阅读说明：本技术 一种用于攻丝机的冷却液循环系统 (Cooling liquid circulating system for tapping machine ) 是由 郭磊 于 2020-06-30 设计创作，主要内容包括：本发明公开了一种用于攻丝机的冷却液循环系统,包括机身以及所述机身顶壁左侧内开口向上的工作腔,所述工作腔上方开口处伸入钻床,所述工作腔底壁连通设置有过滤转动腔,所述过滤转动腔内可转动的设置有过滤分隔轮,所述过滤分隔轮外围固定设置有过滤齿轮环,所述过滤分隔轮内围绕所述过滤分隔轮中心均匀设置有过滤分隔腔,本发明通过搅拌棒将热冷却液甩至空中,进而增大热冷却液与空气接触面积,加大散热效果,加入风冷,能更快的使冷却液散热,并且通过间歇轮齿条配合和齿轮传送带配合将散热功能和泵送功能关联起来,本发明通过将过滤室分格后交替使用,及时将过滤出的残渣清扫处设备外。(The invention discloses a cooling liquid circulating system for a tapping machine, which comprises a machine body and a working cavity with an upward opening in the left side of the top wall of the machine body, wherein a drilling machine extends into the opening above the working cavity, the bottom wall of the working cavity is communicated with a filtering rotating cavity, a filtering separating wheel is rotatably arranged in the filtering rotating cavity, a filtering gear ring is fixedly arranged at the periphery of the filtering separating wheel, and a filtering separating cavity is uniformly arranged in the filtering separating wheel around the center of the filtering separating wheel. And cleaning the filtered residues out of the equipment in time.)

1. A coolant circulation system for a tapping machine, includes the fuselage and the ascending working chamber of opening in fuselage roof left side, its characterized in that: the upper opening of the working cavity extends into the drilling machine, the bottom wall of the working cavity is communicated with and provided with a filtering and rotating cavity, a filtering and separating wheel is rotatably arranged in the filtering and rotating cavity, a filtering gear ring is fixedly arranged at the periphery of the filtering and separating wheel, filtering and separating cavities are uniformly arranged in the filtering and separating wheel around the center of the filtering and separating wheel, a filtering tank is fixedly arranged below the filtering and separating wheel, the right side of the bottom wall of the filtering tank is provided with a fan-shaped residue outlet, the left side of the bottom wall of the filtering tank is provided with a filtering plate with fine sieve pores, the lower part of the right side of the filtering and rotating cavity is communicated with and provided with a cleaning working cavity, the right wall of the cleaning working cavity is communicated with and provided with a cleaning cam cavity, the lower wall of the cleaning working cavity is provided with a cleaning outlet communicated with the, the discharging device adopts a cam slider structure to realize reciprocation, the discharging device and the filtering separation wheel move in a matching way through a gear transmission ratio, the right side of the filtering rotation cavity is communicated and provided with a filtering cleaning linkage cavity, the filtering cleaning linkage cavity is internally provided with a filtering gear which is meshed and connected with the filtering gear ring, the upper wall of the filtering gear is fixedly provided with a filtering main shaft, one end of the filtering main shaft, which is far away from the filtering gear, is fixedly provided with a filtering motor with an output shaft facing downwards, the lower side of the left side of the filtering rotation cavity is communicated and provided with a heat dissipation cavity with a lower wall left side opening downwards, the heat dissipation cavity is internally provided with a cooling device which can throw hot cooling coolant to achieve the cooling effect, the opening of the left side of the lower wall of the heat dissipation cavity is fixedly provided with a heat dissipation pipe which is made of high-thermal-conductivity material and, the cooling liquid storage inlet is downwards communicated with a cooling liquid storage cavity, an air cooling cavity is arranged below the cooling liquid storage inlet, an air cooling device for cooling hot cooling liquid through air cooling is arranged in the air cooling cavity, the air cooling device is connected with the cooling device through gear meshing, an air cooling power cavity is arranged in the left wall of the air cooling cavity, a cooling liquid pumping reciprocating power cavity is arranged in the left wall of the air cooling power cavity, a cooling main shaft extending leftwards and rightwards is arranged in the cooling liquid pumping reciprocating power cavity, a heat dissipation motor is fixedly arranged at the left end of the heat dissipation main shaft far away from the end, sent to the reciprocating power cavity, of the cooling liquid pumping, one end, far away from the cooling liquid pumping reciprocating power cavity, of the right end of the heat dissipation main shaft penetrates through the air cooling power cavity, and a intermittent wheel is fixedly arranged on the outer surface of one section, located on the reciprocating power cavity, of the cooling liquid, the heat dissipation main shaft is fixedly provided with an air-cooled power wheel on the outer surface of one section of the air-cooled power cavity, the intermittent wheel is externally meshed with a rack slider capable of sliding back and forth when the cooling liquid is sent into the double-power cavity by the cooling liquid pump, racks are respectively arranged on the upper inner wall and the lower inner wall of the rack slider, a pumping slide rod is fixedly arranged in the middle of the outer wall on the rear side of the rack slider, the pumping slide rod extends into the pump cavity, the tail end of the pumping slide rod is fixedly provided with a pumping slider, the upper wall and the lower wall on the rear side of the pump cavity are provided with pumping compression spring cavities, pumping compression springs are fixedly arranged in the pumping compression spring cavities, a pumping switch is fixedly arranged at the upper ends of the pumping compression springs, a pumping limiting block is fixedly arranged on the lower wall of the pumping switch, the pumping compression spring cavities on the lower, the pumping compression spring cavity intercommunication of pump chamber upper wall is provided with coolant liquid pumping spray tube, coolant liquid pumping spray tube stretches into right the working chamber and the end are fixed and are provided with the shower nozzle, and the chamber is deposited to forced air cooling chamber coolant liquid.

