CN207849560U - A kind of air-conditioning system - Google Patents

Abstract

The utility model discloses a kind of air-conditioning systems.The air-conditioning system includes evaporator and condenser, the gasification tunnel for further including water-supply structure and being connected to the water-supply structure, the gasification tunnel include the heat exchanging segment that can be exchanged heat with the condenser and the steam discharge section for the vapor in the gasification tunnel to be discharged.Air-conditioning system provided by the utility model carries out heating and gasifying to be humidified to indoor environment using condenser to water, without increasing additional atomization plant, reduces the production cost of air-conditioning system.

Description

A kind of air-conditioning system

Technical field

The utility model is related to filed of air conditioning, especially a kind of air-conditioning system.

Background technology

Air-conditioning constantly exhausts the condensate moisture in air at liquid water in process of refrigerastion, and air-conditioning is caused to open one section Moisture after time in room air is fewer and fewer to cause the discomfort of user, for this purpose, increasing humidification function on air-conditioning. The existing air-conditioning with humidification function is typically to increase water tank and atomising device in air-conditioning, by atomising device in water tank Water be atomized to be humidified to indoor environment, need additionally to add water into water tank, waste water resource.

To solve the above problems, a kind of air-conditioning is proposed in the prior art, using the condensed water in drip tray come to interior Environment is humidified, and to save water resource, but there is still a need for individual atomising device is arranged to condensed water for existing air-conditioning It is atomized, increases the production cost of air-conditioning.

Utility model content

In view of this, one of the purpose of this utility model is to provide a kind of air-conditioning system simple in structure, at low cost.

In order to achieve the above object, the utility model adopts the following technical solution：

A kind of air-conditioning system, including evaporator and condenser further include water-supply structure and are connected to the water-supply structure Gasification tunnel, the gasification tunnel include the heat exchanging segment that can be exchanged heat with the condenser and for will be in the gasification tunnel The steam discharge section of vapor discharge.

Preferably, the gasification tunnel further includes the first linkage section for connecting the heat exchanging segment and the water-supply structure, institute It states in the first linkage section and is provided with filter device.

Preferably, the gasification tunnel further includes the second linkage section for connecting the steam discharge section and the heat exchanging segment；

At least partly structure setting of second linkage section is ventilating structure；And/or

It is provided with water collecting structure and/or discharge structure on second linkage section.

Preferably, the ventilating structure includes porous tube section.

Preferably, the water collecting structure includes the collecting groove structure being formed on the inner wall of second linkage section.

Preferably, second linkage section includes descending branch and ascent stage, the water collecting structure in air current flow direction It is arranged between the descending branch and the ascent stage.

Preferably, the intersection of the descending branch and the ascent stage form lower kinking structure, and the water collecting structure setting exists The bottom of the lower kinking structure.

Preferably, it is provided with osculum on the cell wall of the collecting groove structure.

Preferably, air hole is provided on the ventilating structure, the collecting groove structure is formed by the ventilating structure, institute It states air hole and constitutes the osculum.

Preferably, the air-conditioning system includes air outlet, the air outlet of the steam discharge section be located at the air outlet or Person is located at close to the position of the air outlet.

Preferably, the air-conditioning system includes wind outlet panel, and the air outlet is formed in the wind outlet panel, it is described go out The steam outlet being connected to the air outlet of the steam discharge section is provided on wind panel.

Preferably, the wind outlet panel is provided with the outer surface in the region of the steam outlet and is formed as the song of evagination Face.

Preferably, it is provided with volume control device on the gasification tunnel, the displacement for controlling the steam discharge section.

Preferably, the arrival end of the heat exchanging segment is arranged less than the water-supply structure.

Preferably, the air-conditioning system further includes the water container of the condensed water for picking up the evaporator surface, institute It states water container and constitutes the water-supply structure.

Air-conditioning system provided by the utility model carries out heating and gasifying to add to indoor environment using condenser to water It is wet, without increasing additional atomization plant, reduce the production cost of air-conditioning system.

