CN215107748U - Aerial parking lot structure - Google Patents

Abstract

The invention relates to an air parking lot structure, which is built in the space above an urban road or a river, does not occupy land resources, and comprises a plurality of cement piers and cement pier pits, wherein buffer springs are arranged below the cement pier pits, each cement pier is matched with an installation upright post, a pressure sensor is arranged on the upright post, an air parking lot is arranged on the pressure sensor, the air parking lot is provided with a plurality of upper and lower channels which are connected and arranged, the pressure sensor is connected with a controller, and the controller collects data, calculates, displays and warns.

Description

Aerial parking lot structure

Technical Field

The invention provides an aerial parking lot structure, relates to the technical field of aerial parking lots, and particularly relates to automatic calculation and reminding of self load of a parking lot and anti-vibration and noise reduction measures of the aerial parking lot.

Technical Field

With the increasing of the quantity of automobiles kept in the society, the ground parking lot has a tension phenomenon, but the land of the first-line city in China is in tension, and too much land resources are not used for building the parking lot, so that the automobile parking is more inconvenient.

Steel construction sky parking field parking vibrations and noise are great, influence peripheral noise environment, cause the influence to staff's psychology and health, and occupy the nervous land resource in city, do not have automatic bearing capacity monitoring and early warning measure, have the potential safety hazard.

Disclosure of Invention

In order to solve the problems, the invention provides an air parking lot structure which can effectively reduce vibration and noise of a steel structure parking lot, can automatically monitor the load capacity of the parking lot, achieves a certain load capacity and can automatically alarm and warn.

The invention relates to an aerial parking lot which is technically characterized by being built in the air, such as the space above a river and the space above a road.

The invention relates to an aerial parking lot, which is characterized in that: the invention relates to a concrete pier which is characterized in that a plurality of concrete piers are placed on the ground, 10 concrete piers are shown in a row, the lower parts of the concrete piers are deeply buried in the ground to ensure the stability of the concrete piers, a pit is arranged in the middle of the upper part of each concrete pier, a buffer spring is placed at the bottom of the pit, each concrete pier protrudes out of the ground by 50cm-200cm, and the distance between each concrete pier and each concrete pier is 5 m-30 m;

the cement piers are used for inserting and cushioning the stand columns, so that the stand columns are prevented from directly contacting the ground, rainwater is prevented from splashing to the stand columns, the stand columns are prevented from rusting, and the service quality and service life of the stand columns are influenced;

the buffer spring in the pit of the cement pier plays a role in buffering and shock resistance.

Further: the upright post is inserted into the cement pier pit, is vertical and is matched with the cement pier pit stably, the upright post is made of a steel material structure, and the lower part of the upright post is connected with the cement pier, the upper part of the upright post is connected with a pressure sensor and is directly connected with and supports the aerial parking lot;

10 upright columns are matched with the cement piers, and the height of each upright column is 2-10 meters;

the upright column is used for supporting the pressure sensor and the air parking lot.

Further: a pressure sensor is arranged at the top of the upright post, and the upright post and the sensor are connected and fixed by welding and screws;

the pressure sensor is connected with a power supply through an electric wire, and is connected with the controller through a data wire;

the overhead parking lot is connected to the upper surface of the pressure sensor and fixedly connected by welding and screws;

the plurality of pressure sensors are connected to the controller through electric wires, and the pressure sensors can sense the load weight of the air parking lot and transmit load weight data to the controller through data wires;

the controller collects the parking lot load weight data transmitted by each pressure sensor through the data line, collects, calculates and displays the parking lot load weight data on the display screen, the parking lot load weight data exceeds the rated weight data, the screen displays a weight overload alarm prompt, for example, the weight overload alarm prompt is set to be 100 tons in the rated mode, and the alarm prompt is given if the weight of the parking lot is more than 100 tons through collection and calculation of the controller.

The warning indication is a common conventional technology at present, and is not described here.

The controller is connected with the power supply through a wire.

