CN115317990A

CN115317990A - Molybdenum ore pulp dewatering device

Info

Publication number: CN115317990A
Application number: CN202211053544.5A
Authority: CN
Inventors: 谢祖全; 谢雨知; 谢雨桐; 谢德权; 谢雨涵
Original assignee: Zunyi Hongyun Real Estate Development Co ltd
Current assignee: Zunyi Hongyun Real Estate Development Co ltd
Priority date: 2022-08-31
Filing date: 2022-08-31
Publication date: 2022-11-11

Abstract

The invention belongs to the technical field of molybdenum ore recovery, in particular to a molybdenum ore pulp dewatering device, which aims at solving the problems that the existing dewatering efficiency is low, ore pulp keeps static during working and is easy to solidify, discharging is not easy to perform after dewatering is completed, the working effect is reduced, and the working load is increased; a group of throwing mechanisms for accelerating the filtering speed of the filter screen are arranged between the bottom plate and the dewatering box body; the device has the advantages of quick discharging, effectively increased working efficiency and convenient use.

Description

Molybdenum ore pulp dewatering device

Technical Field

The invention relates to the technical field of molybdenum ore recovery, in particular to a molybdenum ore pulp dewatering device.

Background

In the metallurgical industry, molybdenum is used as an additive for producing various alloy steels, or is combined with tungsten, nickel, cobalt, zirconium, titanium, vanadium, rhenium and the like to form high-grade alloys so as to improve the high-temperature strength, the wear resistance and the corrosion resistance of the alloys. Molybdenum-containing alloy steel is used for manufacturing transportation devices, locomotives, industrial machinery and various instruments, and molybdenum ore pulp refers to a liquid mixture formed by adding water and other auxiliary agents to a raw material of molybdenum ore in order to extract a target element in industrial production.

The existing ore pulp dehydration generally utilizes a filtering device to filter water in the ore pulp, and the ore pulp is poured to cover the upper side of a filter screen, so that the water flows out along filter meshes to complete the dehydration process of the ore pulp, and the dehydration mode has the following defects:

1. the filter device has lower dehydration efficiency;

2. when the filtering device works, the ore pulp is kept static, so that the ore pulp is easy to solidify;

3. this filter equipment is difficult for carrying out the ejection of compact after accomplishing the dehydration, has reduced the working effect, has increased work burden.

Disclosure of Invention

The invention aims to solve the defects that the dehydration efficiency is low, ore pulp is kept static during working, the ore pulp is easy to solidify, the ore pulp is difficult to discharge after dehydration is finished, the working effect is reduced, and the working load is increased in the prior art, and provides the molybdenum ore pulp dehydration device.

In order to achieve the purpose, the invention adopts the following technical scheme:

a molybdenum ore pulp dehydration device comprises a bottom plate, wherein a dehydration box body is arranged at the top end of the bottom plate, a square-shaped mounting plate is fixedly connected in the dehydration box body, an inclined plate is arranged at the top end of the square-shaped mounting plate, the side end of the inclined plate is hinged with the side end of the square-shaped mounting plate through a hinge shaft, a filter sieve for filtering and dehydrating molybdenum ore pulp is rotatably connected in the square-shaped mounting plate, and a feeding hopper for feeding is arranged at the top end of the dehydration box body; a group of throwing mechanisms for accelerating the filtering speed of the filter screen are arranged between the bottom plate and the dewatering box body; two groups of angle adjusting mechanisms for inclining the filter screen to discharge are arranged between the square-shaped mounting plate and the material pouring plate; a set of reciprocating mechanism is arranged between the material tilting plate and the filter sieve and used for driving the filter sieve to perform angle adjustment, a plurality of sets of elastic reset mechanisms are arranged between the material tilting plate and the filter sieve and used for matching with the reciprocating mechanism to pitch the inclined filter sieve.

Preferably, the whipping mechanism is including offering the first recess in the bottom plate, sliding connection has half-tooth ring gear in the first recess, dehydration box fixed connection is on the top of half-tooth ring gear, the internal rotation of first recess is connected with half-tooth gear, the first driving motor of bottom fixedly connected with of bottom plate, first driving motor is connected with half-tooth gear through the shaft coupling, half-tooth gear and half-tooth ring gear clearance fit.

