CN214009670U - Back dewatering structure of high-rise snow cabinet - Google Patents

Abstract

The utility model belongs to the technical field of the freezer and specifically relates to a back dewatering structure of high snow cabinet is related to, it includes the cabinet body and sets up compressor unit on the cabinet body top, be provided with the refrigerant pipe of both ends connection on compressor unit on the compressor unit, be provided with the evaporimeter on the internal roof inner wall of cabinet, the evaporimeter bottom is connected with the aqueduct that is used for going out water, aqueduct water outlet end sets up on the cabinet body backplate, the vertical water catch bowl of having down seted up on the backplate, the aqueduct water outlet end sets up on the water catch bowl inner wall, refrigerant pipe partially lies in the water catch bowl. This application has in the use of high body snow cabinet, can need not with the help of drainage pipe alright with the effect with water treatment.

Description

Back dewatering structure of high-rise snow cabinet

Technical Field

The application relates to the field of refrigerated cabinets, in particular to a back water removing structure of a high-rise snow cabinet.

Background

Snow cabinet, be the refrigerator, another kind of the name of freezer, snow cabinet internally mounted has compressor unit, the evaporimeter, be connected with the refrigerant pipe on compressor unit, on a plurality of fins in the evaporimeter are worn to locate in the refrigerant pipe, in the evaporimeter use, the phenomenon of frosting can appear on the fin of evaporimeter inside, along with the thickening on frost layer, the heat transfer between air and the fin has been hindered, the heat exchange weakens, just need regularly change the frost to the inside fin of evaporimeter and handle this moment, avoid influencing the refrigeration effect of evaporimeter.

The bottom of the evaporator is provided with a refrigerant pipe, the defrosting effect can be achieved by utilizing the heat transfer between the refrigerant pipe and the fins, the bottom of the evaporator is provided with a water collecting tray, the water collecting tray is connected with a water guide pipe, and the snow cabinet is discharged from the other end of the water guide pipe.

Some high body snow cabinets, the play water end of aqueduct is worn out directly and is discharged with water from the backplate of high body snow cabinet, but high body snow cabinet is in the use, and the indoor drainage pipe that does not install of some specific occasion, high body snow cabinet drain pipe discharged water can't directly be followed indoor discharge this moment, can influence indoor environment, remain further to improve this condition.

SUMMERY OF THE UTILITY MODEL

In order in the use of high body snow cabinet, can need not with the help of drainage pipe alright with water treatment, this application provides a back dewatering structure of high body snow cabinet.

The application provides a back dewatering structure of high body snow cabinet adopts following technical scheme:

the back dewatering structure of the high-rise snow cabinet comprises a cabinet body and a compressor unit arranged on the top of the cabinet body, wherein a refrigerant pipe with two ends connected to the compressor unit is arranged on the compressor unit, an evaporator is arranged on the inner wall of a top plate of the cabinet body, a water guide pipe for discharging water is connected to the bottom of the evaporator, the water outlet end of the water guide pipe is arranged on a back plate of the cabinet body, a water collecting tank is vertically arranged on the back plate downwards, the water outlet end of the water guide pipe is arranged on the inner wall of the water collecting tank, and the refrigerant pipe is partially positioned in the water collecting tank.

By adopting the technical scheme, in the use process of the high-rise snow cabinet, the water guide pipe and the water collecting tank are arranged, the water guide pipe conveys water generated by defrosting of the evaporator into the water collecting tank, the water collecting tank is vertically arranged on the back plate and downwards, other parts do not need to be additionally arranged on the snow cabinet, the backflow part of the refrigerant pipe extends into the water collecting tank, and the water in the water collecting tank can be evaporated by utilizing the higher temperature of the backflow section of the refrigerant pipe, so that the aim of removing water can be fulfilled; through the process, when the high-body snow cabinet is used, the water generated in defrosting of the evaporator can be conveniently cleaned without the help of an indoor drainage pipeline on the premise, so that the indoor environment is prevented from being influenced.

