CN114962343A - Water pump with high heat dissipation and anti-seismic performance - Google Patents

Abstract

The invention discloses a water pump with high heat dissipation and anti-seismic performance, and belongs to the field of water pumps. The utility model provides a high heat dissipation and shock resistance's water pump, includes the water pump body that has motor, drinking-water pipe and drain pipe, still includes: the mounting plate is arranged at the lower end of the water pump body, wherein the lower end of the water pump body is fixedly connected with a buffer plate, and the buffer plate is connected with the mounting plate through a buffer mechanism; the first tubular heat-conducting plate is fixedly connected to the outer wall of the motor, a first spiral pipe is fixedly connected to the outer wall of the first tubular heat-conducting plate, and a first liquid inlet pipe and a first liquid outlet pipe are respectively arranged at two ends of the first spiral pipe; the second tubular heat-conducting plate is fixedly connected to the inner wall of the drain pipe; the invention can effectively buffer the vibration on the water pump body, thereby preventing the water pump body from loosening due to vibration, and can also efficiently dissipate heat of the water pump body, thereby effectively protecting the water pump body.

Description

Water pump with high heat dissipation and anti-seismic performance

Technical Field

The invention relates to the technical field of water pumps, in particular to a water pump with high heat dissipation and anti-seismic performance.

Background

Water pumps are machines that deliver or pressurize a liquid. It transfers the mechanical energy of prime mover or other external energy to liquid to increase the energy of liquid, and is mainly used to transfer liquid including water, oil, acid-base liquid, emulsion, suspoemulsion and liquid metal.

In the prior art, a motor on a water pump generally radiates heat through a radiating fin, some water pumps need to be frequently used for a long time, the radiating effect of the radiating fin is limited, and then the driving motor of the water pump is easy to overheat, so that the water pump is easy to break down due to overheat of the driving motor, and the water pump is easy to loose from a mounting bracket or a bearing body due to vibration generated during operation of the water pump, especially the water pump mounted on a mobile device, such as the water pump mounted on a ship body, and the ship body and the water pump can easily loose or even break down due to vibration.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a water pump with high heat dissipation and anti-seismic performance.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a high heat dissipation and shock resistance's water pump, includes the water pump body that has motor, drinking-water pipe and drain pipe, still includes: the mounting plate is arranged at the lower end of the water pump body, wherein the lower end of the water pump body is fixedly connected with a buffer plate, and the buffer plate is connected with the mounting plate through a buffer mechanism; the first tubular heat-conducting plate is fixedly connected to the outer wall of the motor, a first spiral pipe is fixedly connected to the outer wall of the first tubular heat-conducting plate, and a first liquid inlet pipe and a first liquid outlet pipe are respectively arranged at two ends of the first spiral pipe; the second tubular heat-conducting plate is fixedly connected to the inner wall of the drain pipe, a second spiral pipe fixedly connected with the second tubular heat-conducting plate is sleeved on the outer wall of the drain pipe, a second liquid inlet pipe and a second liquid outlet pipe are respectively arranged at two ends of the second spiral pipe, and the tail end of the first liquid outlet pipe is fixedly connected with the second liquid inlet pipe; and the hollow shaft is fixedly connected to the upper end of the buffer plate, and a circulating assembly connected with the second liquid outlet pipe and the first liquid inlet pipe is arranged in the hollow shaft.

In order to cushion the shock attenuation to the water pump body, preferably, buffer gear is including setting up a plurality of slide openings of mounting panel upper end, wherein, it is a plurality of equal sliding connection has the buffering traveller in the slide opening, and is a plurality of all through buffer spring elastic connection, it is a plurality of between the interior bottom of buffering traveller and slide opening the equal fixed connection in the lower extreme of buffer board in the upper end of buffering traveller.

In order to carry out high-efficient heat dissipation to the water pump body, preferably, the circulation subassembly includes sliding connection and is in the piston in the hollow shaft, through offsetting spring elastic connection between the interior bottom of piston and hollow shaft, wherein, the lower extreme fixedly connected with of hollow shaft rather than the first imbibition pipe and the first drain pipe of intercommunication, all install the check valve in first imbibition pipe and the first drain pipe, first drain pipe and first feed liquor pipe fixed connection, first imbibition pipe and second drain pipe fixed connection.

