CN211616085U - Can dismantle lift double entry stirring vane's cement paste mixer - Google Patents

Abstract

The utility model discloses a can dismantle lift double entry stirring vane's cement paste mixer, including frame mechanism, power unit, rabbling mechanism, drive the stirring subassembly is at the upper pivoted drive mechanism of horizontal direction and vertical direction, drive mechanism with power unit link to each other. The utility model adopts the detachable lifting compound blade, the spiral stirring blade adopts a cylindrical spiral curve with equal pitch and equal helix angle, the smooth surface forms up-and-down material circulation under the premise of axial flow of cement paste by using the vortex effect, the adopted height adjuster can realize the circular lifting motion of the spiral stirring blade and the stirring shaft, and the cement paste at the bottom of the stirring container can be fully stirred; frame stirring leaf and paddle (mixing) shaft simple structure, it is convenient to make, can obtain great shearing force along the wall during rotation, can prevent to subside and avoid the grout to adhere to, reduces the wall built-up effect, reaches intensive mixing's effect.

Description

Can dismantle lift double entry stirring vane's cement paste mixer

Technical Field

The utility model relates to a mixer, concretely relates to can dismantle lift double entry stirring vane's cement paste mixer.

Background

The cement paste mixer is a device for mixing cement and water which are combined in proportion, in the process, the cement paste needs to be mixed by the cement paste mixer, and the obtained cement paste is used for measuring the standard consistency, the setting time and the cement volume stability of the cement.

At present, chinese patent with publication number CN 107813422U in the existing patent discloses a planetary mixer, which comprises an elastic stirring member disposed at one end of the stirring shaft close to the container and capable of extending out from the stirring shaft and extending to the bottom of the stirring container, and the stirring member extends to the bottom of the stirring container to stir a small amount of cement slurry at the bottom of the container, thereby solving the problem of dead angle of stirring caused by the limited length of the stirring shaft and reducing unnecessary errors caused by experiments.

However, the cement paste mixer with the telescopic blades can only mix cement paste deposited at the bottom, and cannot uniformly and effectively mix and mix all cement paste in a container, and the elastic mixing piece at the bottom of the mixing shaft can influence the fixed connection effect of the spring after bearing the resistance of high-viscosity materials for a long time, so that the stability of the mixing shaft is not good, and a gap is formed in the popping part, so that the cleaning is not good; in addition, a large amount of cement paste can be remained on the commonly used blade of the stirrer, and the blade is not detachable after the experiment, so that the blade is inconvenient to clean and cannot meet the experiment requirement.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a can dismantle lift double entry stirring vane's cement paste mixer, this mixer has improved the homogeneity of material, has reduced remaining of material, has reduced the unnecessary error that the stirring process brought for the experiment, is convenient for wash the maintenance.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a cement paste mixer with detachable lifting compound mixing blades comprises a frame mechanism, a power mechanism, a mixing mechanism and a transmission mechanism, wherein the transmission mechanism drives the mixing mechanism to rotate in the horizontal direction and the vertical direction and is connected with the power mechanism;

the frame mechanism comprises a base and a machine body;

the stirring mechanism comprises a stirring container, a stirring shaft capable of extending into the stirring container, a spiral stirring blade wound on the stirring shaft from top to bottom, and a frame type stirring blade connected to the stirring shaft by taking the stirring shaft as a central shaft, wherein paddle type stirring shafts perpendicular to the stirring shaft are respectively arranged on two sides of the frame type stirring blade close to the stirring shaft; the stirring container can be fixed on the machine body through a fixing frame;