Preferably, the refrigerant pipe is divided into a first section, a tail section and a middle extension section, one end of the first section is connected to the compressor unit, one end of the first section is connected to the middle extension section, one end of the tail section penetrates through the cabinet body and is connected to the compressor unit, the other end of the tail section is connected to the middle extension section, and the middle extension section is located in the water collecting tank.

Through adopting above-mentioned technical scheme, when the equipment high body snow cabinet, with refrigerant pipe both ends connection on compressor unit, the middle extension section is located the water catch bowl this moment, and middle extension plays and carries out the effect of evaporating the water in the water catch bowl.

Preferably, the number of the water outlet ends of the water guide pipes is two, and the middle extending section is located between the two water guide pipes.

Through adopting above-mentioned technical scheme, when gathering toward the water catch bowl in the middle of from two aqueduct outlet ends exhaust water, the middle extension section heats the evaporation with the water in the middle of the water catch bowl, through with middle extension section setting between two aqueducts, can slow down the time that the follow-up exhaust water of aqueduct and the water that is heating in the middle of the water catch bowl carry out the heat exchange to improve holistic evaporation drainage efficiency.

Preferably, the middle extension section comprises an evaporation section, a first connecting section and a second connecting section, wherein the evaporation section is located in the water collecting tank and used for evaporating water, the first connecting section is connected with the first section, the second connecting section is connected with the tail section, and the first connecting section and the second connecting section are vertically arranged side by side and are located between the water outlet ends of the water guide pipes.

Through adopting above-mentioned technical scheme, first linkage segment all has the part to be located the water catch bowl with the second linkage segment, evaporates the drainage in-process at the evaporation zone, and after the water logging in the water catch bowl submerges the evaporation zone, first linkage segment and second linkage segment can play the heating evaporation effect to the water in the water catch bowl equally.

Preferably, the evaporation section is in the shape of a kidney-shaped hole.

Through adopting above-mentioned technical scheme, set up the evaporation zone into waist shape poroid, in carrying out the evaporation process to the water in the water catch bowl, can increase the area of contact of evaporation zone and water catch bowl water-logging, can accelerate the rate of heating of evaporation zone to water in the water catch bowl to improve evaporation dewatering efficiency.

Preferably, the length of the evaporation section in the horizontal direction is greater than the distance between the first connecting section and the second connecting section.

Through adopting above-mentioned technical scheme, after submerging the evaporation zone with the water logging in the water catch bowl, through being greater than the distance between first linkage segment and the second linkage segment with the length of evaporation zone horizontal direction, can increase the horizontal area of contact with the water in the water catch bowl of evaporation zone to improve evaporation effect.

Preferably, the evaporation section is located in the water collecting tank and below the water outlet ends of the two water guide pipes.

By adopting the technical scheme, when the collected water in the water collecting tank reaches a certain amount, the evaporation section is arranged below the water outlet end of the water guide pipe, the evaporation section can be immersed in the water collecting tank more quickly, so that the maximum contact area between the evaporation section and the water in the water collecting tank is increased, and the overall evaporation efficiency is improved.

Preferably, the refrigerant pipe is a copper pipe.

Through adopting above-mentioned technical scheme, in carrying out the evaporation process through the water that the refrigerant pipe collected the water catch bowl, the refrigerant pipe adopts the copper pipe, and the heat conduction effect of copper pipe is good, ensures the evaporation effect to the water catch bowl water-logging.

In summary, the present application includes at least one of the following beneficial technical effects:

in the use process of the high-rise snow cabinet, the water guide pipe and the water collecting tank are arranged, the water guide pipe conveys water generated by defrosting of the evaporator into the water collecting tank, the water collecting tank is vertically arranged on the back plate downwards, other parts do not need to be additionally arranged on the snow cabinet, the backflow part of the refrigerant pipe extends into the water collecting tank, and the water in the water collecting tank can be evaporated by utilizing the higher temperature of the backflow section of the refrigerant pipe, so that the aim of removing water can be fulfilled; through the process, when the high-body snow cabinet is used, the water generated in defrosting of the evaporator can be conveniently cleaned without the help of an indoor drainage pipeline on the premise, so that the indoor environment is prevented from being influenced.

