CN114087201B - Slurry pump capable of adjusting gap between impeller, sheath and guard plate - Google Patents

Abstract

The invention discloses a slurry pump capable of adjusting gaps between an impeller and a sheath as well as between the impeller and a guard plate, which relates to the field of pump valves.

Description

Slurry pump capable of adjusting gap between impeller, sheath and guard plate

Technical field:

the invention relates to the field of pump valves, in particular to a slurry pump capable of adjusting gaps between an impeller and a sheath as well as between the impeller and a guard plate.

The background technology is as follows:

pumps suitable for transporting liquids (water) containing suspended solids are generally referred to as slurry pumps. At present, the device is one of indispensable equipment in each technological process of mineral separation and coal separation plants.

Under the high-speed rotation of the impeller, the sucked stones and other sundries can rotate at high speed along with the impeller, the impeller is fixed with the gaps of the sheath and the guard plate, the passing capacities of stones with large particles and stones with small particles are different, the large particles flow in the small gaps, the overall volume loss and friction loss of the pump are increased, the impeller is easy to damage, and the service life is short.

The invention comprises the following steps:

the invention aims to solve the technical problem of providing a slurry pump capable of adjusting the clearance between an impeller and a sheath and between the impeller and a guard plate.

The technical problems to be solved by the invention are realized by adopting the following technical scheme:

the slurry pump comprises a pump body and a bracket body, wherein the pump body is fixedly connected with the bracket body;

the pump body is connected with a pump cover through a bolt, the pump body and the pump cover form an outer shell, a guard plate is connected with the inside of the pump body through bolts, a sheath is tightly attached to the inner cavity of the pump body, the guard plate is mutually abutted to the sheath, the sheath and the guard plate are positioned through a spigot of the outer shell to form an inner shell, an inlet pipe is connected to the right side of the pump cover through a bolt, and an outlet pipe is connected to the upper side of the pump body through a bolt;

the top of the bracket body is provided with a cylinder bracket, a transmission shaft is arranged in the cylinder bracket, and the transmission shaft is connected with the cylinder bracket through a bearing component;

the cylindrical bracket is divided into a left cylindrical bracket and a right cylindrical bracket, the left cylindrical bracket is fixedly connected to one side of the top of the bracket body, a fixed sleeve is arranged on the other side of the top of the bracket body, the right cylindrical bracket is embedded into the fixed sleeve in a sliding manner, and a corrugated pipe is connected between the left cylindrical bracket and the right cylindrical bracket through a flange;

the transmission shaft is divided into a driving shaft and a driven shaft, the driving shaft is arranged in a left cylinder bracket, the driven shaft is arranged in a right cylinder bracket, the end part of the driving shaft is provided with a square hole, the end part of the driven shaft is provided with a square column, the square column is inserted in the square hole, the inner wall of the right cylinder bracket is provided with a limiting plate with a hole in the center, the driven shaft is provided with a limiting annular groove, a wall slideway of the limiting plate is connected in the limiting annular groove,

the right end of the transmission shaft is connected with an impeller in a threaded manner, and the impeller is positioned in the inner shell.

The invention further discloses the following technology:

preferably, the sheath is matched with the guard plate through a bevel connection.

Preferably, the closed space formed between the inner shell and the impeller is a pumping chamber, and the pumping chamber adopts a semi-spiral design.

Preferably, the bracket is provided with a sliding rail, the sliding rail is provided with a sliding block in a sliding manner, the top of the sliding block is fixedly connected with the right cylinder bracket, the sliding block is provided with a threaded through hole, the bracket is provided with an adjusting bolt, one side of the adjusting bolt is rotationally connected to the bracket, and the other side of the adjusting bolt is screwed in the threaded through hole.

Preferably, the length of the square column is equal to the depth of the square hole, the square column is completely inserted into the square hole when the corrugated pipe is contracted to the shortest length, and the end part of the square column is inserted into the square hole when the corrugated pipe is extended to the longest length.