Preferably, each group of angle adjusting mechanisms comprises a U-shaped groove formed in the U-shaped mounting plate, a driving lead screw is rotationally connected in the U-shaped groove, a threaded plate is in threaded connection with the circumferential surface of the driving lead screw, a first accommodating groove is formed in the bottom end of the inclined material plate, a first connecting rod is movably hinged to the upper inner wall of the first accommodating groove through a hinge shaft, and the bottom end of the first connecting rod is movably hinged to the top end of the threaded plate through the hinge shaft.

Preferably, the U type inslot rotation is connected with the pivot, the equal fixedly connected with synchronizing wheel in circumference surface of pivot and two drive lead screws, it is three the equal transmission in circumference surface of synchronizing wheel is connected with the hold-in range, the side fixedly connected with second driving motor of type mounting panel returns, second driving motor is connected with the pivot through the shaft coupling.

Preferably, reciprocating mechanism is including seting up the second recess in the flitch that inclines, two first gag lever posts of fixedly connected with in the second recess, two the circumference surface sliding connection of first gag lever post has same reciprocating plate, the spout has been seted up in the reciprocating plate, sliding connection has the slider in the spout, the second recess internal rotation is connected with the bull stick, slider fixed connection is in the side of bull stick, the third recess has been seted up in the flitch that inclines, sliding connection has the stripper plate in the third recess, the side and the stripper plate of the flitch contact, two second connecting rods of side fixedly connected with of reciprocating plate, two the outside activity of second connecting rod runs through to in the third recess, stripper plate fixed connection is in the side of second connecting rod, the top fixedly connected with third driving motor of flitch inclines, third driving motor is connected through shaft coupling and bull stick.

Preferably, every group elasticity canceling release mechanical system all includes the fourth recess of seting up in the flitch top of inclining and sets up the second storage tank in the filter sieve bottom, the last inner wall of second storage tank articulates through the hinge activity has the connecting block, the lower inner wall of fourth recess articulates through the hinge activity has the connecting cylinder, sliding connection has circular slide in the connecting cylinder, the top fixedly connected with third connecting rod of circular slide, third connecting rod fixed connection is in the bottom of connecting block, the top fixedly connected with reset spring of circular slide, reset spring's side fixed connection is in the connecting cylinder, reset spring overlaps the circumference surface of locating the third connecting rod.

Preferably, the top fixedly connected with rail of filter sieve, the side of rail is equipped with the discharge gate, two fifth recesses have been seted up to the side of rail, one of them fixedly connected with second gag lever post in the fifth recess, another the fifth recess internal rotation is connected with the lift lead screw, the circumference surface sliding connection of second gag lever post has the baffle, baffle threaded connection is in the circumference surface of lift lead screw, the top fixedly connected with fourth driving motor of rail, fourth driving motor is connected with the lift lead screw through the shaft coupling.

Preferably, a reservoir is arranged in the dewatering box body and is arranged on the lower side of the filter screen.

According to the invention, after molybdenum ore pulp is poured to the upper side of the filter sieve through the feeding hopper, moisture in the ore pulp can be filtered through the filter sieve, the half-tooth gear is driven to rotate by starting the first driving motor, the half-tooth gear drives the half-tooth ring to reciprocate by rotating, the half-tooth ring reciprocates to drive the dehydration box body and the filter sieve to reciprocate, and the molybdenum ore pulp in the filter sieve can move in the filter sieve under the action of inertia;

in the invention, a second driving motor is started to drive a rotating shaft to rotate, the rotating shaft drives a synchronizing wheel to rotate, one synchronizing wheel rotates to drive the other two synchronizing wheels to rotate through a synchronizing belt, the other two synchronizing wheels rotate to drive two driving screw rods to rotate, the two driving screw rods rotate to drive two thread plates to move in position, the two thread plates move in position to drive the position of the bottom end of a first connecting rod to move, the position of one end of the first connecting rod moves to drive the other end of the first connecting rod to move in position, so that an inclined material plate and a filter sieve are driven to adjust the angle, and the filter sieve can obliquely discharge materials;

