CN211691706U - Power lapping mechanism - Google Patents

Abstract

The utility model belongs to the parking equipment field provides a power overlap joint mechanism, and it is comparatively complicated to solve current parking equipment structure, the higher problem of installation, cost of maintenance. The mechanism comprises a translation mechanism and driven lap gears arranged on a parking space, the translation mechanism comprises a horizontal frame body, a balance wheel mechanism, a translation driving motor and a power unit, the horizontal frame body comprises a connecting rod and supporting frames arranged at two ends of the connecting rod, a translation plate is fixedly arranged on the connecting rod, at least four U-shaped notches are arranged on the translation plate side by side, the opening directions of the four U-shaped notches are consistent, the balance wheel mechanism comprises a balance wheel connecting plate, a connecting shaft connected with the output end of the translation driving motor is arranged on one end face of the balance wheel connecting plate, two idler wheels are arranged on the other end face of the balance wheel connecting plate, the distance between the two idler wheels is matched with the distance between the two U-shaped notches, the power unit comprises a lap motor fixed on the supporting frame and a driving lap gear arranged at the.

Description

Power lapping mechanism

Technical Field

The utility model belongs to the parking equipment field, concretely relates to power overlap joint mechanism.

Background

With the development of parking equipment, automatic highly integrated mechanical parking garages are produced. More and more people seek space utilization rate of the parking equipment and high efficiency of the running speed of the parking equipment. The intelligent three-dimensional parking garage has high space utilization rate, high efficient operation efficiency and intelligent unmanned participation, and can meet the requirements of people and is popular due to good user experience of going forward to enter and exit from the garage and the like.

In the existing three-dimensional parking garage, when parking, a driver drives a vehicle onto a vehicle carrying plate positioned on a lifting device at the bottom layer, firstly the lifting device is lifted to a position between the vehicle carrying plate and a parking place with the same horizontal height, and then the vehicle carrying plate carrying the vehicle is horizontally moved to the parking place at the layer to finish parking; when the vehicle is taken, the lifting device firstly rises to the same horizontal height of the parking space where the vehicle to be taken is parked, then the vehicle and the vehicle carrying plate on the parking space are translated to the lifting device, and the lifting device descends to the ground to finish the vehicle taking.

The independent power unit is required to be installed on each parking space for realizing the actions of the vehicles and the vehicle carrying plates from the lifting device to the garage and the actions of the vehicles and the vehicle carrying plates from the garage to the lifting device, but the mode is adopted, so that the structure of the whole parking equipment is complex, and the installation and maintenance costs are high.

SUMMERY OF THE UTILITY MODEL

Need install power pack in every parking stall in order to solve current parking equipment for whole parking equipment's structure is comparatively complicated, the higher technical problem of installation, cost of maintenance, the utility model provides a power overlap joint mechanism.

In order to achieve the above purpose, the utility model provides a technical scheme is:

a power lapping mechanism is characterized in that: the device comprises a translation mechanism and a driven lap gear 81 arranged on a parking space, wherein the translation mechanism comprises a horizontal frame body 2, a balance wheel mechanism 6 and a translation driving motor 5; the horizontal frame body 2 comprises a connecting rod 21 and support frames 22 arranged at two ends of the connecting rod 21; the connecting rod 21 is fixedly provided with a translation plate 3, at least four U-shaped notches are arranged on the translation plate 3 side by side, and the opening directions of the U-shaped notches are consistent; the balance wheel mechanism 6 comprises a balance wheel connecting plate 62, a connecting shaft connected with the output end of the translation driving motor 5 is fixedly arranged on one end face of the balance wheel connecting plate 62, two idler wheels 61 are arranged on the other end face of the balance wheel connecting plate 62, and the distance between the two idler wheels 61 is matched with the distance between the two U-shaped gaps; the outer end parts of the two support frames 22 are respectively provided with a power unit, and each power unit comprises a lapping motor 7 fixedly arranged on the support frame and a driving lapping gear 12 arranged at the output end of the lapping motor 7; the driving clutch gear 12 is meshed with a driven clutch gear 81 installed on the parking space 8.

Further, the power unit further comprises a transition gear 13 arranged on the support frame 22, and the transition gear 13 is meshed with the driving lap gear 12 and the driven lap gear 81.

Further, the support frame 22 has a quadrangular frame structure, and power units are provided at both outer ends of the quadrangular frame structure.

Further, the support frame 22 is formed by welding rectangular pipes.

Further, the connecting rod 21 is connected to the support frame 22 by a bolt.

Further, the above-mentioned translation plate 3 is provided in the middle of the connecting rod 21.

