CN104913402A - Air conditioner - Google Patents

Abstract

The invention relates to the technical field of air-conditioning and discloses an air conditioner. The air conditioner comprises an indoor machine, an outdoor machine, a first heat dissipation piece, a first water receiving pipe and a first water drainage pipe, wherein the indoor machine is provided with an evaporator and a water accumulating container used for collecting condensate water and located below the evaporator; the outdoor machine is provided with a first heating piece; the first heat dissipation piece is connected with the first heating piece and used for dissipating heat for the first heating piece, and the first heating piece is provided with first heat dissipation pipes; an inlet of the first water receiving pipe is connected with the water accumulating container, and an outlet of the first water receiving pipe is connected with inlets of the first heat dissipation pipes; the first water drainage pipe is connected with outlets of the heat dissipation pipes and used for draining water out of the outdoor machine. According to the air conditioner, the heat dissipation pipes are arranged on the heating dissipation piece, heat exchange cooling is conducted through the fact that the condensate water flows through the heat dissipation pipes, since the direct contact type heat dissipation is adopted, the heat dissipation effect is good, and the heat dissipation structure is simple.

Description

Air-conditioner

Technical field

The present invention relates to air-conditioning technical field, particularly relate to a kind of air-conditioner.

Background technology

The electronic devices and components of air-conditioner indoor set and off-premises station in running all can produce a large amount of heats, in order to the heat produced in air-conditioner running is shed, the method that existing air-conditioner adopts mainly increases fan, is reached the object of fin heat radiation by the cross-ventilation of fan turns.When being applied in working temperature and being higher, when the temperature difference between the air that convection current is formed and fin is less, fin heat-sinking capability reduces greatly, makes the temperature of the electronic devices and components be connected with fin sharply to increase, thus reduces the serviceability temperature scope of electronic devices and components, and shorten the service life of electronic devices and components, increasing fan can cause air-conditioning overall volume comparatively large, and structure is comparatively complicated, and cost also can be very high, and radiator fan is easy to that there was a mechanical failure, be not easy maintenance.

At present, Chinese patent notification number CN202835727U discloses a kind of air-conditioner, heat radiation in this air-conditioner adopts and is connected with indoor set by the water inlet of drainpipe, discharge outlet is disposed adjacent with fin, and utilize shower nozzle that the condensed water that indoor set produces is sprayed fin surface, thus reach the object reducing heatsink temperature.Fin in this air-conditioner can only be arranged on heat generating components sidepiece and bottom, is therefore only applicable to the heat radiation to off-premises station, and radiating mode is condensing water vapor heat radiation, and heat-sinking capability is low.

Summary of the invention

(1) technical problem that will solve

The object of this invention is to provide a kind of good heat dissipation effect and the simple air-conditioner of radiator structure.

(2) technical scheme

In order to solve the problems of the technologies described above, the invention provides a kind of air-conditioner, comprising:

Indoor set, described indoor set is provided with evaporimeter and is positioned at below described evaporimeter for collecting the seeping container of condensed water;

Off-premises station, described off-premises station is provided with the first heat generating member;

First fin, described first fin is connected with described first heat generating member, and for being described first heat generating member heat radiation, described first fin is provided with the first radiating tube;

First water receiving pipe, the water inlet of described first water receiving pipe is connected with described seeping container, and the delivery port of described first water receiving pipe is connected with the import of described first radiating tube; And

First row water pipe, described first row water pipe is connected with the outlet of the first radiating tube, for water is discharged off-premises station.

Wherein, described first radiating tube is multiple, and described first water receiving pipe is connected with multiple first radiating tube respectively by the first current divider, and described first row water pipe is connected with the outlet of multiple described first radiating tube respectively by the first junction station.

Wherein, described indoor set is provided with the second heat generating member, and this air-conditioner also comprises the second water receiving pipe, the second fin and second row water pipe, and described second fin is connected with described second heat generating member, for being described second heat generating member heat radiation; Described second fin is provided with the second radiating tube, and the import of described second water receiving pipe is connected with described seeping container, and its outlet is connected with the import of described second radiating tube; Described second row water pipe is connected with the outlet of the second radiating tube, for water is discharged indoor set.

