CN115388613A - Low-power consumption heating and cooling dual-purpose cabinet - Google Patents

Abstract

The invention provides a low-power consumption heating and cooling dual-purpose cabinet, which relates to the technical field of food storage cabinets and comprises the following components: the refrigerator comprises a cabinet body, a refrigerating part, a heating part and a control part; the cabinet body is placed on the ground, and the rear end face of the cabinet body is fixedly connected with two auxiliary blocks through bolts; the inside fixedly connected with of cabinet body separates the piece. The separation block is fixedly connected inside the cabinet body, the cabinet body is divided into two parts by the separation block, and the left side and the right side of the cabinet body are respectively a refrigeration area and a heating area, so that food can be placed in a distinguishing manner in the using process; the separation block is a concave block-shaped structure, and the separation block is filled with heat insulation cotton, so that the heat insulation effect of the separation block can be improved in the use process, the problem that common refrigeration equipment can only realize refrigeration of food and cannot heat the food is solved, and in addition, when the food is taken out from a low temperature and is heated independently, other heating equipment is needed to be matched for use, the process is complex, and the problem that the food quality is poor can be caused.

Description

Low-power consumption heating and cooling dual-purpose cabinet

Technical Field

The invention relates to the technical field of food storage cabinets, in particular to a low-power-consumption heating and cooling dual-purpose cabinet.

Background

When the food is stored, the food needs to be stored in a freezer.

However, in the conventional freezer, the conventional refrigeration equipment can only refrigerate food, but cannot heat the food, and when the food is taken out from a low temperature and heated alone, other heating equipment is needed to be used in cooperation, and the process is complicated, which may cause the quality of the food to be poor.

Disclosure of Invention

In view of this, the invention provides a low-power-consumption heating and cooling dual-purpose cabinet, which has a refrigerating portion and a heating portion, and the cabinet body can be divided into two placing areas by the arrangement of the refrigerating portion and the heating portion, so that the refrigeration and the heating of food can be respectively realized, and the convenience in use is improved.

The invention provides a low-power consumption heating and cooling dual-purpose cabinet, which specifically comprises: the refrigerator comprises a cabinet body, a refrigerating part, a heating part and a control part; the cabinet body is placed on the ground, and the rear end face of the cabinet body is fixedly connected with two auxiliary blocks through bolts; the inside of the cabinet body is fixedly connected with a separation block, the separation block divides the cabinet body into two parts from left to right, and the left side and the right side of the cabinet body are respectively a treatment area and a heating area; the refrigerating part consists of a heat exchanger A, a connecting pipe A, an air inlet pipe A, an air hole A, a fan, a refrigerating pipe and an exhaust pipe A, and the heat exchanger A is fixedly connected with the top end surface of an auxiliary block below the heat exchanger A; the heating part consists of a heat exchanger B, a connecting pipe B, an air inlet pipe B, an air hole B and an exhaust pipe B, and the heat exchanger B is fixedly connected to the top end face of the cabinet body; the control part comprises control box, microprocessor, temperature sensor and heater strip, and control box fixed connection is at cabinet body top face.

Optionally, the partition block is a concave block structure, and the partition block is filled with heat insulation cotton.

Optionally, a connecting pipe a and a connecting pipe B are respectively installed at the left side and the right side of the top of the cabinet body, an air inlet pipe a and an air inlet pipe B are respectively connected to the connecting pipe a and the connecting pipe B, and the air inlet pipe a and the air inlet pipe B are respectively located in the refrigeration region and the heating region of the cabinet body.

Optionally, the left side of the bottom of the cabinet body and the right side of the bottom of the cabinet body are respectively connected with an exhaust pipe a and an exhaust pipe B, and the exhaust pipe a and the exhaust pipe B are respectively located in a refrigeration area and a heating area of the cabinet body.

Optionally, the head end of the connecting pipe a is connected with an air inlet pipe a, and the outer wall of the air inlet pipe a is provided with air holes a in an annular array;

the head end of the connecting pipe B is connected with an air inlet pipe B, and the outer wall of the air inlet pipe B is provided with air holes B in an annular array shape.

Optionally, the heat exchanger a is connected with the connecting pipe a, a refrigerating pipe is installed in the refrigerating area on the left side of the cabinet body, and the refrigerating pipe is connected with the condenser.

Optionally, a fan is installed on the top end face of the refrigeration area on the left side of the cabinet body, and the fan is located above the refrigeration pipe and the air inlet pipe a.

