CN118128359A - Comb-tooth type rotary parking tower garage - Google Patents

Abstract

The invention discloses a comb-tooth type rotary parking tower garage, which comprises a steel structure frame, a lifting rotary comb-tooth frame structure, a transverse moving power component, a transverse comb-tooth frame, a longitudinal moving power component, a longitudinal comb-tooth frame and a fixing frame, wherein the lifting rotary comb-tooth frame structure is arranged on the steel structure frame; the steel construction frame middle part is equipped with the lift well, be equipped with the rotatory broach frame structure of lift on the lift well, the height that highly is higher than the longitudinal movement power subassembly of transverse movement power subassembly and is less than the height of longitudinal broach frame, the passageway that can let the mount run through has been seted up on the transverse movement power subassembly, the height of transverse broach frame is higher than the height of longitudinal movement power subassembly. The parking tower garage has the advantages that four vehicles are stored in the north and south directions, compared with the comb-tooth type vertical lifting tower garage on the existing market, the parking tower garage has the advantages that two-way parking spaces are increased, the land utilization rate is greatly improved, and the number of vehicles parked in the garage is increased.

Description

Comb-tooth type rotary parking tower garage

Technical Field

The invention relates to the technical field of intelligent parking equipment, in particular to a comb-tooth type rotary parking tower garage.

Background

In recent years, with the continuous improvement of the living standard of the masses of people in China, the quantity of the motor vehicles in China is increased, and due to unreasonable urban planning, the shortage of parking facilities, poor management and other reasons, road resources are more intense than one day, and the contradiction between traffic supply and demand is increasingly revealed. Especially in static traffic, the traditional parking lot cannot meet more and more parking demands, and based on the real problem of parking difficulty, the static traffic is parked on roads, and for the originally crowded dynamic traffic and the urban open land with one-inch land and one-inch gold, the problem of the crowded roads is certainly more and more serious, so that the problem of parking difficulty faced by the city must be highly emphasized, and a solution is actively sought. There are various types of stereoscopic parking devices in the current market to meet the needs of various customers.

The comb-tooth type vertical lifting tower garage on the market at present can only meet the requirement of bidirectional parking, for example, publication number CN216157287U discloses a five-row comb-tooth type vertical lifting mechanical parking garage, a lifting mechanism of the parking garage drives an automobile to lift, and the bidirectional transverse movement of the automobile is transferred to double-side parking spaces through transverse movement of a parking frame; however, the garage has low land utilization rate on one hand, and has relatively small number of parked vehicles under the condition of a certain height on the other hand, high requirements on construction height and high limitation.

Disclosure of Invention

The technical problem to be solved by the invention is how to improve the land utilization rate and increase the number of vehicles parked in the garage.

In order to solve the technical problems, the invention provides the following technical scheme:

A comb-tooth type rotary parking tower garage comprises a steel structure frame, a lifting rotary comb-tooth frame structure, a transverse moving power component, a transverse comb-tooth frame, a longitudinal moving power component, a longitudinal comb-tooth frame and a fixing frame;

The middle part of the steel structure frame is provided with a lifting well, lifting rotary comb rack structures are arranged on the lifting well, parking areas are arranged around the lifting well, and are respectively a transverse parking area and a longitudinal parking area, the transverse moving force assembly is arranged on the transverse parking area of the steel structure frame and the transverse structure of the lifting well, the transverse comb rack can be transversely arranged on the transverse moving force assembly, so that the transverse comb rack can transversely move in the transverse parking area and the lifting well, the longitudinal moving force assembly is arranged on the longitudinal parking area of the steel structure frame and the longitudinal structure of the lifting well, and the longitudinal comb rack can longitudinally move above the longitudinal moving force assembly through a fixing frame, so that the longitudinal comb rack can longitudinally move in the longitudinal parking area and the lifting well;

the height of the transverse moving force component is higher than that of the longitudinal moving force component and lower than that of the longitudinal comb rack, a channel which can be penetrated by the fixing rack is formed in the transverse moving force component, and the height of the transverse comb rack is higher than that of the longitudinal moving force component.

