JP2021096061A - Condensed water evaporation device and refrigerating device including the same - Google Patents

Abstract

To prevent condensed water from being discharged to a ground surface below a bottom part of a refrigerating device.SOLUTION: A condensed water evaporation device includes: a water box having a bottom part and side walls and provided with a storage space for receiving condensed water with the bottom part and the side walls to store the condensed water; a fan unit which is fixed to the water box and used to blow air onto the storage space of the water box; a heating device which is located at the bottom part of the water box and used to heat the condensed water stored in the water box; and a control device for controlling the fan unit and the heating device. Further, a refrigerating device including the condensed water evaporation device is provided.SELECTED DRAWING: Figure 1

Description

(Cross-reference of related applications)
This disclosure claims the priority of a Chinese patent application whose patent application number is 201911278384.2, which was filed with the China Bureau of Patents on December 12, 2019, and the entire contents thereof are incorporated herein by reference. ..

The present disclosure relates to refrigeration equipment as a whole, and more particularly to refrigeration equipment including a condensed water evaporator and a condensed water evaporator.

With the improvement of people's living standards and the progress of logistics technology, smart cabinets are appearing. Such a smart cabinet can be installed, for example, in a residential area, and can provide the client with a place to deposit the goods to be shipped and a place to deposit the goods to be received to the delivery person. Such smart cabinets play a good intermediate role between the delivery person and the client, and have high convenience, which is a new trend in the future.

With the further development of e-commerce, the range of goods suitable for online shopping has expanded, and people's demand for products that require cryopreservation, such as seafood, fresh dairy products, and vegetables, has increased more and more. In response to this situation, the demand for cold chains is increasing, and smart cabinets having a refrigerating function are appearing.

A smart cabinet having such a refrigerating function has a problem of discharging condensed water as in a normal refrigerating device (for example, a refrigerator, a freezer, etc.). In ordinary refrigeration equipment, the water box that receives and houses the condensed water is generally placed above the refrigeration assembly (eg, compressor). By forcibly heating using the heat released when the refrigeration assembly operates, the condensed water received by the water box can be evaporated and the condensed water can be discharged in a gaseous state.

However, the refrigeration assembly is typically positioned above the freezer compartment, positioned at the top of the smart cabinet, because the space underneath the smart cabinet is typically used as the freezer compartment space to allow the user to easily move items in and out. Is desirable. Therefore, the discharge method of discharging the condensed water by utilizing the residual heat of the refrigerating assembly as described above is not suitable for the smart cabinet having a refrigerating function.

A conventional smart cabinet with a refrigerating function usually discharges condensed water by a direct discharge method. That is, a discharge port is installed at the bottom of the cabinet, and the condensed water is collected at the discharge port along the condensed water duct and discharged directly to the ground below the bottom of the smart cabinet having a refrigerating function through the discharge port. Such a direct discharge method of condensed water has a great influence on the aesthetics of the environment around the smart cabinet.

At least one object of the present disclosure is to provide a condensed water evaporator used in refrigeration equipment. The refrigeration equipment can be used as a smart refrigeration cabinet. In the operating process of the refrigerating equipment, the condensed water evaporator can ensure that the condensed water is not discharged to the ground below the bottom of the refrigerating equipment.

At least one object of the present disclosure is to provide a condensed water evaporator that can be easily attached to refrigeration equipment.

At least one object of the present disclosure is to provide a refrigerating apparatus including the condensed water evaporator. The refrigeration equipment can be used as a smart refrigeration cabinet.

The present disclosure provides a condensed water evaporator. The condensed water evaporator is
A water box having a bottom portion and a plurality of side walls, and the bottom portion and the plurality of side walls forming a storage space for receiving and storing condensed water.
A fan unit fixed to the water box and for blowing air toward the accommodation space of the water box,
A heating device located at the bottom of the water box and for heating the condensed water contained in the water box.
A control device for controlling the fan unit and the heating device is provided.

In at least one embodiment, the condensed water evaporator further comprises an operating chamber in which the fan unit and the control device are housed and fixed to the outside of one of the plurality of sidewalls of the water box. ..

In at least one embodiment, the operating chamber has at least one opening on the side facing the water box, and the fan unit blows air into the accommodation space through the at least one opening.

In at least one embodiment, the condensed water evaporator is further controlled by the control device and further includes a liquid level sensor for detecting the liquid level height of the condensed water in the water box.

