CN114307741A - Mixing machine with self-cleaning function of material opening - Google Patents

Abstract

The invention discloses a mixing machine with a self-cleaning function of a material port, which comprises a mixing box, a fixed shaft and a discharging pipe, wherein a self-cleaning anti-blocking feeding structure is arranged at the upper end of the mixing box; when the external material blockked up the impact force that results in the gasbag layer to cross the filtration pore and reduce, the gasbag layer can expand, the fixed chamber will absorb the air in the external conglomerate material this moment, thereby reduce the intermolecular effort in the conglomerate material, later the conglomerate material blocks up the fixed chamber and causes the solution in the fixed chamber not to flow out, thereby make the temperature in the second puddler sharply rise, thereby accelerate the material of fixed chamber inside and the surface material dissolution rate of filtration pore, increase the mixing efficiency of device.

Description

Mixing machine with self-cleaning function of material opening

Technical Field

The invention relates to the technical field of mixers, in particular to a mixer with a self-cleaning function of a material opening.

Background

When materials are processed, the materials need to be mixed, then the materials are processed subsequently, when the materials are mixed, a mixer needs to be put into practice, but when a common mixer is used, the material opening can not be self-cleaned in the feeding process, so that the materials are left at the feeding opening in the feeding process, the pollution to the feeding opening is easy to cause, the practicability of the feeding opening is not good, meanwhile, when the materials are mixed, the air is wrapped by the materials, the conglomeration of the materials is caused, at the moment, the conglomeration materials can be suspended in water due to the wrapping gas in the materials, the connecting force between the materials is increased due to the pressure of the external solution on the materials, the materials are difficult to be separated, the contact area of the materials and the external solution is reduced, the dissolving speed of the materials is reduced, and the existing mixer can only accelerate the dissolving speed of the conglomeration materials by accelerating the flowing speed of the solution, and can not separate the gathering material, the dissolving speed that leads to the material is slower, current mixer is when mixing the heavier material of quality and solution simultaneously, the phenomenon of sinking very easily takes place for the material, and the material in the solution of bottom dissolves near the saturated condition, the material is difficult to continue to dissolve in the solution of bottom, the upper portion solution that needs the device carries out neutralization back to lower part solution, lower part solution just can continue to dissolve the material of sinking the end, the dissolving speed that has further led to the material is slower, make the mixed function of device relatively poor.

Disclosure of Invention

The invention aims to provide a mixer with a self-cleaning function of a material opening, which aims to solve the problems in the prior art.

In order to solve the technical problems, the invention provides the following technical scheme: a mixing machine with a self-cleaning function of a material port comprises a mixing box, a fixed shaft and a discharging pipe, wherein a self-cleaning anti-blocking feeding structure is arranged at the upper end of the mixing box, a buffer structure is arranged at the lower end of the self-cleaning anti-blocking feeding structure, the fixed shaft is rotatably arranged at the center of the interior of the mixing box, a stirring structure is arranged at the upper end of the side face of the fixed shaft, a heating injection structure is arranged in the stirring structure, a precipitate collecting structure is arranged at the lower end of the side face of the fixed shaft, a precipitate lifting structure is arranged in the fixed shaft, the discharging pipe is arranged on the side face of the bottom of the mixing box, when the mixing machine is used, feeding is carried out to the interior of the mixing box through the self-cleaning anti-blocking feeding structure, and the buffer structure can buffer the self-cleaning anti-blocking feeding structure in the feeding process to ensure stable feeding, and stirring structure can stir the material after the unloading finishes, and the while adds thermal spraying structure and can disperse the material of gathering together, and the structure is collected to the precipitate absorbs the material of depositing in the mixing box bottom, and the ascending structure of rethread precipitate removes it to the top to increase the speed that the material mixes in the device.