In order to further promote the radiating efficiency of water pump body, furtherly, the fixed cover of outer wall of first tubulose heat-conducting plate is equipped with the third spiral pipe, the both ends of third spiral pipe are equipped with intake pipe and outlet duct respectively, install the check valve in the outlet duct, wherein, the first exhaust pipe and the first trachea of upper end fixedly connected with rather than the intercommunication of hollow shaft, all install the check valve in first exhaust pipe and the first trachea, first exhaust pipe and intake pipe fixed connection.

In order to prevent dust from being sucked into the third spiral pipe, furthermore, a housing is fixedly connected to the upper end of the water pump body, the hollow shaft and the first suction pipe are located in the housing, an inclined plane is arranged at the upper end of the housing, an air inlet groove is formed in the inclined plane of the housing, and a dust guard is installed in the air inlet groove.

In order to facilitate cleaning of the dust guard, furthermore, the upper end of the housing is fixedly connected with a gas storage bag, the tail end of the gas outlet pipe is fixedly connected and communicated with the gas storage bag, a spray pipe communicated with the gas storage bag is fixedly connected to the housing, an electromagnetic valve is installed in the spray pipe, a nozzle facing the upper end face of the dust guard is fixedly connected to the spray pipe, an overflow pipe is fixedly connected to the gas storage bag, and an overflow valve is installed in the overflow pipe.

Clear up for automatic second tubulose heat-conducting plate, further, the outer wall fixedly connected with of drain pipe extends to its inside communicating pipe, the output of communicating pipe is rotated and is connected with violently the pipe, wherein, the equal fixedly connected with montant in both ends of violently managing, two equal fixed mounting has the blade on the relative lateral wall of montant, two all be equipped with the brush that offsets with second tubulose heat-conducting plate inner wall on the montant.

In order to improve the cleaning effect of the brush, furthermore, two strip-shaped elastic air bags are fixedly mounted on the vertical rods, the brush is fixedly arranged on the outer wall of each strip-shaped elastic air bag, and the input end of the communicating pipe is fixedly connected and communicated with the third spiral pipe.

In order to improve the buffering effect of the buffering sliding column, furthermore, a branch pipe communicated with the third spiral pipe is fixedly connected to the third spiral pipe, and the tail end of the branch pipe extends into the sliding hole.

In order to prevent impurities and water from directly falling into the air inlet groove, a cover with a downward opening is fixedly connected to the upper end of the cover, and the cover is arranged at the upper end of the air inlet groove.

Compared with the prior art, the invention provides the water pump with high heat dissipation and anti-seismic performance, which has the following beneficial effects:

1. according to the water pump with high heat dissipation and anti-seismic performance, the buffer plate can be driven to shake up and down through the vibration of the water pump body, the buffer plate can drive the buffer sliding column to shake up and down in the sliding hole, and the buffer sliding column can buffer the vibration received by the water pump body through the buffer spring, so that the water pump body is prevented from being loosened due to vibration and further protected;

2. according to the water pump with high heat dissipation and anti-seismic performance, the water pump body which shakes up and down can drive the piston to slide up and down in the hollow shaft, the piston can offset part of vibration generated by the water pump body through the offsetting spring, and the effect of damping and buffering the water pump body can be improved;

3. according to the water pump with high heat dissipation and anti-seismic performance, the cooling liquid in the second spiral pipe can be intermittently conveyed into the first spiral pipe through the up-and-down sliding of the piston, so that the motor can efficiently dissipate heat through the water in the drainage pipe, and further the motor on the water pump body is prevented from being failed due to overheating;

4. when the piston slides upwards, the piston presses air at the top of the hollow shaft into the third spiral pipe through the first exhaust pipe and the air inlet pipe, and air heated by the motor in the third spiral pipe is discharged through the air outlet pipe, so that the motor can be further radiated through the third spiral pipe;

5. this water pump of high heat dissipation and anti-seismic performance can drive two montants through rivers and blade cooperation and rotate around the output of communicating pipe, and the montant then can clean the inner wall of second tubulose heat-conducting plate through the brush of outer wall to clear away the incrustation scale of second tubulose heat-conducting plate inner wall, and then guarantee the heat conductivity of second tubulose heat-conducting plate, can indirectly promote the radiating effect of motor.