Further, the distance between two rollers 61 is the same as the distance between two adjacent U-shaped notches. Compared with the prior art, the utility model has the advantages that:

the utility model discloses a translation driving motor drive balance even board rotates, the gyro wheel on the balance even board promotes the left and right sides removal of translation board, the driven overlap joint gear intermeshing on initiative overlap joint gear (or transition gear) and the parking stall of horizontal frame body both sides, overlap joint motor drive initiative overlap joint gear (or transition gear), initiative overlap joint gear (or transition gear) rotate and drive driven overlap joint gear rotation, driven overlap joint gear is as the power supply of parking stall, and then realize power transmission, saved every parking stall and need set up independent power pack, reduction in production cost; the utility model discloses a power overlap joint mechanism can realize the power overlap joint of parking equipment's the left and right sides parking stall.

Drawings

Fig. 1 is a schematic structural view of the lap joint mechanism of the present invention in dynamic lap joint with a right-side parking space (at this time, the lap joint mechanism is separated from the left-side parking space);

FIG. 2 is a schematic structural view of the translation plate of the present invention;

fig. 3 is a schematic structural view of the balance wheel mechanism of the present invention;

FIG. 4 is a top view of FIG. 3;

fig. 5 is a schematic view of an operating state of the translation plate driven by the balance wheel mechanism, wherein a is a schematic view of an initial state of the balance wheel mechanism in the middle of the translation plate, b is a schematic view of the balance wheel mechanism after rotating once to drive the translation plate to move, and c is a schematic view of the balance wheel mechanism after rotating twice to drive the translation plate to move;

wherein the reference numbers are as follows:

12-driving lap joint gear, 13-transition gear, 2-horizontal frame body, 21-connecting rod, 22-supporting frame, 3-translation plate, 31-U-shaped gap, 5-translation driving motor, 6-balance mechanism, 61-roller, 62-balance connecting plate, 7-lap joint motor, 8-parking space, 81-driven lap joint gear.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1 to 5, a power lapping mechanism includes a translation mechanism disposed between two adjacent parking spaces 8 at the same horizontal height and a driven lapping gear 81 mounted on the parking spaces 8, the translation mechanism includes a horizontal frame body 2, a balance wheel mechanism 6 and a translation driving motor 5, the horizontal frame body 2 includes a connecting rod 21 and support frames 22 disposed at two ends of the connecting rod 21, the support frames 22 are of a quadrilateral frame structure, each support frame 22 can be formed by welding rectangular pipes, and the connecting rod 21 and the support frames 22 are fixed by bolts.

The connecting rod 21 is fixedly provided with a translation plate 3, at least four U-shaped notches are arranged on the translation plate 3 side by side, and the opening directions of the U-shaped notches are consistent; the balance wheel mechanism 6 comprises a balance wheel connecting plate 62, a connecting shaft connected with the output end of the translation driving motor 5 is fixedly installed on one end face of the balance wheel connecting plate 62, two idler wheels 61 are installed on the other end face of the balance wheel connecting plate 62, the distance between the two idler wheels 61 is matched with the distance between the two U-shaped notches, the two idler wheels 61 are respectively clamped in the two U-shaped notches, the translation plate 3 moves left and right relative to the balance wheel mechanism 6 through the transfer of the idler wheels 61 between the U-shaped notches on the translation plate 3, the distance between the two idler wheels 61 can be positive times of the distance between the two adjacent U-shaped notches, and preferably the distance between the two idler wheels 61 is the same as the distance between the two adjacent U-shaped notches. As shown in fig. 5, a is a schematic view of the balance in the initial state in the middle of the translation plate, b is a schematic view of the balance rotating once to drive the translation plate to move, and c is a schematic view of the balance rotating twice to drive the translation plate to move.

The outer tip of two support frames 22 all is equipped with power unit, and power unit includes overlap joint motor 7 of fixed mounting on the support frame and installs the initiative overlap joint gear 12 at overlap joint motor 7 output, and initiative overlap joint gear 12 meshes with the driven overlap joint gear 81 of installing on parking stall 8 mutually, and overlap joint motor 7 drive initiative overlap joint gear 12 rotates, and initiative overlap joint gear 12 drives driven overlap joint gear and rotates.

Meanwhile, the power unit can further comprise a transition gear 13 arranged on the support frame 22, the transition gear 13 is arranged on the outer side of the driving lapping gear 12 and is meshed with the driving lapping gear 12 and the driven lapping gear, the lapping motor 7 drives the driving lapping gear 12 to rotate, the driving lapping gear 12 drives the transition gear 13 to rotate, the transition gear 13 rotates to drive the driven lapping gear to rotate, the driven lapping gear serves as a power source of the parking space 8, and power transmission is achieved. The optimization mode is that both ends outside the quadrilateral frame structure are provided with power units, and the position of the corresponding parking space 8 is provided with a driven lap joint gear.