the power mechanism comprises a motor and a transmission case, and the transmission case is of a case body structure consisting of a solid area and a hollow area; a main power shaft, a main bevel gear, a first auxiliary bevel gear and a second auxiliary bevel gear are arranged in the transmission case; a through hole for the main power shaft to pass through is formed in the solid area of the transmission case, and the main power shaft passes through the through hole of the transmission case and is fixedly connected with a motor shaft of the motor through a coupler; the main power shaft is a whole formed by fixedly connecting a shaft I, a shaft II, a shaft III, a shaft IV and a shaft V in sequence, the shaft I is close to the motor shaft side, the diameters of the shaft I and the shaft V are the same, the diameters of the shaft II and the shaft IV are the same, the diameter of the shaft III is larger than that of the shaft II, and the diameter of the shaft II is larger than that of the shaft I; a transparent cover, a first roller bearing, a second roller bearing, a first oil baffle plate and a main bevel gear are sequentially arranged on the main power shaft from the first shaft to the fifth shaft; the inner sides of the first roller bearing and the second roller bearing are respectively connected to one sides, close to the third shaft, of the second shaft and the fourth shaft in an interference fit mode, and the first oil baffle plate and the main bevel gear are fixed to the fifth shaft; the main power shaft further comprises a bearing sleeve for fixing the outer rings of the first roller bearing and the second roller bearing, and the bearing sleeve is in interference connection with the through hole; the transparent cover and the first oil baffle plate are respectively and tightly connected with two ends of the bearing sleeve; the first auxiliary bevel gear and the second auxiliary bevel gear are respectively meshed with the main bevel gear; the first auxiliary bevel gear is positioned above the second auxiliary bevel gear, the first auxiliary bevel gear is connected with a rotating shaft, and the second auxiliary bevel gear is connected with an output shaft; the rotating shaft and the output shaft are parallel to each other and vertical to the ground; the upper end of the rotating shaft is fixed on the top of the transmission case through a first fixing mechanism and is fixedly connected with the transmission case; the output shaft is fixedly connected with the bottom of the transmission case through a second fixing mechanism; the transmission mechanism comprises a height adjuster, a jack post and an adapter which are arranged in the output shaft, the height adjuster is a right-angle trapezoidal body, the inclined surface of the right-angle trapezoidal body faces downwards, a sliding track is arranged on the inclined surface, a sliding groove is arranged in the center of the sliding track, and the sliding track and the sliding groove are concentric circles; the surface opposite to the inclined surface is fixedly connected with the rotating shaft, the end part of the ejection column is matched with the sliding track, a bulge is also arranged at the end part of the ejection column, the bulge is matched with the sliding groove, and the height adjuster can drive the ejection column to move up and down in the vertical direction; a positioning disc is arranged on the top column, and a first disc baffle plate for limiting the upward movement of the positioning disc and a second disc baffle plate for limiting the downward movement of the positioning disc are arranged above the position, corresponding to the positioning disc, in the output shaft; a spring is arranged between the positioning disc and the second disc baffle, one end of the spring is fixed on the positioning disc, the other end of the spring is fixed on the second disc baffle, when the first disc baffle blocks the positioning disc to continue moving upwards, the end part of the top column is just fit with the highest point of the height adjuster in the vertical direction of the sliding track, and when the second disc baffle blocks the positioning disc to continue moving downwards, the end part of the top column is just fit with the lowest point of the height adjuster in the vertical direction of the sliding track; the lower end of the height adjuster is fixedly connected with an adapter which is an integral body sequentially consisting of a circular ring, a hollow shaft six and a hollow shaft seven from top to bottom, a third circular plate baffle which can limit the downward movement of the circular ring and the upward movement of the hollow shaft six is arranged below the second circular plate baffle, and the distance between the second circular plate baffle and the third circular plate baffle is matched with the working distance of the adapter in the vertical direction; the hollow shaft seven is in threaded connection with the stirring shaft.

Further, the first fixing mechanism is composed of a first bearing seat, a first double-row tapered roller bearing and a second oil baffle plate from top to bottom in the vertical direction, the first bearing seat is connected with the upper end face of the transmission case through bolts, the first double-row tapered roller bearing is in interference connection with the first bearing seat, and the first double-row tapered roller bearing is fixedly connected with the rotating shaft.

Further, the second fixing mechanism is composed of a third oil baffle, a second double-row tapered roller bearing and a second bearing seat from top to bottom in the vertical direction, the second bearing seat is connected with the lower end face of the transmission case through a bolt, the second double-row tapered roller bearing is in interference connection with the second bearing seat, and the second double-row tapered roller bearing is fixedly connected with the rotating shaft.

Furthermore, a supporting point is arranged at the center of the sliding track on the inclined plane, and a supporting structure which is matched with the supporting point and supports the height adjuster is arranged in the output shaft.