Further, the self-cleaning anti-blocking feeding structure comprises a feeding hopper, a fixed rod, a connecting sleeve and a motor, wherein the fixed rod is arranged at equal angles in the feeding hopper, one end of the fixed rod is connected with the feeding hopper, the other end of the fixed rod is connected with the connecting sleeve, the longitudinal section of the connecting sleeve is arc-shaped, the connecting sleeve is sleeved outside the motor, the motor is arranged at the center of the upper end of the mixing box, the lower end of the motor is connected with the fixed shaft, the table board at the lower end of the motor is fixed with the mixing box through a reinforcing rib, when the device is used again, the motor vibrates along with the operation of the motor, and when the motor vibrates, the motor drives the connecting sleeve to vibrate due to the joint connection of the motor and the connecting sleeve, and when the connecting sleeve vibrates, the connecting sleeve is connected with the feeding hopper through the fixed rod, the feeder hopper also can shake along with the adapter sleeve, when the inside back of adding the feeder hopper with the material, because the feeder hopper does not stop shaking, can avoid the material to take place blocking phenomenon when flowing in the feeder hopper when the feeder hopper shakes to the material of being convenient for enters into the inside of mixing box from the feeder hopper, and because the feeder hopper does not stop shaking, so can carry out the automatically cleaning to the inside of feeder hopper, avoid the material to remain in the inside of feeder hopper.

Further, buffer structure is including fixed cover, mount and sealing ring, fixed cover sets up the upper end center department at the mixing box, the inside screw thread of fixed cover is provided with the mount, the inside of mount is provided with the sealing ring, the sealing ring parcel is in the outside of feeder hopper, when the device was used, is connected it with fixed cover through rotating the mount to fix the feeder hopper, when the feeder hopper shakes the unloading, the sealing ring can cushion the feeder hopper, thereby avoids the too big damage that causes the device of impact that the feeder hopper received.

Further, the stirring structure includes the second puddler, the angle settings such as second puddler are in the side top of fixed axle, the second puddler is right angle trapezoidal form, the last bottom surface length of second puddler is less than the lower bottom surface length of second puddler, the second puddler rotates along with it when the fixed axle rotates to stir the material in the mixing box, when the second puddler rotates, its rear side is for producing the vacuum zone, thereby attract the outside material, make the material gathering in the side of fixed axle, then drive the material along with the rotation of second puddler and remove, increase the contact velocity of solution in material and the device, the dissolution mixing speed of material with higher speed.

Further, the sediment collecting structure comprises a first stirring rod, a feed inlet, a support shaft and blades, wherein the first stirring rod is symmetrically arranged on the side surface of the fixed shaft, the first stirring rod is provided with a funnel-shaped feed inlet in the far end away from the fixed shaft, the support shaft is rotatably arranged in the feed inlet, a plurality of blades are arranged on the side surface of the support shaft at equal angles, when the first stirring rod rotates along with the fixed shaft, the blades can continuously apply pressure to the blades, so that the support shaft and the blades rotate, when the blades rotate, attraction can be caused to the outside, so that the sunk materials can enter the inside of the first stirring rod through the feed inlet, and as the first stirring rod can drive the materials to rotate when rotating, the materials have larger mass and larger centrifugal force, the materials can move outwards under the action of the centrifugal force, because the feed inlet sets up in the outside, so be convenient for collect the material.

Further, the sediment ascending structure comprises a fixing shaft, a heating rod and a first stirring rod, wherein the heating rod is arranged at the center of the lower end inside the fixing shaft, the inside of the fixing shaft is hollow, the inside of the fixing shaft is communicated with the inside of the first stirring rod, the heating rod can heat solution inside the fixing shaft, the water temperature in the lower part inside the fixing shaft rises and can move upwards, the water can move upwards when rising, and after entering the inside of the first stirring rod, the pressure in the fixing shaft is reduced due to the upward movement of the water in the fixing shaft, so that the water in the first stirring rod can flow into the inside of the fixing shaft, the flowing-in material is driven to flow into the inside of the fixing shaft, and then the water in the fixing shaft flows upwards to the upper end.