2. A coolant circulation system for a threading machine according to claim 1 wherein: the meshing of filtration gear right side be provided with what filter gear transfer ratio is/clean the gear, clean the fixed main shaft that is provided with of gear lower wall, clean the main shaft and keep away from the one end of cleaning the gear stretches into clean cam chamber and terminal fixed being provided with and clean the cam, it is provided with the decurrent compression spring chamber that cleans of opening in the cam to clean, clean the fixed compression spring that is provided with of compression spring chamber right wall, clean compression spring and keep away from the fixed slider that cleans that is provided with of one end of cleaning compression spring chamber right wall, clean the slider and keep away from downwards clean the fixed slide bar that is provided with of one end of cam, clean the slide bar and rise clean working chamber and terminal fixed being provided with and clean the piece.

3. A coolant circulation system for a threading machine according to claim 1 wherein: the heat dissipation main shaft has to stretch into heat dissipation chamber and terminal circumference department are evenly fixed and are provided with the lug, the heat dissipation main shaft rotates and drives the lug winds heat dissipation main shaft center rotates to get rid of hot coolant liquid to half empty through increase liquid area increase cooling effect.

4. A coolant circulation system for a threading machine according to claim 1 wherein: the meshing of forced air cooling power wheel below is provided with the band gear, the band gear below is provided with the band pulley through the conveyer belt transmission, fixed being provided with on the band gear right wall stretches into the upper shaft in forced air cooling chamber, the upper shaft is kept away from the fixed fan that is provided with of one end of band gear, the band pulley right wall is fixed to be provided with and stretches into the lower shaft in forced air cooling chamber, the lower shaft is kept away from the fixed fan that is provided with of one end of band gear is through the waste heat of forced air cooling mode in with the coolant liquid.

Technical Field

The invention relates to the technical field of machine cooling, in particular to a cooling liquid circulating system for a tapping machine.