according to the filter screen, the third driving motor is started to drive the rotating rod to rotate, the rotating rod rotates to drive the sliding block to do circular motion, the sliding block slides in the sliding groove when doing circular motion, but the sliding block does not slide in the sliding groove, the reciprocating plate which can move does reciprocating linear motion on the circumferential surface of the first limiting rod, the reciprocating plate does reciprocating linear motion and drives the extrusion plate to do reciprocating linear motion through the two second connecting rods, when the extrusion plate moves towards the filter screen, the bottom edge of the filter screen is extruded through the inclined surface of the extrusion plate, so that the filter screen is extruded to rotate slightly, the reset spring also drags the third connecting rod and the connecting cylinder to extrude the filter screen through the connecting block after the filter screen is extruded, when the extrusion plate loses extrusion, the connecting cylinder can reset through the elastic pushing of the reset spring, the filter screen can be overturned through the reciprocating driving of the reciprocating mechanism, so that a relatively firm material stuck on the filter screen can be overturned, and discharging is convenient;

according to the device, the dewatering and filtering efficiency of the molybdenum ore pulp is effectively improved through the swinging mechanism, meanwhile, due to the fact that the molybdenum ore pulp is driven to move ceaselessly, the molybdenum ore pulp can be prevented from being solidified after being dewatered, the angle of the filter sieve is inclined by the angle adjusting mechanism, discharging is facilitated, the reciprocating mechanism is matched with the multiple groups of elastic reset mechanisms to enable the filter sieve to be overturned, materials can be overturned automatically, meanwhile, the materials can be prevented from being stained on the surface of the filter sieve, discharging of the device is rapid, working efficiency is effectively improved, and the device is convenient to use.

Drawings

Fig. 1 is a front perspective view of a molybdenum ore pulp dewatering device according to the present invention;

figure 2 is a first partial cross-sectional view of a molybdenum ore pulp dewatering device in accordance with the present invention;

figure 3 is a second partial cross-sectional view of a molybdenum ore pulp dewatering device in accordance with the present invention;

figure 4 is a third partial cross-sectional view of a molybdenum ore pulp dewatering device in accordance with the present invention;

figure 5 is a fourth partial cross-sectional view of a molybdenum ore pulp dewatering device in accordance with the present invention;

figure 6 is a fifth partial cross-sectional view of a molybdenum ore pulp dewatering device in accordance with the present invention;

FIG. 7 is an enlarged view of a portion of the molybdenum ore slurry dewatering device shown in FIG. 6;

figure 8 is a sixth partial cross-sectional view of a molybdenum ore pulp dewatering device in accordance with the present invention;

figure 9 is a seventh partial cross-sectional view of a molybdenum ore pulp dewatering device in accordance with the present invention;

figure 10 is a partial perspective view of a molybdenum ore pulp dewatering device in accordance with the present invention;

fig. 11 is a partial exploded view of a molybdenum ore pulp dewatering device according to the present invention.

In the figure: 1. a base plate; 2. a dewatering box body; 4. a clip-shaped mounting plate; 5. a material pouring plate; 6. feeding into a hopper; 7. a fence; 8. filtering and screening; 9. a baffle plate; 10. a first groove; 11. a half-toothed ring; 12. a half-tooth gear; 13. a first drive motor; 14. a U-shaped groove; 15. a thread plate; 16. driving the screw rod; 17. a first connecting rod; 18. a first accommodating groove; 19. a synchronizing wheel; 20. a rotating shaft; 21. a second drive motor; 22. a synchronous belt; 23. a second groove; 24. a reciprocating plate; 25. a chute; 26. a slider; 27. a second connecting rod; 28. a first limit rod; 29. a pressing plate; 30. a third groove; 31. connecting blocks; 32. a third drive motor; 33. a fourth groove; 34. a second accommodating groove; 35. a rotating rod; 36. a connecting cylinder; 37. a third connecting rod; 38. a return spring; 39. a circular slide plate; 40. a fifth groove; 41. a second limiting rod; 42. a lifting screw rod; 43. and a fourth driving motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1