Drawings

FIG. 1 is a schematic view of an axial structure of a water pump with high heat dissipation and shock resistance according to the present invention;

FIG. 2 is a schematic front view of a water pump with high heat dissipation and shock resistance according to the present invention;

FIG. 3 is a schematic view of a partial structure of the water pump with high heat dissipation and shock resistance shown in FIG. 2;

FIG. 4 is an enlarged view of a portion A of the water pump with high heat dissipation and shock resistance according to the present invention in FIG. 2;

FIG. 5 is an enlarged view of a portion B of the water pump with high heat dissipation and shock resistance according to the present invention in FIG. 3;

fig. 6 is an enlarged view of a portion C in fig. 2 of a water pump with high heat dissipation and shock resistance according to the present invention.

In the figure: 1. a water pump body; 2. a motor; 3. a water pumping pipe; 4. a drain pipe; 5. mounting a plate; 6. a buffer plate; 7. a slide hole; 8. a buffer strut; 9. a buffer spring; 10. a housing; 11. a hollow shaft; 12. a first tubular heat-conducting plate; 13. a first spiral pipe; 14. a first liquid outlet pipe; 15. a first liquid inlet pipe; 16. a second spiral pipe; 17. a second liquid inlet pipe; 18. a second liquid outlet pipe; 19. a piston; 20. a first drain pipe; 21. a first pipette; 22. a first exhaust pipe; 23. a first inhalation tube; 24. a counter spring; 25. an air inlet groove; 26. a dust-proof plate; 27. a third spiral pipe; 28. an air outlet pipe; 29. an air inlet pipe; 30. a gas storage balloon; 31. an overflow pipe; 32. a nozzle; 33. a nozzle; 34. a communicating pipe; 35. a transverse tube; 36. a vertical rod; 37. a blade; 38. a brush; 39. a strip-shaped elastic air bag; 40. a second tubular heat-conducting plate; 41. a branch pipe; 42. a cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-6, a water pump with high heat dissipation and anti-seismic performance comprises a water pump body 1 with a motor 2, a water pumping pipe 3 and a water discharging pipe 4, and further comprises: the mounting plate 5 is arranged at the lower end of the water pump body 1, wherein the lower end of the water pump body 1 is fixedly connected with a buffer plate 6, and the buffer plate 6 is connected with the mounting plate 5 through a buffer mechanism; the first tubular heat-conducting plate 12 is fixedly connected to the outer wall of the motor 2, wherein a first spiral pipe 13 is fixedly connected to the outer wall of the first tubular heat-conducting plate 12, and a first liquid inlet pipe 15 and a first liquid outlet pipe 14 are respectively arranged at two ends of the first spiral pipe 13; the second tubular heat-conducting plate 40 is fixedly connected to the inner wall of the drain pipe 4, wherein the outer wall of the drain pipe 4 is sleeved with a second spiral pipe 16 fixedly connected with the second tubular heat-conducting plate 40, two ends of the second spiral pipe 16 are respectively provided with a second liquid inlet pipe 17 and a second liquid outlet pipe 18, and the tail end of the first liquid outlet pipe 14 is fixedly connected with the second liquid inlet pipe 17; the hollow shaft 11 is fixedly connected to the upper end of the buffer plate 6, wherein a circulating assembly connected with the second liquid outlet pipe 18 and the first liquid inlet pipe 15 is arranged in the hollow shaft 11;

when in use, the vibration of the water pump body 1 can drive the buffer plate 6 to shake up and down, the buffer plate 6 can buffer the vibration received by the water pump body 1 through the buffer mechanism, thereby preventing the water pump body 1 from loosening due to the vibration, thereby protecting the water pump body 1, and the circulating component in the hollow shaft 11 can make the cooling liquid in the second spiral pipe 16 and the first spiral pipe 13 circulate back and forth, while the first tubular heat-conducting plate 12 transfers the heat generated by the motor 2 to the cooling fluid in the first coil 13, when the coolant in the first spiral pipe 13 enters the second spiral pipe 16, the water in the drain pipe 4 draws the temperature of the coolant in the second spiral pipe 16 through the second tubular heat-conducting plate 40, thereby performing heat exchange, can make motor 2 carry out the efficient heat dissipation to it through the water in the drain pipe 4, and then prevent motor 2 on the water pump body 1 because overheated and trouble.

