CN217685564U - Air supply channel layout structure and indirect evaporative cooling unit - Google Patents

Abstract

The utility model discloses an air supply passageway layout structure and indirect evaporative cooling unit for the refrigeration part of solving current indirect evaporative cooling unit has taken too many spaces of air supply passageway, leads to the windage of indoor air supply great, realizes the higher technical problem of equal wind speed consumption. The utility model comprises an inner channel area and an outdoor area outside the inner channel area, wherein the inner channel area and the outdoor area are separated by a liner clapboard; an air supply fan and a first refrigerating part are arranged in the inner channel area; a second refrigeration component is mounted within the outdoor region. In this embodiment, utilize the inner bag baffle to separate the air supply passageway body for interior passageway region and outdoor region to including passageway region and outdoor region rational arrangement different first refrigeration part and second refrigeration part, make to have more residual space in the passageway region, effectively promoted the regional effective sectional area of inside passage, thereby reduce the windage of indoor air supply.

Description

Air supply channel layout structure and indirect evaporative cooling unit

Technical Field

The utility model relates to an air supply passageway technical field especially relates to an air supply passageway layout structure and indirect evaporative cooling unit.

Background

To indirect evaporative cooling unit, no matter what kind of air supply and exhaust mode structure is adopted, its inside air supply passageway and return air passageway all are equipped with, and on the one hand, spare part layout mode in the air supply passageway can produce great influence to unit heat transfer performance, and on the other hand, spare part in the air supply passageway whether can be convenient for maintain operation also very important.

The indoor air supply channel of the prior indirect evaporative cooling unit is full of parts, wherein an electric cabinet, a compressor and fluorine system part, a water pump and water system part and an indoor air supply fan are arranged, and the indoor air supply fan is arranged on the right side and other parts are arranged on the left side when viewed from the end face. Because electric cabinet, compressor and fluorine system part, water pump and water system part are placed in the left side of inner channel fan, on the one hand, these spare parts have taken up too many air supply channel's inner space, lead to air supply channel's effective sectional area less, and the consumption is higher when equal wind speed is realized in indoor air supply to windage is also great, and serious influence unit performance is unfavorable for maintainer to carry out online maintenance simultaneously.

Therefore, it is an important subject of research by those skilled in the art to find a layout structure of an air supply duct and an indirect evaporative cooling unit that can solve the above-mentioned technical problems.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model discloses air supply channel layout structure and indirect evaporative cooling unit for the refrigeration part who solves current indirect evaporative cooling unit has taken the too many spaces of air supply channel, leads to the windage of indoor air supply great, realize the higher technical problem of equal wind speed consumption.

The embodiment of the utility model provides an air supply channel layout structure, which comprises an air supply channel body and a liner clapboard;

the air supply channel body comprises an inner channel area and an outdoor area positioned outside the inner channel area, and the inner channel area and the outdoor area are separated by the liner clapboard;

an air supply fan and a first refrigerating part are arranged in the inner channel area;

a second refrigeration component is mounted within the outdoor region.

Optionally, the first refrigeration component comprises a compressor inverter and a water pump inverter;

the second refrigerating part comprises a compressor, a fluorine system module, an electric cabinet, a water pump, a water system module and a water tank.

Optionally, the outdoor area is located at two opposite outer sides of the inner channel area;

the compressor and fluorine system module is arranged in an outdoor area outside one inner channel area, and the electric cabinet, the water pump and water system module and the water tank are arranged in an outdoor area outside the other inner channel area.

Optionally, the first refrigeration component comprises a water pump inverter;

the second refrigeration part comprises a compressor frequency converter, a compressor and fluorine system module, an electric cabinet, a water pump and water system module and a water tank.

Optionally, the outdoor area is located at two opposite outer sides of the inner channel area;

the compressor frequency converter, the compressor and the fluorine system module are arranged in an outdoor area outside one side of the inner channel area, and the electric control box, the water pump and water system module and the water tank are arranged in an outdoor area outside the other side of the inner channel area.

Optionally, the water tank is mounted directly above the water pump and water system module.

Optionally, the two opposite inner side walls of the inner channel area are respectively equal in distance from the longitudinal axis of the air supply fan.

Optionally, the number of the air supply fans is multiple;

the plurality of air supply fans are linearly arranged along the length direction of the inner channel area.

Optionally, the liner clapboard is a thermal insulation liner clapboard.

