CN210449291U - High-efficient crushing-type mixer - Google Patents

Abstract

The utility model provides a high-efficiency crushing stirrer, which comprises a crushing system and a stirring system arranged above the crushing system; the stirring system comprises a stirring cavity, a main rotating motor is arranged on the outer end face of the right side of the stirring cavity, the output end of the main rotating motor extends into the stirring cavity and is connected with one end of a horizontally arranged main connecting rod, a cylindrical limiting block is arranged at the other end of the main connecting rod, a cylindrical limiting groove is arranged on the inner end face of the stirring cavity, and the cylindrical limiting block is embedded in the cylindrical limiting groove; through setting up crushing system and mixing system to set up first pressure receiving plate, second pressure receiving plate, third in crushing system inside and receive the pressure plate and push down the dish and can extrude the material before the stirring and smash, and can select different pressure receiving plates in order to change the stone size after smashing according to the demand.

Description

High-efficient crushing-type mixer

Technical Field

The utility model particularly relates to a high-efficient crushing-type mixer.

Background

In the processing production of cement often need with water, sand, stone, mix and stir together, but the volume of stone is great can influence the final result of use of cement sometimes, but current cement mixer does not possess the function of smashing bold building stones into the fritter building stones, so need a high-efficient crushing formula mixer in an urgent need to solve this problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient crushing-type mixer to prior art not enough, this high-efficient crushing-type mixer can solve above-mentioned problem well.

In order to meet the above requirements, the utility model adopts the following technical scheme: providing a high-efficiency crushing type stirrer, wherein the high-efficiency crushing type stirrer comprises a crushing system and a stirring system arranged above the crushing system; the stirring system comprises a stirring cavity, a main rotating motor is arranged on the outer end face of the right side of the stirring cavity, the output end of the main rotating motor extends into the stirring cavity and is connected with one end of a main connecting rod which is horizontally arranged, the other end of the main connecting rod is provided with a cylindrical limiting block, the end surface of the inner side of the stirring cavity is provided with a cylindrical limiting groove, the cylindrical limiting block is embedded in the cylindrical limiting groove, the upper end and the lower end of the main connecting rod are respectively provided with a main stirring knife, the two main stirring knives are connected with an upper stirring knife and a lower stirring knife which are arranged at the top and the bottom of the end surface of the inner side of the stirring cavity body, the upper stirring knife and the lower stirring knife are both arc-shaped structures which are in contact with the inner side end face of the stirring cavity, the inner side end face of the stirring cavity is provided with an annular wedge-shaped protrusion, and the upper stirring knife and the lower stirring knife are both provided with a wedge-shaped groove; the top of the stirring cavity is provided with a supporting and fixing rod connected with the bottom of the crushing system; the crushing system comprises a lower pressing cavity, an arc-shaped cavity communicated with the right side end face of the lower pressing cavity and an auxiliary cavity communicated with the right side end face of the arc-shaped cavity, an upper opening is formed in the top of the auxiliary cavity, a strip-shaped limiting groove is formed in the left side end face of the lower pressing cavity, three limiting block components are arranged in the strip-shaped limiting groove, a first pressure receiving plate, a second pressure receiving plate and a third pressure receiving plate are sequentially arranged in the auxiliary cavity from top to bottom, front limiting plates are arranged on the left side end faces of the first pressure receiving plate, the second pressure receiving plate and the third pressure receiving plate, side sliding blocks are respectively arranged at the front ends and the rear ends of the first pressure receiving plate, the second pressure receiving plate and the third pressure receiving plate, three U-shaped sliding rail components are sequentially arranged on the side end face in the auxiliary cavity from top to bottom, and the side sliding blocks are embedded in the sliding; an arc-shaped metal plate is arranged in the arc-shaped cavity, an upward pull handle is arranged at the top of the arc-shaped metal plate, a metal ring is connected to the other end of the upward pull handle, a lateral vertical strip-shaped hole for extending out of the upward pull handle is formed in the outer side end face of the arc-shaped cavity, two circular limiting holes are formed in the outer side end face of the arc-shaped cavity, and an externally inserted limiting rod for limiting the metal ring is inserted into the circular limiting holes and the metal ring; the utility model discloses a press cavity, including the cavity of pushing down, the output that pushes down the part bottom stretches into the cavity of pushing down and be connected with the spring part of vertical setting, the bottom and the rotating part top of spring part are connected, the output and the holding down disk top of rotating part bottom are connected, the pressure disk down, first pressure piece, second are pressed and are equipped with big discharge opening, well discharge opening and little discharge opening on board respectively pressed, all be equipped with a side outer pull screw on the side end face of first pressure piece, second pressure piece and third pressure piece.

