CN109167823B - Automobile heat dissipation auxiliary system and method - Google Patents

Abstract

The invention discloses an automobile heat dissipation auxiliary system and method, which comprises a cloud server, an intelligent shed, an intelligent automobile and a user APP system; the intelligent car shed, the intelligent car and the user APP system are communicated with the cloud server; the intelligent vehicle shed comprises a vehicle shed body comprising a plurality of parking spaces and an intelligent air supply device, wherein the intelligent air supply device comprises a controller, an air cooler, a plurality of air supply pipelines, a plurality of translation mechanisms and a plurality of lifting mechanisms; the movable rails are respectively arranged above the car shed body relative to each parking space, and the plurality of translation mechanisms are arranged on the movable rails one to one; the lifting mechanisms are arranged on the translation mechanism in a one-to-one manner; one end of the air supply pipeline is communicated with an air outlet of the air cooler, and the other end of the air supply pipeline is fixed below the lifting mechanism, and the pipe orifice of the air supply pipeline faces downwards; the lifting mechanism adopts an electric push rod, and the lower end of the lifting mechanism is provided with an infrared sensor. The automobile heat dissipation device can help the automobile to dissipate heat to a certain extent, and avoids the phenomenon that the automobile owner waits too long.

Description

Automobile heat dissipation auxiliary system and method

Technical Field

The invention relates to the technical field of automobiles, in particular to an automobile heat dissipation auxiliary system and method.

Background

In summer, after the automobile is parked for a long time, the temperature inside the automobile is extremely high, and particularly, the temperature of the automobile with dark color can reach 50 ℃ after the automobile is exposed to the sun; even if the bicycle is parked under a bicycle shed, the temperature can reach more than 35 ℃. Some car owners can open a part of the car window or the skylight to ventilate and radiate, but the effect that can reach is very little. Therefore, the owner must open the door to ventilate before going on, then start vehicle air conditioner and cool down. This process takes a relatively long time and requires the owner to wait in place.

Disclosure of Invention

In view of the above, a first objective of the present invention is to provide an auxiliary heat dissipation system for a vehicle, which can help the vehicle dissipate heat to a certain extent, and prevent the vehicle owner from waiting too long.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an automobile heat dissipation auxiliary system comprises a cloud server, an intelligent automobile shed, an intelligent automobile and a user APP system; the intelligent car shed, the intelligent car and the user APP system are all communicated with the cloud server; the intelligent vehicle shed comprises a vehicle shed body comprising a plurality of parking spaces and an intelligent air supply device, wherein the intelligent air supply device comprises a controller, an air cooler, a plurality of air supply pipelines, a plurality of translation mechanisms and a plurality of lifting mechanisms; the air cooler, the translation mechanism and the lifting mechanism are electrically connected with the controller; the movable rails are respectively arranged above the car shed body relative to each parking space, and the plurality of translation mechanisms are arranged on the movable rails one to one; the lifting mechanisms are arranged on the translation mechanism in a one-to-one manner; one end of the air supply pipeline is communicated with an air outlet of the air cooler, and the other end of the air supply pipeline is fixed below the lifting mechanism, and the pipe orifice of the air supply pipeline faces downwards; the lifting mechanism adopts an electric push rod, the lower end of the lifting mechanism is provided with an infrared sensor, and the infrared sensor is electrically connected with the controller; the controller is provided with a remote communication module for communicating with the cloud server;

the user APP system is used for sending a service request to the cloud server according to the operation of the owner user, and the cloud server sends a service instruction to the intelligent automobile and the intelligent carport corresponding to the owner user according to the received server request; after the intelligent automobile receives the service instruction, the intelligent automobile controls the automobile skylight to be opened; after the intelligent car shed receives the service instruction, the cold air blower is controlled to start, and the translation mechanism and the lifting mechanism are controlled to work, so that the corresponding pipe orifice of the air supply pipeline is moved to the inside of the car.

Preferably, a human body sensor is further installed on the electric push rod, and the human body sensor is electrically connected with the controller.

Preferably, a monitoring camera is further installed in the shed body and electrically connected with the controller.

Preferably, the user APP system is provided with a recharging module for recharging the cost for the vehicle main user; the cloud server is provided with a charging module and is used for deducting the account of the owner user according to the service request of the owner user.

Preferably, a second distance measuring sensor is installed at the position, corresponding to the tail part of the intelligent automobile, of the shed body, and the second distance measuring sensor is electrically connected with the controller.