The parking tower garage realizes four-direction vehicle storage and taking in the south and north directions of vehicles, and compared with the comb-tooth type vertical lifting tower garage on the prior market, the two-way parking space is increased, the land utilization rate is greatly improved, and the number of vehicles parked in the garage is increased.

Preferably, the steel structure frame is a frame structure consisting of a plurality of upright posts, cross beams and longitudinal beams.

Preferably, the lifting rotary comb rack structure comprises a lifting power assembly, steel wire ropes, a movable sliding block, a connecting frame, a rotating assembly and a lifting comb rack, wherein the lifting power assembly is fixed on a steel structure frame at the top of a lifting shaft, vertical columns at four corner ends of the lifting shaft are provided with vertical sliding grooves, the lifting power assembly is provided with four output ends, each output end is connected with a group of steel wire ropes, the other ends of the steel wire ropes are connected with the movable sliding block arranged inside the vertical sliding grooves, the four movable sliding blocks are connected with the fixed end of the rotating assembly through the connecting frame, and the output ends of the rotating assembly are connected with the lifting comb rack.

Preferably, the transverse moving force assembly comprises a transverse moving beam, a transverse moving motor, a transverse driving chain wheel set, a transverse annular chain, a transverse driven chain wheel and a transverse driven wheel, wherein the transverse moving beam is arranged at the front end and the rear end of each parking space of the transverse parking area and on a cross beam of a lifting well, the transverse moving motor is fixed on the transverse moving beam, the output end of the transverse moving motor is connected with the transverse driving chain wheel set arranged on the transverse moving beam through the transverse annular chain, the output end of the transverse driving chain wheel set is connected with the transverse driven chain wheel arranged on the transverse moving beam, the transverse driven chain wheel is meshed with the end part of the transverse comb rack, and the transverse driven wheel can be rotatably arranged on the transverse moving beam and drives the transverse comb rack to move on the transverse driven wheel through the rotation of the transverse driven chain wheel;

the channels are provided on the laterally moving beams.

Preferably, the longitudinal moving force assembly comprises a longitudinal moving beam, a longitudinal moving motor, a longitudinal driving chain wheel set, a longitudinal annular chain, a longitudinal driven chain wheel and a longitudinal driven wheel, wherein the longitudinal moving beam is arranged at the front end and the rear end of each parking space of the longitudinal parking area and on a longitudinal beam of the lifting well, the longitudinal moving motor is fixed on the longitudinal moving beam, the output end of the longitudinal moving motor is connected with the longitudinal driving chain wheel set arranged on the longitudinal moving beam through the longitudinal annular chain, the output end of the longitudinal driving chain wheel set is connected with the longitudinal driven chain wheel arranged on the longitudinal moving beam, the longitudinal driven chain wheel is meshed with the end part of the longitudinal comb rack, and the longitudinal driven wheel can be rotatably arranged on the longitudinal moving beam and drives the longitudinal comb rack to move on the longitudinal driven wheel through rotation of the longitudinal driven chain wheel.

Preferably, the transverse comb rack and the longitudinal comb rack are both movable comb racks with the same structure, each movable comb rack comprises a vehicle carrying plate, a skeleton and channel steel, the two sides of the vehicle carrying plate are horizontally provided with the skeleton vertical to the vehicle carrying plate, two ends of the vehicle carrying plate are connected with the channel steel, the corresponding hanging of the channel steel is arranged at the output ends of the transverse moving force assembly and the longitudinal moving force assembly, and the channel steel is driven to move by the transverse moving force assembly or the longitudinal moving force assembly.

Preferably, one side of the channel steel, which is close to the transverse moving force assembly or the longitudinal moving force assembly, is in an opening shape.

