CN106132170B - Electric control device and air conditioner with same - Google Patents

Abstract

The invention provides an electric control device and an air conditioner with the same. The electric control device comprises an electrical element and a heat dissipation structure for heat dissipation of the electrical element, wherein the heat dissipation structure comprises a cylinder body and a heat dissipation part arranged on the outer wall of the cylinder body. By applying the technical scheme of the invention, the problem of poor heat dissipation effect of the electrical element in the prior art can be effectively solved.

Description

Electric control gear and air conditioner with it

Technical field

The present invention relates to refrigerating fields, in particular to a kind of electric control gear and with its air conditioner.

Background technique

In centrifuge, system control component is essential part.Some of parts are heater element, these yuan Part is greatly influenced by temperature, if temperature field is uneven, influences whether the performance of its performance.If cannot radiate in time, control element Temperature will be excessively high, so as to cause the damage of control element, control is caused to paralyse, unit can not operate normally.The prior art In generally by following two method come solution element device heat dissipation problem.The first, electric elements are placed in control cabinet body, And pass through fan cooling；Second, electric elements are placed in one piece of heat exchanger plates, take away heat by media such as refrigerant or water. Using the structure of the prior art, although solving the heat dissipation problem of electric elements, following three points deficiency is also brought.First Point, above structure radiate using extra means, so that production cost increased；Second point, above structure use Extra means heat dissipation, it is inconvenient to lead to installation, and occupy unit additional space；Thirdly, above structure makes machine group part At random, appearance is not compact.

Summary of the invention

The main purpose of the present invention is to provide a kind of electric control gear and with its air conditioner, to solve in the prior art Electric elements heat dissipation effect difference problem.

To achieve the goals above, according to an aspect of the invention, there is provided a kind of electric control gear, including electric elements And the radiator structure for electric elements heat dissipation, radiator structure include dissipating on cylinder ontology and the outer wall that cylinder ontology is arranged in Hot portion.

Further, cylinder ontology has the accommodation space for accommodating motor, is provided with cooling between cylinder ontology and motor Structure.

Further, radiating part includes: heat sink, and the side of heat sink is arranged on the outer wall of cylinder ontology, heat sink The other side contacted with electric elements.

Further, heat sink includes the segregation section for being bonded section and connecting with fitting section, and fitting section is bonded with cylinder ontology, There is distance between segregation section and cylinder ontology.

Further, the area for being bonded section is greater than the area of segregation section.

Further, radiating part further includes conductive structure, and conductive structure is arranged between segregation section and cylinder ontology.

Further, conductive structure is thermally conductive muscle, and thermally conductive muscle is multiple along axially arranging for cylinder ontology.

Further, water receiving tank is collectively formed in adjacent two thermally conductive muscle, heat sink and cylinder ontology, sets on heat sink Flow-guiding structure is equipped with to export the water in water receiving tank.

Further, flow-guiding structure includes the diversion trench being connected to water receiving tank, and at least one end of diversion trench extends to heat dissipation The side edge of plate.

Further, the angled setting of axis of diversion trench and cylinder ontology.

Further, the angle between diversion trench and the axis of cylinder ontology is more than or equal to 13 degree.

Further, the both ends of diversion trench extend to the side edge of heat sink, and the middle part of diversion trench is higher than the two of diversion trench End.

Further, flow-guiding structure further includes the deflector hole being arranged on diversion trench, and deflector hole is connected to water receiving tank and water conservancy diversion Slot.

Further, water receiving tank is multiple, and deflector hole is multiple, at least corresponding deflector hole of each water receiving tank.

Further, segregation section includes spaced upper segregation section and lower segregation section, fitting section be located at upper segregation section with Between lower segregation section, flow-guiding structure is provided on upper segregation section.

Further, radiating part and cylinder ontology are an integral molding structure.

According to another aspect of the present invention, providing a kind of air conditioner includes: electric control gear, and electric control gear is above-mentioned electricity Control device.

