CN220959072U - Embedded refrigerating device - Google Patents

Abstract

The utility model provides an embedded refrigerating device, which comprises a cabinet and a refrigerating device, wherein the cabinet is limited with an accommodating space, the refrigerating device is internally arranged in the accommodating space, the refrigerating device comprises a press bin arranged at the lower part of the cabinet, the press bin comprises an internal space and a bottom plate arranged below the internal space, the accommodating space also comprises a first air channel and a second air channel which are respectively arranged below the bottom plate and are vertically separated, the bottom plate is provided with a first air opening and a second air opening, one of the first air opening and the second air opening is arranged at the front part of the bottom plate, the other one of the first air opening and the second air opening is arranged at the rear part of the bottom plate, the first air opening is communicated with the first air channel and the internal space, and the second air opening is communicated with the second air channel and the internal space. Compared with the prior art, the air inlet and the air outlet from the bottom of the refrigerating device can be realized through the first air channel and the second air channel which are vertically separated, and the flow path of the air is shortened, so that the efficient circulation of the air in the press bin can be realized, and the heat dissipation efficiency of the press bin is improved.

Description

Embedded refrigerating device

Technical Field

The utility model relates to the technical field of refrigeration equipment, in particular to an embedded refrigeration device.

Background

With the improvement of economic level and living standard of residents, refrigerating devices such as refrigerators and wine cabinets become necessary household appliances at home, in order to preserve fruits, vegetables, foods and beverages, the volumes of the refrigerating devices are larger and larger, the occupied space is larger and larger, however, the refrigerating devices are placed in restaurants, kitchens and other places and occupy larger space, so that the living space of users is not facilitated, and the cabinets are generally embedded in the cabinets to reasonably utilize the household space nowadays.

However, after the refrigerating device is embedded into the cabinet, heat generated by the compressor, the condenser and the like in the compressor bin of the refrigerating device is difficult to dissipate due to the influence of the cabinet, so that the heat is easily accumulated in the compressor bin to increase the temperature in the compressor bin, the working states and performances of the condenser and the compressor are further influenced, and the energy consumption of the refrigerating device is increased.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide an embedded refrigerating device so as to solve the problem that the existing refrigerating device is difficult to dissipate heat after being built in a cabinet.

In order to achieve one of the above objects, an embodiment of the present utility model provides an embedded refrigeration device, including a cabinet and a refrigeration device, the cabinet defining a receiving space, the refrigeration device being built in the receiving space, the refrigeration device including a press bin provided at a lower portion thereof, the press bin including a built-in space and a bottom plate provided below the built-in space, the receiving space further including a first air duct and a second air duct which are both provided below the bottom plate and are vertically separated, the bottom plate being provided with a first air port and a second air port, one of the first air port and the second air port being provided at a front portion of the bottom plate, the other one of the first air port and the second air port being provided at a rear portion of the bottom plate, the first air port being communicated with the first air duct and the built-in space, and the second air port being communicated with the second air duct and the built-in space.

As a further improvement of an embodiment of the present utility model, the cabinet includes a base, the base includes a support plate, a partition plate, and a baffle plate, the partition plate is located below the support plate and forms the first air channel therebetween, the baffle plate is connected to the support plate and the partition plate, a third air port is provided in the support plate, the third air port is communicated with the first air port and the first air channel, and the third air port is located in front of the baffle plate.

As a further improvement of an embodiment of the present utility model, the third air port is disposed at a position of the support plate corresponding to the first air port.

As a further improvement of an embodiment of the present utility model, the second air duct is located below the partition plate, a fourth air port is provided on the partition plate, a fifth air port is provided on the support plate, both the fourth air port and the fifth air port are located behind the baffle plate, and the fifth air port is communicated with the fourth air port and the second air port.

As a further improvement of an embodiment of the utility model, a fan and a condenser which are arranged in a front-back opposite way are arranged in the press bin, one of the fan and the condenser is arranged at the first air port, and the other of the fan and the condenser is arranged at the second air port.

As a further improvement of an embodiment of the present utility model, the first air channel is an air inlet channel, the second air channel is an air outlet channel, the condenser is located at the first air port, and the fan is located at the second air port.