This high-efficient crushing-type agitator has the advantage as follows:

through setting up crushing system and mixing system to set up first pressure receiving plate, second pressure receiving plate, third in crushing system inside and receive the pressure plate and push down the dish and can extrude the material before the stirring and smash, and can select different pressure receiving plates in order to change the stone size after smashing according to the demand.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 schematically illustrates a schematic diagram of a high efficiency pulverizer blender according to an embodiment of the present application.

FIG. 2 schematically illustrates a schematic diagram of a pulverizing system of a high-efficiency pulverizer mixer, according to one embodiment of the present application.

FIG. 3 schematically illustrates a schematic view of a configuration at a pressing cavity and an arc-shaped cavity of a high efficiency pulverizer mixer according to an embodiment of the present application.

FIG. 4 schematically illustrates a top view at a pulverizing system of a high efficiency pulverizer mixer according to one embodiment of the present application.

FIG. 5 schematically illustrates a schematic view of a structure at an arc-shaped metal plate of a high efficiency pulverizer mixer according to one embodiment of the present application.

FIG. 6 schematically illustrates a schematic view of an auxiliary adjustment lever of a high efficiency pulverizer mixer in accordance with an embodiment of the present application.

FIG. 7 schematically illustrates a schematic view of a lower platen of a high efficiency pulverizer mixer in accordance with an embodiment of the present application.

FIG. 8 schematically illustrates a first pressure receiving plate of a high efficiency pulverizer mixer in accordance with an embodiment of the present application.

FIG. 9 schematically illustrates a second pressure receiving plate of a high efficiency pulverizer mixer in accordance with an embodiment of the present application.

FIG. 10 schematically illustrates a third pressure receiving plate of a high efficiency pulverizer blender, according to an embodiment of the present application.

Wherein: 1. a pulverizing system; 2. a stirring system; 3. a hold-down member; 4. pressing the cavity downwards; 5. a lower platen; 6. a rotating member; 7. an arc-shaped cavity; 8. an upper opening; 9. a slide rail member; 10. a main feed pipe; 11. a stopper member; 12. a strip-shaped limiting groove; 13. a discharge cavity; 14. a material guide pipe; 15. a stirring cavity; 16. a cylindrical limiting block; 17. a main stirring knife; 18. a lower stirring knife; 19. a wedge-shaped protrusion; 20. a main connecting rod; 21. a main discharge pipe; 22. a main rotating motor; 23. feeding a stirring knife; 24. supporting the fixed rod; 25. pulling up the handle; 26. an arc-shaped metal plate; 27. an auxiliary cavity; 28. externally inserting a limiting rod; 29. a metal ring; 30. a lateral vertical strip-shaped hole; 31. a circular limiting hole; 32. a spring member; 33. a side slider; 34. a front limiting plate; 35. an annular rubber sleeve; 36. an auxiliary adjusting rod; 37. screw part 38, anti-skid thread; 39. a spindle member; 40. a cylindrical protrusion; 41. a cylindrical recess; 42. pressing down the fan-shaped slope; 43. drawing a screw hole outwards; 44. a pressed sector slope; 45. a large discharge hole; 46. a first pressure receiving plate; 47. A second pressure receiving plate; 48. a middle discharge hole; 49. a small discharge hole; 50. and a third pressure receiving plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be described in further detail with reference to the accompanying drawings and specific embodiments.

In the following description, references to "one embodiment," "an embodiment," "one example," "an example," etc., indicate that the embodiment or example so described may include a particular feature, structure, characteristic, property, element, or limitation, but every embodiment or example does not necessarily include the particular feature, structure, characteristic, property, element, or limitation. Moreover, repeated use of the phrase "in accordance with an embodiment of the present application" although it may possibly refer to the same embodiment, does not necessarily refer to the same embodiment.

Certain features that are well known to those skilled in the art have been omitted from the following description for the sake of simplicity.