Using the technical solution of the present embodiment, electric control gear includes the radiator structure to radiate to electric elements, radiator structure Including cylinder ontology and the radiating part that is arranged on the outer wall of cylinder ontology.Above structure enables radiator structure to be electric appliance member Part radiates.Since cylinder ontology has the advantages that heat dissipation area is big, temperature is uniform, the heat dissipation of electric elements can be made Better effect, it is ensured that electric elements reliably working.Solve the problems, such as that electric elements heat dissipation effect in the prior art is poor.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide further understanding of the present invention, and of the invention shows Examples and descriptions thereof are used to explain the present invention for meaning property, does not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 shows the schematic elevation view of the radiator structure of the embodiment of electric control gear according to the present invention；

Fig. 2 shows the schematic top plan views of the radiator structure of Fig. 1；

Fig. 3 show the A-A of the radiator structure of Fig. 1 to vertical profile structural schematic diagram；

Fig. 4 shows the vertical profile structural schematic diagram of the B-B direction of the radiator structure of Fig. 1；And

Fig. 5 shows the enlarged structure schematic diagram at the C of the radiator structure of Fig. 4.

Wherein, the above drawings include the following reference numerals:

10, cylinder ontology；21, heat sink；211, it is bonded section；212, segregation section；2121, upper segregation section；2122, lower separation Section；213, diversion trench；214, deflector hole；22, thermally conductive muscle；30, water receiving tank.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

As shown in Figure 1, the electric control gear of the present embodiment include electric elements and for electric elements heat dissipation radiator structure, Radiator structure includes the radiating part on cylinder ontology 10 and the outer wall that cylinder ontology 10 is arranged in.

Using the technical solution of the present embodiment, electric control gear includes the radiator structure to radiate to electric elements, radiator structure Including cylinder ontology 10 and the radiating part that is arranged on the outer wall of cylinder ontology 10.Above structure enables radiator structure for electricity Device element radiates.Since cylinder ontology 10 has the advantages that heat dissipation area is big, temperature is uniform, electric elements can be made Better heat-radiation effect, it is ensured that electric elements reliably working.Solve asking for electric elements heat dissipation effect difference in the prior art Topic.

As shown in Figure 1, in the present embodiment, cylinder ontology 10 has an accommodation space for accommodating motor, cylinder ontology 10 with Cooling structure is provided between motor.Above structure makes the temperature of cylinder ontology 10 low, further improves electric elements Heat dissipation effect.Moreover, because cylinder ontology 10 be accommodate motor motor cylinder, electric elements by intrinsic motor cylinder into Row heat dissipation, avoids and adds other additional devices, to reduce production cost.

It should be noted that in the present embodiment, electric elements are mounted on mounting base, mounting base is fitted in heat dissipation To radiate to electric elements in portion.Preferably, in the present embodiment, it is provided with cooling device in cylinder ontology 10, it is cooling Device is arranged between motor and the inner wall of cylinder ontology 10.Above structure makes the temperature of cylinder ontology 10 lower.Cylinder sheet Body 10 forms the cooling capacity source of electric elements, since cylinder ontology 10 has the advantages that heat dissipation area is big, temperature is uniform, energy Enough good cold source is provided for radiating part.

As shown in Figures 1 to 4, in the present embodiment, radiating part includes: heat sink 21, and the side setting of heat sink 21 exists On the outer wall of cylinder ontology 10.Electric elements are bonded with the other side of heat sink 21, and above structure is simple, and 21 energy of heat sink It is enough to be bonded with mounting base, so that the electric elements on mounting base sufficiently radiate, it is ensured that electric elements being capable of reliably working.

As shown in figure 4, in the present embodiment, heat sink 21 includes the segregation section for being bonded section 211 and connecting with fitting section 211 212, fitting section 211 is bonded with cylinder ontology 10, has distance between segregation section 212 and cylinder ontology 10.In order to make radiating surface Product is bigger, and heat sink 21 further includes segregation section 212 other than including the part being bonded with cylinder ontology 10.Above structure can use up Increasing heat radiation area is measured, heat dissipation effect is enhanced.

