CN214438798U - Automatic energy-saving stirring device for permanent magnetic ferrite material - Google Patents

Abstract

The application relates to an automatic energy-saving stirring device for a permanent magnetic ferrite material, which comprises a rack and a stirring drum arranged on the rack, wherein a driving mechanism for driving the stirring drum to rotate is arranged on the rack; the frame is equipped with the cooling chamber in the one side of churn keeping away from the storage water tank, is equipped with in the cooling chamber and sprays the mechanism. This application sprays the lateral wall of churn through the mechanism that sprays the water in with the circulating tank, can reach the effect of cooling down to the churn to through the circulation to cooler bin and circulating tank water use, with the cooling effect of promotion to the churn, reduced the condition emergence that the raw materials temperature risees and influence product quality.

Description

Automatic energy-saving stirring device for permanent magnetic ferrite material

Technical Field

The application relates to the technical field of permanent magnetic ferrite material processing, in particular to an automatic energy-saving stirring device for a permanent magnetic ferrite material.

Background

The permanent magnetic ferrite material is a functional material for generating a magnetic field, is an important component in the production of the magnetic shoe, and is often used as a raw material for manufacturing the magnetic shoe. In the production process of the magnetic shoe, the permanent magnetic ferrite material needs to be stirred and ground by a grinding device.

Chinese patent with publication number CN207981319U discloses a controllable ball mill of pressure, including support, ball-milling machine body, drive arrangement and voltage regulator device, the ball-milling machine body is located the upper end of support, the outside of ball-milling machine body is equipped with the insulating layer, the inboard of ball-milling machine body is equipped with the welt, be equipped with the sound absorbing layer between welt and the ball-milling machine body, the lower extreme of welt is equipped with the wearing layer, the inside of ball-milling machine body is equipped with a plurality of balls, and is a plurality of the ball diameter is the same, the both sides of ball-milling machine body are equipped with the bearing, the middle part of ball-milling machine body is equipped with the pivot, the pivot runs through the bearing and is connected with drive arrangement, drive arrangement includes driving motor and reduction gear, driving motor, reduction gear and pivot connect gradually.

In view of the above-mentioned related technologies, the inventors believe that in the course of grinding the raw material, the mutual friction between the grinding balls easily generates heat, which causes the temperature of the raw material to increase, and may adversely affect the production of the magnetic shoe.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the temperature of raw materials is easy to rise in the grinding process, the application provides an automatic energy-saving stirring device for a permanent magnetic ferrite material.

The application provides an automatic energy-conserving agitating unit of permanent magnetic ferrite material adopts following technical scheme:

an automatic energy-saving stirring device for a permanent magnetic ferrite material comprises a rack and a stirring drum arranged on the rack, wherein a driving mechanism for driving the stirring drum to rotate is arranged on the rack, a water storage tank is arranged between the rack and the stirring drum, the water storage tank comprises a cooling tank arranged on the rack and a circulating groove arranged on the cooling tank, a water inlet pipe and a water outlet pipe are arranged on the water storage tank, the water inlet pipe is connected with a circulating pump, an electromagnetic valve is arranged on the water outlet pipe, one end of the water outlet pipe is communicated with the circulating groove, the other end of the water outlet pipe is communicated with the cooling tank, one end of the water inlet pipe is communicated with the cooling tank, and the other end of the water inlet pipe is communicated with the circulating groove; the frame is equipped with the cooling chamber in the one side of storage water tank is kept away from to the churn, the cooling chamber covers and establishes on the churn, be equipped with in the cooling chamber and spray the mechanism, the one end that the cooling chamber was kept away from to the mechanism that sprays communicates in the circulation groove.

By adopting the technical scheme, before an operator grinds raw materials, the operator firstly adds cold water into the water storage tank, then the operator starts the spraying mechanism to spray the water in the circulating tank to the outer side wall of the mixing drum, when the cold water meets the mixing drum with higher temperature, steam is generated and evaporated to absorb heat, so as to achieve the effect of cooling the mixing drum, at the moment, the water flows back into the circulating tank along the outer side wall of the mixing drum, so as to circulate the water, the waste of water resources is reduced, the utilization rate of the water resources is improved, when the temperature of the water in the circulating tank rises, the operator opens the electromagnetic valve and opens the circulating pump together, at the moment, the water in the circulating tank enters the cooling tank through the water outlet pipe, the cold water in the cooling tank enters the circulating tank through the water inlet pipe, so that the cooling tank exchanges with the water in the circulating tank, and the used water can be naturally cooled, through the recycling of water in the cooling box and the circulating tank, the cooling effect on the stirring drum can be improved, and the condition that the temperature of the raw materials is increased to influence the product quality is reduced.

