CN216048573U

CN216048573U - Cold and warm ice three-in-one equipment

Info

Publication number: CN216048573U
Application number: CN202122197711.0U
Authority: CN
Inventors: 罗世东; 罗春德
Original assignee: Individual
Current assignee: Ruiyi Industrial Products Sichuan Co ltd
Priority date: 2021-09-10
Filing date: 2021-09-10
Publication date: 2022-03-15
Anticipated expiration: 2031-09-10

Abstract

The utility model provides a cold-warm-ice three-in-one device, which relates to the technical field of air conditioners and solves the problem of single function of the existing refrigerator, and comprises a box body, a compressor unit, a condenser, a first evaporator, a second evaporator, a storage box with a door, a first fan and a second fan; the condenser, the first evaporator and the storage box are arranged in the box body; the first fan is correspondingly arranged at the condenser, and the second fan is correspondingly arranged at the first evaporator; the second evaporator is arranged in the storage box; two mutually independent heat transfer pipes are arranged in the condenser; the exhaust end of the compressor unit is respectively connected with the air inlet ends of the two heat transfer pipes through pipelines, the liquid outlet ends of the two heat transfer pipes are respectively connected with the liquid inlet end of the first evaporator and the liquid inlet end of the second evaporator through pipelines, the air outlet end of the first evaporator is connected with the suction end of the compressor unit through a pipeline, and the air outlet end of the second evaporator is connected with the suction end of the compressor unit through a pipeline. The utility model can provide three functions of cold and hot air and a refrigerator.

Description

Cold and warm ice three-in-one equipment

Technical Field

The utility model relates to the technical field of air conditioners, in particular to a cold-warm ice three-in-one device.

Background

In travel and family life, the mobile refrigerator is carried to obtain necessary cold drinks and preserve food at any time and any place, but the existing mobile refrigerator cannot provide the function of outputting cold and hot air.

SUMMERY OF THE UTILITY MODEL

The utility model aims to design a cold and warm ice three-in-one device which can provide three functions of cold and hot air and a refrigerator.

The utility model is realized by the following technical scheme:

the cold and warm ice three-in-one equipment comprises a box body, a compressor unit, a condenser, a first evaporator, a second evaporator, a storage box with a door, a first fan and a second fan;

the condenser, the first evaporator and the storage box are arranged in the box body; the first fan is correspondingly arranged at the condenser, and the second fan is correspondingly arranged at the first evaporator; the second evaporator is arranged in the storage box;

two mutually independent heat transfer pipes are arranged in the condenser; the discharge end of compressor unit passes through the pipeline and connects two respectively the inlet end of heat-transfer pipe, two the play liquid end of heat-transfer pipe is respectively through the pipe connection the feed liquor end of first evaporimeter with the feed liquor end of second evaporimeter, the end of giving vent to anger of first evaporimeter passes through the pipe connection the suction end of compressor unit, the end of giving vent to anger of second evaporimeter passes through the pipe connection the suction end of compressor unit.

When the structure is arranged, the condenser, the first evaporator and the storage box are arranged in the box body, the second evaporator is arranged in the storage box, multifunctional equipment capable of generating hot air, cold air and cold air into a whole is formed, and the multifunctional equipment has three functions of cold air, hot air and a refrigerator. The two refrigerant circuits share one condenser with two heat transfer pipes, so that the possibility that the heat transfer pipes are switched on and off according to requirements to obtain corresponding functions can be provided, and the space for arranging components in the box body can be saved.

In order to further better implement the utility model, the following arrangement structure is particularly adopted: the compressor unit is a single compressor unit and comprises a first compressor, a discharge end of the first compressor is connected with a manifold, one branch of the manifold is connected with an air inlet end of one heat transfer pipe of the condenser, and the other branch of the manifold is connected with an air inlet end of the other heat transfer pipe of the condenser.

When the structure is adopted, one compressor can be respectively connected with the first evaporator and the second evaporator through the condenser through the manifold to form two refrigerant loops.

Further: the manifold is provided with an electric control valve for controlling the on-off of the branch.