As shown in Figure 1 and Figure 4, in the present embodiment, the area for being bonded section 211 is greater than the area of segregation section 212.Above-mentioned knot Structure makes the heat dissipation effect of heat sink 21 more.Certainly the area of fitting section 211 can also be equal to the area of segregation section 212.

As shown in Figures 1 to 4, in the present embodiment, radiating part further includes conductive structure, and conductive structure is arranged in segregation section Between 212 and cylinder ontology 10.On the one hand above structure plays the role of fixed reinforcement heat sink 21.On the other hand it enables to The heat of electric elements is transferred on cylinder ontology 10 by conductive structure, so that the heat dissipation effect of electric elements is more preferable.

As shown in Figures 1 to 4, in the present embodiment, conductive structure is thermally conductive muscle 22, and thermally conductive muscle 22 is along cylinder ontology 10 Axially arrange it is multiple.Above structure makes more heats of electric elements be transferred to cylinder sheet by multiple thermally conductive muscle 22 On body 10, thus further improve the heat dissipation effect of electric elements.And the structure of above-mentioned thermally conductive muscle 22 is simple, is easy to add Work.

Preferably, in the present embodiment, multiple thermally conductive muscle 22 are separately positioned on the region that electric elements fever is concentrated, so as to Faster, the heat of electric elements is taken away more in time.In addition, the thickness of thermally conductive muscle can be set according to the range of fever concentrated area Meter.

As shown in Fig. 2, in the present embodiment, the thermally conductive muscle 22 of adjacent two, heat sink 21 and cylinder ontology 10 are common Form water receiving tank 30.Since the wall surface temperature of cylinder ontology 10 is relatively low, when wall surface temperature is lower than the dew-point temperature in air, Condensation water will be formed in wall surface, and accumulation is in water receiving tank 30.The temperature of condensation water in water receiving tank 30 is low, can be to electric appliance member Part cools down.Once but the temperature of electric elements is lower than if dew-point temperature, generating condensation water and can on electric elements Electric elements can be caused short-circuit.In order to avoid the generation of the phenomenon of electric elements short circuit, in the present embodiment, set on heat sink 21 Flow-guiding structure is equipped in time to export the water in water receiving tank 30.

As shown in Figure 1 and Figure 5, in the present embodiment, flow-guiding structure includes the diversion trench 213 being connected to water receiving tank 30, is led At least one end of chute 213 extends to the side edge of heat sink 21.When the condensation water in water receiving tank 30 reaches predetermined altitude, coagulate Dew can be from flowing on diversion trench 213, and the side of heat sink 21 is flowed to along diversion trench 213.Finally from the side of heat sink 21 While flowing down.

Preferably, in the present embodiment, the both ends of diversion trench 213 all extend to the side edge of heat sink 21.

In order to enable condensation water successfully to flow out from the diversion trench, as shown in Figure 1, in the present embodiment, water conservancy diversion The angled setting of axis of slot 213 and cylinder ontology 10.Above structure makes condensation water since the effect of its gravity is towards water conservancy diversion The flowing of a lower height of part of slot 213, and finally it flow to the side edge of heat sink 21.

Preferably, in the present embodiment, the angle between diversion trench 213 and the axis of cylinder ontology 10 is more than or equal to 13 Degree.Above structure allows the water to successfully flow along the direction of diversion trench 213 towards a lower height of part of diversion trench 213 It is dynamic.

