CN206611690U - Cooling device - Google Patents

Abstract

The utility model is related to a kind of cooling device, the cooling device includes the cooling element (1) with flow channel (9), the fluid communication between flow channel (9) formation inlet port (4) and outlet (5).In order to provide efficient cooling, cooling element has the space (8) separated by wall (10) and flow channel, and the joint Terminal of the first electric component of molding in place extends through the space in the space (8), for the thermal force produced by the first electric component to be transferred into flow channel (9) via joint Terminal.

Description

Cooling device

Technical field

The utility model is related to a kind of cooling device, in particular it relates to which one kind can make electric component acquisition sufficiently cool Solution.

Background technology

Some electric components are very harsh to heat request so that even temperature is compared to the relatively small liter of target temperature Height may also significantly affect the operation of these electric components.Accordingly, it would be desirable to pay special attention to the cooling of this kind of electric component.

Existing known solution for cooling down electric component is that electric component is attached into cooling element.Therefore, Cooling element can be in contact with this kind of part being fully electrically insulated with electric component.

However, the above mentioned solution for being used to cool down can not be implemented always, and allow to implement this solution Certainly scheme, such cooling is also likely to be insufficient.

Utility model content

The purpose of this utility model is to solve disadvantages mentioned above and provide a kind of can efficiently cool down the new of electric component Solution.This purpose is realized by the cooling device according to following aspect.

According to an aspect of the present invention there is provided a kind of cooling device, including：Cooling element, the cooling element has Inlet port, outlet and the flow channel being in fluid communication formed between the inlet port and the outlet, wherein, it is described In the space mould of the cooling element with the space separated by wall and the flow channel, and the first electric component System joint Terminal in place extends through the space, by the thermal force produced by first electric component via described Connecting terminal is transferred to the flow channel.

Preferably, first electric component is capacitor.

Preferably, the cooling element has cooling surface, and first electric component is arranged against the cooling surface.

Preferably, the cooling element have the second cooling surface, against second cooling surface be disposed with one or More second electric components.

Preferably, the cooling element includes the first plate-like portion and the second plate-like portion arranged against each other, the flowing Passage is arranged between the inner surface of the inner surface of first plate-like portion and second plate-like portion, first electric component Arranged against the outer surface of first plate-like portion, and second electric component is against the outer surface of second plate-like portion Arrangement.

By providing the cooling element with the space separated by wall and flow channel, obtaining one kind can be via The solution that the joint Terminal of electric component is efficiently cooled down, wherein, the joint Terminal of electric component is through the space Stretch out and joint Terminal is in place in space molding.

Brief description of the drawings

The utility model will be described in more detail by way of example and referring to the drawings 1 to accompanying drawing 5 below, In the accompanying drawings：

Fig. 1 shows cooling element when from first direction；

Fig. 2 shows the cooling element for being disposed with intermediate plate；

Fig. 3 shows the first electric component that can be cooled down with cooling element；

Fig. 4, which is shown, to be connected with cooling element and installs the first electric component in place；And

It is reverse cooling element that Fig. 5, which is shown compared with the situation in Fig. 4,.

Embodiment

Fig. 1 shows the cooling element 1 when from first direction.In this example, cooling element 1 includes box-like body Portion, the box-like body includes bottom plate 2 and the side wall 3 extended along the edge of bottom plate 2.The side wall 3 in left side has and is used in Fig. 1 The inlet port 4 and outlet 5 of cooling fluid such as coolant.Inlet port 4 and outlet 5 can be connected to for example outside cold by pipe But device, the outside cooling device makes the heated fluid in cooling element 1 cool down and make to be in compared with cold state The fluid is back to cooling element 1.

As shown in Figure 1, lower convexity part 6 and the side of the lower convexity part 6 along bottom plate 2 are disposed with a base plate 2 Edge extends, and can be disposed with solid and fluid-tight intermediate plate 7 on the bossing 6, as shown in Figure 2.It is middle Plate 7 is placed against bossing 6, is thus formed in the space between bottom plate 2 and intermediate plate 7 and is connected inlet port 4 and outlet 5 Seal flow passage 9.Although in the example in the drawings, flow channel 9 is shown as relatively large rectangle and uniform empty Between, but for simplicity, flow channel 9 can shape in any suitable manner, such as with the shape of the passage wound back and forth Formula shapes.

On right-hand side in Fig. 1 and Fig. 2 top, there is the space 8 separated by wall 10 and flow channel 9, In the example, wall 10 is formed by the bossing 6 closest to the space.In this example, space 8 is implemented as extending through bottom The hole of plate 2.

Fig. 3 shows the first electric component 16 that can be cooled down with cooling element.The example assumes the first electric component 16 It is capacitor.The example of accompanying drawing assumes to provide three capacitors.Fig. 3 and Fig. 5 also show the He of joint Terminal 13 of capacitor 14。

Fig. 4 shows and is connected with cooling element 1 and installs the first electric component 16 in place.In fact, the first electrical part Part 16 is reverse compared with the situation in Fig. 3, and the joint Terminal 13 and 14 of the first electric component 16 is arranged to extension Through space 8.Because in this example, space 8 is implemented as extending through the hole of bottom plate 2, so the end of connector 13 and 14 Portion is appeared on the opposite side of bottom plate 2.This is shown that in Figure 5, cooling element 1 is compared with the situation in Fig. 4 in Figure 5 It is reverse.When joint Terminal 13 and 14 installs in place in the way of being shown in Fig. 4 and Fig. 5 in space 8, space 8 is used will Joint Terminal 13 and 14 locks suitable material filling in place in space 8.In fact, joint Terminal 13 and 14 can pass through mould Make and be secured in position, thus space 8 is for example filled with resin.

