CN112984759A - Water supply structure and air conditioner with same - Google Patents

Abstract

The present invention provides a water supply structure and an air conditioner having the same, the water supply structure being arranged in a room to adjust a temperature in the room, the water supply structure including: the first pipeline is used for introducing a first fluid; the second pipeline is used for introducing a second fluid; the first pipeline and the second pipeline are both used for being laid in a room, and the first pipeline is positioned on one side, away from the floor of the room, of the second pipeline; the temperature of the first fluid is less than the temperature of the second fluid to absorb heat from the room through the first fluid or to dissipate heat into the room through the second fluid. The water supply system solves the problem that the comfort level of the temperature control mode of the air conditioner in the prior art is poor.

Description

Water supply structure and air conditioner with same

Technical Field

The invention relates to the field of air conditioners, in particular to a water supply structure and an air conditioner with the same.

Background

At present, when a common household air conditioner cooling and heating integrated machine is used for heating and cooling, a blowing mode is adopted, so that a user can feel dizzy and uncomfortable after staying in a room for a long time, and the whole room is unbalanced in cooling and heating, so that people feel uncomfortable. The commonly used floor heating system only has the function of heating but not refrigerating, and the function is single.

Disclosure of Invention

The invention mainly aims to provide a water supply structure and an air conditioner with the same, and aims to solve the problem that the comfort of a temperature control mode of the air conditioner in the prior art is poor.

In order to achieve the above object, according to one aspect of the present invention, there is provided a water supply structure for being disposed in a room to adjust a temperature in the room, the water supply structure including: the first pipeline is used for introducing a first fluid; the second pipeline is used for introducing a second fluid; the first pipeline and the second pipeline are both used for being laid in a room, and the first pipeline is positioned on one side, away from the floor of the room, of the second pipeline; the temperature of the first fluid is less than the temperature of the second fluid to absorb heat from the room through the first fluid or to dissipate heat into the room through the second fluid.

Further, the first pipeline is arranged on a wall of the room; and/or the second conduit is disposed on the floor of the room.

Further, the first and second pipelines each include: the first pipe sections are arranged at intervals along a first preset direction, two adjacent first pipe sections are connected through the second pipe sections, and at least part of the second pipe sections is of an arc structure.

Furthermore, the water supply structure also comprises a water supply machine, the water supply machine comprises a water supply tank, and the water supply tank is connected with the first pipeline and the second pipeline so as to introduce the first fluid into the first pipeline or introduce the second fluid into the second pipeline.

Further, the water supply machine comprises a heating device, and the heating device is used for heating the fluid in the water supply tank so as to enable the fluid introduced into the second pipeline to reach the preset temperature.

Further, the water supply tank includes a first water supply tank for containing a first fluid and a second water supply tank for containing a second fluid; the first water supply tank is connected with the first pipeline, and the second water supply tank is connected with the second pipeline.

Furthermore, the first pipeline comprises a first water inlet pipe section and a first water outlet pipe section, the first water inlet pipe section is connected with a first water outlet of the first water supply tank, the first water outlet pipe section is connected with a first water inlet of the first water supply tank, and the first water outlet pipe section and the first water inlet pipe section both extend along the direction of the first water outlet away from the ground; and/or the second pipeline comprises a second water inlet pipe section and a second water outlet pipe section, the second water inlet pipe section is connected with a second water outlet of the second water supply tank, the second water outlet pipe section is connected with a second water inlet of the second water supply tank, and the second water inlet pipe section and the second water outlet pipe section both extend along the direction that the second water outlet is close to the ground.

Further, the water supply structure further includes: the first ball valve is arranged on the first water inlet and/or the first water outlet; and/or a second ball valve arranged on the second water inlet and/or the second water outlet.

Further, the water supply structure further includes: the first water pump is connected with the first water supply tank so as to drive the first fluid to flow into the first pipeline from the first water supply tank and then flow into the first water supply tank from the first pipeline; and/or a second water pump connected to the second water supply tank to drive the second fluid to flow from the second water supply tank into the second pipeline and then from the second pipeline into the second water supply tank.

