CN209489080U - Storing apparatus and air-conditioning equipped with it - Google Patents

Abstract

The utility model relates to a kind of storing apparatus and equipped with its air-conditioning, storing apparatus includes: the accommodating chamber with cooling wall, forms the cooling chamber for being located at accommodating chamber side in cooling wall；Cooling structure is at least partially housed in cooling chamber；Wherein, cooling structure can carry out heat exchange with accommodating chamber.Above-mentioned storing apparatus, the cooling wall that inside is equipped with cooling structure can carry out heat exchange with accommodating chamber to cool down to accommodating chamber.Since cooling structure is directly arranged at the inside of cooling wall, therefore cooling structure and accommodating chamber have biggish contact area and shorter heat transfer distance, cooling structure has good cooling effect to accommodating chamber, the heat in accommodating chamber can be made effectively to distribute, making the electrical component in accommodating chamber, normal table works in a long time, extends the service life of electrical component.

Description

Storing apparatus and air-conditioning equipped with it

Technical field

The utility model relates to air-conditioning technical fields, more particularly to a kind of storing apparatus and equipped with its air-conditioning.

Background technique

In air conditioner industry, electric member is influenced whether for accommodating the temperature height of the interior of electrical box of electrical component in air-conditioning The longtime running of device, especially when the temperature is excessively high by for influence electrical component service life, therefore electrical appliance kit needs have Higher heat dissipation performance.But at the same time, electrical appliance kit also needs to reach higher seal request, to prevent the objects such as extraneous liquid Matter invasion.And since thermal diffusivity and leakproofness are the characteristic of two opposition under normal conditions, the electrical appliance kit with excellent radiating effect It is generally necessary to therefore, it is difficult to reach good leakproofness, and there is the electric appliance of good leakproofness with the abundant convection current of outside air Box be then difficult to outside air convection current and be difficult to reach good thermal diffusivity, therefore be perplex the industry in a difficult point.

In air-conditioner set, the preferable solution of heat dissipation effect is refrigerant heat dissipation at present.Traditional refrigerant radiates due to it Fault of construction, it is difficult to play maximum radiating efficiency, heat dissipation effect is poor.

Utility model content

Based on this, it is necessary to for the electrical appliance kit leakproofness and the poor problem of thermal diffusivity of air-conditioning, provide a kind of sealing Property with the good electrical appliance kit of thermal diffusivity and the air-conditioning equipped with the electrical appliance kit.

A kind of storing apparatus, the storing apparatus include:

Accommodating chamber with cooling wall, the interior cooling chamber for forming the neighbouring accommodating chamber of the cooling wall；

Cooling structure is at least partially housed in the cooling chamber and carries out heat exchange with the accommodating chamber.

Above-mentioned storing apparatus, inside be equipped with cooling structure cooling wall can with accommodating chamber carry out heat exchange with to accommodating chamber into Row cooling.Since cooling structure is directly arranged at the inside of cooling wall, cooling structure 40 has biggish connect with accommodating chamber The long-pending and shorter heat transfer distance of contacting surface, cooling structure have good cooling effect to accommodating chamber 21, can make in accommodating chamber Heat effectively distributes, and making the electrical component in accommodating chamber, normal table works in a long time, extends the use of electrical component Service life.

The cooling structure includes cooling structure main body in one of the embodiments, and the cooling structure main body includes Cooling section, liquid input section and liquid section out, the cooling section be located in the cooling chamber and with the liquid input section and it is described go out liquid section Common connection forms cooling channel, and one end of the liquid input section is connect with the cooling section, and the other end stretches out outside the cooling wall； One end of the liquid section out is connect with the cooling section, and the other end stretches out outside the cooling wall.

The cooling structure main body is in hollow tubular structure in one of the embodiments, and the cooling section is described Bending extends in cooling chamber, and the liquid input section is connected to described cooling section one end, and it is remote that the liquid input section is connected to the cooling section The other end from the liquid input section.

The cooling structure further includes control valve and/or temperature sensing unit, the control in one of the embodiments, Valve processed and/or the temperature sensing unit are installed on the cooling structure main body, and the control valve is described cold for controlling But the cold medium flux size of access, the temperature sensing are used to detect the temperature of the cooling channel.

In one of the embodiments, the control valve and/or the temperature sensing unit be set to the liquid input section and/ Or the liquid section out.

In one of the embodiments, the liquid input section with it is described go out liquid Duan Jun be respectively equipped with the control valve with it is described Temperature sensing unit, the temperature sensing unit are located at the control valve close to the cooling section side.

The cooling wall is provided with heat exchanging chamber backwards to the surface of the accommodating chamber in one of the embodiments, described to change Hot chamber and the accommodating chamber are interconnected.

