CN112076503A

CN112076503A - Mud concentration tank froth cleaning device

Info

Publication number: CN112076503A
Application number: CN202010761046.0A
Authority: CN
Inventors: 谢威; 王兵杰
Original assignee: Xinxing Ductile Iron Pipes Co Ltd
Current assignee: Xinxing Ductile Iron Pipes Co Ltd
Priority date: 2020-07-31
Filing date: 2020-07-31
Publication date: 2020-12-15
Anticipated expiration: 2040-07-31
Also published as: CN112076503B

Abstract

The invention provides a floating foam cleaning device for a slurry concentration tank, which belongs to the technical field of cement slurry treatment and comprises a leakage hopper, a feeding pipe, a negative pressure pipe and an adjusting mechanism; the large-caliber end of the leakage hopper is coplanar with the liquid level of the cement slurry, and the small-caliber end is submerged into the cement slurry; the feeding end of the blanking pipe is communicated with the small-caliber end of the leakage hopper, and the discharging end of the blanking pipe penetrates through the side wall of the concentration tank; one end of the negative pressure pipe is communicated with the air blower, the other end of the negative pressure pipe is communicated with the filter press, and the side wall of the negative pressure pipe is communicated with the discharge end of the discharging pipe; the adjusting mechanism is connected with the leakage hopper and is used for adjusting the position of the leakage hopper in the concentration tank. According to the device for cleaning the floating foam of the slurry concentration tank, the floating foam in the leakage hopper is sucked into the negative pressure pipe through the discharge pipe and enters the filter press under the driving of the airflow in the negative pressure pipe, the floating foam is removed quickly, the retention time of the floating foam above the liquid level of cement slurry is reduced, the floating foam is prevented from being hardened in the concentration pipe, and supernatant fluid layered by the cement slurry can smoothly flow out of an overflow port of the concentration tank.

Description

Mud concentration tank froth cleaning device

Technical Field

The invention belongs to the technical field of cement slurry treatment, and particularly relates to a foam cleaning device for a slurry concentration tank.

Background

The inner wall of the centrifugal nodular cast iron pipe is anticorrosive by adopting a cement lining, the cement lining is mainly used for tightly attaching cement to the inner wall in a centrifugal mode, and a small amount of cement paste with activity is generated in the process; the cement lining is cured by steam to ensure that the cement reaches a certain strength, and because the cement lining needs to be smooth and flat, a water mill is needed, and a large amount of cement paste without activity is generated in the water mill process; the cement slurry with activity generated in the centrifugal process and the cement slurry without activity generated in the water grinding process can not be directly discharged, and needs to be subjected to harmless treatment.

In the cement slurry treatment process, the cement slurry is discharged into a concentration tank for solid-liquid separation, separated supernatant is independently discharged or secondarily used, precipitates enter a filter press for filter pressing, and finally, the filter-pressed solids are subjected to harmless treatment; when the cement paste is discharged into a concentration tank, a layer of floating foam is formed on the surface, the floating foam is poor in flowability and not easy to clean, the floating foam is easy to harden and solidify after being accumulated for a long time, an overflow port of supernatant is blocked, and the difficulty in later cleaning is high.

Disclosure of Invention

The invention aims to provide a floating foam cleaning device for a slurry concentration tank, and aims to solve the technical problem that floating foam generated in the slurry concentration tank is difficult to clean.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a froth cleaning device of a slurry concentration tank, which comprises a leakage hopper, a discharge pipe, a negative pressure pipe and an adjusting mechanism; the leakage hopper is arranged in the concentration tank, the large-caliber end is coplanar with the liquid level of the cement paste, and the small-caliber end is immersed in the cement paste; the feeding end of the discharging pipe is communicated with the small-caliber end of the leakage hopper, and the discharging end of the discharging pipe penetrates through the side wall of the concentration tank; one end of the negative pressure pipe is communicated with the air blower, the other end of the negative pressure pipe is communicated with the filter press, and the side wall of the negative pressure pipe is communicated with the discharge end of the blanking pipe; the adjusting mechanism is used for being arranged in the concentrating tank, is connected with the leakage hopper and is used for adjusting the position of the leakage hopper in the concentrating tank.