According to another aspect of the present invention, there is provided an air conditioner including a water supply structure as described above.

With the technical scheme of the invention applied, the water supply structure is arranged in a room to adjust the temperature in the room, and comprises: the first pipeline is used for introducing a first fluid; the second pipeline is used for introducing a second fluid; the first pipeline and the second pipeline are both used for being laid in a room, and the first pipeline is positioned on one side, away from the floor of the room, of the second pipeline; the temperature of the first fluid is less than the temperature of the second fluid to absorb heat from the room through the first fluid or to dissipate heat into the room through the second fluid. By adopting the arrangement, when the temperature in the room needs to be reduced, the first fluid is introduced into the first pipeline, the temperature of the first fluid is lower than that in the room, and the first fluid can absorb the heat in the room, so that the heat in the room is reduced. When the temperature in the room needs to be raised, a second fluid is introduced into the second pipeline, the temperature of the second fluid is higher than that in the room, and the second fluid can release heat into the room, so that the heat in the room is raised. Like this, can avoid using the mode that blows to adjust the temperature in the room to avoided wind to blow the uncomfortable condition of messenger's people, and, the aforesaid sets up the principle that has utilized the hot-air to rise, set up first pipeline in the one side that room ground was kept away from to the second pipeline, thereby be favorable to thermal exchange, guaranteed the regulation efficiency of the temperature in the room, thereby solved the relatively poor problem of comfort level of the temperature control mode of the air conditioner among the prior art.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view showing an embodiment of first and second pipes of a water supply structure according to the present invention; and

fig. 2 is a schematic view showing a structure of a water supplying machine of the water supplying structure of the present invention.

Wherein the figures include the following reference numerals:

1. a first pipeline; 11. a first water inlet pipe section; 12. a first water outlet pipe section; 2. a second pipeline; 21. a second water inlet pipe section; 22. a second water outlet pipe section; 3. a water supply machine; 4. a first tube section; 5. a second tube section; 61. a first water inlet; 62. a first water outlet; 63. a second water outlet; 64. a second water inlet; 71. a first ball valve; 72. a second ball valve.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1 and 2, the water supply structure of the present embodiment, for being disposed in a room to adjust a temperature in the room, includes: the first pipeline 1 is used for introducing a first fluid into the first pipeline 1; the second pipeline 2 is used for introducing a second fluid into the second pipeline 2; the first pipeline 1 and the second pipeline 2 are both used for being laid in a room, and the first pipeline 1 is positioned on one side, away from the floor of the room, of the second pipeline 2; the temperature of the first fluid is less than the temperature of the second fluid to absorb heat from the room through the first fluid or to dissipate heat into the room through the second fluid. With the arrangement, when the temperature in the room needs to be reduced, the first fluid is introduced into the first pipeline 1, the temperature of the first fluid is lower than that in the room, and the first fluid can absorb heat in the room, so that the heat in the room is reduced. When the temperature in the room needs to be raised, a second fluid is introduced into the second pipeline 2, the temperature of the second fluid is higher than that in the room, and the second fluid can release heat into the room, so that the heat in the room is raised. Like this, can avoid using the mode that blows to adjust the temperature in the room to avoided blowing to make the people feel uncomfortable the condition, and, the aforesaid sets up and has utilized the principle that hot-air rises, set up first pipeline 1 in the one side that room ground was kept away from to second pipeline 2, thereby be favorable to thermal exchange, guaranteed the regulation efficiency of the temperature in the room, thereby solved the relatively poor problem of comfort level of the control by temperature change mode of the air conditioner among the prior art.

In the water supply structure of the present embodiment, referring to fig. 1, 2, a first pipe 1 is provided on a wall of a room; and/or the second pipe 2 is arranged on the floor of the room. Adopt above-mentioned setting, saved the occupation space of water supply structure to user's comfort level has been promoted.