Optionally, the spraying mechanism comprises a water pipe, one end of the water pipe is inserted into the circulation tank, the other end of the water pipe penetrates through the cooling chamber and is communicated with a shunt pipe network, a spray head is arranged on one side of the shunt pipe network facing the mixing drum, and a high-pressure pump is connected between the shunt pipe network and the circulation tank.

Through adopting above-mentioned technical scheme, the operator starts the high-pressure pump, and the high-pressure pump passes through the raceway and carries the shunt tubes in with the water in the circulation case in the net to spout from the shower nozzle through the shunt tubes net, make cold water spray on the churn, in order to reach the effect that sprays the churn, thereby played the effect of cooling to the churn, and then reduced the raw materials and in-process high temperature's that appears the possibility at the stirring.

Optionally, be equipped with water collecting mechanism on the lateral wall of cooling chamber, water collecting mechanism is including installing the water catch bowl on the cooling chamber, be equipped with the vent on the cooling chamber, the one end that the cooling chamber was kept away from to the vent is equipped with the water catch bowl, be equipped with the drainage tube on the diapire of water catch bowl, the one end and the circulation groove intercommunication of water catch bowl are kept away from to the drainage tube.

Through adopting above-mentioned technical scheme, cold water meets produced steam of churn and is discharged from the vent, and steam can condense on the inner wall of water catch bowl this moment, when steam condenses too much, can follow the lateral wall of water catch bowl and flow into the drainage tube to flow into the circulation inslot along the drainage tube, thereby reduce the loss of moisture, and then promote the utilization ratio of water resource, reached energy saving's effect.

Optionally, a water absorption layer is arranged on the side wall of the water collection tank far away from the cooling chamber.

Through adopting above-mentioned technical scheme, set up the water absorption performance that the layer can increase the water catch bowl lateral wall that absorbs water to the water catch bowl of being convenient for is collected steam, has promoted the absorption rate of water catch bowl to moisture, with the loss that reduces moisture, thereby further improves the utilization ratio of water resource.

Optionally, an exhaust fan is arranged in the ventilation opening.

Through adopting above-mentioned technical scheme, the air flow rate of vent department can be accelerated to the exhaust fan, air flow rate in the cooling chamber has been accelerated simultaneously, in order to promote the air flow rate on churn surface, and then the moisture rapid evaporation on churn surface of being convenient for, in order to promote the cooling effect to the churn, and the exhaust fan can blow steam and dash to the layer that absorbs water fast, make the layer that absorbs water carry out the quick absorption to steam, thereby promoted the water absorption performance on the layer that absorbs water, further reduce the loss of moisture.

Optionally, the water collecting tank is provided with an extrusion piece for extruding the water absorbing layer, the extrusion piece comprises a rotating shaft penetrating through the side wall of the water collecting tank, the rotating shaft is rotatably connected with an extrusion roller abutting against the water absorbing layer, two side walls of the water collecting tank along the vertical direction are both provided with a guide hole, and the rotating shaft simultaneously penetrates through the two guide holes; the utility model discloses a rotary water collecting tank, including water catch bowl, threaded rod, slider, pivot, water catch bowl, be equipped with on the lateral wall of water catch bowl and be used for driving threaded rod pivoted motor, threaded rod is connected with on the threaded rod, the one end of pivot is connected on the slider, be equipped with on the water catch bowl and be used for driving threaded rod pivoted motor.

Through adopting above-mentioned technical scheme, the operator starter motor, the motor drive threaded rod rotates, and threaded rod drive slider drives the pivot and slides along the length direction of guiding hole, and the pivot drives the squeeze roll and rolls the water absorption layer this moment to extrude the absorptive moisture in layer that will absorb water, and then be convenient for absorb water the layer and absorb steam once more.

Optionally, one side of the circulation tank facing the mixing drum is provided with a closing groove which is closed inwards, and a filter piece is arranged at the notch of the closing groove.