As another embodiment of this application, the lateral wall of negative pressure pipe is equipped with the branch pipe, the branch pipe to negative pressure pipe with the link slope of air-blower, one end with the lateral wall intercommunication of negative pressure pipe, the other end with the discharge end intercommunication of unloading pipe, be equipped with the valve on the branch pipe.

As another embodiment of the present application, the adjusting mechanism includes a vertical rail, a horizontal rail, a translation trolley, a first driving mechanism and a second driving mechanism; the two vertical rails are vertically arranged inside the concentration tank and are arranged at intervals; the transverse rails are horizontally arranged inside the concentration tank, and two ends of the transverse rails are respectively connected with the two vertical rails in a sliding manner; the translation trolley is arranged on the transverse track in a sliding manner and is connected with the hopper; the first driving mechanism is arranged on the vertical track, is connected with the transverse track and is used for driving the transverse track to move along the vertical track; the second driving mechanism is arranged on the transverse rail, connected with the translation trolley and used for driving the translation trolley to move along the transverse rail.

As another embodiment of the present application, the first driving mechanism includes a first driving motor, a first sheave, a second sheave, and a first traction rope; the first driving motor is arranged at one end of the vertical track; the first rope pulley is coaxially connected with an output shaft of the first driving motor; the second rope pulley is arranged at the other end of the vertical track; one end of the first traction rope is connected with the transverse track, and the other end of the first traction rope is connected with the transverse track after respectively bypassing the first rope wheel and the second rope wheel.

As another embodiment of the present application, the first driving mechanism includes a first sheave, a first traction rope, a first reel, and a first driving motor; the two first rope wheels are respectively arranged at two ends of the vertical track; one end of a first traction rope is connected with the transverse track, and the other end of the first traction rope is connected with the transverse track after respectively bypassing the two first rope wheels; the first reel is arranged on the vertical rail, and the first traction rope is wound on the first reel for a plurality of turns; the first driving motor is arranged on the vertical track, and an output shaft is connected with the first reel in a coaxial mode.

As another embodiment of the present application, a surface of the first reel is provided with a slip prevention structure.

As another embodiment of the present application, the second driving mechanism includes a second driving motor, a third sheave, a fourth sheave, and a second traction rope; the second driving motor is arranged at one end of the transverse track; the third rope wheel is coaxially connected with an output shaft of the second driving motor; the fourth rope pulley is arranged at the other end of the transverse track; one end of the second traction rope is connected with the translation trolley, and the other end of the second traction rope is connected with the translation trolley after respectively bypassing the third rope wheel and the fourth rope wheel.

As another embodiment of the present application, the second driving mechanism includes a third sheave, a second traction rope, a second reel, and a second driving motor; the two third rope wheels are respectively arranged at two ends of the transverse track; one end of the second traction rope is connected with the translation trolley, and the other end of the second traction rope is connected with the translation trolley after respectively bypassing the two third rope wheels; the second reel is arranged on the transverse rail, and the second traction rope winds a plurality of turns on the second reel; the second driving motor is arranged on the transverse rail, and an output shaft is coaxially connected with the second reel.

As another embodiment of the present application, a through hole for the feeding pipe to pass through is formed in a side wall of the concentration tank; the adjusting mechanism comprises an arc-shaped track, a walking trolley and a floating plate; the arc-shaped track is vertically arranged and takes the center of the through hole as the circle center; the walking trolley is arranged on the arc-shaped track; the floating plate is horizontally arranged on the liquid level of the cement paste, is hinged with the walking trolley, is connected with the leakage hopper and is used for keeping the large-caliber end of the leakage hopper to be coplanar with the liquid level of the cement paste.

As another embodiment of the present application, the outer wall of the concentration tank is provided with a liquid level meter for monitoring the liquid level in the concentration tank.

