CN214307368U - Air conditioner pipeline device and air conditioner - Google Patents

Abstract

The present disclosure relates to an air conditioner pipeline device and an air conditioner, wherein the air conditioner pipeline device includes: the method comprises the following steps: the gaseous refrigerant connecting pipe (3) and the liquid refrigerant connecting pipe (4) are connected between the inner unit (1) and the outer unit (2) of the air conditioner; at least one of the gaseous refrigerant connecting pipe (3) and the liquid refrigerant connecting pipe (4) adopts a multilayer pipe, and the multilayer pipe comprises: at least two conductive tubes are sequentially coaxially sleeved along the radial direction of the multilayer tube and are connected with a power supply of the air conditioner so as to transmit power to the air conditioner, and a refrigerant flows in an inner area (311) of the conductive tube at the innermost layer; and a first insulating layer (32) configured to enable insulation of the at least two conductive tubes.

Description

Air conditioner pipeline device and air conditioner

Technical Field

The disclosure relates to the technical field of refrigeration equipment, in particular to an air conditioner pipeline device and an air conditioner.

Background

With the increasing of the living standard of people, the air conditioner is used as an electric appliance essential to the household life. The indoor unit and the outdoor unit of the existing air-conditioning product adopt a split structure, copper pipes are used for transmitting refrigerants, and wires are used for power supply and communication.

For the after-sale installation of the air conditioner, the connecting pipe and the connecting wire belong to different work types, the complexity of using tools and skills is increased, and the power supply connecting wire of the internal machine and the external machine is exposed outside for a long time, so that the risk of damage caused by rats and insects exists. Copper pipe and cable winding are in the same place, and inoxidizing coating such as sponge is increased to the skin, and the diameter is great, and the engineering installation is very inconvenient to the cable that uses also can cause huge waste.

SUMMERY OF THE UTILITY MODEL

The embodiment of the disclosure provides an air conditioner pipeline device and an air conditioner, which can reduce the installation difficulty of the air conditioner.

According to a first aspect of the present disclosure, there is provided an air conditioning duct assembly comprising: the gaseous refrigerant connecting pipe and the liquid refrigerant connecting pipe are connected between an inner machine and an outer machine of the air conditioner; at least one of the gaseous refrigerant connecting pipe and the liquid refrigerant connecting pipe adopts a multilayer pipe, and the multilayer pipe comprises:

the at least two conductive tubes are sequentially coaxially sleeved along the radial direction of the multilayer tube and are connected with a power supply of the air conditioner so as to transmit power to the air conditioner, and a refrigerant flows in the inner area of the conductive tube at the innermost layer; and

a first insulating layer configured to enable insulation of the at least two conductive tubes.

In some embodiments, the at least two conductive tubes comprise:

a first conductive tube having an inner region for a refrigerant to flow; and

the at least one second conductive tube is sleeved outside the first conductive tube;

the first conductive tubes and the second conductive tubes, the adjacent second conductive tubes and the outer surfaces of the outermost second conductive tubes are respectively provided with a first insulating layer, and the first conductive tubes and the at least one second conductive tube are connected with a power supply.

In some embodiments, the multilayer tube further comprises:

the protection tube is coaxially sleeved outside the at least two conductive tubes.

In some embodiments, the gaseous refrigerant connecting pipe has a diameter larger than that of the liquid refrigerant connecting pipe, and the gaseous refrigerant connecting pipe is a multilayer pipe.

In some embodiments, the voltage level of the outer conductive tubular connection is less than the voltage level of the inner conductive tubular connection.

In some embodiments, the air conditioner pipeline device further comprises an adapter, a first refrigerant pipe is arranged in the inner machine, a second refrigerant pipe is arranged in the outer machine, and two ends of the multilayer pipe are respectively communicated with the first refrigerant pipe and the second refrigerant pipe through the adapter;

the adapter comprises a main body part, an electric connection structure and a wiring terminal, wherein the electric connection structure is arranged in the main body part, the electric connection structure is the same as the layer structure of the multilayer tube and is in butt joint with the multilayer tube, and the wiring terminal is led out from the electric connection structure and is connected with a power supply.