Furthermore, a buckle mechanism for reinforcing and clamping the stirring shaft is further arranged in the hollow shaft seven, the buckle mechanism is arranged in the wall of the hollow shaft seven and comprises a pull rod, a metal elastic sheet and a chute plate which are symmetrically arranged, the metal elastic sheet comprises a whole body formed by a fixed section, a protruding section and a limiting section which are sequentially connected, the fixed section is embedded in the wall of the hollow shaft seven, the protruding section penetrates through the inner wall of the hollow shaft seven and extends towards the inner space to form a semicircular protruding shape, and the limiting section extends towards the inner wall, forms an acute angle with the semicircular edge of the protruding section and extends upwards; the sliding groove plate is provided with a first horizontal limiting sliding groove and a second horizontal limiting sliding groove, the second horizontal limiting sliding groove is positioned above the first horizontal limiting sliding groove, the first horizontal limiting sliding groove is communicated with the second horizontal limiting sliding groove, the pull rod is composed of a horizontal part and a downward inclined part, the horizontal part and the inclined part form an acute angle, the horizontal part is provided with a sliding block, and the sliding block is clamped in the horizontal limiting sliding groove and can slide in the horizontal limiting sliding groove; the inclined part is matched with the limiting section and can drive the limiting section to move towards the wall in the horizontal direction; the upper end part of the stirring shaft is provided with a groove which is matched with the convex section, and when the stirring shaft is arranged in the hollow shaft VII, the convex section just blocks the stirring shaft; the position of the second horizontal limiting sliding groove just enables the sliding block to move to the right end of the second horizontal limiting sliding groove, and the protruding section can be just separated from the stirring shaft.

Furthermore, the stirring container is in threaded connection with the fixing frame.

Further, the device still include the water tank, the water tank install the fuselage on, the entry of water tank be equipped with water intake container, the water tank the export with stirred tank phase-match.

Further, the spiral curve of the spiral stirring blade is preferably a spiral angle such as an equal pitch.

Through adopting above-mentioned technical scheme, frame stirring leaf and oar formula (mixing) shaft make the grout can all receive the stirring of horizontal direction in whole stirred vessel, can make the grout along the rotatory stirring from bottom to top of spiral stirring leaf under the shovel of spiral stirring leaf moves, have reduced the adhesion of grout on the (mixing) shaft. The grout along the wall receives great shearing force influence when frame stirring leaf and paddle (mixing) shaft are rotatory, has reduced the wall and has adhered to, and the stirring when the (mixing) shaft has realized level and vertical direction has improved the circularity and the whole homogeneity of cement paste in the stirred vessel simultaneously.

The utility model discloses set up further to, the spiral of spiral stirring leaf is to the same with the screw thread of agitator shaft connection position, the screw thread of rotation axis and the direction of rotation of output shaft are opposite.

Through adopting above-mentioned technical scheme for the connection of (mixing) shaft and connector department is more rotatory tighter and tighter in the stirring process, has realized stability and security.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model adopts the detachable lifting compound blade, the spiral stirring blade adopts a cylindrical spiral curve with equal pitch and equal helix angle, the smooth surface forms up-and-down material circulation under the premise of axial flow of cement paste by using the vortex effect, the adopted height adjuster can realize the circular lifting motion of the spiral stirring blade and the stirring shaft, and the cement paste at the bottom of the stirring container can be fully stirred; frame stirring leaf and paddle (mixing) shaft simple structure, it is convenient to make, can obtain great shearing force along the wall during rotation, can prevent to subside and avoid the grout to adhere to, reduces the wall built-up effect, reaches intensive mixing's effect. The detachable arrangement of the connecting part of the stirring shaft and the adapter enables the stirring blade to be conveniently cleaned.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic structural view of a cement paste mixer with detachable lifting compound mixing blades according to the present invention;

FIG. 2 is a front view and a right side view of the stirring blade;

FIG. 3 is a cross-sectional view of the power mechanism;

FIG. 4 is a partial cross-sectional view of the main power shaft;

FIG. 5 is an assembly view of the main power shaft support structure;

FIG. 6 is a sectional view of the second fixing mechanism and the transmission mechanism;

FIG. 7 is an enlarged view of the top column of the transmission mechanism;

figure 8 is a schematic structural view of an adapter;

FIG. 9 is a cross-sectional view of a first fixation arrangement;

FIG. 10 is a schematic structural view of the snap structure;

fig. 11 is a schematic structural view of a metal dome;

FIG. 12 is a schematic view of the structure of the height adjuster;

fig. 13 is a partial structural schematic diagram of the transmission mechanism.