Preferably, the side wall of the right cylinder bracket is provided with a convex edge, the convex edge is axially arranged along the right cylinder bracket, the inner wall of the fixed sleeve is provided with a groove, the groove is axially arranged along the fixed sleeve, and the convex edge is slidably arranged in the groove.

Preferably, the bearing member is an angular contact ball bearing.

Preferably, the clearance adjustment mode of the slurry pump impeller, the sheath and the guard plate is as follows: the adjusting bolt is rotated, the sliding block moves on the sliding rail through the threaded connection of the adjusting bolt and the sliding block, the driving and sliding block are fixedly connected to the right cylinder bracket, the right cylinder bracket slide way is connected to the inside of the fixed sleeve, the sliding block moves to drive the right cylinder bracket to move, the distance between the right cylinder bracket and the left cylinder bracket changes, the corrugated pipe stretches out and draws back, meanwhile, the inner wall of the right cylinder bracket is connected to the limiting plate slide way to be connected to the limiting annular groove on the driven shaft, the right cylinder bracket drives the driven shaft to move, the impeller connected to the driven shaft is driven to move, the impeller is located in a cavity enclosed by the pump body and the pump cover and is in threaded connection with the shaft end of the driven shaft, the driven shaft moves, the gap between the impeller and the protective sleeve and the protective plate is adjusted, one end of the driving shaft is connected to the motor, and the driven shaft and the driving shaft are inserted into the square hole through the square column.

The beneficial effects of the invention are as follows: the invention has novel structure, convenience and practicability, the pump body is fixedly connected with the bracket body, the impeller is positioned in the inner shell formed by the sheath and the guard plate, the right cylinder bracket is adjusted to realize the adjustable driven shaft, and when the overflow part of the pump is worn, the clearance between the impeller and the sheath as well as between the impeller and the guard plate can be effectively adjusted, so that the passing capacity of solid particles, the whole volume loss and friction loss of the pump can be effectively controlled, the service life of the pump is prolonged, and the economic cost is reduced.

Description of the drawings:

in order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed in the description of the embodiments will be briefly described below, it will be apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art;

FIG. 1 is a schematic diagram of a slurry pump according to the present invention;

FIG. 2 is a schematic diagram of a sectional structure of a slurry pump according to the present invention;

FIG. 3 is a schematic diagram of the connection of the driving and driven shafts in the present invention;

FIG. 4 is a schematic view of the right cylinder bracket structure of the present invention;

FIG. 5 is a schematic view of the pump body according to the present invention;

FIG. 6 is a schematic view of the inlet pipe structure of the present invention;

FIG. 7 is a schematic diagram of the front view of the inlet pipe of the present invention;

FIG. 8 is a schematic cross-sectional elevation view of an inlet tube according to the present invention;

FIG. 9 is a schematic view of a spindle structure according to the present invention;

wherein: 1. a pump body; 2. a pump cover; 3. an impeller; 4. a sheath; 5. a guard board; 6. a bracket body; 7. a pumping chamber; 8. an inlet pipe; 9. an outlet tube; 10. a bearing member; 11. fixing the sleeve; 12. a flange; 13. a bellows; 14. a driving shaft; 15. a driven shaft; 16. square holes; 17. square columns; 18. a limiting plate; 19. a limit annular groove; 20. a slide rail; 21. a slide block; 22. a threaded through hole; 23. an adjusting bolt; 24. a rib; 25. a groove; 26. a left cylinder bracket; 27. a right cylinder bracket; 28. a boss; 29. a square groove; 30. a rotating shaft; 31. square connecting columns; 32. a bearing; 33. a bracket; 34. a filter bucket; 35. a rotary knife; 36. a spring; 37. a concave circular plate; 38. a pointed tube; 39. a circular ring; 40. and a ring member.

The specific embodiment is as follows:

the invention is further described with reference to the following detailed drawings in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the implementation of the invention easy to understand.