Wherein, described second radiating tube is multiple, and described second water receiving pipe is connected with multiple second radiating tube respectively by the second current divider, and described second row water pipe is connected with the outlet of multiple described second radiating tube respectively by the second junction station.

Wherein, described first fin is multiple, and multiple described first fin compartment of terrain is connected with described first heat generating member; Described second fin is multiple, and multiple described second fin compartment of terrain is connected with described second heat generating member.

Wherein, described first water receiving pipe is connected with second row water pipe.

Wherein, the distribution pipeline of described first current divider, described first junction station, described second current divider and described second junction station is N road, and N is positive integer and meets: 3≤N≤7.

Wherein, described first radiating tube and the second radiating tube are the copper pipe of internal diameter 3mm.

The present invention also provides a kind of air-conditioner, comprising:

Off-premises station;

Indoor set, described indoor set is provided with evaporimeter, seeping container and the second heat generating member, and described seeping container is positioned at below described evaporimeter for collecting condensed water;

Second fin, described second fin is connected with described second heat generating member, and for being described second heat generating member heat radiation, described second fin is provided with the second radiating tube;

Second water receiving pipe, the water inlet of described second water receiving pipe is connected with described seeping container, and the delivery port of described second water receiving pipe is connected with the import of described second radiating tube;

Second row water pipe, described second row water pipe is connected with the outlet of the second radiating tube, for water is discharged indoor set.

Wherein, described second radiating tube is multiple, and described second water receiving pipe is connected with multiple second radiating tube respectively by the second current divider, and described second row water pipe is connected with the outlet of multiple described second radiating tube respectively by the second junction station.

(3) beneficial effect

Air-conditioner provided by the invention has following beneficial effect:

(1) fin is utilized to be connected with heat generating member, arrange radiating tube on a heat sink, utilize condensed water to flow through and dispelled the heat and carry out heat exchange cooling, the temperature of condensed water is lower, the temperature of fin is higher, the two temperature difference is comparatively large, forms the effective temperature-reducing of fin, reduces the temperature of fin, thus reduce the temperature of connected heat generating components, owing to adopting direct contact type heat radiation, good heat dissipation effect, and radiator structure is simple.

(2) radiating tube of fin is multiple, utilize current divider shunt the area of dissipation of fin is increased, dispel the heat evenly.

(3) radiating tube adopts copper pipe, and the heat conductivity of copper is better, strengthens the effect of heat exchange, makes radiating effect better.

(4) radiator structure is comparatively closed, can be applied in each position of heat generating member, simple and reliable.

(5) material used is easy to get, and scheme is simple, reduces cost while effective temperature-reducing.

Accompanying drawing explanation

Fig. 1 is the structural representation of the air-conditioner that the embodiment of the present invention 1 provides;

Fig. 2 is the structural representation of the air-conditioner that the embodiment of the present invention 2 provides.

In figure: 1: indoor set; 2: off-premises station; 3: evaporimeter; 4: seeping container; 51: the first heat generating members; 52: the second heat generating members; 61: the first fin; 610: the first radiating tubes; 62: the second fin; 620: the second radiating tubes; 71: the first water receiving pipes; 72: the second water receiving pipes; 81: the first current dividers; 82: the second current dividers; 91: the first junction stations; 92: the second junction stations; 101: first row water pipe; 102 second row water pipes.

Detailed description of the invention

Below in conjunction with drawings and Examples, the specific embodiment of the present invention is described in further detail.Following instance for illustration of the present invention, but is not used for limiting the scope of the invention.

It should be noted that, in description of the invention, unless otherwise expressly provided or limit, term " first ", " second " only for describing object, and can not be interpreted as instruction or imply its its relative importance or the implicit quantity indicating indicated relative characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more this feature, in describing the invention, except as otherwise noted, the implication of " multiple " is two or more, unless otherwise clear and definite restriction.

In the present invention, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood as the case may be.

