Magnetic material stirring and sanding circulating system
Technical Field
The invention relates to the technical field of magnetic material stirring and sanding, in particular to a magnetic material stirring and sanding circulating system.
Background
At present, a magnetic material stirring and sanding circulating system and a process with the patent number of CN201210247168.3 comprise a stirring device, a sanding device, a first magnetic mud pump, a second magnetic mud pump and a plurality of hoses for magnetic material circulation, wherein a three-way valve is arranged at a feed opening of the stirring device; a first port of the three-way valve is connected with a feed opening of the stirring device, a second port of the three-way valve is sequentially communicated with a first magnetic mud pump and a feed opening at the upper end of the sanding device through corresponding hoses, and a third port of the three-way valve is a material spraying opening; and the feed opening of the stirring device is sequentially communicated with the second magnetic sludge pump and the feed opening at the upper end of the stirring device through corresponding hoses. Further, inside the agitating unit, be equipped with respectively with first magnetomud pump and the control end cooperation of second magnetomud pump be connected, and be arranged in preventing among the sanding device that magnetic material overflows and the anti-overflow of scarce material and lack the material monitoring unit. The invention can not grind the magnetic material, can not recycle the stirred material for secondary stirring, and can cause material waste if recycling and stirring are not timely.
Disclosure of Invention
The invention relates to the technical field of magnetic material stirring and sanding, in particular to a magnetic material stirring and sanding circulating system which comprises a stirring connected barrel component, a grinding and supporting device, a rotating grinding component, a linkage stirring device, a vertical linkage device, a stirring power device, a switch transmission device, a circulating lifting device and a lifting power device.
A magnetic material stirring and sanding circulating system comprises a stirring conjoined barrel component, and further comprises a grinding and supporting device, a rotating grinding component, a linkage stirring device, a vertical linkage device, a stirring power device, a switch transmission device, a circulating lifting device and a lifting power device, wherein the grinding and supporting device is connected above the left end of the stirring conjoined barrel component in a sliding manner, the rotating grinding component is fixedly connected on the grinding and supporting device, four linkage stirring devices are connected in the stirring conjoined barrel component in a rotating manner, the vertical linkage device is fixedly connected in the stirring conjoined barrel component and is in meshing transmission connection with the four linkage stirring devices, the stirring power device is fixedly connected in the stirring conjoined barrel component and is in meshing transmission connection with the vertical linkage device, the switch transmission device is fixedly connected in the stirring conjoined barrel component, the right end of the stirring conjoined barrel component is rotatably connected with a circulating lifting device, and a lifting power device is fixedly connected at the right end of the stirring conjoined barrel component and is in meshing transmission connection with the circulating lifting device.
As a further optimization of the technical scheme, the stirring conjoined barrel component of the magnetic material stirring and sanding circulating system comprises a conjoined barrel, a partition plate, bearings, a shielding plate, a material leakage hole, a transfer port, a fixing hole and a bearing seat, wherein the partition plate is fixedly connected inside the left end of the conjoined barrel, the four bearings are fixedly connected on the partition plate, the shielding plate is fixedly connected inside the left end of the conjoined barrel and is in contact with the partition plate, the material leakage hole is formed in the partition plate and the shielding plate, the transfer port and the fixing hole are respectively formed in the upper side and the lower side of the middle end of the conjoined barrel, and the bearing seat is fixedly connected above the right end of the conjoined barrel.
As a further optimization of the technical scheme, the grinding and supporting device of the magnetic material stirring and sanding circulating system comprises a supporting sliding cavity, a convex sliding port, a grinding supporting plate and a blanking hole, wherein the supporting sliding cavity is connected above the left end of the connected barrel in a sliding manner, the convex sliding port is fixedly connected to the supporting sliding cavity, the grinding supporting plate is fixedly connected to the supporting sliding cavity, and the grinding supporting plate is provided with a plurality of blanking holes.
As a further optimization of the technical scheme, the rotary grinding member of the magnetic material stirring and sanding circulating system comprises a supporting and fixing frame, a motor I and a grinding roller, wherein the supporting and fixing frame is fixedly connected above the bearing sliding cavity, the motor I is fixedly connected to the supporting and fixing frame, an output shaft of the motor I is rotatably connected with the supporting and fixing frame, the grinding roller is fixedly connected below an output shaft of the motor I, and the grinding roller is located in the bearing sliding cavity.