Through adopting above-mentioned technical scheme, the water after cooling the churn flows into to the groove of healing along the churn lateral wall, and the groove of healing leads to water this moment for rivers filter the piece through straining, filter this moment and filter water, and the condition that gets into the circulation inslot with the impurity that reduces aquatic takes place, thereby reduces the condition emergence that impurity blockked up the pipeline.

Optionally, the frame all is equipped with a slide along length direction's both sides, the both sides of cooling chamber all are equipped with a slide rail, slide rail sliding connection is in the slide.

Through adopting above-mentioned technical scheme, the operator promotes the cooling chamber, and the cooling chamber slides in the slide through the slide rail, and the slide leads the slide rail this moment to be convenient for the operator removes the cooling chamber, and then be convenient for the operator to reinforced or unload in the churn.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the water in the circulating tank is sprayed to the outer side wall of the stirring cylinder through the spraying mechanism, so that the effect of cooling the stirring cylinder can be achieved, the cooling effect on the stirring cylinder is improved through the recycling of the water in the cooling box and the circulating tank, and the condition that the product quality is influenced by the rising of the temperature of the raw materials is reduced;

2. the water vapor is collected through the water collecting tank, so that the loss of water can be reduced, the utilization rate of water resources is improved, and the effect of saving energy is achieved;

3. can accelerate the air flow rate of vent department through the exhaust fan to accelerated the air flow rate in the promotion cooling chamber, with the air flow rate who promotes the churn surface, and then the rapid evaporation of moisture on the churn surface of being convenient for has promoted the cooling effect to the churn.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram for embodying a spraying mechanism in the embodiment of the present application.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 is an enlarged schematic view of a portion B in fig. 1.

Description of reference numerals: 1. a frame; 11. a mixing drum; 12. a cooling chamber; 121. a vent; 13. a slideway; 14. a slide rail; 2. a drive mechanism; 21. a drive motor; 22. a speed reducer; 3. a water storage tank; 31. a cooling tank; 32. a circulation tank; 33. a water inlet pipe; 34. a water outlet pipe; 35. a circulation pump; 36. an electromagnetic valve; 37. a temperature sensor; 38. a closing groove; 39. a filter member; 391. a support frame; 392. a filter screen; 4. a spraying mechanism; 41. a water delivery pipe; 42. a shunt pipe network; 43. a spray head; 44. a high pressure pump; 5. a water collecting mechanism; 51. a water collection tank; 511. a guide hole; 52. a drainage tube; 53. a water-absorbing layer; 54. an exhaust fan; 6. an extrusion; 61. a rotating shaft; 62. a squeeze roll; 63. a threaded rod; 64. a slider; 65. an electric motor.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an automatic energy-saving stirring device for a permanent magnetic ferrite material.

Referring to fig. 1 and 2, the automatic energy-saving stirring device comprises a frame 1, a stirring drum 11 is rotatably connected to the frame 1, the stirring drum 11 is arranged along the length direction of the frame 1, steel balls are arranged in the stirring drum 11, and a feeding hole is formed in the side wall of the stirring drum 11. One end of the frame 1 along the length direction is provided with a driving mechanism 2, and the driving mechanism 2 comprises a driving motor 21 and a speed reducer 22. The driven shaft of the reducer 22 is connected with the mixing drum 11, and the driving shaft is connected with the output shaft of the driving motor 21 in a chain transmission mode. The operator feeds the raw material into the agitating drum 11 through the feed port and starts the driving motor 21. At this time, the driving motor 21 drives the mixing drum 11 to rotate through the speed reducer 22, so that the steel balls grind the raw materials.

Referring to fig. 1 and 2, a water storage tank 3 is arranged between the frame 1 and the mixing drum 11, and the water storage tank 3 is fixed on the frame 1. Meanwhile, a cooling chamber 12 is arranged on one side, far away from the water storage tank 3, of the stirring drum 11 of the frame 1, the cooling chamber 12 is covered on the stirring drum 11, a spraying mechanism 4 is arranged on the top wall of the cooling chamber 12, and the other end of the spraying mechanism 4 is communicated with the water storage tank 3. And frame 1 all is equipped with a slide 13 along length direction's both sides, and slide 13 extends to the one end of keeping away from actuating mechanism 2, all sliding connection has a slide rail 14 in two slides 13. One of the slide rails 14 is fixed on one side of the cooling chamber 12 in the extending direction, and the other slide rail 14 is fixed on the other side of the cooling chamber 12, so that an operator can push the cooling chamber 12 to move on the rack 1, and the operator can move the cooling chamber 12 away from the mixing drum 11, and the operator can conveniently load or unload materials.