When the structure is adopted, the working states of different refrigerant loops can be changed by controlling the on-off of the electric control valve, the refrigerant is controlled to be conveyed to the first evaporator or the second evaporator or both, and the starting and stopping of the refrigerator and the cold air function are realized.

In order to further better implement the utility model, the following arrangement structure is particularly adopted: the compressor set is set to be a double-compressor unit and comprises a first compressor and a second compressor, wherein the exhaust end of the first compressor is connected with the air inlet end of one heat transfer pipe of the condenser through a pipeline, the exhaust end of the second compressor is connected with the air inlet end of the other heat transfer pipe of the condenser through a pipeline, the air outlet end of the first evaporator is connected with the suction end of the first compressor through a pipeline, and the air outlet end of the second evaporator is connected with the suction end of the second compressor through a pipeline.

When the structure is arranged, the two compressors are respectively configured for the first evaporator and the second evaporator, cold air and the refrigerator function are not influenced when being started and stopped, the temperature of the refrigerator is enabled to be more stable, the two compressors share one condenser, the space in the refrigerator body can be saved, and the heat dissipation effect can be improved in the limited space.

In order to further better implement the utility model, the following arrangement structure is particularly adopted: at least two mutually independent areas are separated in the box body through a partition plate; the condenser and the first evaporator are respectively disposed in different regions.

Further: the condenser, the first evaporator and the storage box are respectively arranged in three areas separated by the partition plate.

When the structure is adopted, the devices with different functions are separated by the partition plates, and mutual influence can be avoided.

In order to further better implement the utility model, the following arrangement structure is particularly adopted: the bottom of the box body is connected with wheels.

When the structure is adopted, the wheels are arranged to enable the three-in-one equipment of the cold and warm ice to become the three-in-one trolley of the cold and warm ice, so that the three-in-one equipment of the cold and warm ice can be conveniently carried.

In order to further better implement the utility model, the following arrangement structure is particularly adopted: the storage box is internally provided with a horizontally-placed roller, the roller is connected with the storage box through a rotating shaft, and the rotating shaft extends to the outer side of the storage box.

When the structure is adopted, the roller can be used for containing bottled liquid, the convection heat transfer of the liquid in the bottle can be guided by rotating the roller, the liquid exchanges heat with the bottle body, the bottle body exchanges heat with cold air of the refrigerator, and the liquid cooling speed can be accelerated.

Further: the storage box is arranged into an upper rotating area and a lower standing area, and the roller is arranged in the rotating area.

When the structure is adopted, the containing cavity in the storage box is divided into an upper area and a lower area, bottled liquid can be placed in the upper rotating area, and the lower standing area can be used for placing other articles.

In order to further better implement the utility model, the following arrangement structure is particularly adopted: a support is arranged in the storage box, and the bottom of the roller is movably supported on the support.

In order to further better implement the utility model, the following arrangement structure is particularly adopted: the extending end of the rotating shaft is connected with a rotating handle.

In order to further better implement the utility model, the following arrangement structure is particularly adopted: the box is connected with an energy storage battery.

The utility model has the following advantages and beneficial effects:

according to the utility model, the condenser, the first evaporator and the storage box are arranged in the box body, and the second evaporator is arranged in the storage box, so that multifunctional equipment capable of generating hot air, cold air and cold air into a whole is formed, and the multifunctional equipment has three functions of cold air, hot air and a refrigerator. The two refrigerant circuits share one condenser with two heat transfer pipes, so that the possibility that the heat transfer pipes are switched on and off according to requirements to obtain corresponding functions can be provided, and the space for arranging components in the box body can be saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of one side appearance structure of a cooling-heating-ice three-in-one device;

FIG. 2 is a schematic view of the internal structure of the cooling, heating and freezing three-in-one device in FIG. 1;

FIG. 3 is a schematic diagram of the other side appearance structure of the cooling and heating ice three-in-one device;

FIG. 4 is a schematic view of the internal structure of the cooling, heating and freezing three-in-one device in FIG. 3;

FIG. 5 is a schematic view of the interior of the storage case;

FIG. 6 is a schematic diagram of a single compressor unit of the cooling and heating ice three-in-one device;