Drawings

Fig. 1 is a schematic view of the overall structure of the present application.

Fig. 2 is a partial schematic view of the water collection tank after hiding one side wall.

Description of reference numerals: 1. a cabinet body; 2. a compressor unit; 3. a water conduit; 4. a water collection tank; 5. a first stage; 6. a tail section; 7. a middle extension section; 8. an evaporation section; 9. a first connection section; 10. a second connection section.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

High-rise snow cabinet is very extensive in daily application, in order to further reduce the space occupation rate of high-rise snow cabinet, the embodiment of the application discloses a back dewatering structure of high-rise snow cabinet, refer to fig. 1 and fig. 2, including the cabinet body 1 and install compressor unit 2 on the cabinet body 1, compressor unit 2 installs at cabinet body 1 top, be connected with the refrigerant pipe of both ends connection on compressor unit 2, when the getting into cabinet body 1 of the refrigerant pipe on compressor unit 2 is inside, refrigerant pipe temperature is handed over at the bottom, after the internal process heat exchange of cabinet, the temperature of the return end of refrigerant pipe is high, install evaporimeter (not shown in the figure) on cabinet body 1 roof inner wall, be connected with aqueduct 3 that is used for the play water at the evaporimeter bottom, and aqueduct 3 installs two.

In order to achieve the purpose of saving space, the water outlet ends of the water guide pipes 3 are arranged on a back plate of the cabinet body 1, meanwhile, a water collecting tank 4 is vertically arranged on the back plate downwards, the water outlet ends of the two water guide pipes 3 are arranged on two sides of the inner wall of the water collecting tank 4, the water collecting tank 4 can collect water discharged by the water guide pipes 3, the backflow end part of each refrigerant pipe is positioned in the water collecting tank 4, heat exchange is carried out between the backflow section of each refrigerant pipe and the water in the water collecting tank 4, the water in the water collecting tank 4 can be heated and evaporated, and the purpose of draining can be achieved; in addition, the copper pipe is adopted as the refrigerant pipe, the copper pipe is fast in heating and good in heat conduction effect, and water in the water collecting tank 4 can be quickly heated and evaporated.

Referring to fig. 2, in this embodiment, the refrigerant pipe is divided into first section 5, last section 6 and middle extension 7, first section 5 is for keeping away from the backward flow section, and first section 5 one end is connected on compressor unit 2 and the other end is connected with middle extension 7, 6 one end of last section is worn to locate the cabinet body 1 and is connected on compressor unit 2, the 6 other end of tail section is connected with middle extension 7 simultaneously, middle extension 7 is located water catch bowl 4, and middle extension 7 is the extension of backward flow section, so middle extension 7's temperature is higher, middle extension 7 is located between two aqueducts 3 simultaneously, middle extension 7 plays the effect to water heating in the water catch bowl 4.

Referring to fig. 2, while the middle extension 7 includes an evaporation section 8, a first connection section 9, and a second connection section 10, the evaporation section 8 is located in the water collection tank 4 for evaporating water; one end of the first connecting section 9 is connected with the evaporation section 8; one end of the second connecting section 10 is connected with the evaporation section 8, and the other end of the second connecting section is communicated with one end of the tail section 6, which is far away from the compressor unit 2; the first connecting section 9 and the second connecting section 10 are vertically arranged side by side, and the first connecting section 9 and the second connecting section 10 are both located between the water outlet ends of the two water guide pipes 3.

With reference to fig. 2, in order to increase the contact area between the evaporation section 8 and the water in the water collection tank 4, in this embodiment, the evaporation section 8 is shaped as a waist-shaped hole, and the horizontal length of the evaporation section 8 is greater than the distance between the first connection section 9 and the second connection section 10, when the water level of the water collection tank 4 reaches the side of the evaporation section 8 close to the bottom of the water collection tank 4, the contact area between the water in the water collection tank 4 and the evaporation section 8 can be increased, so as to accelerate the heat exchange between the evaporation section 8 and the water in the water collection tank 4, thereby improving the efficiency of evaporation and drainage.