In some embodiments, the power supply is a low voltage power supply.

In some embodiments, the voltage range of the low voltage power supply is (0V, 50V).

In some embodiments, the power supply is a dc power supply having a first pole and a second pole, the at least two conductive tubes comprising:

a first conductive tube, the inner region of which is used for the flow of refrigerant, and the first conductive tube is connected with one of the first pole and the second pole; and

and the second conductive tube is sleeved outside the first conductive tube and is connected with the other one of the first pole and the second pole.

According to a second aspect of the present disclosure, there is provided an air conditioner including the air conditioner pipe device of the above embodiment.

In the air conditioner pipeline device of the embodiment of the disclosure, at least one of the gaseous refrigerant connecting pipe and the liquid refrigerant connecting pipe is a multilayer pipe, the multilayer pipe comprises at least two conductive pipes coaxially sleeved, the refrigerant flows in the inner area of the innermost conductive pipe, and the conductive pipes are connected with a power supply of an air conditioner so as to transmit power to the air conditioner. Therefore, the multiplexing of refrigerant transmission and power transmission is realized through the same pipe, the connecting structure of the inner machine and the outer machine can be simplified, the cost is saved, the complexity of air conditioner pipeline installation is reduced, and the safety of the air conditioner pipeline installation is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the disclosure and together with the description serve to explain the disclosure and not to limit the disclosure. In the drawings:

FIG. 1 is a schematic diagram of some embodiments of an air conditioner of the present disclosure;

FIG. 2 is a cross-sectional view of some embodiments of a multi-layer tube in an air conditioning ducting arrangement of the present disclosure;

figure 3 is a cross-sectional view of some embodiments of an adapter in an air conditioning ducting arrangement of the present disclosure.

Description of the reference numerals

1. An internal machine; 2. an outdoor unit; 3. a gaseous refrigerant connecting pipe; 4. a liquid refrigerant connecting pipe; 5. an adapter;

11. a first refrigerant pipe;

21. a second refrigerant pipe;

31. a first conductive tube; 311. an interior region; 32. a first insulating layer; 33. a second conductive tube; 34. protecting the tube;

50. a main body portion; 51. a first conductive ring; 52. a second insulating layer; 53. a second conductive ring; 54. a guard ring; 55. and a terminal.

Detailed Description

The present disclosure is described in detail below. In the following paragraphs, different aspects of the embodiments are defined in more detail. Aspects so defined may be combined with any other aspect or aspects unless clearly indicated to the contrary. In particular, any feature considered to be preferred or advantageous may be combined with one or more other features considered to be preferred or advantageous.

The terms "first", "second", and the like in the present disclosure are merely for convenience of description to distinguish different constituent elements having the same name, and do not denote a sequential or primary-secondary relationship.

In addition, when an element is referred to as being "on" another element, it can be directly on the other element or be indirectly on the other element with one or more intervening elements interposed therebetween. In addition, when an element is referred to as being "connected to" another element, it may be directly connected to the other element or may be indirectly connected to the other element with one or more intervening elements interposed therebetween. Hereinafter, like reference numerals denote like elements.

The description of the relative orientations and positional relationships of the indications "upper," "lower," "top," "bottom," "front," "back," "inner" and "outer" and the like are used in this disclosure for convenience in describing the disclosure, and do not indicate or imply that the indicated devices must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the disclosure.

As shown in fig. 1-3, the present disclosure provides an air conditioning duct assembly, in some embodiments, comprising: and the gaseous refrigerant connecting pipe 3 and the liquid refrigerant connecting pipe 4 are connected between the inner unit 1 and the outer unit 2 of the air conditioner. Specifically, a first refrigerant pipe 11 is disposed in the inner unit 1, a second refrigerant pipe 21 is disposed in the outer unit 2, two ends of the gaseous refrigerant connecting pipe 3 are respectively communicated with respective first ends of the first refrigerant pipe 11 and the second refrigerant pipe 21, and two ends of the liquid refrigerant connecting pipe 4 are respectively communicated with respective second ends of the first refrigerant pipe 11 and the second refrigerant pipe 21. Therefore, the first refrigerant pipe 11, the gaseous refrigerant connecting pipe 3, the second refrigerant pipe 21 and the liquid refrigerant connecting pipe 4 are sequentially communicated to form a closed refrigerant circulation passage.

