CN113357208A - Heat dissipation supply system and vehicle - Google Patents

Abstract

The invention provides a heat dissipation supply system and a vehicle. The present invention provides a heat radiation supply system, comprising: the box body is internally provided with an interlayer, and the interlayer divides the box body into a first box body and a second box body; the heat dissipation pipeline is arranged in the second box body, the first end of the heat dissipation pipeline is communicated with the first box body, and the second end of the heat dissipation pipeline penetrates through the side wall of the second box body and is connected with the spraying mechanism. According to the heat dissipation supply system provided by the invention, the heat dissipation pipeline is arranged in the second box body, one end of the heat dissipation pipeline is communicated with the first box body, and the other end of the heat dissipation pipeline is connected with the spraying mechanism. Make the heat dissipation pipeline when dispelling the heat to the second box, can carry out the dust fall to the job site and handle, effectively utilize industrial waste water, avoided the waste of the energy. The heat dissipation supply system provided by the invention enhances the heat dissipation effect of the second box body, governs the environment of a construction site, and meets the requirement of an industrial process.

Description

Heat dissipation supply system and vehicle

Technical Field

The invention relates to the technical field of heat dissipation, in particular to a heat dissipation supply system and a vehicle.

Background

With the continuous and rapid development of economy in China, the urban process and the industrialization process are continuously increased, and the national attention on environmental protection is higher and higher. The engineering machine tool operation in-process dust pollution is great, and engineering machine tool long-time operation simultaneously, the second box temperature is higher, needs to carry out the heat dissipation to the second box and handles. Therefore, the heat dissipation supply system is provided, and is particularly important for dissipating heat of the second box body and treating dust on a construction site.

Disclosure of Invention

The invention provides a heat dissipation supply system and a vehicle, which are used for dissipating heat of an oil tank and treating dust on a construction site.

The present invention provides a heat radiation supply system, comprising: the box body is internally provided with an interlayer, and the interlayer divides the box body into a first box body and a second box body; the heat dissipation pipeline is arranged in the second box body, the first end of the heat dissipation pipeline is communicated with the first box body, and the second end of the heat dissipation pipeline penetrates through the side wall of the second box body and is connected with the spraying mechanism.

According to the present invention, there is provided a heat radiation supply system, further comprising: the adjusting mechanism is respectively communicated with the first box body and the first end of the heat dissipation pipeline; and the supply mechanism is connected with the first box body.

According to a heat radiation supply system provided by the present invention, the adjustment mechanism includes: a first end of the pump is communicated with the first box body; the first end of the transition block is communicated with the first end of the heat dissipation pipeline; an adjustment assembly connected to the second end of the pump and the second end of the transition block, respectively.

According to a heat dissipation supply system provided by the present invention, the adjustment assembly includes: a switching valve, a first end of the switching valve being connected to a second end of the pump; a first end of the first pipeline is connected with a second end of the switch valve, and a second end of the first pipeline is connected with a second end of the transition block.

According to a heat dissipation supply system provided by the present invention, the adjusting assembly further includes: a first end of the second pipeline is connected with the switch valve, and a second end of the second pipeline is communicated with a second end of the transition block; the circulating pump is arranged on the second pipeline; the temperature sensor is arranged in the second box body and is in communication connection with the switch valve; wherein, the switch valve is a reversing valve.

According to a heat radiation supply system provided by the present invention, the supply mechanism includes: the one-way valve is connected with an inlet of the first box body; the first liquid level sensor and the second liquid level sensor are respectively arranged on the first box body; the replenishing assembly is connected with the one-way valve; wherein, first level sensor, second level sensor with supply subassembly communication is connected.

The heat dissipation supply system further comprises a controller, and the controller is connected with the adjusting mechanism and the supply mechanism.

According to the heat dissipation supply system provided by the invention, the heat dissipation pipeline is arranged in a spiral shape or a bent shape.

According to the present invention, there is provided a heat radiation supply system further including an overflow mechanism, the overflow mechanism including: the two ends of the third pipeline are respectively connected with the first box body and the spraying mechanism; and the overflow valve is arranged on the third pipeline.