Further, a discharge hole is formed in the upper end of the inner portion of the second stirring rod, the inner portion of the discharge hole is communicated with the inner portion of the fixed shaft, a heating injection structure is arranged in the second stirring rod and comprises a filter layer, an air bag layer, a fixed channel, a discharge hole, a fixed chamber and a filter hole, the filter layer is in a filter screen shape, the side face of the filter layer is connected with the air bag layer, the discharge hole, the filter layer and the air bag layer are arranged inside the second stirring rod from inside to outside, the fixed channel and the fixed chamber are alternately arranged inside the air bag layer, the discharge hole is formed in the outer side of the second stirring rod and connected with the fixed channel, the filter hole in the filter screen shape is formed in the two ends of the fixed chamber, and water and materials in the fixed shaft can enter the inner portion of the second stirring rod through the discharge hole when moving upwards, the materials move downwards under the action of gravity to be in contact with the filter layer, the materials can move upwards along the filter layer under the action of centrifugal force along with the rotation of the second stirring rod, meanwhile, the materials can rub against the filter layer, so that the melting speed of the materials is increased, then the materials can enter the inside of the fixed channel, when the materials rotate along with the second stirring rod, the filter holes can be blocked, the angle of the external liquid entering the fixed chamber is changed, when the angle between the liquid and the air bag layer is larger, larger pressure can be caused on the air bag layer, so that the fixed channel is extruded, the materials are sprayed out of the fixed channel and the inside of the discharge hole to the outside, the moving speed of the materials is increased, and the melting speed between the materials and the solution is increased;

when the filter holes are blocked by materials to cause the impact force of liquid on the air bag layer to be reduced, the air bag layer expands, the fixed channel generates suction, more gas is wrapped inside the external conglomerate material, so that the volume of the material is increased, the gas is reduced, the centripetal force applied to the material is increased, the material moves towards the second stirring rod at the center, the conglomerate material moving inwards is sucked after the fixed channel generates suction, the gas between the materials is absorbed after the discharge hole is contacted with the material, the material is sucked into the fixed channel, the conglomerate material is disintegrated, simultaneously, the solution in the second stirring rod cannot flow out after the filter holes and the fixed chamber are simultaneously blocked by the material, the temperature in the second stirring rod rapidly rises, and the material is heated, thereby dissolving the materials on the surface of the filter hole and in the fixed chamber, and accelerating the dissolution speed of the materials.

Further, the discharge gate is the arc, when the material was spout from the discharge gate, because the discharge gate is the arc, so when the material was spout from the discharge gate, the moving direction of material and the interior liquid movement's of mixing box opposite direction to make liquid can spun material carry out the offset, thereby increase the speed that the material dissolved.

Compared with the prior art, the invention has the following beneficial effects: when the device is used, when the filter holes are blocked by external materials to reduce the impact force on the air bag layer, the air bag layer expands, the fixing chamber absorbs air in the external agglomerated materials at the moment, so that the acting force between molecules in the agglomerated materials is reduced, then the agglomerated materials block the fixing chamber to prevent solution in the fixing chamber from flowing out, so that the temperature in the second stirring rod is sharply increased, the dissolving speed of the materials in the fixing chamber and the surface materials of the filter holes is increased, and the mixing efficiency of the device is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall perspective view of the present invention;

FIG. 2 is a schematic overall front cross-sectional structural view of the present invention;

FIG. 3 is a schematic cross-sectional side view of the mixing box and feed hopper arrangement of the present invention;

FIG. 4 is a schematic top view of the feed hopper of the present invention;

FIG. 5 is a schematic view of the internal front view of a second stirring rod of the present invention;

FIG. 6 is a side view of the inside of the second stirring rod of the present invention;

FIG. 7 is a schematic view of the internal structure of a second stirring rod according to the present invention;

FIG. 8 is a top sectional view of the stationary shaft and the first agitator shaft of the present invention.

