CN213662276U

CN213662276U - Automatically controlled heat radiation structure of new forms of energy mine car

Info

Publication number: CN213662276U
Application number: CN202022893604.7U
Authority: CN
Inventors: 周荣斌; 罗南昌; 陈培健
Original assignee: Fujian Zhongwei Power Technology Co Ltd
Current assignee: Fujian Zhongwei Power Technology Co Ltd
Priority date: 2020-12-04
Filing date: 2020-12-04
Publication date: 2021-07-09
Anticipated expiration: 2030-12-04

Abstract

The utility model discloses an electric control heat dissipation structure of a new energy mine car, wherein a first heat dissipation machine and a second heat dissipation machine are both arranged on the mine car; the first heat radiator is arranged at the head of the mine car, and an air inlet of the first heat radiator faces the advancing direction of the mine car; the second heat radiator is arranged at the head of the mine car, the second heat radiator is arranged on one side of the first heat radiator, and an air inlet of the second heat radiator faces the advancing direction of the mine car. One of the electric motor and the electric control bin is connected with the first heat radiator, the other of the electric motor and the electric control bin is connected with the second heat radiator, and the first heat radiator and the second heat radiator are used for reducing the temperature of the electric motor and the temperature of the electric control bin. According to the technical scheme, the first heat radiator and the second heat radiator are arranged, so that the heat radiation efficiency of the new energy mine car is greatly improved; and meanwhile, the first heat radiator and the second heat radiator are arranged at the head of the new energy mine car, so that the heat radiation efficiency of the first heat radiator and the second heat radiator is further improved.

Description

Automatically controlled heat radiation structure of new forms of energy mine car

Technical Field

The utility model relates to an automatically controlled heat radiation structure of new forms of energy mine car especially relates to an automatically controlled heat radiation structure of new forms of energy mine car.

Background

New forms of energy mine car is as large-scale delivery equipment, and the new forms of energy mine car needs the cooperation of multiple machine when the operation, and each machine often can produce a large amount of heat energy when the operation, if not discharge in time will make the new forms of energy mine car produce very big harm. However, the heat dissipation system of the existing fuel oil mine car cannot be matched with the new energy mine car, and redundant heat in each machine cannot be effectively discharged during operation of the new energy mine car.

SUMMERY OF THE UTILITY MODEL

Therefore, an electronic control heat dissipation structure of the new energy mine car is needed to be provided so as to improve the heat dissipation efficiency of the new energy mine car.

In order to realize above-mentioned purpose, this application provides an automatically controlled heat radiation structure of new forms of energy mine car, includes: a first heat sink and a second heat sink;

the first heat radiator and the second heat radiator are both arranged on the mine car; the first heat radiator is arranged at the head of the mine car, and an air inlet of the first heat radiator faces the advancing direction of the mine car; the second heat radiator is arranged at the head of the mine car, the second heat radiator is arranged on one side of the first heat radiator, and an air inlet of the second heat radiator faces the advancing direction of the mine car.

The mine car further comprises: a motor and an electric control cabin; one of the machines of motor and electronic control storehouse is connected first heat radiator, another machine of motor and electronic control storehouse wherein is connected second heat radiator, first heat radiator and second heat radiator are used for reducing the temperature of motor and electronic control storehouse.

Further, the electronic control cabin comprises: a frame, a controller and an auxiliary controller; the controller and the auxiliary controller are both arranged on the frame; the first heat radiator is connected with the controller and the auxiliary controller through pipelines respectively and used for reducing the temperature of the controller and the temperature of the auxiliary controller.

Further, the first heat radiator is a water-cooling heat radiator; the second heat radiator is a water-cooling heat radiator.

Further, still include: an electronic control system; the electric control system is electrically connected with the first heat radiator and the second heat radiator respectively and used for controlling the starting and the closing of the first heat radiator and the second heat radiator.

Further, still include: a plurality of temperature sensors; the temperature sensors are arranged on the motor and the electric control bin, the temperature sensors are electrically connected with the electric control system, and the temperature sensors are used for detecting the temperatures of the motor and the electric control bin.

Further, still include: a protection structure disposed around the first and second heat sinks for protecting the first and second heat sinks.

Furthermore, the second heat radiator is arranged on one side, away from the mine car head, of the first heat radiator, and the height of the second heat radiator is higher than that of the first heat radiator.

Different from the prior art, the heat dissipation efficiency of the new energy mine car is greatly improved through the arrangement of the first heat radiator and the second heat radiator; and meanwhile, the first heat radiator and the second heat radiator are arranged at the head of the new energy mine car, so that the heat radiation efficiency of the first heat radiator and the second heat radiator is further improved.

Drawings

FIG. 1 is a left side view of a new energy mine car;

FIG. 2 is a view of a new energy mine car owner;

FIG. 3 is a right side view of the new energy mine car;

fig. 4 is a top view of the new energy mine car.