The invention also provides a vehicle comprising the heat dissipation supply system.

According to the heat dissipation supply system provided by the invention, the heat dissipation pipeline is arranged in the second box body, one end of the heat dissipation pipeline is communicated with the first box body, and the other end of the heat dissipation pipeline is connected with the spraying mechanism. Make the heat dissipation pipeline when dispelling the heat to the second box, can carry out the dust fall to the job site and handle, effectively utilize industrial waste water, avoided the waste of the energy. The heat dissipation supply system provided by the invention not only enhances the heat dissipation effect of the second box body, but also can control the environment of a construction site, and meets the requirement of an industrialization process.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings needed for the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a heat dissipation and supply system provided by the present invention;

reference numerals:

100: a box body; 101: a first case; 102: a second case;

103: a heat dissipation pipe; 200: an adjustment mechanism; 201: a pump;

202: an on-off valve; 203: a circulation pump; 204: a transition block;

205: a first pipeline; 206: a second pipeline; 207: a temperature sensor;

301: a one-way valve; 302: a first liquid level sensor; 303: a second liquid level sensor;

401: a third pipeline; 402: an overflow valve; 500: a spraying mechanism;

600: and a supply assembly.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The features of the terms first and second in the description and in the claims of the invention may explicitly or implicitly include one or more of these features. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The heat radiation supply system and the vehicle of the invention are described below with reference to fig. 1.

As shown in fig. 1, in one embodiment of the present invention, a heat dissipation supply system includes: box 100, heat dissipation pipeline 103 and shower mechanism 500. Specifically, the casing 100 is provided with a partition which partitions the casing 100 into a first casing 101 and a second casing 102. The first box 101 and the second box 102 are separated by the partition, which can enhance the thermal conductivity between the first box 101 and the second box 102 and facilitate the cooling of the second box 102 compared with the two boxes. The heat dissipation pipeline 103 is arranged in the second box 102, a first end of the heat dissipation pipeline 103 is communicated with the first box 101, and a second end of the heat dissipation pipeline 103 penetrates through the side wall of the second box 102 to be connected with the spraying mechanism 500.

Specifically, in one embodiment of the present invention, optionally, the first tank 101 is a water tank, and the second tank 102 is a fuel tank. It can be understood that: other liquids or gases may be contained in the first tank 101 and the second tank 102, for example, liquid nitrogen is contained in the first tank 101, and other liquids or gases are contained in the second tank 102, and are radiated by the first tank 101. The heat dissipation pipeline 103 is arranged in the second box body 102, the water in the first box body 101 flows into the heat dissipation pipeline 103 to cool the hydraulic oil in the second box body 102, the water absorbing heat flows into the spraying mechanism 500 from the second end of the heat dissipation pipeline 103, and the spraying mechanism 500 can spray dust on the construction site.

Further, since the spraying mechanism 500 continuously sprays, the water in the heat dissipation pipe 103 can be continuously discharged, so that the water entering the heat dissipation pipe 103 can be always kept at a low temperature, thereby continuously dissipating heat for the second housing 102.

Further, the spray mechanism 500 may include a spray head and a pipe, the pipe being connected to the second end of the heat dissipation pipe 103, the spray head being connected to the pipe. In the construction process of the operation machine, water subjected to heat dissipation treatment on the second box body 102 is sprayed out of the spray head through a pipeline, the pipeline can have a certain length and can be moved manually, and the water is sprayed on a construction site in a large range for dust reduction. Furthermore, the pipeline can be provided with an adjusting valve to adjust the water yield of the spray head.

Further, in order to enhance the heat dissipation effect of the heat dissipation pipe 103, the heat dissipation pipe 103 may be coiled around the inner wall of the second box 102 to increase the contact area between the heat dissipation pipe 103 and the hydraulic oil, thereby improving the heat exchange effect of the heat dissipation pipe 103.