In order to enable the condensation water in water receiving tank 30 can be flowed as quickly out more, as shown in Figure 1, in the present embodiment, The both ends of diversion trench 213 extend to the side edge of heat sink 21, and the middle part of diversion trench 213 is higher than the both ends of diversion trench 213.Specifically Ground, as shown in Figure 1, diversion trench 213 includes the first slot section interconnected and the second slot section, the first end of the first slot section, which is located at, to be dissipated The left side edge of hot plate 21, the second end of the second slot section are located at the right edge of heat sink 21, the second end of the first slot section and the The first end of two slot sections is connected to.Position where the first end of the second end of first slot section and the second slot section is higher than the first slot section The position of the second end of first end and the second slot section.The the first slot section and the second slot section of diversion trench are symmetrical structure, diversion trench 213 For Bidirectional diversion trench.It, can be along the first slot section and the second slot section towards the side edge of heat sink 21 when water flow to diversion trench 213 Flowing.Above structure makes the condensation water in water receiving tank 30 be easier to flow out.

Certainly, it will be appreciated by those skilled in the art that diversion trench 213 or one-way guide flow slot.Wherein one-way guide flow The inclined direction of slot is indefinite, can be with right low left high, can also be with left low and right high.But if diversion trench 213 extends in one direction If, by taking the left end of diversion trench 213 is higher than the right end of diversion trench 213 as an example, condensation water in the water receiving tank 30 on the left side The aggregate amount for the condensation water that aggregate amount obviously needs to be higher than in the water receiving tank 30 on the right.Make part condensation water so always It is stored in water receiving tank 30, to increase the possibility of electric elements short circuit.

In order to enable the condensation water in water receiving tank 30 to flow into above-mentioned diversion trench 213, as shown in Figure 1 and Figure 5, in this reality It applies in example, flow-guiding structure further includes the deflector hole 214 being arranged on diversion trench 213, and deflector hole 214 is connected to water receiving tank 30 and water conservancy diversion Slot 213.Above structure is simple, easy to process.

As shown in Figure 1, in the present embodiment, water receiving tank 30 be it is multiple, deflector hole 214 be it is multiple, each water receiving tank 30 to A deflector hole 214 is corresponded to less.Above structure export the water in water receiving tank 30 can into diversion trench 213, and from dissipate It flows out the two sides of hot plate 21.

It should be noted that depending on the pore size of deflector hole 214 can be needed according to exploitation.In view of the work of water viscosity With the aperture of deflector hole 214 is typically no less thanTo guarantee that condensation water being capable of smooth carrying-off.

As shown in figure 4, in the present embodiment, segregation section 212 includes spaced upper segregation section 2121 and lower segregation section 2122, section 211 is bonded between upper segregation section 2121 and lower segregation section 2122, is provided with water conservancy diversion knot on upper segregation section 2121 Structure.Specifically, it is adjacent to formation water receiving tank 30 between two thermally conductive muscle 22, upper segregation section 2121 and cylinder ontologies 10.It is multiple to lead Hot muscle 22 is arranged between upper segregation section 2121 and cylinder ontology 10 and between lower segregation section 2122 and cylinder ontology 10 and increases The stability of strong heat sink 21.In addition, multiple thermally conductive muscle 22 can be such that more preferable underground heat between electric elements and cylinder ontology 10 hands over It changes.

In the present embodiment, radiating part and cylinder ontology 10 are an integral molding structure.The radiating part and cylinder ontology 10 Material it is identical.Heat sink 21 can be used casting method with cylinder ontology 10 and obtain, and can also be obtained using welding method.Due to Heat sink 21 is directly contacted with cylinder ontology 10, and material is the same, therefore can obtain good heating conduction, solves electric appliance Element radiating problem guarantees electric elements working environment.In addition, there are also following two advantages for above structure: the first, above structure So that air conditioner components arrangement is concentrated, so as to improve the appearance of air conditioner.The second, above structure is sufficiently used air-conditioning Device itself cooling structure, reduces the investment of additional cooling device, reduces production cost.

Present invention also provides a kind of air conditioner, the air conditioner according to the application includes: electric control gear, and electric control gear is upper The electric control gear stated.Since electric control gear has the advantages that good heat dissipation, the air conditioner with above-mentioned electric control gear also has The advantages of good heat dissipation effect.