The embodiment of the utility model provides an indirect evaporative cooling unit, which comprises a heat exchange core body, a return air inlet, an air supply outlet, a return air channel and the layout structure of the air supply channel;

the air return channel is arranged above the air supply channel body of the air supply channel layout structure;

at least one end face of the return air channel is provided with the return air inlet, and the end face or the side face or the bottom face of the inner channel area of the air supply channel body is provided with the air supply outlet.

According to the technical solution provided by the utility model, the embodiment of the utility model has the following advantage:

in this embodiment, utilize the inner bag baffle to separate the air supply passageway body for interior passageway region and outdoor region, and at interior passageway region and the different first refrigeration part of outdoor regional rational arrangement and the refrigeration part of second, make and have more residual space in the interior passageway region, the regional effective sectional area of inside passage has effectively been promoted, thereby reduce the windage of indoor air supply, under the equal fan rotational speed, because the windage is little, so can realize target air-out wind speed with less power, more energy-conservation, it is lower to realize equal wind speed power, and then promote indirect evaporative cooling unit's performance.

Drawings

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

Fig. 1 is an internal schematic view of an air supply channel layout structure provided in a first embodiment of the present invention;

fig. 2 is an internal top view of an air supply channel layout structure according to a first embodiment of the present invention;

fig. 3 is an internal top view of an air supply channel layout structure provided in the second embodiment of the present invention;

fig. 4 is a schematic structural diagram of an indirect evaporative cooling unit provided in a third embodiment of the present invention;

fig. 5 is a schematic view of another structure of an indirect evaporative cooling unit provided in the third embodiment of the present invention;

illustration of the drawings: an inner channel region 1; an outdoor area 2; a liner separator 3; an air supply fan 4; a compressor inverter 5; a water pump frequency converter 6; a compressor and fluorine system module 7; a water pump and system module 8; a water tank 9; an electric cabinet 10; an air supply passage body 11; an air return opening 12; an air return channel 13; and a supply air outlet 14.

Detailed Description

The embodiment of the utility model discloses air supply passageway layout structure and indirect evaporative cooling unit for solve the refrigeration part of current indirect evaporative cooling unit and taken too many spaces of air supply passageway, lead to the windage of indoor air supply great, realize the higher technical problem of equal wind speed consumption.

In order to make the technical field better understand the solution of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings and the detailed description. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1 to fig. 2, an embodiment of the present invention provides an air supply channel layout structure, including:

an air supply channel body 11 and a liner clapboard 3;

the air supply channel body 11 comprises an inner channel area 1 and an outdoor area 2 positioned outside the inner channel area 1, and the inner channel area 1 and the outdoor area 2 are separated by the inner container partition plate 3;

an air supply fan 4 and a first refrigerating part are arranged in the inner channel area 1;

a second cooling member is installed in the outdoor area 2.

In this embodiment, utilize inner bag baffle 3 to separate air supply passageway body 11 for interior passageway region 1 and outdoor region 2, and including passageway region 1 and outdoor region 2 rational arrangement different first refrigeration part and second refrigeration part, make interior passageway region 1 have more residual space in, the regional effective sectional area of inside passage has effectively been promoted, thereby reduce the windage of indoor air supply, under the equal fan rotational speed, because the windage is little, so can realize the target air-out wind speed with less power, it is more energy-conserving, it is lower to realize equal wind speed power, and then promote indirect evaporative cooling unit's performance.

Further, the first refrigeration part in the present embodiment includes a compressor inverter 5 and a water pump inverter 6.

It should be noted that, by placing the compressor inverter 5 and the water pump inverter 6 in the inner passage area 1, the heat dissipation of the first refrigeration component with relatively large heat productivity is facilitated, so that the first refrigeration component can normally operate in a proper temperature range.

Specifically, the compressor frequency converter 5 and the water pump frequency converter 6 are respectively disposed on opposite sides of the air supply fan 4.

In addition, the above design can reduce the wind resistance of the compressor inverter 5 and the water pump inverter 6 to the indoor air supply as much as possible.

Further, the second refrigeration component in this embodiment includes a compressor and fluorine system module 7, an electric cabinet 10, a water pump and water system module 8, and a water tank 9.

Specifically, the outdoor area 2 is located at two opposite outer sides of the inner passage area 1;

in addition, the compressor and fluorine system module 7 is arranged in the outdoor area 2 at one outer side of the inner channel area 1, and the electric cabinet 10, the water pump and water system module 8 and the water tank 9 are arranged in the outdoor area 2 at the other outer side of the inner channel area 1, so that the installation and the maintenance of the compressor and fluorine system module 7, the electric cabinet 10, the water pump and water system module 8 and the water tank 9 by workers can be more convenient; for example, a plurality of workers can work in the outdoor area 2 which is located on two opposite outer sides of the inner channel area 1, the compressor and fluorine system module 7, the electric cabinet 10, the water pump and water system module 8 and the water tank 9 are installed or overhauled synchronously, the pipeline pieces of different system modules cannot block and interfere with each other, and the efficiency is higher during the partition operation.