As a further improvement of an embodiment of the present utility model, the first air duct is an air outlet duct, the second air duct is an air inlet duct, the fan is located at the first air port, and the condenser is located at the second air port.

As a further improvement of an embodiment of the present utility model, a compressor is further disposed in the press bin, the compressor and the condenser are arranged at a left-right interval, two first air openings are disposed, one of the first air openings is disposed close to the compressor, and the other first air opening is disposed close to the condenser.

As a further improvement of an embodiment of the present utility model, the embedded refrigeration device further comprises a wind shielding member located between the refrigeration device and the cabinet, the wind shielding member being located above the press bin.

As a further improvement of one embodiment of the utility model, the wind shielding member is a wind shielding strip transversely arranged above the press bin.

Compared with the prior art, the utility model has the following beneficial effects: according to the embedded refrigerating device, one of the first air channel and the second air channel which are vertically separated is used as the air inlet channel, and the other one is used as the air outlet channel, so that air inlet from the bottom of the refrigerating device and air outlet from the bottom of the refrigerating device can be realized, the flow path of air is shortened, the efficient circulation of air in the press bin can be realized, the heat dissipation efficiency of the press bin is improved, the service lives of the compressor and the condenser are prolonged, and the energy consumption of the refrigerating device is reduced.

Drawings

FIG. 1 is a front view of an embedded refrigeration device according to an embodiment of the present utility model;

Fig. 2 is a schematic perspective view of an embedded refrigeration device according to an embodiment of the utility model;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is an enlarged partial schematic view of FIG. 3;

Fig. 5 is a rear view of an embedded refrigerator of an embodiment of the present utility model, illustrating a state in which a rear wall of a cabinet is removed;

fig. 6 is an enlarged partial schematic view of fig. 5.

Detailed Description

The present utility model will be described in detail below with reference to the embodiments shown in the drawings.

In the various illustrations of the utility model, certain dimensions of structures or portions may be exaggerated relative to other structures or portions for convenience of illustration, and thus serve only to illustrate the basic structure of the inventive subject matter.

It will be understood that, although the terms first, second, etc. may be used herein to describe various elements or structures, these described elements should not be limited by these terms. These terms are only used to distinguish one such descriptive object from another.

Referring to fig. 1 to 3, an embedded cooling device 1000 according to an embodiment of the present utility model includes a cabinet 100 and a cooling device 200, wherein the cabinet 100 defines a receiving space, and the cooling device 200 is disposed in the receiving space, so that the cooling device 200 can be embedded in the cabinet 100 to look like a constituent part of a kitchen or living room, thereby realizing an integrated kitchen electric home decoration style.

The cabinet 100 includes a cabinet body 11 and a cabinet door 12, the cabinet body 11 defines the accommodation space, and the cabinet door 12 is assembled to the cabinet body 11 and can rotate with respect to the cabinet body 11 to open or close the accommodation space to operate the refrigerating apparatus 200 built therein.

The refrigerating apparatus 200 includes a case 21 having a refrigerating compartment for storing and refrigerating articles, and a door 22 assembled to the case 21 and rotatable with respect to the case 21 to open or close the refrigerating compartment. The refrigeration device 200 may be a refrigerator, a freezer, a wine cabinet, etc.

For convenience of description, in the present embodiment, the description will be given taking an example in which the cabinet 100 is horizontally placed on the ground, in a state in which the cabinet door 12 is closed, the direction from the cabinet door 12 toward the cabinet body 11 is defined as a front-to-back direction, and the direction of the cabinet 100 relative to the ground is defined as an up-to-down direction, with the user facing the cabinet door 12 from the front side, and both sides of the cabinet 100 are defined as left and right, respectively.

For ease of operation, the door 22 of the refrigeration unit 200 is generally positioned behind the cabinet door 12 and near one end of the cabinet door 12, such that the refrigeration unit 200 can be operated after the cabinet door 12 is opened, such as opening the door 22, accessing objects, closing the door 22, and the like.

Referring to fig. 3 to 4, the refrigerating apparatus 200 includes a press bin 23 provided at a lower portion thereof, the press bin 23 includes a built-in space and a bottom plate 24 provided below the built-in space, the accommodating space further includes a first air duct 13 and a second air duct 14 which are all provided below the bottom plate 24 and are vertically partitioned, the bottom plate 24 is provided with a first air port and a second air port, one of the first air port and the second air port is provided at a front portion of the bottom plate 24, the other one of the first air port and the second air port is provided at a rear portion of the bottom plate 24, the first air port is communicated with the first air duct 13 and the built-in space, and the second air port is communicated with the second air duct 14 and the built-in space.