As a further optimization of the technical scheme, the linkage stirring device of the magnetic material stirring and sanding circulation system comprises a stirring connecting shaft, a plurality of stirring plates and a linkage gear I, wherein the stirring connecting shaft is fixedly connected with the plurality of stirring plates, the linkage gear I is fixedly connected below the stirring connecting shaft, the four stirring connecting shafts are respectively and fixedly connected with inner rings of four bearings, the four stirring connecting shafts are all rotatably connected with the shielding plate, and the four linkage gears I are positioned below the partition plate.
As a further optimization of the technical scheme, the vertical linkage device of the magnetic material stirring and sanding circulating system comprises a connecting pipe, a placing opening and a linkage gear II, wherein the connecting pipe is fixedly connected below the partition plate and is positioned right below the material leakage hole, the placing opening is formed in each of the front end and the rear end above the connecting pipe, the linkage gear II is rotatably connected to the connecting pipe, and the linkage gear II is in meshing transmission connection with the four linkage gears I.
As a further optimization of the technical scheme, the stirring power device of the magnetic material stirring and sanding circulating system comprises a supporting frame body, a motor II and a linkage gear III, wherein the supporting frame body is fixedly connected in the connected barrel, the motor II is fixedly connected to the supporting frame body, the linkage gear III is fixedly connected to an output shaft of the motor II, and the linkage gear III is in meshing transmission connection with the linkage gear II.
As a further optimization of the technical scheme, the switch transmission device of the magnetic material stirring and sanding circulating system comprises a connecting lug plate, a limiting sliding column, a switch sliding plate, a transmission screw rod, a coincidence hole and a transmission pipe, the connection ear plate be provided with two, the equal fixed connection in the below of baffle of two connection ear plates, the equal fixedly connected with spacing traveller in both ends about between two connection ear plates, sliding connection has the switch slide on two spacing travelers, the switch slide contacts with the baffle, the switch slide is located two and places the mouth, the rear end of drive screw rotates with the connection ear plate that is located the rear and is connected, drive screw still rotates with disjunctor bucket to be connected, drive screw passes through screw drive with the switch slide to be connected, be provided with the coincidence hole on the switch slide, the lower extreme fixed connection of transmission pipe is in the fixed orifices, the top and the switch slide contact of transmission pipe.
As a further optimization of the technical scheme, the circulation lifting device of the magnetic material stirring and sanding circulation system comprises a lifting screw, a wedge-shaped lifting plate and a transmission gear I, wherein the upper end and the lower end of the lifting screw are respectively in rotating connection with a bearing seat and a connected barrel, the wedge-shaped lifting plate is slidably connected in the connected barrel and is in threaded connection with the lifting screw, and the transmission gear I is fixedly connected above the lifting screw.
As a further optimization of the technical scheme, the lifting power device of the magnetic material stirring and sanding circulating system comprises a bearing frame, a motor III, a transmission gear II and an upper cover plate, wherein the bearing frame is fixedly connected above the right end of the conjoined barrel, the motor III is fixedly connected to the bearing frame, the transmission gear II is fixedly connected to an output shaft of the motor III, the transmission gear II is in meshing transmission connection with the transmission gear I, and the upper cover plate is fixedly connected above the bearing frame.
The magnetic material stirring and sanding circulating system has the beneficial effects that:
place magnetic material in grinding the layer board through protruding smooth mouthful, starter motor I drives and grinds the roller and rotate and grind magnetic material, magnetic material after the grinding is accomplished can enter into the disjunctor bucket through a plurality of unloading holes, add other stirring material into the disjunctor bucket again, starter motor II, drive a plurality of stirring boards and rotate, thereby stir magnetic material, it drives the switch slide removal to rotate the transmission lead screw, let coincidence hole and hourglass material hole coincidence, at this moment the stirring thing can enter the right-hand member of disjunctor bucket through the transmission pipe, starter motor III drives wedge lifter plate rebound, at this moment the left end that the stirring thing that finishes that does not use can get back to the disjunctor bucket can carry out the secondary stirring, magnetic material circulated use like this.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a schematic structural view of a magnetic material stirring and sanding circulation system according to the present invention;
FIG. 2 is a schematic cross-sectional view of a magnetic material stirring and sanding circulating system;
FIG. 3 is a schematic structural view of a stirring connected barrel component;
FIG. 4 is a schematic cross-sectional structure view of a stirring connected barrel component;
FIG. 5 is a schematic view of a grinding and supporting apparatus;
FIG. 6 is a schematic cross-sectional view of a grinding and supporting device;
FIG. 7 is a schematic view of a rotary polishing member;
FIG. 8 is a schematic view of a linkage stirring device;
FIG. 9 is a schematic view of an upright linkage arrangement;
FIG. 10 is a schematic view of a stirring power device;
FIG. 11 is a schematic diagram of a switch transfer device;
FIG. 12 is a schematic view of the structure of the circulation lifting device;
fig. 13 is a schematic structural view of the lifting power device.