Embodiment 1

As shown in Figure 1, a kind of air-conditioner that the embodiment of the present invention provides, comprising: indoor set 1, off-premises station 2, first water receiving pipe 71, first fin 61 and first row water pipe 101, wherein:

Indoor set 1 be provided with evaporimeter 3 and be positioned at below evaporimeter 3 for collect condensed water seeping container 4, air-conditioner is in running, cold-producing medium in the evaporimeter 3 of indoor set 1 and surrounding air generation heat exchange the heat absorbed in surrounding air are to reduce the temperature of room air, when evaporimeter 3 ambient air is cooled, moisture in air can condense into condensed water, and seeping container 4 is for collecting the condensed water produced when evaporimeter 3 works.

It is main but be not limited to be off-premises station electric-controlled box that off-premises station 2 is provided with the first heat generating member 51, first heat generating member 51.First fin 61 is connected with the first heat generating member 51, for the heat that first heat generating member 51 that leaves produces, to reduce the temperature of the first heat generating member 51; The water inlet of the first water receiving pipe 71 is connected with seeping container 4, and derive with the condensed water will collected in seeping container 4, the first water receiving pipe 71 adopts the material of plastics or panel beating material to make.

First fin 61 is provided with multiple first radiating tube 610, the delivery port of the first water receiving pipe 71 is connected with the import of multiple first radiating tube 610 respectively by the first current divider 81, first row water pipe 101 is connected with the outlet of multiple first radiating tube 610 respectively by the first junction station 91, and the first junction station 91 and first row water pipe 101 are for collecting the water through the first radiating tube 610 and discharge off-premises station.First current divider 81 and the first junction station 91 all adopt the material of plastics or quality of rubber materials to make.

When air-conditioner is in refrigeration mode, first heat generating member 51 of off-premises station 2 can produce a large amount of heats due to energising, when working temperature is higher, when summer, the temperature of the first heat generating member 51 surrounding air is higher, the heat that first heat generating member 51 produces often is difficult to distribute, and cause the first heat generating member 51 temperature to raise, temperature can reach 70 ~ 80 DEG C.The air-conditioner that the present embodiment provides, by the condensed water that the condenser 3 of indoor set 1 produces, the temperature of condensed water is generally at 10 DEG C, particularly when working temperature is higher, the feature that the temperature of condensed water is more much lower than the temperature of the first fin 61, make condensed water when the first radiating tube 610 of the first fin 61 and effective heat exchange occurs the first fin 61, take away most of heat of the first fin 61, after the water of the first radiating tube 610 is confluxed by the first junction station 91, discharge off-premises station by first row water pipe 101.The first radiating tube 610 in the present embodiment is multiple, first water receiving pipe 71 will import in each first radiating tube 610 after the condensation water divided flow collected in seeping container 4 by the first current divider 81, considerably increase the heat exchange area of condensed water and the first fin 61, thus fast and effeciently can reduce the temperature of the first fin 61, and then effectively reduce the temperature of the first heat generating member 51 be connected with the first fin 61, avoid the temperature of the first heat generating member 51 too high, effectively prevent the first heat generating member Yin Wendu too high and damage.Structure of the present invention is simple, only needs to use water receiving pipe, current divider and junction station, and cost is low, and the possibility that mechanical fault occurs; The present invention adopts condensed water and fin contact to dispel the heat, can fast cooling, good cooling results.

Indoor set 1 is provided with the second heat generating member 52, and this air-conditioner also comprises the second water receiving pipe 72, second fin 62 and second row water pipe 102, second fin 62 is connected with the second heat generating member 52, for dispelling the heat for the second heat generating member 52.Second fin 62 is provided with multiple second radiating tube 620, the water inlet of the second water receiving pipe 72 is connected with seeping container 4, the delivery port of the second water inlet pipe 72 is connected with the import of multiple second radiating tube 620 by the second current divider 82, second row water pipe 102 is connected with the outlet of multiple second radiating tube 620 respectively by the second junction station 92, and water confluxes and discharges indoor set 1 by the second junction station 92 and second row water pipe 102.Preferred second water receiving pipe 72 adopts the material of plastics or panel beating material to make.Second current divider 82 and the second junction station 92 all adopt the material of plastics or quality of rubber materials to make.