FIG. 7 is a schematic diagram of a double-compressor unit layout of a cooling-heating-ice three-in-one device;

labeled as:

1. a box body; 21. a first compressor; 22. a manifold; 23. a second compressor; 3. a condenser; 4. a first evaporator; 5. a second evaporator; 6. a storage box; 61. a drum; 62. a rotating shaft; 63. a support; 64. rotating the handle; 7. a first fan; 8. a second fan; 9. a partition plate; 10. and (4) wheels.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the utility model, and not restrictive of the full scope of the utility model. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

In the description of the present invention, it is to be noted that, unless otherwise specified, "a plurality" means two or more; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood as appropriate to those of ordinary skill in the art.

Example 1:

the three-in-one device for cooling, heating and freezing can provide three functions of cooling, heating and freezing, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7, and is particularly set to the following structure:

this kind of trinity equipment of changes in temperature ice is provided with cold wind module, hot-blast module and refrigerator module, can provide hot-blast and three kinds of functions of refrigerator, specifically includes box 1, compressor unit, condenser 3, first evaporimeter 4, second evaporimeter 5, take storage tank 6, first fan 7 and the second fan 8 of door. Compressor unit work can produce the heat, and the condenser 3 during operation can emit the heat, and compressor unit, the first fan 7 of condenser 3 are as hot-blast module, and first evaporimeter 4 and second fan 8 are as cold wind module, and storage tank 6 and second evaporimeter 5 are as the refrigerator module. The cold air module, the hot air module and the refrigerator module can be arranged side by side in sequence or the hot air module and the cold air module can be arranged up and down.

Compressor unit, condenser 3, first evaporimeter 4, second evaporimeter 5, take storage tank 6, first fan 7 and the second fan 8 of door to set up in box 1, and second evaporimeter 5 further sets up in storage tank 6, and first fan 7 corresponds and sets up in condenser 3 department, and second fan 8 corresponds and sets up in first evaporimeter 4 department. The box body 1 is provided with air holes for returning air and discharging air, and the air holes are used for providing required air channels for the cold air module and the hot air module.

Two heat transfer pipes independent of each other are inserted into the condenser 3. The exhaust end of the compressor unit is respectively connected with the air inlet ends of the two heat transfer pipes through pipelines, the liquid outlet ends of the two heat transfer pipes are respectively connected with the liquid inlet end of the first evaporator 4 and the liquid inlet end of the second evaporator 5 through pipelines, the air outlet end of the first evaporator 4 is connected with the suction end of the compressor unit through a pipeline, and the air outlet end of the second evaporator 5 is connected with the suction end of the compressor unit through a pipeline. A dryer and an expansion valve are installed on pipes from the condenser 3 to the first evaporator 4 and the second evaporator 5.

In this embodiment, the compressor unit can be divided into two setting modes, i.e., a single compressor unit and a double compressor unit.

When the compressor unit is a single compressor unit, the single compressor unit comprises a first compressor 21, the first compressor 21 adopts a 200W low-back-pressure compressor, the discharge end of the first compressor 21 is connected with a manifold 22, one branch of the manifold 22 is connected with the air inlet end of one heat transfer pipe of the condenser 3, the other branch of the manifold 22 is connected with the air inlet end of the other heat transfer pipe of the condenser 3, the liquid outlet ends of the two heat transfer pipes are respectively connected with the liquid inlet end of the first evaporator 4 and the liquid inlet end of the second evaporator 5 through pipelines, and the pipeline connected with the air outlet end of the first evaporator 4 is connected with the suction end of the first compressor 21 after confluence of the pipeline connected with the air outlet end of the second evaporator 5.

When the compressor set is set as a double-compressor unit, the double-compressor unit comprises a first compressor 21 and a second compressor 23, the exhaust end of the first compressor 21 is connected with the air inlet end of one heat transfer pipe of the condenser 3 through a pipeline, the exhaust end of the second compressor 23 is connected with the air inlet end of the other heat transfer pipe of the condenser 3 through a pipeline, the liquid outlet ends of the two heat transfer pipes are respectively connected with the liquid inlet end of the first evaporator 4 and the liquid inlet end of the second evaporator 5 through pipelines, the air outlet end of the first evaporator 4 is connected with the suction end of the first compressor 21 through a pipeline, and the air outlet end of the second evaporator 5 is connected with the suction end of the second compressor 23 through a pipeline.