Optionally, two sliding seats are fixedly connected to the front end face of the cabinet body, a cabinet door is connected to the two sliding seats in a sliding manner, and the cabinet door is of an L-shaped structure;

a contact switch is arranged on the right end face of the cabinet body and is electrically connected with the heat exchanger B;

the contact switch is aligned with the position of the cabinet door, and when the cabinet door is closed, the contact switch is in a contact state with the cabinet door, and the contact switch is switched on at the moment.

Optionally, a microprocessor is installed in the control box;

the temperature sensor is arranged in the connecting pipe B and is electrically connected with the microprocessor;

and a heating wire is arranged at the air outlet of the heat exchanger B and is electrically connected with the microprocessor.

Optionally, four placing seats are mounted in a linear array in the heating area on the right side of the cabinet body, and a placing plate is placed on each placing seat;

place the board top and personally submit the rectangle array form and seted up the through-hole, and place the board top and personally submit the rectangle array form welding and have a arch to arch and through-hole are crisscross form setting.

Advantageous effects

Through the arrangement of the cabinet door and the contact switch, two sliding seats are fixedly connected to the front end face of the cabinet body, the cabinet door is connected to the two sliding seats in a sliding mode, and the cabinet door is of an L-shaped structure; a contact switch is arranged on the right end face of the cabinet body and is electrically connected with the heat exchanger B; contact switch is adjusted well with the cabinet door position, and contact switch is the contact state with the cabinet door when the cabinet door is closed, and contact switch switches on this moment, and contact switch breaks off when opening the cabinet door in the use, has just also prevented that gas pocket B gas pocket department spun hot gas from hindering the people.

The heating can be automatically kept through the arrangement of the control part, and the heating method comprises the following specific steps: the control box is internally provided with a microprocessor; the temperature sensor is arranged in the connecting pipe B and is electrically connected with the microprocessor; the heater strip is installed to heat exchanger B exhaust port department, and the heater strip links to each other with microprocessor electrical property, and in the time the in-process temperature sensor gives microprocessor with signal transmission when the temperature is less than 40 degrees, and microprocessor control heater strip heats this moment, and temperature sensor gives microprocessor with signal transmission when the temperature is higher than 60 degrees, and microprocessor starts to work this moment to the heater strip stop work.

Through the arrangement of the through holes and the bulges, four placing seats are arranged in a linear array in the heating area on the right side of the cabinet body, and each placing seat is provided with one placing plate; place the board top and personally submit the rectangle array form and seted up the through-hole, and place the board top and personally submit the rectangle array form welding and have the arch to arch and through-hole are crisscross form setting, can prop up food through the arch in the use, can improve the air circulation nature of placing the board through the through-hole, can improve the ventilation effect of food bottom through the cooperation of arch and through-hole.

Through the arrangement of the separation blocks and the heat insulation cotton, the separation blocks are fixedly connected in the cabinet body, the cabinet body is divided into two parts by the separation blocks, the left side and the right side of the cabinet body are respectively a treatment area and a heating area, and food can be placed in a distinguishing manner in the using process; the separating block is of a concave block structure, and heat insulation cotton is filled in the separating block, so that the heat insulation effect of the separating block can be improved in the using process.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 is a schematic axial view of the present invention;

FIG. 2 is a schematic axial view of the invention in the other direction of FIG. 1;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is an enlarged schematic view of FIG. 3 at A;

FIG. 5 is an axial view of the present invention in a disassembled configuration;

FIG. 6 is an enlarged view of FIG. 5B of the present invention;

FIG. 7 is a schematic front view of the FIG. 5 embodiment of the present invention;

fig. 8 is a schematic diagram of the system structure of the present invention.

List of reference numerals

1. A cabinet body; 101. a sliding seat; 102. a cabinet door; 103. a separation block; 104. heat insulation cotton; 105. an auxiliary block; 106. a placing seat; 107. placing the plate; 108. a through hole; 109. a protrusion; 110. a contact switch; 2. a refrigerating section; 201. a heat exchanger A; 202. a connecting pipe A; 203. an air inlet pipe A; 204. air holes A; 205. a fan; 206. a refrigeration pipe; 207. an exhaust pipe A; 3. a heating section; 301. a heat exchanger B; 302. a connecting pipe B; 303. an air inlet pipe B; 304. air holes B; 305. an exhaust pipe B; 4. a control unit; 401. a control box; 402. a microprocessor; 403. a temperature sensor; 404. a heating wire.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference numerals in the drawings denote like elements.