The U-shaped gap 31 quantity that sets up on the translation board 3 carries out rational design according to the distance that horizontal frame body 2 needs moved about, and preferred translation board 3 sets up the middle part at connecting rod 21.

The translation mechanism of this embodiment sets up on elevating gear, translation mechanism's translation driving motor fixes on elevating gear, the connecting rod on the horizontal frame body 2 passes through the bearing and installs on elevating gear, translation driving motor drive balance even board rotates, simultaneously the gyro wheel on the balance even board is rotatory along with balance even board, thereby promote the translation board to remove to the parking stall direction, the translation board drives the support frame of horizontal frame body 2 simultaneously and removes to the parking stall direction, the power overlap joint with this layer parking stall is realized to the removal about the horizontal direction of initiative overlap joint gear (or transition gear) on the support frame, along with elevating gear's up-and-down motion, can realize the power overlap joint between the multilayer parking stall.

When a vehicle and a vehicle carrying plate at a parking space need to enter or leave the parking space, the translation driving motor drives the balance wheel connecting plate to rotate, meanwhile, the roller wheels on the balance wheel connecting plate rotate along with the balance wheel connecting plate, so that the translation plate is pushed to move towards the parking space direction, the translation plate simultaneously drives the support frame to move towards the parking space direction, when the transition gear on the outer side of the support frame is in contact with and meshed with the driven lap gear on the parking space, the lap joint motor drives the driving lap joint gear to rotate, the driving gear rotates to drive the transition gear to rotate, the transition rotation drives the driven lap joint gear on the parking space to rotate, further, the transmission of power is realized, at the moment, the power lap joint mechanism successfully laps the parking space, the driven lap joint gear serves as a power source of.

When the translation mechanism needs to be separated, the translation driving motor rotates reversely to drive the balance wheel connecting plate to rotate, meanwhile, the roller wheel on the balance wheel connecting plate rotates along with the balance wheel connecting plate, so that the translation plate is pushed to move in the opposite direction of the parking space, and when the transition gear on the outer side of the support frame is separated from the driven lap gear of the parking space, the whole working process is completed.

The utility model discloses an overlap joint mechanism except using sky parking equipment, still can be used to in mechanical trades such as logistics storage, can save a large amount of power supplies.

Claims (7)

1. A power bridging mechanism which characterized in that: the device comprises a translation mechanism and a driven lap joint gear arranged on a parking space;

the translation mechanism comprises a horizontal frame body (2), a balance wheel mechanism (6) and a translation driving motor (5);

the horizontal frame body (2) comprises a connecting rod (21) and supporting frames (22) arranged at two ends of the connecting rod (21);

the connecting rod (21) is fixedly provided with a translation plate (3), at least four U-shaped notches are arranged on the translation plate (3) side by side, and the opening directions of the U-shaped notches are consistent;

the balance wheel mechanism (6) comprises a balance wheel connecting plate (62), a connecting shaft connected with the output end of the translation driving motor (5) is fixedly arranged on one end face of the balance wheel connecting plate (62), two idler wheels (61) are arranged on the other end face of the balance wheel connecting plate, and the distance between the two idler wheels (61) is matched with the distance between the two U-shaped notches;

the outer end parts of the two support frames (22) are respectively provided with a power unit, and each power unit comprises a lap joint motor (7) fixedly arranged on the support frame and a driving lap joint gear (12) arranged at the output end of the lap joint motor (7);

the driving lap gear (12) is meshed with a driven lap gear (81) arranged on the parking space (8).

2. A powered clutch mechanism according to claim 1, wherein: the power unit further comprises a transition gear (13) arranged on the support frame (22), and the transition gear (13) is meshed with the driving lap gear (12) and the driven lap gear (81).

3. A powered clutch mechanism according to claim 1 or claim 2, wherein: the support frame (22) is of a quadrilateral frame structure, and power units are arranged at two ends of the outer side of the quadrilateral frame structure.

4. A powered clutch mechanism according to claim 3, wherein: the support frame (22) is formed by welding rectangular pipes.

5. A powered clutch mechanism according to claim 4, wherein: the connecting rod (21) is connected with the supporting frame (22) through a bolt.

6. A powered clutch mechanism according to claim 5, wherein: the translation plate (3) is arranged in the middle of the connecting rod (21).

7. A powered clutch mechanism according to claim 1, wherein: the distance between the two rollers (61) is the same as the distance between two adjacent U-shaped notches.

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