At least one of the gaseous refrigerant connecting pipe 3 and the liquid refrigerant connecting pipe 4 adopts a multilayer pipe, and the multilayer pipe comprises: at least two conductive tubes and first insulating layer 32, at least two conductive tubes along the radial coaxial cover in proper order of multilayer pipe establish, and each conductive tube is connected with the power supply of air conditioner to transmit electric power to the air conditioner, the inside region 311 of the conductive tube of inlayer supplies the refrigerant to flow. The first insulating layer 32 is configured to insulate at least two conductive tubes, the first insulating layer 32 may be disposed between adjacent conductive tubes or on the outer surface of the outermost conductive tube, and the first insulating layer 32 may also form a tubular structure.

The conductive tube may be made of a conductive material, for example, a metal material such as copper, iron, aluminum, magnesium, or other alloys. The multilayer tube may be formed by an integral extrusion process.

This embodiment and the subsequent references to "axial", "circumferential" and "radial" are defined with reference to a multilayer tube.

According to the air conditioner pipeline device, at least one of the gaseous refrigerant connecting pipe and the liquid refrigerant connecting pipe is a multilayer pipe, the multiplexing of refrigerant transmission and power transmission is achieved through the same pipe, the conductive pipe on the innermost layer is used for refrigerant flowing, and all the conductive pipes can be used as electric conductors to be connected with a power supply. Therefore, a cable which needs to be arranged between the split type inner machine 1 and the split type outer machine 2 can be omitted, so that the connecting structure of the inner machine and the outer machine is simplified, the cost is saved, the complexity of air conditioner pipeline installation is reduced, and the safety of the air conditioner pipeline installation is improved. And moreover, the insulation performance among all layers is easily ensured by adopting a layered power supply mode, and each conductive copper pipe is positioned inside, so that the conductive copper pipe is safer and more reliable under a low protection level.

In some embodiments, as shown in fig. 2, the at least two conductive tubes comprise: a first conductive tube 31 and at least one second conductive tube 33. Wherein the inner region 311 of the first conductive tube 31 is supplied with the refrigerant flow; at least one second conductive tube 33 is sleeved outside the first conductive tube 31. The first insulating layers 32 are respectively arranged between the first conductive tubes 31 and the adjacent second conductive tubes 33, between the adjacent second conductive tubes 33 and on the outer surfaces of the outermost second conductive tubes 33, and the first conductive tubes 31 and at least one second conductive tube 33 are connected with a power supply.

Specifically, the number of the second conductive tubes 33 is determined according to the power supply, for example:

for the dc power supply, that is, both the inner unit 1 and the outer unit 2 adopt dc power supply, one second conductive tube 33 is provided, and the first conductive tube 31 and the second conductive tube 33 are respectively connected with the first pole and the second pole of the dc power supply.

For a household air conditioner adopting an alternating current power supply, only a live wire and a zero line are provided, one second conductive tube 33 is provided, and the first conductive tube 31 and the second conductive tube 33 are respectively connected with the live wire and the zero line.

For a commercial air conditioner using an ac power supply, the air conditioner has three or more power connection lines, at least two second conductive tubes 33 may be provided, and the first conductive tube 31 and the at least two second conductive tubes 33 are connected to the power connection lines, respectively.

This embodiment can realize electrically conductively through the first contact tube 31 and the second contact tube 33 of coaxial cover establishing to realize the power supply of air conditioner, moreover, all be equipped with first insulating layer 32 between first contact tube 31 and the second contact tube 33 to and between the adjacent second contact tube 33, can satisfy the refrigerant connecting pipe and all connect the higher requirement to insulating nature ability with compressor, evaporimeter, the shell of outer machine. In addition, when an insulating refrigerant is adopted, the resistance of the conductor is determined by the material, the length and the cross-sectional area, and the refrigerant is not conductive and does not influence the conductivity of the first conductive tube 31; when the non-insulating refrigerant is used, an insulating layer needs to be provided on the inner wall of the first conductive pipe 31, and therefore, the refrigerant connection pipe of the air conditioner is used for conducting electricity at the same time, and high safety is also provided.