Run through on the cooling wall in one of the embodiments, and offers the connection accommodating chamber and the heat exchanging chamber Connectivity slot.

The cooling wall is equipped with cooling fins far from one side surface of accommodating chamber in one of the embodiments, multiple The cooling fins are alternatively arranged.

A kind of air-conditioning, including above-mentioned storing apparatus, the accommodating chamber of the storing apparatus is for accommodating electrical component.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the storing apparatus of an embodiment of the utility model；

Fig. 2 be storing apparatus shown in FIG. 1 A-A to cross-sectional view；

Fig. 3 is the partial enlarged view at B shown in Fig. 2；

Fig. 4 is the explosive view of storing apparatus shown in FIG. 1；

Fig. 5 is the cooling wall of storing apparatus shown in FIG. 1 and the structural schematic diagram of cooling structure.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms in fact It is existing, however it is not limited to embodiment described herein.On the contrary, purpose of providing these embodiments is makes public affairs to the utility model The understanding for opening content is more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement are for illustrative purposes only.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein includes Any and all combinations of one or more related listed items.

As shown in Figures 1 and 2, a kind of air-conditioning of the utility model, including the storing apparatus for accommodating electrical component 100.Specifically, storing apparatus 100 includes main casing 20 and cooling structure 40, and main casing 20 is in hollow cube structure, shape At the accommodating chamber 21 with cooling wall 22, the interior formation of cooling wall 22 is neighbouring and independently of the cooling chamber of accommodating chamber 21, cooling structure 40 are at least partially housed in cooling chamber.

In this way, the internal cooling wall 22 for being equipped with cooling structure 40 and accommodating chamber 21 carry out heat exchange to carry out to accommodating chamber 21 Cooling.Since cooling structure 40 is directly arranged at the inside of cooling wall 22, cooling structure 40 has larger with accommodating chamber 21 Contact area and shorter heat transfer distance, cooling structure 40 has good cooling effect to accommodating chamber 21, can make to accommodate Heat in chamber 21 effectively distributes, and making the electrical component in accommodating chamber 21, normal table works in a long time, extends electric member The service life of device.

As shown in figure 4, specifically, main casing 20 includes cooling wall 22, the first side wall 23, second sidewall 24, upper cover plate 25, lower cover plate 26 and main cover plate 27, cooling wall 22, the first side wall 23, second sidewall 24, upper cover plate 25, lower cover plate 26 and Accommodating chamber 21 is collectively formed to accommodate electrical component in main cover plate 27.Wherein, cooling wall 22 and main cover plate 27 are in rectangle, between the two Every and be arranged in parallel, and the outer profile of the outer profile of orthographic projection of the cooling wall 22 on main cover plate 27 and cooling wall 22 is substantially heavy It closes.The first side wall 23, second sidewall 24, upper cover plate 25, which connect cooling wall 22 and main cover plate 27 with lower cover plate 26 and enclose, is set to cooling The periphery of wall 22 and main cover plate 27, wherein the first side wall 23 and second sidewall 24 are in rectangle, between the two every and be arranged in parallel, and The outer profile of orthographic projection of the first side wall 23 in second sidewall 24 and the outer profile of second sidewall 24 substantially overlap；Upper cover plate 25 with lower cover plate 26 be in rectangle, between the two every and be arranged in parallel, and the foreign steamer of orthographic projection of the upper cover plate 25 on lower cover plate 26 The wide outer profile with lower cover plate 26 substantially overlaps.In this way, cooling wall 22, the first side wall 23, second sidewall 24, upper cover plate 25, under Hollow cube structure is collectively formed in cover board 26 and main cover plate 27.It is appreciated that in other embodiments, main casing 20 Shape is without being limited thereto, can be set as needed as different shape.

In one embodiment, cooling wall 22, the first side wall 23, second sidewall 24, upper cover plate 25, lower cover plate 26 and main cover At least one of plate 27 is additionally provided with cooling fins far from the side of accommodating chamber 21, and multiple cooling fins are alternatively arranged to increase heat dissipation Area further increases the heat dissipation effect of storing apparatus 100.It is appreciated that the shape of cooling fins, quantity, arrangement mode are not Limit, cooling fins can be arranged along different directions, can also be the different shapes such as waveform, aciculiform.In other embodiments, the first side Wall 23 and second sidewall 24 can also be not provided with cooling fins, but be radiated by setting shutter.

