A new insertable parking device with a paved bio-based panel
By installing detachable car parking devices with bio-based panels and hill-start assist devices, the space above the green belt is used to create elevated parking spaces, solving the parking problem and providing a stable and economical parking solution by increasing parking spaces without damaging the greenery.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- CHINA JINGYE ENG TECH CO LTD
- Filing Date
- 2021-07-01
- Publication Date
- 2026-06-12
Smart Images

Figure CN115559581B_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of parking technology, specifically relating to a novel insert-type parking device with a bio-based panel. Background Technology
[0002] As we all know, cars have become another major consumer item outside of people's homes. With the increase in private car ownership, a large number of cars have entered residential areas. While bringing convenience to residents' lives, this has also generated many negative impacts, among which parking difficulties have become one of the most prominent problems.
[0003] Solving urban parking problems is part of the effort to alleviate urban traffic congestion, and improvements are currently being made primarily in the following areas:
[0004] I. Revise urban planning and construction standards to ensure the essential demand for parking for residents' own use;
[0005] Second, utilize existing vacant areas in the city, such as roadsides, abandoned sites, and public areas, to increase parking spaces;
[0006] 3. Improve the utilization rate of existing parking spaces: such as two-level lift parking; multi-level aerial parking solutions, etc.
[0007] Regarding the aforementioned solutions to parking difficulties, apart from the first point which involves urban planning approval and generally requires unified administrative deployment with a relatively long planning and approval cycle, the second and third points both feature the characteristic of quickly resolving parking problems. Regarding the utilization of vacant ground areas, in order to control the trend of limited urban ground space being rapidly divided for parking space allocation, leading to increasingly smaller urban spaces, the development of parking technology for above-ground spaces is one of the research directions. The hope is to achieve the optimal parking solution with minimal sacrifice of ground resources, thereby solving the current urban parking problem. Summary of the Invention
[0008] To overcome the existing parking difficulties, this invention proposes a novel insert-type parking device with a paved bio-based panel, which aims to realize vehicle parking by utilizing the space above existing urban green belts.
[0009] The technical solution adopted in this invention is: to provide a novel insert-type parking device with a paved bio-based panel, including a detachable car parking device and a hill-start assist device that is matched with the detachable car parking device.
[0010] Preferably, the detachable car parking device includes several support devices, several reinforcing members are provided between two adjacent support devices, and a support member is provided between two adjacent reinforcing members.
[0011] Preferably, the reinforcing members are arranged at equal intervals, and the distance between two adjacent reinforcing members is 50cm to 100cm.
[0012] Furthermore, the spacing between two adjacent reinforcing members is chosen to be 50cm, which ensures that the detachable car parking device has sufficient load-bearing capacity.
[0013] Preferably, the uphill assist device includes several folding devices, and a support member is provided between two adjacent folding devices.
[0014] Furthermore, when there are two supporting devices, there are three corresponding folding devices, forming a parking space unit structure.
[0015] Preferably, both support member one and support member two can be made of patterned steel plate.
[0016] Preferably, both support component one and support component two are bio-based panels. These bio-based panels utilize renewable biomass, including crops, trees, and other plants and their residues and contents, as raw materials, manufactured through biological, chemical, and physical methods. They can replace materials such as plastics, steel, and cement, possessing excellent green, renewable, and biodegradable characteristics. During use, they can be used in conjunction with steel purlins to ensure sufficient overall strength for support. Holes can be formed in the bio-based panels to allow sufficient sunlight to reach the green belt under the removable car parking device.
[0017] Preferably, the support device includes an embedded part and a support member connected to the embedded part, and the support device is connected to the reinforcing member through the support member.
[0018] The pre-embedded part and the support part are connected in a sleeve, which makes the support device detachable. When maintenance or planting of green belt is required, only the structure above the green belt needs to be disassembled.
[0019] Preferably, the embedded part is an L-shaped large square tube, and the support part is an L-shaped small square tube. One end of the L-shaped small square tube can be inserted into one end of the L-shaped large square tube, and the connection is tight.
[0020] Preferably, the folding device includes a first rod, a second telescopic rod movably connected to one end of the first rod, and a third lifting rod movably connected to the second telescopic rod. The second telescopic rod can be rotatably folded into the third lifting rod, and the third lifting rod can be rotatably folded into the first rod, forming a folded and retracted folding device.
[0021] Preferably, the second telescopic rod is a cylinder, and under the drive of hydraulic force, the extension and retraction of the cylinder drives the third lifting rod to adjust up and down in space.
