CN215983178U - Optimization structure for collecting condensate water of air conditioner of electric cabinet - Google Patents

Abstract

The utility model provides an optimized structure for collecting condensate water of an electrical cabinet air conditioner, which comprises an electrical cabinet air conditioner body, a condensate water upper water baffle and a condensate water lower water baffle; the air conditioner body of the electric cabinet comprises a cabinet body, an evaporator and a water tray; the evaporator, the condensate water upper water baffle and the condensate water lower water baffle are fixed in the cabinet body; the section of the condensed water upper water baffle is arc-shaped and is fixed at the bottom of the evaporator and extends to the lower part of the evaporator in a downward bending way; a diversion trench is formed at the top of the condensate water upper water baffle plate, the diversion trench extends to two side surfaces of the condensate water lower water baffle plate, the condensate water lower water baffle plate is fixed below the condensate water upper water baffle plate, and the diversion trench corresponds to the bottom edge of the condensate water upper water baffle plate; at least one side surface of the underwater condensate water baffle is positioned right above the water tray. The optimized structure for collecting the condensate water of the air conditioner of the electric cabinet can solve the problem that the condensate water generated by the air conditioner of the electric cabinet is scattered with cold air and blown out of the air outlet.

Description

Optimization structure for collecting condensate water of air conditioner of electric cabinet

Technical Field

The utility model relates to the field of electrical cabinet air conditioners, in particular to an optimized structure for collecting condensate water of an electrical cabinet air conditioner.

Background

Most of the condensed water in the existing air conditioner of the electrical cabinet directly drips in the condensed water tray, and because cold air is blown out from the air outlet, if the condensed water tray causes the condensed water to drip along with the dispersion of the cold air in the lower part of the air outlet, the air outlet is blown out, a large amount of condensed water can appear at the air outlet, and the metal plate of the air outlet is corroded to cause influence on devices and equipment which are installed by customers and are close to the air conditioner of the electrical cabinet.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides an optimized structure for collecting condensate water of an air conditioner of an electric cabinet, which can solve the problem that the condensate water generated by the air conditioner of the electric cabinet is scattered with cold air and blown out of an air outlet.

In order to achieve the purpose, the utility model provides an optimized structure for collecting condensate water of an electrical cabinet air conditioner, which comprises an electrical cabinet air conditioner body, a condensate water upper water baffle and a condensate water lower water baffle; the electrical cabinet air conditioner body comprises a cabinet body, an evaporator and a water tray; the evaporator, the condensate upper water baffle and the condensate lower water baffle are fixed in the cabinet body; the section of the condensed water upper water baffle is arc-shaped and is fixed at the bottom of the evaporator and extends to the lower part of the evaporator in a downward bending way; the top of the condensed water underwater water baffle is provided with a diversion trench, the diversion trench extends to two side surfaces of the condensed water underwater water baffle, the condensed water underwater water baffle is fixed below the condensed water upper water baffle, and the diversion trench corresponds to the bottom edge of the condensed water upper water baffle; at least one side surface of the underwater condensate water baffle is positioned right above the water tray.

Preferably, the front panel of the cabinet body forms an air outlet, and the back panel of the cabinet body forms an access opening; the condensed water upper water baffle and the condensed water lower water baffle are fixed on the inner side of the back plate of the cabinet body; the condensate water upper water baffle plate sequentially extends and bends towards the front panel and the lower direction.

Preferably, the bottom surface of the diversion trench is inclined towards one side surface of the underwater condensate water baffle above the water tray.

Preferably, both side surfaces of the underwater condensate water baffle are located above the water tray, and the bottom surface of the guide groove forms two inclined surfaces inclined to both side surfaces of the underwater condensate water baffle.

Preferably, gaps exist between two side faces of the underwater condenser water baffle and two side faces of the cabinet body.

Due to the adoption of the technical scheme, the utility model has the following beneficial effects:

1. the condensate water upper baffle plate of the optimized structure for condensate water collection is simple and easy to realize, and the design of the arc-shaped structure is utilized to guide the condensate water to the condensate water under the lower water baffle plate, so that the condensate water is prevented from directly dripping and splashing and passing through the access hole.

2. The condensate water lower baffle plate with the optimized structure for condensate water collection can discharge condensate water to a water tray below through diversion of two side faces, and condensate water is prevented from directly dripping to the condensate water tray from an air outlet, so that the condensate water blows out the air outlet along with cold air.

Drawings

Fig. 1 is a schematic back structure view of an optimized structure for collecting condensate water of an air conditioner of an electrical cabinet according to an embodiment of the utility model;

fig. 2 is a schematic front structural view of a part of an optimized structure for collecting condensate water of an air conditioner of an electrical cabinet according to an embodiment of the utility model;

fig. 3 is a schematic diagram of an internal structure of an optimized structure for collecting condensate water of an air conditioner of an electrical cabinet according to an embodiment of the utility model.

Detailed Description

The following description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, which are set forth in detail below to provide a better understanding of the function and features of the utility model.

Referring to fig. 1 to 3, an optimized structure for collecting condensed water of an electrical cabinet air conditioner according to an embodiment of the present invention includes an electrical cabinet air conditioner body, a condensed water splash plate 1 and a condensed water splash plate 2; the electrical cabinet air conditioner body 1 comprises a cabinet body 3, an evaporator 4 and a water tray 5; the evaporator 4, the condensed water upper water baffle 1 and the condensed water lower water baffle 2 are fixed in the cabinet body 3; the section of the condensed water upper water baffle plate 1 is arc-shaped and is fixed at the bottom of the evaporator 4 and extends to the lower part of the evaporator 4 in a downward bending way; a diversion trench 21 is formed at the top of the condensed water lower water baffle 2, the diversion trench 21 extends to two side surfaces of the condensed water lower water baffle 2, the condensed water lower water baffle 2 is fixed below the condensed water upper water baffle 1, and the position of the diversion trench 21 corresponds to the position of the bottom edge of the condensed water upper water baffle 1; at least one side surface of the underwater condensate deflector 2 is positioned right above the water tray 5.