The invention provides a slurry pump capable of adjusting the clearance between an impeller and a sheath as well as between the impeller and a guard plate, which is shown in figures 1-4, and comprises a pump body 1 and a bracket body 6, wherein the pump body 1 is fixedly connected with the bracket body 6.

The pump body 1 has pump cover 2 through bolted connection, pump body 1 and pump cover 2 form the shell body, the inside bolted connection of pump body 1 has backplate 5, the inseparable laminating of pump body 1 inner chamber has sheath 4, backplate 5 and the mutual butt of sheath 4, sheath 4 and backplate 5 pass through the tang location of shell body and form the inner shell body, adopt bevel connection cooperation between sheath 4 and the backplate 5. The machining difficulty of the installation angle is reduced, accuracy of the installation angle is guaranteed, gaps can be adjusted in practical application, the O-shaped sealing ring is assisted to seal, and abrasion caused by leakage is reduced.

The right side of the pump cover 2 is connected with an inlet pipe 8 through a bolt, and the upper side of the pump body 1 is connected with an outlet pipe 9 through a bolt;

the top of the bracket body 6 is provided with a cylinder bracket, a transmission shaft is arranged in the cylinder bracket, and the transmission shaft is connected with the cylinder bracket through a bearing component 10. The right end of the transmission shaft is connected with an impeller 3 in a threaded manner, and the impeller 3 is positioned in the inner shell.

The enclosed space formed between the inner shell and the impeller 3 is a pumping chamber 7, the pumping chamber 7 adopts a semi-spiral design, the spiral angle of the original pumping chamber is increased, and the throat of the pumping chamber is specially thickened.

Fluid enters the impeller 3 through the inlet pipe 8, the impeller 3 rotates under the drive of the transmission shaft, and under the action of centrifugal force, the fluid is thrown from the center of the impeller 3 to the outer edge and obtains energy, and leaves the outer edge of the impeller 3 at a high speed to enter the pumping chamber. In the pumping chamber, the liquid is decelerated due to the gradual expansion of the flow passage, part of kinetic energy is converted into static pressure energy, and finally flows into the outlet short pipe at higher pressure to be sent to a required place.

In practical application, the invention finds that the existing shaft adjustment is carried out by adopting a whole shaft, the connection between a transmission shaft and a bracket needs to be matched with a bearing part 10, the bearing part 10 needs to be arranged to adapt to axial adjustment and rotation under the requirements of movement adjustment and rotation, and the bearing part 10 has extremely high requirements, therefore, in the design, the transmission shaft is divided into two parts by considering that the connection between the bearing part 10 and the transmission shaft is unchanged, namely, the transmission shaft is divided into a driving shaft 14 and a driven shaft 15, the driven shaft 15 and the driving shaft 14 are connected in a mode of inserting the square hole 16 through a square column 17, the driven shaft 15 realizes movement and rotation, the design requirements on the bearing 32 part are greatly reduced, and an auxiliary structure is additionally arranged, and the invention is specifically as follows:

the cylindrical bracket is divided into a left cylindrical bracket 26 and a right cylindrical bracket 27, the left cylindrical bracket 26 is fixedly connected to one side of the top of the bracket body 6, a fixed sleeve 11 is arranged on the other side of the top of the bracket body 6, the right cylindrical bracket 27 is slidably embedded into the fixed sleeve 11, and a corrugated pipe 13 is connected between the left cylindrical bracket 26 and the right cylindrical bracket 27 through a flange 12;

the transmission shaft is divided into a driving shaft 14 and a driven shaft 15, the driving shaft 14 is arranged in a left cylinder bracket 26, the driven shaft 15 is arranged in a right cylinder bracket 27, a square hole 16 is arranged at the end part of the driving shaft 14, a square column 17 is arranged at the end part of the driven shaft 15, the square column 17 is inserted into the square hole 16, a limiting plate 18 with a hole in the center is arranged on the inner wall of the right cylinder bracket 27, a limiting annular groove 19 is arranged on the driven shaft 15, a hole wall slideway of the limiting plate 18 is connected in the limiting annular groove 19,