Referring to fig. 1, 2, 8 and 9, the molybdenum ore pulp dewatering device comprises a bottom plate 1, a dewatering box body 2 is arranged at the top end of the bottom plate 1, a square-shaped mounting plate 4 is fixedly connected in the dewatering box body 2, an inclined plate 5 is arranged at the top end of the square-shaped mounting plate 4, the side end of the inclined plate 5 is hinged with the side end of the square-shaped mounting plate 4 through a hinge shaft, a filter sieve 8 for filtering and dewatering molybdenum ore pulp is rotatably connected in the square-shaped mounting plate 4, and a feeding hopper 6 for feeding is arranged at the top end of the dewatering box body 2; a group of throwing mechanisms for accelerating the filtering speed of the filter sieve 8 are arranged between the bottom plate 1 and the dewatering box body 2; two groups of angle adjusting mechanisms for inclining the filter sieve 8 to discharge are arranged between the square-shaped mounting plate 4 and the material pouring plate 5; a group of reciprocating mechanisms are arranged between the material pouring plate 5 and the filter sieve 8 and used for driving the filter sieve 8 to carry out angle adjustment, a plurality of groups of elastic reset mechanisms are arranged between the material pouring plate 5 and the filter sieve 8 and used for matching with the reciprocating mechanisms to toss the inclined filter sieve 8;

above-mentioned technical scheme can reach through the effectual dehydration filtration efficiency who has increased the molybdenum ore pulp of whipping mechanism not only, simultaneously owing to drive the incessant reason that moves of molybdenum ore pulp, can prevent the condition that solidifies from appearing after the molybdenum ore pulp dehydration, and utilize angle adjustment mechanism slope filter sieve 8's angle, make its convenient ejection of compact, and utilize reciprocating mechanism cooperation multiunit elasticity canceling release mechanical system to come filter sieve 8 to carry out the top, make it can drop the material top automatically, also can prevent simultaneously that the material from being stained with the surface at filter sieve 8, this device ejection of compact is swift, the effectual work efficiency that has increased, convenient to use's technological effect.

Referring to fig. 2, the swing mechanism includes first recess 10 of seting up in bottom plate 1, sliding connection has half-tooth ring gear 11 in first recess 10, and dehydration box body 2 fixed connection is on the top of half-tooth ring gear 11, and first recess 10 internal rotation is connected with half-tooth gear 12, and bottom 1's bottom fixedly connected with first driving motor 13, first driving motor 13 are connected through shaft coupling and half-tooth gear 12, and half-tooth gear 12 and half-tooth ring gear 11 clearance fit.

Above-mentioned technical scheme can reach and pour the molybdenum ore pulp into the upside of filter sieve 8 through going into hopper 6 after, can filter the moisture in the ore pulp through filter sieve 8, drive half-tooth gear 12 through starting first driving motor 13 and rotate, half-tooth gear 12 rotates and drives half-tooth ring gear 11 and carry out reciprocating motion, half-tooth ring gear 11 carries out reciprocating motion and drives dehydration box 2 and filter sieve 8 and carry out reciprocating motion, molybdenum ore pulp in the filter sieve 8 is because inertial effect, can carry out the technological effect of activity in filter sieve 8.

Referring to fig. 4 and 5, each group of angle adjusting mechanisms includes a U-shaped groove 14 formed in the clip-shaped mounting plate 4, a driving screw rod 16 is rotatably connected in the U-shaped groove 14, a threaded plate 15 is connected to the circumferential surface of the driving screw rod 16 through a thread, a first accommodating groove 18 is formed in the bottom end of the tilting plate 5, a first connecting rod 17 is movably hinged to the upper inner wall of the first accommodating groove 18 through a hinge, and the bottom end of the first connecting rod 17 is movably hinged to the top end of the threaded plate 15 through a hinge.

Above-mentioned technical scheme can reach two drive lead screws 16 and rotate and drive two screw plates 15 and carry out the position and remove, and two screw plates 15 carry out the position and remove the position that drives head rod 17 bottom and remove, and the position of head rod 17 one end removes and drives the head rod 17 other end and carry out the position and remove to drive material tilting plate 5 and filter sieve 8 and carry out angle modulation, make filter sieve 8 can incline the technological effect of the ejection of compact.

