CN211343388U

CN211343388U - Efficient heat dissipation vibration pump

Info

Publication number: CN211343388U
Application number: CN202020029142.1U
Authority: CN
Inventors: 项孔红; 项凯迪; 赵美青
Original assignee: Zhejiang Odejie Electromechanical Co ltd
Current assignee: Zhejiang Odejie Electromechanical Co ltd
Priority date: 2020-01-07
Filing date: 2020-01-07
Publication date: 2020-08-25
Anticipated expiration: 2030-01-07

Abstract

The utility model discloses a high-efficient heat dissipation vibrating pump, include the pedestal and set up the motor and the pump body on the pedestal, be provided with two respectively one end on the pump body and communicate in water inlet port and water outlet port and the other end all accesss to the exhalant canal and the inhalant canal in the pump body outside, be provided with inclosed heat dissipation chamber in the motor housing, still be provided with the water conservancy diversion passageway in two intercommunication heat dissipation chambers on the motor housing, still be provided with two splice bars between the motor and the pump body, the splice bar is hollow structure, and a port of one of them splice bar communicates in inhalant canal, its another port communicates in one of them water conservancy diversion passageway, a port of another splice bar communicates in exhalant canal, its another port communicates in another water conservancy diversion passageway. Water in the water outlet port is absorbed through the water inlet channel, water flows into the heat dissipation cavity through the cavity in the connecting rib, and therefore water-cooling heat dissipation is conducted on the motor shell, and then water in the heat dissipation cavity flows to the water outlet channel, circulation is achieved, and the purpose of heat dissipation is achieved.

Description

Efficient heat dissipation vibration pump

Technical Field

The utility model belongs to the technical field of the water pump, especially, relate to a high-efficient heat dissipation vibrating pump.

Background

A vibration pump is a device for delivering or pressurizing a fluid. It transfers the mechanical energy of the prime mover or other external energy to the liquid, causing the liquid energy to increase. The vibration pump is mainly used for conveying liquid such as water, oil, acid-base liquid, emulsion, suspoemulsion and liquid metal, and can also be used for conveying liquid, gas mixture and liquid containing suspended solid.

The heat dissipation of current vibrating pump is generally dispelled the heat through the mode of adding lubricating oil, perhaps sets up a plurality of heat dissipation strip on the shell and carry out passive heat dissipation, though this type of heat dissipation mode can play certain effect to the pump, nevertheless the long-time back of working of pump still can have the condition that the temperature rose, and then has reduced the holistic life of vibrating pump.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the technical problem who exists, provide a vibrating pump with water-cooling heat radiation structure, mainly send the heat dissipation through the water-cooling to improve its single operating time.

The purpose of the utility model is realized like this: a high-efficiency heat-dissipation vibration pump comprises a base body, a motor and a pump body, wherein the motor and the pump body are arranged on the base body, the motor is transversely arranged on the base body, an impeller connected with a main shaft of the motor is arranged in a cavity of the pump body, the pump body is also provided with a water inlet port and a water outlet port communicated with the cavity of the pump body, the pump body is provided with two water outlet channels and water inlet channels, one ends of the two water outlet channels and the other ends of the two water outlet channels are communicated with the water inlet port and the water outlet port respectively, the other ends of the two water outlet channels and the water inlet channels are communicated with the outside of the pump body, a closed heat dissipation cavity is arranged in a motor shell, the motor shell is also provided with two flow guide channels communicated with the heat dissipation cavity, two connecting ribs are also arranged between the motor and the pump body, the connecting ribs are, one port of the other connecting rib is communicated with the water outlet channel, and the other port of the other connecting rib is communicated with the other flow guide channel.

By adopting the technical scheme, when the vibration pump works, the motor drives the impeller to rotate, water flows in from the water inlet port of the pump body, then passes through the impeller and finally is discharged from the water outlet port; wherein, dispel the heat for the shell to the motor through water-cooled mode, in order to improve its operating time, and then set up inhalant canal and exhalant canal on the pump body, set up the heat dissipation chamber in motor housing, intake port through the pump body absorbs water, the exhalant port is discharged water, thereby make the inhalant canal that is located on the exhalant port absorb water to the intraoral water of exhalant port, water flows into water conservancy diversion passageway and enters into the heat dissipation intracavity thereupon through the cavity in the splice bar, rivers carry out the water-cooling heat dissipation to motor housing behind the heat dissipation chamber, afterwards, the water of heat dissipation intracavity is through another water conservancy diversion passageway flow direction outlet channel that is located on the exhalant port, thereby accomplish the circulation, reach radiating purpose.