In this way, one of the first air duct 13 and the second air duct 14 which are vertically separated is used as an air inlet duct, and the other one is used as an air outlet duct, so that air can be introduced from the bottom of the refrigerating device 200 and discharged from the bottom, the flow path of the air is shortened, the efficient circulation of air in the press bin 23 can be realized, the heat dissipation efficiency of the press bin 23 is improved, the service lives of the compressor 232 and the condenser 233 are prolonged, and the energy consumption of the refrigerating device 200 is reduced.

The cabinet 100 includes a base 15, the base 15 includes a support plate 151, a partition plate 152 and a baffle 153, the refrigerator 200 is disposed on the support plate 151 to increase a contact area between the refrigerator 200 and the base 15, and the support plate 151 provides a supporting force for the refrigerator 200 to stably stand on the support plate 151, thereby improving stability of the refrigerator 200 disposed on the base 15.

The partition plate 152 is located below the support plate 151, the first air channel 13 is formed between the partition plate 152 and the support plate 151, the baffle 153 is connected with the support plate 151 and the partition plate 152, the support plate 151 is provided with a third air opening 1511, the third air opening 1511 is communicated with the first air opening and the first air channel 13, and the third air opening 1511 is located in front of the baffle 153. In this way, the first air duct 13 and the second air duct 14 can be separated up and down, and the structure is simple and convenient, and the processing is convenient.

Preferably, the first tuyere is located at the front of the bottom plate 24. Therefore, the structure of the air duct can be simplified, the air path is shortened, and the heat dissipation efficiency is improved.

Preferably, the third air port 1511 is disposed at the position of the support plate 151 corresponding to the first air port, that is, the third air port 1511 is vertically opposite to the first air port, and the third air port 1511 is disposed below the second air port, so as to shorten the air path and improve the heat exchange efficiency.

Further, the second air duct 14 is located below the partition plate 152, the partition plate 152 is provided with a fourth air opening 1521, the supporting plate 151 is provided with a fifth air opening 1512, the fourth air opening 1521 and the fifth air opening 1512 are located behind the baffle 153, and the fifth air opening 1512 is communicated with the fourth air opening 1521 and the second air opening. In this way, a passage between the second air duct 14 and the built-in space of the press housing 23 can be formed.

In the present embodiment, the first air port is located at the front of the bottom plate 24, the second air port is located at the rear of the bottom plate 24, and correspondingly, the third air port 1511 is located at the front of the fourth air port 1521, and the third air port 1511 is located at the front of the fifth air port 1512, so that the mixed flow of cold and hot air caused by the stagger between the first air duct 13 and the second air duct 14 can be avoided.

Referring to fig. 4 to 6, a fan 231, a compressor 232 and a condenser 233 are provided in the compressor compartment 23, the compressor 232 compresses a refrigerant into a high-temperature and high-pressure gas, and then flows into the condenser 233 to dissipate heat, the refrigerant is converted into a normal-temperature and high-pressure liquid, and further converted into a low-temperature and low-pressure gas when flowing through a capillary tube, thereby performing heat exchange with a storage compartment of the refrigerating device 200 to refrigerate the storage compartment, and then the high-temperature refrigerant flows back to the compressor 232.

In this embodiment, the condenser 233 is a micro-channel condenser to increase the capacity of the refrigeration device 200, and the fan 231 is disposed opposite to the condenser 233. The fan 231 and the condenser 233 may be integrally formed, or may be separately arranged at intervals.

One of the blower 231 and the condenser 233 is disposed at the first tuyere, and the other of the blower 231 and the condenser 233 is disposed at the second tuyere. This facilitates cold air in the external environment to pass through the built-in space of the press bin 23 in the front-rear direction, thereby flowing through the condenser 233 and the blower 231 to radiate heat.