the bracket is provided with a sliding rail 20, the sliding rail 20 is provided with a sliding block 21 in a sliding way, the top of the sliding block 21 is fixedly connected with a right cylinder bracket 27, the sliding block 21 is provided with a threaded through hole 22, the bracket is provided with an adjusting bolt 23, one side of the adjusting bolt 23 is rotationally connected to the bracket, and the other side of the adjusting bolt is screwed in the threaded through hole 22.

The length of the square column 17 is equal to the depth of the square hole 16, when the corrugated pipe 13 is contracted to the shortest length, the square column 17 is completely inserted into the square hole 16, and when the corrugated pipe 13 is extended to the longest length, the end part of the square column 17 is inserted into the square hole 16.

The side wall of the right cylinder bracket 27 is provided with a convex rib 24, the convex rib 24 is axially arranged along the right cylinder bracket 27, the inner wall of the fixed sleeve 11 is provided with a groove 25, the groove 25 is axially arranged along the fixed sleeve 11, and the convex rib 24 is slidably arranged in the groove 25.

The bearing component 10 is an angular contact ball bearing 32, and the angular contact ball bearing 32 can bear axial force of the rotor component under a heavy load condition and impact load of a medium on the whole rotor.

The clearance adjustment mode of the slurry pump impeller 3, the sheath 4 and the guard plate 5 is as follows: the adjusting bolt 23 is rotated, the sliding block 21 moves on the sliding rail 20 through the threaded connection of the adjusting bolt 23 and the sliding block 21, the sliding block 21 is driven to be fixedly connected with the right cylinder bracket 27, the right cylinder bracket 27 is connected in the fixed sleeve 11 in a sliding way, the sliding block 21 moves, the right cylinder bracket 27 is driven to move, the distance between the right cylinder bracket 27 and the left cylinder bracket 26 changes, the corrugated pipe 13 stretches out and draws back, meanwhile, the inner wall of the right cylinder bracket 27 is connected in the limiting annular groove 19 on the driven shaft 15 in a sliding way of the limiting plate 18, the right cylinder bracket 27 drives the driven shaft 15 to move, so that the impeller 3 connected with the driven shaft 15 is driven to move, the impeller 3 is positioned in a cavity surrounded by the pump body 1 and the pump cover 2 and is in threaded connection with the shaft end of the driven shaft 15, the driven shaft 15 moves, the gap between the impeller 3 and the sheath 4 and the guard plate 5 is adjusted, one end of the driving shaft 14 is connected with a motor, and the driven shaft 15 and the driving shaft 14 are inserted in the square hole 16 through the square column 17.

The invention solves the problems that large particles flow in a small gap, the whole volume loss and friction loss of the pump are increased, the impeller 3 is easy to damage, and the service life is short. The slurry pump also easily generates the jam phenomenon, when slurry pump impeller 3 takes place the runner and blocks up, a series of phenomena such as eccentric, vibration can appear in impeller 3, seriously influence the normal operating of equipment, because slurry pump mainly transports the mixture that contains the fixed granule of dregs and water, solidifies the caking easily, impeller 3 at the during operation, and the slurry coagulum on impeller 3 can accelerate the wearing and tearing of slurry pump shell, reduces the life of slurry pump shell. In this regard, the above-mentioned scheme is to adjust the clearance, and simultaneously, the invention adds a filtering device, breaks up large particle impurities at the inlet pipe 8, reduces the wearing and tearing to impeller 3.