Detailed Description

The present invention will be described in detail with reference to the following embodiments. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention. These all belong to the protection scope of the present invention. In the figure 1, a machine base; 2. a body; 3. a motor; 4. a transmission case; 5. a stirring shaft; 5-1, a groove; 6. a stirred vessel; 7. a water tank; 8. a water inlet container; 9. an outlet; 10. an adapter; 10-1, a circular ring; 10-2, hollow shaft six; 10-3, hollow shaft seven; 11. an output shaft; 11-2. a third disc baffle; 12. a fixed mount; 14. a frame type stirring blade; 15. a paddle type stirring shaft; 16. a spiral stirring blade; 171. a chute plate; 172. a slider; 173. a pull rod; 173-1. horizontal section; 173-2. inclined portion; 174. a second horizontal limiting chute; 175. a first horizontal limiting chute; 176. a metal spring sheet; 176-1, a fixed segment; 176-2. a convex section; 176-3, a limiting section;

18. a rotating shaft; 19. a height adjuster; 19-1, sliding grooves; 19-2. sliding rail; 19-3. support points; 19-4, a support frame; 20. a top pillar; 20-1, bulges; 21. positioning the disc; 22. a spring; 23. a second disc baffle; 24. a first baffle plate; 25. a second double row tapered roller bearing; a second bearing housing; 27. a first secondary bevel gear; 28. a second pair of bevel gears; 29. a third oil baffle plate; 31. a second oil baffle; 33. a first bearing housing; 34. a first double row tapered roller bearing; a main bevel gear; 37. a first oil baffle plate; 38. a bearing sleeve; 39-1. a first roller bearing; 39-2. a second roller bearing; 40. a transparent cover; 41. a main power shaft; 41-1, shaft one; 41-2, shaft II; 41-3, Axis III; 41-4, shaft four; 41-5, shaft five; 42. a coupling;

example 1

A cement paste mixer with detachable lifting compound mixing blades comprises a frame mechanism, a power mechanism, a mixing mechanism and a transmission mechanism, wherein the transmission mechanism drives the mixing mechanism to rotate in the horizontal direction and the vertical direction and is connected with the power mechanism;

the frame mechanism comprises a machine base 1 and a machine body 2;

the stirring mechanism comprises a stirring container 6, a stirring shaft 5 capable of extending into the stirring container 6, a spiral stirring blade 16 wound on the stirring shaft 5 from top to bottom, and a frame type stirring blade 14 connected to the stirring shaft 5 by taking the stirring shaft 5 as a central shaft, wherein paddle type stirring shafts 15 vertical to the stirring shaft 5 are respectively arranged on two sides, close to the stirring shaft 5, of the frame type stirring blade 14; the stirring container 6 can be fixed on the machine body 2 through a fixing frame 12; the stirring container 6 is in threaded connection with the fixing frame 12;