Referring to fig. 1 and 2, in the water supply structure of the present embodiment, each of the first and second pipes 1 and 2 includes: the pipeline comprises a plurality of first pipeline sections 4 and a plurality of second pipeline sections 5, wherein the first pipeline sections 4 are arranged at intervals along a first preset direction, two adjacent first pipeline sections 4 are connected through the second pipeline sections 5, and at least part of each second pipeline section 5 is of an arc-shaped structure.

In the water supply structure of this embodiment, first pipeline 1 and second pipeline 2 all include a plurality of first pipeline sections 4 and a plurality of second pipeline section 5, a plurality of first pipeline sections 4 set up along first predetermined direction looks interval, and like this, first pipeline section 4 and external area of contact has been increased, thereby heat exchange's efficiency has been improved, two adjacent first pipeline sections 4 pass through second pipeline section 5 and connect, a plurality of second pipeline section 5 at least part is the arc structure, and like this, the resistance that fluid flows in first pipeline 1 and second pipeline 2 has been reduced, make fluidic flow more smooth and easy, thereby temperature regulation's efficiency has been increased.

In the water supply structure of the present embodiment, referring to fig. 1 and 2, the water supply structure further includes a water supply machine 3, and the water supply machine 3 includes a water supply tank connected to both the first pipeline 1 and the second pipeline 2 to supply the first fluid into the first pipeline 1 or supply the second fluid into the second pipeline 2.

Specifically, in one embodiment of the water supply structure, the water supply structure further includes a water supply machine 3, and the water supply machine 3 includes a water supply tank that is connected to both the first pipeline 1 and the second pipeline 2 and that passes the first fluid into the first pipeline 1 or the second fluid into the second pipeline 2.

Referring to fig. 1 and 2, in the water supply structure of the present embodiment, the water supply machine 3 includes a heating device for heating the fluid in the water supply tank to make the fluid introduced into the second pipeline 2 reach a preset temperature. In this way, the fluid in the water supply tank is heated to meet the temperature requirement of the second fluid, and heat is transferred to the room. As a preferred embodiment, a cooling device is further installed in the water supply tank to lower the temperature of the fluid in the water supply tank by the cooling device to meet the temperature requirement of the first fluid, thereby absorbing the temperature in the room.

In the water supply structure of the present embodiment, referring to fig. 1, 2, the water supply tank includes a first water supply tank for containing a first fluid and a second water supply tank for containing a second fluid; the first water supply tank is connected to a first pipeline 1 and the second water supply tank is connected to a second pipeline 2. Thus, the first fluid and the second fluid are respectively placed by the first water supply tank and the second water supply tank, so that the first pipeline and the first water supply tank form a fluid circulating system, the room can be continuously cooled, and the second pipeline and the second water supply tank form a fluid circulating system, so that the room can be continuously heated.

Referring to fig. 1 and 2, in the water supply structure of the present embodiment, the first pipeline 1 includes a first water inlet pipe section 11 and a first water outlet pipe section 12, the first water inlet pipe section 11 is connected to a first water outlet 62 of the first water supply tank, the first water outlet pipe section 12 is connected to a first water inlet 61 of the first water supply tank, and the first water outlet pipe section 12 and the first water inlet pipe section 11 both extend in a direction in which the first water outlet 62 is away from the ground; and/or the second pipeline 2 comprises a second water inlet pipe section 21 and a second water outlet pipe section 22, the second water inlet pipe section 21 is connected with a second water outlet 63 of the second water supply tank, the second water outlet pipe section 22 is connected with a second water inlet 64 of the second water supply tank, and the second water inlet pipe section 21 and the second water outlet pipe section 22 both extend along the direction that the second water outlet 63 is close to the ground.