As shown in fig. 2, the multilayer tube further includes: and the protection pipe 34 is coaxially sleeved outside the at least two conductive pipes. Specifically, the protection pipe 34 is provided on the outer layer of the second conductive pipe 33 on the outermost layer.

The protective tube 34 can be made of an electrically conductive material, in which case a first insulating layer 32 is provided between the second electrically conductive tube 33 and the protective tube 34. Alternatively, the protective tube 34 can be made of an insulating material, in which case the first insulating layer 32 can also be omitted between the second conductor tube 33 and the protective tube 34.

In this embodiment, can protect the inside contact tube that is used for the power supply through setting up protection tube 34, prevent that the contact tube from exposing in external environment to electric energy leakage or short circuit risk appear under the rain condition, can reduce protection level demand, and prolong the life of refrigerant connecting pipe.

As shown in fig. 1, the gaseous refrigerant connecting pipe 3 has a diameter larger than that of the liquid refrigerant connecting pipe 4, and the gaseous refrigerant connecting pipe 3 is a multilayer pipe. The gas refrigerant connecting pipe 3 is thicker and has larger current carrying capacity, so that the heat exchange capacity of the air conditioner can be improved, and the power supply safety of the air conditioner is improved. Alternatively, a multilayer pipe may be used for the liquid refrigerant connection pipe 4, or a multilayer pipe may be used for both the gaseous refrigerant connection pipe 3 and the liquid refrigerant connection pipe 4.

In some embodiments, the voltage level of the outer conductive tubular connection is less than the voltage level of the inner conductive tubular connection. The diameter of the outer conductive tube is larger than that of the inner conductive tube, so that the outer conductive tube has larger current capacity, and the voltage grade and the passing current are in inverse proportion under the same power, so that the outer conductive tube can be connected with smaller voltage grade.

In some embodiments, as shown in fig. 1, the air conditioning pipeline device further includes an adapter 5, the inner unit 1 is provided with a first refrigerant pipe 11, the outer unit 2 is provided with a second refrigerant pipe 21, and two ends of the multilayer pipe are respectively communicated with the first refrigerant pipe 11 and the second refrigerant pipe 21 through the adapter 5. The multi-layer tube and the adapter 5 can be fixed by means of nuts or the like.

As shown in fig. 3, the adapter 5 includes a main body 50, an electrical connection structure and a connection terminal 55, the electrical connection structure is provided in the main body 50, the electrical connection structure is the same as the layer structure of the multilayer tube and is butted to the multilayer tube, and the connection terminal 55 is led out from the electrical connection structure and is connected to a power supply. The connecting terminals 55 may be at least two, and the at least two connecting terminals 55 are connected to the at least two conductive tubes in a one-to-one correspondence manner, that is, the at least two conductive tubes are connected to the power supply through an electrical connection structure in the adapter 5.

Specifically, as shown in fig. 3, the electrical connection structure includes a first conductive ring 51, at least one second conductive ring 53 coaxially sleeved outside the first conductive ring 51, and a protection ring 54 coaxially sleeved outside the outermost second conductive ring 53, wherein second insulating layers 52 are disposed between the first conductive ring 51 and the second conductive ring 53, between adjacent second conductive rings 53, and between the second conductive rings 53 and the protection ring 54. When the multilayer tube is butted with the adapter 5, the first conductive tube 31 is butted with the first conductive ring 51, the second conductive ring 53 is butted with the second conductive tube 33, and the protection tube 34 is butted with the protection ring 54.

This embodiment is through setting up adapter 5, can realize the both ends of multilayer pipe respectively with the intercommunication of first refrigerant pipe 11 and second refrigerant pipe 21 to realize being connected of refrigerant connecting pipe and interior machine and outer machine, not only make the refrigerant flow in whole air conditioner pipeline, can also realize the electricity of interior machine 1 and outer machine 2 and be connected, provide to interior machine 1 and outer machine 2 through the conducting tube in the multilayer pipe with the electric energy that power supply provided through adapter 5.

In the above embodiment, the power supply is a low voltage power supply.