According to the heat dissipation supply system provided by the embodiment of the invention, the heat dissipation pipeline is arranged in the second box body, one end of the heat dissipation pipeline is communicated with the first box body, and the other end of the heat dissipation pipeline is connected with the spraying mechanism. Make the heat dissipation pipeline when dispelling the heat to the second box, can carry out the dust fall to the job site and handle, effectively utilize industrial waste water, avoided the waste of the energy. The heat dissipation supply system provided by the embodiment of the invention not only enhances the heat dissipation effect of the second box body, but also can control the environment of a construction site, and meets the requirement of an industrial process.

Further, in one embodiment of the present invention, the heat dissipation pipe 103 is arranged in a spiral or a bent shape. Specifically, the heat dissipation pipes 103 may be arranged in the second tank 102 in a spiral shape around the circumference of the second tank 102, so as to increase the contact area between the heat dissipation pipes 103 and the hydraulic oil and enhance the heat dissipation effect. The heat dissipation pipe 103 may also be arranged in a bent shape as shown in fig. 1, so as to increase the contact area between the heat dissipation pipe 103 and the hydraulic oil and enhance the heat dissipation effect. It can be understood that: the arrangement of the heat dissipation pipe 103 in the second housing 102 may be other ways, and is not limited to the form illustrated in the embodiment of the present invention.

As shown in fig. 1, in one embodiment of the present invention, the heat dissipation supply system further includes: an adjustment mechanism 200 and a replenishment mechanism. The adjusting mechanism 200 is respectively communicated with the first box 101 and the first end of the heat dissipation pipeline 103, and the supply mechanism is connected with the first box 101.

Specifically, the replenishment mechanism is used to continuously store water for the first tank 101, and prevents the water level in the first tank 101 from being too low to flow into the heat dissipation pipe 103. The adjusting mechanism 200 can automatically adjust the amount of water entering the heat dissipation pipe 103 according to the temperature of the second housing 102, so as to better perform heat dissipation treatment on the second housing 102.

Specifically, in one embodiment of the present invention, the adjustment mechanism 200 includes: a pump 201, a transition block 204, and a conditioning assembly. A first end of the pump 201 is in communication with the first tank 101, a first end of the transition block 204 is in communication with a first end of the heat dissipation conduit 103, and the adjustment assembly is connected to a second end of the pump 201 and a second end of the transition block 204.

Specifically, the water in the first tank 101 passes through the regulating assembly into the transition block 204 under the action of the pump 201, and then enters the heat dissipation pipe 103 from the transition block 204. The regulating assembly may regulate the amount of water entering the heat dissipation duct 103 according to the temperature inside the second housing 102. When the temperature in the second box body 102 is lower, the water amount entering the heat dissipation pipeline 103 is smaller; when the temperature in the second casing 102 is relatively high, the amount of water entering the heat dissipation duct 103 is large so as to more quickly carry away the heat in the second casing 102.

Optionally, the adjusting component may be an adjusting valve and a temperature sensor, the temperature sensor is configured to detect a temperature in the second box 102, the adjusting valve may adjust an opening degree of the valve element according to the temperature in the second box 102 detected by the temperature sensor, when the temperature in the second box 102 is equal to or greater than a preset value, the opening degree of the valve element may be increased to increase a flow rate of water entering the heat dissipation pipe 103, thereby enhancing a heat dissipation effect of the heat dissipation pipe 103, and at this time, the water sprayed by the spraying mechanism 500 is also larger. When the temperature in the second housing 102 is less than the preset value, the opening of the valve element may be reduced to reduce the flow rate of water flowing into the heat dissipation pipe 103.

Optionally, the adjusting component may also be a temperature sensor, a control valve, and two pipelines with different flow rates, the temperature sensor is configured to detect the temperature inside the second box 102, and when the temperature inside the second box 102 exceeds a preset value, the control valve controls the pump 201 to be communicated with the pipeline with the larger flow rate, so as to increase the flow rate of the water flowing into the heat dissipation pipeline 103 and enhance the heat dissipation effect of the heat dissipation pipeline 103; when the temperature in the second tank 102 is lower than a preset value, the control valve controls the pump 201 to communicate with a pipe having a small flow rate. Specifically, two different pipelines of velocity of flow can be realized by setting up the pipeline that the diameter is different, also can be for the pipeline that the diameter is the same, set up the circulating pump on one of them pipeline to the rivers velocity of flow of reinforcing this pipeline.