In the figure: a stirring connected barrel component 1; 1-1 of a connected barrel; a separator 1-2; 1-3 of a bearing; 1-4 of a baffle plate; 1-5 of material leakage holes; 1-6 of a transfer port; 1-7 of a fixing hole; 1-8 of a bearing seat; a grinding and supporting device 2; supporting the sliding cavity 2-1; 2-2 of a convex sliding port; 2-3 of a grinding supporting plate; 2-4 of a blanking hole; rotating the grinding member 3; supporting the fixed frame 3-1; motor I3-2; 3-3 parts of grinding roller; a linkage stirring device 4; 4-1 of a stirring connecting shaft; 4-2 of a stirring plate; a linkage gear I4-3; an upright linkage 5; a connecting pipe 5-1; placing port 5-2; a linkage gear II 5-3; a stirring power device 6; a support frame body 6-1; motor II 6-2; a linkage gear III 6-3; a switch transfer device 7; connecting the ear plate 7-1; 7-2 of a limiting sliding column; a switch slide 7-3; 7-4 of a transmission screw rod; 7-5 of coincidence holes; 7-6 of a transfer pipe; a circulating lifting device 8; 8-1 of a lifting screw rod; a wedge-shaped lifting plate 8-2; a transmission gear I8-3; a lifting power device 9; a supporting frame 9-1; motor III 9-2; a transmission gear II 9-3; and an upper cover plate 9-4.
Detailed Description
The first embodiment is as follows:
the embodiment is described below with reference to fig. 1-13, the invention relates to the technical field of magnetic material stirring and sanding, and more specifically relates to a magnetic material stirring and sanding circulation system, which comprises a stirring connected barrel member 1, a grinding and supporting device 2, a rotating grinding member 3, a linkage stirring device 4, a vertical linkage device 5, a stirring power device 6, a switch transmission device 7, a circulation lifting device 8 and a lifting power device 9, wherein the magnetic material is placed in a grinding supporting plate 2-3 through a convex sliding opening 2-2, a starting motor I3-2 drives a grinding roller 3-3 to rotate to grind the magnetic material, the ground magnetic material enters the connected barrel 1-1 through a plurality of blanking holes 2-4, other stirring materials are added into the connected barrel 1-1, and a starting motor II6-2, the stirring plates 4-2 are driven to rotate, so that the magnetic material is stirred, the transmission screw 7-4 is rotated to drive the switch sliding plate 7-3 to move, the overlapping hole 7-5 and the material leakage hole 1-5 are overlapped, at the moment, a stirred material enters the right end of the connected barrel 1-1 through the transmission pipe 7-6, the motor III9-2 is started to drive the wedge-shaped lifting plate 8-2 to move upwards, and at the moment, the unused stirred material returns to the left end of the connected barrel 1-1 to be stirred for the second time, so that the magnetic material can be recycled;
a magnetic material stirring and sanding circulating system comprises a stirring conjoined barrel component 1, and further comprises a grinding and supporting device 2, a rotating grinding component 3, a linkage stirring device 4, a vertical linkage device 5, a stirring power device 6, a switch transmission device 7, a circulating lifting device 8 and a lifting power device 9, wherein the left end of the stirring conjoined barrel component 1 is stirred, and then stirred materials are transmitted to the right end of the stirring conjoined barrel component 1 for use, the grinding and supporting device 2 is connected above the left end of the stirring conjoined barrel component 1 in a sliding manner and can be used for placing magnetic materials, the rotating grinding component 3 is fixedly connected onto the grinding and supporting device 2, the magnetic materials are ground by utilizing the rotating grinding component 3, the stirring conjoined barrel component 1 is rotationally connected with four linkage stirring devices 4, and the magnetic materials are stirred by utilizing the four linkage stirring devices 4, the vertical linkage device 5 is fixedly connected in the stirring connected barrel component 1 and is in meshed transmission connection with the four linked stirring devices 4, the vertical linkage device 5 is utilized to drive the four linked stirring devices 4 to rotate, the stirring power device 6 is fixedly connected in the stirring connected barrel component 1 and is in meshed transmission connection with the vertical linkage device 5, the stirring power device 6 can drive the vertical linkage device 5 to rotate, a switch transmission device 7 is fixedly connected in the stirring connected barrel component 1, a stirring object positioned at the left end of the stirring connected barrel component 1 is transmitted to the right end of the stirring connected barrel component 1 by the switch transmission device 7, a circulating lifting device 8 is rotatably connected at the right end of the stirring connected barrel component 1, the stirring object which is not used up at the right end of the stirring connected barrel component 1 can be transmitted back to the left end of the stirring connected barrel component 1 by the circulating lifting device 8, and the lifting power device 9 is fixedly connected at the right end of the stirring connected barrel component 1 and is meshed with the circulating lifting The transmission connection is realized, and the lifting power device 9 is utilized to drive the circulating lifting device 8 to lift.