Referring to fig. 1 and 2, the spraying mechanism 4 includes a distribution pipe network 42 fixed on the inner top wall of the cooling chamber 12, the distribution pipe network 42 is arranged along the length direction of the mixing drum 11, and a plurality of spray heads 43 are uniformly distributed at one end of the distribution pipe network 42 facing the mixing drum 11. Meanwhile, a water delivery pipe 41 is arranged between the diversion pipe network 42 and the water storage tank 3, one end of the water delivery pipe 41 is communicated with the diversion pipe network 42, the other end of the water delivery pipe 41 is communicated with the water storage tank 3, and the water delivery pipe 41 is a hose made of soft materials and can be a rubber pipe. And a high-pressure pump 44 is connected to the water pipe 41.

Referring to fig. 1 and 2, before the raw materials are stirred, an operator fills up cold water in the water storage tank 3, at this time, the operator starts the high-pressure pump 44, the high-pressure pump 44 conveys the cold water in the water storage tank 3 to the shunt pipe network 42 through the water conveying pipe 41, and the cold water is sprayed out of the spray head 43 through the shunt pipe network 42, so that the cold water is sprayed onto the outer side wall of the stirring cylinder 11, and after the cold water is contacted with the high-temperature stirring cylinder 11, the cold water is vaporized, evaporated and absorbs heat, so that the effect of cooling the stirring cylinder 11 is achieved, and the raw materials in the stirring cylinder 11 are conveniently cooled. The used water flows back into the water storage tank 3, so that the effect of water resource recycling is achieved, and the waste of water resources is reduced.

Referring to fig. 2 and 3, a set of ventilation openings 121 is formed in each of two side walls of the cooling chamber 12 in the length direction, and three ventilation openings 121 are uniformly formed in the same set in the length direction of the cooling chamber 12. The end of the vent 121 far away from the cooling chamber 12 is provided with a water collecting mechanism 5, the water collecting mechanism 5 comprises a water collecting tank 51 fixedly connected to the vent 121, the top wall of the water collecting tank 51 is provided with an air outlet, the bottom of the water collecting tank 51 is communicated with a drainage tube 52, the drainage tube 52 is made of soft rubber, and the end of the drainage tube 52 far away from the water collecting tank 51 extends into the water storage tank 3. And the side wall of the water collecting tank 51 facing the vent 121 is provided with a water absorbing layer 53, the water absorbing layer 53 is made of sponge materials, and the sponge is porous and is easy to collect water. Meanwhile, the ventilating opening 121 is provided with the exhaust fan 54, and the exhaust fan 54 is a waterproof exhaust fan 54.

Referring to fig. 2 and 3, the mixing drum 11 is in the cooling process, the operator starts the exhaust fan 54, and at this time, the exhaust fan 54 can blow out the water vapor in the cooling chamber 12 to accelerate the air flow rate in the cooling chamber 12, so as to accelerate the rate of water evaporation on the mixing drum 11, and further improve the cooling effect on the mixing drum 11. Meanwhile, the exhaust fan 54 blows the water vapor in the cooling chamber 12 to the water absorption layer 53, so that the water absorption layer 53 absorbs the water vapor, thereby reducing the loss of water and the waste of water resources. Meanwhile, water entering the water collecting tank 51 can flow into the water storage tank 3 through the drainage tube 52, so that water vapor generated in the cooling chamber 12 can be collected, and the effect of saving water resources is achieved.

Referring to fig. 3 and 4, the water collection groove 51 is provided with the pressing member 6, and the pressing member 6 includes a threaded rod 63 provided at both sides of the water collection groove 51, and the threads are provided in a vertical direction of the water collection groove 51 and rotatably coupled to the water collection groove 51. Two motors 65 are arranged on the top wall of the water collecting tank 51, wherein the output shaft of one motor 65 is connected with one threaded rod 63, and the output shaft of the other motor 65 is connected with the other threaded rod 63. All threaded connection has a slider 64 on two threaded rods 63, is equipped with pivot 61 between two sliders 64, has all seted up a guiding hole 511 on two lateral walls of water catch bowl 51 along vertical direction, and in two guiding holes 511 were worn to locate simultaneously by pivot 61. Meanwhile, the rotating shaft 61 is rotatably connected with a squeezing roller 62, the squeezing roller 62 is abutted against the water absorbing layer 53, and the distance between the squeezing roller 62 and the side wall of the water collecting tank 51 is smaller than the thickness of the water absorbing layer 53.