In the present embodiment, the condenser 233 is located in front of the blower 231, that is, the condenser 233 is located at a side of the blower 231 facing the first tuyere, that is, the condenser 233 is located at the first tuyere, and the blower 231 is located at a side of the condenser 233 facing the second tuyere, that is, the blower 231 is located at the second tuyere. Thus, the first air duct 13 is an air inlet duct, the first air opening is an air inlet, the second air duct 14 is an air outlet duct, and the second air opening is an air outlet.

In other embodiments, the positions of the condenser 233 and the fan 231 may be interchanged, that is, the condenser 233 is located at the rear of the fan 231, the fan 231 is located at the first air opening, and the condenser 233 is located at the second air opening, so that the first air opening 13 is an air outlet, the first air opening is an air outlet, the second air opening 14 is an air inlet, and the second air opening is an air inlet.

Further, the compressors 232 and the condensers 233 are arranged at left and right intervals, preferably, the air outlets of the fans 231 face the compressors 232, which is beneficial to improving the heat dissipation efficiency of the compressors 232. In other embodiments, the air outlet of the fan 231 may be disposed downward, so as to accelerate the air outlet and improve the heat dissipation efficiency of the condenser 233.

Preferably, two first tuyeres are provided, one of which is provided close to the compressor 232 and the other of which is provided close to the condenser 233. Specifically, the two first air openings are distributed at left and right intervals in the front portion of the bottom plate 24, so that the air fed into the press bin 23 from the first air opening 13 is divided into two paths, and flows into the press bin 23 from a pair of first air openings, and because the compressors 232 and the condensers 233 are arranged at left and right intervals, the air flowing into the press bin 23 from one of the first air openings flows through the compressors 232, and the air flowing into the press bin 23 from the other first air opening flows through the condensers 233, under the action of the fan 231, the air in the first air opening 13 is facilitated to reach the compressors 232 or the condensers 233 as soon as possible after passing through the first air opening, the path of the air is shortened, and the compressors 232 and the condensers 233 are pertinently cooled, so that the heat dissipation efficiency is improved.

Further, the press housing 23 further includes a front housing wall 234 located at the front side of the bottom plate 24, the lower end of the front housing wall 234 being abutted against the support plate 151, and the front end of the bottom plate 24 being connected to the front housing wall 234.

Preferably, the first tuyere is located at the junction of the bottom plate 24 and the front bin wall 234, so that the air can flow from the first tuyere into the press bin 23, and then flow from the front of the built-in space as much as possible, and further pass through the whole compressor 232 and the whole condenser 233, so as to improve the heat exchange efficiency in the press bin 23.

Further, the embedded refrigerator 1000 further includes a wind shielding member 16 between the refrigerator 200 and the cabinet 100, and the wind shielding member 16 is located above the press bin 23. The wind passing through the built-in space of the press bin 23 can be limited by the wind shielding piece 16 to flow upwards through the rear space of the refrigerating device 200, so that after heat exchange of the press bin 23, hot wind is blocked by the wind shielding piece 16 and flows downwards from the second wind gap to flow out to the second wind channel 14 and is sent out to the external environment through the second wind channel 14, and the bottom wind outlet of the refrigerating device 200 is realized, the wind path is shortened, and the heat dissipation efficiency is improved.

Specifically, the refrigeration unit 200 further includes a back plate 25, the back plate 25 being located above the press bin 23. The cabinet 11 includes a left side wall 112, a right side wall 113, and a rear wall 111 located behind the accommodating space, the left side wall 112 and the right side wall 113 are disposed left and right opposite to each other, and the rear wall 111 connects the left side wall 112 and the right side wall 113. The wind shielding member 16 may be disposed at one end of the back plate 25 near the press bin 23, and when the refrigerating apparatus 200 is disposed in the accommodating space, the wind shielding member 16 abuts against the rear wall 111, so as to prevent wind from flowing out upwards from the rear space of the refrigerating apparatus 200, which is not beneficial to heat dissipation. Of course, the wind shielding member 16 may be disposed above the press bin 23 and disposed above the rear wall 111, and when the refrigerating apparatus 200 is disposed in the accommodating space, the wind shielding member 16 abuts against the back plate 25 of the refrigerating apparatus 200, so as to prevent wind from flowing out upwards from the rear space of the refrigerating apparatus 200, which is not beneficial to heat dissipation.