Description of the drawings

By referring to the drawings to the description of the utility model embodiment, the above-mentioned and other mesh of the utility model , feature and advantage will be apparent from, in the accompanying drawings：

Fig. 1 shows the structural schematic diagram for the air-conditioning system that specific embodiment of the present invention provides；

Fig. 2 shows the structural schematic diagrams at the indoor unit of the air-conditioning system of specific embodiment of the present invention offer；

Fig. 3 shows the structural schematic diagram at the outdoor unit for the air-conditioning system that specific embodiment of the present invention provides.

In figure, 1, indoor unit；11, wind outlet panel；111, lower panel；12, air outlet；13, steam outlet；2, gasification is logical Road；21, heat exchanging segment；22, steam discharge section；23, the first linkage section；231, vertical section；232, horizontal segment；24, the second linkage section；241、 Water collecting structure；2411, collecting groove structure；242, the ascent stage；243, descending branch；244, lower kinking structure；245, porous tube section；3, mistake Filter device；4, volume control device；5, outdoor unit.

Specific implementation mode

The utility model is described below based on embodiment, but the utility model is not restricted to these implementations Example.The description of part can also understand the utility model completely without these details for a person skilled in the art.In order to keep away Exempt to obscure the essence of the utility model, there is no narrations in detail for well known method, process, flow, element.

In addition, it should be understood by one skilled in the art that provided herein attached drawing be provided to explanation purpose, and What attached drawing was not necessarily drawn to scale.

Unless the context clearly requires otherwise, "include", "comprise" otherwise throughout the specification and claims etc. are similar Word should be construed as the meaning for including rather than exclusive or exhaustive meaning；That is, being containing for " including but not limited to " Justice.

In the description of the present invention, it should be understood that term " first ", " second " etc. are used for description purposes only, It is not understood to indicate or imply relative importance.In addition, in the description of the present invention, unless otherwise indicated, it is " more It is a " it is meant that two or more.

The orientation such as "upper" "lower" described herein are orientation when air-conditioning system is in normal operating conditions, specific to join Examine orientation shown in FIG. 1."inner" "outside" described herein is itself with respect to indoor unit one close to indoor unit inner cavity Side is interior, and the side far from indoor unit inner cavity is outer.

This application provides a kind of air-conditioning systems, as shown in Figure 1, air-conditioning system includes evaporator, condenser, water-supply structure And the gasification tunnel 2 being connected to water-supply structure, wherein gasification tunnel 2 can lead to the water in water-supply structure at condenser, The heat distributed using condenser carries out heating and gasifying to be humidified to indoor environment, without increasing to the water in gasification tunnel Additional atomization plant, to reduce the production cost of air-conditioning system.

It is understood that evaporator described herein refers to the heat exchanger of evaporation endothermic in air-conditioning system, for example, empty Adjusting system is in process of refrigerastion, and evaporator is the indoor heat exchanger in indoor unit 1, and air-conditioning system is in heating operations, evaporator For the outdoor heat exchanger in outdoor unit 5, condenser described herein refers to condensing exothermic heat exchanger, example in air-conditioning system Such as, for air-conditioning system in process of refrigerastion, condenser is the outdoor heat exchanger in outdoor unit 5, and air-conditioning system is cold in heating operations Condenser is the indoor heat exchanger in indoor unit 1.

Below will be using evaporator as indoor heat exchanger, condenser is to introduce the specific reality of air-conditioning system for outdoor heat exchanger Apply example.

Specifically, gasification tunnel 2 includes the heat exchanging segment 21 that can be exchanged heat with the condenser in outdoor unit 5, heat exchanging segment 21 Can be such as heat exchanger tube, in order to improve the heat exchange efficiency of heat exchanger tube and condenser, in a preferred embodiment, heat exchanger tube is worn It is located in the fin of condenser, in another preferred embodiment, heat exchanger tube is threaded through in individual fin structure, the fin Structure is in contact with the fin of condenser, such as welds together, to realize the rapid heat exchange of heat exchanger tube and condenser.Such as This, is heated using the water in the heat gasification tunnel 2 of condenser so that water in gasification tunnel 2, gasification tunnel 2 Further include steam discharge section 22, the vapor after gasification is discharged by steam discharge section 22, such as is drained into indoor environment, with to indoor environment It is humidified.