Description of reference numerals:

1. a first heat sink; 2. a second heat sink; 3. a motor; 4. an electric control cabin.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1 to 4, the present embodiment provides an electric control heat dissipation structure of a new energy mine car, including: a first heat radiator 1 and a second heat radiator 2; in certain embodiments, the first and second heat sinks 1 and 2 may both be water-cooled heat sinks; the first heat radiator 1 and the second heat radiator 2 are both arranged on the mine car; the first heat radiator 1 is arranged at the head of the mine car, and an air inlet of the first heat radiator 1 faces the advancing direction of the mine car, namely the windward side of the mine car; the second heat radiator 2 is arranged at the head of the mine car, the second heat radiator 2 is arranged on one side of the first heat radiator 1, and an air inlet of the second heat radiator 2 faces the advancing direction of the mine car. The mine car comprises: a motor 3 and an electric control cabin 4; one of them machine of motor 3 and electronic control storehouse 4 is connected first heat radiator, another machine of motor 3 and electronic control storehouse 4 is connected second heat radiator 2, first heat radiator 1 and second heat radiator 2 are used for reducing the temperature of motor 3 and electronic control storehouse 4. The motor 3 is arranged in the middle of the new energy mine car, and the electric control cabin 4 is arranged on the new energy mine car. It should be noted that, in the present application, the first heat radiator 1 and the second heat radiator 2 are both existing heat radiators, and the first heat radiator 1 and the second heat radiator 2 mainly play a role in reducing the temperatures of the electric machine 3 and the electric control cabin 4. When the new energy mine car operates, the motor 3 generates a large amount of heat energy, and in order to ensure that the motor 3 can operate continuously, the motor 3 needs to be connected with the first heat radiator 1 or the second heat radiator 2, so that the temperature of the motor 3 during operation is reduced; similarly, the electric control cabin 4 also generates a large amount of heat energy during operation, which causes the temperature of the electric control cabin 4 to rise, and therefore, the electric control cabin is also required to be connected with another heat radiator. It should be further explained that, when the first heat radiator 1 and the second heat radiator 2 are performing cooling operation, heat energy in a connected device is pumped to the heat radiators themselves, and heat is dissipated through the heat radiators themselves, so that a large amount of heat energy is also generated when the first heat radiator 1 and the second heat radiator 2 are operating, in the application, the air inlets of the first heat radiator 1 and the second heat radiator 2 face the advancing direction of the new energy mine car, and the first heat radiator 1 and the second heat radiator 2 are placed at the head of the new energy mine car, so that the heat exchange rate between the first heat radiator 1 and the second heat radiator 2 and outside air is improved, and the heat dissipation effect of the first heat radiator 1 and the second heat radiator 2 is further improved; of course, the positions of the first heat radiator 1 and the second heat radiator 2 at the head of the new energy mine car can be arbitrary, and only the first heat radiator 1 and the second heat radiator 2 need to be satisfied in the advancing direction of the new energy mine car. Technical scheme passes through the setting of first heat radiator 1 and second heat radiator 2 has improved the radiating efficiency of new forms of energy mine car by a wide margin, will simultaneously first heat radiator 1 and second heat radiator 2 arrange new forms of energy mine car locomotive department in and have further improved the radiating efficiency of first heat radiator 1 and second heat radiator 2.

Referring to fig. 1, 3 and 4, in some embodiments, the second heat radiator 2 is disposed on a side of the first heat radiator 1 away from the head of the mine car, and the height of the second heat radiator 2 is higher than that of the first heat radiator 1. In the present embodiment, the electric machine 3 and the electronic control cabin 4 have higher power during operation, so that the volumes of the first heat radiator 1 and the second heat radiator 2 are increased; however, the space at the head of the new energy mine car is small, so the second heat radiator 2 needs to be arranged behind the second heat radiator 2, but the first heat radiator 1 does not block the air inlet of the second heat radiator 2, so that the heat exchange rate of the second heat radiator 2 is affected. Technical scheme passes through the setting of first heat radiator 1 and second heat radiator 2 has improved the radiating efficiency of new forms of energy mine car by a wide margin, will simultaneously first heat radiator 1 and second heat radiator 2 arrange new forms of energy mine car locomotive department in, just second heat radiator 2 is higher than first heat radiator 1, has further improved the radiating efficiency of first heat radiator 1 and second heat radiator 2.

Referring to fig. 3, in some embodiments, the electronic control cabin 4 includes: a frame, a controller and an auxiliary controller; the controller and the auxiliary controller are both arranged on the frame; the first heat radiator 1 is respectively connected with the controller and the auxiliary controller through pipelines and used for reducing the temperature of the controller and the auxiliary controller. It should be noted that the electronic control cabin 4 is arranged on the side of the new energy mine car and between two wheels on the side. The controller and the auxiliary controller are used for controlling a battery connected with the motor 3. It should be further noted that a large amount of heat energy is generated during the operation of the controller and the auxiliary controller, and therefore, the controller and the auxiliary controller need to be connected with the first heat radiator 1 or the second heat radiator 2, so as to achieve the purpose of reducing the temperature.