Referring to fig. 3 and 4, when the operator starts the motor 65, the motor 65 drives the threaded rod 63 to rotate, so that the sliding block 64 drives the rotating shaft 61 to slide along the length direction of the guide hole 511. At this time, the rotating shaft 61 drives the squeezing roller 62 to roll along the side wall of the water collecting tank 51, so that the squeezing roller 62 squeezes the water absorbing layer 53, and the water absorbed in the water absorbing layer 53 is squeezed out, so that the water absorbing layer 53 can absorb water continuously.

Referring to fig. 1 and 2, the water storage tank 3 includes a cooling tank 31 fixed to the frame 1, and a circulation tank 32 provided on the cooling tank 31, and both the water duct 41 and the drainage tube 52 are communicated with the circulation tank 32. And the both ends of storage water tank 3 along length direction do not are equipped with a inlet tube 33 and a outlet pipe 34, the one end intercommunication of inlet tube 33 and the top of circulation groove 32, the other end intercommunication in the bottom of cooler bin 31, and be connected with circulating pump 35 on the inlet tube 33. One end of the water outlet pipe 34 is communicated with the bottom of the circulation tank 32, the other end is communicated with the top of the cooling tank 31, and the water outlet pipe 34 is connected with an electromagnetic valve 36. Meanwhile, a temperature sensor 37 is arranged on the side wall of the circulation tank 32, the detection end of the temperature sensor 37 extends into the circulation tank 32, and the electromagnetic valve 36 and the circulation pump 35 are electrically connected with the temperature sensor 37.

Referring to fig. 1 and 2, after the water cooled in the mixing drum 11 flows into the circulation tank 32 along the wall of the mixing drum 11, and after the water in the circulation tank 32 is used for several hours, the water temperature in the circulation tank 32 gradually rises, so that the temperature sensor 37 controls the electromagnetic valve 36 to open, and controls the circulation pump 35 to start working, thereby achieving the effect of automation. At this time, water in the circulation tank 32 flows into the cooling tank 31 through the water outlet pipe 34, the circulation pump 35 conveys the water in the cooling tank 31 into the circulation tank 32 through the water inlet pipe 33, so that the water in the circulation tank 32 enters the cooling tank 31 to be naturally cooled, the water in the cooling tank 31 enters the circulation tank 32 to cool the stirring drum 11, and the cooling effect on the stirring drum 11 is improved through the exchange of water bodies.

Referring to fig. 1 and 2, the open end of the circulation groove 32 is provided with a closing groove 38 close to the bottom wall, and the closing groove 38 is provided with a filter element 39, the filter element 39 includes a support frame 391 hung on the closing groove 38, and a filter net 392 fixed in the support frame 391. After the water is left on the side wall of the mixing drum 11, the closing-in groove 38 drains the water, so that the water enters the supporting frame 391, and the filter screen 392 filters the water at the moment, so that the situation that impurities in the water enter the circulating groove 32 is reduced.

The implementation principle of the automatic energy-saving stirring device for the permanent magnetic ferrite material in the embodiment of the application is as follows: the operator feeds the raw material into the mixing drum 11 through the feed port, and then the operator pushes the cooling chamber 12 to cover the mixing drum 11. And start high-pressure pump 44 and carry the water in the circulation groove 32 for water gets into reposition of redundant personnel pipe network 42, and sprays on churn 11 through shower nozzle 43, cools down churn 11, in order to reach the effect of cooling down the raw materials. Then the water flows back into the circulation tank 32, after the water in the circulation tank 32 is used for a period of time, when the temperature sensor 37 detects that the water temperature reaches a certain value, the temperature sensor 37 controls the electromagnetic valve 36 to be opened, and the circulation pump 35 is started, so that the water in the cooling tank 31 and the water in the circulation tank 32 are exchanged, and the stirring drum 11 is cooled continuously. Meanwhile, the exhaust fan 54 can accelerate the air flow rate in the cooling chamber 12 to improve the cooling effect on the mixing drum 11.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an automatic energy-conserving agitating unit of permanent magnetic ferrite material, includes frame (1) and churn (11) of setting in frame (1), be equipped with in frame (1) and be used for driving churn (11) pivoted actuating mechanism (2), its characterized in that: a water storage tank (3) is arranged between the rack (1) and the stirring drum (11), the water storage tank (3) comprises a cooling tank (31) arranged on the rack (1) and a circulating groove (32) arranged on the cooling tank (31), a water inlet pipe (33) and a water outlet pipe (34) are arranged on the water storage tank (3), a circulating pump (35) is connected to the water inlet pipe (33), an electromagnetic valve (36) is arranged on the water outlet pipe (34), one end of the water outlet pipe (34) is communicated with the circulating groove (32), the other end of the water outlet pipe is communicated with the cooling tank (31), one end of the water inlet pipe (33) is communicated with the cooling tank (31), and the other end of the water inlet pipe is communicated with the circulating groove (32);