the power mechanism comprises a motor 3 and a transmission case 4, and the transmission case 4 is of a case structure consisting of a solid area and a hollow area; a main power shaft 41, a first auxiliary bevel gear 27 and a second auxiliary bevel gear 28 are arranged in the transmission case 4; a through hole for the main power shaft 41 to pass through is formed in the solid area of the transmission case 4, and the main power shaft 41 passes through the through hole of the transmission case 4 and is fixedly connected with a motor shaft of the motor 3 through a coupler 42; the main power shaft 41 is a whole formed by fixedly connecting a shaft I41-1, a shaft II 41-2, a shaft III 41-3, a shaft IV 41-4 and a shaft IV 41-5 in sequence, the shaft I41-1 is close to the side of the motor shaft, the diameters of the shaft I41-1 and the shaft IV 41-5 are the same, the diameters of the shaft II 41-2 and the shaft IV 41-4 are the same, the diameter of the shaft III 41-3 is larger than that of the shaft II 41-2, and the diameter of the shaft II 41-2 is larger than that of the shaft I41-1; a transparent cover 40, a first roller bearing 39-1, a second roller bearing 39-2, a first oil baffle plate 37 and a main bevel gear 36 are sequentially arranged on the main power shaft 41 from a shaft I41-1 to a shaft V41-5; the inner sides of the first roller bearing 39-1 and the second roller bearing 39-2 are respectively connected to one sides, close to the third shaft 41-3, of the second shaft 41-2 and the fourth shaft 41-4 in an interference mode, and the first oil baffle plate 37 and the main bevel gear 36 are fixed to the fifth shaft 41-5; the main power shaft 41 further comprises a bearing sleeve 38 for fixing outer rings of the first roller bearing 39-1 and the second roller bearing 39-2, and the bearing sleeve 38 is in interference connection with the through hole; the through cover 40 and the first oil baffle plate 37 are respectively and tightly connected with two ends of the bearing sleeve 38; the first secondary bevel gear 27 and the second secondary bevel gear 28 are respectively meshed with the main bevel gear 36; the first secondary bevel gear 27 is positioned above the second secondary bevel gear 28, the first secondary bevel gear 27 is connected with the rotating shaft 18, and the second secondary bevel gear 28 is connected with the output shaft 11;

the rotating shaft 18 and the output shaft 11 are parallel to each other and vertical to the ground; the upper end of the rotating shaft 18 is fixed on the top of the transmission case 4 through a first fixing mechanism and is fixedly connected with the transmission case; the first fixing mechanism is composed of a first bearing seat 33, a first double-row tapered roller bearing 34 and a second oil baffle plate 31 from top to bottom in the vertical direction, the first bearing seat 33 is in bolted connection with the upper end face of the transmission case 4, the first double-row tapered roller bearing 34 is in interference connection with the first bearing seat 33, and the first double-row tapered roller bearing 34 is fixedly connected with the rotating shaft 18; the output shaft 11 is fixedly connected with the bottom of the transmission case 4 through a second fixing mechanism; the second fixing mechanism is composed of a third oil baffle 29, a second double-row tapered roller bearing 25 and a second bearing seat 26 from top to bottom in the vertical direction, the second bearing seat 26 is in bolted connection with the lower end face of the transmission case 4, the second double-row tapered roller bearing 25 is in interference connection with the second bearing seat 26, and the second double-row tapered roller bearing 25 is fixedly connected with the rotating shaft 18;