In at least one embodiment, of the plurality of side walls of the water box, two facing side walls each have a first connection that can be fitted with a second connection on the bottom surface of the refrigerating equipment.

In at least one embodiment, the first connector is slidably fitted to the second connector and the condensed water evaporator is slidably connected to the refrigeration equipment.

In at least one embodiment, the first connector and the second connector are connected to the refrigeration equipment when the condensed water evaporator is fitted to the first connector and the second connector. The passage is surrounded by the water box, the first connector, the second connector, and the bottom surface of the refrigerating device, and the air blown from the fan unit enters the passage from one end of the passage, and other than the passage. It is provided so as to be separated from the passage through the end.

In at least one embodiment, the first connector has a sheet-like structure extending over the two facing side walls.

In at least one embodiment, the passage is surrounded by the water box and the bottom surface of the refrigeration equipment, and the air blown from the fan unit enters the passage from one end of the passage and enters the passage through the other end of the passage. Stay away from.

In at least one embodiment, the fan unit is arranged at an angle so that the angle between the direction in which the air outlet of the fan unit blows air and the liquid level of the condensed water in the water box is 30 to 90 °. ..

In at least one embodiment, the water box further comprises an inner box and an outer box fitted to each other, and the heating device is located between the bottom surface of the inner box and the bottom surface of the outer box.

In at least one embodiment, at least one of the plurality of side walls of the water box has a condensed water direct discharge port.

In at least one embodiment, the condensed water evaporator is further provided with an airflow disturbing device located above the accommodation space of the water box to disturb the airflow blown from the fan unit.

In at least one embodiment, the airflow disturber is
With the block body
A plurality of through holes penetrating the block body are provided.

In at least one embodiment, the fan unit is for blowing out water vapor from the evaporation of condensed water contained in the water box from the water box.

The present disclosure further provides a refrigerating apparatus in which the condensed water evaporator described in the above embodiment is mounted on the bottom surface.

In at least one embodiment, of the plurality of side walls of the water box, two side walls facing each other have a first connector, a second connector is provided on the bottom surface of the refrigerating device, and the first connector is provided. Can be fitted with the second connector on the bottom surface of the refrigeration equipment.

In at least one embodiment, the first connector is slidably fitted to the second connector and the condensed water evaporator is slidably connected to the refrigeration equipment.

In at least one embodiment, the second connector has a bent sheet-like structure.

In at least one embodiment, an airflow disturbing device attached to the bottom surface of the refrigeration equipment is further provided.

In the condensed water evaporator according to the embodiment of the present disclosure, the condensed water is ensured not to be discharged to the ground below the bottom of the refrigerating equipment, and the configuration is simple and easy to install.

Hereinafter, the above-mentioned characteristics, technical features, advantages, and implementation methods of the present disclosure will be further described by explaining preferred embodiments in an easy-to-understand manner with reference to the drawings. The drawings below are intended to schematically illustrate the disclosure and are not intended to limit the scope of the disclosure.

FIG. 1 is a perspective view showing a refrigerating device including a condensed water evaporator according to an embodiment of the present disclosure, in which the condensed water evaporator is attached to the bottom of the refrigerating device. FIG. 2 is a perspective view showing a refrigerating device including a condensed water evaporator according to an embodiment of the present disclosure, and is a diagram in which the condensed water evaporator is not attached to the bottom of the refrigerating device. FIG. 3 is a schematic enlarged view of the bottom portion of the refrigerating equipment shown in FIG. FIG. 4 is a schematic enlarged view of the bottom portion of the refrigerating equipment shown in FIG. (A) is a top view showing a condensed water evaporator according to an embodiment of the present disclosure, (b) is a front view thereof, (c) is a sectional view taken along line BB in (a), and (d). ) Is a sectional view taken along line AA in (a). FIG. 6 is a cross-sectional view showing a condensed water evaporator according to an embodiment of the present disclosure, in which the condensed water evaporator is attached below the bottom of the refrigerating apparatus. FIG. 7 is a diagram showing an air flow path during operation of the condensed water evaporator shown in FIG. FIG. 8 is a rear view of the bottom of the refrigerating apparatus according to the embodiment of the present disclosure.

In order to more clearly understand the technical features, purposes and effects of the present disclosure, a mode for carrying out the invention in the present disclosure will be specifically described with reference to the drawings.