Referring to fig. 6, 7 and 8, the reciprocating mechanism includes a second groove 23 opened in the material pouring plate 5, two first limiting rods 28 are fixedly connected in the second groove 23, the circumferential surfaces of the two first limiting rods 28 are slidably connected with a same reciprocating plate 24, a sliding groove 25 is formed in the reciprocating plate 24, a sliding block 26 is slidably connected in the sliding groove 25, a rotating rod 35 is rotatably connected in the second groove 23, the sliding block 26 is fixedly connected to the side end of the rotating rod 35, a third groove 30 is formed in the material pouring plate 5, a squeezing plate 29 is slidably connected in the third groove 30, the side edge of the material pouring plate 5 is in contact with the squeezing plate 29, two second connecting rods 27 are fixedly connected to the side end of the reciprocating plate 24, the two second connecting rods 27 are outwardly movably penetrated into the third groove 30, the squeezing plate 29 is fixedly connected to the side end of the second connecting rods 27, the top end of the material pouring plate 5 is fixedly connected with a third driving motor 32, and the third driving motor 32 is connected with the rotating rod 35 through a coupler.

Above-mentioned technical scheme can reach and drive lift lead screw 42 to rotate through starting fourth driving motor 43, lift lead screw 42 rotates the rebound baffle 9 and opens rail 7, make the ore pulp that dewaters on the filter sieve 8 and finish can the ejection of compact, drive bull stick 35 through starting third driving motor 32 and rotate, bull stick 35 rotates and drives slider 26 and carry out circular motion, slider 26 slides in spout 25 when carrying out circular motion, but slider 26 is not just slided in spout 25 again, reciprocating plate 24 that still goes carries out reciprocating linear motion at the circumferential surface of first gag lever post 28, reciprocating plate 24 carries out reciprocating linear motion and drives stripper plate 29 through two second connecting rods 27 and carries out reciprocating linear motion, when stripper plate 29 moves towards filter sieve 8, extrude the base of filter sieve 8 through the inclined plane of stripper plate 29, thereby extrude filter sieve 8 and carry out with little pivoted technological effect.

Referring to fig. 9 and 10, each group of elastic reset mechanisms includes a fourth groove 33 disposed on the top end of the material tilting plate 5 and a second receiving groove 34 disposed on the bottom end of the filter sieve 8, an upper inner wall of the second receiving groove 34 is hinged to the connecting block 31 through a hinge shaft, a lower inner wall of the fourth groove 33 is hinged to the connecting cylinder 36 through a hinge shaft, a circular sliding plate 39 is slidably connected in the connecting cylinder 36, a third connecting rod 37 is fixedly connected to the top end of the circular sliding plate 39, the third connecting rod 37 is fixedly connected to the bottom end of the connecting block 31, a reset spring 38 is fixedly connected to the top end of the circular sliding plate 39, a side end of the reset spring 38 is fixedly connected to the connecting cylinder 36, and the reset spring 38 is sleeved on the circumferential surface of the third connecting rod 37.

Above-mentioned technical scheme can reach reset spring 38 and also dragged third connecting rod 37, connecting cylinder 36 extrusion by connecting block 31 after filter sieve 8 is extruded, loses the extrusion back when stripper plate 29, and elasticity through reset spring 38 promotes connecting cylinder 36 and can reset, and reciprocating drive through reciprocating mechanism can realize the top to filter sieve 8 to will be stained with on filter sieve 8 more firm material top, make things convenient for the technological effect of ejection of compact.

Example 2

Referring to fig. 4 and 5, each group of angle adjusting mechanisms includes a U-shaped groove 14 formed in the rectangular-shaped mounting plate 4, a driving lead screw 16 is rotationally connected in the U-shaped groove 14, a threaded plate 15 is in threaded connection with the circumferential surface of the driving lead screw 16, a first accommodating groove 18 is formed in the bottom end of the material tilting plate 5, a first connecting rod 17 is movably hinged to the upper inner wall of the first accommodating groove 18 through a hinge shaft, and the bottom end of the first connecting rod 17 is movably hinged to the top end of the threaded plate 15 through a hinge shaft.

Referring to fig. 4 and 5,U, a rotating shaft 20 is rotatably connected in the groove 14, synchronizing wheels 19 are fixedly connected to the rotating shaft 20 and the circumferential surfaces of the two driving screws 16, synchronizing belts 22 are connected to the circumferential surfaces of the three synchronizing wheels 19 in a transmission manner, a second driving motor 21 is fixedly connected to the side end of the rectangular mounting plate 4, and the second driving motor 21 is connected to the rotating shaft 20 through a coupling.