According to one embodiment of the present application, there is provided a high efficiency pulverizer mixer, as shown in fig. 1-10, comprising a pulverizing system 1 and a mixing system 2 disposed above the pulverizing system 1; the stirring system 2 comprises a stirring cavity 15, a main rotating motor 22 is arranged on the outer end face of the right side of the stirring cavity 15, the output end of the main rotating motor 22 extends into the stirring cavity 15 and is connected with one end of a horizontally arranged main connecting rod 20, a cylindrical limiting block 16 is arranged at the other end of the main connecting rod 20, a cylindrical limiting groove is arranged on the inner end face of the stirring cavity 15, the cylindrical limiting block 16 is embedded in the cylindrical limiting groove, the upper end and the lower end of the main connecting rod 20 are respectively provided with a main stirring knife 17, the two main stirring knives 17 are connected with an upper stirring knife 23 and a lower stirring knife 18 which are arranged at the top and the bottom of the inner end face of the stirring cavity 15, the upper stirring knife 23 and the lower stirring knife 18 are both arc-shaped structures which are arranged on the inner end face of the stirring cavity 15, and the inner end face of the stirring, the upper stirring knife 23 and the lower stirring knife 18 are both provided with a wedge-shaped groove; and a supporting and fixing rod 24 connected with the bottom of the crushing system 1 is arranged at the top of the stirring cavity 15.

According to an embodiment of the application, the crushing system 1 of the high-efficiency crushing type stirring machine comprises a pressing cavity 4, an arc-shaped cavity 7 communicated with the right side end face of the pressing cavity 4, and an auxiliary cavity 27 communicated with the right side end face of the arc-shaped cavity 7, wherein an upper opening 8 is arranged at the top of the auxiliary cavity 27, a strip-shaped limiting groove 12 is arranged on the left side end face of the pressing cavity 4, three limiting block components 11 are arranged inside the strip-shaped limiting groove 12, a first pressed plate 46, a second pressed plate 47 and a third pressed plate 50 are sequentially arranged inside the auxiliary cavity 27 from top to bottom, front limiting plates 34 are arranged on the left side end faces of the first pressed plate 46, the second pressed plate 47 and the third pressed plate 50, side sliding blocks 33 are respectively arranged at the front and rear ends of the first pressed plate 46, the second pressed plate 47 and the third pressed plate 50, three U-shaped sliding rail components 9 are sequentially arranged on the inner side end faces of the auxiliary cavity 27 from top to bottom, the side sliding blocks 33 are embedded in the slide rail parts 9.

According to an embodiment of the application, this high-efficient crushing-type mixer's arc cavity 7 is inside to be provided with arc metal sheet 26, arc metal sheet 26 top is provided with pull-up handle 25, another termination of pull-up handle 25 has becket 29, be equipped with on the outside terminal surface of arc cavity 7 and be used for stretching out the vertical bar hole 30 of side of pull-up handle 25, be equipped with two circular spacing holes 31 on the outside terminal surface of arc cavity 7, it is right to insert in circular spacing hole 31 and the becket 29 be used for the becket 29 carries out spacing outer inserted gag lever post 28.

According to an embodiment of the application, this high-efficient crushing-type mixer's 4 tops of cavity of pushing down are provided with and push down part 3, the output that pushes down part 3 bottom stretches into push down cavity 4 and be connected with the spring part 32 of vertical setting, the bottom and the rotating member 26 top of spring part 32 are connected, the output and the 5 tops of pushing down of rotating member 26 bottom are connected, lower pressure disk 5, be equipped with big discharge opening 45, well discharge opening 48 and little discharge opening 49 on first pressure receiving plate 46, second pressure receiving plate 47 and the third pressure receiving plate 50 respectively, all be equipped with a side draw-out screw 43 on the side end face of first pressure receiving plate 46, second pressure receiving plate 47 and third pressure receiving plate 50.

According to one embodiment of the present application, the wedge-shaped protrusion 19 of the high-efficiency pulverizer mixer is embedded inside the wedge-shaped groove.

According to an embodiment of the application, the length and the width of the limiting plate 34 of this high-efficient crushing-type mixer are nine centimetres, the length and the width of strip spacing groove 12 are ten centimetres, stopper part 11 is for welding length and width on the strip spacing groove 12 rear end face are nine centimetres of metal sheet.

According to one embodiment of the application, the side sliding blocks 33 of the high-efficiency crushing type stirring machine are all wedge-shaped metal blocks, and the sliding rail parts 9 are U-shaped metal strips with wedge-shaped grooves formed in the inner side end faces.

