CN211834084U

CN211834084U - Heat dissipation mechanism of integral type broken wall machine

Info

Publication number: CN211834084U
Application number: CN202020247183.8U
Authority: CN
Inventors: 刘创
Original assignee: Zhongshan Tianjiao Electrical Appliances Co ltd
Current assignee: Zhongshan Tianjiao Electrical Appliances Co ltd
Priority date: 2020-03-03
Filing date: 2020-03-03
Publication date: 2020-11-03
Anticipated expiration: 2030-03-03

Abstract

The utility model relates to a heat dissipation mechanism of an integrated wall breaking machine, which comprises a cup body component and a base component which are detachably assembled with each other; the heat dissipation mechanism comprises a split-flow type heat dissipation air channel arranged between the cup body assembly and the base assembly, and a stirring motor and a heat dissipation fan which are arranged on the split-flow type heat dissipation air channel; the method is characterized in that: a first air cavity is formed in the cup body assembly and communicated with a first air vent in the cup body assembly; a second air cavity is formed in the base assembly, one end of the second air cavity is communicated with the first air cavity, and the other end of the second air cavity is communicated with a second ventilation opening in the base assembly; the first air cavity and the second air cavity jointly form the split-flow type heat dissipation air duct. In the heat dissipation mechanism, the shunting type heat dissipation air duct is short and has large ventilation quantity, high heat dissipation efficiency, good effect and low wind noise.

Description

Heat dissipation mechanism of integral type broken wall machine

Technical Field

The utility model relates to a broken wall machine specifically is a heat dissipation mechanism of integral type broken wall machine.

Background

In a heat dissipation mechanism in the existing wall breaking machine, a heat dissipation air channel is generally thin and long, and heat greatly affects peripheral components when being blown in the heat dissipation air channel, so that the heat dissipation effect is poor; in addition, the complex structure of the heat dissipation air duct often causes the air flow in the heat dissipation air duct to collide and jump, which affects the heat dissipation effect and causes noise. Therefore, further improvements are needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough of above-mentioned prior art existence, and provide a heat dissipation mechanism of integral type broken wall machine, among this heat dissipation mechanism, shunting heat dissipation wind channel is short and the air volume is big, and the radiating efficiency is high, effectual, and wind is made an uproar low.

The purpose of the utility model is realized like this:

a heat dissipation mechanism of an integrated wall breaking machine comprises a cup body assembly and a base assembly which are detachably assembled with each other; the heat dissipation mechanism comprises a split-flow type heat dissipation air channel arranged between the cup body assembly and the base assembly, and a stirring motor and a heat dissipation fan which are arranged on the split-flow type heat dissipation air channel; the method is characterized in that: a first air cavity is formed in the cup body assembly and communicated with a first air vent in the cup body assembly; a second air cavity is formed in the base assembly, one end of the second air cavity is communicated with the first air cavity, and the other end of the second air cavity is communicated with a second ventilation opening in the base assembly; the first air cavity and the second air cavity jointly form the split-flow type heat dissipation air duct.

The cup body assembly is provided with a first through hole; the base component is provided with a second through hole; the first air cavity is communicated with the second air cavity through the first through hole and the second through hole.

The base component is provided with an assembly cavity, and the cup body component is at least partially embedded into the assembly cavity; the first through hole is formed in the bottom of the cup body assembly; the second through hole is formed in the bottom of the assembling cavity; the first through hole and the second through hole correspond to and are communicated with each other.

The base component is provided with an air guide piece, and the second air cavity is an inner cavity of the air guide piece.

The shunting type heat dissipation air duct is in a multi-claw shape or an inverted Y shape, wherein the first air cavity extends vertically, and the second air cavity is in a multi-claw shape, an inverted Y shape or an inverted V shape.

Stirring motor and radiator fan set up respectively on first wind chamber, and radiator fan connects the motor shaft of stirring motor bottom, and radiator fan is close to second wind chamber.

The cup body assembly comprises a stirring cup and a supporting seat, and the stirring cup is arranged at the top of the supporting seat; the stirring motor, the cooling fan and/or the first air cavity are/is arranged on the supporting seat, and at least part of a motor shaft at the top of the stirring motor extends into the inner cavity of the stirring cup; the first vent is formed in the side wall of the supporting seat; the base component comprises a base shell, and the second ventilation opening is formed in the side wall of the base shell.