Example (b): please refer to fig. 1 to 8:

the invention provides a low-power consumption heating and cooling dual-purpose cabinet, which comprises: the refrigerator comprises a cabinet body 1, a refrigerating part 2, a heating part 3 and a control part 4;

the cabinet body 1 is placed on the ground, and the rear end face of the cabinet body 1 is fixedly connected with two auxiliary blocks 105 through bolts;

the refrigerating part 2 consists of a heat exchanger A201, a connecting pipe A202, an air inlet pipe A203, an air hole A204, a fan 205, a refrigerating pipe 206 and an exhaust pipe A207, and the heat exchanger A201 is fixedly connected with the top end surface of an auxiliary block 105 below;

the heating part 3 is composed of a heat exchanger B301, a connecting pipe B302, an air inlet pipe B303, an air hole B304 and an air outlet pipe B305, and the heat exchanger B301 is fixedly connected to the top end face of the cabinet body 1;

the control part 4 is composed of a control box 401, a microprocessor 402, a temperature sensor 403 and a heating wire 404, and the control box 401 is fixedly connected to the top end surface of the cabinet 1.

In addition, according to the embodiment of the present invention, as shown in fig. 5, a separation block 103 is fixedly connected inside the cabinet body 1, the cabinet body 1 is divided into two parts by the separation block 103, and the left side and the right side of the cabinet body 1 are a treatment region and a heating region, respectively, so that food can be placed in a differentiated manner during use.

In addition, according to the embodiment of the invention, as shown in fig. 5, the partition block 103 is a concave block structure, and the partition block 103 is filled with the heat insulation cotton 104, so that the heat insulation effect of the partition block 103 can be improved in the using process.

In addition, according to the embodiment of the present invention, as shown in fig. 5, a connection pipe a202 and a connection pipe B302 are respectively installed at the left side of the top and the right side of the top of the cabinet 1, and an air inlet pipe a203 and an air inlet pipe B303 are respectively connected to the connection pipe a202 and the connection pipe B302, and the air inlet pipe a203 and the air inlet pipe B303 are respectively located in the cooling area and the heating area of the cabinet 1, so that the partitioned cooling and heating can be realized during the use process.

In addition, according to the embodiment of the present invention, as shown in fig. 5, an exhaust pipe a207 and an exhaust pipe B305 are respectively connected to the left side and the right side of the bottom of the cabinet 1, and the exhaust pipe a207 and the exhaust pipe B305 are respectively located in the cooling area and the heating area of the cabinet 1, so that air circulation in the cooling area and the heating area can be enhanced through the connection pipe a202, the connection pipe B302, the exhaust pipe a207 and the exhaust pipe B305 during use, and cooling and heating effects are also improved.

In addition, according to the embodiment of the present invention, as shown in fig. 7, the head end of the connecting pipe a202 is connected to an air inlet pipe a203, and the outer wall of the air inlet pipe a203 is provided with air holes a204 in an annular array;

the head end of the connecting pipe B302 is connected with an air inlet pipe B303, the outer wall of the air inlet pipe B303 is provided with air holes B304 in an annular array shape, so that the cooling and heating uniformity of food can be improved in the using process, and the energy consumption in unit time is reduced.

In addition, according to the embodiment of the present invention, as shown in fig. 5, the heat exchanger a201 is connected to the connection pipe a202, and the refrigeration pipe 206 is installed in the refrigeration area on the left side of the cabinet 1, and the refrigeration pipe 206 is connected to the condenser, so that the refrigeration effect can be improved during the use process.

In addition, according to the embodiment of the present invention, as shown in fig. 7, the fan 205 is installed on the top end surface of the cooling area on the left side of the cabinet 1, and the fan 205 is located above the cooling pipe 206 and the air inlet pipe a203, so that the cold air sprayed from the air inlet pipe a203 can be rapidly diffused by the fan 205 during the use process, and the cold air in the cooling pipe 206 can also be diffused.

Furthermore, according to the embodiment of the present invention, as shown in fig. 3 and 4, two sliding seats 101 are fixedly connected to the front end surface of the cabinet body 1, a cabinet door 102 is slidably connected to the two sliding seats 101, and the cabinet door 102 is in an L-shaped structure;

a contact switch 110 is installed on the right end face of the cabinet body 1, and the contact switch 110 is electrically connected with the heat exchanger B301;

the position of the contact switch 110 is aligned with the position of the cabinet door 102, and when the cabinet door 102 is closed, the contact switch 110 is in a contact state with the cabinet door 102, the contact switch 110 is switched on, when the cabinet door 102 is opened in the using process, the contact switch 110 is switched off, and the hot air ejected from the air holes B304 is prevented from hurting people.