An air outlet 6 is formed on the front panel of the cabinet body 3, and an access opening 7 is formed on the back panel of the cabinet body 3; the upper condensate water baffle 1 and the lower condensate water baffle 2 are fixed on the inner side of the back plate of the cabinet body 3; the condensate water upper water baffle plate 1 extends and bends towards the front panel and the lower direction in sequence.

In this embodiment, the bottom surface of the guiding groove 21 is inclined toward a side surface of the underwater condensate deflector 2 above the water tray 5. In other embodiments, when both sides of the condensate water lower deflector 2 are located above the water tray 5, the bottom surface of the guiding groove 21 forms two inclined surfaces inclined toward both sides of the condensate water lower deflector 2.

Gaps are reserved between two side faces of the condensed water lower water baffle 2 and two side faces of the cabinet body 3.

According to the optimized structure for collecting the condensate water of the electrical cabinet air conditioner, after the electrical cabinet air conditioner operates, the evaporator 4 generates a certain amount of condensate water, the condensate water flows into the diversion trench 21 of the condensate water underwater water baffle 2 along the condensate water upper water baffle 1 without passing through the access opening 7, is collected in the condensate water lower water baffle 2, and is prevented from being discharged into the lower water tray 5 through the left side surface and the right side surface of the condensate water underwater water baffle 2, and then is discharged along with the water outlet of the water tray 5.

The optimized structure for collecting the condensate water of the air conditioner of the electrical cabinet can collect and guide the condensate water generated by the evaporator 4 of the air conditioner of the electrical cabinet and prevent the condensate water from blowing out of the air outlet 6 along with cold air, thereby avoiding the damage of other parts or electrical elements of a customer close to the outside of the air outlet 6.

According to a conversion formula of wind speed and wind volume: L3600F V.

In the formula: f-tuyere Ventilation area (m)²)

V-measured tuyere mean wind speed (m/s)

The distance between the condensate water upper water baffle plate 1 and the condensate water lower water baffle plate 2 needs to be adjusted through repeated experiments according to the size of a specific evaporator 4, the size of an air port and the like, the distance between the two water baffle plates is too small, the wind resistance can be increased, the wind speed is influenced, the wind quantity cannot meet the requirement, and the corresponding effect cannot be achieved if the distance is too large.

The condensed water of the evaporator 4 can quickly and uniformly drop in the diversion trench 21 of the condenser underwater water baffle 2 by avoiding the access hole 7 through the condenser water upper water baffle 1.

The condensate water lower baffle plate 2 collects the condensate water dripped by the upper baffle plate, and the condensate water is dripped into the condensate water tray 5 along the left and right side surfaces of the condensate water lower baffle plate 2 after reaching a certain degree, so that the condensate water is prevented from falling down from the vertical air outlet 6 and blowing out of the air outlet 6 along with the condensate wind, and the corrosion of the air outlet 6 and the damage of parts of customers are caused. A certain distance is reserved between the condensate water lower water baffle 2 and the left and right metal plates, so that the condensate water can conveniently flow into the issued water tray 5. The distance between the condensate water lower water baffle 2 and the left and right metal plates is adjusted correspondingly according to the size of the actual air outlet 6.

While the present invention has been described in detail and with reference to the embodiments thereof as illustrated in the accompanying drawings, it will be apparent to one skilled in the art that various changes and modifications can be made therein. Therefore, certain details of the embodiments are not to be interpreted as limiting, and the scope of the utility model is to be determined by the appended claims.

Claims (5)

1. An optimized structure for collecting condensate water of an electrical cabinet air conditioner is characterized by comprising an electrical cabinet air conditioner body, a condensate water upper water baffle and a condensate water lower water baffle; the electrical cabinet air conditioner body comprises a cabinet body, an evaporator and a water tray; the evaporator, the condensate upper water baffle and the condensate lower water baffle are fixed in the cabinet body; the section of the condensed water upper water baffle is arc-shaped and is fixed at the bottom of the evaporator and extends to the lower part of the evaporator in a downward bending way; the top of the condensed water underwater water baffle is provided with a diversion trench, the diversion trench extends to two side surfaces of the condensed water underwater water baffle, the condensed water underwater water baffle is fixed below the condensed water upper water baffle, and the diversion trench corresponds to the bottom edge of the condensed water upper water baffle; at least one side surface of the underwater condensate water baffle is positioned right above the water tray.

2. The optimized structure for air conditioner condensate water collection of an electrical cabinet according to claim 1, wherein the front panel of the cabinet forms an air outlet, and the back panel of the cabinet forms an access opening; the condensed water upper water baffle and the condensed water lower water baffle are fixed on the inner side of the back plate of the cabinet body; the condensate water upper water baffle plate sequentially extends and bends towards the front panel and the lower direction.

3. The electrical cabinet air conditioner condensate water collection optimization structure of claim 2, wherein the bottom surface of the diversion trench is inclined towards a side surface of the condensate water underwater water baffle above the water tray.

4. The electrical cabinet air conditioner condensate water collection optimization structure as claimed in claim 2, wherein both side surfaces of the underwater condensate water baffle are located above the water tray, and the bottom surface of the diversion trench forms two inclined surfaces inclined to both side surfaces of the underwater condensate water baffle.

5. The electrical cabinet air conditioner condensate water collection optimization structure according to claim 3 or 4, wherein a gap is formed between two side faces of the condensate underwater water baffle and two side faces of the cabinet body.

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