Fig. 4 and Fig. 5 is please referred to, cooling structure 40 includes cooling structure main body 41, and cooling structure main body 41 is in hollow pipe Shape structure, including cooling section 414, liquid input section 412 and liquid section 416 out.Wherein, cooling section 414 is located at the cooling of cooling wall 22 Intracavitary and be bent and extend in cooling chamber, one end of liquid input section 412 connect with 414 one end of cooling section, other end stretching cooling wall 22 is outer easily to connect other devices；One end of liquid section 416 is connect with cooling section 414 far from 412 one end of liquid input section out, separately It is outer easily to connect other devices that cooling wall 22 is stretched out in one end.In this way, cooling section 414, liquid input section 412 and liquid section 416 out It is interconnected and forms cooling channel, refrigerant can flow in the cooling channel, to take away the heat in accommodating chamber 21.Due to refrigerant Channel is directly contained in the cooling wall 22 to form accommodating chamber 21, therefore refrigerant pipe in the prior art and heat sink is not present Being bonded between not tight or both has air layer.

It is appreciated that the bore shape of cooling structure main body 41 is unlimited, it can be the shapes such as round, rectangle or polygon. As shown in figure 4, specifically in one embodiment, the bore shape of cooling structure main body 41 is circle.

It is appreciated that the shape that cooling section 414 is formed by bending can also be set as needed.As shown in figure 5, specifically one In embodiment, cooling section 414 includes multiple straight line portions and bending section.Wherein, each straight line portion is flat with the short side of cooling wall 22 The length of row and straight line portion is slightly less than the length of short side, and multiple straight line portions are alternatively arranged along the length direction of cooling wall 22.Bending Portion is semicircular arc, and the both ends of bending section connect the both ends of two adjacent straight line portions, to be formed along the length side of cooling wall 22 To sinuous cooling channel.Further, in the above-described embodiments, the distance between every group of two neighboring straight line portion is equal, and Straight line portion forms the biggish heat exchange area of area uniformly throughout entire cooling wall 21.And in other embodiments, different positions The distance between two neighboring straight line portion set can be different, and the density degree of straight line portion distribution can be according to the hair of electrical component Heat carries out specific aim arrangement, the straight line portion more crypto set in the higher region of calorific value, and the straight line portion in the low region of calorific value It is then more sparse, to make the higher region of calorific value that there is higher cooling velocity, be conducive to each position of accommodating chamber 21 Temperature uniformly decline, while having saved the usage amount of cooling structure main body 41 Yu refrigerant.

As shown in Figures 4 and 5, cooling structure 40 further includes control valve 43 and/or temperature sensing unit 45, control valve 43 and/or temperature sensing unit 45 be installed on cooling structure main body 41, control valve 43 is used to control the refrigerant stream of cooling channel Size is measured, temperature sensing unit 45 is used to detect the temperature of cooling channel.In this way, control valve 43 can be according to the temperature of cooling channel Degree adjustment cold medium flux size.

Specifically, when temperature sensing unit 45 detects the temperature of cooling channel below preset temperature, control valve 43 It is in close state, refrigerant present in cooling channel continues to exchange with the progress heat of accommodating chamber 21, until the temperature of cooling channel Degree reaches preset temperature, and openable control valve 43 makes the refrigerant for completing to exchange heat outflow at this time, while introducing new refrigerant and continuing Accommodating chamber 21 is cooled down.Moreover, control valve 43 can also change openings of sizes by the change rate of the temperature of cooling channel, To change the flow of refrigerant.When the change rate of temperature is larger, the cold medium flux of cooling channel is larger, so that heat exchange can be improved Efficiency.When the change rate of temperature is smaller, the cold medium flux of refrigerant passage is smaller, to make refrigerant that can be filled with accommodating chamber 21 Divide heat exchange, it is energy saving.

In one embodiment, since volumetric constraint, control valve 43 and/or temperature sensing unit 45 are set to liquid input section 412 And/or liquid section 416 out, and not in cooling section 414.Specifically in one embodiment, liquid input section 412 and liquid section 416 out are equal It is respectively equipped with control valve 43 and temperature sensing unit 45, and temperature sensing unit 45 is located at control valve 43 close to cooling section 414 sides.In this way, the temperature of cooling channel can accurately be monitored according to the temperature of liquid input section 412 and liquid section 416 out, neatly adjust Save cold medium flux.

As shown in Fig. 2, cooling wall 22 is provided with heat exchanging chamber 28, heat exchanging chamber 28 and accommodating chamber backwards to the surface of accommodating chamber 21 21 are interconnected.In this way, heat exchanging chamber 28 is located at 22 two sides of cooling wall with accommodating chamber 21 to separate by cooling wall 22, exchange heat Chamber 28 can carry out air cycle heat radiation with accommodating chamber 21, further increase the radiating efficiency of accommodating chamber 21.Moreover, heat exchanging chamber 28 Cooling wall 22 can be played protection, isolation, it is heat-insulated the effects of, avoid cooling wall 22 from directly contacting other external device (ED)s, while cold But wall 22 can also play cooling effect by heat exchanging chamber 28 simultaneously.