Further, according to an embodiment of the present invention, as shown in fig. 5 and 8, a microprocessor 402 is installed in the control box 401;

the temperature sensor 403 is installed in the connection tube B302, and the temperature sensor 403 is electrically connected to the microprocessor 402;

the heating wire 404 is installed at the air outlet of the heat exchanger B301, the heating wire 404 is electrically connected with the microprocessor 402, the temperature sensor 403 transmits signals to the microprocessor 402 when the temperature is lower than 40 ℃ in the process, the microprocessor 402 controls the heating wire 404 to heat at the moment, the temperature sensor 403 transmits signals to the microprocessor 402 when the temperature is higher than 60 ℃, and the microprocessor 402 is started to stop working until the heating wire 404 stops working at the moment.

Furthermore, according to the embodiment of the present invention, as shown in fig. 5, four placing seats 106 are installed in a linear array in the heating area on the right side of the cabinet 1, and a placing plate 107 is placed on each placing seat 106;

place board 107 top and personally submit the rectangle array form and seted up through-hole 108, and place board 107 top and personally submit the rectangle array form welding and have arch 109 to arch 109 and through-hole 108 are the setting of crisscross form, can prop up food through arch 109 in the use, can improve the air circulation nature of placing board 107 through-hole 108, can improve the ventilation effect of food bottom through the cooperation of arch 109 and through-hole 108.

The specific use mode and function of the embodiment are as follows:

when in use, firstly, the food is placed on the placing plate 107, at this time, because the four placing seats 106 are installed in the heating area on the right side of the cabinet body 1 in a linear array manner, and each placing plate 107 is placed on each placing seat 106; the top end surface of the placing plate 107 is in a rectangular array shape and is provided with the through holes 108, the top end surface of the placing plate 107 is in a rectangular array shape and is welded with the bulges 109, the bulges 109 and the through holes 108 are arranged in a staggered manner, food can be supported through the bulges 109 in the using process, the air circulation of the placing plate 107 can be improved through the through holes 108, and the ventilation effect of the bottom of the food can be improved through the matching of the bulges 109 and the through holes 108;

then, when the cabinet door 102 is closed, the front end surface of the cabinet body 1 is fixedly connected with two sliding seats 101, the two sliding seats 101 are connected with the cabinet door 102 in a sliding manner, and the cabinet door 102 is of an L-shaped structure; a contact switch 110 is arranged on the right end face of the cabinet body 1, and the contact switch 110 is electrically connected with the heat exchanger B301; the contact switch 110 is aligned with the position of the cabinet door 102, and when the cabinet door 102 is closed, the contact switch 110 is in a contact state with the cabinet door 102, the contact switch 110 is switched on at the moment, and when the cabinet door 102 is opened in the use process, the contact switch 110 is switched off, so that the hot air sprayed from the air holes B304 is prevented from hurting people;

then, the heat exchanger A201, the heat exchanger B301, the refrigerating pipe 206 and the control part 4 are powered, and in the using process, a microprocessor 402 is installed in the control box 401; the temperature sensor 403 is installed in the connection tube B302, and the temperature sensor 403 is electrically connected to the microprocessor 402; a heating wire 404 is installed at an air outlet of the heat exchanger B301, the heating wire 404 is electrically connected with the microprocessor 402, a signal is transmitted to the microprocessor 402 by the temperature sensor 403 when the temperature is lower than 40 ℃ in the process, the microprocessor 402 controls the heating wire 404 to heat at the moment, a signal is transmitted to the microprocessor 402 by the temperature sensor 403 when the temperature is higher than 60 ℃, and the microprocessor 402 is started to stop working until the heating wire 404 stops working at the moment;

in the use process, because the top end surface of the refrigeration area at the left side of the cabinet body 1 is provided with the fan 205, and the fan 205 is positioned above the refrigeration pipe 206 and the air inlet pipe a203, the cold air sprayed out of the air inlet pipe a203 can be rapidly diffused by the fan 205 in the use process, and the cold air of the refrigeration pipe 206 can also be diffused; the inside of the cabinet body 1 is fixedly connected with the separation block 103, the cabinet body 1 is divided into two parts by the separation block 103 from left to right, and the left side and the right side of the cabinet body 1 are respectively a treatment area and a heating area, so that food can be placed in a distinguishing way in the using process; the separation block 103 is a concave block structure, and the separation block 103 is filled with heat insulation cotton 104, so that the heat insulation effect of the separation block 103 can be improved in the using process.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (10)