In the figure: 1. a mixing box; 2. fixing a sleeve; 3. a fixed mount; 4. a seal ring; 5. a feed hopper; 6. fixing the rod; 7. connecting sleeves; 8. an electric motor; 9. a fixed shaft; 10. a heating rod; 11. a first stirring rod; 12. a feed inlet; 13. a support shaft; 14. a blade; 15. a second stirring rod; 16. a discharge outlet; 17. a filter layer; 18. an air bag layer; 19. a fixed way; 20. a discharge port; 21. a fixed chamber; 22. a filtration pore; 23. a discharge pipe; 24. and (5) reinforcing ribs.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, the present invention provides a technical solution: a mixer with a self-cleaning function of a material port comprises a mixing box 1, a fixed shaft 9 and a discharging pipe 23, wherein a self-cleaning anti-blocking feeding structure is arranged at the upper end of the mixing box 1, a buffer structure is arranged at the lower end of the self-cleaning anti-blocking feeding structure, the fixed shaft 9 is rotatably arranged at the center of the interior of the mixing box 1, a stirring structure is arranged at the upper end of the side surface of the fixed shaft 9, a heating and spraying structure is arranged in the stirring structure, a precipitate collecting structure is arranged at the lower end of the side surface of the fixed shaft 9, a precipitate lifting structure is arranged in the fixed shaft 9, the discharging pipe 23 is arranged at the side surface of the bottom of the mixing box 1, when the mixer is used, feeding is carried out to the interior of the mixing box 1 through the self-cleaning anti-blocking feeding structure, and the buffer structure can buffer the anti-blocking feeding structure in the feeding process to ensure stable discharging, and stirring structure can stir the material after the unloading finishes, and the while adds thermal spraying structure and can disperse the material of gathering together, and the structure is collected to the precipitate absorbs the material of depositing in mixing box 1 bottom, and the ascending structure of rethread precipitate removes it to the top to increase the speed that the material mixes in the device.

The self-cleaning anti-blocking feeding structure comprises a feeding hopper 5, a fixed rod 6, a connecting sleeve 7 and a motor 8, wherein the fixed rod 6 is arranged in the feeding hopper 5 at an equal angle, one end of the fixed rod 6 is connected with the feeding hopper 5, the other end of the fixed rod 6 is connected with the connecting sleeve 7, the longitudinal section of the connecting sleeve 7 is arc-shaped, the connecting sleeve 7 is sleeved on the outer side of the motor 8, the motor 8 is arranged at the center of the upper end of a mixing box 1, the lower end of the motor 8 is connected with a fixed shaft 9, a table top at the lower end of the motor 8 is fixed with the mixing box 1 through a reinforcing rib 24, when the device is used again, the motor 8 can vibrate along with the running of the motor 8, when the motor 8 vibrates again, because the motor 8 is attached and connected with the connecting sleeve 7, the motor 8 can drive the connecting sleeve 7 to vibrate, and when the connecting sleeve 7 vibrates, because the connecting sleeve 7 is connected with the feeding hopper 5 through the fixed rod 6, feed hopper 5 also can vibrate along with adapter sleeve 7, after the inside of feed hopper 5 is added to the material, because feed hopper 5 does not stop vibrations, can avoid the material to take place blocking phenomenon when the feed hopper 5 flows when shaking, thereby the inside that the material of being convenient for enters into mixing box 1 from feed hopper 5, and because feed hopper 5 does not stop vibrations, so can carry out automatically cleaning to the inside of feed hopper 5, avoid the material to remain in the inside of feed hopper 5.

Buffer structure includes fixed cover 2, mount 3 and sealing ring 4, fixed cover 2 sets up the upper end center department at mixing box 1, the inside screw thread of fixed cover 2 is provided with mount 3, the inside of mount 3 is provided with sealing ring 4, sealing ring 4 wraps up in the outside of feeder hopper 5, when the device is used, be connected it with fixed cover 2 through rotating mount 3, thereby fix feeder hopper 5, when feeder hopper 5 shakes the unloading, sealing ring 4 can cushion feeder hopper 5, thereby avoid the impact that feeder hopper 5 received to lead to the fact the damage of device excessively.