The second objective of the present invention is to provide an auxiliary method for heat dissipation of an automobile, which can help the automobile to dissipate heat to a certain extent, and prevent the automobile owner from waiting too long.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an automobile heat dissipation auxiliary method is realized based on the automobile heat dissipation auxiliary system in the scheme, and is characterized by comprising the following steps:

s1, registering a user of a vehicle owner through the user APP system, inputting vehicle information, wherein the vehicle information comprises the model number of the vehicle, and then recharging the cost;

s2, the cloud server establishes an account file for each vehicle owner user, determines and stores size data of the vehicle according to the vehicle model input by the vehicle owner user, wherein the size data comprises vehicle length, vehicle width, vehicle height and skylight position parameters;

s3, the owner user sends a service request to the cloud server through the user APP system;

s4, the cloud server deducts the account of the owner user according to the service request of the user, and then sends a service instruction to the intelligent automobile and the intelligent carport corresponding to the owner user; the service instruction comprises size data of the intelligent automobile;

s4, after the intelligent automobile receives the service instruction, controlling the automobile skylight to be opened;

s5, after the controller of the intelligent shed receives the service instruction, the controller controls the cold air blower to start; then detecting a distance L1 between the tail of the intelligent automobile and the shed body through a second ranging sensor, and determining a displacement X1 of the translation mechanism and a displacement Y1 of the lifting mechanism according to the distance L1 and size data of the intelligent automobile; after the displacement X1 is determined, controlling the translation mechanism to work, and translating the lifting mechanism by the distance X1; then, the controller controls the lifting mechanism to descend for a distance Y1 to send the air supply pipeline into the intelligent automobile from the skylight of the intelligent automobile, and if the infrared sensor is triggered in the period, the descending process is stopped;

s6, after the duration is preset, the controller sequentially controls the lifting mechanism and the translation mechanism to reset, and returns completion information to the cloud server;

and S7, after receiving the completion information, the cloud server sends a window closing instruction to the corresponding intelligent automobile, and after receiving the instruction, the cloud server automatically closes the skylight.

Preferably, before S6 is completed, the controller detects whether a person approaches a sunroof of the smart car through the human body sensor, and decides whether to take an alarm measure according to the detection result.

The technical effects of the invention are mainly reflected in the following aspects: 1. remote control is performed by using a cloud technology, and a vehicle owner user can start a heat dissipation function in an office; 2. the intelligent degree is high, and the adaptability to the vehicle type is high; 3. the monitoring function is achieved, and safety is improved.

Drawings

FIG. 1 is a system configuration diagram of an auxiliary system for heat dissipation of an automobile according to an embodiment;

fig. 2 is a schematic diagram of an intelligent carport and an intelligent automobile in the embodiment.

Reference numerals: 1. a cloud server; 2. an intelligent automobile; 3. a user APP system; 4. an intelligent carport; 41. a carport body; 42. an air cooler; 43. a movable track; 44. a translation mechanism; 45. a lifting mechanism; 46. a human body sensor; 47. an infrared sensor; 48. a second ranging sensor.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

The first embodiment,

An automobile heat dissipation auxiliary system comprises a cloud server 1, an intelligent shed 4, an intelligent automobile 2 and a user APP system 3; intelligent bicycle shed 4, intelligent car 2 and user APP system 3 all communicate with cloud ware 1.

Intelligent bicycle shed 4 is including the bicycle shed body 41 and the intelligent air supply arrangement who contains a plurality of parking stalls, and intelligent air supply arrangement includes controller (not shown), air-cooler 42, a plurality of supply-air duct, a plurality of translation mechanism 44 and a plurality of elevating system 45, and air-cooler 42, translation mechanism 44 and elevating system 45 all are connected with the controller electricity.

Specifically, an air outlet of the air cooler 42 is provided with a plurality of branch ports, and each branch port is connected with an air supply pipeline; and the branch port is provided with an electric control valve which is electrically connected with the controller, and the controller controls the corresponding electric control valve to be opened according to the instruction of the cloud server 1.

The shed body 41 is respectively provided with a movable rail 43 above each parking space, and a plurality of translation mechanisms 44 are arranged on the movable rails 43 one by one; the lifting mechanisms 45 are mounted on the translation mechanism 44 one-to-one; one end of the air supply pipeline is communicated with an air outlet of the air cooler 42, and the other end of the air supply pipeline is fixed below the lifting mechanism 45, and the pipe orifice of the air supply pipeline faces downwards;

in this embodiment, the lifting mechanism 45 is an electric push rod, the lower end of the lifting mechanism is provided with an infrared sensor 47, one side of the lifting mechanism is provided with a human body sensor 46 (a plurality of human body sensors can be arranged and uniformly distributed around the side wall of the electric push rod), and the human body sensor 46 and the infrared sensor 47 are electrically connected with the controller. The sensing distance of the human body sensor 46 is set within 0.5M.