In addition, when the water level in the water collecting tank 4 is gradually increased, in order to accelerate the maximum contact area between the evaporation section 8 and the water in the water collecting tank 4 and make the contact area between the evaporation section 8 and the water quickly reach the maximum, the evaporation end is arranged below the water outlet ends of the two water guide pipes 3.

The implementation principle of the back dewatering structure of the high-rise snow cabinet is as follows: in the use process of the high-rise snow cabinet, the water guide pipe 3 and the water collecting tank 4 are arranged, the water guide pipe 3 conveys water generated by defrosting of the evaporator into the water collecting tank 4, the refrigerant pipe partially extends into the water collecting tank 4 through the arrangement, the water generated by defrosting of the evaporator is discharged into the water collecting tank 4 through the water guide pipe 3, the temperature of the evaporation section 8 is higher at the moment, the water in the water collecting tank 4 is contacted with the evaporation section 8 along with the gradual increase of the water level in the water collecting tank 4, the evaporation section 8 heats and evaporates the water in the water collecting tank 4 at the moment, the evaporation section 8 is immersed in the water collecting tank 4 after the electrification continuously heats the water, the water in the water collecting tank 4 can be evaporated, and the aim of removing the water can be achieved; through the process, when the high-body snow cabinet is used, the water generated in defrosting of the evaporator can be conveniently cleaned without the help of indoor drainage pipelines, the high-body snow cabinet can be used in some occasions without the drainage pipelines, and meanwhile, the indoor environment is prevented from being influenced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a high back dewatering structure of snow cabinet, includes the cabinet body (1) and sets up compressor unit (2) on the cabinet body (1) top, be provided with the refrigerant pipe of both ends connection on compressor unit (2), be provided with the evaporimeter on the cabinet body (1) roof inner wall, the evaporimeter bottom is connected with aqueduct (3) that are used for going out water, aqueduct (3) play water end sets up on the cabinet body (1) backplate, its characterized in that: the back plate is vertically provided with a water collecting tank (4) downwards, the water outlet end of the water guide pipe (3) is arranged on the inner wall of the water collecting tank (4), and the refrigerant pipe is partially positioned in the water collecting tank (4).

2. The back water removing structure of the high-rise snow locker as claimed in claim 1, wherein: refrigerant pipe divide into first section (5), tail section (6) and middle extension section (7), first section (5) one end is connected compressor unit (2) go up and one end with middle extension section (7) are connected, tail section (6) one end is worn to locate in the cabinet body (1) and is connected on compressor unit (2), tail section (6) other end with middle extension section (7) are connected, middle extension section (7) are located in water catch bowl (4).

3. The back water removing structure of the high-rise snow locker as claimed in claim 2, wherein: the water outlet ends of the water guide pipes (3) are arranged on the inner wall of the water collecting tank (4), and the middle extension section (7) is positioned between the two water guide pipes (3).

4. The back water removing structure of the high-rise snow locker as claimed in claim 2, wherein: middle extension (7) are including being located evaporation zone (8), the connection that is used for the evaporation water in water catch bowl (4) evaporation zone (8) with first linkage segment (9), the connection of first section (5) evaporation zone (8) with second linkage segment (10) of tail-end (6), first linkage segment (9) with second linkage segment (10) are vertical to be set up side by side and all are located two between aqueduct (3) the water outlet end.

5. The back water removing structure of the high-rise snow locker as claimed in claim 4, wherein: the evaporation section (8) is in a waist-shaped hole shape.

6. The back water removing structure of the high-rise snow locker as claimed in claim 4, wherein: the length of the evaporation section (8) in the horizontal direction is larger than the distance between the first connecting section (9) and the second connecting section (10).

7. The back water removing structure of the high-rise snow locker as claimed in claim 4, wherein: the evaporation section (8) is positioned in the water collecting tank (4) and below the water outlet ends of the two water guide pipes (3).

8. The back water removing structure of the high-rise snow locker as claimed in claim 1, wherein: the refrigerant pipe is a copper pipe.

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