 951, the horizontal car moving subassembly is by drive assembly drive work, fixed column 110 one side is provided with the vertical lift subassembly that drives lifter plate 105 and reciprocate, vertical lift subassembly sets up quantity and fixed column 110 and sets up quantity the same, thereby utilize above-mentioned subassembly to realize that accurate of vehicle deposits the work efficiency that has improved equipment.

Beneficially, the driving assembly comprises reinforcing ribs 104 fixedly arranged on the upper end face of the lifting plate 105, an open transmission cavity 612 is arranged in each reinforcing rib 104, each transmission cavity 612 divides the corresponding reinforcing rib 104 into cross-shaped structures, an annular array and an open cavity are formed between the corresponding reinforcing ribs 104, a plurality of buffer blocks 112 arranged in an array are fixedly arranged on the lower end face of the lifting plate 105, at least 4 buffer blocks 112 are arranged, each buffer block 112 is made of elastic materials, the diameter of each buffer block 112 is at least 10cm, rotating motors 801 arranged in an annular array are fixedly arranged on the lower end face of the lifting plate 105, 4 rotating motors 801 are arranged, a top rotating shaft 610 is arranged in a power connection mode in each rotating motor 801, a driven gear 608 is fixedly arranged on the outer surface of the top rotating shaft 610, a driving gear 606 is arranged between the driven gears 608 in a meshing mode, and the driving gears 606 are connected with the upper end wall and the lower end wall of the transmission cavity 612 in a rotating and matching mode, the upper end face of the driving gear 606 is fixedly provided with a through connecting shaft 620, the through connecting shaft 620 penetrates through the upper end wall of the transmission inner cavity 612 in a rotating mode, and the through connecting shaft 620 is connected with the horizontal transfer component in a matching mode, so that the driving gear 606 is driven to rotate after the driven gear 608 rotates, and the horizontal transfer component further rotates.

Beneficially, the horizontal moving vehicle assembly comprises a fixed connecting plate 604 fixed with a through connecting shaft 620, the upper end face of the fixed connecting plate 604 is provided with a ring array of cushion plates 602, at least 4 cushion plates 602 are arranged, the upper end face of the fixed connecting plate 604 is fixedly provided with bilaterally symmetrical rotating seats 603, the upper end face of each cushion plate 602 is fixedly provided with a moving plate 511, the size of each moving plate 511 is the same as that of the through cavity 106, each moving plate 511 is fixedly provided with a top plate 507, tire cushion plates 510 used for placing vehicles are fixedly arranged on the periphery of each top plate 507, a through cavity 509 which is located in each top plate 507 and is opened is arranged between the pushing hydraulic cylinders 501, the height of each top plate 507 is at least 5cm, and the lower side of each moving plate 511 is provided with a storage structure used for driving the vehicles to be stored, so that the vehicles are temporarily placed by the top plates 507 and the tire cushion plates 510, and the vehicles are efficiently stored by the storage structure.

Advantageously, the storage structure comprises frames 506 which are fixed on the lower end face of the moving plate 511 and are symmetrical front and back, the frames 506 are of concave rod-shaped structures, racks 505 are fixed on the lower end face of the frames 506, cross beams 702 are fixed between the frames 506, a driving and rotating motor 701 is fixed on the end face of the cross beam 702 on the right side, an external threaded shaft 609 is arranged in the driving and rotating motor 701 in a power connection mode, the external threaded shaft 609 is connected with a rotating seat 603 on the right side in a rotating and matching mode, sliding shafts 614 which are symmetrical front and back are fixed between the cross beams 702, connecting plates 613 are arranged on the outer surfaces of the sliding shafts 614 in a sliding mode, a fixed support 611 is fixed between the connecting plates 613, the fixed support 611 and the connecting plates 613 form a concave structure, the length of the fixed support 611 is at least 2.5m, an internal threaded plate 607 is arranged on the lower side of the fixed support 611, the internal threaded plate 607 is connected with the external threaded shaft 609, engaging gears 605 which are symmetrical left and right are arranged on the end face of the connecting plates 613 far away from the fixed connecting plate 604 in a rotating mode, the meshing gear 605 is meshed with the rack 505, a flat plate 503 is fixedly arranged on the end face of the connecting plate 613 far away from the fixed connecting plate 604, a pushing hydraulic cylinder 501 is fixedly arranged on the lower end face of the flat plate 503, sliding rods 502 which are bilaterally symmetrical are arranged on the left side and the right side of the pushing hydraulic cylinder 501, the sliding rods 502 are connected with the flat plate 503 in a sliding fit mode, a pushing plate 508 is fixedly arranged on the upper end face of the sliding rod 502, the pushing plate 508 is in power connection with a pushing rod in the pushing hydraulic cylinder 501, the length of the pushing plate 508 is at least 50cm, and the thickness of the pushing plate 508 is at least 5cm, so that the pushing hydraulic cylinder 501 is used for driving the pushing plate 508 to jack up a vehicle on the upper side of the top plate 507, the driving motor 701 is used for driving the fixed support to move 611 left and right, and a new energy vehicle is placed efficiently.