Example 2:

referring to fig. 1-2, substantially the same as example 1, further, specific embodiments of the buffer mechanism are specifically disclosed.

The buffer mechanism comprises a plurality of sliding holes 7 arranged at the upper end of the mounting plate 5, wherein buffer sliding columns 8 are connected in the sliding holes 7 in a sliding mode, the buffer sliding columns 8 are elastically connected with the inner bottom of the sliding holes 7 through buffer springs 9, and the upper ends of the buffer sliding columns 8 are fixedly connected with the lower end of the buffer plate 6;

when using, the vibrations of water pump body 1 can drive buffer board 6 and shake from top to bottom, and buffer board 6 can drive buffering traveller 8 and shake from top to bottom in slide opening 7, and buffering traveller 8 then can cushion the vibrations that water pump body 1 received through buffer spring 9 to it is not hard up to prevent that water pump body 1 from appearing because of vibrations, and then protects water pump body 1.

Example 3:

referring to fig. 2-3, essentially the same as in example 1, further, specific embodiments of the circulation assembly are specifically disclosed.

The circulating assembly comprises a piston 19 which is connected in the hollow shaft 11 in a sliding manner, the piston 19 is elastically connected with the inner bottom of the hollow shaft 11 through a counteracting spring 24, the lower end of the hollow shaft 11 is fixedly connected with a first liquid suction pipe 21 and a first liquid discharge pipe 20 which are communicated with the lower end of the hollow shaft, one-way valves are respectively arranged in the first liquid suction pipe 21 and the first liquid discharge pipe 20, the first liquid discharge pipe 20 is fixedly connected with the first liquid inlet pipe 15, and the first liquid suction pipe 21 is fixedly connected with the second liquid outlet pipe 18;

when the water pump body 1 shakes up and down, the water pump body 1 can drive the piston 19 to slide up and down in the hollow shaft 11, the piston 19 can offset partial vibration generated by the water pump body 1 through the offsetting spring 24, the effect of damping and buffering the water pump body 1 can be improved, when the piston 19 slides up, negative pressure can be generated at the bottom of the hollow shaft 11, the hollow shaft 11 can suck cooling liquid in the second spiral pipe 16 through the first liquid suction pipe 21 and the second liquid outlet pipe 18, when the piston 19 slides down, the piston 19 can convey the cooling liquid sucked at the bottom of the hollow shaft 11 into the first spiral pipe 13 through the first liquid discharge pipe 20 and the first liquid inlet pipe 15, therefore, when the piston 19 slides up and down, the cooling liquid in the second spiral pipe 16 can be intermittently conveyed into the first spiral pipe 13, the first spiral pipe 13 can convey the cooling liquid back into the second spiral pipe 16 through the first liquid outlet pipe 14 and the second liquid inlet pipe 17, then first tubulose heat-conducting plate 12 can be with the coolant liquid in the heat transfer to first spiral pipe 13 that motor 2 produced, when the coolant liquid in first spiral pipe 13 entered into in the second spiral pipe 16, the temperature of coolant liquid in the second spiral pipe 16 can be drawn through second tubulose heat-conducting plate 40 to the water in the drain pipe 4 to carry out the heat exchange, can make motor 2 carry out the efficient heat dissipation to it through the water in the drain pipe 4, and then prevent motor 2 on the water pump body 1 because overheated and trouble.

Example 4:

referring to fig. 1 to 3 and fig. 6, substantially the same as in example 3, further, a specific embodiment of increasing the heat dissipation efficiency of the motor 2 is specifically added.

