CN209659056U - A kind of graphene radiating motor that applicability is wide - Google Patents

Abstract

The utility model discloses a kind of graphene radiating motors that applicability is wide, including rotor, stator and shell, the stator has the first heat-conducting block, the shell has the first heat sink, the second heat sink and the second heat-conducting block, first heat sink and the second heat sink form cavity, it is provided with interface on second heat sink, is filled with graphene powder inside described two heat-conducting blocks.The utility model energy rapid cooling, by moisture or air-flow that external device provides, heat is quickly discharged by the way that interface is arranged on the second heat sink；Applicability is wide, by using two heat-conducting blocks with graphene powder and the heat sink and external interface of two specific combinations, realizes the heat dissipation under different situations to motor, especially solves the problems, such as the rapid cooling in the case of electric machine built-in；Working efficiency can also be improved, by the connection with external device, heat is discharged with moisture or the air of flowing, reduces the time of motor stage cooling.

Description

A kind of graphene radiating motor that applicability is wide

Technical field

The utility model relates to motor device technical field, in particular to a kind of graphene radiating motor that applicability is wide.

Background technique

In motor operation course, a large amount of thermal energy can be generated and shed from motor interior, if heat dissipation is not in time, temperature Internal structure of motor can be damaged by spending height, can not only reduce the service life of motor, influence the efficiency of motor, when serious, can also Cause electric machine structure component severely deformed, jeopardizes motor operation safety.

To solve the above problems, disclosing a kind of graphene radiating motor in Chinese invention patent CN108448797A, wrap Motor housing is included, rotor is equipped with inside motor housing, motor housing both ends are equipped with drive end bearing bracket and rear end cap, motor housing shell It is equipped with graphene powder in vivo and the thermal conductivity of shell is improved, thus by electric by being provided with the shell of graphene powder Heat inside machine quickly passes.

But motor is in use, the case where being inevitably mounted on machine internal, even if heat energy It is rapidly come out inside motor, if space locating for motor and airtight heat dissipation, will also result in heat and be difficult to distribute outward, To influence the radiating efficiency of motor.

Summary of the invention

Technical problem to be solved in the utility model overcomes drawbacks described above of the existing technology, provides a kind of heat dissipation The graphene radiating motor that speed is fast, applicability is wide, to make motor in varied situations can rapid cooling.

Technical solution adopted by the utility model to solve its technical problems is,

A kind of graphene radiating motor that applicability is wide, including rotor, stator and shell, the stator are located at the rotor Radially outer direction, the radial outside of the stator is provided with the first heat-conducting block, and the shell includes end cap and main casing, described End cap is located at the axial ends of the main casing.

Graphene powder is filled with inside first heat-conducting block；The main casing includes the first heat sink, the second heat sink With the second heat-conducting block, first heat sink is located at the radial outside of first heat-conducting block, and second heat sink is located at institute The radially outer direction of the first heat sink is stated, and radially interior direction extends the axial ends of second heat sink, until It is integrally formed with first heat sink, to form cavity, interface is provided on second heat sink, the interface is many In two, second heat-conducting block between first heat sink and second heat sink, second heat-conducting block Radially inner side end is connected with first heat sink, and radial outside end is connected with second heat sink, second heat-conducting block Inside is filled with graphene powder.

Preferably, the radially inner side end of first heat-conducting block is set to the stator interior.

Preferably, first heat-conducting block is multiple.

Preferably, first heat sink and first heat-conducting block contact against.

Preferably, first heat sink and first heat-conducting block are integrally formed.

Preferably, the interface is two, including first interface and second interface.

Preferably, the first interface is connected with three-way connection.

Preferably, switch is provided between the three-way connection and external air supply device.

Preferably, second heat-conducting block is in radial position and first heat-conducting block is in corresponding relationship.

Preferably, second heat-conducting block is multiple.