Background

Tapping machine during operation can produce a large amount of heats, and too much heat can lead to work piece expend with heat and contract with cold, causes the precision of final unable assurance work piece, and the work of cooling just needs to be accomplished to the coolant liquid this moment, but can carry a large amount of heat and a large amount of work piece residues after the coolant liquid uses, directly falls to really be extravagant, consequently need design one kind and filter work piece residues in the coolant liquid and can in time take away thermal circulation system in the coolant liquid.

Disclosure of Invention

The object of the present invention is to provide a coolant circulation system for a tapping machine which overcomes the above-mentioned drawbacks of the prior art.

The invention relates to a cooling liquid circulating system for a tapping machine, which comprises a machine body and a working cavity with an upward opening in the left side of the top wall of the machine body, wherein a drilling machine extends into the opening above the working cavity, the bottom wall of the working cavity is communicated with a filtering and rotating cavity, a filtering and separating wheel is rotatably arranged in the filtering and rotating cavity, a filtering gear ring is fixedly arranged on the periphery of the filtering and separating wheel, filtering and separating cavities are uniformly arranged in the filtering and separating wheel around the center of the filtering and separating wheel, a filtering tank is fixedly arranged below the filtering and separating wheel, a fan-shaped residue outlet is arranged on the right side of the bottom wall of the filtering tank, a filtering plate with fine sieve meshes is arranged on the left side of the bottom wall of the filtering tank, a cleaning working cavity is communicated with the right side of the filtering and rotating cavity, a cleaning cam cavity is communicated with the right wall of the cleaning working cavity, and a, the cleaning machine is characterized in that a discharging device for discharging scrap iron out of the machine body is arranged in the cleaning working cavity, the discharging device realizes reciprocating by adopting a cam slider structure, the discharging device and the filtering separation wheel realize matched motion through a gear transmission ratio, a filtering and cleaning linkage cavity is communicated and arranged at the right side of the filtering and rotating cavity, a filtering gear which is in annular meshing connection with the filtering gear is arranged in the filtering and cleaning linkage cavity, a filtering main shaft is fixedly arranged on the upper wall of the filtering gear, a filtering motor with an output shaft downward is fixedly arranged at one end of the filtering main shaft, which is far away from the filtering gear, a heat dissipation cavity with a downward opening at the left side of the filtering and rotating cavity is communicated and arranged below the left side of the filtering and rotating cavity, a cooling device capable of throwing hot cooling liquid to achieve a cooling effect is arranged in the heat dissipation cavity, and a heat dissipation pipe made of high-, the cooling device is characterized in that a cooling liquid storage inlet is fixedly arranged at one end of the cooling tube, which is far away from the cooling cavity, the cooling liquid storage inlet is communicated downwards and is provided with a cooling liquid storage cavity, an air cooling cavity is arranged below the cooling tube, an air cooling device which has the function of cooling hot cooling liquid through air cooling is arranged in the air cooling cavity, the air cooling device is connected with the cooling device through gear engagement, an air cooling power cavity is arranged in the left wall of the air cooling cavity, a cooling liquid pump reciprocating power cavity is arranged in the left wall of the air cooling power cavity, a cooling main shaft which extends leftwards and rightwards is arranged in the cooling liquid pump reciprocating power cavity, a cooling motor is fixedly arranged at one end, which is far away from the cooling liquid pump reciprocating power cavity, of the left end of the cooling main shaft, a cooling main shaft is arranged at one section of the outer surface of the cooling liquid pump reciprocating power cavity, and is fixedly provided with a intermittent wheel, the heat dissipation main shaft is fixedly provided with an air-cooled power wheel on the outer surface of one section of the air-cooled power cavity, the intermittent wheel is externally meshed with a rack slider capable of sliding back and forth when the cooling liquid is sent into the double-power cavity by the cooling liquid pump, racks are respectively arranged on the upper inner wall and the lower inner wall of the rack slider, a pumping slide rod is fixedly arranged in the middle of the outer wall on the rear side of the rack slider, the pumping slide rod extends into the pump cavity, the tail end of the pumping slide rod is fixedly provided with a pumping slider, the upper wall and the lower wall on the rear side of the pump cavity are provided with pumping compression spring cavities, pumping compression springs are fixedly arranged in the pumping compression spring cavities, a pumping switch is fixedly arranged at the upper ends of the pumping compression springs, a pumping limiting block is fixedly arranged on the lower wall of the pumping switch, the pumping compression spring cavities on the lower, the pumping compression spring cavity intercommunication of pump chamber upper wall is provided with coolant liquid pumping spray tube, coolant liquid pumping spray tube stretches into right the working chamber and the end are fixed and are provided with the shower nozzle, and the chamber is deposited to forced air cooling chamber coolant liquid.