Stirring structure includes second puddler 15, angle settings such as second puddler 15 are in the side top of fixed axle 9, second puddler 15 is right angle trapezoidal form, the last bottom surface length of second puddler 15 is less than the lower bottom surface length of second puddler 15, second puddler 15 rotates along with it when fixed axle 9 rotates, thereby stir the material in mixing box 1, when second puddler 15 rotates, its rear side is for producing the vacuum area, thereby attract the outside material, make the material gathering in the side of fixed axle 9, then drive the material along with the rotation of second puddler 15 and remove, increase the contact velocity of solution in material and the device, the dissolving mixing velocity of material with higher speed.

The sediment collecting structure comprises a first stirring rod 11, a feeding hole 12, a supporting shaft 13 and blades 14, wherein the first stirring rod 11 is symmetrically arranged on the side surface of the fixed shaft 9, the inside of the first stirring rod 11, which is far away from the fixed shaft 9, is provided with a funnel-shaped feeding hole 12, the inside of the feeding hole 12 is rotatably provided with the supporting shaft 13, the side surface of the supporting shaft 13 is provided with a plurality of blades 14 at equal angles, when the first stirring rod 11 rotates along with the fixed shaft 9, a user can continuously apply pressure to the blades 14, so that the supporting shaft 13 and the blades 14 rotate, when the blades 14 rotate, attraction can be caused to the outside, so that the sunk materials can enter the inside of the first stirring rod 11 through the feeding hole 12, because the first stirring rod 11 can drive the materials to rotate when rotating, the mass of the materials is large, the centrifugal force borne by the first stirring rod is large, and the materials can move outwards under the action of the centrifugal force, since the feed opening 12 is provided at the outside, the collection of the material is facilitated.

The sediment ascending structure comprises a fixing shaft 9, a heating rod 10 and a first stirring rod 11, wherein the heating rod 10 is arranged at the center of the lower end inside the fixing shaft 9, the inside of the fixing shaft 9 is hollow, the inside of the fixing shaft 9 is communicated with the inside of the first stirring rod 11, the heating rod 10 can heat solution inside the fixing shaft 9, the water temperature in the lower part inside the fixing shaft 9 rises and can move upwards, the water can drive materials to move upwards when rising upwards, after the materials enter the inside of the first stirring rod 11, the pressure in the fixing shaft 9 is reduced due to the fact that the water in the fixing shaft 9 moves upwards, the water in the first stirring rod 11 can flow into the inside of the fixing shaft 9, the materials flowing into the inside of the fixing shaft 9 are driven to flow upwards to the upper end along with the water in the fixing shaft 9.

The upper end of the inside of the second stirring rod 15 is provided with a discharge port 16, the inside of the discharge port 16 is communicated with the inside of the fixed shaft 9, the inside of the second stirring rod 15 is provided with a heating injection structure, the heating injection structure comprises a filter layer 17, an air bag layer 18, a fixed channel 19, a discharge port 20, a fixed chamber 21 and a filtering hole 22, the filter layer 17 is in a filter screen shape, the side surface of the filter layer 17 is connected with the air bag layer 18, the discharge port 16, the filter layer 17 and the air bag layer 18 are arranged inside the second stirring rod 15 from inside to outside, the fixed channel 19 and the fixed chamber 21 are alternately arranged inside the air bag layer 18, the discharge port 20 is arranged on the outer side of the second stirring rod 15, the discharge port 20 is connected with the fixed channel 19, the filtering hole 22 in a filter screen shape is arranged at two ends of the fixed chamber 21, when water and materials in the fixed shaft 9 move upwards, the water and the materials can enter the inside of the second stirring rod 15 through the discharge port 16, the materials move downwards under the action of gravity and contact with the filter layer 17, the materials move upwards along the filter layer 17 under the action of centrifugal force along with the rotation of the second stirring rod 15, meanwhile, the materials rub against the filter layer 17, so that the melting speed of the materials is increased, the materials enter the inside of the fixed channel 19, when the materials rotate along with the second stirring rod 15, the filter holes 22 are blocked, the angle of the outside liquid entering the fixed chamber 21 is changed, when the angle between the liquid and the air bag layer 18 is larger, larger pressure is caused to the air bag layer 18, so that the fixed channel 19 is extruded, the materials are sprayed to the outside from the inside of the fixed channel 19 and the discharge hole 20, the moving speed of the materials is increased, and the melting speed between the materials and the solution is increased;

