CN204294386U - A kind of mud for the treatment of waste material divides husky machine - Google Patents

Abstract

A kind of mud for the treatment of waste material of the present utility model divides husky machine, comprises feeding assembly, Screen assemblies and material storing box; The damping sheet that described feeding assembly comprises feed pipe, discharge bucket and is located in described discharge bucket, the Way out of described discharge bucket is perpendicular to described feed pipe; One end of described damping sheet is fixed on the inwall of described discharge bucket and downward-sloping, and the other end is suspended in described discharge bucket; Described Screen assemblies comprises is located at elementary sieve nest in described vibrating screen box and secondary sieve nest, cyclone, transferring box, mortar pump and charge tube, described secondary sieve nest is located at the top of described elementary sieve nest, and the mesh size of described elementary sieve nest is greater than the mesh size of described secondary sieve nest; The discharging of described discharge bucket drops on described elementary sieve nest, and the discharging of described vibrating screen box drops on described transferring box.Mud after process can be constructed reuse, ensures quality of mud fluid, reduces environmental pollution, thus solves the difficult problems such as the useless slurry recovery in construction.

Description

A kind of mud for the treatment of waste material divides husky machine

Technical field

The utility model relates to building machinery field, and particularly a kind of mud for the treatment of waste material divides husky machine.

Background technology

Construct at shield machine, construction of diaphragm wall, not only need manufacture enough in punching post and the construction of boring column foundation, suitable mud, also to strengthen the daily management of mud, adjustment, ensure the performance of mud, possess above condition to be also nowhere near, because all use the premium mud of coming of new to need a large amount of high-quality bentonites, fresh water, soda ash, CMC etc., raw material also will utilize machine power to stir synthesis, a large amount of manpower can be consumed, material resources, both add construction and hold cost, also the engineering time can be affected, if and the waste mud produced when constructing is dealt with improperly, construction environment is caused to worsen, increase difficulty of construction, affect construction speed, and can environmental pollution be caused, have a strong impact on resident living environment and quality.

Waste mud is pollutant and a kind of resource, the process of mud, disposes that to combine with recycling be its best outlet.Existing mud purifying device sieves out by thick, the medium sand in waste slurry, and the mud after screening can not be used for constructing backup mud, and sand factor is high, and it is unreasonable to there is design, on-the-spot problem poor for applicability.Process, the disposal of waste mud are not solved completely.

Utility model content

For the problems referred to above, the purpose of this utility model is that proposing a kind of mud for the treatment of waste material divides husky machine, and the mud after process can be constructed reuse, ensures quality of mud fluid, reduces environmental pollution, thus solves the difficult problems such as the useless slurry recovery in construction.

For reaching this object, the utility model by the following technical solutions:

Mud for the treatment of waste material divides a husky machine, involving vibrations screen box and the vibrating motor be fixedly connected with described vibratory sieve; Comprise feeding assembly, Screen assemblies and material storing box;

The damping sheet that described feeding assembly comprises feed pipe, discharge bucket and is located in described discharge bucket, the Way out of described discharge bucket is perpendicular to described feed pipe; One end of described damping sheet is fixed on the inwall of described discharge bucket and downward-sloping, and the other end is suspended in described discharge bucket;

Described Screen assemblies comprises is located at elementary sieve nest in described vibrating screen box and secondary sieve nest, cyclone, transferring box, mortar pump and charge tube, described secondary sieve nest is located at the top of described elementary sieve nest, and the mesh size of described elementary sieve nest is greater than the mesh size of described secondary sieve nest; The discharging of described discharge bucket drops on described elementary sieve nest, and the discharging of described vibrating screen box drops on described transferring box;

Described transferring box is located at immediately below described vibrating screen box and is also communicated with it;

Described cyclone is obliquely installed, and the discharging of described cyclone drops on described secondary sieve nest; Described transferring box is communicated with the charging aperture of described mortar pump, and the discharging opening of described mortar pump is communicated with the feeding mouth of described cyclone by described charge tube; The overfall of described cyclone is communicated with described material storing box.

Further, described elementary sieve nest is all communicated with the hopper for discharge with the front end of secondary sieve nest, and described hopper is fixed on the front end of described vibrating screen box; The both sides of described elementary sieve nest and secondary sieve nest are fixed on the madial wall of described vibrating screen box by briquetting, the height of described briquetting is greater than opposite side.