On the basis of the technical scheme, the right side of the filtering gear is meshed with a cleaning gear with a transmission ratio of the filtering gear being/the lower wall of the cleaning gear is fixedly provided with a cleaning main shaft, the cleaning main shaft is far away from one end of the cleaning gear stretches into a cleaning cam cavity and the tail end of the cleaning cam cavity are fixedly provided with a cleaning cam, a cleaning compression spring cavity with a downward opening is arranged in the cleaning cam, a cleaning compression spring is fixedly arranged on the right wall of the cleaning compression spring cavity, the cleaning compression spring is far away from a cleaning sliding block fixedly arranged at one end of the right wall of the cleaning compression spring cavity, the cleaning sliding block is downwards far away from a cleaning sliding rod fixedly arranged at one end of the cleaning cam, and the cleaning sliding rod rises into a cleaning block fixedly arranged at the working cavity.

On the basis of the technical scheme, the heat dissipation main shaft is axially extended into the heat dissipation cavity and the tail end of the circumference are uniformly and fixedly provided with the convex blocks, the heat dissipation main shaft rotates to drive the convex blocks to rotate around the center of the heat dissipation main shaft, so that the hot cooling liquid is thrown to a half space and the cooling effect is increased through the increase of the liquid area.

On the basis of the technical scheme, the meshing of forced air cooling power wheel below is provided with the belt pulley, the belt pulley below is provided with the band pulley through the conveyer belt transmission, the fixed upper shaft that stretches into the forced air cooling chamber that is provided with on the belt pulley right wall, the upper shaft is kept away from the fixed fan that is provided with of one end of belt gear, the belt pulley right wall is the fixed lower shaft that is provided with and stretches into the forced air cooling chamber, the lower shaft is kept away from the fixed fan that is provided with of one end of belt gear is through the waste heat of forced air cooling in with the coolant liquid and is gone.

The invention has the beneficial effects that: according to the invention, the hot cooling liquid is thrown into the air by the stirring rod, so that the contact area of the hot cooling liquid and the air is increased, the heat dissipation effect is increased, air cooling is added, the heat dissipation of the cooling liquid can be faster realized, and the heat dissipation function and the pumping function are associated by the cooperation of the intermittent gear rack and the gear conveyor belt.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view showing the overall construction of a coolant circulation system for a tapping machine according to the present invention;

FIG. 2 is a schematic view of the present invention taken along the line A-A of FIG. 1;

FIG. 3 is a schematic view of the present invention taken along the line B-B of FIG. 1;

FIG. 4 is a schematic view of the present invention taken along the line C-C of FIG. 1;

FIG. 5 is an enlarged view of the structure of the invention in the area D of FIG. 1;