when the filter holes 22 are blocked by the materials to cause the impact force of liquid on the air bag layer 18 to be reduced, the air bag layer 18 expands, the fixed channel 19 generates suction force, more gas is wrapped inside the external conglomerate material, so that the volume of the materials is increased, the gas is reduced, the centripetal force applied to the materials is increased, the materials move towards the second stirring rod 15 at the center, the conglomerate material moving inwards is sucked after the fixed channel 19 generates the suction force, the gas between the materials is absorbed after the discharge hole 20 is contacted with the materials, the materials are sucked into the fixed channel 19 to collapse the conglomerate material, meanwhile, the solution in the second stirring rod 15 cannot flow out after the materials simultaneously block the filter holes 22 and the fixed chamber 21, and the temperature in the second stirring rod 15 can rapidly rise, thereby heating the materials and dissolving the materials on the surface of the filter holes 22 and inside the fixed chamber 21, thereby accelerating the dissolution speed of the materials.

The discharge gate 20 is the arc, when the material was spout from discharge gate 20, because discharge gate 20 is the arc, so when the material was spout from discharge gate 20, the moving direction of material was opposite with the direction that liquid removed in the mixing box 1 to make liquid can the spun material carry out the offset, thereby increase the speed that the material dissolved.

The working principle of the invention is as follows: the feeding hopper 5 is used for feeding, when feeding is carried out, the motor 8 drives the feeding hopper 5 to vibrate, when the feeding hopper 5 vibrates, the phenomenon that the feeding hopper 5 is blocked can be avoided, and meanwhile, the feeding hopper 5 can be cleaned;

when materials enter the device, the second stirring rod 15 can stir the materials to increase the dissolution speed of the materials, meanwhile, agglomerated materials can move inwards, normal materials move downwards under the action of gravity, when the device runs, the precipitated materials can enter the first stirring rod 11 through the feed inlet 12, then enter the fixed shaft 9 through the first stirring rod 11, enter the second stirring rod 15 through hot air, and rub the filter layer 17 under the action of centrifugal force, so that the dissolution speed of the materials is increased, when the materials enter the fixed channel 19, and the impact force of water on the air bag layer 18 is increased, the fixed channel 19 is extruded, so that the materials are sprayed out from the discharge port 20, and the mixing speed of the materials and the solution is increased;

when the impact force that results in gasbag layer 18 blocks up to filter hole 22 when external material, gasbag layer 18 can expand, fixed chamber 21 will absorb the air in the external conglomerate material this moment, thereby reduce the effort between the interior molecule of conglomerate material, later conglomerate material blocks up fixed chamber 21 and causes the solution in fixed chamber 21 not to flow out, thereby make the temperature in the second puddler 15 sharply rise, thereby accelerate the material of fixed chamber 21 inside and filter hole 22's surface material dissolution rate, increase the mixing efficiency of device.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a mix machine with self-cleaning function of material mouth, includes mixing box (1), fixed axle (9) and discharging pipe (23), its characterized in that: the upper end of mixing box (1) is provided with the automatically cleaning and prevents blockking up feeding structure, the lower extreme that feeding structure was prevented blockking up in the automatically cleaning is provided with buffer structure, the inside center department of mixing box (1) rotates and is provided with fixed axle (9), the side upper end of fixed axle (9) is provided with the stirring structure, the inside of stirring structure is provided with the heating and sprays the structure, the side lower extreme that states fixed axle (9) is provided with precipitate collection structure, the inside of fixed axle (9) is provided with precipitate rising structure, the bottom side of mixing box (1) is provided with discharging pipe (23).