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

The parking tower garage realizes four-direction vehicle storage and taking in the south and north directions of vehicles, and compared with the comb-tooth type vertical lifting tower garage on the prior market, the two-way parking space is increased, the land utilization rate is greatly improved, and the number of vehicles parked in the garage is increased.

Drawings

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

FIG. 2 is a schematic diagram of a lifting/lowering rotary comb frame structure according to an embodiment of the present invention;

FIG. 3 is a schematic view of a partial structure of an embodiment of the present invention;

FIG. 4 is a schematic view of another partial structure of an embodiment of the present invention;

FIG. 5 is a schematic view of a transverse moving force assembly according to an embodiment of the present invention;

FIG. 6 is a schematic view of a longitudinal motion force assembly according to an embodiment of the present invention;

FIG. 7 is a schematic view of a transverse comb frame according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a longitudinal comb frame according to an embodiment of the present invention.

Detailed Description

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

In the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; the device can be mechanically connected, electrically connected and communicated; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present application, the terms "first," "second," and "second" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated unless otherwise explicitly specified and defined. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1 to 4, the present embodiment discloses a comb-tooth type rotary parking tower garage, which comprises a steel structure frame 1, a lifting rotary comb-tooth frame structure 2, a transverse moving force component 3, a transverse comb-tooth frame 4, a longitudinal moving force component 5, a longitudinal comb-tooth frame 6 and a fixing frame 7.

The steel structure frame 1 comprises a plurality of stand columns, cross beams and longitudinal beams, a lifting well 11 is arranged in the middle of the steel structure frame 1, a lifting rotary comb frame structure 2 is arranged on the lifting well 11 and used for lifting and rotating vehicles to be stored and taken in the lifting well 11, parking areas are arranged around the lifting well 11 and are respectively a transverse parking area and a longitudinal parking area, a transverse moving power assembly 3 is arranged on the transverse parking area of the steel structure frame 1 and the cross beams of the lifting well 11, the transverse comb frame 4 can be transversely moved and arranged on the transverse moving power assembly 3, so that the transverse comb frame 4 can transversely move in the transverse parking area and the lifting well 11, the longitudinal moving power assembly 5 is arranged on the longitudinal parking area of the steel structure frame 11 and the longitudinal beams of the lifting well 11, and the longitudinal comb frame 6 is fixed above the longitudinal moving power assembly 5 through a fixing frame 7, and the longitudinal comb frame 6 can longitudinally move in the longitudinal parking area and the lifting well 11.

Specifically, the lifting rotary comb rack structure 2 comprises a lifting power assembly, steel wire ropes 21, a movable sliding block 22, a connecting frame 23, a rotary assembly 24 and a lifting comb rack 25, wherein the lifting power assembly is fixed on a steel structure frame 1 at the top of a lifting well 11, vertical sliding grooves are formed in upright posts at four corner ends of the lifting well 11, the lifting power assembly is provided with four output ends, each output end is connected with one group of steel wire ropes 21, the other end of each steel wire rope 21 is connected with the movable sliding block 22 arranged in the vertical sliding groove, the four movable sliding blocks 22 are connected with the fixed end of the rotary assembly 24 through the connecting frame 23, the output end of the rotary assembly 24 is connected with the lifting comb rack 25, and the lifting comb rack 25 is used for placing vehicles to be accessed; the lifting power assembly drives the steel wire rope 21 to be wound, so that the movable sliding block 22 is driven to vertically move in the upright posts at the four corner ends of the lifting well 11, and the connecting frame 23 drives the lifting comb rack 25 to vertically move, so that the lifting of the vehicle to be stored and taken is realized; the lifting comb rack 25 is driven by driving the rotating assembly 24, so that the rotation of the vehicle to be stored and taken out is realized.