The present disclosure provides a condensed water evaporator. The condensed water evaporator includes a water box, a fan unit, and a heating device. The water box is for receiving and storing condensed water. The heating device is for heating the water box and evaporating the condensed water contained in the water box. The fan unit blows air into the water box to accelerate the flow of air above the liquid level of the condensed water, thereby further improving the evaporation rate of the condensed water. In the condensed water evaporator according to the present disclosure, it is possible to quickly evaporate the condensed water by the refrigerating device provided with the condensed water evaporator so that the condensed water is not discharged to the ground below the bottom of the refrigerating device.

1 and 2 show the configuration of the refrigerating apparatus provided with the condensed water evaporator according to the embodiment of the present disclosure. The refrigerating device 1 includes a housing 11 in which at least one freezing chamber 19 that provides a low temperature environment for the stored articles is partitioned, and a refrigerating assembly (not shown) for refrigerating the freezing chamber 19 inside. The refrigerating unit 20 is provided. The refrigeration unit 20 is located at the top of the refrigeration equipment and is positioned above the refrigeration chamber 19. As described above, in the refrigerating device 1, the lower space in which the user can easily put in and take out the article becomes the space for the freezing chamber 19, and the upper space which is inconvenient to use becomes the space for the refrigerating unit 20.

The refrigerating apparatus 1 according to an embodiment of the present disclosure further includes a condensed water evaporator 3. As shown in FIG. 1, the condensed water evaporator 3 has a box shape as a whole, and is slidably fixed to the lower surface of the bottom of the refrigerating device 1. The condensed water evaporator 3 can be "pushed" or "pulled out" like a drawer. FIG. 1 is a schematic view showing a refrigerating device 1 when the condensed water evaporator 3 is in the “pushed” state. FIG. 2 is a schematic view showing a refrigerating device 1 when the condensed water evaporator 3 is in the “drawer” state.

3 and 4 are schematic enlarged views showing the bottom portion of the refrigerating apparatus 1 shown in FIGS. 1 and 2, respectively. Hereinafter, the specific configuration of the condensed water evaporator will be described in detail with reference to FIGS. 5 to 8.

5 (a) and 5 (b) are a top view and a front view of the condensed water evaporator 3 according to the embodiment of the present disclosure, respectively. 5 (c) and 5 (d) are a sectional view taken along line BB and a sectional view taken along line AA of the condensed water evaporator 3 shown in FIG. 5 (a), respectively.

As shown in FIG. 5A, the condensed water evaporation device 3 includes a water box 31. The water box 31 has a bottom 314 and a plurality of side walls 313 (four side walls in the embodiment shown in FIG. 5A). The bottom portion 314 and the plurality of side walls 313 form a storage space. When the condensed water evaporator 3 is attached to the bottom surface of the refrigerating device 1, the water box 31 is arranged below the condensed water discharge port on the bottom surface of the refrigerating device 1, so that the condensed water discharged from the condensed water discharge port is concerned. Enter the storage space of the water box 31.

The condensed water evaporator 3 further includes an operation chamber 32. The operating chamber 32 has a casing 321 that surrounds the cavity. A fan unit 33 (the position of the fan unit 33 is shown by a dotted line in FIG. 5A because it is covered by the casing 321) is arranged inside the casing 321. The operation chamber 32 is fixed to the outside of one side wall 313 among the plurality of side wall 313s of the water box 31. As a result, the fan unit 33 housed in the operation chamber 32 is fixed to the water box 31. The operation chamber 32 has at least one opening 34 on the side facing the water box 31 (not shown in FIG. 5A, the position of the opening 34 corresponds to the position of the arrow in FIG. 5A). The position of the opening 34 is shown in FIG. 5 (d). The fan unit 33 blows air into the accommodation space of the water box 31 through the opening 34. The airflow path is shown by the arrow in FIG. 5 (a).

The condensed water evaporation device 3 further includes a heating device 35. In one embodiment of the present disclosure, the heating device 35 may be, for example, a heating resistance wire. As shown in FIGS. 5 (c) and 5 (d), the heating device 35 may be located at the bottom of the water box 31. In the embodiment shown in FIGS. 5 (c) and 5 (d), the water box 31 is composed of an inner box 311 and an outer box 312. The outer box 312 is fitted to the inner box 311 to form a double water box 31. The heating device 35 may be located between the bottom surface of the inner box 311 and the bottom surface of the outer box 312. It is preferable that the outer box 312 is made of a heat insulating material to prevent the heat generated by the heating device 35 from diffusing into the environment through the outer box 312.