Further, the angle of described cyclone and vertical direction is greater than 0 ° and is less than 30 °.

Further, be communicated with between described transferring box and described material storing box by communicating pipe, one end of described communicating pipe is provided with floating ball device, and described floating ball device is positioned at described transferring box;

Described floating ball device comprises ball float body, shutoff platform, motion bar, fixed head and tube connector, described communicating pipe and described tube connector are dismountable to be airtightly connected, described ball float body, shutoff platform, motion bar are fixed together successively, and the area of described shutoff platform is greater than the area of described tube connector orifice plane; Be provided with center circle and some ribs in described tube connector, some described ribs are distributed in around described center circle radially, and one end of described rib is fixed on described center circle, and the other end is fixed on the inwall of described tube connector; After described motion bar stretches into described center circle from the lower end of described tube connector, described fixed head is removably fixed on the top of described motion bar, and the length of described fixed head is greater than described center diameter of a circle.

Further, be also provided with the first overflow pipe in described transferring box, the upper orifice of described first overflow pipe exceeds 30 ~ 80mm than the lower port of described tube connector.

Further, the upper port of described first overflow pipe and the distance on described transferring box top are 150 ~ 200mm.

Further, be provided with the second overflow pipe in described material storing box, the lower end of described second overflow pipe is communicated with described transferring box.

Further, the upper port of described second overflow pipe and the distance at described material storing box top are 100 ~ 200mm.

Further, the both sides of described vibrating screen box are provided with damping assembly, described damping assembly comprises shock-absorbing spring, upper bracket of the spring, spring lower support, spring face shield and holder, described shock-absorbing spring is fixed between described upper bracket of the spring and described spring lower support, described spring face shield is fixed on described shock-absorbing spring side, and its lower end and described spring lower support are fixedly connected; Described vibration component is arranged on the side of described vibrating screen box respectively by described upper bracket of the spring and described holder.

Further, be provided with regulating block between described spring lower support and described holder, described regulating block is bolted on described spring lower support and described holder.

The beneficial effects of the utility model: by the equipment in the technical program, effectively can prevent transferring box and slurry-storing box from unrestrainedly starch, excessively to starch, prevent pump depletion, realize the continuous operation of equipment, the reuse and the mud after process can be constructed, ensure quality of mud fluid, reduce environmental pollution, thus solve the difficult problems such as the useless slurry recovery in construction.

Accompanying drawing explanation

Fig. 1 is the structural representation of an embodiment of the present utility model;

Fig. 2 is the side view of an embodiment of the present utility model;

Fig. 3 is the scheme of installation of feed pipe and feed hopper in the utility model;

Fig. 4 is the sectional view of B-B in Fig. 3;

Fig. 5 is the scheme of installation of cyclone and feeding assembly in the utility model;

Fig. 6 is the scheme of installation vibrating sieve nest inside in the utility model;

Fig. 7 is the structural representation of vibrating screen box in the utility model;

Fig. 8 is the outside schematic diagram of floating ball component in the utility model;

Fig. 9 is the sectional view of floating ball component in the utility model;

Figure 10 is the internal structure schematic diagram of tube connector in the utility model;

Figure 11 is the structural representation of damping assembly in the utility model.

Wherein: vibrating screen box 1, vibrating motor 2, material storing box 5;

Feeding assembly 300, feed pipe 6, discharge bucket 7, damping sheet 8;

Elementary sieve nest 9, secondary sieve nest 10, cyclone 11, transferring box 12, mortar pump 13, charge tube 14;

Cyclone support 15, hopper 16, briquetting 17, communicating pipe 18;

Floating ball device 1900, ball float body 20, shutoff platform 21, motion bar 22, fixed head 23; Center circle 2401, rib 2402, tube connector 2403;

First overflow pipe 25, second overflow pipe 26;

Damping assembly 2700, shock-absorbing spring 28, upper bracket of the spring 29, spring lower support 30, spring face shield 31, holder 32, regulating block 33; Gap position 34.

Detailed description of the invention

The technical solution of the utility model is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.