Specifically, as shown in fig. 5-9, the end face of the center of the impeller 3 is provided with a boss 28, the end face of the boss 28 points to the pipe orifice of the inlet pipe 8, the end face of the boss 28 is provided with a square groove 29, a rotating shaft 30 is arranged in the inlet pipe 8, the rotating shaft 30 is axially arranged along the inlet pipe 8, the end part of the rotating shaft 30 is provided with a square connecting column 31, and the square connecting column 31 is inserted in the square groove 29. The rotary shaft 30 is provided with two bearings 32, the bearings 32 are provided with a bracket 33 connected to the inner wall of the inlet pipe 8, the inner wall of the inlet pipe 8 is provided with a filter bucket 34, the cross section of the filter bucket 34 is of an arc-shaped structure sunken towards one side of the impeller 3, the center of the filter bucket 34 is provided with a hole, the rotary shaft 30 penetrates through the hole, the rotary shaft 30 is provided with a rotary knife 35, and the rotary knife 35 is positioned at the outer side of the filter bucket 34 and in clearance fit with the outer side wall of the filter bucket 34.

The diameter length of the round surface formed by the rotation of the rotary knife 35 is 1/4 of the inner diameter length of the inlet pipe 8.

The invention discloses a crushing and filtering mechanism which is composed of a filter bucket 34, a rotating shaft 30 and a rotary knife 35, wherein a slurry pump works under liquid, a mixture containing solid particles of dregs and water is mainly used for pumping and conveying, the mixture is adsorbed on the filter bucket 34 when the slurry pump works, the filter bucket 34 is blocked, so that the slurry pump cannot normally work, the filter bucket 34 is damaged, when excessive impurities adsorbed on the filter bucket 34 cannot normally pass through water flow, the filter bucket 34 adopts an arc-shaped structure, small particles directly pass through, larger particles are blocked outside the filter bucket 34, the larger particles roll towards the center of a recess continuously under the impact of the water flow, the rotary knife 35 is positioned outside the filter bucket 34 and is in clearance fit with the outer side wall of the filter bucket 34, and the larger particles close to the center are crushed into small particles by the rotary knife 35 to pass through.

When the rotary knife 35 rotates at a high speed, a rotating surface is formed, and water flow is blocked, so that the rotary knife 35 is shorter in length, the whole traditional filtering mechanism is changed to be covered, the influence of the shorter knife on the filtering effect is small, and the crushing is realized by matching with the arc-shaped filter bucket 34.

The filter funnel 34 is located between the two bearings 32. The bearing 32 and the support 33 form a simple protective surface, with the filter funnel 34 and the rotary knife 35 in between, safe.

The side wall of the bearing 32 close to the impeller 3 is provided with a spring 36, the spring 36 is connected with one side of a concave circular plate 37, the section of the concave circular plate 37 is arc-shaped, the center is deepest and is provided with a hole, the rotating shaft 30 passes through the hole, the other side of the concave circular plate 37 is provided with a pointed pipe 38, and the concave circular plate 37 and the filter bucket 34 are concentric circles.

The rotating shaft 30 is connected with a circular ring 39, the circular ring 39 is positioned between the bearing 32 and the inward concave circular plate 37, one side surface of the circular ring 39 is an inclined surface, one side of the inward concave circular plate 37 is connected with an annular piece 40, the side surface of the annular piece 40 is an inclined surface, and the inclined surface of the annular piece 40 is the same as the inclined surface slope of the circular ring 39.

The inclined plane of the ring 40 is attached to the inclined plane of the ring 39, the rotating shaft 30 rotates, when the lowest inclined plane of the ring 40 is overlapped with the highest inclined plane of the ring 39, the spring 36 is in a normal state, at this time, the pointed tube 38 is separated from the filter bucket 34, when the highest inclined plane of the ring 40 is overlapped with the highest inclined plane of the ring 39, the spring 36 is in a stretched state, at this time, the pointed tube 38 is inserted into the hole of the filter bucket 34.

The arrangement mode of the tip pipe 38 is consistent with the arrangement mode of the aperture of the filter bucket 34, when the filter bucket 34 is close to the tip pipe 38, the tip pipe 38 penetrates through the filter bucket 34 through the hole on the filter bucket 34, so that the effect of dredging the filter bucket 34 is achieved, and the filter bucket 34 is prevented from being blocked.