the cooling device is characterized in that a cooling chamber (12) is arranged on one side, away from the water storage tank (3), of the stirring barrel (11) of the rack (1), the cooling chamber (12) is covered on the stirring barrel (11), a spraying mechanism (4) is arranged in the cooling chamber (12), and one end, away from the cooling chamber (12), of the spraying mechanism (4) is communicated with the circulating groove (32).

2. The automatic energy-saving stirring device for the permanent magnetic ferrite material according to claim 1, characterized in that: the spraying mechanism (4) comprises a water pipe (41), one end of the water pipe (41) is inserted into the circulating groove (32), the other end of the water pipe penetrates through the cooling chamber (12) and is communicated with a shunt pipe network (42), a spray head (43) is arranged on one side, facing the stirring barrel (11), of the shunt pipe network (42), and a high-pressure pump (44) is connected between the shunt pipe network (42) and the circulating groove (32) of the water pipe (41).

3. The automatic energy-saving stirring device for the permanent magnetic ferrite material according to claim 1, characterized in that: be equipped with water-collecting mechanism (5) on the lateral wall of cooling chamber (12), water-collecting mechanism (5) is including installing water catch bowl (51) on cooling chamber (12), be equipped with vent (121) on cooling chamber (12), the one end that cooling chamber (12) were kept away from in vent (121) is equipped with water catch bowl (51), be equipped with drainage tube (52) on the diapire of water catch bowl (51), the one end and circulation groove (32) intercommunication of water catch bowl (51) are kept away from in drainage tube (52).

4. The automatic energy-saving stirring device for the permanent magnetic ferrite material according to claim 3, characterized in that: and a water absorbing layer (53) is arranged on the side wall of the water collecting tank (51) far away from the cooling chamber (12).

5. The automatic energy-saving stirring device for the permanent magnetic ferrite material according to claim 4, is characterized in that: an exhaust fan (54) is arranged in the ventilation opening (121).

6. The automatic energy-saving stirring device for the permanent magnetic ferrite material according to claim 4, is characterized in that: the water collecting tank (51) is provided with an extrusion part (6) for extruding a water absorbing layer (53), the extrusion part (6) comprises a rotating shaft (61) penetrating through the side wall of the water collecting tank (51), the rotating shaft (61) is rotatably connected with an extrusion roller (62) abutting against the water absorbing layer (53), two side walls of the water collecting tank (51) along the vertical direction are respectively provided with a guide hole (511), and the rotating shaft (61) penetrates through the two guide holes (511) simultaneously;

rotate on the lateral wall of water catch bowl (51) and be connected with threaded rod (63), threaded connection has slider (64) on threaded rod (63), the one end of pivot (61) is connected on slider (64), be equipped with on water catch bowl (51) and be used for driving threaded rod (63) pivoted motor (65).

7. The automatic energy-saving stirring device for the permanent magnetic ferrite material according to claim 1, characterized in that: one side of the circulating groove (32) facing the stirring drum (11) is provided with a closing groove (38) which is closed inwards, and a filtering piece (39) is arranged at the notch of the closing groove (38).

8. The automatic energy-saving stirring device for the permanent magnetic ferrite material according to claim 1, characterized in that: frame (1) all is equipped with one slide (13) along length direction's both sides, the both sides of cooling chamber (12) all are equipped with one slide rail (14), slide rail (14) sliding connection is in slide (13).

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