Preferably, the wind shielding member 16 is a wind shielding strip transversely placed above the press bin 23, which can save costs while ensuring a wind shielding effect. More preferably, the left and right ends of the weather strip abut the left and right side walls 112 and 113.

Preferably, the wind shielding strip is a sponge strip, so that not only can wind be shielded, but also the effects of shock absorption and noise reduction can be achieved.

Further, the base 15 is further provided with a sixth air opening 154 and a seventh air opening 155, the sixth air opening 154 is located above the seventh air opening 155, the sixth air opening 154 is communicated with the first air duct 13 and the external environment, and the seventh air opening 155 is communicated with the second air duct 14 and the external environment.

Compared with the prior art, the embedded refrigerating device 1000 provided by the utility model has the beneficial effects that: according to the utility model, one of the first air duct 13 and the second air duct 14 which are vertically separated is used as the air inlet duct, and the other one is used as the air outlet duct, so that air inlet from the bottom of the refrigerating device 200 and air outlet from the bottom can be realized, the flow path of air is shortened, the efficient circulation of air in the press bin 23 can be realized, the heat dissipation efficiency of the press bin 23 is improved, the service lives of the compressor 232 and the condenser 233 are prolonged, and the energy consumption of the refrigerating device 200 is reduced.

It should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is for clarity only, and that the skilled artisan should recognize that the embodiments may be combined as appropriate to form other embodiments that will be understood by those skilled in the art.

The above list of detailed descriptions is only specific to practical embodiments of the present utility model, and they are not intended to limit the scope of the present utility model, and all equivalent embodiments or modifications that do not depart from the spirit of the present utility model should be included in the scope of the present utility model.

Claims (10)

1. The utility model provides an embedded refrigerating plant, includes cupboard and refrigerating plant, the cupboard is limited with accommodation space, refrigerating plant is built-in accommodation space, refrigerating plant is including locating the press storehouse of its lower part, press storehouse includes built-in space and locates the bottom plate of built-in space below, its characterized in that, accommodation space still includes all is located bottom plate below and upper and lower divided first wind channel and second wind channel, first wind gap and second wind gap have been seted up to the bottom plate, one of them is located in the front portion of bottom plate, wherein another is located the rear portion of bottom plate, first wind gap intercommunication first wind channel with built-in space, second wind gap intercommunication second wind channel with built-in space.

2. The embedded refrigeration unit of claim 1, wherein the cabinet comprises a base, the base comprises a support plate, a partition plate and a baffle plate, the partition plate is located below the support plate and forms the first air channel therebetween, the baffle plate is connected with the support plate and the partition plate, a third air port is formed in the support plate and is communicated with the first air port and the first air channel, and the third air port is located in front of the baffle plate.

3. The embedded refrigeration device according to claim 2, wherein the third air port is provided at a position of the support plate corresponding to the first air port.

4. The embedded refrigeration device according to claim 2, wherein the second air duct is located below the partition plate, a fourth air opening is formed in the partition plate, a fifth air opening is formed in the support plate, the fourth air opening and the fifth air opening are located behind the baffle, and the fifth air opening is communicated with the fourth air opening and the second air opening.

5. The embedded refrigeration device according to claim 1, wherein a fan and a condenser are arranged in the press bin in a front-back opposite mode, one of the fan and the condenser is arranged at the first air port, and the other of the fan and the condenser is arranged at the second air port.

6. The embedded refrigeration unit as recited in claim 5 wherein said first air duct is an air inlet duct and said second air duct is an air outlet duct, said condenser being located at said first air port and said blower being located at said second air port.

7. The embedded refrigeration unit as recited in claim 5 wherein said first air duct is an air outlet duct and said second air duct is an air inlet duct, said blower being located at said first air port and said condenser being located at said second air port.

8. The embedded refrigeration unit as recited in claim 5 wherein a compressor is further provided in said press compartment, said compressor being spaced laterally from said condenser, said first tuyere being provided in two, one of said first tuyeres being provided adjacent said compressor and the other of said first tuyeres being provided adjacent said condenser.

9. The embedded refrigeration unit of claim 1, further comprising a windshield positioned between the refrigeration unit and the cabinet, the windshield positioned above the press bin.

10. The embedded refrigeration unit as recited in claim 9 wherein said wind shield is a wind shield strip disposed transversely above said press bin.