The floating foam cleaning device for the slurry concentration tank has the beneficial effects that: compared with the prior art, the floating foam cleaning device for the slurry concentration tank has the advantages that the large-caliber end of the leakage hopper is coplanar with the liquid level of cement slurry, the leakage hopper is communicated with the negative pressure pipe through the discharging pipe, air in the negative pressure pipe flows at an accelerated speed after the air blower is started to form negative pressure, floating foam above the liquid level of the cement slurry is sucked into the leakage hopper, the floating foam in the leakage hopper is sucked into the negative pressure pipe through the discharging pipe and enters the filter press under the driving of air flow in the negative pressure pipe, the floating foam removing speed is high, the detention time of the floating foam above the liquid level of the cement slurry is reduced, the floating foam is prevented from being hardened in the concentration pipe, and supernatant obtained by layering the cement slurry can smoothly flow out of an overflow; the adjusting mechanism is used for adjusting the position of the leakage hopper in the concentration tank, and when the liquid level of the cement paste descends, the large-caliber end of the leakage hopper is always ensured to be always coplanar with the liquid level of the cement paste.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a froth cleaning apparatus for a slurry concentration tank according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a froth cleaning apparatus for a slurry concentration tank according to another embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an adjusting mechanism according to an embodiment of the present invention;

FIG. 4 is a sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic structural diagram of an adjustment mechanism according to yet another embodiment of the present invention;

in the figure: 1. a hopper; 2. a discharging pipe; 3. a negative pressure tube; 4. a blower; 5. a filter press; 6. an adjustment mechanism; 61. a vertical rail; 611. a first sheave; 612. a second sheave; 613. a first pull cord; 614. A first reel; 615. a first drive motor; 62. a transverse rail; 621. a third sheave; 622. a fourth sheave; 623. a second pull cord; 63. a walking trolley; 64. an arc-shaped track; 65. a floating plate; 7. a branch pipe; 8. a valve; 9. a return pipe.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the froth cleaning apparatus for a slurry concentration tank according to the present invention will now be described. The mud concentration tank froth cleaning device comprises a leakage hopper 1, a blanking pipe 2, a negative pressure pipe 3 and an adjusting mechanism 6; the leakage hopper 1 is arranged in the concentration tank, the large-caliber end is coplanar with the liquid level of cement slurry, and the small-caliber end is immersed in the cement slurry; the feeding end of the blanking pipe 2 is communicated with the small-caliber end of the leakage hopper 1, and the discharging end penetrates through the side wall of the concentration tank; one end of the negative pressure pipe 3 is communicated with the blower 4, the other end is communicated with the filter press 5, and the side wall is communicated with the discharge end of the blanking pipe 2; the adjusting mechanism 6 is arranged in the concentrating tank, is connected with the leakage hopper 1 and is used for adjusting the position of the leakage hopper 1 in the concentrating tank.

Compared with the prior art, the floating foam cleaning device for the slurry concentration tank, provided by the invention, has the advantages that the large-caliber end of the leakage hopper 1 is coplanar with the liquid level of cement slurry, the leakage hopper 1 is communicated with the negative pressure pipe 3 through the discharging pipe 2, after the air blower 4 is started, air in the negative pressure pipe 3 accelerates to flow to form negative pressure, floating foam above the liquid level of the cement slurry is sucked into the leakage hopper 1, the floating foam in the leakage hopper 1 is sucked into the negative pressure pipe 3 through the discharging pipe 2, and enters the filter press 5 under the driving of air flow in the negative pressure pipe 3, the floating foam removing speed is high, the retention time of the floating foam above the liquid level of the cement slurry is reduced, the cement slurry is prevented from being hardened in the concentration pipe, and layered supernatant can smoothly flow out from an overflow port of the; the adjusting mechanism 6 is used for adjusting the position of the leakage hopper 1 in the concentration tank, and when the liquid level of the cement paste descends, the large-caliber end of the leakage hopper 1 is always ensured to be always coplanar with the liquid level of the cement paste.

As a specific embodiment of the device for cleaning floating foam in the slurry concentration tank provided by the invention, please refer to fig. 1, a branch pipe 7 is arranged on the side wall of a negative pressure pipe 3, the branch pipe 7 is inclined towards the connecting end of the negative pressure pipe 3 and an air blower 4, and forms an acute angle with the negative pressure pipe 3, one end of the branch pipe 7 is connected to the side wall of the negative pressure pipe 3 and is communicated with the inside of the negative pressure pipe 3, and the other end is communicated with the discharging end of a discharging pipe 2, when the floating foam enters the negative pressure pipe 3 from the branch pipe 7, the floating foam enters along the air flowing direction of the negative pressure pipe 3, the flow speed of the floating foam in the negative pressure pipe 3 is accelerated, the floating foam rapidly enters a filter press 5 along with air flow, the flowing time of the floating foam in the negative pressure pipe;

the branch pipe 7 is provided with a valve 8, when froth is cleaned, the valve 8 is opened, and the blanking pipe 2 and the negative pressure pipe 3 form a passage; after the froth cleaning is finished, the air blower 4 is closed, the air flow in the negative pressure pipe 3 stops flowing, the valve 8 is closed, and cement paste in the concentration tank is prevented from entering the negative pressure pipe 3 and being attached to the inner wall of the negative pressure pipe 3 to block the negative pressure pipe 3.