The condensed water evaporation device 3 further includes a control device 36. The control device 36 is for controlling the fan unit 33 and the heating device 35. As shown in FIG. 5 (c), the control device 36 is housed in the operation chamber 32. The condensed water evaporator 3 may further have a liquid level sensor 37. The liquid level sensor 37 is connected to and controlled by the control device 36 to detect the liquid level height of the condensed water in the water box 31. The control device 36 may control the heating power of the heating device 35 and the power of the fan unit 33 based on the liquid level height detected by the liquid level sensor 37. For example, when the control device 36 determines that the liquid level of the condensed water inside the water box 31 is higher than a predetermined threshold value based on the detection result by the liquid level sensor 37, the heating device 35 and the fan unit 33 are set to increase the power. Control. Further, for example, when the control device 36 determines that the growth rate of the liquid level of the condensed water inside the water box 31 is faster than a predetermined threshold value based on the detection result by the liquid level sensor 37, the heating device 35 increases the power. And the fan unit 33 is controlled.

As shown in FIG. 5 (c), the condensed water direct discharge port 315 is provided on at least one side wall of the condensed water evaporator 3. The height h1 of the condensed water direct discharge port 315 with respect to the bottom of the water box 31 is lower than the height h2 of the opening 34 which is the outlet of the fan unit 33. By installing the condensed water direct discharge port 315, if the condensed water increases abnormally quickly, if the condensed water cannot be completely evaporated within a short time due to the evaporation action of the heating device 35 and the fan unit 33, the condensed water is directly discharged. Condensed water can be discharged to the outside of the water box 31 through the outlet 315. Since the height of the condensed water direct discharge port 315 with respect to the bottom of the water box 31 is lower than the height of the outlet of the fan unit 33, when the condensed water increases abnormally quickly, the condensed water passes through the opening 34 of the fan unit 33. It can be prevented from entering and damage to the fan unit due to condensed water can be avoided.

Hereinafter, the operation process of the condensed water evaporator according to the present disclosure will be described in detail with reference to FIGS. 6 to 8. FIG. 6 is a cross-sectional view showing a condensed water evaporator 3 according to an embodiment of the present disclosure. The condensed water evaporator is attached below the bottom of the refrigerating device 1, and the water box 31 is installed below the condensed water discharge port (not shown in FIG. 6) on the bottom surface of the refrigerating device 1. The condensed water discharged from the condensed water discharge port enters the storage space of the water box 31. The refrigerating device 1 can supply power to the heating device 35, the control device 36, and the fan unit 33.

As shown in FIGS. 6 and 7, an airflow disturbing device 40 is provided on the bottom surface of the refrigerating device 1 in order to further increase the utilization rate of the fluidized air by the fan unit. 6 and 7 are side views showing the airflow disturbing device 40, and FIG. 8 is a rear view showing the airflow disturbing device 40. The airflow disturbing device 40 includes a block main body 41 and a plurality of through holes 42 penetrating the block main body 41.

FIG. 7 shows an air flow path during operation of the condensed water evaporator shown in FIG. As shown by the arrow in FIG. 7, the air blown from the fan unit 33 is blown toward the accommodation space of the water box 31 through the opening 34 in the side wall of the water box 31. The air is first blown into the space between the bottom surface of the refrigerating apparatus 1 and the water box 31 through the opening 34, and is substantially parallel to the bottom of the water box 31 (that is, parallel to the condensed water liquid surface when condensed water is present). It spreads along the direction), enhances the air fluidity above the liquid level of the condensed water in the water box 31, and improves the evaporation rate of the condensed water. When the air flow further flows near the airflow disturbing device 40, a part of the airflow continues to flow and passes through the through hole 42 of the airflow disturbing device 40, while another part of the air is received by the airflow disturbing device 40. Form a "swirl" as shown by the arcuate arrow in 7. In such an air flow disturbing device 40, the air flow can be retained for a longer time above the liquid level of the condensed water, and the air flow can be used more effectively to improve the evaporation efficiency.

The airflow disturbing device 40 according to another embodiment of the present disclosure may be of another type. Further, the airflow disturbing device 40 is not limited to the one attached to the bottom surface of the refrigerating device 1. Any type of airflow disturbing device mounted at any position can be applied to the present disclosure as long as it disturbs the airflow blown out from the fan unit 33 above the liquid level of the condensed water. For example, the airflow disturber 40 may be attached to the side wall of the water box 31.