The outer wall of the first tubular heat conducting plate 12 is fixedly sleeved with a third spiral pipe 27, both ends of the third spiral pipe 27 are respectively provided with an air inlet pipe 29 and an air outlet pipe 28, a one-way valve is installed in the air outlet pipe 28, wherein the upper end of the hollow shaft 11 is fixedly connected with a first exhaust pipe 22 and a first air suction pipe 23 which are communicated with the hollow shaft, the first exhaust pipe 22 and the first air suction pipe 23 are both provided with one-way valves, and the first exhaust pipe 22 is fixedly connected with the air inlet pipe 29;

when the piston 19 slides upwards, the piston 19 presses air at the top of the hollow shaft 11 into the third spiral pipe 27 through the first exhaust pipe 22 and the intake pipe 29, air heated by the motor 2 in the third spiral pipe 27 is discharged through the outlet pipe 28, so that the motor 2 can be further cooled through the third spiral pipe 27, and when the piston 19 slides downwards, air is sucked at the top of the hollow shaft 11 through the first suction pipe 23.

Upper end fixedly connected with housing 10 of water pump body 1, hollow shaft 11 is located housing 10 with first intake pipe 23, wherein, the upper end of housing 10 is equipped with the inclined plane, and be equipped with air inlet duct 25 on the inclined plane of housing 10, install dust guard 26 in the air inlet duct 25, during first intake pipe 23 inspiration air, can absorb the air through air inlet duct 25, dust in the dust guard 26 in the air inlet duct 25 can the filtered air, prevent dust pollution third spiral pipe 27, thereby guarantee the continuity of third spiral pipe 27 to the radiating of motor 2.

The upper end of the housing 10 is fixedly connected with a gas storage airbag 30, the tail end of the gas outlet pipe 28 is fixedly connected and communicated with the gas storage airbag 30, a spray pipe 32 communicated with the gas storage airbag 30 is fixedly connected to the housing 10, an electromagnetic valve is installed in the spray pipe 32, a nozzle 33 facing the upper end face of the dust guard 26 is fixedly connected to the spray pipe 32, an overflow pipe 31 is fixedly connected to the gas storage airbag 30, and an overflow valve is installed in the overflow pipe 31;

when the air outlet pipe 28 exhausts, the air outlet pipe 28 can discharge hot air into the air storage air bag 30 and be compressed by the air storage air bag 30, when the air in the air storage air bag 30 is too much, the overflow pipe 31 can discharge redundant air, when the dust on the surface of the dust guard 26 is too much, the electromagnetic valve in the spray pipe 32 is opened, the compressed air in the air storage air bag 30 can be discharged through the nozzle 33 of the spray pipe 32, the nozzle 33 can blow off the dust on the surface of the dust guard 26, and the dust guard 26 can be cleaned simply and conveniently.

The upper end of the housing 10 is fixedly connected with a cover 42 with a downward opening, the cover 42 is arranged at the upper end of the air inlet groove 25, and the cover 42 can prevent external impurities and water from directly falling into the air inlet groove 25.

Example 5:

referring to fig. 2-5, substantially the same as example 4, further, a specific embodiment for cleaning the second tubular heat-conducting plate 40 is specifically disclosed.

The outer wall of the drain pipe 4 is fixedly connected with a communicating pipe 34 extending into the interior of the drain pipe 4, the output end of the communicating pipe 34 is rotatably connected with a horizontal pipe 35, wherein both ends of the horizontal pipe 35 are fixedly connected with vertical rods 36, opposite side walls of the two vertical rods 36 are fixedly provided with blades 37, and the two vertical rods 36 are provided with brushes 38 which are abutted against the inner wall of a second tubular heat-conducting plate 40;

during drain pipe 4 drainage, rivers can drive two montants 36 through blade 37 and rotate around the output of communicating pipe 34, and montant 36 then can clean the inner wall of second tubulose heat-conducting plate 40 through the brush 38 of outer wall to clear away the incrustation scale of second tubulose heat-conducting plate 40 inner wall, and then guarantee the heat conductivity of second tubulose heat-conducting plate 40, can indirectly promote the radiating effect of motor 2.