Wherein, the water in water-supply structure can be changed under the driving effect of the driving devices such as water pump into heat exchanging segment 21 Heat, in order to simplify structure, it is preferable that the arrival end of heat exchanging segment 21 is arranged less than water-supply structure so that the water in water-supply structure It can exchange heat under the effect of gravity into heat exchanging segment.For example, in the embodiment shown in fig. 1, water-supply structure is The water container of condensed water in air-conditioning system for picking up evaporator surface, such as the water receiving below heat exchanger indoors is set Disk, in this way, being humidified to indoor environment using the condensed water in drip tray, to save water resource.Due to indoor unit 1 Height is usually all higher than the height of outdoor unit 5, and therefore, available height official post obtains the condensed water in the drip tray in indoor unit 1 Heat exchanging segment 21 can be automatically flowed into exchange heat.

Further, gasification tunnel 2 includes the first linkage section 23 of connection heat exchanging segment 21 and drip tray, the first linkage section 23 Including the vertical section 231 being connected and horizontal segment 232, wherein one end of vertical section 231 is connected to drip tray, the other end and water One end of flat section 232 connects, and the other end of horizontal segment 232 connects heat exchanging segment 21, is drawn the water in drip tray using vertical section 231 Enter the first linkage section 23, condensed water is formed by horizontal segment 232 and is flow slowly, avoids the flow velocity that water flows into heat exchanging segment 21 too fast and shadow Ring heat exchange efficiency.

Further, in order to avoid the water quality of condensed water is poor and causes gasification tunnel dirty stifled, it is preferable that in the first connection Filter device 3 is provided in section 23, condensed water flows into heat exchanging segment 21 after being filtered by filter device 3 and exchanges heat again, filtering dress It sets 3 to be preferably provided in vertical section 231, in this way, condensed water can carry out under self gravitation effect by filter device 3 Filter.

Further, gasification tunnel 2 further includes the second linkage section 24 for connecting steam discharge section 22 and heat exchanging segment 21, heat exchanging segment 21 The vapor of interior gasification enters steam discharge section 22 by the second linkage section 24 and is discharged.Vapor in second linkage section 24 can be in wind Steam discharge section is discharged under the driving of the driving devices such as machine, it is preferable that in order to simplify structure, the air outlet of steam discharge section 22 is located at interior At the air outlet 12 of machine 1 or positioned at the position of close air outlet 12, since indoor unit 1 is in air supply process, at air outlet 12 Negative pressure is formed, in this way, driving the vapor in the second linkage section 24 to flow into 22 row of steam discharge section using the negative pressure at air outlet 12 Go out.

The air outlet of steam discharge section 22 can be arranged directly in air outlet 12, in order to avoid steam discharge section 22 influences air outlet 12 wind speed, in a preferred embodiment, as shown in Fig. 2, indoor unit 1 includes wind outlet panel 11, air outlet 12 is formed in In wind outlet panel 11, the steam outlet 13 being connected to the air outlet of steam discharge section 22, vapor are provided in wind outlet panel 11 The either above or below in air outlet 12 can be for example arranged in outlet 13, and in an embodiment as illustrated in figure 2, wind outlet panel 11 is wrapped The plate 111 below 12 lower section of air outlet is included, steam outlet 13 is disposed below on plate 111 and close to lower panel 111 The position of upper edge.Steam outlet 13 preferably can transversely be arranged side by side have it is multiple, such as can be shown in Fig. 2 three A, steam discharge section 22 is divided into a plurality of branch after getting in machine 1, and every branch is connected to a steam outlet 13.