Identical with to the cooling procedure of the first heat generating member to the cooling procedure of the second heat generating member 52, do not repeat them here.By cooling the second heat generating member 52 of indoor set 1, reduce the heat of generation when indoor set 1 works to the impact of indoor temperature, ensure that indoor temperature is lowered as best one can, can effective economize energy, and avoid second heat generating member 52 loss because temperature is too high of indoor set 1.

First fin 61 of the present embodiment air-conditioner can be multiple, and the first heat generating member 51 is located in multiple first fin 61 compartment of terrain, further can strengthen radiating effect thus, and then further reduce the temperature of the first heat generating member 51, extend the service life of the first heat generating member 51.First fin 61 be arranged at the sidepiece of the first heat generating member 51 or top or bottom all can, have easy for installation, cost is low and the reliable advantage of successful.Same, the second fin also can be multiple second fin 62 can be multiple, and multiple second fin 62 compartment of terrain is located at the second heat generating member 52, the second fin 62 and is arranged at the sidepiece of the second heat generating member 52 or top or bottom and all can.

Further, the distribution pipeline of the first current divider 81, first junction station 91, second current divider 82 and the second junction station 92 is N road, and N is positive integer and meets: 3≤N≤7.Preferably, N=5.To make the condensed water component entering the first radiating tube 610, second radiating tube 620 through the first current divider 81, second current divider 82 enough, be unlikely to again too much to cause waste, thus make the heat exchange effect of condensed water and the first fin 61 and the second fin 62 better and avoid the waste of condensed water, further increase heat exchanger effectiveness, improve the heat-sinking capability of the first fin 61 and the second fin 62.It should be noted that, isocon can be identical with the structure of collecting pipe, and in use direction is contrary.

Further, the internal diameter of the first radiating tube 610 and the second radiating tube 620 is all set to 3mm, first radiating tube 610 and the second radiating tube 620 adopt copper pipe to make, further strengthen the heat exchange effect of condensed water and the first fin 61 second fin 62 thus, make the heat-sinking capability of the first fin 61 second fin 62 stronger.

It should be noted that, the first water receiving pipe 71 of off-premises station 2 also can be connected with second row water pipe 102.

Embodiment 2

As shown in Figure 2, a kind of air-conditioner that the embodiment of the present invention provides, comprising: indoor set 1, off-premises station 2, first water receiving pipe 71, first fin 61 and first row water pipe 101, wherein:

Indoor set 1 is provided with evaporimeter 3, seeping container 4 and the second heat generating member 52, and seeping container 4 is positioned at below evaporimeter 3.Air-conditioner is in running, cold-producing medium in the evaporimeter 3 of indoor set 1 and surrounding air generation heat exchange the heat absorbed in surrounding air are to reduce the temperature of room air, when evaporimeter 3 ambient air is cooled, moisture in air can condense into condensed water, and seeping container 4 is for collecting the condensed water produced when evaporimeter 3 works.

Off-premises station 2 is provided with the first heat generating member 51, first fin 61 and is connected with the first heat generating member 51, for the heat that first heat generating member 51 that leaves produces, to reduce the temperature of the first heat generating member 51.The water inlet of the first water receiving pipe 71 is connected with seeping container 4, derives with the condensed water will collected in seeping container 4.

First fin 61 is provided with the first radiating tube 610, the delivery port of the first water receiving pipe 71 is connected with the import of the first radiating tube 610, first row water pipe 101 is connected with the outlet of the first radiating tube 610, and first row water pipe 101 is for collecting the water through the first radiating tube 610 and discharging off-premises station 2.

Further, this air-conditioner also comprises the second water receiving pipe 72, second fin 62 and second row water pipe 102, second fin 62 is connected with the second heat generating member 52, for dispelling the heat for the second heat generating member 52.The import that second fin 62 is provided with the second radiating tube 620, second water receiving pipe 72 is connected with seeping container 4, and the second water receiving pipe 72 outlet is connected with the import of the second radiating tube 620; Second row water pipe 102 is connected with the outlet of the second radiating tube 620, for water is discharged indoor set 1.