The height of the transverse moving force component 3 is higher than that of the longitudinal moving force component 5 and lower than that of the longitudinal comb rack 6, a channel 301 which can be penetrated by the fixing rack 7 is formed in the transverse moving force component 3, and when the longitudinal moving force component 5 drives the longitudinal comb rack 6 and a vehicle on the longitudinal comb rack 6 to longitudinally move, the channel 301 penetrated by the fixing rack 7 ensures that the longitudinal comb rack 6 and the vehicle on the longitudinal comb rack 6 cannot interfere with the transverse moving force component 3 and the transverse comb rack 4, and the longitudinal comb rack 6 and the vehicle on the longitudinal comb rack 6 can normally longitudinally move.

The height of the transverse comb rack 4 is higher than that of the longitudinal movement force assembly 5, so that the transverse comb rack 4 and vehicles on the transverse comb rack 4 cannot interfere with the longitudinal movement force assembly 5 when moving transversely, and further the parking tower warehouse realizes four-direction vehicle storage and retrieval of vehicles in the north-south direction, compared with the comb-tooth type vertical lifting tower warehouse on the existing market, the two-way parking space is increased, the land utilization rate is greatly improved, and the number of parked vehicles in the garage is increased.

Referring to fig. 5, the lateral movement power assembly 3 includes a lateral movement beam 31, a lateral movement motor 32, a lateral driving sprocket set 33, a lateral annular chain (not shown), a lateral driven sprocket 34, and a lateral driven wheel 35, the lateral movement beam 31 is disposed at front and rear ends of each parking space in the lateral parking area and on a cross beam of the lifting shaft 11, the lateral movement motor 32 is fixed on the lateral movement beam 31, an output end of the lateral movement motor 32 is connected with the lateral driving sprocket set 33 disposed on the lateral movement beam 31 through the lateral annular chain, an output end of the lateral driving sprocket set 33 is connected with a lateral driven sprocket 34 disposed on the lateral movement beam 31, so that the lateral driven sprocket 34 follows the driving sprocket in the lateral driving sprocket set 33, the lateral driven sprocket 34 is meshed with an end of the lateral comb frame 4, and the lateral driven wheel 35 can be rotatably disposed on the lateral movement beam 31, and the lateral comb frame 4 is driven by rotation of the lateral driven sprocket 34.

The channel 301 is provided on the laterally moving beam 31.

The longitudinal moving force assembly 5 comprises a longitudinal moving beam 51, a longitudinal moving motor 52, a longitudinal driving chain wheel group 53, a longitudinal annular chain, longitudinal driven chain wheels 54 and longitudinal driven wheels 55, wherein the longitudinal moving beam 51 is arranged at the front end and the rear end of each parking space of the longitudinal parking area and the longitudinal beam of the lifting well 11, the longitudinal moving motor 52 is fixed on the longitudinal moving beam 51, the output end of the longitudinal moving motor 52 is connected with the longitudinal driving chain wheel group 53 arranged on the longitudinal moving beam 51 through the longitudinal annular chain, the output end of the longitudinal driving chain wheel group 53 is connected with the longitudinal driven chain wheels 54 arranged on the longitudinal moving beam 51, the longitudinal driven chain wheels 54 are meshed with the end parts of the longitudinal comb rack 6, the longitudinal driven wheels 55 can be rotatably arranged on the longitudinal moving beam 51, and the longitudinal comb rack 6 is driven to move on the longitudinal driven wheels 55 through the rotation of the longitudinal driven chain wheels 54.