The second embodiment is as follows:
the embodiment is described below with reference to fig. 1 to 13, and the stirring connected barrel component 1 described in the first embodiment is further described in the present embodiment includes a connected barrel 1-1, a partition plate 1-2, a bearing 1-3, a baffle plate 1-4, a material leaking hole 1-5, a transfer port 1-6, a fixing hole 1-7, and a bearing seat 1-8, where a magnetic material can be stirred at the left end of the connected barrel 1-1 and then transferred to the right end of the connected barrel 1-1, the inside of the left end of the connected barrel 1-1 is fixedly connected with the partition plate 1-2, the partition plate 1-2 plays a role of isolation, and can also provide a fixed space for the bearing 1-3, the partition plate 1-2 is fixedly connected with four bearings 1-3, and the bearings 1-3 can provide a fixed space for the stirring connecting shaft 4-1, the baffle plate 1-4 is fixedly connected inside the left end of the conjoined barrel 1-1 and is contacted with the baffle plate 1-2, the baffle plate 1-4 can shield a leakage hole of the bearing 1-3, so that the magnetic material can not flow to the lower side, the baffle plate 1-2 and the baffle plate 1-4 are provided with a leakage hole 1-5, the magnetic material flows into the transfer pipe 7-6 through the leakage hole 1-5, the upper side and the lower side of the middle end of the conjoined barrel 1-1 are respectively provided with a transfer port 1-6 and a fixed hole 1-7, the magnetic material returns to the left end of the conjoined barrel 1-1 through the transfer port 1-6 for recycling, the fixed hole 1-7 can provide a fixed space for the transfer pipe 7-6, the upper part of the right end of the conjoined barrel 1-1 is fixedly connected with a bearing seat 1-8, the bearing seat 1-8 can provide a connecting space for the lifting screw 8-1.
The third concrete implementation mode:
the following describes the present embodiment with reference to fig. 1 to 13, and the present embodiment further describes an embodiment two, where the grinding and supporting device 2 includes a supporting slide chamber 2-1, a convex slide port 2-2, a grinding support plate 2-3, and a discharging hole 2-4, the supporting slide chamber 2-1 is slidably connected above the left end of the connected barrel 1-1, the supporting slide chamber 2-1 plays a role of bearing connection, the convex slide port 2-2 is fixedly connected to the supporting slide chamber 2-1, a magnetic material and a stirring material are added into the connected barrel 1-1 through the convex slide port 2-2, the grinding support plate 2-3 is fixedly connected to the supporting slide chamber 2-1, the magnetic material falls onto the grinding support plate 2-3 and is ground on the grinding support plate 2-3, the grinding support plate 2-3 is provided with a plurality of discharging holes 2-4, the magnetic material after being ground can enter the conjoined barrel 1-1 through a plurality of blanking holes 2-4.
The fourth concrete implementation mode:
the present embodiment will be described with reference to fig. 1-13, and the rotating grinding member 3 described in the third embodiment of the present embodiment further includes a supporting and fixing frame 3-1, the grinding device comprises a motor I3-2 and a grinding roller 3-3, a supporting and fixing frame 3-1 is fixedly connected above a bearing sliding cavity 2-1, the supporting and fixing frame 3-1 plays a role in supporting and fixing, the motor I3-2 is fixedly connected to the supporting and fixing frame 3-1, the motor I3-2 can drive the grinding roller 3-3 to rotate, an output shaft of the motor I3-2 is rotatably connected with the supporting and fixing frame 3-1, the grinding roller 3-3 is fixedly connected below an output shaft of the motor I3-2, magnetic materials are ground by the rotation of the grinding roller 3-3, and the grinding roller 3-3 is located in the bearing sliding cavity 2-1.