The second distance measuring sensor 48 is installed at the position, corresponding to the tail of the intelligent automobile 2, of the shed body 41, and the second distance measuring sensor 48 is electrically connected with the controller.

The controller is provided with a telecommunications module for communicating with the cloud server 1.

The user APP system 3 is used for sending a service request to the cloud server 1 according to the operation of the owner user, and the cloud server 1 sends a service instruction to the intelligent automobile 2 and the intelligent shed 4 corresponding to the owner user according to the received server request; after receiving the service instruction, the intelligent automobile 2 controls the automobile skylight to be opened; after receiving the service instruction, the intelligent carport 4 controls the cooling fan 42 to start, and controls the translation mechanism 44 and the lifting mechanism 45 to work, so as to move the corresponding pipe orifice of the air supply pipeline to the inside of the automobile.

A monitoring camera is further installed in the carport body 41, and the monitoring camera is electrically connected with the controller.

The user APP system 3 is provided with a recharging module for recharging the cost for the vehicle main user; the cloud server 1 is configured with a charging module, and is used for deducting the account of the owner user according to the service request of the owner user.

Example II,

The embodiment provides an automobile heat dissipation auxiliary method on the basis of the first embodiment, and the method comprises the following steps:

s1, registering the owner user through the user APP system 3, inputting vehicle information, wherein the vehicle information comprises the automobile model, and then recharging the cost;

s2, the cloud server 1 establishes an account file for each vehicle owner user, determines and stores size data of the vehicle according to the vehicle model input by the vehicle owner user, wherein the size data comprises vehicle length, vehicle width, vehicle height and skylight position parameters;

s3, the owner user sends a service request to the cloud server 1 through the user APP system 3;

s4, the cloud server 1 deducts the account of the owner user according to the service request of the user, and then sends a service instruction to the intelligent automobile 2 and the intelligent carport 4 corresponding to the owner user; the service instruction contains the size data of the intelligent automobile 2;

s4, after the intelligent automobile 2 receives the service instruction, controlling the automobile skylight to be opened;

s5, after the controller of the intelligent shed 4 receives the service instruction, controlling the air cooler 42 to start; then, detecting a distance L1 between the tail of the intelligent automobile 2 and the shed body through a second ranging sensor 48, and determining a displacement X1 of the translation mechanism 44 and a displacement Y1 of the lifting mechanism 45 according to the distance L1 and size data of the intelligent automobile 2; after the displacement X1 is determined, controlling the translation mechanism 44 to work, and translating the lifting mechanism 45 by the distance X1; then, the controller controls the lifting mechanism 45 to descend for a distance Y1 to send the air supply pipeline into the intelligent automobile 2 from the skylight, and if the infrared sensor 47 is triggered in the period, the descending process is stopped;

it should be noted that, in order to avoid frequent start and stop of the air cooler 42, the following measures are taken in the present embodiment: a temperature sensor is arranged in the intelligent carport 4, and the current environment temperature is detected by using the temperature sensor; when the ambient temperature exceeds the preset value, the air cooler 42 is controlled to operate at a lower rotating speed (adopting a frequency conversion technology), and when the owner user needs a heat dissipation service, the air cooler 42 is controlled to increase the rotating speed. The manager can also perform remote control in the background.

S6, after the duration is preset, the controller sequentially controls the lifting mechanism 45 and the translation mechanism 44 to reset, and returns completion information to the cloud server 1;

and S7, after receiving the completion information, the cloud server 1 sends a window closing instruction to the corresponding intelligent automobile 2, and after receiving the instruction, the cloud server 1 automatically closes the skylight.

In addition, before S6 is completed, the controller detects whether a person approaches the sunroof of the smart car 2 through the human body sensor 46, and decides whether to take an alarm measure according to the detection result. Specifically, if someone is detected, alarm information is sent to the cloud server 1, after the cloud server 1 receives the alarm information, on one hand, the user APP system 3 is notified, on the other hand, a stop instruction is sent to the intelligent carport 4, after the stop instruction is received by the controller of the intelligent carport 4, the lifting mechanism 45 and the translation mechanism 44 are sequentially controlled to reset, reset information is returned to the cloud server 1, after the reset information is received by the cloud server 1, a window closing instruction is sent to the intelligent automobile 2, and after the window closing instruction is received by the intelligent automobile 2, the skylight is immediately and automatically closed.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims (7)