fig. 6 is an enlarged view of the structure of range E of fig. 2 according to the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-6, a coolant circulation system for a tapping machine according to an embodiment of the present invention includes a machine body 2 and a working chamber 7 with an upward opening in the left side of the top wall of the machine body 2, a drilling machine 9 is inserted into an opening above the working chamber 7, a filtering rotary chamber 15 is provided in communication with the bottom wall of the working chamber 7, a filtering partition wheel 52 is rotatably provided in the filtering rotary chamber 15, a filtering gear ring 16 is fixedly provided on the periphery of the filtering partition wheel 52, filtering partition chambers 36 are uniformly provided in the filtering partition wheel 52 around the center of the filtering partition wheel 52, a filtering tank 6 is fixedly provided below the filtering partition wheel 52, a fan-shaped residue outlet 37 is provided on the right side of the bottom wall of the filtering tank 6, a filtering plate 38 with fine sieve meshes is provided on the left side of the bottom wall of the filtering tank 6, a cleaning working chamber 24 is provided in communication with the right side of, a cleaning cam cavity 19 is communicated and arranged in the right wall of the cleaning working cavity 24, a cleaning outlet 25 communicated with the machine body 2 is arranged on the left and right of the lower wall of the cleaning working cavity 24, a discharging device 901 for discharging scrap iron out of the machine body 2 is arranged in the cleaning working cavity 24, the discharging device 901 adopts a cam slider structure to realize reciprocation, the discharging device 901 and the filtering separation wheel 52 realize matched movement through a gear transmission ratio, a filtering and cleaning linkage cavity 13 is communicated and arranged on the right side of the filtering and rotating cavity 15, a filtering gear 12 meshed and connected with the filtering gear ring 16 is arranged in the filtering and cleaning linkage cavity 13, a filtering main shaft 11 is fixedly arranged on the upper wall of the filtering gear 12, a filtering motor 10 with an output shaft downward is fixedly arranged at one end of the filtering main shaft 11 far away from the filtering gear 12, a heat dissipation cavity 27 with a lower wall with a downward opening on the left side is communicated and arranged below the left side of, the cooling device 902 capable of throwing hot coolant to achieve the cooling effect is arranged in the heat dissipation cavity 27, the heat dissipation pipe 29 made of high thermal conductivity materials and extending downwards in a spiral mode is fixedly arranged at the opening of the left side of the lower wall of the heat dissipation cavity 27, the end, far away from the heat dissipation pipe 29, of the heat dissipation cavity 27 is fixedly provided with a coolant storage inlet 30, the coolant storage inlet 30 is communicated downwards to be provided with a coolant storage cavity 1, the air cooling cavity 53 is arranged below the cooling cavity 2, an air cooling device 903 capable of cooling the hot coolant through air cooling is arranged in the air cooling cavity 53, the air cooling device 903 is connected with the cooling device 902 through gear meshing, an air cooling power cavity 39 is arranged in the left wall of the air cooling cavity 53, a coolant pump conveying reciprocating power cavity 33 is arranged in the left wall of the air cooling power cavity 39, and a cooling main shaft 4 extending left and right is arranged in the coolant conveying reciprocating power cavity 33, a heat dissipation motor 3 is fixedly arranged at one end of the left end of the heat dissipation main shaft 4, which is far away from the coolant pumping reciprocating power cavity 33, a pause wheel 35 is fixedly arranged on one section of the outer surface of the heat dissipation main shaft 4, which is located at the coolant pumping reciprocating power cavity 33, an air cooling power wheel 5 is fixedly arranged on one section of the outer surface of the heat dissipation main shaft 4, which is located at the air cooling power cavity 39, a rack slider 34 capable of sliding back and forth in the coolant pumping reciprocating power cavity 33 is arranged outside the pause wheel 35 in an engaged manner, racks are respectively arranged on the upper inner wall and the lower inner wall of the rack slider 34, a pumping slide bar 51 is fixedly arranged in the middle of the outer wall at the rear side of the rack slider 34, the pumping, pump chamber 49 rear side upper and lower wall has seted up pump sending compression spring chamber 54, pump sending compression spring chamber 54 internal fixation is provided with pump sending compression spring 46, the fixed pump sending switch 48 that is provided with in pump sending compression spring 46 upper end, the fixed pump sending stopper 47 that is provided with of pump sending switch 48 lower wall, pump chamber 49 lower wall pump sending compression spring chamber 54 intercommunication is provided with coolant pump sending suction pipe 31, coolant pump sending suction pipe 31 stretches into cavity 1 is deposited to the coolant until near cavity 1 diapire is deposited to the coolant, pump chamber 49 upper wall pump sending compression spring chamber 54 intercommunication is provided with coolant pump sending spray tube 32, coolant pump sending spray tube 32 stretches into right work chamber 7 and the end is fixed and is provided with shower nozzle 8, and cavity 1 is deposited to air-cooled chamber 53 coolant.