It should be noted that good cooling can be obtained after electric elements are installed on heat sink 21.With electric elements It,, can be with by theoretical simulation analysis and experimental verification when the wall surface temperature of cylinder ontology 10 is 40 DEG C for 200W calorific value The temperature of guarantee heat sink 21 is within 45 DEG C, and the temperature difference maximum fluctuation of heat sink 21 is only 3 DEG C.This is for electric elements Cooling be very favorable.In addition, unit is without additional since the installation of electric elements is integrated on cylinder ontology 10 The investment of cooling equipment, so that the components in entire air conditioner are more compact, it is beautiful.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (16)

1. a kind of electric control gear, which is characterized in that including electric elements and for the radiator structure of electric elements heat dissipation, institute State the radiating part that radiator structure includes cylinder ontology (10) and is arranged on the outer wall of the cylinder ontology (10), the cylinder sheet Body (10) has the accommodation space for accommodating motor, is provided with cooling structure between the cylinder ontology (10) and the motor.

2. electric control gear according to claim 1, which is characterized in that the radiating part includes: heat sink (21), described to dissipate The side of hot plate (21) is arranged on the outer wall of the cylinder ontology (10), the other side of the heat sink (21) and the electric appliance Element contact.

3. electric control gear according to claim 2, which is characterized in that the heat sink (21) include fitting section (211) and The segregation section (212) connecting with fitting section (211), the fitting section (211) is bonded with the cylinder ontology (10), described There is distance between segregation section (212) and the cylinder ontology (10).

4. electric control gear according to claim 3, which is characterized in that the area of fitting section (211) is greater than described point Area from section (212).

5. electric control gear according to claim 3, which is characterized in that the radiating part further includes conductive structure, described to lead Heat structure is arranged between the segregation section (212) and the cylinder ontology (10).

6. electric control gear according to claim 5, which is characterized in that the conductive structure is thermally conductive muscle (22), described to lead Hot muscle (22) is multiple along axially arranging for the cylinder ontology (10).

7. electric control gear according to claim 6, which is characterized in that the thermally conductive muscle (22) of adjacent two, it is described dissipate Hot plate (21) and the cylinder ontology (10) are collectively formed water receiving tank (30), are provided with flow-guiding structure on the heat sink (21) The water in the water receiving tank (30) to be exported.

8. electric control gear according to claim 7, which is characterized in that the flow-guiding structure includes and the water receiving tank (30) At least one end of the diversion trench (213) of connection, the diversion trench (213) extends to the side edge of the heat sink (21).

9. electric control gear according to claim 8, which is characterized in that the diversion trench (213) and the cylinder ontology (10) the angled setting of axis.

10. electric control gear according to claim 9, which is characterized in that the diversion trench (213) and the cylinder ontology (10) the angle between axis is more than or equal to 13 degree.

11. electric control gear according to claim 9, which is characterized in that the both ends of the diversion trench (213) extend to described The side edge of heat sink (21), the middle part of the diversion trench (213) are higher than the both ends of the diversion trench (213).

12. electric control gear according to claim 9, which is characterized in that the flow-guiding structure further includes that setting is led described Deflector hole (214) on chute (213), the deflector hole (214) are connected to the water receiving tank (30) and the diversion trench (213).

13. electric control gear according to claim 12, which is characterized in that the water receiving tank (30) is multiple, the water conservancy diversion Hole (214) is multiple, at least corresponding deflector hole (214) of each water receiving tank (30).

14. electric control gear according to claim 7, which is characterized in that the segregation section (212) includes on spaced Segregation section (2121) and lower segregation section (2122), the fitting section (211) are located at the upper segregation section (2121) and lower point described From between section (2122), the flow-guiding structure is provided on the upper segregation section (2121).

15. electric control gear according to claim 1, which is characterized in that the radiating part and the cylinder ontology (10) are Integrated formed structure.

16. a kind of air conditioner, comprising: electric control gear, which is characterized in that the electric control gear is any in claim 1 to 15 Electric control gear described in.