The utility model has the advantages as follows:

the first air cavity and the second air cavity form a wide and short shunting type heat dissipation air channel, so that the path of heat blown in the shunting type heat dissipation air channel is short, the influence on peripheral parts is further reduced, and the heat dissipation effect is effectively improved; moreover, the heat dissipation air duct adopts a shunting structure, so that the ventilation quantity is large, and the heat dissipation efficiency is greatly improved; the split-flow type heat dissipation air duct adopts a smooth multi-claw shape or an inverted Y-shaped arrangement, heat in the split-flow type heat dissipation air duct can be smoothly blown, the phenomena of gas collision, gas mixing and the like are avoided, the heat dissipation effect is guaranteed, the wind noise is reduced, and the silencing effect is achieved.

Drawings

Fig. 1 is an exploded view of a cup assembly and a base assembly according to an embodiment of the present invention.

Fig. 2 is a schematic view of a bottom structure of the cup body assembly according to an embodiment of the present invention.

Fig. 3 is a top view of the integrated wall breaking machine in an embodiment of the present invention.

Fig. 4 is a sectional view taken in the direction H-H in fig. 3.

Fig. 5 is a sectional view taken along the direction J-J in fig. 3.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1-5, the present embodiment relates to an integrated wall breaking machine, which includes a cup body assembly a and a base assembly B detachably assembled with each other; the integrated wall breaking machine is provided with a heat dissipation mechanism, wherein the heat dissipation mechanism comprises a shunting type heat dissipation air channel arranged between the cup body component A and the base component B, and a stirring motor 4 and a heat dissipation fan 5 which are arranged on the shunting type heat dissipation air channel; a first air cavity 202 is formed in the inner side of the cup body assembly A, and the first air cavity 202 is communicated with a first air vent 201 in the side of the cup body assembly A; a second air cavity 601 is formed in the inner side of the base component B, one end of the second air cavity 601 is communicated with the first air cavity 202, and the other end of the second air cavity 601 is communicated with a second ventilation opening 303 in the side portion of the base component B; the first air cavity 202 and the second air cavity 601 jointly form a flow type heat dissipation air duct. In the heat dissipation mechanism, the first air cavity and the second air cavity form a wide and short shunting type heat dissipation air channel, so that the blowing path of heat in the shunting type heat dissipation air channel is short, the influence on peripheral parts is further reduced, and the heat dissipation effect is effectively improved; moreover, the heat dissipation air duct adopts a shunting structure, so that the ventilation quantity is large, and the heat dissipation efficiency is greatly improved; the split-flow type heat dissipation air duct adopts a smooth multi-claw shape or an inverted Y-shaped arrangement, heat in the split-flow type heat dissipation air duct can be smoothly blown, the phenomena of gas collision, gas mixing and the like are avoided, the heat dissipation effect is guaranteed, the wind noise is reduced, and the silencing effect is achieved.

Further, a first through hole 203 is formed in the cup body assembly A; the base component B is provided with a second through hole 302; the first air cavity 202 is communicated with the second air cavity 601 through the first through hole 203 and the second through hole 302.

Furthermore, an assembly cavity 301 with an opening at the top is formed in the top of the base component B, and at least part of the cup body component A is embedded into the assembly cavity 301, so that the cup body component A and the base component B are assembled; the first through hole 203 is formed in the bottom of the cup body assembly A; the second through hole 302 is arranged at the bottom of the assembling cavity 301; when the cup body assembly A and the base assembly B are assembled with each other, the first through hole 203 corresponds to and is communicated with the second through hole 302, so that the first air cavity 202 is communicated with the second air cavity 303.

Further, an air guide member 6 is arranged inside the base component B, and the second air cavity 601 is an inner cavity of the air guide member 6.

Further, the divided heat dissipation air duct has an inverted Y shape (or a multi-claw shape), wherein the first air chamber 202 extends vertically, and the second air chamber 601 has an inverted V shape (a multi-claw shape or an inverted Y shape).

Further, the stirring motor 4 and the cooling fan 5 are respectively arranged in the first air cavity 202, the cooling fan 5 is connected with a motor shaft at the bottom of the stirring motor 4, and the cooling fan 5 is close to the second air cavity 601; when the stirring motor 4 works, the heat radiation fan 5 is driven to rotate, so that negative pressure is generated in the first air cavity 202, and air convection is formed in the split-flow type heat radiation air channel so as to radiate the stirring motor 4.