Compared with prior art, the utility model has the advantage that

1, energy rapid cooling is quickly transmitted heat from-inner-to-outer by heat-conducting block of the setting with graphene powder, and Interface is set on the second heat sink, is connected to external water source device or external air supply device, by moisture or the sky of flowing Gas quickly discharges heat；

2, applicability is wide, by using two heat-conducting blocks with graphene, the heat sink of two specific combinations and externally Interface, heat dissipation can be stood, also can more rapidly be radiated by external device, to realize under different situations to motor Heat dissipation, especially solve the problems, such as the rapid cooling in the case of electric machine built-in；

3, working efficiency can be improved, by the connection with external device, heat is discharged with moisture or the air of flowing, reduces The time of motor stage cooling, motor quickly come into operation again.

Detailed description of the invention

Specific embodiment of the present utility model is described in further detail with reference to the accompanying drawing, in which:

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the external structure schematic diagram of the utility model.

Marked in the figure: rotor 1, stator 2, the first heat-conducting block 3, the first heat sink 4, the second heat-conducting block 5, the second heat sink 6, First interface 7, end cap 8, second interface 9.

Specific embodiment

To keep the technical solution of the utility model more specific, the utility model is made combined with specific embodiments below further Illustrate, but does not constitute limitations of the present invention.

As depicted in figs. 1 and 2, a kind of graphene radiating motor that applicability is wide, including rotor 1, stator 2 and shell, institute The radially outer direction that stator 2 is located at the rotor 1 is stated, the radial outside of the stator 2 is provided with the first heat-conducting block 3, is used for Heat is transmitted outward, graphene powder is also filled with inside first heat-conducting block 3, to increase by first heat-conducting block 3 Heating conduction, wherein the radially inner side end of first heat-conducting block 3 is set to inside the stator 2, quickly to transmit heat Amount, in addition, first heat-conducting block 3 be it is multiple, to realize that many places are jointly thermally conductive.

The shell includes end cap 8 and main casing, and the end cap 8 is located at the axial ends of the main casing, and the main casing includes First heat sink 4, the second heat sink 6 and the second heat-conducting block 5.

First heat sink 4 is located at the radial outside of first heat-conducting block 3, and contacts with first heat-conducting block 3 Against, the heat transmitted for receiving first heat-conducting block 3, further, first heat-conducting block 3 and first heat dissipation Plate 4 can also be integrally formed, and manufacture is facilitated to produce.

Second heat sink 6 is located at the radially outer direction of first heat sink 4, and second heat sink 6 Radially interior direction extends axial ends, until being integrally formed with first heat sink 4, so that cavity is formed, for holding It receives the air of moisture and flowing, is additionally provided with interface on second heat sink 6, the interface is no less than two, to realize The circulation of moisture and air, the preferred amount of the interface is two, including first interface 7 and second interface 9, so as in motor Space is made full use of in the case where built-in, the first interface 7 can be connected to external water source device, can also be with external air supply device Connection, the first interface 7 can also connect three-way connection, to avoid frequently dismounting, the three-way connection and external air-supply dress Switch can be set between setting, moisture is avoided to flow into external air supply device, the second interface 9 is used to drain and air draft, in addition, It can also be connect with external pipe, to extend the channel of draining and air draft in the case where electric machine built-in.

For second heat-conducting block 5 between first heat sink 4 and second heat sink 6, described second is thermally conductive The radially inner side end of block 5 is connected with first heat sink 4, and radial outside end is connected with second heat sink 6, for outside Portion is thermally conductive, is also filled with graphene powder inside second heat-conducting block 5, for increasing the thermal conductivity of second heat-conducting block 5 Can, preferably, second heat-conducting block 5 is in radial position and first heat-conducting block 3 is in corresponding relationship, led to improve The thermal efficiency, in addition, second heat-conducting block 5 be it is multiple, to realize that many places are jointly thermally conductive.