In one embodiment, the discharge device 901 is described in detail, a cleaning gear 14 having a transmission ratio of 1/4 with the filter gear 12 is engaged with the filter gear 12 at the right side of the filter gear 12, a cleaning main shaft 17 is fixedly arranged on the lower wall of the cleaning gear 14, one end of the cleaning main shaft 17 far away from the cleaning gear 14 extends into the cleaning cam cavity 19, and the tail end of the cleaning main shaft 17 is fixedly provided with a cleaning cam 18, a cleaning compression spring cavity 20 with a downward opening is arranged in the cleaning cam 18, a cleaning compression spring 21 is fixedly arranged on the right wall of the cleaning compression spring cavity 20, a cleaning slide block 22 is fixedly arranged at one end of the cleaning compression spring 21 far away from the right wall of the cleaning compression spring cavity 20, one end of the cleaning slide block 22 which is far away from the cleaning cam 18 downwards is fixedly provided with a cleaning slide rod 23, the cleaning slide rod 23 is lifted into the cleaning working cavity 24, and the tail end of the cleaning slide rod is fixedly provided with a cleaning block 26.

In addition, in an embodiment, the cooling device 902 is described in detail, the heat dissipation main shaft 4 extends into the heat dissipation cavity 27, and the end circumference is uniformly and fixedly provided with a bump 28, the heat dissipation main shaft 4 rotates to drive the bump 28 to rotate around the center of the heat dissipation main shaft 4, so that the hot cooling liquid is thrown to a half space, and the cooling effect is increased by increasing the liquid area.

In one embodiment, the air cooling device 903 is described in detail, a belt gear 42 is engaged with and disposed below the air-cooling power wheel 5, a belt pulley 41 is disposed below the belt gear 42 through transmission of a transmission belt 40, an upper shaft 43 extending into the air-cooling cavity 53 is fixedly disposed on a right wall of the belt gear 42, a fan 44 is fixedly disposed at one end of the upper shaft 43 far away from the belt gear 42, a lower shaft 45 extending into the air-cooling cavity 53 is fixedly disposed on a right wall of the belt pulley 41, the fan 44 is fixedly disposed at one end of the lower shaft 45 far away from the belt gear 42, and waste heat in the coolant is dissipated through an air-cooling mode.