Further: the air parking lot comprises a steel cross beam and a steel metal plate, the steel cross beam and the steel metal plate can be replaced by other materials, the steel cross beam part of the air parking lot is connected with the pressure sensor and is fixed by welding and screws, and the cross beam part of the air parking lot is connected with the upper part of the upright column and is connected by welding and screw fixing;

and laying a steel metal plate on the steel cross beam, and fixedly connecting the steel metal plate with the screw by welding.

Further: the aerial parking lot is connected with a plurality of upper and lower channels, the upper and lower channels are made of steel metal plate structures, one end of each upper and lower channel is connected with the aerial parking lot by welding and screw fixation, the other end of each upper and lower channel is connected with the ground, and the slope gradient is 20-60 degrees;

the upper and lower channels are four.

The aerial parking lot structure can reduce vibration and noise of the parking lot, can automatically monitor and display the load weight of the parking lot in real time, and can automatically give an alarm to prompt if the load weight exceeds the rated load weight, so that the safety of the aerial parking lot is ensured.

Drawings

FIG. 1 is a schematic side view of an embodiment of the present invention

FIG. 2 is a schematic structural diagram of an embodiment of the present invention

FIG. 3 is an enlarged perspective view illustrating a cement pier according to an embodiment of the present invention

FIG. 4 is a schematic diagram of the controller control according to the embodiment of the present invention

Reference numeral 001, cement pier; 0011. a cement pier pit; 0012. a buffer spring; 002. a column; 003. a pressure sensor; 004. an aerial parking lot; 005. an upper channel and a lower channel; 101. a controller; 111. and (4) the ground.

Detailed Description

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

The structure of the parking space in the invention is shown in fig. 1, fig. 2, fig. 3 and fig. 4, and comprises a cement pier 001, a cement pier pit 0011, a buffer spring 0012, an upright column 002, a pressure sensor 003, a parking space 004, an upper channel 005 and a lower channel 005, a controller 101 and a structure.

The present embodiment is further described below;

specifically, as shown in fig. 1, fig. 2, fig. 3, a plurality of cement piers 001 are placed on the ground 111, all the cement piers 001 are rectangular, the surface of each cement pier 001 with a pit faces upward, the other end of each cement pier 001 is in contact with the ground 111, the cement piers 001 are in contact with one end of the ground 111 and are embedded in the ground 111 to ensure that the cement piers 001 are stably erected, and the cement piers 001 are vertical, in this embodiment, 10 cement piers 001 are taken as an illustration, but not limited to 10 cement piers 001;

the height of the cement pier 001 is 50cm-200cm, and the distance between the cement pier 001 and the cement pier 001 is 5 m-30 m, but the size is not limited to the range;

as shown in fig. 3, a cement pier pit 0011 is formed in all the cement piers 001, and a buffer spring 0012 is placed at the bottom of each cement pier pit 0011;

a buffer spring 0012 is placed at the bottom inside the cement pier pit 0011 to buffer vibration noise;

the upright column 002 is inserted into each cement pier 001, the upright column 002 is placed on the buffer spring 0012 in the pit 0011 of the cement pier, the upright column 002 needs to be vertically and stably kept, and the height of the upright column is 2-10 meters, but the size is not limited to the range;

as shown in fig. 1 and fig. 2, a pressure sensor 003 is arranged on the other end of the middle upright column 002, the pressure sensor 003 is connected with the upright column 002 by welding and screw fixation, the upper surface of the pressure sensor 003 is connected with a cross beam 004 of the aerial parking lot and is connected with the cross beam 004 by welding and screw fixation, the pressure sensor 003 can not be arranged on the upright column near the edges of the upper and lower passages 005, and the upper surface of the upright column 002 near the edges of the upper and lower passages 005 is directly connected with the cross beam 004 of the aerial parking lot and is connected with the cross beam 004 by welding and screw fixation;