Further, as shown in FIGS. 5 (c) and 6 to 7, the fan unit 33 is arranged obliquely in order to improve the utilization efficiency of the air flow. As shown in FIG. 7, the angle between the direction z in which the air outlet of the fan unit 33 blows air and the liquid level of the condensed water in the water box 31 is 30 to 90 °. Compared to the fan unit 33 that is not arranged diagonally (that is, the angle between the direction z at which the outlet of the fan unit 33 blows air and the liquid level of the condensed water in the water box 31 is 0 °), such The obliquely arranged fan unit 33 can more easily form an "swirl" of air and improve the efficiency of air flow utilization.

In the operating process of the condensed water evaporator according to the present disclosure, the condensed water discharged from the condensed water discharge port on the bottom surface of the refrigerating device 1 is collected in the accommodation space of the water box 31. The heating device of the water box 31 of the condensed water evaporator is heated under the control of the control device 36 to evaporate the condensed water in the water box 31. At the same time, the fan unit 33 blows air toward the accommodation space of the water box 31 under the control of the control device 36 to accelerate the fluidity of the air above the liquid level of the condensed water and improve the evaporation rate of the condensed water. As a result, by using the condensed water evaporator according to the present disclosure, the condensed water is discharged in a gaseous state, so that the condensed water is not discharged to the ground below the bottom of the refrigerating equipment and has an influence on the environment around the refrigerating equipment. Can be avoided.

Further, the condensed water evaporator according to the embodiment of the present disclosure has an advantage that the configuration is simple and the installation is easy. As described above with reference to FIGS. 1 to 4, the condensed water evaporator 3 can be "pushed" into the refrigerating device 1 or "pulled out" from the refrigerating device 1 like a drawer. The condensed water evaporator 3 is connected to a corresponding rail connector on the bottom surface of the refrigeration equipment 1 via its rail connector. As a result, the condensed water evaporator has another advantage other than the advantage that it is easy to install, for example, limiting the air flow path and improving the utilization efficiency of the air flow. This point will be described in detail below with reference to FIG.

As shown in FIG. 4, each of the two facing side walls of the water box 31 has a first connector 91, and the bottom surface of the refrigerating device 1 has a second connector 92. The first connector 91 is slidably fitted with the second connector 92, and the condensed water evaporator 3 can be slidably connected to the refrigerating device 1. The first connector 91 has a sheet-like structure extending to the side wall. The second connector 92 has a bent sheet-like structure. When the condensed water evaporator 3 is connected to the refrigerating device 1 by fitting the first connecting tool 91 and the second connecting tool 92, the water box 31, the first connecting tool 91, the second connecting tool 92 and the refrigerating device 1 The passage P is surrounded by the bottom surface. The cross section of the passage P in the lateral direction is shown in FIGS. 6 and 7 (that is, the space through which the air flow indicated by the arrow in FIG. 7 flows). The start end of the passage P is located on the side wall of the water box 31 adjacent to the operation chamber 32, and the end of the passage P is located on the other side wall facing the side wall. The air blown from the fan unit 33 enters the passage P from the start end of the passage P and separates from the passage P through the end of the passage P.

The passage P surrounded by the water box 31, the first connector 91, the second connector 92, and the bottom surface of the refrigerating device 1 is basically sealed in the lateral direction perpendicular to the passage P, thus limiting the airflow path. This prevents the airflow from diffusing in all directions and improves the efficiency of airflow utilization.

In other embodiments according to the present disclosure, the first connector 91 and the second connector 92 may be of other types. The first connector 91 is preferably slidably fitted with the second connector 92. The structure of the first connector 91 and the second connector 92 is such that the passage P surrounded by the water box 31, the first connector 91, the second connector 92, and the bottom surface of the refrigerating device 1 is in the lateral direction with respect to the passage P. It is more preferable that the seal is basically sealed in the above.

In another embodiment of the present disclosure, the passage may be surrounded by the bottom surface of the water box 31 and the refrigerating device 1 regardless of the first connector 91 and the second connector 92. For example, in the water box 31, the two side walls perpendicular to the operation chamber 32 may have a higher height than the side walls facing the operation chamber 32. Further, the heights of these two side walls are provided so that when the water box 31 is attached to the refrigerating device 1, the two side walls and the bottom surface of the refrigerating device 1 are substantially in contact with each other. In this way, the passage is surrounded by these two side walls of the water box 31 and the bottom surface of the refrigerating device 1, and the passage is basically sealed in the lateral direction with respect to the passage.