As shown in Figures 1 and 2 (two circles in Fig. 1 are the local structural graph of device inside), a kind of mud for the treatment of waste material divides husky machine, involving vibrations screen box 1 and the vibrating motor 2 be fixedly connected with described vibrating screen box 1; Comprise feeding assembly 300, Screen assemblies and material storing box 5;

As shown in Fig. 3, Fig. 4 and Fig. 5, described feeding assembly 300 comprises feed pipe 6, the discharge bucket 7 that arranges along described feed pipe 6 length direction and the damping sheet 8 be located in described discharge bucket 7, and one end of described discharge bucket 7 is communicated with described feed pipe 6; One end of described damping sheet 8 is fixed on the inwall of described discharge bucket 7 and downward-sloping, and the other end is suspended in described discharge bucket 7;

As shown in FIG. 6 and 7, described Screen assemblies comprises is located at elementary sieve nest 9 in described vibrating screen box 1 and secondary sieve nest 10, cyclone 11, transferring box 12, mortar pump 13 and charge tube 14, described secondary sieve nest 10 is located at the top of described elementary sieve nest 9, and the mesh size of described elementary sieve nest 9 is greater than the mesh size of described secondary sieve nest 10, two described vibrating motors 2 and the angle between horizontally disposed described elementary sieve nest 9 and secondary sieve nest 10 are 45 °; The length of described secondary sieve nest 10 is less than the length of described elementary sieve nest 9, and when both install, one end is concordant, and the other end staggers and draws gap position 34, and described discharge bucket 7 is arranged on described gap position 34 and makes its other end export the described elementary sieve nest 9 of docking;

Described transferring box 12 is located at immediately below described vibrating screen box 1 and is also communicated with it;

Described cyclone 11 tilts to be located at described secondary sieve nest 10 side by cyclone support 15, makes the underflow opening of described cyclone 11 dock described secondary sieve nest 10; Described transferring box 12 is communicated with the charging aperture of described mortar pump 13, and the discharging opening of described mortar pump 13 is communicated with the feeding mouth of described cyclone 11 by described charge tube 14; The overfall of described cyclone 11 is communicated with described material storing box 5.

Vibrating motor 2 drives vibrating screen box 1, and the extraneous pump housing need deliver into equipment by feeding assembly 300 by material to be processed continuously, and material is first sieved for the first time by the elementary sieve nest 9 in vibrating screen box 1; After first screening, material falls into the transferring box 12 be communicated with vibrating screen box 1; Material in transferring box 12 is sent in cyclone 11 by charge tube 14 by mortar pump 13, cyclone 11 carries out regrading by centrifugal sedimentation effect to material, sand content in mud after screening is low, is transported in described material storing box 5 for construction reuse from the overfall of cyclone 11; Most crude particle after the underflow opening sorting of cyclone 11, sifts out through secondary sieve nest 10.Cyclone 11 tilts to be located at described secondary sieve nest 10 side by cyclone support 15, improves its stability; And cyclone 11 is obliquely installed, cyclone carries out Separation of Solid and Liquid by centrifugal force, and the particle that quality is large moves to cyclone wall, along the accelerated motion downwards twist of cyclone conical section barrel, is discharged by the underflow opening of its bottom; The little particle of quality is under the effect of axial velocity field force, and to cyclone central motion, the overfall through cyclone top is discharged; During processing waste material, moisture is the particle that quality is little, and the overfall through cyclone 11 is discharged, and decreases in the underflow opening of cyclone 11 water content of discharging in sand material; The water-containing rate of discharging is low, is deposited in water on the ground and can have oozed soon, just can pull away with sand-transport truck in the short time, keep the clean of job site; And if the moisture content of sand is high, the amount of sand-transport truck dress can reduce, and increases freight; And in transport process, water can spill road surface, so such design efficiently solves mud directly transport outward the problem such as a series of potential safety hazards, environmental protection spilling initiation; Mud is after cyclone 7 centrifugal sedimentation effect, overfall can obtain purer mud, the object that construction is recycled can be reached, if setting angle is larger, underflow opening discharge has some setbacks, also overflow can be caused to run thick, so preferably, described cyclone 7 is greater than 0 ° with the angle of vertical direction and is less than 30 °.