2. The mixing machine with the self-cleaning function of the material opening as claimed in claim 1, wherein: feed structure is prevented blockking up by automatically cleaning includes feeder hopper (5), dead lever (6), adapter sleeve (7) and motor (8), the angle such as inside of feeder hopper (5) is provided with dead lever (6), the one end of dead lever (6) is connected with feeder hopper (5), the other end of dead lever (6) is connected with adapter sleeve (7), the longitudinal section of adapter sleeve (7) is the arc, the outside at motor (8) is established in adapter sleeve (7) cover, motor (8) set up the upper end center department at mixing box (1), the lower extreme of motor (8) is connected with fixed axle (9), is located it is fixed through strengthening rib (24) between mesa and the mixing box (1) of motor (8) lower extreme.

3. The mixing machine with the self-cleaning function of the material opening as claimed in claim 2, wherein: buffer structure includes fixed cover (2), mount (3) and sealing ring (4), fixed cover (2) set up the upper end center department at mixing box (1), the inside screw thread of fixed cover (2) is provided with mount (3), the inside of mount (3) is provided with sealing ring (4), sealing ring (4) parcel is in the outside of feeder hopper (5).

4. The mixing machine with the self-cleaning function of the material opening as claimed in claim 1, wherein: the stirring structure comprises a second stirring rod (15), the second stirring rod (15) is arranged above the side face of the fixed shaft (9) at the same angle, the second stirring rod (15) is in a right-angle trapezoidal shape, and the length of the upper bottom face of the second stirring rod (15) is smaller than that of the lower bottom face of the second stirring rod (15).

5. The mixing machine with the self-cleaning function of the material opening as claimed in claim 1, wherein: the precipitate collecting structure comprises a first stirring rod (11), a feeding hole (12), a supporting shaft (13) and blades (14), wherein the first stirring rod (11) is symmetrically arranged on the side surface of the fixed shaft (9), the first stirring rod (11) is provided with the funnel-shaped feeding hole (12) from the inside of the far end of the fixed shaft (9), the supporting shaft (13) is rotatably arranged inside the feeding hole (12), and the side surface of the supporting shaft (13) is provided with the blades (14) at equal angles.

6. The mixing machine with the self-cleaning function of the material opening as claimed in claim 5, wherein: the sediment ascending structure comprises a fixing shaft (9), a heating rod (10) and a first stirring rod (11), wherein the heating rod (10) is arranged at the center of the lower end inside the fixing shaft (9), the inside of the fixing shaft (9) is hollow, and the inside of the fixing shaft (9) is communicated with the inside of the first stirring rod (11).

7. The mixing machine with the self-cleaning function of the material opening as claimed in claim 4, wherein: the utility model discloses a fixed shaft stirring device, including second puddler (15), bin outlet (16) has been seted up to the inside upper end of second puddler (15), the inside of bin outlet (16) is linked together with the inside of fixed axle (9), the inside of second puddler (15) is provided with the heating injection structure, the heating injection structure includes filter layer (17), gasbag layer (18), fixed way (19), discharge gate (20), fixed chamber (21) and filtration pore (22), filter layer (17) are the filter screen form, the side of filter layer (17) is connected with gasbag layer (18), bin outlet (16), filter layer (17) and gasbag layer (18) are arranged from inside to outside in the inside of second puddler (15), the inside of gasbag layer (18) is provided with fixed way (19) and fixed chamber (21) in turn, discharge gate (20) have been seted up in the outside of second puddler (15), discharge gate (20) are connected with fixed way (19), two ends of the fixed chamber (21) are provided with filter holes (22) in a filter net shape.

8. The mixing machine with the self-cleaning function of the material opening as claimed in claim 7, wherein: the discharge hole (20) is arc-shaped.

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