Referring to fig. 3, fig. 4, fig. 7 and fig. 8, the transverse comb rack 4 and the longitudinal comb rack 6 are respectively a movable comb rack with the same structure, the movable comb rack comprises a car carrying plate 41, a row skeleton 42, channel steel 43 and a rack 45, the two sides of the car carrying plate 41 are horizontally provided with the rib rack 42 perpendicular to the car carrying plate 41, two ends of the car carrying plate 42 are respectively connected with the channel steel 43, two ends of the car carrying plate 42 on the transverse comb rack 4 are directly connected with the channel steel 43, two ends of the car carrying plate 42 on the longitudinal comb rack 6 are connected with the channel steel 43 through a fixing frame 7, the channel steel 43 is provided with a rack 45 which can be connected with a transverse driven sprocket 34 and a longitudinal driven sprocket 54, the channel steel 43 is correspondingly hung on a driven wheel of the transverse moving force component 3 and the longitudinal moving force component 5, and the rack 45 is driven by the rotation of the transverse driven sprocket 34 or the longitudinal driven sprocket 54 so as to drive the rack 45 to move, and further drive the channel steel 43 to move on the driven wheel. In this embodiment, the channel 43 is a C-shaped channel with an opening at one side, so that the channel 43 moves on the driven wheel.

The working principle of the embodiment is as follows:

The entrance of this garage is driven into to the vehicle, parks on lift broach frame 25, drives wire rope 21 rolling through lifting power assembly to drive and remove slider 22 and vertically remove in the stand of four angle ends of lift well 11, and then drive lift broach frame 25 vertical movement through link 23, drive the vehicle and rise, then drive rotary assembly 24 according to the requirement of parking, drive lift broach frame 25 drives the vehicle and rotates to the parking direction.

When the longitudinal movement force assembly 5 rotates to the longitudinal direction, the longitudinal comb rack 6 is driven to move into the lifting well 11 by the longitudinal movement force assembly 5, then the lifting power assembly is loosened, so that the longitudinal comb rack 6 receives a vehicle on the lifting comb rack 25, and then the longitudinal comb rack 6 is driven to move back to a longitudinal parking area by the longitudinal movement force assembly 5, and then the lifting power assembly is continuously loosened to return to an initial position, so that parking of the vehicle in the longitudinal parking area is completed; of course, it is the same to take vehicles in the longitudinal parking area.

When the transverse moving power assembly 3 rotates to the transverse direction, the transverse comb rack 4 is driven to move into the lifting well 11 by the transverse moving power assembly 3, then the lifting power assembly is loosened, so that the transverse comb rack 4 receives a vehicle on the lifting comb rack 25, and then the transverse comb rack 4 is driven to move back to a transverse parking area by the transverse moving power assembly 3, and then the lifting power assembly is continuously loosened to return to an initial position, so that parking of the vehicle in the transverse parking area is completed; of course, it is the same to take vehicles in the lateral parking area.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

The above-described embodiments merely represent embodiments of the invention, the scope of the invention is not limited to the above-described embodiments, and it is obvious to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention.

Claims (7)

1. A broach type rotary parking tower warehouse is characterized in that: comprises a steel structure frame, a lifting rotary comb rack structure, a transverse moving power component, a transverse comb rack, a longitudinal moving power component, a longitudinal comb rack and a fixing rack;

The middle part of the steel structure frame is provided with a lifting well, lifting rotary comb rack structures are arranged on the lifting well, parking areas are arranged around the lifting well, and are respectively a transverse parking area and a longitudinal parking area, the transverse moving force assembly is arranged on the transverse parking area of the steel structure frame and the transverse structure of the lifting well, the transverse comb rack can be transversely arranged on the transverse moving force assembly, so that the transverse comb rack can transversely move in the transverse parking area and the lifting well, the longitudinal moving force assembly is arranged on the longitudinal parking area of the steel structure frame and the longitudinal structure of the lifting well, and the longitudinal comb rack can longitudinally move above the longitudinal moving force assembly through a fixing frame, so that the longitudinal comb rack can longitudinally move in the longitudinal parking area and the lifting well;

the height of the transverse moving force component is higher than that of the longitudinal moving force component and lower than that of the longitudinal comb rack, a channel which can be penetrated by the fixing rack is formed in the transverse moving force component, and the height of the transverse comb rack is higher than that of the longitudinal moving force component.