Beneficially, wherein, the vertical lifting assembly includes a vertical base 201 disposed on one side of the fixed column 110, the vertical base 201 is fixed with the platform plate 113, a rotating wheel 202 is rotatably disposed in the vertical base 201, the diameter of the rotating wheel 202 is at least 40cm, the rotating wheel 202 is driven by a motor 203 disposed on one side of the vertical base 201 to rotate, a power chain 204 is wound on the outer surface of the rotating wheel 202, one end of the power chain 204 is fixed to the outer surface of the rotating wheel 202, the fixing mode can adopt welding, an indirect transmission structure is disposed above the rotating wheel 202 and located below the parking cavity 109 and opposite to the rotating wheel 202, and thus the rotating wheel 202 drives the lifting plate 105 to move up and down under the driving of the motor 203 by using the indirect transmission structure.

Advantageously, the indirect transmission structure comprises a top seat 301 fixed with the parking cavity 109, a transition wheel 302 is rotatably arranged in the top seat 301, and the power chain 204 bypasses the outer surface of the transition wheel 302 and is fixed with the lifting plate 105 in a welding manner, so that the indirect driving of the rotating wheel 202 by the motor 203 is realized by using the above structure, and the power chain 204 drives the lifting plate 105 to move up and down.

In the initial state, the above devices, components and structures are in the stop state, and in the initial state of the equipment, the moving plate 511 is in the flush state with the puncture cavity 106, and the lifting plate 105 is located at the upper limit position.

When the equipment works, the equipment is installed below the ground, the parking cavity 109 is flush with the ground, at the moment, a person directly parks a new energy vehicle on the upper end face of the parking cavity 109 and respectively parks the new energy vehicle in all vacant positions above the parking cavity 109 under the separation effect of the partition plate 107, when the new energy vehicle is parked in the equipment, four wheels of the vehicle are parked on the upper side of the tire base plate 510, after the person leaves the equipment, the motor 203 works to drive the rotating wheel 202 to rotate, after the rotating wheel 202 rotates, the lifting plate 105 indirectly descends through the power chain 204 to the position where the moving plate 511 is flush with the upper end face of the supporting plate 401, after that, the hydraulic cylinder 501 is pushed to work, the pushing plate 508 is driven to move upwards, so that the pushing plate 508 jacks up the vehicle, at the moment, after the driving motor 701 works, the external threaded shaft 609 is driven to rotate, the external threaded shaft 609 drives the fixed support 611 to move, when the fixed support 611 moves, because the meshing gear 605 is meshed with the rack 505, the movement of the meshing gear 605 on the rack 505 is more stable, after the fixed support 611 moves, the flat laying plate 503 also moves along with the top rotating shaft 610, and simultaneously the pushing plate 508 and the vehicle are driven to move, so that the pushing plate 508 moves to two sides of the supporting plate 401, the vehicle tire is pressed against the upper end surface of the supporting plate 401, at the moment, the pushing hydraulic cylinder 501 is pushed to stop working, the vehicle is placed on the upper side of the supporting plate 401, the vehicle placing function can be realized, when the vehicle is completely placed in the equipment, the cavity 103 is convenient for the frame 506 to rotate without interference, the vehicle is accurately placed, when the vehicle needs to be placed at different positions through rotation, the rotating motor 801 works to drive the top rotating shaft 610 to rotate, the top rotating shaft 610 drives the driven gear 608 to rotate, so that the driving gear 606 rotates to drive the penetrating shaft 620 and the fixed connecting plate 604 to rotate, the moving plate 511 can further rotate, so that the moving plate 511 drives the automobile to rotate to a parking angle, and the space utilization efficiency of the equipment is greatly improved.

The invention has the beneficial effects that: this equipment has adopted surperficial parking device 950, vertical strorage device 951 and lift to move car device 952, has realized adopting the mode of going up and down with rotatory, places the accuracy inside equipment after driving new energy automobile, very big improvement the space utilization of equipment and the high efficiency that the vehicle berthed.