The diameter of the concave circular plate 37 is equal to the diameter of the rotating surface of the rotating knife 35. The reason is the same as that of the rotary knife 35, the obstruction to the flow is reduced, the arc surface of the filter bucket 34 determines that particles directly pass through and cannot pass through are impacted to the center, the rotary knife 35 is broken, the rotary knife 35 rotates to form a surface which is blocked against water flow, and the rotary knife 35 is not provided with the impact force of water flow on the filter bucket 34 at the rear, so that the filter bucket 34 at the rear of the rotary knife 35 is easy to block, the adsorption force of the inlet pipe 8 is not influenced, the size of the concave circular plate 37 is reduced to the greatest extent, namely, the blocking is avoided, and the blocking is not caused against water flow.

The mode of filtering the slurry pump inlet pipe 8 is specifically as follows: the motor drives the transmission shaft to rotate, the right end of the transmission shaft is in threaded connection with the impeller 3, the impeller 3 is positioned in the inner shell, the end face of the center of the impeller 3 is provided with a boss 28, the end face of the boss 28 points to the pipe orifice of the inlet pipe 8, the end face of the boss 28 is provided with a square groove 29, a rotating shaft 30 is arranged in the inlet pipe 8, the rotating shaft 30 is axially arranged along the inlet pipe 8, the end part of the rotating shaft 30 is provided with a square connecting column 31, the square connecting column 31 is inserted in the square groove 29, the end face of the impeller 3 is provided with the boss 28, the end face of the boss 28 points to the pipe orifice of the inlet pipe 8, the end face of the boss 28 is provided with a square groove 29, the end part of the rotating shaft 30 is provided with a square connecting column 31, the square connecting column 31 is inserted in the square groove 29, the rotating shaft 30 is supported in the inlet pipe 8 through a bearing 32 and a bracket 33, the rotating shaft 30 rotates to drive the boss 28 through the impeller 3, the rotating shaft 30 rotates to drive the rotating knife 35 to rotate through the action of inserting the square connecting column 31 into the square groove 29, under the action of the impeller 3, water flow containing particles is sucked through the inlet pipe 8 and passes through the filter bucket 34, small particles directly pass through, larger particles are blocked outside the filter bucket 34, under the impact of the water flow, the larger particles roll towards the concave center continuously, the rotating knife 35 is positioned outside the filter bucket 34 and is in clearance fit with the outer side wall of the filter bucket 34, the larger particles close to the center are broken into small particles by the rotating knife 35 to pass through, the annular piece 40 does not rotate, the annular piece 39 rotates along with the rotating shaft 30, the inclined surface of the annular piece 40 is attached to the inclined surface of the annular piece 39, when the lowest of the inclined surface of the annular piece 40 is overlapped at the highest position of the inclined surface of the annular piece 39, the spring 36 is in a normal state, at this time, the tip tube 38 is separated from the filter bucket 34, when the highest position of the inclined surface of the ring member 40 is overlapped with the highest position of the inclined surface of the ring 39, the spring 36 is in a stretched state, at this time, the tip tube 38 is inserted into the hole of the filter bucket 34, the arrangement mode of the tip tube 38 is consistent with the arrangement mode of the hole diameter of the filter bucket 34, and when the filter bucket 34 is close to the tip tube 38, the tip tube 38 penetrates through the filter bucket 34 through the hole on the filter bucket 34, thereby achieving the effect of dredging the filter bucket 34, avoiding the blockage of the filter bucket 34 and ensuring the normal operation of the slurry pump.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a sediment stuff pump of clearance of adjustable impeller, sheath, backplate which characterized in that: comprises a pump body (1) and a bracket body (6), wherein the pump body (1) is fixedly connected with the bracket body (6);