1. A low-power consumption heating and cooling dual-purpose cabinet is characterized by comprising: the refrigerator comprises a cabinet body (1), a refrigerating part (2), a heating part (3) and a control part (4); the cabinet body (1) is placed on the ground, and the rear end face of the cabinet body (1) is fixedly connected with two auxiliary blocks (105) through bolts; a separation block (103) is fixedly connected inside the cabinet body (1), the cabinet body (1) is divided into two parts by the separation block (103), and the left side and the right side of the cabinet body (1) are respectively a treatment area and a heating area; the refrigeration part (2) consists of a heat exchanger A (201), a connecting pipe A (202), an air inlet pipe A (203), an air hole A (204), a fan (205), a refrigeration pipe (206) and an exhaust pipe A (207), and the heat exchanger A (201) is fixedly connected with the top end surface of an auxiliary block (105) below; the heating part (3) consists of a heat exchanger B (301), a connecting pipe B (302), an air inlet pipe B (303), an air hole B (304) and an air outlet pipe B (305), and the heat exchanger B (301) is fixedly connected to the top end face of the cabinet body (1); the control part (4) consists of a control box (401), a microprocessor (402), a temperature sensor (403) and a heating wire (404), and the control box (401) is fixedly connected to the top end face of the cabinet body (1).

2. The low power consumption heating and cooling cabinet as claimed in claim 1, wherein: the separation block (103) is of a concave block structure, and the separation block (103) is filled with heat insulation cotton (104).

3. The low power consumption heating and cooling cabinet as claimed in claim 1, wherein: a connecting pipe A (202) and a connecting pipe B (302) are respectively installed at the left side and the right side of the top of the cabinet body (1), an air inlet pipe A (203) and an air inlet pipe B (303) are respectively connected to the connecting pipe A (202) and the connecting pipe B (302), and the air inlet pipe A (203) and the air inlet pipe B (303) are respectively located in a refrigerating area and a heating area of the cabinet body (1).

4. The low power consumption heating and cooling cabinet as claimed in claim 1, wherein: the refrigerator is characterized in that the left side of the bottom and the right side of the bottom of the cabinet body (1) are respectively connected with an exhaust pipe A (207) and an exhaust pipe B (305), and the exhaust pipe A (207) and the exhaust pipe B (305) are respectively located in a refrigerating area and a heating area of the cabinet body (1).

5. The low power consumption heating and cooling cabinet as claimed in claim 1, wherein: the head end of the connecting pipe A (202) is connected with an air inlet pipe A (203), and air holes A (204) are formed in the outer wall of the air inlet pipe A (203) in an annular array shape;

the head end of the connecting pipe B (302) is connected with an air inlet pipe B (303), and the outer wall of the air inlet pipe B (303) is provided with air holes B (304) in an annular array shape.

6. The low power consumption heating and cooling cabinet as claimed in claim 1, wherein: the heat exchanger A (201) is connected with the connecting pipe A (202), a refrigerating pipe (206) is installed in a refrigerating area on the left side of the cabinet body (1), and the refrigerating pipe (206) is connected with the condenser.

7. The low power consumption heating and cooling cabinet as claimed in claim 1, wherein: the cabinet body (1) left side refrigeration region's top end face installs fan (205), and fan (205) are located the top position of refrigeration pipe (206) and intake pipe A (203).

8. The low power consumption heating and cooling cabinet as claimed in claim 1, wherein: the front end face of the cabinet body (1) is fixedly connected with two sliding seats (101), the two sliding seats (101) are connected with a cabinet door (102) in a sliding mode, and the cabinet door (102) is of an L-shaped structure;

a contact switch (110) is installed on the right end face of the cabinet body (1), and the contact switch (110) is electrically connected with the heat exchanger B (301);

the contact switch (110) is aligned with the position of the cabinet door (102), and when the cabinet door (102) is closed, the contact switch (110) is in a contact state with the cabinet door (102), and at the moment, the contact switch (110) is switched on.

9. The low power consumption heating and cooling cabinet as claimed in claim 1, wherein: a microprocessor (402) is arranged in the control box (401);

the temperature sensor (403) is arranged in the connecting pipe B (302), and the temperature sensor (403) is electrically connected with the microprocessor (402);

a heating wire (404) is installed at an air outlet of the heat exchanger B (301), and the heating wire (404) is electrically connected with the microprocessor (402).

10. The low power consumption heating and cooling cabinet as claimed in claim 1, wherein: four placing seats (106) are arranged in a linear array in a heating area on the right side of the cabinet body (1), and a placing plate (107) is arranged on each placing seat (106);

the top end surface of the placing plate (107) is in a rectangular array shape, through holes (108) are formed in the top end surface of the placing plate (107), bulges (109) are welded in the rectangular array shape at the top end surface of the placing plate (107), and the bulges (109) and the through holes (108) are arranged in a staggered mode.

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