According to an embodiment of the present application, the circular limiting holes 31 of the high-efficiency crushing-type stirring machine are all disposed beside the side vertical bar-shaped holes 30, and are equal in height to the top and the bottom of the side vertical bar-shaped holes 30 respectively.

According to an embodiment of the present application, the lower pressure plate 5 of the high efficiency pulverizer mixer is a metal disc structure with four lower fan-shaped slopes 42 on the bottom surface, and the upper end surfaces of the first pressure receiving plate 46, the second pressure receiving plate 47 and the third pressure receiving plate 50 are respectively provided with four lower fan-shaped slopes 44.

According to one embodiment of the application, the large discharge hole 45, the middle discharge hole 48 and the small discharge hole 49 of the high-efficiency crushing type stirring machine are vertical round hole structures with the diameters of ten centimeters, five centimeters and one centimeter respectively.

According to an embodiment of the application, this high-efficient crushing-type mixer still includes auxiliary regulating pole 36, auxiliary regulating pole 36 is Z type metal pole structure, auxiliary regulating pole 36 bottom is equipped with screw member 37, be equipped with anti-skidding line 38 on the terminal surface of screw member 37 rear end outside, screw member 37 rear end is connected with cylindrical protrusion 40, cylindrical protrusion 40 inlays inside the cylindrical recess 41 of auxiliary regulating pole 36 bottom, screw member 37 with the side draws the screw hole 43 meshing outward.

According to an embodiment of the application, the main stirring blade 17 of the high-efficiency crushing stirrer is of a fold-line-shaped metal rod structure, and two ends of the main stirring blade 17 are welded with two ends of the lower stirring blade 18 and two ends of the upper stirring blade 23 respectively. The metal ring 29 may be sleeved with an annular rubber sleeve 35. Three sets of stopper parts 11 can be arranged in the strip-shaped stopper groove 12, and each set of stopper part 11 includes two stopper parts 11 for clamping the front stopper plate 34 from the upper and lower ends of the front stopper plate 34. The structure of the pull-up handle 25 can be formed by welding three metal rods perpendicular to each other as shown in fig. 5. The rotating member 6 may be a rotating motor.