the novel pump is characterized in that the pump body (1) is connected with the pump cover (2) through bolts, the pump body (1) and the pump cover (2) form an outer shell, a guard plate (5) is connected inside the pump body (1) through bolts, a sheath (4) is tightly attached to an inner cavity of the pump body (1), the guard plate (5) is mutually abutted to the sheath (4), the sheath (4) and the guard plate (5) form an inner shell through the spigot positioning of the outer shell, an inlet pipe (8) is connected to the right side of the pump cover (2) through bolts, and an outlet pipe (9) is connected to the upper side of the pump body (1) through bolts;

a cylindrical bracket is arranged at the top of the bracket body (6), a transmission shaft is arranged in the cylindrical bracket, and the transmission shaft is connected with the cylindrical bracket through a bearing component (10);

the cylindrical bracket is divided into a left cylindrical bracket (26) and a right cylindrical bracket (27), the left cylindrical bracket (26) is fixedly connected to one side of the top of the bracket body (6), a fixed sleeve (11) is arranged on the other side of the top of the bracket body (6), the right cylindrical bracket (27) is slidably embedded into the fixed sleeve (11), and a corrugated pipe (13) is connected between the left cylindrical bracket (26) and the right cylindrical bracket (27) through a flange (12);

the transmission shaft is divided into a driving shaft (14) and a driven shaft (15), the driving shaft (14) is arranged in a left cylinder bracket (26), the driven shaft (15) is arranged in a right cylinder bracket (27), a square hole (16) is formed in the end part of the driving shaft (14), a square column (17) is arranged in the end part of the driven shaft (15), the square column (17) is inserted in the square hole (16), a limiting plate (18) with a hole in the center is arranged on the inner wall of the right cylinder bracket (27), a limiting annular groove (19) is formed in the driven shaft (15), the hole wall of the limiting plate (18) is slidably connected in the limiting annular groove (19),

the right end of the transmission shaft is connected with an impeller (3) in a threaded manner, and the impeller (3) is positioned in the inner shell.

2. The slurry pump of claim 1, wherein the gap between the impeller and the jacket or shield is adjustable, and the slurry pump is characterized by: and the sheath (4) is matched with the guard board (5) through a bevel connection.

3. The slurry pump of claim 1, wherein the gap between the impeller and the jacket or shield is adjustable, and the slurry pump is characterized by: the enclosed space formed between the inner shell and the impeller (3) is a pumping chamber (7), and the pumping chamber (7) adopts a semi-spiral design.

4. The slurry pump of claim 1, wherein the gap between the impeller and the jacket or shield is adjustable, and the slurry pump is characterized by: be equipped with slide rail (20) on the bracket, slide on slide rail (20) and be equipped with slider (21), slider (21) top and right drum bracket (27) fixed connection, be equipped with threaded through-hole (22) on slider (21), be equipped with adjusting bolt (23) on the bracket, adjusting bolt (23) one side rotates to be connected on the bracket, and the opposite side spiral is in threaded through-hole (22).

5. The slurry pump of claim 1, wherein the gap between the impeller and the jacket or shield is adjustable, and the slurry pump is characterized by: the length of the square column (17) is equal to the depth of the square hole (16), when the corrugated pipe (13) is contracted to the shortest length, the square column (17) is completely inserted into the square hole (16), and when the corrugated pipe (13) is stretched to the longest length, the end part of the square column (17) is inserted into the square hole (16).

6. The slurry pump of claim 1, wherein the gap between the impeller and the jacket or shield is adjustable, and the slurry pump is characterized by: the side wall of the right cylinder bracket (27) is provided with a convex rib (24), the convex rib (24) is axially arranged along the right cylinder bracket (27), the inner wall of the fixed sleeve (11) is provided with a groove (25), the groove (25) is axially arranged along the fixed sleeve (11), and the convex rib (24) is slidably arranged in the groove (25).

7. The slurry pump of claim 1, wherein the gap between the impeller and the jacket or shield is adjustable, and the slurry pump is characterized by: the bearing component (10) is an angular contact ball bearing.