The specific workflow of present embodiment is as follows: motor in the running, can continue to generate heat, wherein most heat Amount is transferred to first heat sink 4 by first heat-conducting block 3, be not connected to external water source device or external air supply device In the case where, the heat in first heat sink 4 is transferred to second heat sink 6 by second heat-conducting block 5, described Second heat sink 6 is contacted with air, and heat is distributed；In the case where being connected to external air supply device, described first dissipates Heat in hot plate 4 is mainly contacted with the air of flowing, is distributed from the second interface 9, but also have minor heat meeting It is transferred to second heat sink 6 by second heat-conducting block 5, is distributed outward from second heat sink 6；It is external being connected to In the case where water source device, moisture should be avoided and flow to external air supply device, at this point, the overwhelming majority in first heat sink 4 Heat can be transferred in moisture, be discharged with moisture from the second interface 9.Motor can choose standing in stage cooling Cooling also may be selected the external air supply device of connection and carry out fast cooling, most rapidly cools down to reach, need to be connected to external water source Device flows into moisture between first heat sink 4 and the second heat sink 6 by the first interface 7, absorbs motor and generates Heat, and from the second interface 9 flow out.

Present embodiment is connected to by the way that two heat sinks are integrally formed setting, formation cavity with external device, so that Air between two heat sinks can flow outward, lasting to radiate, and can also moisture be made to pass through, rapid cooling；In addition, passing through Setting interface is in communication with the outside, the rapid cooling being applicable not only under regular situation, applies also for fast in the case of electric machine built-in Speed heat dissipation；In addition, thermally conductive by be provided with graphene powder between the stator 2 and first heat sink 4 first Block 3, so that heat from-inner-to-outer is efficiently transmitted, also, by first heat sink 4 and second heat sink 6 Between be provided with second heat-conducting block 5 of graphene powder, while efficiently transmitting heat outward, avoid and do not opening In the case where opening external water source device and external air supply device, heat largely rests on first heat sink 4 and the second heat dissipation Between plate 6.

The several ways of the utility model above described embodiment only expresses, but it cannot be understood as to this reality With the limitation of novel range.It is noted that for those of ordinary skill in the art, not departing from the utility model Under the premise of design, several modifications and improvements can be also made, these are all within the protection scope of the present invention.Therefore, this reality The scope of protection shall be subject to the appended claims with novel.

Claims (10)

1. a kind of graphene radiating motor that applicability is wide, including rotor, stator and shell, the stator is located at the rotor Radially outer direction, the radial outside of the stator are provided with the first heat-conducting block, and the shell includes end cap and main casing, the end Lid is located at the axial ends of the main casing, it is characterised in that: graphene powder is filled with inside first heat-conducting block；The master Shell includes the first heat sink, the second heat sink and the second heat-conducting block, and first heat sink is located at the diameter of first heat-conducting block Outward, second heat sink is located at the radially outer direction of first heat sink, and the axial direction of second heat sink Radially interior direction extends at both ends, until be integrally formed with first heat sink, so that cavity is formed, second heat dissipation Interface is provided on plate, the interface is no less than two, and second heat-conducting block is located at first heat sink and described second Between heat sink, the radially inner side end of second heat-conducting block is connected with first heat sink, radial outside end and described the Two heat sinks are connected, and graphene powder is filled with inside second heat-conducting block.

2. graphene radiating motor according to claim 1, it is characterised in that: the radially inner side end of first heat-conducting block It is set to the stator interior.

3. graphene radiating motor according to any one of claims 1 or 2, it is characterised in that: first heat-conducting block It is multiple.

4. graphene radiating motor according to claim 3, it is characterised in that: first heat sink and described first is led Heat block contacts against.

5. graphene radiating motor according to claim 3, it is characterised in that: first heat sink and described first is led Heat block is integrally formed.

6. graphene radiating motor according to claim 1, it is characterised in that: the interface is two, including first connects Mouth and second interface.

7. graphene radiating motor according to claim 6, it is characterised in that: the first interface is connected with three and connects Head.

8. graphene radiating motor according to claim 7, it is characterised in that: the three-way connection and external air supply device Between be provided with switch.

9. graphene radiating motor according to claim 1, it is characterised in that: second heat-conducting block is in radial position It is in corresponding relationship with first heat-conducting block.

10. according to claim 1 or graphene radiating motor described in 9 any one, it is characterised in that: second heat-conducting block It is multiple.