At present, the power consumption of an air conditioner is 220V or 380V alternating current, the voltage is high and far exceeds the safe voltage range which can be borne by a human body, and safety accidents such as electric shock and the like often occur. The electric leakage and burning at the interface caused by poor contact, uneven quality, aging for a long time and the like often occur, and certain risk is brought to the safety of home life. Some related technologies have a dedicated coupler for a high-power cabinet to replace a wall socket in a home, so as to ensure stable contact, safety and reliability. However, the anti-creeping and damage mode is not permanent, and the hanging machine of the cabinet machine required by the user cannot be fully covered.

Because the problem of electric energy leakage under the low protection level is easy to occur after the refrigerant connecting pipe is used for supplying power, the low-voltage power supply which is lower than the personal safety voltage is adopted in the embodiment, so that the working voltage of the conventional alternating-current air conditioner is high, potential safety hazards such as electric shock exist, the electric shock problem of strong electricity and the electrical potential safety hazard caused by unit aging can be solved, and the problem that electric leakage hurts people is fundamentally solved.

For example, the low voltage power supply has a voltage range of (0V, 50V), which is lower than a personal safety voltage, preferably, the low voltage power supply has a voltage of 48V.

On the basis of realizing the power supply of the air conditioner through the refrigerant connecting pipe, the embodiment can further improve the power supply safety by adopting the low-voltage power supply for power supply. Because the refrigerant connecting pipe is exposed to the outside, especially at the connecting part of the refrigerant connecting pipe and the inner machine 1 and the outer machine 2, the low-voltage power supply is adopted to supply power, so that the safety during electric leakage can be reduced, and the requirement on the protection grade can be reduced.

In some embodiments, the power supply is a dc power supply having a first pole and a second pole, e.g., the first pole is positive and the second pole is negative, or the first pole is negative and the second pole is positive. The at least two conductive tubes include: a first conductive tube 31 having an inner region 311 for a refrigerant to flow, the first conductive tube 31 being connected to one of the first pole and the second pole; and a second conductive tube 33 sleeved outside the first conductive tube 31, the second conductive tube 33 being connected to the other of the first pole and the second pole.

When a direct-current power supply is adopted, only one second conductive tube 33 needs to be arranged, so that the structure of the multilayer tube can be simplified, and the processing is easy; and when adopting low pressure direct current power supply, the air conditioner itself is direct current supply equipment, possesses higher security in the use.

Optionally, an alternating current power supply can be adopted, and the air conditioner has the advantages that the power supply mode of the original air conditioner is not required to be changed, and the refrigerant connecting pipe can be conveniently adopted for supplying power.

In some specific embodiments, as shown in fig. 2 and 3, the gaseous refrigerant connection pipe 3 is a multilayer pipe comprising, from inside to outside in the radial direction: the first conductive tube 31, the second conductive tube 33 and the protection tube 34, wherein the first insulating layer 32 is arranged between the first conductive tube 31 and the second conductive tube 33 and between the second conductive tube 33 and the protection tube 34. The inner region 311 of the first conductive tube 31 is used for the flow of refrigerant, the first conductive tube 31 is connected with 48V voltage, and the second conductive tube 33 is grounded.

Accordingly, as shown in fig. 3, the adapter 5 includes a main body portion 50, an electrical connection structure and two terminal blocks 55, the electrical connection structure includes, from inside to outside in the radial direction: the first conductive ring 51, the second conductive ring 53 and the guard ring 54, and the second insulating layer 52 is disposed between the first conductive ring 51 and the second conductive ring 53, and between the second conductive ring 53 and the guard ring 54. When the multilayer tube is butted with the adapter 5, the first conductive tube 31 is butted with the first conductive ring 51, the second conductive ring 53 is butted with the second conductive tube 33, and the protection tube 34 is butted with the protection ring 54. A 48V connection terminal 55 leads from the first conductive ring 51 and a grounded connection terminal 55 leads from the second conductive ring 53.

Secondly, this disclosure also provides an air conditioner, in some embodiments, including the air conditioner pipe set of the above-mentioned embodiments.