In this kind of trinity equipment of changes in temperature ice, condenser 3, first evaporimeter 4, storage tank 6 set up in box 1, and second evaporimeter 5 sets up in storage tank 6, has formed and has produced hot-blast, cold wind and air conditioning in the multi-functional equipment of an organic whole, has three kinds of functions of cold-hot wind and refrigerator. The two refrigerant circuits share one condenser 3 with two heat transfer pipes, so that the possibility of obtaining corresponding functions by the heat transfer pipes with different on-off according to requirements can be provided, and the component arrangement space in the box body 1 can be saved.

When a single compressor unit is adopted, one compressor can be respectively connected with the first evaporator 4 and the second evaporator 5 through the manifold 22 and the condenser 3 to form two refrigerant loops, so that cold air, hot air and refrigerator functions can be provided, and the space in the box body 1 can be saved.

When the double-compressor unit is adopted, the two compressors are respectively provided with the independent refrigerant pipeline and the evaporator, but the two sets of refrigerant pipelines share one condenser, so that the space can be saved. The two compressors are respectively configured for the first evaporator 4 and the second evaporator 5, cold air and the refrigerator function are not influenced when being started and stopped, the temperature of the refrigerator is enabled to be more stable, the two compressors share one condenser 3, the space in the box body 1 can be saved, and the heat dissipation effect can be improved in the limited space.

Preferably, when a single compressor unit is adopted, an electric control valve is arranged on the manifold 22, the electric control valve can control the on-off of each branch of the manifold 22, the working states of different refrigerant loops can be changed by controlling the on-off of the electric control valve, the refrigerant is controlled to be delivered to the first evaporator 4 or the second evaporator 5 or both, and the start-stop of the refrigerator and the cold air function under the single compressor is realized.

Example 2:

the embodiment is further optimized on the basis of the above embodiment, and in order to further better implement the utility model, the following arrangement structure is particularly adopted:

two partition plates 9 are arranged in the box body 1, one partition plate 9 divides the box body 1 into a left independent area and a right independent area, the other partition plate 9 divides one area into an upper independent area and a lower independent area, and the condenser 3, the first evaporator 4 and the storage box 6 are respectively arranged in the three areas separated by the partition plates 9. The storage box 6 is located at one side of the condenser 3, and the first evaporator 4 is located above the condenser 3. The compressor unit and the condenser 3 are disposed in the same region.

In this embodiment, the partition board 9 provided in the box 1 separates devices with different functions from each other, and can avoid mutual influence.

Example 3:

the present embodiment is further optimized on the basis of the above embodiments, and in order to further implement the present invention, the following arrangement structure is particularly adopted:

the four corners of the bottom of the box body 1 are respectively connected with a wheel 10. The wheels 10 enable the three-in-one equipment of the cold and warm ice to be a three-in-one trolley of the cold and warm ice, and the trolley can be conveniently carried.

Example 4:

a roller 61 with an opening at one end is arranged in the storage box 6, and the roller 61 is in a horizontal posture and preferably inclines upwards for a certain angle to prevent the bottle body from sliding out from the opening. One end of the roller 61 is connected with a rotating shaft 62, the roller 61 is rotatably connected to the storage box 6 through the rotating shaft 62 sleeved with a bearing, and the extending end of the rotating shaft 62 penetrates out of the storage box 6 and penetrates out of the box body 1 to extend out of the box body 1.

For convenience of rotating the drum 61, a rotating handle 64 may be installed on the protruding end of the rotating shaft 62, and the rotating handle 64 is caught on the cabinet 1.

The roller 61 can be used for containing bottled liquid, and the liquid convection heat transfer in the bottle can be guided through rotating the roller 61, so that the liquid and the bottle body exchange heat, and the bottle body and the refrigerator cool air exchange heat can accelerate the liquid cooling speed.