The above advantages are embodied in that the parking cavity 109 is divided into several parts by the partition 107, the parking of the vehicle is facilitated by the divided parts, the rotating wheel 202 is driven by the motor 203 to rotate, the lifting plate 105 is lifted to a designated position after the rotating wheel 202 drives the power chain 204 to move, the structure of the top seat 301 and the transition wheel 302 is arranged to make the power chain 204 run more smoothly and efficiently in the process, the moving plate 511 is protruded by the through cavity 106 to make the vehicle better parked above the top plate 507 and the tire pad 510, the tire pad 510 is used for parking the vehicle wheel, the vehicle is driven into the through cavity 509, the driven gear 608 is engaged with the driving gear 606 in the parking process, and the driven gear 608 drives the driving gear 606 to rotate simultaneously by the structural characteristics of the transmission inner cavity 612, so that the through shaft 620 and the fixed connecting plate 604 rotate simultaneously, the structure greatly ensures that the fixed connecting plate 604 rotates more safely and stably, the movable plate 511 is driven to rotate after the fixed connecting plate 604 rotates, so that vehicles can be placed in different vertical boxes 102, during the vehicle placing process, the cavity 103 facilitates the moving plate 511 to rotate, the interference phenomenon does not occur, and the supporting plate 401 is used for placing and parking the vehicle, so that the space utilization efficiency of the equipment is greatly improved, the pushing hydraulic cylinder 501 is used for jacking the pushing plate 508, the pushing plate 508 is used for lifting the vehicle, and drive external screw thread shaft 609 after driving the rotation of motor 701 and rotate and make top pivot 610 move to backup pad 401 up end along with movable plate 511 and vehicle after making, very big improvement the practical reliability and the space availability factor of equipment, the setting up of strengthening rib 104 makes structural stability increase, and the setting up of buffer block 112 makes equipment can obtain better buffering when being close to ground.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although more than one of the inner cavity 101, the upright box 102, the receiving cavity 103, the reinforcing rib 104, the lifting plate 105, the through cavity 106, the partition 107, the fence 108, the parking cavity 109, the fixed column 110, the buffer block 112, the platform plate 113, the upright seat 201, the runner 202, the motor 203, the power chain 204, the top seat 301, the transition wheel 302, the support plate 401, the inner cavity 402, the side face cavity 403, the pushing hydraulic cylinder 501, the sliding rod 502, the flat plate 503, the rack 505, the frame 506, the top plate 507, the pushing plate 508, the through cavity 509, the tire pad plate 510, the moving plate 511, the pad plate 602, the rotating seat 603, the fixed connecting plate 604, the meshing gear 605, the driving gear 606, the internal thread plate 607, the driven gear 608, the external thread shaft 609, the top rotating shaft 610, the fixed bracket 611, the transmission inner cavity 612, the connecting plate 613, the sliding shaft 614, the through connecting shaft 620, the driving motor 701, the cross beam 702, the driving motor, the surface parking device 950, the surface parking device, the baffle plate, the driving motor, the driving device, the driving, The terms vertical storage 951 and lift shuttle 952 do not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.

Claims (3)

1. The new energy shared automobile placing bin is characterized by comprising a platform plate (113), wherein fixing columns (110) arranged in an annular array are fixedly arranged on the upper end face of the platform plate (113), a parking cavity (109) is fixedly arranged on the upper end face of each fixing column (110), a surface parking device (950) which is convenient for an upper vehicle to park and is convenient for a vehicle to park in equipment is arranged in each parking cavity (109), a vertical storage device (951) which is positioned between the platform plate (113) and the parking cavity (109) and is convenient for storing a new energy vehicle is arranged below each surface parking device (950), and a lifting vehicle moving device (952) which is convenient for transporting the vehicle from the surface parking device (950) to the vertical storage device (951) is arranged between the vertical storage devices (951);

the vertical storage device (951) comprises a vertical box (102) fixedly arranged between the platform plate (113) and the parking cavity (109), an open inner cavity (101) is arranged in the vertical box (102), a plurality of bilaterally symmetrical containing cavities (103) are communicated and arranged in end walls on two sides of the inner cavity (101), the containing cavities (103) are communicated with an external space, and a plurality of parking components which correspond to the containing cavities (103) and are positioned above the containing cavities (103) are arranged in the inner cavity (101);

the parking assembly comprises a supporting plate (401) which is fixed with the vertical box (102) and is positioned in the inner cavity (101), an inner cavity (402) which penetrates through the supporting plate (401) up and down is arranged in the supporting plate, symmetrical side face cavities (403) are fixedly arranged on the lower end face of the supporting plate (401), and the supporting plate (401) and the vertical box (102) are better fixed through the side face cavities (403);

the lifting car moving device (952) comprises a lifting plate (105) connected with the fixed column (110) in a sliding fit mode, the lifting plate (105) is located between the vertical boxes (102), a driving assembly is arranged on the upper end face of the lifting plate (105), a horizontal car moving assembly which drives a car and is stored in a vertical storage device (951) is arranged above the driving assembly, the horizontal car moving assembly is driven by the driving assembly to work, and a vertical lifting assembly which drives the lifting plate (105) to move up and down is arranged on one side of the fixed column (110);