In the engineering installation process of the air conditioner, one air conditioner pipeline is adopted, so that the refrigerant transmission and the power supply can be realized, the pipelines, cables and the like do not need to be bound together for engineering installation, the construction complexity is greatly simplified, and the labor cost and the cost are saved.

And the conductive pipe of the air-conditioning pipeline is made of metal conductive materials and can be directly used as a conductive wire, so that a large amount of engineering cable cost is saved, engineering construction is simplified, and construction cost is reduced.

The air conditioner pipeline device and the air conditioner provided by the present disclosure are described in detail above. The principles and embodiments of the present disclosure are explained herein using specific examples, which are set forth only to help understand the method and its core ideas of the present disclosure. It should be noted that, for those skilled in the art, it is possible to make several improvements and modifications to the present disclosure without departing from the principle of the present disclosure, and such improvements and modifications also fall within the scope of the claims of the present disclosure.

Claims (10)

1. An air conditioning ducting arrangement, comprising: the gas refrigerant connecting pipe (3) and the liquid refrigerant connecting pipe (4) are connected between the inner unit (1) and the outer unit (2) of the air conditioner; at least one of the gaseous refrigerant connecting pipe (3) and the liquid refrigerant connecting pipe (4) adopts a multilayer pipe, and the multilayer pipe comprises:

at least two conductive tubes are sequentially coaxially sleeved along the radial direction of the multilayer tube and are connected with a power supply of the air conditioner so as to transmit power to the air conditioner, and a refrigerant flows in an inner area (311) of the innermost conductive tube; and

a first insulating layer (32) configured to enable insulation of the at least two conductive tubes.

2. An air conditioning ducting arrangement as claimed in claim 1, wherein the at least two electrically conductive tubes comprise:

a first conductive tube (31) having an inner region (311) through which a refrigerant flows; and

at least one second conductive tube (33) sleeved outside the first conductive tube (31);

the first insulating layer (32) is arranged between the first conductive tube (31) and the second conductive tube (33), between the adjacent second conductive tubes (33) and on the outer surface of the outermost second conductive tube (33), and the first conductive tube (31) and the at least one second conductive tube (33) are connected with the power supply.

3. An air conditioning ducting arrangement as claimed in claim 1 or 2, wherein the multilayer tube further comprises:

and the protection pipe (34) is coaxially sleeved outside the at least two conductive pipes.

4. The air-conditioning pipeline device according to claim 1, wherein the diameter of the gaseous refrigerant connecting pipe (3) is larger than that of the liquid refrigerant connecting pipe (4), and the multilayer pipe is adopted as the gaseous refrigerant connecting pipe (3).

5. An air conditioning ducting arrangement as claimed in claim 1, wherein the outer layer of said conducting duct connections have a voltage level less than the voltage level of the inner layer of said conducting duct connections.

6. The air-conditioning pipeline device according to claim 1, further comprising a joint (5), wherein a first refrigerant pipe (11) is arranged in the inner machine (1), a second refrigerant pipe (21) is arranged in the outer machine (2), and two ends of the multilayer pipe are respectively communicated with the first refrigerant pipe (11) and the second refrigerant pipe (21) through the joint (5);

wherein, adapter (5) include main part (50), electric connection structure and binding post (55), electric connection structure establishes in main part (50), electric connection structure with the layer structure of multilayer pipe is the same, and with the butt joint of multilayer pipe, binding post (55) are followed electric connection structure draws forth and with power supply connects.

7. An air conditioning ducting arrangement as claimed in claim 1 wherein the electrical power supply is a low voltage power supply.

8. An air conditioning ducting arrangement as claimed in claim 7 wherein the low voltage power supply has a voltage range of (0V, 50V).

9. An air conditioning ducting arrangement as claimed in claim 1 wherein said electrical power supply is a dc power supply having a first pole and a second pole, said at least two electrical conduits comprising:

a first conductive tube (31) having an inner region (311) for a flow of refrigerant, the first conductive tube (31) being connected to one of the first and second poles; and

and the second conductive tube (33) is sleeved outside the first conductive tube (31), and the second conductive tube (33) is connected with the other one of the first pole and the second pole.

10. An air conditioner characterized by comprising the air conditioner pipe device according to any one of claims 1 to 9.

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