[0022] The beneficial effects of this invention are as follows: The novel insert-type parking device with a bio-based panel described in this invention is installed above an existing green belt to form an elevated parking area. This allows the rear of the vehicle to be parked within this elevated parking area. Furthermore, the hill-climbing assist device described in this invention helps the vehicle climb the hill to the elevated parking area, allowing the front of the vehicle to be parked on the hill-climbing assist device. This achieves elevated parking above the green belt without damaging the existing green belt. It ensures that the center of gravity of the vehicle's front end is still supported by the ground, ensuring stable parking. It resolves the contradiction between parking difficulties and green space damage without occupying a large amount of ground space. The entire device has good social and economic benefits. Attached Figure Description
[0023] Figure 1 This is a schematic diagram of the planar structure of a novel insert-type parking device with a bio-based panel as described in this invention;
[0024] Figure 2 for Figure 1 A schematic diagram of the side view structure;
[0025] Figure 3 for Figure 2 A schematic diagram of the folding device during folding and retraction;
[0026] Figure 4A This is a diagram illustrating vehicle parking when there is insufficient ground space in front of the existing green belt.
[0027] Figure 4B This is a schematic diagram of the planar structure of a novel insert-type parking device with a bio-based panel as described in this invention, which is parked obliquely above a green belt.
[0028] Figure 4C This is a schematic diagram of the planar structure of a novel insert-type parking device with a bio-based panel as described in this invention, which is vertically parked above a green belt.
[0029] In the diagram: 1-Removable car parking device; 2-Hill-start assist device; 11-Support device; 12-Reinforcement component; 13-Support component one; 21-Folding device; 22-Support component two; 111-Embedded component one; 112-Support component; 211-First rod; 212-Second telescopic rod; 213-Third lifting rod. Detailed Implementation
[0030] The present invention will be further described below with reference to the accompanying drawings.
[0031] like Figures 1 to 4CAs shown in the figure, a new type of plug-in parking device for paving biobased panels is provided, which includes a detachable vehicle parking device 1 and an uphill assist device 2 that matches the detachable vehicle parking device 1. The detachable vehicle parking device 1 and the uphill assist device 2 are arranged at equal intervals along the horizontal direction of the green belt. To facilitate the description of the technical solution of the present invention, in this embodiment, when there are two support devices, three folding devices are correspondingly provided as a parking space unit for description; specifically: the detachable vehicle parking device 1 includes two support devices 11, and a plurality of reinforcing members 12 are provided between adjacent two support devices 11, and a first support member 13 is provided between adjacent two reinforcing members 12. The first support member is made of biobased panel or patterned steel plate. The reinforcing members 12 are arranged at equal intervals, and the distance between adjacent two reinforcing members 12 is 50 cm; the uphill assist device 2 includes three folding devices 21, and a second support member 22 is provided between adjacent two folding devices 21. The second support member 22 is a biobased panel or patterned steel plate (see Figure 1 ).
[0032] The support device 11 includes two sets of support structures composed of a first embedded part 111 and a support member 112. Specifically, the first embedded part 111 is an L-shaped large square tube, and the support member 112 is an L-shaped small square tube. The L-shaped small square tube can be sleeved into the L-shaped large square tube to form a closed support device (see Figure 2 ). The folding device 21 includes a first rod 211, a second telescopic rod 212 movably connected to one end of the first rod 211, and a third lifting rod 213 movably connected to the second telescopic rod 212. Here, the second telescopic rod 212 can use a cylinder to drive the up and down movement of the third lifting rod 213. When the entire folding device 21 is not in use, it can be folded and retracted. The retraction principle is: the second telescopic rod 212 can be rotated and folded into the third lifting rod 213, and the third lifting rod 213 can be rotated and folded into the first rod 211 (see Figure 3 ).
[0033] The present invention works in the following way: A set of L-shaped large square tubes are buried under the roadbed in front of the green belt according to the position and depth determined by pre-designed calculation. Subsequently, when pouring the road surface, the uphill assist device 2 is pre-embedded on the road surface according to the determined position, and it is ensured that the uphill assist device 2 and the road surface are on the same plane. Subsequently, the L-shaped small square tube is sleeved into the L-shaped large square tube for closed combination. A plurality of reinforcing members 12 are installed between adjacent sets of L-shaped small square tubes, and a first support member 13 is installed between every two adjacent reinforcing members 12. The first support member 13 can be selected to use a biobased panel or patterned steel plate according to requirements. In this way, a single parking space in the air on the green belt can be formed. Laying along the entire horizontal direction of the green belt in this way can form multiple air parking spaces (see Figure 4B and Figure 4C ).