Further, the cup body assembly A comprises a stirring cup 1 and a supporting seat 2, and the stirring cup 1 is arranged at the top of the supporting seat 2; the stirring motor 4, the cooling fan 5 and the first air cavity 202 are respectively arranged in the inner cavity of the supporting seat 2, and a motor shaft at the top of the stirring motor 4 at least partially extends into the inner cavity of the stirring cup 1 so as to be connected with a stirring knife; the first ventilation opening 201 is formed in the side wall of the support seat 2; the base component B comprises a base shell 3, a second ventilation opening 303 is formed in the side wall of the base shell 3, and an air guide member 6 is assembled in the inner cavity of the base shell 3.

Referring to fig. 4 and 5, when the stirring motor 4 is operated, the cooling fan 5 is driven to rotate, negative pressure is generated in the first air cavity 202, external air enters the first air cavity 202 through the first ventilation opening 201, so that air convection is formed in the divided-flow cooling air duct, the convective air takes away part of heat generated by the operation of the stirring motor 4, and hot air immediately enters the second air cavity 601 for division and is finally discharged through the second ventilation opening 303, so that a high-efficiency and reliable cooling effect is achieved. In the heat dissipation process, hot air is shunted in the second air cavity 601, so that the ventilation volume in the air channel is greatly improved, the heat dissipation efficiency is further improved, and the heat dissipation effect is good. It should be noted that, the air in the split-flow heat dissipation air duct may be blown in the reverse direction, that is, the flow direction of the air is: the second ventilation opening 303, the second air cavity 601, the first air cavity 202 and the first ventilation opening 201; the air is converged in the second air cavity 601, and the ventilation quantity in the air duct can be increased, so that the beneficial effects are achieved.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A heat dissipation mechanism of an integrated wall breaking machine comprises a cup body assembly (A) and a base assembly (B), which are detachably assembled with each other; the heat dissipation mechanism comprises a split-flow type heat dissipation air channel arranged between the cup body component (A) and the base component (B), and a stirring motor (4) and a heat dissipation fan (5) which are arranged on the split-flow type heat dissipation air channel; the method is characterized in that: a first air cavity (202) is formed in the cup body assembly (A), and the first air cavity (202) is communicated with a first ventilation opening (201) in the cup body assembly (A); a second air cavity (601) is formed in the base component (B), one end of the second air cavity (601) is communicated with the first air cavity (202), and the other end of the second air cavity (601) is communicated with a second ventilation opening (303) in the base component (B); the first air cavity (202) and the second air cavity (601) jointly form the split-flow type heat dissipation air duct.

2. The heat dissipation mechanism of the integrated wall breaking machine according to claim 1, characterized in that: a first through hole (203) is formed in the cup body assembly (A); a second through hole (302) is formed in the base component (B); the first air cavity (202) is communicated with the second air cavity (601) through the first through hole (203) and the second through hole (302).

3. The heat dissipation mechanism of the integrated wall breaking machine according to claim 2, characterized in that: an assembly cavity (301) is formed in the base component (B), and at least part of the cup body component (A) is embedded into the assembly cavity (301); the first through hole (203) is formed in the bottom of the cup body assembly (A); the second through hole (302) is formed in the bottom of the assembling cavity (301); the first through hole (203) corresponds to and is communicated with the second through hole (302).

4. The heat dissipation mechanism of the integrated wall breaking machine according to claim 1, characterized in that: and the base component (B) is provided with an air guide member (6), and the second air cavity (601) is an inner cavity of the air guide member (6).

5. The heat dissipation mechanism of the integrated wall breaking machine according to claim 1, characterized in that: the shunting type heat dissipation air duct is in a multi-claw shape or an inverted Y shape, wherein the first air cavity (202) extends vertically, and the second air cavity (601) is in a multi-claw shape, an inverted Y shape or an inverted V shape.

6. The heat dissipation mechanism of the integrated wall breaking machine according to claim 1, characterized in that: stirring motor (4) and radiator fan (5) set up respectively on first wind chamber (202), and the motor shaft of stirring motor (4) bottom is connected in radiator fan (5), and radiator fan (5) are close to second wind chamber (601).

7. The heat dissipation mechanism of the integrated wall breaking machine according to claim 1, characterized in that: the cup body assembly (A) comprises a stirring cup (1) and a supporting seat (2), and the stirring cup (1) is arranged at the top of the supporting seat (2); the stirring motor (4), the cooling fan (5) and/or the first air cavity (202) are/is arranged on the supporting seat (2), and at least part of a motor shaft at the top of the stirring motor (4) extends into the inner cavity of the stirring cup (1); the first ventilation opening (201) is formed in the side wall of the supporting seat (2); the base component (B) comprises a base shell (3), and the second ventilation opening (303) is formed in the side wall of the base shell (3).