The fifth concrete implementation mode:
the embodiment is described below with reference to fig. 1-13, and the embodiment further describes the second embodiment, in which the linkage stirring apparatus 4 includes a stirring connecting shaft 4-1, a stirring plate 4-2 and a linkage gear I4-3, the stirring connecting shaft 4-1 plays a role of bearing connection and can drive a plurality of stirring plates 4-2 to rotate, the stirring connecting shaft 4-1 is fixedly connected with a plurality of stirring plates 4-2, the magnetic material is stirred by the plurality of stirring plates 4-2, the linkage gear I4-3 is fixedly connected below the stirring connecting shaft 4-1, the linkage gear I4-3 can drive the stirring connecting shaft 4-1 to rotate, four stirring connecting shafts 4-1 are respectively fixedly connected with inner rings of four bearings 1-3, four stirring connecting shafts 4-1 are both rotatably connected with a shielding plate 1-4, four linkage gears I4-3 are located below the partition board 1-2.
The sixth specific implementation mode:
the present embodiment will be described with reference to fig. 1 to 13, and the upright linkage 5 according to the fifth embodiment further includes a connecting pipe 5-1, the connecting pipe 5-1 is fixedly connected below the partition plate 1-2 and is positioned right below the material leakage hole 1-5, the connecting pipe 5-1 can provide a rotating space for the linkage gear II5-3, the front end and the rear end above the connecting pipe 5-1 are respectively provided with the placing ports 5-2, the placing ports 5-2 can provide a placing space for the switch sliding plate 7-3, the connecting pipe 5-1 is rotatably connected with the linkage gear II5-3 through a bearing, the linkage gear II5-3 can drive the four linkage gears I4-3 to rotate, and the linkage gear II5-3 is in meshing transmission connection with the four linkage gears I4-3.
The seventh embodiment:
the present embodiment will be described with reference to fig. 1 to 13, and the stirring power unit 6 according to the sixth embodiment further includes a support frame 6-1, the motor II6-2 and the linkage gear III6-3, the supporting frame body 6-1 is fixedly connected in the connected barrel 1-1, the supporting frame body 6-1 can provide a fixed space for the motor II6-2, the supporting frame body 6-1 is fixedly connected with the motor II6-2, the motor II6-2 can drive the linkage gear III6-3 to rotate, the output shaft of the motor II6-2 is fixedly connected with the linkage gear III6-3, the rotating linkage gear III6-3 can drive the linkage gear II5-3 to rotate, and the linkage gear III6-3 is in meshing transmission connection with the linkage gear II 5-3.
The specific implementation mode is eight:
this embodiment will be described below with reference to fig. 1 to 13, and this embodiment will further describe embodiment six: the switch transmission device 7 comprises two connecting lug plates 7-1, two limiting sliding columns 7-2, a switch sliding plate 7-3, a transmission screw 7-4, a superposition hole 7-5 and a transmission pipe 7-6, wherein the two connecting lug plates 7-1 are fixedly connected below the partition plate 1-2, the two connecting lug plates 7-1 can provide a fixed space for the two limiting sliding columns 7-2, the left end and the right end between the two connecting lug plates 7-1 are fixedly connected with the limiting sliding columns 7-2, the two limiting sliding columns 7-2 can provide a sliding space for the switch sliding plate 7-3 and limit the switch sliding plate 7-3, so that the switch sliding plate 7-3 can only slide forwards and backwards, and the two limiting sliding columns 7-2 are connected with the switch sliding plate 7-3 in a sliding manner, the material leakage hole 1-5 can be shielded and sealed by utilizing the switch sliding plate 7-3, the switch sliding plate 7-3 is contacted with the clapboard 1-2, the switch sliding plate 7-3 is positioned in the two placing openings 5-2, the rear end of the transmission lead screw 7-4 is rotationally connected with the connecting lug plate 7-1 positioned at the rear part, the transmission lead screw 7-4 is also rotationally connected with the conjoined barrel 1-1, the transmission lead screw 7-4 can drive the switch sliding plate 7-3 to slide, the transmission lead screw 7-4 is in threaded transmission connection with the switch sliding plate 7-3, the switch sliding plate 7-3 is provided with a coincidence hole 7-5, when the coincidence hole 7-5 is coincided with the material leakage hole 1-5, the stirring material positioned at the left end of the conjoined barrel 1-1 can flow to the right end of the conjoined barrel 1-1 through the transmission pipe 7-6, the lower end of the transfer pipe 7-6 is fixedly connected in the fixing hole 1-7, the transfer of the stirred material is realized through the transfer pipe 7-6, and the upper part of the transfer pipe 7-6 is contacted with the switch sliding plate 7-3.