Above-mentioned technical scheme can reach and drive pivot 20 through starting second driving motor 21 and rotate, and pivot 20 drives a synchronizing wheel 19 and rotates, and a synchronizing wheel 19 rotates and drives two synchronizing wheels 19 through hold-in range 22 and rotate, and two synchronizing wheels 19 rotate and drive two drive screw 16 and carry out pivoted technical effect.

Referring to fig. 6, 7 and 8, the reciprocating mechanism includes a second groove 23 opened in the material tilting plate 5, two first limiting rods 28 are fixedly connected in the second groove 23, the circumferential surfaces of the two first limiting rods 28 are slidably connected with the same reciprocating plate 24, a chute 25 is formed in the reciprocating plate 24, a slider 26 is slidably connected in the chute 25, a rotating rod 35 is rotatably connected in the second groove 23, the slider 26 is fixedly connected to the side end of the rotating rod 35, a third groove 30 is formed in the material tilting plate 5, a squeezing plate 29 is slidably connected in the third groove 30, the side edge of the material tilting plate 5 contacts with the squeezing plate 29, two second connecting rods 27 are fixedly connected to the side end of the reciprocating plate 24, the two second connecting rods 27 are outwardly movably penetrated into the third groove 30, the squeezing plate 29 is fixedly connected to the side end of the second connecting rods 27, the top end of the material tilting plate 5 is fixedly connected with a third driving motor 32, and the third driving motor 32 is connected with the rotating rod 35 through a coupler.

Referring to fig. 2 and 11, the top end of the filter sieve 8 is fixedly connected with a fence 7, a discharge hole is formed in the side end of the fence 7, two fifth grooves 40 are formed in the side end of the fence 7, a second limiting rod 41 is fixedly connected to one of the fifth grooves 40, a lifting screw rod 42 is rotatably connected to the other fifth groove 40, a baffle 9 is slidably connected to the circumferential surface of the second limiting rod 41, the baffle 9 is in threaded connection with the circumferential surface of the lifting screw rod 42, a fourth driving motor 43 is fixedly connected to the top end of the fence 7, and the fourth driving motor 43 is connected with the lifting screw rod 42 through a coupler.

The technical scheme can achieve the technical effect that the molybdenum ore pulp can be prevented from leaving the filter sieve 8 when moving through the fence 7 arranged at the top end of the filter sieve 8;

further, before the filter sieve 8 inclines, the fourth driving motor 43 is started to drive the lifting screw rod 42 to rotate, the lifting screw rod 42 rotates the upward moving baffle 9 to open the fence 7, and therefore ore pulp on the filter sieve 8 after dewatering is finished can be discharged.

Referring to fig. 1, a reservoir is arranged in the dewatering box body 2 and is arranged at the lower side of the filter sieve 8.

The cistern is used for temporarily depositing the water that the ore pulp takes off, and the molybdenum ore pulp passes through the water that 8 filter screens were crossed, can deposit in the catch basin is built-in, and the accessible sets up the water pump in the outside, uses the pipeline to manage to find time the water in cistern and water pump's water inlet intercommunication, can manage to find time the water in the cistern.

However, as is well known to those skilled in the art, the working principle and wiring method of the first driving motor 13, the second driving motor 21, the third driving motor 32 and the fourth driving motor 43 are common and are conventional means or common knowledge, and thus will not be described herein again, and those skilled in the art can make any choice according to their needs or convenience.