the transmission mechanism comprises a height adjuster 19, a jack-prop 20 and an adapter 10 which are arranged in the output shaft 11, the height adjuster 19 is a right-angle trapezoidal body, the inclined surface of the right-angle trapezoidal body faces downwards, a sliding track 19-2 is arranged on the inclined surface, a sliding groove 19-1 is arranged in the center of the sliding track 19-2, and the sliding track 19-2 and the sliding groove 19-1 are concentric circles; a supporting point 19-3 is arranged at the center of the sliding track 19-2 on the inclined plane, and a supporting frame 19-4 which is matched with the supporting point 19-3 and supports the height adjuster is arranged in the output shaft 11; the surface opposite to the inclined surface is fixedly connected with the rotating shaft 18, the end part of the top column 20 is matched with the sliding track 19-2, the end part of the top column 20 is also provided with a bulge 20-1, the bulge 20-1 is matched with the sliding groove 19-1, and the height regulator 19 can drive the top column 20 to move up and down in the vertical direction; a positioning disc 21 is arranged on the top column 20, and a first disc baffle 24 for limiting the upward movement of the positioning disc 21 and a second disc baffle 23 for limiting the downward movement of the positioning disc 21 are arranged above the position, corresponding to the positioning disc 21, in the output shaft 11; a spring 22 is arranged between the positioning disc 21 and the second disc baffle plate 23, one end of the spring 22 is fixed on the positioning disc 21, the other end is fixed on the second disc baffle plate 23, when the first disc baffle plate 24 blocks the positioning disc 21 to continue moving upwards, the end part of the top column 20 is just fit with the highest point of the height adjuster 19 in the vertical direction of the sliding track 19-2, and when the second disc baffle plate 23 blocks the positioning disc 21 to continue moving downwards, the end part of the top column 20 is just fit with the lowest point of the height adjuster 19 in the vertical direction of the sliding track 19-2; the lower end of the height adjuster 19 is fixedly connected with an adapter 10, the adapter 10 is an integral body consisting of a ring 10-1, a hollow shaft six 10-2 and a hollow shaft seven 10-3 from top to bottom, a third disc baffle 11-2 capable of limiting the downward movement of the ring 10-1 and the upward movement of the hollow shaft seven 10-3 is arranged below the second disc baffle 23, and the distance between the second disc baffle 23 and the third disc baffle 11-2 is matched with the working distance of the adapter 10 in the vertical direction; the hollow shaft seven 10-3 is in threaded connection with the stirring shaft 5, and a clamping mechanism for clamping the stirring shaft 5 is further arranged in the hollow shaft seven 10-3; the buckling mechanism is arranged in the wall of the hollow shaft seven 10-3 and comprises symmetrically arranged pull rods 173, a metal elastic sheet 176 and a chute plate 171, the metal elastic sheet comprises a whole body consisting of a fixed section 176-1, a raised section 176-2 and a limiting section 176-3 which are sequentially connected, the fixed section 176-1 is embedded in the wall of the hollow shaft seven 10-3, the raised section 176-2 penetrates through the inner wall of the hollow shaft seven 10-3 and extends to the inner space to form a semicircular convex shape, and the limiting section 176-3 extends into the wall and forms an acute angle with the semicircular edge of the raised section 176-2 and extends upwards; the chute plate 171 is provided with a first horizontal limiting chute 175 and a second horizontal limiting chute 174, the second horizontal limiting chute 174 is positioned above the first horizontal limiting chute 175, the first horizontal limiting chute 175 is communicated with the second horizontal limiting chute 174, the pull rod 173 is composed of a horizontal part 173-1 and a downward inclined part 173-2, the horizontal part 173-1 and the inclined part 173-2 form an acute angle, the horizontal part 173-1 is provided with a slide block 172, and the slide block 172 is clamped in the horizontal limiting chute and can slide in the horizontal limiting chute; the inclined portion 173-2 matches the limiting section 176-3 and the inclined portion 173-2 can drive the limiting section 176-3 to move towards the wall in the horizontal direction; the upper end part of the stirring shaft 5 is provided with a groove 5-1, the groove 5-1 is matched with the convex section 176-2, and when the stirring shaft 5 is arranged in the hollow shaft seven 10-3, the convex section 176-2 just blocks the stirring shaft 5; the second horizontal limiting chute 174 is just positioned so that the convex section 176-2 can be just separated from the stirring shaft 5 when the sliding block 172 moves to the right end of the second horizontal limiting chute 174;

the device still include water tank 7, water tank 7 install fuselage 2 on, water tank 7's entry be equipped with into water receptacle 8, water tank 7's export 9 with stirred vessel 6 phase-match.

The spiral curve of the spiral stirring blade 16 is equal pitch and equal helix angle.

Claims (8)

1. The utility model provides a can dismantle lift double entry stirring vane's cement paste mixer which characterized in that: the stirring mechanism is driven to rotate in the horizontal direction and the vertical direction, and the transmission mechanism is connected with the power mechanism;

the rack mechanism comprises a base (1) and a machine body (2);

the stirring mechanism comprises a stirring container (6), a stirring shaft (5) capable of extending into the stirring container (6), a spiral stirring blade (16) wound on the stirring shaft (5) from top to bottom, and a frame type stirring blade (14) which takes the stirring shaft (5) as a central shaft and is connected to the stirring shaft (5), wherein paddle type stirring shafts (15) vertical to the stirring shaft (5) are respectively arranged on two sides of the frame type stirring blade (14) close to the stirring shaft (5); the stirring container (6) can be fixed on the machine body (2) through a fixing frame (12);