As a specific implementation manner of the embodiment of the present invention, referring to fig. 1 to 4, the adjusting mechanism 6 includes a vertical rail 61, a horizontal rail 62, a translation trolley, a first driving mechanism and a second driving mechanism; the two vertical rails 61 are vertically arranged inside the concentration tank, and the two vertical rails 61 are arranged at intervals; the transverse rail 62 is horizontally arranged inside the concentration tank, and two ends of the transverse rail are respectively connected with the two vertical rails 61 in a sliding manner; the translation trolley is arranged on the transverse rail 62 in a sliding manner and is connected with the hopper 1, so that the hopper 1 can be driven to travel along the transverse rail 62;

the first driving mechanism is arranged on the vertical rail 61, connected with the transverse rail 62 and used for driving the transverse rail 62 to move along the vertical rail 61; it should be noted that the two vertical rails 61 are both provided with a first driving mechanism, and the first driving mechanisms on the two vertical rails 61 operate synchronously, so that the horizontal rail 62 is always kept in a horizontal state when walking along the vertical rails 61;

the second driving mechanism is arranged on the transverse rail 62, is connected with the translation trolley and is used for driving the translation trolley to move along the transverse rail 62; the traveling trolley 63 freely moves along the transverse rail 62, and the transverse rail 62 freely moves along the vertical rail 61, so that the traveling trolley 63 freely moves in a vertical plane formed by the transverse rail 62 and the vertical rail 61;

connect the unloading pipe 2 of hopper 1 and negative pressure pipe 3 and choose the hose for use, and pile up in the hose in order to prevent floating the foam, the hose can not have obvious bending in concentrated jar, so need control the movement track of hopper 1 in concentrated jar and be the arc, the arc movement track is the centre of a circle with the hole of concentrated jar's confession unloading pipe 2 and pass, when hopper 1 moves along the arc track, both can adjust the height in concentrated jar, guarantee again that unloading pipe 2 unloading is smooth and easy.

As a specific implementation manner of the embodiment of the present invention, referring to fig. 3 and 4, the first driving mechanism includes a first driving motor 615, a first sheave 611, a second sheave 612, and a first traction rope 613; the first driving motor 615 is disposed at one end of the vertical rail 61; the first sheave 611 is coaxially connected with an output shaft of the first driving motor 615; the second rope pulley 612 is arranged at the other end of the vertical track 61; one end of the first traction rope 613 is connected to the transverse rail 62, and the other end thereof is connected to the transverse rail 62 after passing around the first sheave 611 and the second sheave 612, respectively, and the first traction rope 613 is in a tensioned state; the first driving motor 615 drives the first rope pulley 611 to rotate, the first rope pulley 611 drives the first traction rope 613 to move along the track formed by the first rope pulley 611 and the second rope pulley 612, the first traction rope 613 pulls the transverse track 62 to move along the vertical track 61, the motor turns differently, and the moving direction of the transverse track 62 along the vertical track 61 is different.

In this embodiment, the surfaces of the first sheave 611 and the second sheave 612 are provided with an arc-shaped groove for accommodating the first traction rope 613, and the first traction rope 613 is embedded in the arc-shaped groove to prevent the first traction rope 613 from sliding off the first sheave 611 and the second sheave 612;

the surfaces of the first sheave 611 and the second sheave 612 are provided with anti-slip patterns to increase friction with the first traction rope 613 and prevent the first traction rope 613 from slipping.