The two vertical rods 36 are fixedly provided with strip-shaped elastic air bags 39, the brushes 38 are fixedly arranged on the outer walls of the strip-shaped elastic air bags 39, and the input end of the communicating pipe 34 is fixedly connected and communicated with the third spiral pipe 27;

when the piston 19 slides up and down in a large range, the diameter of the outlet pipe 28 is limited, so that the gas cannot be timely conveyed into the gas storage airbag 30 through the third spiral pipe 27, and then the gas can also be conveyed into the communicating pipe 34, the communicating pipe 34 can convey the gas into the strip-shaped elastic airbag 39 through the transverse pipe 35, the strip-shaped elastic airbag 39 can enable the brush 38 on the outer wall to be tightly abutted against the inner wall of the second tubular heat conduction plate 40 when expanding, when the gas in the outlet pipe 28 is completely stored in the gas storage airbag 30, the strip-shaped elastic airbag 39 can be contracted and reset, the brush 38 can be reset, and the strip-shaped elastic airbag 39 which is occasionally expanded and contracted can enable the brush 38 on the outer wall to be rubbed on the inner wall of the second tubular heat conduction plate 40, so that the scale cleaning effect of the brush 38 is improved.

The branch pipe 41 is fixedly connected to the third spiral pipe 27, the tail end of the branch pipe 41 extends into the slide hole 7, and gas in the third spiral pipe 27 is conveyed into the slide hole 7 through the branch pipe 41, so that the buffering slide post 8 in the slide hole 7 is subjected to the damping effect of the gas, and the effect of the buffering slide post 8 on buffering the vibration of the water pump body 1 is further improved.