the driving assembly comprises a reinforcing rib (104) fixedly arranged on the upper end face of the lifting plate (105), an open transmission inner cavity (612) is arranged in the reinforcing rib (104), a plurality of buffer blocks (112) arranged in arrays are fixedly arranged on the lower end face of the lifting plate (105), a rotating motor (801) arranged in an annular array is fixedly arranged on the lower end face of the lifting plate (105), a top rotating shaft (610) is arranged in the rotating motor (801) in a power connection mode, a driven gear (608) is fixedly arranged on the outer surface of the top rotating shaft (610), a driving gear (606) is arranged between the driven gear (608) in a meshing mode, the driving gear (606) is connected with the upper end wall and the lower end wall of the transmission inner cavity (612) in a rotating matching mode, a penetrating shaft (620) is fixedly arranged on the upper end face of the driving gear (606), and the penetrating shaft (620) rotatably penetrates through the upper end wall of the transmission inner cavity (612), the penetrating shaft (620) is in fit connection with the horizontal moving vehicle component;

the horizontal moving vehicle assembly comprises a fixed connecting plate (604) fixed with the through connecting shaft (620), backing plates (602) are arranged on the upper end face of the fixed connecting plate (604) in an annular array, bilaterally symmetrical rotating seats (603) are fixedly arranged on the upper end face of the fixed connecting plate (604), a moving plate (511) is fixedly arranged on the upper end face of the backing plate (602), top plates (507) are fixedly arranged on the moving plates (511), tire backing plates (510) used for placing vehicles are fixedly arranged on the periphery of the top plates (507), an open through cavity (509) located in the top plates (507) is arranged between the pushing hydraulic cylinders (501), and a storage structure for driving the vehicles to be stored is arranged on the lower side of the moving plate (511);

the storage structure comprises frames (506) which are fixedly arranged on the lower end face of the moving plate (511) and are symmetrical front and back, racks (505) are fixedly arranged on the lower end face of each frame (506), cross beams (702) are fixedly arranged between the frames (506), a rotation driving motor (701) is fixedly arranged on the end face of each cross beam (702) on the right side, an external threaded shaft (609) is arranged in the rotation driving motor (701) in a power connection mode, the external threaded shaft (609) is connected with the rotating base (603) on the right side in a rotating matching mode, sliding shafts (614) which are symmetrical front and back are fixedly arranged between the cross beams (702), connecting plates (613) are arranged on the outer surfaces of the sliding shafts (614) in a sliding mode, fixed supports (611) are fixedly arranged between the connecting plates (613), an internal threaded plate (607) is arranged on the lower sides of the fixed supports (611), and the internal threaded plates (607) are in threaded matching connection with the external threaded shafts (609), the end face of the connecting plate (613) far away from the fixed connecting plate (604) is rotatably provided with engaging gears (605) which are bilaterally symmetrical, the engaging gears (605) are engaged with the racks (505), the end face of the connecting plate (613) far away from the fixed connecting plate (604) is fixedly provided with a flat plate (503), the lower end face of the flat plate (503) is fixedly provided with a pushing hydraulic cylinder (501), the left side and the right side of the pushing hydraulic cylinder (501) are provided with sliding rods (502) which are bilaterally symmetrical, the sliding rods (502) are connected with the flat plate (503) in a sliding fit manner, the upper end face of the sliding rod (502) is fixedly provided with a pushing plate (508), and the pushing plate (508) is in power connection with a pushing rod in the pushing hydraulic cylinder (501);

vertical lifting unit is including setting up in found seat (201) of fixed column (110) one side, found seat (201) with landing slab (113) are fixed, found seat (201) internal rotation be provided with runner (202), runner (202) by set up in motor (203) drive rotation of founding seat (201) one side, runner (202) surface winding is provided with power chain (204), power chain (204) one end with runner (202) external surface is fixed, and fixed mode can adopt the welding, runner (202) top is provided with and is located park chamber (109) below and with runner (202) relative indirect drive structure.

2. The new energy sharing automobile placing cabin according to claim 1, characterized in that: surface parking device (950) including set firmly in park rail (108) of chamber (109) up end, it has set firmly baffle (107) of a plurality of front and back symmetries to park chamber (109) up end, baffle (107) will it separates into a plurality of even parking areas to park chamber (109), it wears chamber (106) to run through from top to bottom to park to be equipped with in chamber (109).

3. The new energy sharing automobile placing cabin according to claim 1, characterized in that: the indirect transmission structure comprises a top seat (301) fixed with the parking cavity (109), a transition wheel (302) is arranged in the top seat (301) in a rotating mode, and the power chain (204) bypasses the outer surface of the transition wheel (302) and is fixed with the lifting plate (105).

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