As a specific implementation manner of the embodiment of the present invention, referring to fig. 5, the first driving mechanism includes a first rope pulley 611, a first traction rope 613, a first reel 614 and a first driving motor 615; two first rope wheels 611 are arranged at two ends of the vertical rail 61 respectively; one end of the first traction rope 613 is connected to the transverse rail 62, and the other end of the first traction rope 613 is connected to the transverse rail 62 after passing around the two first rope pulleys 611, respectively, and the first traction rope 613 is in a tensioned state; the first reel 614 is arranged on the vertical rail 61, and the first traction rope 613 is wound on the first reel 614 for a plurality of turns; the first driving motor 615 is disposed on the vertical rail 61, the output shaft is coaxially connected to the first reel 614, the first driving motor 615 drives the first reel 614 to move, the first reel 614 drives the first pulling rope 613 to move, and the first pulling rope 613 pulls the transverse rail 62 to move along the vertical rail 61.

As a specific implementation manner of the embodiment of the present invention, the surface of the first reel 614 is provided with an anti-slip structure to prevent the first traction rope 613 from slipping on the first reel 614, and after slipping, the traction effect of the first reel 614 on the first traction rope 613 is lost.

In this embodiment, the anti-slip pattern is a granular structure disposed on the surface of the first reel 614, and after the first traction rope 613 is tightly wound on the surface of the first reel 614, the granular structure is embedded inside the first traction rope 613 to prevent slipping.

As a specific implementation manner of the embodiment of the present invention, referring to fig. 3 and 4, the second driving mechanism includes a second driving motor, a third rope pulley 621, a fourth rope pulley 622, and a second traction rope 623; the second driving motor is arranged at one end of the transverse rail 62; the third rope pulley 621 is coaxially connected with an output shaft of the second driving motor; a fourth sheave 622 is provided at the other end of the transverse rail 62; one end of the second traction rope 623 is connected with the translation trolley, the other end of the second traction rope 623 bypasses the third rope wheel 621 and the fourth rope wheel 622 and then is connected with the translation trolley, the second driving motor drives the third rope wheel 621 to rotate, and the translation trolley is pulled to move along the transverse track 62 through the second traction rope 623.

In this embodiment, the surfaces of the third and

fourth sheaves

621 and 622 are provided with arc-shaped grooves for receiving the second traction ropes 623, and the surfaces of the arc-shaped grooves are provided with anti-slip patterns.

As a specific implementation manner of the embodiment of the present invention, referring to fig. 5, the second driving mechanism includes a third rope pulley 621, a second traction rope 623, a second reel and a second driving motor; two third rope wheels 621 are respectively arranged at two ends of the transverse track 62; one end of the second traction rope 623 is connected with the translation trolley, and the other end of the second traction rope is connected with the translation trolley after respectively bypassing the two third rope wheels 621; the second reel is arranged on the transverse rail 62, and the second traction rope 623 winds a plurality of turns on the second reel; the second driving motor is arranged on the transverse rail 62, the output shaft is coaxially connected with the second reel, the second driving motor drives the second reel to rotate, the second traction rope 623 is pulled, and the second traction rope 623 pulls the translation trolley to move along the transverse rail 62.

In this embodiment, the surface of the second reel is provided with anti-slip lines.

As a specific implementation manner of the embodiment of the present invention, please refer to fig. 2, a through hole for the feeding pipe 2 to pass through is formed on a side wall of the concentration tank; the adjusting mechanism 6 comprises an arc-shaped track 64, a walking trolley 63 and a floating plate 65; the arc-shaped track 64 is vertically arranged and takes the center of the through hole as the center of a circle; the walking trolley 63 is arranged on the arc-shaped track 64; the floating plate 65 is horizontally arranged on the liquid level of the cement paste, is hinged with the walking trolley 63, is connected with the leakage hopper 1 and is used for keeping the large-caliber end of the leakage hopper 1 to be coplanar with the liquid level of the cement paste.

As a specific implementation manner of the embodiment of the present invention, a level meter is disposed on the outer wall of the concentration tank for monitoring the liquid level in the concentration tank, and when the liquid level is lower than the inlet height of the return pipe 9, cement slurry is added into the concentration tank.

In this embodiment, when adding the cement paste, the hopper 1 is lifted to the top by the adjusting mechanism 6, so as to prevent the cement paste from entering the hopper 1.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. Mud concentrated jar froth cleaning device, its characterized in that includes:

the leakage hopper is arranged in the concentration tank, the large-caliber end is coplanar with the liquid level of the cement paste, and the small-caliber end is immersed in the cement paste;

the feeding end of the discharging pipe is communicated with the small-caliber end of the leakage hopper, and the discharging end of the discharging pipe penetrates through the side wall of the concentration tank;

one end of the negative pressure pipe is communicated with the air blower, the other end of the negative pressure pipe is communicated with the filter press, and the side wall of the negative pressure pipe is communicated with the discharge end of the blanking pipe;

and the adjusting mechanism is arranged in the concentration tank, connected with the leakage hopper and used for adjusting the position of the leakage hopper in the concentration tank.