Further, as shown in fig. 1, the adjusting assembly includes: an on-off valve 202 and a first line 205. A first end of the on-off valve 202 is connected to a second end of the pump 201, a first end of the first pipe 205 is connected to a second end of the on-off valve 202, and a second end of the first pipe 205 is connected to a second end of the transition block 204.

Specifically, when the on-off valve 202 is communicated with the first pipe 205, the water in the first tank 101 enters the heat dissipation pipe 103 through the on-off valve 202, the first pipe 205 and the transition block 204 under the action of the pump 201.

Further, the adjustment assembly further comprises: a second pipe 206, a circulation pump 203 and a temperature sensor 207. A first end of the second conduit 206 is connected to the on-off valve 202 and a second end of the second conduit 206 communicates with a second end of the transition block 204. The circulation pump 203 is disposed in the second pipe 206, and the temperature sensor 207 is disposed in the second tank 102 and is connected in communication with the on-off valve 202.

Specifically, in the present embodiment, the switching valve 202 is a direction switching valve. The switch valve 202 is used to connect the pump 201 with the first pipeline 205 or connect the pump 201 with the second pipeline 206, so that the water in the first tank 101 enters the transition block 204 through the first pipeline 205 or the second pipeline 206 under the action of the pump 201. The temperature sensor 207 is used for detecting the temperature in the second tank 102, when the temperature in the second tank 102 detected by the temperature sensor 207 is lower than a preset value, the switch valve 202 is communicated with the first pipeline 205, and the water in the first tank 101 enters the transition block 204 through the first pipeline 205 under the action of the pump 201 and then enters the heat dissipation pipeline 103 through the transition block 204. When temperature sensor 207 detected that the temperature in the second box 102 is equal to or higher than the preset value, ooff valve 202 and second pipeline 206 intercommunication are provided with circulating pump 203 on the second pipeline 206, under circulating pump 203's effect, can increase the velocity of flow that gets into rivers in the second pipeline 206, and then the increase gets into the velocity of flow of rivers in the heat dissipation pipeline 103 to accelerate the heat dissipation of second box 102, at this moment, the water yield that mechanism 500 sprays is bigger.

Further, in the embodiment of the present invention, the temperature sensor 207 may be disposed on an inner wall of the second casing 102, or may be inside the second casing 102.

According to the heat dissipation supply system provided by the embodiment of the invention, the flow speed of water flow entering the heat dissipation pipeline can be increased according to the temperature in the second box body by arranging the adjusting mechanism, and when the temperature of the second box body is higher, the water flow is larger, so that the second box body can dissipate heat quickly, and the heat dissipation supply system can operate stably for a long time.

As shown in FIG. 1, in one embodiment of the present invention, the replenishment mechanism comprises: a check valve 301, a first level sensor 302, a second level sensor 303, and a refill assembly 600. The check valve 301 is connected with the inlet of the first box 101, the first liquid level sensor 302 and the second liquid level sensor 303 are respectively arranged on the first box 101, the replenishment assembly 600 is connected with the check valve 301, and the first liquid level sensor 302 and the second liquid level sensor 303 are in communication connection with the replenishment assembly 600.

Specifically, in the embodiment of the present invention, the first liquid level sensor 302 and the second liquid level sensor 303 may be respectively disposed on the side wall of the first casing 101, or may be respectively disposed inside the first casing 101. The first level sensor 302 is located at the highest water level of the first tank 101, and the second level sensor 303 is located at the lowest water level of the first tank 101. When the water level in the first tank 101 is lower than the lowest water level, the second liquid level sensor 303 is triggered to send a signal to the replenishment assembly 600, the replenishment assembly 600 is opened, and water flows into the first tank 101 through the inlet of the first tank 101 through the check valve 201. When the water level in the first tank 101 reaches the maximum water level, the first liquid level sensor 302 is triggered, the first liquid level sensor 302 sends a signal to the replenishment assembly 600, the replenishment assembly 600 is closed, and the check valve 301 can prevent the water in the first tank 101 from flowing backwards to the replenishment assembly 600.