When the water pump with high heat dissipation and anti-seismic performance is used, the vibration of the water pump body 1 can drive the buffer plate 6 to shake up and down, the buffer plate 6 can drive the buffer sliding column 8 to shake up and down in the sliding hole 7, the buffer sliding column 8 can buffer the vibration on the water pump body 1 through the buffer spring 9, so that the water pump body 1 is prevented from loosening due to vibration, the water pump body 1 is further protected, when the water pump body 1 shakes up and down, the water pump body 1 can also drive the piston 19 to slide up and down in the hollow shaft 11, the piston 19 can offset part of vibration generated by the water pump body 1 through the offset spring 24, the effect of damping and buffering the water pump body 1 can be improved, when the piston 19 slides upwards, the bottom of the hollow shaft 11 can generate negative pressure, and the hollow shaft 11 can absorb cooling liquid in the second spiral pipe 16 through the first liquid outlet pipe 21 and the second liquid outlet pipe 18, when the piston 19 slides downwards, the piston 19 can convey the cooling sucked from the bottom of the hollow shaft 11 into the first spiral pipe 13 through the first liquid discharging pipe 20 and the first liquid inlet pipe 15, so that when the piston 19 slides up and down, the cooling liquid in the second spiral pipe 16 can be intermittently conveyed into the first spiral pipe 13, the first spiral pipe 13 can convey the cooling liquid back into the second spiral pipe 16 through the first liquid outlet pipe 14 and the second liquid inlet pipe 17, so that the first tubular heat conduction plate 12 can transfer the heat generated by the motor 2 to the cooling liquid in the first spiral pipe 13, when the cooling liquid in the first spiral pipe 13 enters into the second spiral pipe 16, the water in the water discharging pipe 4 can suck the temperature of the cooling liquid in the second spiral pipe 16 through the second tubular heat conduction plate 40, so as to carry out heat exchange, so that the motor 2 can efficiently dissipate the heat through the water in the water discharging pipe 4, and further prevent the motor 2 on the water pump body 1 from being overheated and failed, when the piston 19 slides upwards, the piston 19 presses the air at the top of the hollow shaft 11 into the third spiral pipe 27 through the first exhaust pipe 22 and the air inlet pipe 29, the air heated by the motor 2 in the third spiral pipe 27 is discharged through the air outlet pipe 28, so that the motor 2 can be further radiated through the third spiral pipe 27, when the piston 19 slides downwards, the air is sucked at the top of the hollow shaft 11 through the first air suction pipe 23, when the air is sucked by the first air suction pipe 23, the air is sucked through the air inlet groove 25, the dust-proof plate 26 in the air inlet groove 25 can filter the dust in the air, so as to prevent the dust from polluting the third spiral pipe 27, thereby ensuring the continuity of the heat radiation of the motor 2 by the third spiral pipe 27, when the air outlet pipe 28 exhausts, the air outlet pipe 28 exhausts the hot air into the air storage airbag 30 and is compressed by the air storage airbag 30, when the air in the air storage airbag 30 is too much, the overflow pipe 31 can discharge the redundant gas, when the dust on the surface of the dust-proof plate 26 is too much, the electromagnetic valve in the spray pipe 32 is opened, the compressed air in the gas storage airbag 30 can be discharged through the nozzle 33 of the spray pipe 32, the nozzle 33 can blow off the dust on the surface of the dust-proof plate 26, so that the dust-proof plate 26 can be cleaned simply and conveniently, during the water discharge of the water discharge pipe 4, the water flow can drive the two vertical rods 36 to rotate around the output end of the communication pipe 34 through the blades 37, the vertical rods 36 can clean the inner wall of the second tubular heat-conducting plate 40 through the brushes 38 on the outer wall, so that the scale on the inner wall of the second tubular heat-conducting plate 40 is cleaned, the heat conductivity of the second tubular heat-conducting plate 40 is ensured, the heat dissipation effect of the motor 2 can be indirectly improved, when the up-down sliding amplitude of the piston 19 is large, because the diameter of the gas outlet pipe 28 is limited, so that the gas can not be timely conveyed to the gas in the gas storage airbag 30 through the third spiral pipe 27, the gas is also conveyed into the communicating pipe 34, the communicating pipe 34 conveys the gas into the strip-shaped elastic air bag 39 through the transverse pipe 35, the strip-shaped elastic air bag 39 can enable the brush 38 on the outer wall to be tightly pressed against the inner wall of the second tubular heat-conducting plate 40 when expanding, when the gas in the gas outlet pipe 28 is completely stored in the gas storage air bag 30, the strip-shaped elastic air bag 39 is shrunk and reset, the brush 38 is reset, and then the strip-shaped elastic air bag 39 which is occasionally expanded and shrunk can enable the brush 38 on the outer wall to rub against the inner wall of the second tubular heat-conducting plate 40, so that the scale cleaning effect of the brush 38 is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a high heat dissipation and shock resistance's water pump, includes water pump body (1) that has motor (2), drinking-water pipe (3) and drain pipe (4), its characterized in that still includes:

a mounting plate (5) arranged at the lower end of the water pump body (1),

the lower end of the water pump body (1) is fixedly connected with a buffer plate (6), and the buffer plate (6) is connected with the mounting plate (5) through a buffer mechanism;

a first tubular heat-conducting plate (12) fixedly connected to the outer wall of the motor (2),

the outer wall of the first tubular heat-conducting plate (12) is fixedly connected with a first spiral pipe (13), and two ends of the first spiral pipe (13) are respectively provided with a first liquid inlet pipe (15) and a first liquid outlet pipe (14);

a second tubular heat-conducting plate (40) fixedly connected to the inner wall of the drain pipe (4),

the outer wall of the drain pipe (4) is sleeved with a second spiral pipe (16) fixedly connected with a second tubular heat-conducting plate (40), two ends of the second spiral pipe (16) are respectively provided with a second liquid inlet pipe (17) and a second liquid outlet pipe (18), and the tail end of the first liquid outlet pipe (14) is fixedly connected with the second liquid inlet pipe (17);

a hollow shaft (11) fixedly connected to the upper end of the buffer plate (6),

wherein, a circulating component connected with the second liquid outlet pipe (18) and the first liquid inlet pipe (15) is arranged in the hollow shaft (11).

2. The water pump with high heat dissipation and shock resistance as recited in claim 1, wherein the buffer mechanism comprises:

a plurality of sliding holes (7) arranged at the upper end of the mounting plate (5),

the buffer sliding column structure is characterized in that a plurality of buffer sliding columns (8) are connected in the sliding holes (7) in a sliding mode, the buffer sliding columns (8) are connected with the inner bottom of the sliding holes (7) in a sliding mode in an elastic mode through buffer springs (9), and the upper ends of the buffer sliding columns (8) are fixedly connected to the lower end of the buffer plate (6).