the power mechanism comprises a motor (3) and a transmission case (4), and the transmission case (4) is of a case body structure consisting of a solid area and a hollow area; a main power shaft (41), a first auxiliary bevel gear (27) and a second auxiliary bevel gear (28) are arranged in the transmission case (4); a through hole for the main power shaft (41) to pass through is formed in the solid area of the transmission case (4), and the main power shaft (41) passes through the through hole of the transmission case (4) and is fixedly connected with a motor shaft of the motor (3) through a coupling (42); the main power shaft (41) is a whole formed by fixedly connecting a first shaft (41-1), a second shaft (41-2), a third shaft (41-3), a fourth shaft (41-4) and a fifth shaft (41-5) in sequence, the first shaft (41-1) is close to the side of the motor shaft, the diameters of the first shaft (41-1) and the fifth shaft (41-5) are the same, the diameters of the second shaft (41-2) and the fourth shaft (41-4) are the same, the diameter of the third shaft (41-3) is larger than that of the second shaft (41-2), and the diameter of the second shaft (41-2) is larger than that of the first shaft (41-1); a transparent cover (40), a first roller bearing (39-1), a second roller bearing (39-2), a first oil baffle plate (37) and a main bevel gear (36) are sequentially arranged on the main power shaft (41) from the shaft I (41-1) to the shaft V (41-5); the inner sides of the first roller bearing (39-1) and the second roller bearing (39-2) are respectively connected to one sides, close to the third shaft (41-3), of the second shaft (41-2) and the fourth shaft (41-4) in an interference mode, and the first oil baffle plate (37) and the main bevel gear (36) are fixed to the fifth shaft (41-5); the main power shaft (41) further comprises a bearing sleeve (38) for fixing outer rings of the first roller bearing (39-1) and the second roller bearing (39-2), and the bearing sleeve (38) is in interference connection with the through hole; the transparent cover (40) and the first oil baffle plate (37) are respectively and tightly connected with two ends of the bearing sleeve (38); the first secondary bevel gear (27) and the second secondary bevel gear (28) are respectively meshed with the main bevel gear (36); the first secondary bevel gear (27) is positioned above the second secondary bevel gear (28), the first secondary bevel gear (27) is connected with a rotating shaft (18), and the second secondary bevel gear (28) is connected with an output shaft (11);

the rotating shaft (18) and the output shaft (11) are parallel to each other and vertical to the ground; the upper end of the rotating shaft (18) is fixed on the top of the transmission case (4) through a first fixing mechanism and is fixedly connected with the transmission case; the output shaft (11) is fixedly connected with the bottom of the transmission case (4) through a second fixing mechanism;

the transmission mechanism comprises a height adjuster (19), a top column (20) and an adapter (10) which are arranged in the output shaft (11), the height adjuster (19) is a right-angle trapezoidal body, the inclined surface of the right-angle trapezoidal body faces downwards, a sliding track (19-2) is arranged on the inclined surface, a sliding groove (19-1) is arranged in the center of the sliding track (19-2), and the sliding track (19-2) and the sliding groove (19-1) are concentric circles; the surface opposite to the inclined surface is fixedly connected with the rotating shaft (18), the end part of the top column (20) is matched with the sliding track (19-2), the end part of the top column (20) is also provided with a bulge (20-1), the bulge (20-1) is matched with the sliding groove (19-1), and the height regulator (19) can drive the top column (20) to move up and down in the vertical direction; a positioning disc (21) is arranged on the top column (20), and a first disc baffle (24) for limiting the upward movement of the positioning disc (21) and a second disc baffle (23) for limiting the downward movement of the positioning disc (21) are arranged above the position, corresponding to the positioning disc (21), in the output shaft (11); a spring (22) is arranged between the positioning disc (21) and the second disc baffle plate (23), one end of the spring (22) is fixed on the positioning disc (21), the other end of the spring is fixed on the second disc baffle plate (23), when the first disc baffle plate (24) blocks the positioning disc (21) to continue moving upwards, the end part of the top column (20) is just matched with the highest point of the height adjuster (19) in the vertical direction of the sliding track (19-2), and when the second disc baffle plate (23) blocks the positioning disc (21) to continue moving downwards, the end part of the top column (20) is just matched with the lowest point of the height adjuster (19) in the vertical direction of the sliding track (19-2); the lower end of the height adjuster (19) is fixedly connected with an adapter (10), the adapter (10) is an integral body consisting of a ring (10-1), a hollow shaft six (10-2) and a hollow shaft seven (10-3) from top to bottom, a third disc baffle (11-2) which can limit the downward movement of the ring (10-1) and the upward movement of the hollow shaft seven (10-3) is arranged below the second disc baffle (23), and the distance between the second disc baffle (23) and the third disc baffle (11-2) is matched with the working distance of the adapter (10) in the vertical direction; the hollow shaft seven (10-3) is in threaded connection with the stirring shaft (5).