According to an embodiment of the application, a main feeding pipe 10 can be arranged on the left side end face of a lower pressure cavity 4 of the high-efficiency crushing type stirring machine, a discharging cavity 13 is arranged at the bottom of the lower pressure cavity 4, a material guiding pipe 14 communicated with the top of a stirring cavity 15 is arranged at the bottom of the discharging cavity 13, and a main discharging pipe 21 is arranged at the bottom of the discharging cavity 13; when the adjustable lateral compression device is used, the first compression plate 46, the second compression plate 47 or the third compression plate 50 can be selected to be used as required, the compression plate to be used slides to the left side, the lateral sliding block 33 slides in the sliding rail part 9 at the moment, the compression plate to be used is completely pushed into the lower compression cavity 4, the rear front limiting plate 34 can be clamped on the limiting block part 11, three limiting block parts 11 with the upper end surfaces equal to the lower end cotton of the first compression plate 46, the second compression plate 47 and the third compression plate 50 are arranged in the strip-shaped limiting groove 12, the three limiting block parts 11 are respectively used for limiting the first compression plate 46, the second compression plate 47 and the third compression plate 50, the length of the lateral sliding block 33 is ten centimeters, the compression plate to be used receives upward supporting force of the limiting block part 11 and upward supporting force of the lateral sliding block 33 by the sliding rail part 9 to be in a stable state, and the auxiliary adjusting rod 37 at the bottom of the auxiliary adjusting rod 36 is screwed in the lateral outer pulling screw hole 43 of the lateral And pulled right to pull it back into the auxiliary cavity 27, the screw member 37 may be connected to the cylindrical protrusion 40 through a metal rod, the metal rod and the cylindrical protrusion 40 may be integrally formed and together form a metal block having a "convex" type longitudinal section, the rear end of the cylindrical recess 41 may be provided with a circular groove communicating with the outside, the circular groove and the cylindrical recess 41 together form a groove body having a "convex" type longitudinal section, the cylindrical protrusion 40 may rotate in the cylindrical recess 41, so that the screw member 37 may be conveniently screwed into the side draw-out screw hole 43, and the anti-slip thread 38 may also facilitate screwing the screw member 37 into the side draw-out screw hole 43; at this time, the external insertion limiting rod 28 is inserted into the metal ring 29 and the upper circular limiting hole 31, the external insertion limiting rod 28 is pulled out, the arc-shaped metal plate 26 moves downwards under the gravity, the pull-up handle 25 and the metal ring 29 move downwards together to the lower circular limiting hole 31, then the external insertion limiting rod 28 is inserted into the metal ring 29 and the lower circular limiting hole 31, so that the arc-shaped metal plate 26 is positioned between the lower pressing cavity 4 and the auxiliary cavity 27 to play a role of blocking, the lower pressing component 3 can be a lower pressing motor, the lower pressing component 3 presses the rotating component 6 downwards, the rotating component 6 can drive the lower pressing plate 5 to rotate, the lower pressing fan-shaped slope 42 at the bottom of the lower pressing plate 5 is engaged with the pressed fan-shaped slopes 44 at the tops of the first pressed plate 46, the second pressed plate 47 and the third pressed plate 50 when the lower pressing plate 5 rotates, the lower pressing fan-shaped slope 42 moves downwards after the fan-shaped slopes 44 move to a quarter of a circle and then is engaged with the pressed fan-shaped slopes 44, the reciprocating is carried out in the way; the sample pricking can form two functions of rotating and pressing downwards between the pressing fan-shaped slope 42 and the pressing fan-shaped slope 44 to improve the crushing efficiency, when the material is submitted to be smaller or the amount is smaller, the material can also play a role of pressing downwards and rotating for crushing when the material is larger in volume or the amount is larger, but the pressing fan-shaped slope 42 and the pressing fan-shaped slope 44 are difficult to form a meshing state, the crushed material can fall into the discharge cavity 13 from the large discharge hole 45, the middle discharge hole 48 and the small discharge hole 49 and enter the stirring cavity 15 through the material guide pipe 14 to be stirred in the stirring cavity 15, the left end face of the strip-shaped limiting groove 12 can be provided with an outward opening door for removing residues in the strip-shaped limiting groove 12 after being opened, as shown in figure 4, the arc-shaped metal plate 26 is positioned in the middle of the U-shaped slide rail component 9, so that the arc-shaped metal plate 26 cannot be blocked by the slide rail component 9 when being lifted, the upper stirring knife 23 and the lower stirring knife 28 can move along the inner side end face of the stirring cavity 15, so that dead angles caused by stirring or hardening of materials stuck on the inner side end face of the stirring cavity 15 for a long time are avoided, and the stirred materials are discharged from the main discharging pipe 21; the discharge cavity 13 is a bottom structure of the pressing cavity 4, the discharge cavity 13 and the pressing cavity 4 are a whole cylindrical cavity, a part located below the third pressed plate 50 is named as the discharge cavity 13, a part located above the third pressed plate 50 is named as the pressing cavity 4, and the bottom of the discharge cavity 13 is communicated with the top of the stirring cavity 15.

According to an embodiment of the application, this high-efficient crushing-type mixer is through setting up crushing system 1 and mixing system 2 to set up first pressure receiving plate 46, second pressure receiving plate 47, third pressure receiving plate 50 and lower pressure disk 5 inside crushing system 1 and can extrude the smashing to the material before the stirring, and can select different pressure receiving plates in order to change the stone size after smashing according to the demand.

The above-described embodiments are merely illustrative of several embodiments of the present invention, which are described in detail and detail, but should not be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the claims.

Claims (9)

1. The utility model provides a high-efficient crushing-type mixer which characterized in that: comprises a crushing system and a stirring system arranged above the crushing system;

the stirring system comprises a stirring cavity, a main rotating motor is arranged on the outer end face of the right side of the stirring cavity, the output end of the main rotating motor extends into the stirring cavity and is connected with one end of a main connecting rod which is horizontally arranged, the other end of the main connecting rod is provided with a cylindrical limiting block, the end surface of the inner side of the stirring cavity is provided with a cylindrical limiting groove, the cylindrical limiting block is embedded in the cylindrical limiting groove, the upper end and the lower end of the main connecting rod are respectively provided with a main stirring knife, the two main stirring knives are connected with an upper stirring knife and a lower stirring knife which are arranged at the top and the bottom of the end surface of the inner side of the stirring cavity body, the upper stirring knife and the lower stirring knife are both arc-shaped structures which are in contact with the inner side end face of the stirring cavity, the inner side end face of the stirring cavity is provided with an annular wedge-shaped protrusion, and the upper stirring knife and the lower stirring knife are both provided with a wedge-shaped groove;