Adopt above-mentioned setting for first fluid gets into first pipeline 1 through first water inlet pipe section 11, first fluid is after cooling down the room in first pipeline 1, get into first water tank through first water outlet pipe section 12 again, first water outlet pipe section 12 and first water inlet pipe section 11 all extend along the direction that first delivery port 62 kept away from ground, thus, can let first fluid flow enter into first pipeline as early as possible after flowing from first water supply tank, first fluid has been avoided carrying out the heat exchange with the external world before getting into first pipeline 1, thereby the temperature regulation ability of first fluid in first pipeline 1 has been guaranteed. Similarly, the second water inlet pipe section 21 and the second water outlet pipe section 22 both extend along the direction of the second water outlet 63 close to the ground, so that the heat exchange between the second fluid and the outside before entering the second pipeline 2 is avoided, and the temperature regulation capability of the first fluid in the first pipeline 1 is ensured.

In the water supply structure of the present embodiment, referring to fig. 1, 2, the water supply structure further includes: a first ball valve 71, wherein the first ball valve 71 is arranged on the first water inlet 61 and/or the first water outlet 62; and/or a second ball valve 72, wherein the second ball valve 72 is arranged on the second water inlet 64 and/or the second water outlet 63. Through the arrangement, the on-off of the first fluid and the second fluid is controlled.

Referring to fig. 1 and 2, in the water supply structure of the present embodiment, the water supply structure further includes: the first water pump is connected with the first water supply tank so as to drive the first fluid to flow into the first pipeline 1 from the first water supply tank and then flow into the first water supply tank from the first pipeline 1; and/or a second water pump connected to the second water supply tank to drive the second fluid to flow from the second water supply tank into the second pipeline 2 and then from the second pipeline 2 into the second water supply tank.

The air conditioner comprises a water supply structure, wherein the water supply structure is the water supply structure.

The working principle of the air conditioner of the embodiment is as follows: the water supply system is characterized in that a water tank (a water supply tank) of the cooling and heating unit is filled with water, and a cold pipe (a first pipeline 1) and a hot pipe (a second pipeline 2) are filled with water at the same time, so that normal circulation of water in a water supply structure is ensured. When the cooling system is used in summer, two ball valves (a first ball valve 71) at the joint of the cooling pipe and the heating pipe are opened so as to open a water outlet (a first water outlet 62) and a water return port (a first water inlet 61) of an upper unit of the cooling and heating machine, meanwhile, two ball valves (a second ball valve 72) at the joint of the heating pipe and the heating pipe are closed, a refrigeration mode is started, the required temperature is set, a water pump (a first water pump) in the unit pumps water in a water tank in the unit, so that the refrigeration is circulated in the whole cooling pipe system loop, cold water (first fluid) cools the whole wall, the cooling effect is from top to bottom, the temperature of the whole room is reduced, and the uniform refrigeration effect; when the water heater is used in winter, the two ball valves at the joint of the water heater and the heat pipe are opened, the two ball valves at the joint of the water heater and the cold pipe are closed simultaneously, the heating mode is started, the required temperature is set, the water feeder heats water and circulates the water (second fluid), and the heat uniformly heats the whole room from bottom to top. When the water supply structure is not needed in spring and autumn, water in the water supply structure is drained, the four ball valves are closed, and the unit is powered off.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

the water supply structure of the present invention is for being disposed in a room to adjust a temperature in the room, the water supply structure including: the first pipeline 1 is used for introducing a first fluid into the first pipeline 1; the second pipeline 2 is used for introducing a second fluid into the second pipeline 2; the first pipeline 1 and the second pipeline 2 are both used for being laid in a room, and the first pipeline 1 is positioned on one side, away from the floor of the room, of the second pipeline 2; the temperature of the first fluid is less than the temperature of the second fluid to absorb heat from the room through the first fluid or to dissipate heat into the room through the second fluid. With the arrangement, when the temperature in the room needs to be reduced, the first fluid is introduced into the first pipeline 1, the temperature of the first fluid is lower than that in the room, and the first fluid can absorb heat in the room, so that the heat in the room is reduced. When the temperature in the room needs to be raised, a second fluid is introduced into the second pipeline 2, the temperature of the second fluid is higher than that in the room, and the second fluid can release heat into the room, so that the heat in the room is raised. Like this, can avoid using the mode that blows to adjust the temperature in the room to avoided blowing to make the people feel uncomfortable the condition, and, the aforesaid sets up and has utilized the principle that hot-air rises, set up first pipeline 1 in the one side that room ground was kept away from to second pipeline 2, thereby be favorable to thermal exchange, guaranteed the regulation efficiency of the temperature in the room, thereby solved the relatively poor problem of comfort level of the control by temperature change mode of the air conditioner among the prior art.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A water supply structure for being disposed in a room to regulate a temperature in the room, the water supply structure comprising:

the device comprises a first pipeline (1), wherein a first fluid is introduced into the first pipeline (1);

the second pipeline (2) is used for introducing a second fluid into the second pipeline (2);

wherein the first pipeline (1) and the second pipeline (2) are used for laying in the room, and the first pipeline (1) is positioned on one side of the second pipeline (2) far away from the floor of the room; the temperature of the first fluid is less than the temperature of the second fluid to absorb heat from the room through the first fluid or to dissipate heat into the room through the second fluid.

2. Water supply structure according to claim 1, characterized in that said first pipe (1) is arranged on a wall of a room; and/or the second pipe (2) is arranged on the floor of the room.

3. Water supply structure according to claim 1, characterized in that said first pipe (1) and said second pipe (2) each comprise: a plurality of first pipe section (4) and a plurality of second pipe section (5), it is a plurality of first pipe section (4) set up along first preset direction looks interval, two adjacent first pipe section (4) pass through second pipe section (5) are connected, and is a plurality of at least part of second pipe section (5) is the arc structure.

4. Water supply arrangement according to claim 1, characterized in that the water supply arrangement further comprises a water feeder (3), the water feeder (3) comprising a water feed tank connected to both the first line (1) and the second line (2) for feeding a first fluid into the first line (1) or a second fluid into the second line (2).

5. Water supply arrangement according to claim 4, characterized in that the water supply (3) comprises heating means for heating the fluid in the water supply tank to bring the fluid passing into the second conduit (2) to a preset temperature.

6. The water supply structure according to claim 4, wherein the water supply tank includes a first water supply tank for containing the first fluid and a second water supply tank for containing the second fluid; the first water supply tank is connected to the first pipeline (1), and the second water supply tank is connected to the second pipeline (2).

7. Water supply structure according to claim 6, characterized in that the first pipe (1) comprises a first water inlet pipe section (11) and a first water outlet pipe section (12), the first water inlet pipe section (11) being connected with a first water outlet (62) of the first water supply tank, the first water outlet pipe section (12) being connected with a first water inlet (61) of the first water supply tank, the first water outlet pipe section (12) and the first water inlet pipe section (11) each extending in a direction in which the first water outlet (62) is away from the ground; and/or the second pipeline (2) comprises a second water inlet pipe section (21) and a second water outlet pipe section (22), the second water inlet pipe section (21) is connected with a second water outlet (63) of the second water supply tank, the second water outlet pipe section (22) is connected with a second water inlet (64) of the second water supply tank, and the second water inlet pipe section (21) and the second water outlet pipe section (22) both extend along the direction of the second water outlet (63) close to the ground.

8. The water supply structure according to claim 7, characterized by further comprising:

a first ball valve (71), the first ball valve (71) being disposed on the first water inlet (61) and/or the first water outlet (62); and/or the presence of a gas in the gas,

a second ball valve (72), the second ball valve (72) being disposed on the second water inlet (64) and/or the second water outlet (63).

9. The water supply structure according to claim 7, characterized by further comprising:

a first water pump connected to the first water supply tank to drive the first fluid from the first water supply tank into the first conduit (1) and from the first conduit (1) into the first water supply tank; and/or the presence of a gas in the gas,

a second water pump connected to the second water supply tank to drive the second fluid from the second water supply tank into the second conduit (2) and then from the second conduit (2) into the second water supply tank.

10. An air conditioner comprising a water supply structure, characterized in that the water supply structure is the water supply structure of any one of claims 1 to 9.

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