1. An automobile heat dissipation auxiliary system is characterized by comprising a cloud server, an intelligent car shed, an intelligent automobile and a user APP system; the intelligent car shed, the intelligent car and the user APP system are all communicated with the cloud server; the intelligent vehicle shed comprises a vehicle shed body comprising a plurality of parking spaces and an intelligent air supply device, wherein the intelligent air supply device comprises a controller, an air cooler, a plurality of air supply pipelines, a plurality of translation mechanisms and a plurality of lifting mechanisms; the air cooler, the translation mechanism and the lifting mechanism are electrically connected with the controller; the movable rails are respectively arranged above the car shed body relative to each parking space, and the plurality of translation mechanisms are arranged on the movable rails one to one; the lifting mechanisms are arranged on the translation mechanism in a one-to-one manner; one end of the air supply pipeline is communicated with an air outlet of the air cooler, and the other end of the air supply pipeline is fixed below the lifting mechanism, and the pipe orifice of the air supply pipeline faces downwards; the lifting mechanism adopts an electric push rod, the lower end of the lifting mechanism is provided with an infrared sensor, and the infrared sensor is electrically connected with the controller; the controller is provided with a remote communication module for communicating with the cloud server;

the user APP system is used for sending a service request to the cloud server according to the operation of the owner user, and the cloud server sends a service instruction to the intelligent automobile and the intelligent carport corresponding to the owner user according to the received server request; after the intelligent automobile receives the service instruction, the intelligent automobile controls the automobile skylight to be opened; after the intelligent car shed receives the service instruction, the cold air blower is controlled to start, and the translation mechanism and the lifting mechanism are controlled to work, so that the corresponding pipe orifice of the air supply pipeline is moved to the inside of the car.

2. The auxiliary heat dissipation system as recited in claim 1, wherein a human body sensor is further mounted on the power push rod, and the human body sensor is electrically connected to the controller.

3. The auxiliary system for automobile heat dissipation as defined in claim 2, wherein a monitoring camera is further installed in the carport body, and the monitoring camera is electrically connected to the controller.

4. The auxiliary system for automobile heat dissipation of claim 3, wherein the user APP system is configured with a recharge module for recharging costs for a vehicle owner; the cloud server is provided with a charging module and is used for deducting the account of the owner user according to the service request of the owner user.

5. The auxiliary system for automobile heat dissipation as defined in claim 4, wherein a second distance measuring sensor is installed at a position of the carport body corresponding to the tail of the intelligent automobile, and the second distance measuring sensor is electrically connected with the controller.

6. An automobile heat dissipation auxiliary method is realized based on the automobile heat dissipation auxiliary system of claim 5, and is characterized by comprising the following steps:

s1, registering a user of a vehicle owner through the user APP system, inputting vehicle information, wherein the vehicle information comprises the model number of the vehicle, and then recharging the cost;

s2, the cloud server establishes an account file for each vehicle owner user, determines and stores size data of the vehicle according to the vehicle model input by the vehicle owner user, wherein the size data comprises vehicle length, vehicle width, vehicle height and skylight position parameters;

s3, the owner user sends a service request to the cloud server through the user APP system;

s4, the cloud server deducts the account of the owner user according to the service request of the user, and then sends a service instruction to the intelligent automobile and the intelligent carport corresponding to the owner user; the service instruction comprises size data of the intelligent automobile;

s4, after the intelligent automobile receives the service instruction, controlling the automobile skylight to be opened;

s5, after the controller of the intelligent shed receives the service instruction, the controller controls the cold air blower to start; then detecting a distance L1 between the tail of the intelligent automobile and the shed body through a second ranging sensor, and determining a displacement X1 of the translation mechanism and a displacement Y1 of the lifting mechanism according to the distance L1 and size data of the intelligent automobile; after the displacement X1 is determined, controlling the translation mechanism to work, and translating the lifting mechanism by the distance X1; then, the controller controls the lifting mechanism to descend for a distance Y1 to send the air supply pipeline into the intelligent automobile from the skylight of the intelligent automobile, and if the infrared sensor is triggered in the period, the descending process is stopped;

s6, after the duration is preset, the controller sequentially controls the lifting mechanism and the translation mechanism to reset, and returns completion information to the cloud server;

and S7, after receiving the completion information, the cloud server sends a window closing instruction to the corresponding intelligent automobile, and after receiving the instruction, the cloud server automatically closes the skylight.

7. The automobile heat dissipation assisting method of claim 6, wherein before completion of S6, the controller detects whether a person approaches a sunroof of the intelligent automobile through the human body sensor, and decides whether to take an alarm measure according to the detection result.

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