Preferably, it in order to improve the negative pressure at steam outlet 13, that is, improves to steam discharge section 22 and the second linkage section 24 The suction of interior vapor, wind outlet panel 11 are formed as the curved surface of evagination in the outer surface in the region of setting steam outlet 13, It is formed like the structure of wing shape, is further increased to indoor ring by the improvement to structure at steam outlet 13 The humidifying effect in border.It is further preferred that in the embodiment shown in fig. 1, lower panel 111 is formed as the curved slab of evagination.

In order to ensure the stable gas pressure in gasification tunnel, it is preferable that at least partly structure setting of the second linkage section 24 For ventilating structure, it is provided with breathable microporous on ventilating structure, in this way, ensureing the stabilization of air pressure using the gas permeability of ventilating structure Property, for example, as shown in figure 3, the second linkage section 24 includes porous tube section 245, porous tube section 245 is cellular material part, honeycomb material Materials and parts are above-mentioned ventilating structure.

Preferably, it is provided with water collecting structure 241 on the second linkage section 24, for collecting water unvaporized in heat exchanging segment 21 And the water condensed again in the second linkage section 24, it relaxes to avoid the use that liquid water is discharged by steam discharge section 22 and influences user Discharge structure (not shown) can also be arranged on the second linkage section 24 in adaptive, to by the water in the second linkage section 24 Discharge.

Water collecting structure 241 can for example be formed in the collecting groove structure 2411 on the inner wall of the second linkage section 24, catchment Slot structure 2411 is from the inner wall of the second linkage section 24 to the interior cavity direction concave shape far from the second linkage section 24 at so that liquid water It can be flowed into collecting groove structure 2411 and collect along the internal face of the second linkage section 24.It is further preferred that as shown in figure 3, Second linkage section 24 includes descending branch 243 and ascent stage 242, the arrival end of descending branch 243 and heat exchange in air current flow direction Section 21 connects, and the outlet end of ascent stage 242 is connect with steam discharge section 22, and such as setting of collecting groove structure 2411 of water collecting structure 241 exists Between descending branch 243 and ascent stage 242, in this way, liquid water can flow into descending branch 243 along the internal face of descending branch 243 Into collecting groove structure 2411, since the airflow downstream side of collecting groove structure 2411 is the ascent stage 242, to ensure catch basin knot Water in structure 2411 will not continue to ramp up the flowing of section 242.To simplify structure, as shown in figure 3, ascent stage 242 and descending branch 243 Intersection in lower section forms the lower kinking structure 244 for being bent downwardly setting, and collecting groove structure 2411 is arranged in lower kinking structure 244 Bottom, that is, collecting groove structure 2411 is recessed by the inner bottom wall of lower kinking structure 244.

Discharge structure for example may include the osculum being arranged on the cell wall of collecting groove structure 2411, will by osculum The water discharge that collecting groove structure 2411 is collected, it is of course also possible to which individual discharge structure is arranged on the second linkage section 24 to arrange Water, for example, discharge structure is the draining straight slot being arranged on the second linkage section 24.

It is further preferred that simplify structure, collecting groove structure 2411 is formed by above-mentioned ventilating structure, for example, in Fig. 3 Shown in form lower kinking structure 244 in embodiment, on porous tube section 245, collecting groove structure 2411 by porous tube section 245 inner wall Face is recessed to be formed, in this way, the breathable microporous of porous tube section 245 can be arranged the water in collecting groove structure 2411 as osculum Go out.

Further, it is additionally provided with volume control device 4 on gasification tunnel 2, such as can be flow control valve, passes through Volume control device 4 controls the displacement of steam discharge section 22, indoor environment humidity to be adjusted.It is further preferred that indoor Humidity sensor and controller are additionally provided on machine 1, controller is connected with humidity sensor and volume control device 4, control Device can intelligently adjust the aperture of volume control device 4 according to the indoor environment humidity that humidity sensor detects, to realize Automatic adjustment to indoor environment humidity further improves the usage comfort of user.