2. A comb-tooth rotary parking tower garage according to claim 1, wherein: the steel structure frame is a frame structure consisting of a plurality of upright posts, cross beams and longitudinal beams.

3. A comb-tooth rotary parking tower garage according to claim 2, wherein: the lifting rotary comb rack structure comprises a lifting power assembly, steel wire ropes, a movable slider, a connecting frame, a rotating assembly and a lifting comb rack, wherein the lifting power assembly is fixed on a steel structure frame at the top of a lifting well, vertical columns at four corner ends of the lifting well are provided with vertical sliding grooves, the lifting power assembly is provided with four output ends, each output end is connected with a group of steel wire ropes, the other end of each steel wire rope is connected with the movable slider arranged inside the vertical sliding groove, the four movable sliders are connected with the fixed end of the rotating assembly through the connecting frame, and the output ends of the rotating assembly are connected with the lifting comb rack.

4. A comb-tooth rotary parking tower garage according to claim 1, wherein: the transverse moving force assembly comprises a transverse moving beam, a transverse moving motor, a transverse driving chain wheel set, a transverse annular chain, a transverse driven chain wheel and a transverse driven wheel, wherein the transverse moving beam is arranged at the front end and the rear end of each parking space of a transverse parking area and on a cross beam of a lifting well, the transverse moving motor is fixed on the transverse moving beam, the output end of the transverse moving motor is connected with the transverse driving chain wheel set arranged on the transverse moving beam through the transverse annular chain, the output end of the transverse driving chain wheel set is connected with the transverse driven chain wheel arranged on the transverse moving beam, the transverse driven chain wheel is meshed with the end part of the transverse comb rack, and the transverse driven wheel can be rotatably arranged on the transverse moving beam and drives the transverse comb rack to move on the transverse driven wheel through the rotation of the transverse driven chain wheel;

the channels are provided on the laterally moving beams.

5. A comb-tooth rotary parking tower garage according to claim 1, wherein: the longitudinal moving force assembly comprises a longitudinal moving beam, a longitudinal moving motor, a longitudinal driving chain wheel set, a longitudinal annular chain, a longitudinal driven chain wheel and a longitudinal driven wheel, wherein the longitudinal moving beam is arranged on the front end and the rear end of each parking space of the longitudinal parking area and a longitudinal beam of a lifting well, the longitudinal moving motor is fixed on the longitudinal moving beam, the output end of the longitudinal moving motor is connected with the longitudinal driving chain wheel set arranged on the longitudinal moving beam through the longitudinal annular chain, the output end of the longitudinal driving chain wheel set is connected with the longitudinal driven chain wheel arranged on the longitudinal moving beam, the longitudinal driven chain wheel is meshed with the end part of the longitudinal comb rack, and the longitudinal driven wheel can be rotatably arranged on the longitudinal moving beam and drives the longitudinal comb rack to move on the longitudinal driven wheel through rotation of the longitudinal driven chain wheel.

6. A comb-tooth rotary parking tower garage according to claim 1, wherein: the transverse comb rack and the longitudinal comb rack are both movable comb racks with the same structure, each movable comb rack comprises a vehicle carrying plate, a row framework, channel steel and racks, the two sides of the vehicle carrying plate are horizontally provided with the rib frames perpendicular to the vehicle carrying plate, two ends of the vehicle carrying plate are connected with the channel steel, the channel steel is provided with the racks which can be meshed with the transverse moving force assembly and the longitudinal moving force assembly, the corresponding hanging of the channel steel is arranged on the output ends of the transverse moving force assembly and the longitudinal moving force assembly, and the channel steel is driven to move by the transverse moving force assembly or the longitudinal moving force assembly.

7. A comb-tooth rotary parking tower garage according to claim 6, wherein: and one side of the channel steel, which is close to the transverse moving force component or the longitudinal moving force component, is in an opening shape.