In order to improve the intelligent degree of controlling of new forms of energy mine car, in this embodiment, still include: an electronic control system; the electric control system is respectively electrically connected with the first heat radiator 1 and the second heat radiator 2 and is used for controlling the starting and the closing of the first heat radiator 1 and the second heat radiator 2. It should be noted that, in this embodiment, when the temperatures of the electric machine 3 and the electronic control cabin 4 increase, the electronic control system starts the first heat radiator 1 and the second heat radiator 2 to lower the temperatures of the electric machine 3 and the electronic control cabin 4; of course, in some embodiments, the first heat radiator 1 and the second heat radiator 2 may also be controlled by the electronic control system to be turned on at intervals, so as to reduce the temperature of the electric machine 3 and the electronic control cabin 4. When the new energy mine car is started without the electric control system, the first heat radiator 1 and the second heat radiator 2 operate together, and the energy consumption of the new energy mine car is increased.

Of course, in order to monitor the temperature of the electric machine 3 and the electronic control cabin 4 more accurately, the opening or closing of the first heat radiator 1 and the second heat radiator 2 is controlled more accurately at the same time. Further comprising: a plurality of temperature sensors; the motor 3 and the electric control bin 4 are both provided with the temperature sensors, the temperature sensors are electrically connected with the electric control system, and the temperature sensors are used for detecting the temperatures of the motor 3 and the electric control bin 4. In this embodiment, the plurality of temperature sensors are respectively disposed on the motor 3 and the electronic control cabin 4, and are electrically connected to the electronic control system, and when a certain temperature sensor detects that the temperature is too high, the electronic control system can control the first heat radiator 1 or the second heat radiator 2 corresponding to the temperature sensor to work, so as to reduce the temperature of the motor 3 or the electronic control cabin 4. The actual temperature of the motor 3 and the electric control cabin 4 can be monitored more accurately by the arrangement of the temperature sensor, so that the cooling efficiency is improved.

Referring to fig. 1 and 3, in some embodiments, a protection structure is further included, and the protection structure is disposed around the first heat radiator 1 and the second heat radiator 2 and is used for protecting the first heat radiator 1 and the second heat radiator 2. The new energy mine car is mostly in a mine in an operation environment, and is extremely easy to touch falling rocks or a mountain wall during driving; damage may be caused to the first and second heat radiators 1 and 2. To this end, a protective structure is also included in this embodiment. It should be noted that the protection structure may be an anti-collision bar or the like provided around the first heat radiator 1 and the second heat radiator 2 to protect the first heat radiator 1 and the second heat radiator 2.

It should be noted that, although the above embodiments have been described herein, the scope of the present invention is not limited thereby. Therefore, based on the innovative concept of the present invention, the changes and modifications of the embodiments described herein, or the equivalent structure or equivalent process changes made by the contents of the specification and the drawings of the present invention, directly or indirectly apply the above technical solutions to other related technical fields, all included in the protection scope of the present invention.

Claims

1. The utility model provides an automatically controlled heat radiation structure of new forms of energy mine car which characterized in that includes: a first heat sink and a second heat sink;

the first heat radiator and the second heat radiator are both arranged on the mine car; the first heat radiator is arranged at the head of the mine car, and an air inlet of the first heat radiator faces the advancing direction of the mine car; the second heat radiator is arranged at the head of the mine car and on one side of the first heat radiator, and an air inlet of the second heat radiator faces the advancing direction of the mine car;

2. The electric control heat dissipation structure of the new energy mine car as claimed in claim 1, wherein the electric control cabin comprises: a frame, a controller and an auxiliary controller; the controller and the auxiliary controller are both arranged on the frame; the first heat radiator is connected with the controller and the auxiliary controller through pipelines respectively and used for reducing the temperature of the controller and the temperature of the auxiliary controller.

3. The electrically controlled heat dissipation structure of the new energy mine car according to claim 1, wherein the first heat sink is a water-cooled heat sink; the second heat radiator is a water-cooling heat radiator.

4. The electric control heat dissipation structure of the new energy mine car according to claim 1, further comprising: an electronic control system; the electric control system is electrically connected with the first heat radiator and the second heat radiator respectively and used for controlling the starting and the closing of the first heat radiator and the second heat radiator.

5. The electric control heat dissipation structure of the new energy mine car according to claim 4, further comprising: a plurality of temperature sensors; the temperature sensors are arranged on the motor and the electric control bin, the temperature sensors are electrically connected with the electric control system, and the temperature sensors are used for detecting the temperatures of the motor and the electric control bin.

6. The electric control heat dissipation structure of the new energy mine car according to claim 1, further comprising: a protection structure disposed around the first and second heat sinks for protecting the first and second heat sinks.

7. The electronic control heat dissipation structure of the new energy mine car as claimed in claim 1, wherein the second heat dissipation machine is disposed on a side of the first heat dissipation machine away from a head of the mine car, and a height of the second heat dissipation machine is higher than a height of the first heat dissipation machine.