Specifically, supply assembly 600 may include: water source, pipeline and control valve, the one end and the water source of pipeline are connected, and the other end and the check valve 301 of pipeline are connected, are provided with the control valve on the pipeline. The control valve receives signals sent by the first liquid level sensor 302 or the second liquid level sensor 303, and the control valve is controlled to be switched off and switched on, so that the water source and the one-way valve 301 can be switched off or connected.

Further, the heat dissipation supply system further comprises a controller, and the controller is connected with the adjusting mechanism 200 and the supply mechanism.

Specifically, the controller is connected to the temperature sensor 207, the on-off valve 202, the circulation valve 203, the first level sensor 302, the second level sensor 303, and the replenishment assembly 600. The temperature sensor 207 transmits the detected temperature data in the second tank 102 to the controller, and the controller determines whether the temperature data is less than a preset value, and when the temperature data is less than the preset value, the controller controls the on-off valve 202 to communicate with the first pipe 205. When the temperature data is greater than or equal to the preset value, the controller controls the on-off valve 202 to be communicated with the second pipeline 206, and controls the circulating pump 203 to be started at the same time, so that the flow rate of water flowing into the heat dissipation pipeline 103 is increased. Further, when the water level in the first tank 101 is lower than the lowest water level, the second liquid level sensor 303 is triggered to send a signal to the controller, and the controller controls the control valve of the replenishment assembly 600 to open to store water in the first tank 101. When the water level in the first tank 101 reaches the highest water level, the first liquid level sensor 302 is triggered to send a signal to the controller, the controller controls the control valve of the replenishment assembly 600 to close, and the replenishment assembly 600 stops supplying water into the first tank 101.

According to the heat dissipation supply system provided by the embodiment of the invention, the water inlet pipeline can be automatically switched by arranging the controller, the flow rate of water flow entering the heat dissipation pipeline is automatically regulated, and the rapid cooling is realized. Meanwhile, the controller is arranged, so that automatic water supply or water supply stop of the first box body is realized, and automatic control of the heat dissipation supply system is realized.

As shown in fig. 1, in an embodiment of the present invention, the heat dissipation supply system further includes an overflow mechanism 400, and the overflow mechanism 400 includes: third line 401 and spill valve 402. Both ends of the third pipeline 401 are respectively connected with the first box 101 and the spraying mechanism 500, and the overflow valve 402 is arranged on the third pipeline 401.

Specifically, overflow valve 402 may ensure the pressure of the water flow at the outlet of spray mechanism 500, while excess water may flow into first tank 101 through overflow valve 402 and third conduit 401.

According to the heat dissipation supply system provided by the embodiment of the invention, the third pipeline and the overflow valve are arranged, so that the water flow pressure at the outlet of the spraying mechanism can be ensured, and the redundant water in the spraying mechanism can flow into the first box body through the third pipeline, so that the stable operation of the heat dissipation supply system is ensured.

The working principle of the heat dissipation supply system provided by the present invention will be described in detail below by taking the embodiment shown in fig. 1 as an example.

The temperature sensor 207 is used for detecting the temperature in the second box 102, the temperature sensor 207 transmits detected temperature data in the second box 102 to the controller, the controller judges whether the temperature data is smaller than a preset value, when the temperature data is smaller than the preset value, the controller controls the switch valve 202 to be communicated with the first pipeline 205, water in the first box 101 flows into the heat dissipation pipeline 103 through the pump 201, the switch valve 202, the first pipeline 205 and the transition block 204, and the water in the heat dissipation pipeline 103 is sprayed out by the spraying mechanism 500 after absorbing heat in the second box 102.