The working principle and the using process of the technical scheme are as follows: after molybdenum ore pulp is poured to the upper side of a filter sieve 8 through a feeding hopper 6, moisture in the pulp can be filtered through the filter sieve 8, a first driving motor 13 is started to drive a half-tooth gear 12 to rotate, the half-tooth gear 12 rotates to drive a half-tooth ring 11 to reciprocate, the half-tooth ring 11 reciprocates to drive a dewatering box body 2 and the filter sieve 8 to reciprocate, the molybdenum ore pulp in the filter sieve 8 can move in the filter sieve 8 under the action of inertia, the pulp in the filter sieve 8 moves along with the filter sieve 8 to prevent the pulp from being solidified, meanwhile, the filtering of water in the pulp can be accelerated, after the molybdenum ore pulp is dewatered, the dewatered pulp needs to be discharged, a second driving motor 21 is started to drive a rotating shaft 20 to rotate, the rotating shaft 20 drives a synchronizing wheel 19 to rotate, one synchronizing wheel 19 rotates to drive the other two synchronizing wheels 19 to rotate through a synchronous belt 22, the other two synchronizing wheels 19 rotate to drive two driving screw rods 16 to rotate, the two driving screw rods 16 rotate to drive two thread plates 15 to move in position, the two thread plates 15 move in position to drive the bottom end of a first connecting rod 17 to move in position, one end of the first connecting rod 17 moves in position to drive the other end of the first connecting rod 17 to move in position, so that an inclined material plate 5 and a filter screen 8 are driven to perform angle adjustment, the filter screen 8 can perform inclined material discharge, a fourth driving motor 43 is started to drive a lifting screw rod 42 to rotate, the lifting screw rod 42 rotates to move an upward moving baffle 9 to open a fence 7, so that ore pulp after dewatering on the filter screen 8 can be discharged, a rotating rod 35 is driven to rotate by starting a third driving motor 32, and the rotating rod 35 rotates to drive a sliding block 26 to perform circular motion, when the sliding block 26 moves circularly, the sliding block 26 slides in the sliding groove 25, but the sliding block 26 does not slide in the sliding groove 25, the reciprocating plate 24 which can move does reciprocating linear motion on the circumferential surface of the first limiting rod 28, the reciprocating plate 24 performs reciprocating linear motion and drives the extrusion plate 29 to perform reciprocating linear motion through the two second connecting rods 27, when the extrusion plate 29 moves towards the filter sieve 8, the bottom edge of the filter sieve 8 is extruded through the inclined surface of the extrusion plate 29, so that the filter sieve 8 is extruded to rotate slightly, the return spring 38 pulls the third connecting rod 37 and the connecting cylinder 36 through the connecting block 31 after the filter sieve 8 is extruded, and after the extrusion plate 29 loses extrusion, the connecting cylinder 36 is pushed by the elasticity of the return spring 38 to reset, and through the reciprocating drive of the reciprocating mechanism, the filter sieve 8 can be overturned, so that a firmer material stained on the filter sieve 8 is overturned, and the discharging is convenient.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a molybdenum ore pulp dewatering device, includes bottom plate (1), its characterized in that: the device comprises a base plate (1), a dehydration box body (2) is arranged at the top end of the base plate (1), a square-shaped mounting plate (4) is fixedly connected in the dehydration box body (2), an inclined plate (5) is arranged at the top end of the square-shaped mounting plate (4), the side end of the inclined plate (5) is hinged with the side end of the square-shaped mounting plate (4) through a hinge shaft, a filter screen (8) for filtering and dehydrating molybdenum ore pulp is rotatably connected in the square-shaped mounting plate (4), and a feeding hopper (6) for feeding is arranged at the top end of the dehydration box body (2);

a group of throwing mechanisms for accelerating the filtering speed of the filter screen (8) is arranged between the bottom plate (1) and the dewatering box body (2);

two groups of angle adjusting mechanisms for inclining the discharging of the filter screen (8) are arranged between the square-shaped mounting plate (4) and the material pouring plate (5);

it carries out the angle modulation to incline to be equipped with a set of reciprocating mechanism between flitch (5) and the filter sieve (8), reciprocating mechanism is used for driving filter sieve (8) and carries out, it is equipped with multiunit elasticity canceling release mechanical system to incline between flitch (5) and the filter sieve (8), elasticity canceling release mechanical system is used for cooperating reciprocating mechanism to toss filter sieve (8) after the slope.

2. The molybdenum ore pulp dewatering device according to claim 1, wherein the throwing mechanism comprises a first groove (10) formed in the bottom plate (1), a half-toothed ring gear (11) is connected in the first groove (10) in a sliding mode, the dewatering box body (2) is fixedly connected to the top end of the half-toothed ring gear (11), a half-toothed gear (12) is connected in the first groove (10) in a rotating mode, a first driving motor (13) is fixedly connected to the bottom end of the bottom plate (1), the first driving motor (13) is connected with the half-toothed gear (12) through a coupler, and the half-toothed gear (12) is in clearance engagement with the half-toothed ring gear (11).