The utility model discloses further set up to: the heat dissipation cavity is a U-shaped structure wound around the motor shell in a circle, and a plurality of baffles which are arranged along the horizontal direction from top to bottom and divide the heat dissipation cavity into a plurality of cavities communicated with each other are further arranged in the heat dissipation cavity.

By adopting the technical scheme, the heat dissipation cavity is arranged to be in a U-shaped structure so as to increase the area of water acting on the motor shell and further improve the cooling efficiency; in order to improve the diversion efficiency of the water in the heat dissipation cavity, the baffle is further arranged, the heat dissipation cavity is divided into a plurality of cavities through the baffle, and the cross sectional area of the water flow is reduced, so that the pressure is increased, and the circulation efficiency of the water is improved.

The utility model discloses further set up to: the vibration pump also comprises an electronic valve arranged on the port of the water outlet channel and a controller used for opening and closing the electronic valve, wherein the controller comprises a temperature sensor for measuring the temperature of the motor shell and a PLC central control unit used for receiving the signal of the temperature sensor and controlling the state of the electronic valve through the signal.

By adopting the technical scheme, after the water inlet channel and the water outlet channel are arranged on the pump body, the discharge amount of the whole pump body in unit time can be reduced to a certain extent, and therefore the utility model is provided with the electric valve and the controller, after the temperature sensor measures the temperature of the motor shell, the signal is sent to the PLC central control unit, then the state of the electric valve on the water outlet channel is controlled by the PLC central control unit, when the detected temperature is higher than the preset value, the temperature of the motor is higher, and at the moment, the electric valve is opened to cool the motor; when the detected temperature is lower than the preset value, the temperature of the motor is not high, the motor does not need to be actively cooled at the moment, and the electric valve is closed, so that dust of the vibration pump can be prevented from being weakened.

The utility model has the advantages that: 1. in order to radiate the shell of the motor in a water cooling mode to improve the working time of the motor, a water inlet channel and a water outlet channel are further arranged on the pump body, a radiating cavity is arranged in the motor shell, water is absorbed through a water inlet port of the pump body, water is discharged through a water outlet port, so that the water inlet channel on the water outlet port absorbs the water in the water outlet port, the water flows into a flow guide channel through a cavity in a connecting rib and then enters the radiating cavity, the water flows through the radiating cavity to radiate the motor shell in a water cooling mode, and then the water in the radiating cavity flows to the water outlet channel on the water inlet port through another flow guide channel, so that circulation is completed, and the radiating purpose is achieved; 2. owing to set up inhalant canal and exhalant canal back on the pump body, can reduce the discharge in the whole pump body unit interval to a certain extent, to this the utility model discloses be provided with motorised valve and controller, open the motorised valve when needs cooling, when not needing the cooling, close the motorised valve to the raise dust of vibrating pump can be avoided having weakened.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

the reference numbers in the figures are: 1. a base body; 2. a motor; 21. a heat dissipation cavity; 22. a flow guide channel; 23. a baffle plate; 3. a pump body; 31. an impeller; 32. a water inlet port; 33. a water outlet port; 34. a water inlet channel; 35. a water outlet channel; 36. an electrically operated valve; 4. and connecting ribs.

Detailed Description

In order to make the technical solutions in the present invention better understood by those skilled in the art, the technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the accompanying drawings:

a high-efficiency heat-dissipation vibration pump is disclosed, as shown in figure 1, comprising a base body 1, a motor 2 and a pump body 3 arranged on the base body 1, the motor 2 is transversely arranged on the base body 1, an impeller 31 connected with a main shaft of the motor 2 is arranged in a cavity of the pump body 3, the pump body 3 is also provided with a water inlet port 32 and a water outlet port 33 communicated with the cavity, wherein, the pump body 3 is provided with two

water outlet channels

35 and 34 respectively communicated with the water inlet port 32 and the water outlet port 33 at one end and the other end is communicated with the outer side of the pump body 3, a closed heat dissipation cavity 21 is arranged in a shell of the motor 2, two diversion channels 22 communicated with the heat dissipation cavity 21 are also arranged on the shell of the motor 2, two connecting ribs 4 are also arranged between the motor 2 and the pump body 3, the connecting ribs 4 are of a hollow structure, one end port of the connecting rib 4 is communicated with the water inlet, one port of the other connecting rib 4 is communicated with the water outlet channel 35, and the other port thereof is communicated with the other flow guide channel 22.