When the drilling machine 9 starts to work, the heat dissipation motor 3 is started to drive the heat dissipation main shaft 4 to rotate, the heat dissipation main shaft 4 rotates to drive the intermittent wheel 35 to rotate, the intermittent wheel 35 rotates to drive the rack slider 34 to slide back and forth, the rack slider 34 drives the pumping slide rod 51 to slide back and forth, the pumping slide rod 51 drives the pumping slide block 50 to slide back and forth, when the pumping slide block 50 slides back, the pump cavity 49 generates negative pressure, the pumping switch 48 on the lower wall of the pump cavity 49 moves upwards, the pumping limit block 47 on the lower wall of the pump cavity 49 accumulates elastic potential energy, the cooling liquid enters the pump cavity 49 through the cooling liquid pumping suction pipe 31, the pumping slider 50 slides back in the pump cavity 49 to generate high pressure in the pump cavity 49, and the pumping switch 48 on the lower wall of the pump cavity 49 moves downwards under the action of the pumping limit block 47, and then the channel of the coolant pumping suction pipe 31 is closed, at this time, the pumping switch 48 on the upper wall of the pump cavity 49 moves upwards, the coolant in the pump cavity 49 enters the coolant pumping spray pipe 32, the pumping limit block 47 on the upper wall of the pump cavity 49 accumulates elastic potential energy, the pumping slider 50 reaches the rear wall of the pump cavity 49, the pumping switch 48 on the upper wall of the pump cavity 49 moves downwards under the action of the pumping limit block 47 to close the channel of the coolant pumping spray pipe 32, so as to complete a coolant pumping operation, the coolant enters the spray head 8 through the coolant pumping spray pipe 32 and is sprayed on the drilling machine 9, so as to reduce the working temperature of the drilling machine 9, the used hot coolant falls into the filtering separation cavity 36, the filtering motor 10 rotates to drive the filtering main shaft 11 to rotate, and the filtering main shaft 11 rotates to drive the filtering gear 12 to rotate, the filtering gear 12 rotates to drive the filtering separation wheel 52 to rotate in the filtering rotation cavity 15, the filtering separation wheel 52 drives the filtering separation cavity 36 to rotate, the hot coolant falling into the filtering separation cavity 36 is filtered by the filtering plate 38 on the filtering plate 6 and then enters the heat dissipation cavity 27, the heat dissipation motor 3 rotates to drive the heat dissipation main shaft 4 to rotate, the heat dissipation main shaft 4 rotates to drive the air-cooled power wheel 5 to rotate, the heat dissipation main shaft 4 rotates to drive the lug 28 to rotate around the axis of the heat dissipation main shaft 4, so that the hot coolant in the heat dissipation cavity 27 is thrown into the air to enlarge the contact area with the air to achieve the heat dissipation effect, the basically cooled coolant enters the heat dissipation pipe 29 through the lower wall opening of the heat dissipation cavity 27, the air-cooled power wheel 5 drives the belt gear 42 to rotate, and the belt gear 42 drives the belt wheel 41 to rotate through the conveying belt 40, the belt wheel 42 rotates to drive the upper shaft 43 to rotate, the belt wheel 41 rotates to drive the lower shaft 45 to rotate, the upper shaft 43 and the lower shaft 45 rotate to respectively drive two sets of fans 44 to rotate, the fans 44 generate wind to accelerate the dissipation of the waste heat of the hot coolant in the radiating pipe 29, the coolant with the heat dissipation completed in the radiating pipe 29 passes through the coolant storage inlet 30 to fall into the coolant storage cavity 1 to wait for the next pumping, the filtering separation wheel 52 rotates to sweep the filtered residues in the filtering separation cavity 36 to the residue outlet 37 on the bottom wall of the filtering pool 6, the residues fall into the cleaning working cavity 24, the filtering gear 12 rotates to drive the cleaning gear 14 to rotate, the cleaning gear 14 rotates to drive the cleaning main shaft 17 to rotate, the cleaning main shaft 17 rotates to drive the cleaning cam to clean 18, clean cam 18 and rotate the drive clean slider 22 side-to-side reciprocating sliding, clean slider 22 and drive clean slider 23 side-to-side reciprocating sliding, work as clean slider 22 slide extremely when cleaning cam chamber 19 middle, clean compression spring 21 compression to the limit, work as clean slider 22 and cross clean cam chamber 19 middle time, clean compression spring 21 and release elastic potential energy, clean slider 22 to clean compression spring chamber 20 left wall direction and release, clean slider 23 and drive clean piece 26 will the residue on the 24 diapalls of working chamber will pass through clean export 25 and sweep out outside fuselage 2. The invention has the beneficial effects that: according to the invention, the hot cooling liquid is thrown into the air by the stirring rod, so that the contact area of the hot cooling liquid and the air is increased, the heat dissipation effect is increased, air cooling is added, the heat dissipation of the cooling liquid can be faster realized, and the heat dissipation function and the pumping function are associated by the cooperation of the intermittent gear rack and the gear conveyor belt.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.