Although this specification has been described according to each embodiment, it is understood that each embodiment does not include only one independent technical proposal, but such an explanatory method is merely for the purpose of clearly describing it. It should be. Those skilled in the art may consider the specification as a whole and appropriately combine the technical proposals in each embodiment to form other embodiments that can be understood by those skilled in the art.

The above content is merely a schematic form for carrying out the invention in the present disclosure, and is not intended to limit the scope of the present disclosure. Any so-called equal changes, amendments and combinations made by one of ordinary skill in the art to the extent that they do not deviate from the ideas and principles of this disclosure should belong to the scope of protection of this disclosure.

Claims (20)

A water box having a bottom portion and a plurality of side walls, and the bottom portion and the plurality of side walls forming a storage space for receiving and storing condensed water.
A fan unit fixed to the water box and for blowing air toward the accommodation space of the water box,
A heating device located at the bottom of the water box and for heating the condensed water contained in the water box.
A condensed water evaporator comprising the fan unit and a control device for controlling the heating device. The fan unit and the control device are housed therein, and an operation chamber fixed to the outside of one of the plurality of side walls of the water box is further provided.
The condensed water evaporator according to claim 1. The operating chamber has at least one opening on the side facing the water box.
The fan unit blows air into the accommodation space through the at least one opening.
The condensed water evaporator according to claim 2. A liquid level sensor controlled by the control device for detecting the liquid level height of the condensed water in the water box is further provided.
The condensed water evaporator according to any one of claims 1 to 3. Of the plurality of side walls of the water box, two facing side walls each have a first connector that can be fitted with a second connector on the bottom surface of the refrigeration equipment.
The condensed water evaporator according to any one of claims 1 to 4. The first connector is slidably fitted with the second connector, and the condensed water evaporator is slidably connected to the refrigerating device.
The condensed water evaporator according to claim 5. When the condensed water evaporator is connected to the refrigerating device by fitting the first connector and the second connector, the first connector and the second connector are connected to the water box and the first connector. The passage is surrounded by the connecting tool, the second connecting tool, and the bottom surface of the refrigerating device, and the air blown from the fan unit enters the passage from one end of the passage and enters the passage through the other end of the passage. Provided away from
The condensed water evaporator according to claim 5. The first connector has a sheet-like structure extending to the two facing side walls.
The condensed water evaporator according to claim 5. The passage is surrounded by the water box and the bottom of the refrigeration equipment.
The air blown from the fan unit enters the passage from one end of the passage and separates from the passage through the other end of the passage.
The condensed water evaporator according to any one of claims 1 to 4. The fan unit is arranged at an angle so that the angle between the direction in which the air outlet of the fan unit blows air and the liquid level of the condensed water in the water box is 30 to 90 °.
The condensed water evaporator according to any one of claims 1 to 4. The water box further has an inner box and an outer box fitted to each other.
The heating device is located between the bottom surface of the inner box and the bottom surface of the outer box.
The condensed water evaporator according to any one of claims 1 to 4. Of the plurality of side walls of the water box, at least one side wall has a condensed water direct discharge port.
The condensed water evaporator according to any one of claims 1 to 4. An airflow disturbing device for disturbing the airflow blown from the fan unit, which is located above the accommodation space of the water box, is further provided.
The condensed water evaporator according to any one of claims 1 to 4. The airflow disturbing device is
With the block body
A plurality of through holes penetrating the block body are provided.
The condensed water evaporator according to claim 13. The fan unit is for blowing out water vapor from the evaporation of condensed water contained in the water box from the water box.
The condensed water evaporator according to any one of claims 1 to 4. Refrigeration equipment
A refrigerating device comprising the condensed water evaporator according to any one of claims 1 to 15, wherein the condensed water evaporator is attached to the bottom surface of the refrigerating device. Of the plurality of side walls of the water box, the two facing side walls each have a first connector.
A second connector is provided on the bottom surface of the refrigeration equipment.
The first connector can be fitted with the second connector on the bottom surface of the refrigeration equipment.
The refrigeration equipment according to claim 16. The first connector is slidably fitted with the second connector, and the condensed water evaporator is slidably connected to the refrigerating device.
The refrigeration equipment according to claim 17. The second connector has a bent sheet-like structure.
The refrigeration equipment according to claim 17. Further provided with an airflow disturber attached to the bottom surface of the refrigeration equipment.
The refrigeration equipment according to claim 16.

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