The application mainly using evaporator as indoor heat exchanger, condenser be outdoor heat exchanger for describe air-conditioning system Various embodiments, it is, of course, understood that above structure is outdoor heat exchanger in evaporator, condenser is indoor heat exchanger In the case of it is equally applicable, at this point, the water energy in the drip tray in the lower section of outdoor heat exchanger, outdoor unit 5 is arranged in drip tray Enough being passed through indoor heat exchanger along gasification tunnel 2 carries out heat exchange gasification, and is directly blown out by indoor unit 1.

Air-conditioning system provided by the utility model carries out heating and gasifying to add to indoor environment using condenser to water It is wet, without increasing additional atomization plant, reduce the production cost of air-conditioning system.

Those skilled in the art will readily recognize that under the premise of not conflicting, above-mentioned each preferred embodiment can be free Ground combination, superposition.

It should be appreciated that above-mentioned embodiment is merely exemplary, and not restrictive, without departing from the utility model In the case of basic principle, those skilled in the art can be directed to the various apparent or equivalent modification that above-mentioned details is made Or replace, all it is included in the right of the utility model.

Claims (15)

1. a kind of air-conditioning system, which is characterized in that including evaporator and condenser, further include water-supply structure and tied with the water supply The gasification tunnel of structure connection, the gasification tunnel include the heat exchanging segment that can be exchanged heat with the condenser and are used for the gasification The steam discharge section of vapor discharge in channel.

2. air-conditioning system according to claim 1, which is characterized in that the gasification tunnel further includes the connection heat exchanging segment With the first linkage section of the water-supply structure, filter device is provided in first linkage section.

3. air-conditioning system according to claim 1, which is characterized in that the gasification tunnel further includes the connection steam discharge section With the second linkage section of the heat exchanging segment；

At least partly structure setting of second linkage section is ventilating structure；And/or

It is provided with water collecting structure and/or discharge structure on second linkage section.

4. air-conditioning system according to claim 3, which is characterized in that the ventilating structure includes porous tube section.

5. air-conditioning system according to claim 3, which is characterized in that the water collecting structure includes being formed in described second to connect Connect the collecting groove structure on the inner wall of section.

6. air-conditioning system according to claim 3, which is characterized in that second linkage section wraps in air current flow direction Descending branch and ascent stage are included, the water collecting structure was arranged between the descending branch and the ascent stage.

7. air-conditioning system according to claim 6, which is characterized in that intersection's shape of the descending branch and the ascent stage At lower kinking structure, the water collecting structure is arranged in the bottom of the lower kinking structure.

8. air-conditioning system according to claim 5, which is characterized in that be provided with draining on the cell wall of the collecting groove structure Hole.

9. air-conditioning system according to claim 8, which is characterized in that air hole is provided on the ventilating structure, it is described Collecting groove structure is formed by the ventilating structure, and the air hole constitutes the osculum.

10. air-conditioning system according to claim 1, which is characterized in that the air-conditioning system includes air outlet, the steam discharge The air outlet of section is located at the air outlet or positioned at close to the position of the air outlet.

11. air-conditioning system according to claim 10, which is characterized in that the air-conditioning system includes wind outlet panel, described Air outlet is formed in the wind outlet panel, and the water being connected to the air outlet of the steam discharge section is provided in the wind outlet panel Vapor outlet port.

12. air-conditioning system according to claim 11, which is characterized in that the wind outlet panel is provided with the vapor and goes out The outer surface in the region of mouth is formed as the curved surface of evagination.

13. air-conditioning system according to one of claims 1 to 12, which is characterized in that be provided with stream on the gasification tunnel Amount control device, the displacement for controlling the steam discharge section.

14. air-conditioning system according to one of claims 1 to 12, which is characterized in that the arrival end of the heat exchanging segment is less than The water-supply structure setting.

15. air-conditioning system according to one of claims 1 to 12, which is characterized in that the air-conditioning system further includes being used for The water container of the condensed water of the evaporator surface is picked up, the water container constitutes the water-supply structure.