3. The molybdenum ore pulp dewatering device according to claim 2, wherein each group of angle adjusting mechanisms comprises a U-shaped groove (14) formed in the U-shaped mounting plate (4), a driving screw rod (16) is rotatably connected in the U-shaped groove (14), a thread plate (15) is connected to the circumferential surface of the driving screw rod (16) in a threaded manner, a first accommodating groove (18) is formed in the bottom end of the inclined plate (5), a first connecting rod (17) is movably hinged to the upper inner wall of the first accommodating groove (18) through a hinge shaft, and the bottom end of the first connecting rod (17) is movably hinged to the top end of the thread plate (15) through a hinge shaft.

4. The molybdenum ore pulp dewatering device according to claim 3, characterized in that a rotating shaft (20) is rotatably connected in the U-shaped groove (14), the rotating shaft (20) and the circumferential surfaces of the two driving screw rods (16) are fixedly connected with synchronizing wheels (19), the circumferential surfaces of the three synchronizing wheels (19) are respectively connected with a synchronous belt (22) in a transmission manner, the side end of the rectangular mounting plate (4) is fixedly connected with a second driving motor (21), and the second driving motor (21) is connected with the rotating shaft (20) through a coupler.

5. The molybdenum ore pulp dewatering device according to claim 4, wherein the reciprocating mechanism comprises a second groove (23) formed in the inclined plate (5), the second groove (23) is fixedly connected with two first limiting rods (28), the circumferential surfaces of the two first limiting rods (28) are slidably connected with the same reciprocating plate (24), a sliding groove (25) is formed in the reciprocating plate (24), a sliding block (26) is slidably connected in the sliding groove (25), a rotating rod (35) is rotatably connected in the second groove (23), the sliding block (26) is fixedly connected to the side end of the rotating rod (35), a third groove (30) is formed in the inclined plate (5), a pressing plate (29) is slidably connected in the third groove (30), the side edge of the inclined plate (5) is in contact with the pressing plate (29), the side end of the reciprocating plate (24) is fixedly connected with two second connecting rods (27), the two second connecting rods (27) are movably connected to the third groove (30) outwards, the connecting rods (29) are fixedly connected to the second connecting rods (27), and the top end of the pressing plate (29) is fixedly connected with a driving motor (32) and the third connecting rod (32) is connected with the driving motor.

6. The molybdenum ore pulp dewatering device according to claim 1, wherein each group of elastic reset mechanisms comprises a fourth groove (33) formed in the top end of the material pouring plate (5) and a second accommodating groove (34) formed in the bottom end of the filter screen (8), the upper inner wall of the second accommodating groove (34) is movably hinged to a connecting block (31) through a hinge shaft, the lower inner wall of the fourth groove (33) is movably hinged to a connecting cylinder (36) through a hinge shaft, a circular sliding plate (39) is slidably connected to the connecting cylinder (36), a third connecting rod (37) is fixedly connected to the top end of the circular sliding plate (39), the third connecting rod (37) is fixedly connected to the bottom end of the connecting block (31), a reset spring (38) is fixedly connected to the top end of the circular sliding plate (39), the side end of the reset spring (38) is fixedly connected to the connecting cylinder (36), and the reset spring (38) is sleeved on the circumferential surface of the third connecting rod (37).

7. The molybdenum ore pulp dewatering device according to claim 1, wherein a rail (7) is fixedly connected to the top end of the filter screen (8), a discharge port is formed in the side end of the rail (7), two fifth grooves (40) are formed in the side end of the rail (7), one of the fifth grooves (40) is fixedly connected with a second limiting rod (41), the other fifth groove (40) is rotatably connected with a lifting screw rod (42), a baffle plate (9) is slidably connected to the circumferential surface of the second limiting rod (41), the baffle plate (9) is in threaded connection with the circumferential surface of the lifting screw rod (42), a fourth driving motor (43) is fixedly connected to the top end of the rail (7), and the fourth driving motor (43) is connected with the lifting screw rod (42) through a coupler.

8. The molybdenum ore pulp dewatering device according to any one of claims 1-7, characterized in that a reservoir is provided in the dewatering box (2) and is provided on the underside of the filter screen (8).