The specific implementation method nine:
the embodiment is described below with reference to fig. 1 to 13, and the embodiment further describes the second embodiment, in which the circulating lifting device 8 includes a lifting screw 8-1, a wedge-shaped lifting plate 8-2 and a transmission gear I8-3, the upper and lower ends of the lifting screw 8-1 are rotatably connected to the bearing seat 1-8 and the connected barrel 1-1, the lifting screw 8-1 can drive the wedge-shaped lifting plate 8-2 to lift, the wedge-shaped lifting plate 8-2 is slidably connected in the connected barrel 1-1 and is in threaded connection with the lifting screw 8-1, when the wedge-shaped lifting plate 8-2 lifts, the stirrer can be driven to lift, and when the height is raised to a certain height, the stirrer can return to the left end of the connected barrel 1-1 through the transfer port 1-6, so as to perform secondary stirring, the stirrer can be prevented from being solidified, recycling is achieved, a transmission gear I8-3 is fixedly connected above the lifting screw 8-1, and the transmission gear I8-3 can drive the lifting screw 8-1 to rotate.
The detailed implementation mode is ten:
the embodiment is described below with reference to fig. 1 to 13, and the lifting power device 9 further described in the ninth embodiment includes a support frame 9-1, a motor III9-2, a transmission gear II9-3, and an upper cover plate 9-4, the support frame 9-1 is fixedly connected above the right end of the connected barrel 1-1, the support frame 9-1 plays a role of bearing protection, the support frame 9-1 is fixedly connected with a motor III9-2, the motor III9-2 can drive the transmission gear II9-3 to rotate, the output shaft of the motor III9-2 is fixedly connected with a transmission gear II9-3, the transmission gear II9-3 can drive the transmission gear I8-3 to rotate, the transmission gear II9-3 is in meshing transmission connection with the transmission gear I8-3, the upper cover plate 9-4 is fixedly connected above the support frame 9-1, the upper cover plate 9-4 can shield and protect the transmission gear II9-3 and the transmission gear I8-3, so that a user is prevented from being injured.
The working principle of the magnetic material stirring and sanding circulating system of the invention is as follows:
magnetic materials are placed into a grinding supporting plate 2-3 through a convex sliding opening 2-2, a starting motor I3-2 drives a grinding roller 3-3 to rotate to grind the magnetic materials, the ground magnetic materials can enter a connected barrel 1-1 through a plurality of discharging holes 2-4, other stirring materials are added into the connected barrel 1-1 through the convex sliding opening 2-2, a starting motor II6-2 drives four linkage gears I4-3 to rotate through meshing transmission connection of a linkage gear III6-3 and the linkage gear II5-3, four groups of a plurality of stirring plates 4-2 are driven to rotate through four stirring connecting shafts 4-1, the magnetic materials can be stirred, after stirring is finished, a transmission lead screw 7-4 is rotated, and a switch sliding plate 7-3 is driven to move through threaded transmission connection of the transmission lead screw 7-4 and the switch sliding plate 7-3 And moving to enable the overlapping hole 7-5 to be overlapped with the material leaking hole 1-5, enabling a stirred material to enter the right end of the connected barrel 1-1 through the transfer pipe 7-6, taking out the stirred material for use, collecting the stirred material after use, driving the lifting screw 8-1 to rotate through the meshing transmission connection of the transmission gear II9-3 and the transmission gear I8-3 by the starting motor III9-2, driving the lifting screw 8-1 to rotate so as to drive the wedge-shaped lifting plate 8-2 to move upwards, driving the stirred material to move upwards, enabling the stirred material to return to the left end of the connected barrel 1-1 through the transfer port 1-6, facilitating storage, facilitating secondary stirring, preventing the stirred material from being solidified, and recycling the magnetic material.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.