3. The water pump of claim 1, wherein the circulation assembly comprises:

a piston (19) connected in a sliding way in the hollow shaft (11), the piston (19) is elastically connected with the inner bottom of the hollow shaft (11) through a counteracting spring (24),

the lower end of the hollow shaft (11) is fixedly connected with a first liquid suction pipe (21) and a first liquid discharge pipe (20) which are communicated with the hollow shaft, the first liquid suction pipe (21) and the first liquid discharge pipe (20) are internally provided with a one-way valve, the first liquid discharge pipe (20) is fixedly connected with a first liquid inlet pipe (15), and the first liquid suction pipe (21) is fixedly connected with a second liquid outlet pipe (18).

4. The water pump with high heat dissipation and shock resistance as recited in claim 3, wherein the outer wall of the first tubular heat conducting plate (12) is fixedly sleeved with a third spiral pipe (27), both ends of the third spiral pipe (27) are respectively provided with an air inlet pipe (29) and an air outlet pipe (28), a one-way valve is installed in the air outlet pipe (28),

the upper end of the hollow shaft (11) is fixedly connected with a first exhaust pipe (22) and a first air suction pipe (23) which are communicated with the hollow shaft, one-way valves are mounted in the first exhaust pipe (22) and the first air suction pipe (23), and the first exhaust pipe (22) is fixedly connected with an air inlet pipe (29).

5. The water pump with high heat dissipation and anti-seismic performance as claimed in claim 4, wherein the upper end of the water pump body (1) is fixedly connected with a housing (10), the hollow shaft (11) and the first air suction pipe (23) are located in the housing (10),

the dust-proof cover is characterized in that an inclined plane is arranged at the upper end of the cover shell (10), an air inlet groove (25) is formed in the inclined plane of the cover shell (10), and a dust-proof plate (26) is installed in the air inlet groove (25).

6. The water pump with high heat dissipation and shock resistance as claimed in claim 5, wherein the upper end of the housing (10) is fixedly connected with an air storage bag (30), the end of the air outlet pipe (28) is fixedly connected and communicated with the air storage bag (30),

the dust-proof device is characterized in that a spray pipe (32) communicated with the gas storage air bag (30) is fixedly connected to the housing (10), an electromagnetic valve is installed in the spray pipe (32), a nozzle (33) facing the upper end face of the dust-proof plate (26) is fixedly connected to the spray pipe (32), an overflow pipe (31) is fixedly connected to the gas storage air bag (30), and an overflow valve is installed in the overflow pipe (31).

7. The water pump with high heat dissipation and shock resistance according to claim 6, wherein the outer wall of the water discharge pipe (4) is fixedly connected with a communication pipe (34) extending to the inside thereof, the output end of the communication pipe (34) is rotatably connected with a horizontal pipe (35),

the two ends of the transverse pipe (35) are fixedly connected with vertical rods (36), blades (37) are fixedly mounted on opposite side walls of the vertical rods (36), and brushes (38) which are abutted to the inner wall of the second tubular heat-conducting plate (40) are arranged on the vertical rods (36).

8. The water pump with high heat dissipation and shock resistance as claimed in claim 7, wherein a strip-shaped elastic air bag (39) is fixedly mounted on each of the two vertical rods (36), the brush (38) is fixedly arranged on the outer wall of the strip-shaped elastic air bag (39), and the input end of the communication pipe (34) is fixedly connected and communicated with the third spiral pipe (27).

9. The water pump with high heat dissipation and shock resistance as recited in claim 4, wherein a branch pipe (41) is fixedly connected to the third spiral pipe (27), and the end of the branch pipe (41) extends into the slide hole (7).

10. The water pump with high heat dissipation and shock resistance as recited in claim 5, wherein a cover (42) with a downward opening is fixedly connected to the upper end of the cover (10), and the cover (42) is disposed at the upper end of the air intake groove (25).

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