When the temperature data is larger than or equal to the preset value, the controller controls the switch valve 202 to be communicated with the second pipeline 206, the circulating pump 203 is controlled to be started, at the moment, water in the first box body 101 enters the heat dissipation pipeline 103 through the pump 201, the switch valve 202, the second pipeline 206, the circulating pump 203 and the transition block 204, at the moment, the flow speed of water entering the heat dissipation pipeline 103 is increased under the action of the circulating pump 203, and heat dissipation treatment can be carried out on the second box body 102 more quickly. At this time, the amount of water sprayed by the spraying mechanism 500 is also greater.

In the spraying process of the spraying mechanism 500, when the water level in the first box 101 is lower than the lowest water level, the second liquid level sensor 303 is triggered to send a signal to the controller, the controller controls the control valve of the replenishment assembly 600 to be opened, and the water source enters the first box 101 through the one-way valve 301 to store water. When the water level in the first tank 101 reaches the highest water level, the first liquid level sensor 302 is triggered to send a signal to the controller, the controller controls the control valve of the replenishment assembly 600 to close, and the replenishment assembly 600 stops supplying water into the first tank 101.

The embodiment of the invention also provides a vehicle which comprises the heat dissipation supply system.

According to the vehicle provided by the embodiment of the invention, the heat dissipation supply system is arranged, so that dust can be settled on a construction site under the condition that the vehicle normally works, the applicability of the vehicle is enhanced, and the requirement of an industrialization process is met.

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 (10)

1. A heat dissipation supply system, comprising:

the box body is internally provided with an interlayer, and the interlayer divides the box body into a first box body and a second box body;

the heat dissipation pipeline is arranged in the second box body, the first end of the heat dissipation pipeline is communicated with the first box body, and the second end of the heat dissipation pipeline penetrates through the side wall of the second box body and is connected with the spraying mechanism.

2. The heat dissipation supply system of claim 1, further comprising:

the adjusting mechanism is respectively communicated with the first box body and the first end of the heat dissipation pipeline;

and the supply mechanism is connected with the first box body.

3. The heat dissipation supply system of claim 2, wherein the adjustment mechanism comprises:

a first end of the pump is communicated with the first box body;

the first end of the transition block is communicated with the first end of the heat dissipation pipeline;

an adjustment assembly connected to the second end of the pump and the second end of the transition block, respectively.

4. The heat sink supply system of claim 3, wherein the adjustment assembly comprises:

a switching valve, a first end of the switching valve being connected to a second end of the pump;

a first end of the first pipeline is connected with a second end of the switch valve, and a second end of the first pipeline is connected with a second end of the transition block.

5. The heat dissipation supply system of claim 4, wherein the adjustment assembly further comprises:

a first end of the second pipeline is connected with the switch valve, and a second end of the second pipeline is communicated with a second end of the transition block;

the circulating pump is arranged on the second pipeline;

the temperature sensor is arranged in the second box body and is in communication connection with the switch valve;

wherein, the switch valve is a reversing valve.

6. The heat sink supply system according to claim 2, wherein the replenishment mechanism comprises:

the one-way valve is connected with an inlet of the first box body;

the first liquid level sensor and the second liquid level sensor are respectively arranged on the first box body;

the replenishing assembly is connected with the one-way valve;

wherein, first level sensor, second level sensor with supply subassembly communication is connected.

7. The heat sink supply system of claim 2 further comprising a controller, wherein the controller is coupled to the adjustment mechanism and the replenishment mechanism.

8. The heat dissipation supply system of claim 1, wherein the heat dissipation conduit is arranged in a spiral or a bent shape.

9. The heat dissipation supply system of claim 1, further comprising an overflow mechanism, the overflow mechanism comprising:

the two ends of the third pipeline are respectively connected with the first box body and the spraying mechanism;

and the overflow valve is arranged on the third pipeline.

10. A vehicle characterized by comprising the heat radiation supply system as recited in any one of claims 1 to 9.

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