2. The froth cleaning apparatus of claim 1, wherein the side wall of the negative pressure pipe is provided with a branch pipe, the branch pipe is inclined toward the connection end of the negative pressure pipe with the blower, one end of the branch pipe is communicated with the side wall of the negative pressure pipe, the other end of the branch pipe is communicated with the discharge end of the discharge pipe, and the branch pipe is provided with a valve.

3. The mud thickening tank froth cleaning apparatus of claim 1, wherein the adjustment mechanism comprises:

the two vertical rails are vertically arranged inside the concentration tank and are arranged at intervals;

the transverse rails are horizontally arranged inside the concentration tank, and two ends of the transverse rails are respectively connected with the two vertical rails in a sliding manner;

the translation trolley is arranged on the transverse track in a sliding manner and is connected with the leakage hopper;

the first driving mechanism is arranged on the vertical rail, is connected with the transverse rail and is used for driving the transverse rail to move along the vertical rail;

and the second driving mechanism is arranged on the transverse track, is connected with the translation trolley and is used for driving the translation trolley to move along the transverse track.

4. The mud thickening tank froth cleaning apparatus of claim 3, wherein the first drive mechanism comprises:

the first driving motor is arranged at one end of the vertical track;

a first sheave coaxially connected with an output shaft of the first drive motor;

the second rope pulley is arranged at the other end of the vertical track;

one end of the first traction rope is connected with the transverse track, and the other end of the first traction rope is connected with the transverse track after respectively bypassing the first rope wheel and the second rope wheel.

5. The mud thickening tank froth cleaning apparatus of claim 3, wherein the first drive mechanism comprises:

the two first rope wheels are respectively arranged at two ends of the vertical track;

one end of the first traction rope is connected with the transverse track, and the other end of the first traction rope is connected with the transverse track after respectively winding the two first rope wheels;

the first reel is arranged on the vertical rail, and the first traction rope winds a plurality of turns on the first reel;

and the first driving motor is arranged on the vertical track, and an output shaft is connected with the first reel in a coaxial mode.

6. The mud thickening tank froth cleaning apparatus of claim 5 wherein the surface of the first roller is provided with an anti-slip structure.

7. The mud thickening tank froth cleaning apparatus of claim 3, wherein the second drive mechanism comprises:

the second driving motor is arranged at one end of the transverse track;

a third sheave coaxially connected with an output shaft of the second drive motor;

the fourth rope pulley is arranged at the other end of the transverse track;

and one end of the second traction rope is connected with the translation trolley, and the other end of the second traction rope is connected with the translation trolley after respectively bypassing the third rope wheel and the fourth rope wheel.

8. The mud thickening tank froth cleaning apparatus of claim 3, wherein the second drive mechanism comprises:

the two third rope wheels are respectively arranged at two ends of the transverse track;

one end of the second traction rope is connected with the translation trolley, and the other end of the second traction rope is connected with the translation trolley after respectively bypassing the two third rope wheels;

the second reel is arranged on the transverse rail, and the second traction rope winds a plurality of turns on the second reel;

and the second driving motor is arranged on the transverse track, and an output shaft is coaxially connected with the second reel.

9. The mud thickening tank froth cleaning apparatus of any one of claims 1 to 3, wherein a side wall of the thickening tank is provided with a through hole through which the down pipe passes; the adjustment mechanism includes:

the arc-shaped track is vertically arranged and takes the center of the through hole as the circle center;

the walking trolley is arranged on the arc-shaped track;

the floating plate is horizontally arranged on the liquid level of the cement paste, is hinged with the walking trolley, is connected with the leakage hopper and is used for keeping the large-caliber end of the leakage hopper to be coplanar with the liquid level of the cement paste.

10. The mud thickening tank froth cleaning apparatus of claim 1 wherein the outer wall of the thickening tank is provided with a level gauge for monitoring the level of liquid in the thickening tank.