2. A mixer according to claim 1, wherein: the stirring container (6) is in threaded connection with the fixing frame (12).

3. A mixer according to claim 1, wherein: the first fixing mechanism is composed of a first bearing seat (33), a first double-row tapered roller bearing (34) and a second oil baffle plate (31) from top to bottom in the vertical direction, the first bearing seat (33) is in bolted connection with the upper end face of the transmission case (4), the first double-row tapered roller bearing (34) is in interference connection with the first bearing seat (33), and the first double-row tapered roller bearing (34) is fixedly connected with the rotating shaft (18).

4. A mixer according to claim 1, wherein: the second fixing mechanism is composed of a third oil baffle plate (29), a second double-row tapered roller bearing (25) and a second bearing seat (26) from top to bottom in the vertical direction, the second bearing seat (26) is in bolted connection with the lower end face of the transmission case (4), the second double-row tapered roller bearing (25) is in interference connection with the second bearing seat (26), and the second double-row tapered roller bearing (25) is fixedly connected with the rotating shaft (18).

5. A mixer according to claim 1, wherein: a supporting point (19-3) is arranged at the center of the sliding track (19-2) on the inclined plane, and a supporting frame (19-4) which is matched with the supporting point (19-3) and supports the height adjuster is arranged in the output shaft (11).

6. A mixer according to claim 1, wherein: a buckle mechanism for clamping the stirring shaft (5) is also arranged in the hollow shaft seven (10-3); the buckling mechanism is arranged in the wall of the hollow shaft seven (10-3) and comprises pull rods (173), a metal elastic sheet (176) and a chute plate (171) which are symmetrically arranged, the metal elastic sheet comprises a whole body which is formed by a fixed section (176-1), a convex section (176-2) and a limiting section (176-3) which are sequentially connected, the fixed section (176-1) is embedded in the wall of the hollow shaft seven (10-3), the convex section (176-2) penetrates through the inner wall of the hollow shaft seven (10-3) and extends towards the inner space to form a semicircular convex shape, and the limiting section (176-3) extends towards the inside of the wall and forms an acute angle with the semicircular edge of the convex section (176-2) and extends upwards; a first horizontal limiting sliding groove (175) and a second horizontal limiting sliding groove (174) are arranged on the sliding groove plate (171), the second horizontal limiting sliding groove (174) is positioned above the first horizontal limiting sliding groove (175), the first horizontal limiting sliding groove (175) is communicated with the second horizontal limiting sliding groove (174), the pull rod (173) is composed of a horizontal part (173-1) and a downward inclined part (173-2), the horizontal part (173-1) and the inclined part (173-2) form an acute angle, the horizontal part (173-1) is provided with a sliding block (172), and the sliding block (172) is clamped in the horizontal limiting sliding groove and can slide in the horizontal limiting sliding groove; the inclined part (173-2) is matched with the limiting section (176-3) and the inclined part (173-2) can drive the limiting section (176-3) to move towards the wall in the horizontal direction; a groove (5-1) is formed in the upper end of the stirring shaft (5), the groove (5-1) is matched with the convex section (176-2), and when the stirring shaft (5) is installed in the hollow shaft (10-3), the convex section (176-2) is just clamped with the stirring shaft (5); the position of the second horizontal limiting sliding groove (174) just ensures that the convex section (176-2) can be just separated from the stirring shaft (5) when the sliding block (172) moves to the right end of the second horizontal limiting sliding groove (174).

7. A mixer according to claim 1, wherein: the stirrer further comprises a water tank (7), the water tank (7) is installed on the stirrer body (2), a water inlet container (8) is arranged at an inlet of the water tank (7), and an outlet (9) of the water tank (7) is matched with the stirring container (6).

8. A mixer according to claim 1, wherein: the spiral curve of the spiral stirring blade (16) is equal pitch and equal helix angle.

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