When the vibration pump works, the motor 2 drives the impeller 31 to rotate, water flows in from the water inlet port 32 of the pump body 3, then passes through the impeller 31 and finally is discharged from the water outlet port 33; wherein, dispel the heat for the shell to motor 2 through water-cooled mode, in order to improve its operating time, and then set up inhalant canal 34 and exhalant canal 35 on the pump body 3, set up heat dissipation chamber 21 in the shell of motor 2, intake port 32 through the pump body 3 absorbs water, exhalant port 33 is discharged water, thereby make inhalant canal 34 that is located on exhalant port 33 absorb water to the water in exhalant port 33, water flows into diversion channel 22 and enters into heat dissipation chamber 21 along with it through the cavity in the splice bar 4, rivers carry out the water-cooling heat dissipation to the shell of motor 2 behind heat dissipation chamber 21, afterwards, the water in heat dissipation chamber 21 flows to the exhalant channel 35 that is located on inhalant port 32 through another diversion channel 22, thereby accomplish the circulation, reach radiating purpose.

The heat dissipation cavity 21 is of a U-shaped structure surrounding the shell of the motor 2, and a plurality of baffles 23 which are vertically arranged along the horizontal direction and divide the heat dissipation cavity 21 into a plurality of mutually communicated cavities are further arranged in the heat dissipation cavity 21. The heat dissipation cavity 21 is arranged into a U-shaped structure so as to increase the area of water acting on the shell of the motor 2 and further improve the cooling efficiency; in order to improve the diversion efficiency of the water in the heat dissipation cavity 21, a baffle 23 is further arranged, the heat dissipation cavity 21 is divided into a plurality of cavities through the baffle 23, the cross section area of the water flow is reduced, the pressure is increased, and the circulation efficiency of the water is improved.

The vibration pump also comprises an electronic valve arranged on the port of the water outlet channel 35 and a controller for opening and closing the electronic valve, wherein the controller comprises a temperature sensor for measuring the temperature of the shell of the motor 2 and a PLC central control unit for receiving the signal of the temperature sensor and controlling the state of the electronic valve through the signal.

Because set up inlet channel 34 and outlet channel 35 on the pump body 3 after, can reduce the discharge capacity in the whole pump body 3 unit interval to a certain extent, to this end the utility model discloses be provided with motorised valve 36 and controller, after temperature sensor measures the temperature of motor 2 shell, send the signal to PLC central control unit, control the state of motorised valve 36 on the outlet channel 35 through PLC central control unit afterwards, when detecting the temperature and being greater than the default, show that motor 2 temperature is higher, open motorised valve 36 this moment, carry out the water-cooling to motor 2; when the detected temperature is lower than the preset value, the temperature of the motor 2 is not high, the motor 2 does not need to be actively cooled at the moment, and the electric valve 36 is closed, so that the dust of the vibration pump can be prevented from being weakened.

The above embodiments are only preferred embodiments of the present invention, not all embodiments, and other embodiments obtained based on the above embodiments by those skilled in the art without any creative work shall fall within the protection scope of the present invention, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The utility model provides a high-efficient heat dissipation vibrating pump, includes pedestal (1) and sets up motor (2) and the pump body (3) on pedestal (1), motor (2) transversely set up in on pedestal (1), be provided with in the cavity of the pump body (3) with impeller (31) that the main shaft of motor (2) links to each other, the pump body (3) still have inlet port (32) and play water port (33) that are linked together rather than the cavity, its characterized in that: the pump body (3) is provided with a water outlet channel (35) and a water inlet channel (34) which are respectively communicated with the water inlet port (32) and the water outlet port (33) at one end and are respectively communicated with the outer side of the pump body (3) at the other end, a closed heat dissipation cavity (21) is arranged in the shell of the motor (2), two flow guide channels (22) communicated with the heat dissipation cavity (21) are also arranged on the shell of the motor (2), two connecting ribs (4) are also arranged between the motor (2) and the pump body (3), the connecting ribs (4) are of hollow structures, and one port of one of the connecting ribs (4) is communicated with the water inlet channel (34), the other port of the connecting rib is communicated with one of the flow guide channels (22), one port of the other connecting rib (4) is communicated with the water outlet channel (35), and the other port of the connecting rib is communicated with the other flow guide channel (22).

2. The vibration pump with high heat dissipation efficiency as recited in claim 1, wherein: the heat dissipation cavity (21) is of a U-shaped structure surrounding the motor (2) shell, and a plurality of baffles (23) which are arranged along the horizontal direction up and down and divide the heat dissipation cavity (21) into a plurality of cavities communicated with each other are further arranged in the heat dissipation cavity (21).

3. The vibration pump with high heat dissipation efficiency as recited in claim 1, wherein: the vibration pump also comprises an electric valve (36) arranged on the port of the water outlet channel (35) and a controller for opening and closing the electric valve, wherein the controller comprises a temperature sensor for measuring the temperature of the shell of the motor (2) and a PLC central control unit for receiving the signal of the temperature sensor and controlling the state of the electric valve (36) through the signal.