In the present embodiment, the first radiating tube 610 and the second radiating tube 620 are one, and are preferably that Z-shaped row extension arrangement is located on the first fin 61 and the second fin 62.The heat radiation operation principle of the present embodiment is identical with embodiment 1, does not repeat them here.

In the present invention, the the second heat generating member heat radiation 52 arranging the second water receiving pipe 72, second fin 62 and second row water pipe 102 pairs of indoor sets is carried out dispelling the heat and is carried out heat radiation with the first heat generating members 51 arranging the first water receiving pipe 71, first fin 61 and first row water pipe 101 pairs of off-premises stations and can independently exist, therefore, the detailed description of the invention of technical schemes that the second heat generating member heat radiation 52 of only arranging the second water receiving pipe 72, second fin 62 and second row water pipe 102 pairs of indoor sets is dispelled the heat is repeated no more.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. an air-conditioner, is characterized in that, comprising:

Indoor set, described indoor set is provided with evaporimeter and is positioned at below described evaporimeter for collecting the seeping container of condensed water;

Off-premises station, described off-premises station is provided with the first heat generating member;

First fin, described first fin is connected with described first heat generating member, and for being described first heat generating member heat radiation, described first fin is provided with the first radiating tube;

First water receiving pipe, the water inlet of described first water receiving pipe is connected with described seeping container, and the delivery port of described first water receiving pipe is connected with the import of described first radiating tube; And

First row water pipe, described first row water pipe is connected with the outlet of the first radiating tube, for water is discharged off-premises station.

2. air-conditioner as claimed in claim 1, it is characterized in that, described first radiating tube is multiple, and described first water receiving pipe is connected with multiple first radiating tube respectively by the first current divider, and described first row water pipe is connected with the outlet of multiple described first radiating tube respectively by the first junction station.

3. air-conditioner as claimed in claim 1 or 2, it is characterized in that, described indoor set is provided with the second heat generating member, and this air-conditioner also comprises the second water receiving pipe, the second fin and second row water pipe, described second fin is connected with described second heat generating member, for being described second heat generating member heat radiation; Described second fin is provided with the second radiating tube, and the import of described second water receiving pipe is connected with described seeping container, and its outlet is connected with the import of described second radiating tube; Described second row water pipe is connected with the outlet of the second radiating tube, for water is discharged indoor set.

4. air-conditioner as claimed in claim 3, it is characterized in that, described second radiating tube is multiple, and described second water receiving pipe is connected with multiple second radiating tube respectively by the second current divider, and described second row water pipe is connected with the outlet of multiple described second radiating tube respectively by the second junction station.

5. air-conditioner as claimed in claim 3, it is characterized in that, described first fin is multiple, and multiple described first fin compartment of terrain is connected with described first heat generating member; Described second fin is multiple, and multiple described second fin compartment of terrain is connected with described second heat generating member.

6. air-conditioner as claimed in claim 3, it is characterized in that, described first water receiving pipe is connected with second row water pipe.

7. air-conditioner as claimed in claim 4, it is characterized in that, the distribution pipeline of described second current divider and described second junction station is N road, and N is positive integer and meets: 3≤N≤7.

8. air-conditioner as claimed in claim 3, it is characterized in that, described first radiating tube and the second radiating tube are the copper pipe of internal diameter 3mm.

9. an air-conditioner, is characterized in that, comprising:

Off-premises station;

Indoor set, described indoor set is provided with evaporimeter, seeping container and the second heat generating member, and described seeping container is positioned at below described evaporimeter for collecting condensed water;

Second fin, described second fin is connected with described second heat generating member, and for being described second heat generating member heat radiation, described second fin is provided with the second radiating tube;

Second water receiving pipe, the water inlet of described second water receiving pipe is connected with described seeping container, and the delivery port of described second water receiving pipe is connected with the import of described second radiating tube;

Second row water pipe, described second row water pipe is connected with the outlet of the second radiating tube, for water is discharged indoor set.

10. air-conditioner as claimed in claim 9, it is characterized in that, described second radiating tube is multiple, and described second water receiving pipe is connected with multiple second radiating tube respectively by the second current divider, and described second row water pipe is connected with the outlet of multiple described second radiating tube respectively by the second junction station.