In addition, the compressor and fluorine system module 7 and the water pump and water system module 8 are installed in the outdoor area 2 in a strip-shaped arrangement manner, so that the structure of the air supply channel body 11 is more compact, and the space is saved.

Further, the water tank 9 in this embodiment is installed right above the water pump and water system module 8.

It should be noted that the water tank 9 is used for storing water required by the water pump and water system module 8, therefore, the water tank 9 is installed right above the water pump and water system module 8, water in the water tank 9 can be sucked by the water pump more easily under the action of gravity, and the design of the vertical arrangement can save more space of the outdoor area 2, so that the structure of the air supply channel body 11 is more compact.

Further, the compressor and fluorine system module 7 in this embodiment specifically includes a compressor, a related refrigerant pipeline, a related control valve, a refrigerant, and the like, and the compressor and fluorine system module 7 adopts a modular design, which is more convenient for a product-series combination design.

In addition, the water pump and system module 8 in this embodiment specifically includes a water pump, a related water pipeline, a related control valve, and the like, and the water pump and system module 8 adopts a modular design, which is more convenient for a product series combination design.

Further, the two opposite inner side walls of the inner channel area 1 in this embodiment are respectively equidistant from the longitudinal axis of the blower fan 4.

It should be noted that, through the above design, the distance between the impeller of the air supply fan 4 and the left side wall of the inner channel region 1 and the distance between the impeller of the air supply fan 4 and the right side wall of the inner channel region 1 can be equal, which is different from the situation that the air supply fan is designed on the left side or the right side of the air supply channel in the prior art to cause the disorder of the wind field and the poor air flow structure, the design in this embodiment can make the air flow structure smoother, and better meets the working requirement of the air supply fan 4.

Further, the air supply fan 4 in this embodiment is preferably a centrifugal fan, which supplies air axially, and discharges air circumferentially or obliquely upwards.

The number of the air supply fans 4 is multiple;

the plurality of air supply fans 4 are arranged in a straight line along the longitudinal direction of the inner path region 1.

Further, in order to ensure the stability of the temperature of the air flow in the inner passage area 1, the liner clapboard 3 is a heat preservation liner clapboard 3.

Specifically, the heat preservation cotton is arranged in the heat preservation liner partition plate 3, or the heat preservation liner partition plate 3 has good heat preservation performance through the foaming agent which is foamed in the heat preservation liner partition plate Wen Nadan, and the stability of the air flow temperature in the inner channel area 1 is effectively improved.

The rigid polyurethane is a novel synthetic material with a heat preservation function, and the thermal conductivity coefficient of the rigid polyurethane is only 0.022-0.033W/(m × K).

Example two

Referring to fig. 3, an embodiment of the present invention provides an air supply channel layout structure, including:

an air supply channel body 11 and a liner clapboard 3;

the air supply channel body 11 comprises an inner channel area 1 and an outdoor area 2 positioned outside the inner channel area 1, and the inner channel area 1 and the outdoor area 2 are separated by the inner container partition plate 3;

an air supply fan 4 and a first refrigerating part are arranged in the inner channel area 1;

a second cooling member is installed in the outdoor area 2.

Further, the first refrigeration part comprises a water pump frequency converter 6;

the second refrigeration part comprises a compressor frequency converter 5, a compressor and fluorine system module 7, an electric cabinet 10, a water pump and water system module 8 and a water tank 9.

Further, the outdoor area is positioned at two opposite outer sides of the inner channel area;

the compressor frequency converter 5, the compressor and fluorine system module 7 are installed in an outdoor area 2 outside one inner channel area 1, and the electric cabinet 10, the water pump and water system module 8 and the water tank 9 are installed in an outdoor area outside the other inner channel area.

Compared with the first embodiment, in the present embodiment, the compressor inverter 5 is mainly installed in the outdoor area 2, and by the above design, the heat dissipation of the compressor inverter 5 can be accelerated by using the ambient cold air flow in the outdoor area, so that the compressor inverter can normally operate in an appropriate temperature range.