it should be noted that the sky parking 004 is a steel structure and is composed of steel beams and steel metal plates, and the steel beams of the sky parking are installed and connected on the upright posts 002;

the steel beams of the air parking lot are installed and connected on the pressure sensors 003 on the stand columns 002;

a steel metal plate is laid on the steel cross beam and is fixed by welding and screws, and the stand column 002 and the buffer spring 0012 are of steel metal structures;

as shown in fig. 2, the aerial parking lot 004 is connected with a plurality of upper and lower channels 005, one end of each upper and lower channel 005 is connected with the aerial parking lot 004 and fixedly connected with a screw by welding, the other end of each upper and lower channel 005 is in contact with the ground 111, and the slope of each upper and lower channel 005 is between 20 and 60 degrees;

as shown in fig. 4, each pressure sensor 003 is connected to a power supply through an electric wire and to the controller 101 through a data line, and the pressure sensor 003 senses the load weight of the air parking lot 004 in real time and transmits the load weight data of the air parking lot to the controller 101 through the data line;

the controller 101 is connected with a power supply through an electric wire and is connected with a plurality of pressure sensors 003 through data lines, each pressure sensor 003 transmits sensed load weight data of the air parking lot 004 to the controller 101 in real time, and the controller automatically collects the load weight data of the air parking lot, counts, calculates and stores the load weight data;

further, the controller 101 calculates 004 load weight of the aerial parking lot, the controller 101 can set rated weight, and the data of the standard exceeding rated weight automatically warns and prompts, and the rated load weight is assumed to be set to be 100 tons;

further, the controller 101 displays the calculated load weight data of the aerial parking 004 on the screen;

further, the controller 101 transmits the calculated load weight data of the aerial parking 004 to a mobile terminal, such as a mobile phone, through a wireless network;

further, the controller 101 calculates the air parking 004 load weight data exceeding the rated value, such as more than 100 tons, and automatically alarms;

optionally, the load weight data of the air parking lot 004 calculated by the controller 101 is within the rated range, and the parking lot works normally.

Optionally, the controller 101 calculates the air parking 004 load weight data to be out of the rated range, and the parking lot can stop working.

The cement mound 001 of this embodiment makes steel stand 002 leave ground and has certain distance, prevent that the rainwater from being stained with, cause steel stand 002 to be stained with water and rust the corruption, influence life-span, middle pit above the cement mound, can be better fixed stand 002, buffer spring 0012 below the cement mound pit 0011 the inside can alleviate the noise of vibrations that improves aerial parking area 004, make the environmental protection more quiet of aerial parking area 004, pressure sensor 003 can implement the load condition of monitoring aerial parking area 004, thereby guarantee aerial parking area 004's safety, the effect of upper and lower passageway is that vehicle personnel are current.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (5)

1. An aerial parking lot structure, characterized in that; the utility model provides an aerial parking area structure construction contains a plurality of cement mounds in highway top space, the installation of cement mound is placed on ground, there is a cement mound pit above the cement mound, buffer spring is placed to cement mound pit the inside below, a plurality of cement mound pits match the installation and insert the stand, the stand is placed on cement mound pit the inside buffer spring, erection joint pressure sensor above the stand, erection joint aerial parking area above the pressure sensor, pressure sensor passes through data line and wireless network connection to controller, aerial parking area has a plurality of upper and lower passageways of connection installation.

2. The structure of claim 1, wherein the buffer spring is used for reducing and relieving vibration and noise of the air park.

3. The structure of claim 1, wherein the pressure sensor senses the load weight of the air park in real time and transmits the weight data to the controller in real time.

4. The structure of claim 1, wherein the controller receives data from the pressure sensor, calculates the weight of the load on the parking space, and displays the data on the display screen, the controller can set the rated data, and the controller automatically alarms when the real-time data calculated by the controller exceeds the rated data.

5. An airpark structure as claimed in claim 1, wherein the controller is operable to transmit data to the mobile electronic terminal via a wireless network.

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