the top of the stirring cavity is provided with a supporting and fixing rod connected with the bottom of the crushing system;

the crushing system comprises a lower pressing cavity, an arc-shaped cavity communicated with the end face of the right side of the lower pressing cavity and an auxiliary cavity communicated with the end face of the right side of the arc-shaped cavity, an upper opening is formed in the top of the auxiliary cavity, a strip-shaped limiting groove is formed in the end face of the left side of the lower pressing cavity, three limiting block components are arranged in the strip-shaped limiting groove, a first pressure receiving plate, a second pressure receiving plate and a third pressure receiving plate are sequentially arranged in the auxiliary cavity from top to bottom, front limiting plates are arranged on the end faces of the left sides of the first pressure receiving plate, the second pressure receiving plate and the third pressure receiving plate, side sliding blocks are respectively arranged at the front ends and the rear ends of the first pressure receiving plate, the second pressure receiving plate and the third pressure receiving plate, three U-shaped sliding rail components are sequentially arranged on the end face of the inner side of the auxiliary cavity from top to bottom;

an arc-shaped metal plate is arranged in the arc-shaped cavity, an upward-pulling handle is arranged at the top of the arc-shaped metal plate, a metal ring is connected to the other end of the upward-pulling handle, a lateral vertical strip-shaped hole for extending out of the upward-pulling handle is formed in the outer side end face of the arc-shaped cavity, two circular limiting holes are formed in the outer side end face of the arc-shaped cavity, and an externally-inserted limiting rod for limiting the metal ring is inserted into the circular limiting holes and the metal ring;

the utility model discloses a press device, including cavity, pressure cavity, rotating part, pressure disk, pressure cavity top are provided with the pressure part down, the output of pressure part bottom stretches into the pressure cavity is pushed down and is connected with the spring part of vertical setting, the bottom and the rotating part top of spring part are connected, the output and the pressure disk top of rotating part bottom are connected down, the pressure disk down, first pressure piece, second are pressed and are equipped with big discharge opening, well discharge opening and little discharge opening on board respectively pressed, all be equipped with a side outer pull screw on the side end face of first pressure piece, second pressure piece and third pressure piece.

2. The high efficiency pulverizer mixer of claim 1, wherein: the wedge-shaped protrusion is embedded inside the wedge-shaped groove.

3. The high efficiency pulverizer mixer of claim 1, wherein: the length and the width of the limiting plate are both nine centimeters, the length and the width of the strip-shaped limiting groove are both ten centimeters, and the limiting block part is a metal plate welded on the end face of the rear side of the strip-shaped limiting groove, and both the length and the width of the metal plate are nine centimeters.

4. The high efficiency pulverizer mixer of claim 1, wherein: the side sliding blocks are wedge-shaped metal blocks, and the sliding rail parts are U-shaped metal strips with wedge-shaped grooves in the inner side end faces.

5. The high efficiency pulverizer mixer of claim 1, wherein: the circular limiting holes are arranged beside the side vertical strip-shaped holes and are respectively as high as the tops and the bottoms of the side vertical strip-shaped holes.

6. The high efficiency pulverizer mixer of claim 1, wherein: the lower pressure plate is of a metal disc structure, four pressing fan-shaped slopes are arranged on the bottom surface of the metal disc structure, and four pressing fan-shaped slopes are arranged on the upper end faces of the first pressed plate, the second pressed plate and the third pressed plate respectively.

7. The high efficiency pulverizer mixer of claim 1, wherein: the large discharge hole, the middle discharge hole and the small discharge hole are vertical round hole structures with diameters of ten centimeters, five centimeters and one centimeter respectively.

8. The high efficiency pulverizer mixer of claim 1, wherein: still include the auxiliary regulating pole, the auxiliary regulating pole is Z type metal pole structure, the auxiliary regulating pole bottom is equipped with screw rod part, be equipped with anti-skidding line on the terminal surface of screw rod part rear end outside, screw rod part rear end has cylindrical protruding, cylindrical protruding inlays inside the cylindrical recess of auxiliary regulating pole bottom, screw rod part with the side draws the screw meshing outward.

9. The high efficiency pulverizer mixer of claim 1, wherein: the main stirring knives are of a fold-line-shaped metal rod structure, and two ends of each main stirring knife are welded with two ends of the lower stirring knife and two ends of the upper stirring knife respectively.

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