The body of cooling element 1 such as bottom plate 2, side wall and bossing 6 are preferably made up of the material of high-efficiency heat conduction such as aluminium. Therefore, the heat conduction of fluids efficiently of the wall 10 space 8 and flow channel 9 separated in space 8 and flow channel 9 ground. This makes it possible to provide joint Terminal 13 and 14 as far as possible efficient cooling.Because joint Terminal 13 and 14 is direct by molding The body of cooling element 1 is bonded to, therefore such as air cannot be introduced into and be used as between joint Terminal 13 and 14 and cooling element 1 The spacer for weakening the thermal diffusivity from joint Terminal 13 and 14 to cooling fluid.

In order that cooling is as efficient as possible, the thickness degree for the material of molding should be as small as possible.If selected for offer The material being fully electrically insulated, then it is electric insulation not need other joint Terminals 13 and 14.If however, selected material is not Good electric insulation enough is provided, or if because certain other reasons needs joint Terminal 13 and 14 to be to be electrically insulated in addition, Extra insulation material layer can be then arranged around joint Terminal 13 and 14.

The example presented in accompanying drawing assumes that the space 8 that joint Terminal 13 and 14 is extended through is located at wall 10 with being used as cooling member Between the side wall 3 of the outer wall of part.In this case, the cooling of terminal 13 and 14 is carried out only from side, i.e. by wall 10.If More efficiently to be cooled down, then flow channel can be shaped so that fluid flows from the both sides in space 8, in such case Under, space 8 is not in contact with side wall 3, but is separated by the bossing 6 for forming the second wall with side wall 3, thus from space 8 both sides provide cooling fluid stream.

In example shown in the accompanying drawings, fluid-tight intermediate plate 7 separates the first electric component 16 and flow channel 9 Open.In fact, the outer surface 17 --- being upwardly oriented in fig. 2 --- of intermediate plate 7 then forms cooling surface, the first electric component 16 are mounted against the cooling surface.Therefore, cooling surface 17 from electric component 16 by thermal force by being transferred to flow channel 9 In fluid in the first electric component 16 cooled down.

Bottom plate 2 is also fluid-tight, and in fact, the outer surface 18 --- being upwardly oriented in Figure 5 --- of bottom plate 2 Form the second cooling surface.One or more second electric components 19 can be then installed against the outer surface 18 of bottom plate 2, it is described One or more second electric components 19 may then pass through the joint Terminal 13 for cooling down at least the first electric component 16 Same cooling element 1 with 14 is cooled down.For example, electric component 19 can be power semiconductor.For example, electronic in control , can be in this way using the cooling device shown in accompanying drawing in the controller such as frequency converter of the power supply of motor：Make With same cooling element efficient cooling is provided to the multiple electric components being included in actuator.This also offers following excellent Point：The quantity of the joint for pipe needed for fluid circulation is set to minimize, because each electric component now need not be single Only cooling element, and each electric component needs single cooling element to increase to arrange the stream for all cooling elements The quantity of the connector of body stream.

For example, accompanying drawing assumes that cooling element 1 includes the first plate-like portion for arranging against each other and the by way of example Two plate-like portions, i.e. pars intermedia 7 and bottom plate 2, wherein, flow channel 9 is arranged in the inner surface and the second plate-like portion of the first plate-like portion Inner surface between.In this case, the first electric component 16 can be against the first plate-like portion --- i.e., intermediate plate 7 --- Outer surface 17 arrange that and the second electric component 19 can be against the second plate-like portion --- i.e., bottom plate 2 --- outer surface 18 Arrangement.This feasible structure provides the actuator of the power supply to controlling electro-motor in simple and reliable mode Efficient cooling.

It should be appreciated that above description and relevant drawings are intended only to illustrate the utility model.For art technology It is evident that in the case where not departing from scope of the present utility model, the utility model can also be otherwise for personnel Change and modifications.

Claims (5)

1. a kind of cooling device, including：

Cooling element (1), the cooling element (1) there is inlet port (4), outlet (5) and formed the inlet port (4) with The flow channel (9) being in fluid communication between the outlet (5), it is characterised in that：

The cooling element has the space (8) separated by wall (10) and the flow channel (9), and

The molding joint Terminal (13,14) in place in the space (8) of first electric component (16) extends through the sky Between (8), the thermal force produced by first electric component (16) is transferred to via the joint Terminal (13,14) described Flow channel (9).

2. cooling device according to claim 1, it is characterised in that first electric component (16) is capacitor.

3. cooling device according to claim 1, it is characterised in that the cooling element (1) has cooling surface (17), First electric component (16) is arranged against the cooling surface (17).

4. the cooling device according to any one of claims 1 to 3, it is characterised in that the cooling element (1) has Second cooling surface (18), one or more second electric components (19) are disposed with against second cooling surface (18).

5. cooling device according to claim 4, it is characterised in that

The cooling element (1) includes the first plate-like portion (7) and the second plate-like portion (2) arranged against each other, and the flowing is logical Road (9) is arranged between the inner surface of first plate-like portion (7) and the inner surface of second plate-like portion (2),

First electric component (16) against first plate-like portion (7) outer surface (17) arrange, and

Second electric component (19) is arranged against the outer surface (18) of second plate-like portion (2).