CN219910940U - Intercooling module of power shelter - Google Patents

Abstract

The power supply shelter comprises a shelter body and a water-cooling air-cooling device, wherein the shelter body comprises an electric control chamber and a power generation chamber, the electric control chamber and the power generation chamber are separated by a heat insulation plate, an electric control cabinet is arranged in the electric control chamber, an engine and a generator are arranged in the power generation chamber, and the engine drives the generator to generate power; the water-cooling air-cooling device is arranged above the power generation chamber and covers the power generation chamber from the upper part; the intercooling module comprises an air inlet grille, an exhaust fan and an exhaust pipe, wherein the air inlet grille is arranged on a bulkhead of the power generation chamber, the exhaust fan is arranged in the power generation chamber, the exhaust pipe is communicated with an air outlet of the exhaust fan, the tail end of the exhaust pipe extends out of the bulkhead at the top of the cabin body, then a U-shaped downward bent outlet pipe is formed, and the outlet pipe is positioned below the water-cooling air cooling device. According to the intercooling module provided by the utility model, the outlet pipe is arranged below the water-cooling air-cooling device, and the outlet pipe is of an inverted U-shaped structure, so that the intercooling module has the effects of dust prevention and rain prevention.

Description

Intercooling module of power shelter

Technical Field

The utility model relates to the technical field of power generation, in particular to an intercooling module of a power shelter.

Background

The power shelter is often movably used in the field, can temporarily supply power to areas far away from urban areas or without power grids, and can supply power and illuminate for people when working in the field, such as camping, emergency rescue, field rescue and the like. In order to ensure the use safety and the service life of the power shelter, the power generation part of the power shelter needs to be sealed, the heat dissipation problem is caused in the power generation process of the power shelter after the sealing, and if the heat generated in the power generation process cannot be timely dissipated, the power generation efficiency is also affected, and the service life of the power shelter is also affected when the power shelter is continuously operated under the high-temperature condition. The existing cooling scheme is to cool the generator by means of external cooling, but other heating components are arranged in the power shelter, so that measures for cooling the power shelter are still required. The scheme of adopting air cooling to cool down just relates to the problem of placing of blast pipe export, especially needs to consider dustproof, rain-proof, radiating design requirement.

Disclosure of Invention

The technical problem to be solved by the embodiment of the utility model is to provide an intercooling module of a power shelter, which solves the problems of dust prevention, rain prevention and heat dissipation of an exhaust pipe outlet of the conventional power shelter.

In order to solve the technical problems, the utility model provides an intercooling module of a power supply shelter, which comprises a shelter body and a water-cooling air cooling device, wherein the shelter body comprises an electric control chamber and a power generation chamber, the electric control chamber and the power generation chamber are separated by a heat insulation plate, an electric control cabinet is arranged in the electric control chamber, an engine and a generator are arranged in the power generation chamber, and the engine drives the generator to generate power; the water-cooling air cooling device is arranged above the power generation chamber and covers the power generation chamber from the upper part; the intercooling module comprises an air inlet grille, an exhaust fan and an exhaust pipe, wherein the air inlet grille is arranged on a bulkhead of the power generation chamber, the exhaust fan is arranged in the power generation chamber, the exhaust pipe is communicated with an air outlet of the exhaust fan, the tail end of the exhaust pipe extends out of the bulkhead at the top of the cabin body, then a U-shaped downward bent outlet pipe is formed, and the outlet pipe is positioned below the water-cooling air cooling device.

The generator is located between the intake grille and the inlet of the exhaust fan.

An air inlet fan is arranged on the inner side of the air inlet grille.

The water-cooling air cooling device extends to the upper part of a partial area of the electric control chamber;

correspondingly, the exhaust pipe firstly penetrates through the heat insulation plate to enter the electric control chamber, and then extends out through a bulkhead at the top of the electric control chamber.

Further, the exhaust pipe comprises a first pipe section, a second pipe section, a first communication port, a second communication port and an outlet pipe, wherein the first pipe section is positioned in the power generation chamber, the first communication port is arranged on the heat insulation plate, and the first pipe section is connected with an air outlet of the exhaust fan and one end of the first communication port; the second pipe section is positioned in the electric control chamber, the second communication port is arranged on the top wall of the cabin body of the electric control chamber, and the second pipe section is communicated with the other end of the first communication port and the lower part of the second communication port; the outlet pipe is connected to the upper portion of the second communication port.

The second pipe section is a flexible telescopic pipe.

And the heat insulation layer is coated outside the second pipe section.

The water-cooling air cooling device comprises a water-cooling grid and a fan module, wherein the fan module is arranged above the water-cooling grid in an array mode, a gap is reserved between the water-cooling grid and a bulkhead at the top of the power generation chamber, so that air flow is allowed to pass through the gap and then discharged from the top after passing through the water-cooling grid; the bulkhead below the water-cooling air-cooling device is set as a heat-conducting plate;

correspondingly, the water-cooling grating avoids the position of the outlet pipe, so that the outlet pipe is positioned below the fan module.