EXAMPLE III

Referring to fig. 1 to 5, an embodiment of the present invention provides an air supply channel layout structure, including:

the heat exchange core, the air return inlet 12, the air supply outlet 14, the air return channel and the air supply channel layout structure in the first embodiment or the second embodiment;

the air return channel 13 is installed above the air supply channel body 11, specifically, the air return channel 13 and the air supply channel body 11 are separated by a partition board, the partition board is provided with an air inlet of the air supply channel, an air inlet end of the air supply fan 4 is connected to the air inlet, at least one end face of the air return channel 13 is provided with the air return port 12, and the end face or the side face or the bottom face of the inner channel region 1 of the air supply channel body 11 is provided with the air supply port 14.

It should be noted that, according to the practical application scenario, both end surfaces of the return air channel 13 in this embodiment may be provided with the return air inlet 12, or one end surface of the return air channel 13 may be provided with the return air inlet 12;

in addition, designers can set the air supply outlet 14 on the end face or the side face or the bottom face of the inner channel region 1 according to practical application scenes, so that air supply requirements of different modes and different directions are met, and further the air pipe connection length and the installation space during engineering installation are reduced.

In this embodiment, utilize inner bag baffle 3 to separate air supply passageway body 11 for interior passageway region 1 and outdoor region 2, and including passageway region 1 and outdoor region 2 rational arrangement different first refrigeration part and second refrigeration part, make interior passageway region 1 have more residual space in, the regional effective sectional area of inside passage has effectively been promoted, thereby reduce the windage of indoor air supply, under the equal fan rotational speed, because the windage is little, so can realize the target air-out wind speed with less power, it is more energy-conserving, it is lower to realize equal wind speed power, and then promote indirect evaporative cooling unit's performance.

It is right above the utility model provides an air supply channel layout structure and indirect evaporative cooling unit have carried out the detailed introduction, to the general technical personnel in this field, according to the utility model discloses the thought of embodiment all has the change part on concrete implementation and application scope, to sum up, this description content should not be understood as right the utility model discloses a restriction.

Claims (10)

1. An air supply channel layout structure is characterized by comprising an air supply channel body and a liner clapboard;

the air supply channel body comprises an inner channel area and an outdoor area positioned outside the inner channel area, and the inner channel area and the outdoor area are separated by the liner clapboard;

an air supply fan and a first refrigerating part are arranged in the inner channel area;

a second refrigeration component is mounted within the outdoor region.

2. The air supply passage arrangement structure according to claim 1, wherein the first cooling part includes a compressor inverter and a water pump inverter;

the second refrigerating part comprises a compressor, a fluorine system module, an electric cabinet, a water pump, a water system module and a water tank.

3. The air supply passage arrangement structure according to claim 2, wherein the outdoor area is located on opposite outer sides of the inner passage area;

the compressor and fluorine system module is arranged in an outdoor area outside one inner channel area, and the electric cabinet, the water pump and water system module and the water tank are arranged in an outdoor area outside the other inner channel area.

4. The air supply passage arrangement structure according to claim 1, wherein the first cooling component includes a water pump inverter;

the second refrigeration part comprises a compressor frequency converter, a compressor and fluorine system module, an electric cabinet, a water pump and water system module and a water tank.

5. The blast passage layout structure of claim 4, wherein the outdoor area is located at opposite outer sides of the inner passage area;

the compressor frequency converter, the compressor and the fluorine system module are arranged in an outdoor area outside one side of the inner channel area, and the electric control box, the water pump and water system module and the water tank are arranged in an outdoor area outside the other side of the inner channel area.

6. The air supply passage arrangement structure according to claim 2 or 4, wherein the water tank is installed directly above the water pump and water system module.

7. The arrangement structure of the air supply duct according to claim 1, wherein the inner duct area has opposite inner side walls that are respectively equidistant from a longitudinal axis of the air supply fan.

8. The air supply passage layout structure according to claim 1, wherein the number of the air supply fans is plural;

the plurality of air supply fans are linearly arranged along the length direction of the inner channel area.

9. The air supply passage arrangement structure according to claim 1, wherein the liner partition is a heat insulating liner partition.

10. An indirect evaporative cooling unit, which is characterized by comprising a heat exchange core, a return air inlet, an air supply outlet, a return air channel and an air supply channel layout structure as claimed in any one of claims 1 to 9;

the air return channel is arranged above the air supply channel body of the air supply channel layout structure;

the air return passage is characterized in that at least one end face of the air return passage is provided with the air return opening, and the end face or the side face or the bottom face of the inner passage area of the air supply passage body is provided with the air supply opening.

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