Preferably, the storage compartment 6 is partitioned to increase the utilization rate of air, and the storage compartment 6 is provided with an upper rotating area and a lower standing area, and the roller 61 and its accessories are provided in the rotating area. Divide into two upper and lower districts with the appearance chamber in the storage tank 6, bottled liquid can be placed in rotatory region at last, and the region of stewing under can be used to place other article, can improve the space usage of storage tank 6 and rate.

Example 5:

a bracket 63 is horizontally and horizontally installed in a rotation area in the storage box 6, and the bottom of the drum 61 is movably supported on the bracket 63.

Example 6:

a battery box is arranged in the area where the hot air module is located in the box body 1, an energy storage battery is installed in the battery box and connected with the controller to supply power to the battery box, and the energy storage battery can be charged through the controller. Meanwhile, the three-in-one equipment for cooling and heating ice also has an independent power line for being connected with an external power supply.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention.

Claims

1. Three-in-one equipment of cold warm ice, its characterized in that: the air conditioner comprises a box body (1), a compressor unit, a condenser (3), a first evaporator (4), a second evaporator (5), a storage box (6) with a door, a first fan (7) and a second fan (8);

the condenser (3), the first evaporator (4) and the storage box (6) are arranged in the box body (1); the first fan (7) is correspondingly arranged at the condenser (3), and the second fan (8) is correspondingly arranged at the first evaporator (4); the second evaporator (5) is arranged in the storage box (6);

two mutually independent heat transfer pipes are arranged in the condenser (3); the discharge end of compressor unit passes through the pipeline and connects two respectively the inlet end of heat-transfer pipe, two the play liquid end of heat-transfer pipe is respectively through the pipe connection the feed liquor end of first evaporimeter (4) with the feed liquor end of second evaporimeter (5), the end of giving vent to anger of first evaporimeter (4) passes through the pipe connection the suction end of compressor unit, the end of giving vent to anger of second evaporimeter (5) passes through the pipe connection the suction end of compressor unit.

2. The three-in-one equipment for cold and warm ice as claimed in claim 1, which is characterized in that: the compressor unit is a single compressor unit and comprises a first compressor (21), a discharge end of the first compressor (21) is connected with a manifold (22), one branch of the manifold (22) is connected with one air inlet end of the heat transfer pipe of the condenser (3), and the other branch of the manifold (22) is connected with the other air inlet end of the heat transfer pipe of the condenser (3).

3. The three-in-one equipment for cold and warm ice as claimed in claim 1, which is characterized in that: the compressor set is arranged as a double-compressor unit and comprises a first compressor (21) and a second compressor (23), wherein the exhaust end of the first compressor (21) is connected with the air inlet end of one heat transfer pipe of the condenser (3) through a pipeline, the exhaust end of the second compressor (23) is connected with the air inlet end of the other heat transfer pipe of the condenser (3) through a pipeline, the air outlet end of the first evaporator (4) is connected with the suction end of the first compressor (21) through a pipeline, and the air outlet end of the second evaporator (5) is connected with the suction end of the second compressor (23) through a pipeline.

4. The three-in-one device for cooling, heating and freezing as claimed in claim 1, 2 or 3, wherein: at least two mutually independent areas are separated from the interior of the box body (1) through a partition plate (9); the condenser (3) and the first evaporator (4) are respectively arranged in different areas.

5. The three-in-one device for cooling, heating and freezing as claimed in claim 1, 2 or 3, wherein: the bottom of the box body (1) is connected with wheels (10).

6. The three-in-one device for cooling, heating and freezing as claimed in claim 1, 2 or 3, wherein: be provided with cylinder (61) of crouching and putting in storage tank (6), cylinder (61) through pivot (62) connect in storage tank (6), pivot (62) stretch out to the storage tank (6) outside.

7. The three-in-one equipment for cold and warm ice as claimed in claim 6, which is characterized in that: a support (63) is installed in the storage box (6), and the bottom of the roller (61) is movably supported on the support (63).

8. The three-in-one equipment for cold and warm ice as claimed in claim 6, which is characterized in that: the extending end of the rotating shaft (62) is connected with a rotating handle (64).

9. The three-in-one equipment for cold and warm ice as claimed in claim 1, which is characterized in that: the box body (1) is connected with an energy storage battery.