The heat conducting plate is made of heat conducting materials, and heat conducting structures are arranged on the surfaces of the two sides of the heat conducting plate.

The heat conducting structure is a heat conducting fin which is arranged side by side, and the arrangement directions of the heat conducting fins on two sides of the heat conducting plate are different, so that a cross-shaped arrangement is formed.

The water cooling grid is provided with a water inlet and a water outlet, is connected with an engine water cooling pipeline in the power generation chamber through the water inlet and the water outlet, and is provided with a water pump so as to promote water to circulate between the water cooling grid and the engine water cooling pipeline.

According to the intercooling module provided by the utility model, the outlet pipe is arranged below the water-cooling air-cooling device, and the outlet pipe is of an inverted U-shaped structure, so that the intercooling module has the effects of dust prevention and rain prevention; and the exhaust outlet of the outlet pipe is further arranged above the electric control chamber, so that the problems of back blowing of the exhaust into the power generation chamber and reduction of heat dissipation effect are avoided.

Drawings

Fig. 1 is a schematic structural diagram of a power shelter according to an embodiment of the utility model.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, the utility model provides an intercooler module of a power shelter 1, wherein the power shelter 1 comprises a shelter body 11 and a water-cooling air cooling device 12, the shelter body 11 comprises an electric control chamber 111 and a power generation chamber 112, the electric control chamber 111 and the power generation chamber 112 are separated by a heat insulation plate 113, an electric control cabinet is arranged in the electric control chamber 111, an engine 1121 and a generator are arranged in the power generation chamber 112, and the engine drives the generator to generate electricity; the water-cooling air-cooling device 12 is arranged above the power generation chamber 112 and covers the power generation chamber 112 from the upper part; the intercooler module comprises an air inlet grille 131, an exhaust fan 132 and an exhaust pipe 133, wherein the air inlet grille 131 is arranged on the bulkhead of the power generation chamber 112, the exhaust fan 132 is arranged in the power generation chamber 112, the exhaust pipe 133 is communicated with an air outlet of the exhaust fan 132, the tail end of the exhaust pipe 133 extends out from the bulkhead at the top of the cabin body 11, and then a U-shaped downward bent outlet pipe 1335 is formed, and the outlet pipe 1335 is positioned below the water-cooling air cooling device 12. The water-cooling air cooling device 12 plays a role in shielding the outlet pipe 1335, so that rainwater and dust are prevented from falling above the outlet pipe 1335; and the outlet pipe 1335 has a U-shaped downward bent structure, so that the air outlet direction is bent downwards, and the noise in the power generation chamber 112 is reduced from being transmitted outwards through the outlet pipe 1335.

The generator 1121 is located between the inlet grille 131 and the inlet of the exhaust fan 132, so that after the airflow enters the power generation chamber 112, the airflow needs to pass through the generator 1121 to be sucked into the inlet of the exhaust fan 132, thereby effectively reducing the temperature of the generator 1121.

An air intake fan 1311 is provided on the inner side of the air intake grill 131, so that the amount of air entering the inside of the power generation chamber 112 can be increased by the air intake fan 1311 when necessary.

The water-cooling air cooling device 12 extends to the upper part of a partial area of the electric control chamber 111;

correspondingly, the exhaust pipe 133 firstly passes through the heat insulation plate 113 to enter the electric control chamber 111, and then extends out through a bulkhead at the top of the electric control chamber 111. That is, the outlet pipe 1335 of the exhaust duct 133 is located at the top of the electric control chamber 111 and below the water-cooled air-cooling device 12.

Further, the exhaust duct includes a first pipe section 1331, a second pipe section 1333, a first communication port 1332, a second communication port 1334, and an outlet pipe 1335, wherein the first pipe section 1331 is positioned in the power generation chamber, the first communication port 1332 is mounted on the heat insulation plate 113, and the first pipe section 1331 is connected with an air outlet of the exhaust fan 132 and one end of the first communication port 1332; the second pipe section 1333 is located in the electric control chamber 111, the second communication port 1333 is installed on the cabin top wall of the electric control chamber 111, and the second pipe section 1333 is communicated with the other end of the first communication port 1332 and the lower part of the second communication port 1334; the outlet pipe 1335 is connected to an upper portion of the second communication port 1334.

The first pipe section 1331 may be a straight pipe or a zigzag pipe formed by connecting multiple sections.

The second tube section 1333 is a flexible bellows so as to be relatively freely disposed within the electronic control chamber 111.

The heat insulation layer is coated on the outer portion of the second pipe section 1333, so that heat in the second pipe section 1333 can be prevented from entering the electric control chamber 111, and the influence on the temperature of the electric control chamber 111 due to wiring is reduced.

The water-cooling air cooling device 12 comprises a water-cooling grid 121 and a fan module 122, wherein the fan module 122 is arranged above the water-cooling grid 121 in an array manner, a gap is reserved between the water-cooling grid 121 and a bulkhead at the top of the power generation chamber 112, so that air flow is allowed to pass through the gap and then discharged from the top after passing through the water-cooling grid 121; the bulkhead below the water-cooling air cooling device 12 is set as a heat-conducting plate;

correspondingly, the water-cooled grid is located to avoid the outlet pipe, so that the outlet pipe 1335 is located below the fan module 122.