Specifically, the first side wall 23, second sidewall 24, upper cover plate 25 and 26 one end of lower cover plate stretch out cooling wall 22, main Shell 20 further includes heat exchanging chamber backboard 28, and the periphery of heat exchanging chamber backboard 28 is connected to the first side wall 23, second sidewall 24, upper cover plate 25 and lower cover plate 26 stretch out 22 one end of cooling wall.In this way, heat exchanging chamber backboard 28, the first side wall 23, second sidewall 24, upper cover Heat exchanging chamber 28 is collectively formed in plate 25, lower cover plate 26 and cooling wall 22.Short side edge of the cooling wall 22 close to 25 side of upper cover plate Middle part through-thickness through connectivity slot 221 is offered, the length of connectivity slot 221 is less than the short side of cooling wall 22, connectivity slot 221 connection accommodating chambers 21 and heat exchanging chamber 28, to make heat exchanging chamber 28 and accommodating chamber 21 that can carry out air cycle heat radiation.It can manage Solution, the position that connectivity slot 221 opens up is without being limited thereto, can also be opened in the other positions of cooling wall 22 as needed.

Above-mentioned storing apparatus 100 and the air-conditioning equipped with it, in setting accommodating chamber 21 and heat exchanging chamber 28 to form dual chamber two On the basis of stage cooling structure, the cooling wall 22 by being equipped with cooling structure 40 carries out into one accommodating chamber 21 and heat exchanging chamber 28 Step cooling has effectively been taken away the heat that the electrical component in accommodating chamber 21 generates by the refrigerant flowing of large area, has not been influenced Under the premise of the closure of storing apparatus 100, the heat dissipation performance of storing apparatus 100 is effectively increased, is avoided warm in accommodating chamber 21 Spend service life that is high and reducing electrical component.Moreover, the flow of the refrigerant in cooling channel can be according to the reality of cooling channel Shi Wendu is flexible, accurately controls.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of storing apparatus, which is characterized in that the storing apparatus includes:

Accommodating chamber (21) with cooling wall (22), the interior cooling for forming neighbouring the accommodating chamber (21) of the cooling wall (22) Chamber；

Cooling structure (40) is at least partially housed in the cooling chamber and carries out heat exchange with the accommodating chamber (21).

2. storing apparatus according to claim 1, which is characterized in that the cooling structure (40) includes cooling structure main body (41), the cooling structure main body (41) includes cooling section (414), liquid input section (412) and liquid section (416) out, the cooling Section (414) be located in the cooling chamber and with the liquid input section (412) and it is described go out liquid section (416) be connected to jointly and forms cooling and lead to The one end on road, the liquid input section (412) is connect with the cooling section (414), and the other end stretches out the cooling wall (22) outside；It is described One end of liquid section (416) is connect with the cooling section (414) out, and the other end stretches out the cooling wall (22) outside.

3. storing apparatus according to claim 2, which is characterized in that the cooling structure main body (41) is in hollow tubulose Structure, the cooling section (414) are bent extension in the cooling chamber, and the liquid input section (412) is connected to the cooling section (414) one end, the liquid input section (412) are connected to the other end of the cooling section (414) far from the liquid input section (412).

4. storing apparatus according to claim 2, which is characterized in that the cooling structure (40) further includes control valve (43) and/or temperature sensing unit (45), the control valve (43) and/or the temperature sensing unit (45) are installed on described Cooling structure main body (41), the control valve (43) are used to control the cold medium flux size of the cooling channel, the temperature Sensing unit (45) is used to detect the temperature of the cooling channel.

5. storing apparatus according to claim 4, which is characterized in that the control valve (43) and/or the temperature pass Feel unit (45) be set to the liquid input section (412) and/or it is described go out liquid section (416).

6. storing apparatus according to claim 5, which is characterized in that the liquid input section (412) and the liquid section out (416) control valve (43) and the temperature sensing unit (45), temperature sensing unit (45) position are respectively equipped with In the control valve (43) close to the cooling section (414) side.

7. storing apparatus according to claim 1, which is characterized in that the cooling wall (22) is backwards to the accommodating chamber (21) Surface be provided with heat exchanging chamber (28), the heat exchanging chamber (28) and the accommodating chamber (21) are interconnected.

8. storing apparatus according to claim 1, which is characterized in that run through on the cooling wall (22) and offer connection institute State the connectivity slot (221) of accommodating chamber (21) Yu the heat exchanging chamber (28).

9. storing apparatus according to claim 1, which is characterized in that the cooling wall (22) is far from the accommodating chamber (21) One side surface is equipped with cooling fins, and multiple cooling fins are alternatively arranged.

10. a kind of air-conditioning, which is characterized in that including storing apparatus as described in any one of claims 1-9, the receiving dress The accommodating chamber (21) set is for accommodating electrical component.