[0034] Simultaneously, three folding devices 21 are pre-embedded in the road surface in front of the green belt of an elevated parking space. The first rod 211 of the folding device 21 is fixed to the road surface. Driven by the second telescopic rod 212, the third lifting rod 213 rises upward. After rising, the first rod 211, the second telescopic rod 212 and the third lifting rod 213 form a shape like... Figure 2 The triangular structure shown forms a ramp for vehicle parking assistance. A support component 22 is laid between two adjacent third lifting bars 213. The support component 22 can be made of bio-based panel or patterned steel plate as needed.
[0035] The two wheels of the vehicle to be parked reverse uphill along the uphill assist device 2. When the two wheels reverse into the detachable car parking device 1, the support member 112 is supported by the support force of the pre-embedded part 111 connected to it, which can ensure that the vehicle on the support member 112 has sufficient support force to achieve stable parking.
[0036] like Figure 3 As shown, the folding device 21 can be folded and retracted when parking is not required. When retracted, the second telescopic rod 212 can be rotated and folded into the third lifting rod 213, and the third lifting rod 213 can be rotated and folded into the first rod 211. If the parking space is not in use, the folding device that is folded and retracted into the first rod 211 is parallel to the road surface in front of the green belt, so that the road surface in front of the green belt can still achieve a flat surface state and does not affect its use.
[0037] like Figure 4A The diagram shows parking arrangements when there is insufficient ground space in front of the existing green belt. Since the green belt behind it cannot be damaged, the parking space planning needs to follow... Figure 4A The direction shown is approximately set.
[0038] like Figure 4B As shown in the figure, in this embodiment, the detachable car parking device 1 and the uphill assist device 2 are set at an angle to achieve oblique parking of vehicles above the green belt.
[0039] like Figure 4C As shown, in this embodiment, the detachable car parking device 1 and the uphill assist device 2 are vertically aligned to enable vertical vehicle parking above the green belt.
[0040] Depend on Figure 4A and Figure 4B , Figure 4CAs can be seen from the comparison, by utilizing the space above the green belt, the number of parking spaces can be increased within the same total distance compared to conventional road parking spaces, alleviating the parking shortage problem in residential areas. It can also effectively utilize green belts and narrow roads when planning parking spaces in urban blank areas, slowing down the rapid expansion of urban blank road areas for parking spaces and reducing the speed at which cities become increasingly congested.
[0041] The foregoing has shown and described the basic principles, main features, and advantages of the present invention. It will be apparent to those skilled in the art that the present invention is not limited to the details of the exemplary embodiments described above, and that the invention can be implemented in other specific forms without departing from its spirit or essential characteristics. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of the invention is defined by the appended claims rather than the foregoing description. Thus, all variations falling within the meaning and scope of equivalents of the claims are intended to be included within the present invention. No reference numerals in the claims should be construed as limiting the scope of the claims.
Claims
1. A novel insert-type parking device with a bio-based panel, characterized in that: The device includes a detachable car parking device (1) and a hill-start assist device (2) that is matched with the detachable car parking device (1); the detachable car parking device (1) includes several support devices (11), several reinforcing members (12) are provided between two adjacent support devices (11), and a support member (13) is provided between two adjacent reinforcing members (12); the support device (11) includes a pre-embedded part (111) and a support member (112) that is sleeved with the pre-embedded part (111). The pre-embedded part (111) adopts an L-shaped large square tube, and the support member (112) adopts an L-shaped small square tube. One end of the L-shaped small square tube can be inserted into one end of the L-shaped large square tube. The support device (11) is connected to the reinforcing member (12) through the support member (112). The uphill assist device (2) includes several folding devices (21), and a support member (22) is provided between two adjacent folding devices (21); the folding device (21) includes a first rod (211), a second telescopic rod (212) movably connected to one end of the first rod (211), and a third lifting rod (213) movably connected to the second telescopic rod (212). The second telescopic rod (212) can be rotatably folded into the third lifting rod (213), and the third lifting rod (213) can be rotatably folded into the first rod (211), forming the folding and retraction of the folding device (21); The support component one (13) and support component two (22) are made of bio-based panels or patterned steel plates.
2. The novel insert-type parking device for laying bio-based panels according to claim 1, characterized in that: The reinforcing members (12) are arranged at equal intervals, and the distance between two adjacent reinforcing members (12) is 50cm to 100cm.
3. A novel insert-type parking device for laying bio-based panels according to claim 1, characterized in that: The second telescopic rod (212) is a cylinder.