The heat conducting plate is made of heat conducting materials, and heat conducting structures are arranged on the surfaces of the two sides of the heat conducting plate.

The heat conduction structure is the heat conduction fins that arrange side by side, and the direction of arranging of the heat conduction fins of heat conduction board both sides is different, thereby forms the cross arrangement, for example the heat conduction fins of upper surface be the transverse arrangement, and the heat conduction fins of lower surface be longitudinal arrangement, thereby not only can improve heat conduction efficiency, can also improve the rigidity of heat conduction board.

The water cooling grid 121 is provided with a water inlet and a water outlet, is connected with an engine water cooling pipeline in the power generation chamber through the water inlet and the water outlet, and is provided with a water pump so as to promote water to circulate between the water cooling grid and the engine water cooling pipeline. The water inlet and the water outlet are connected with a pipeline, and the pipeline passes through the bulkhead of the power generation chamber 112 and is connected into the power generation chamber 112.

According to the intercooling module provided by the utility model, the outlet pipe is arranged below the water-cooling air-cooling device, and the outlet pipe is of an inverted U-shaped structure, so that the intercooling module has the effects of dust prevention and rain prevention; and the exhaust outlet of the outlet pipe is further arranged above the electric control chamber, so that the problems of back blowing of the exhaust into the power generation chamber and reduction of heat dissipation effect are avoided.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (9)

1. An intercooling module of a power shelter comprises a shelter body and a water-cooling air cooling device, wherein the shelter body comprises an electric control chamber and a power generation chamber, the electric control chamber and the power generation chamber are separated by a heat insulation plate, an electric control cabinet is arranged in the electric control chamber, an engine and a generator are arranged in the power generation chamber, and the engine drives the generator to generate power; the water-cooling air cooling device is arranged above the power generation chamber and covers the power generation chamber from the upper part;

the novel air conditioner is characterized in that the intercooling module comprises an air inlet grille, an exhaust fan and an exhaust pipe, the air inlet grille is arranged on a bulkhead of the power generation chamber, the exhaust fan is arranged in the power generation chamber, the exhaust pipe is communicated with an air outlet of the exhaust fan, the tail end of the exhaust pipe extends out from the bulkhead at the top of the cabin body, then a U-shaped downward bent outlet pipe is formed, and the outlet pipe is positioned below the water-cooling air-cooling device.

2. The intercooler module of claim 1, wherein,

the generator is located between the intake grille and the inlet of the exhaust fan.

3. The intercooler module of claim 1, wherein,

an air inlet fan is arranged on the inner side of the air inlet grille.

4. The intercooler module of claim 1, wherein,

the water-cooling air cooling device extends to the upper part of a partial area of the electric control chamber;

correspondingly, the exhaust pipe firstly penetrates through the heat insulation plate to enter the electric control chamber, and then extends out through a bulkhead at the top of the electric control chamber.

5. The intercooler module of claim 1, wherein,

the exhaust pipe comprises a first pipe section, a second pipe section, a first communication port, a second communication port and an outlet pipe, wherein the first pipe section is positioned in the power generation chamber, the first communication port is arranged on the heat insulation plate, and the first pipe section is connected with an air outlet of the exhaust fan and one end of the first communication port; the second pipe section is positioned in the electric control chamber, the second communication port is arranged on the top wall of the cabin body of the electric control chamber, and the second pipe section is communicated with the other end of the first communication port and the lower part of the second communication port; the outlet pipe is connected to the upper portion of the second communication port.

6. The intercooler module of claim 5, wherein,

the second pipe section is a flexible telescopic pipe;

and the heat insulation layer is coated outside the second pipe section.

7. The intercooler module of claim 1, wherein,

the water-cooling air cooling device comprises a water-cooling grid and a fan module, wherein the fan module is arranged above the water-cooling grid in an array mode, a gap is reserved between the water-cooling grid and a bulkhead at the top of the power generation chamber, so that air flow is allowed to pass through the gap and then discharged from the top after passing through the water-cooling grid; the bulkhead below the water-cooling air-cooling device is set as a heat-conducting plate;

correspondingly, the water-cooling grating avoids the position of the outlet pipe, so that the outlet pipe is positioned below the fan module.

8. The intercooler module of claim 7, wherein,

the heat conducting plate is made of a heat conducting material, and heat conducting structures are arranged on the surfaces of the two sides of the heat conducting plate;

the heat conducting structure is a heat conducting fin which is arranged side by side, and the arrangement directions of the heat conducting fins on two sides of the heat conducting plate are different, so that a cross-shaped arrangement is formed.

9. The intercooler module of claim 7, wherein,

the water cooling grid is provided with a water inlet and a water outlet, is connected with an engine water cooling pipeline in the power generation chamber through the water inlet and the water outlet, and is provided with a water pump so as to promote water to circulate between the water cooling grid and the engine water cooling pipeline.