In the technical program, utilize two vibrating motors 2 arranged in 45° angle with horizontally disposed described elementary sieve nest 10 (secondary sieve nest 9) as the vibration source of vibrating screen box 1, when two vibrating motors 2 do synchronous backward rotation, the exciting force that the exciting force that its eccentric block produces is being parallel to electrical axis direction is cancelled out each other, very large making a concerted effort is superposed at the exciting force being vertically to electrical axis direction, and be delivered to whole elementary sieve nest 9 and secondary sieve nest 10, thus make the material on sieve nest to discharging opening (left side) the direction jumping of vibrating screen box 1, the material being less than sieve aperture falls lower floor by sieve aperture, flow out through discharging opening after vertical jump in succession, reach the object of stock grading screening.

During charging, the extraneous pump housing transports material on elementary sieve nest 9, and material falls the moment of compass screen surface to the impulsive force of sieve nest generation some strength, impacts for a long time, sieve nest is easily damaged, need to change in time, affect production efficiency place same on sieve nest.In the technical program, by feed pipe 6 pan feeding, length direction along feed pipe 6 arranges the discharge bucket 7 be communicated with it, and in the present embodiment, discharge bucket 7 is four sides frame structure, material flows to elementary sieve nest 9 from one end of discharge bucket 7, the cross section of fluid is the length direction that area is far longer than feed pipe 6 mouth of pipe area of section, then in the unit interval, the same extraneous pump housing within the unit interval pump if material is to the pressure on elementary sieve nest 9 surface, than directly that feed pipe 6 mouth of pipe is little facing to the pressure produced during elementary sieve nest 9 feed, protect elementary sieve nest, extend its service life, reduce cost, improve efficiency.And discharge bucket 7 is provided with damping sheet 8, material flows out in the process of discharge bucket 7, collide with damping sheet 8, then some damping sheets 8 are to being played the effect obstructing and cushion by the material pumped into fast, with reduce material impact when not arranging damping sheet 8 to the initial velocity during compass screen surface of elementary sieve nest 9, protect elementary sieve nest further; And damping sheet 8 is obliquely installed, avoids material and vertically strike on damping sheet 8, do not have the component in other directions during the effect of vertically clashing into, destructive power is maximum, so being obliquely installed is that one to damping sheet 8 is protected, extends its service life.

The length of described secondary sieve nest 10 is less than the length of described elementary sieve nest 9, when both install, one end is concordant, the other end staggers and draws breach position 34, described discharge bucket 7 is arranged on described breach position 34 and makes its other end export the described elementary sieve nest 9 of docking, discharge bucket 7 is just arranged on described gap position 34 and realizes its function, make the easy for installation of vibrating screen box 1 and feeding assembly 300, compact conformation, save space.

Described elementary sieve nest 9 is all communicated with the hopper 16 for discharge with the front end of secondary sieve nest 10, and described hopper 16 is fixed on the front end of described vibrating screen box 1; The both sides of described elementary sieve nest 9 and secondary sieve nest 10 are fixed on the madial wall of described vibrating screen box 1 by briquetting 17, near described hopper 16 side, the height of described briquetting 17 is greater than opposite side, low early and high after briquetting 17 is pressed more tight when the work of vibration, effectively can prevent the loosening of described elementary sieve nest 9 and secondary sieve nest 10.

Mud is after the elementary sieve nest 9 of vibrating screen box 1 and twice screening of secondary sieve nest 10, the sandstone that can not recycle of discharging, pass to the effect of the exciting force of sieve nest at vibrating motor 2 under, vertical jump in succession, to the front end of described vibration sieve nest 1, is discharged outside casing by the hopper 16 be communicated with it; Hopper 16 is in the downward-sloping front end being fixed on vibrating screen box 1, namely be also the front end of elementary sieve nest and secondary sieve nest, serve the effect that drainage is discharged material on the one hand, on the other hand, on direction forward, limit elementary sieve nest and secondary sieve nest owing to vibrating issuable movement, ensure that the stability of equipment overall structure, improve screening efficiency.

Preferably, described cyclone 7 is greater than 0 ° with the angle of vertical direction and is less than 30 °, namely cyclone 7 lower port towards described transferring box vertical direction tilt be greater than 0 ° and be less than 30 °, arrange like this, mud is after cyclone 7 centrifugal sedimentation effect, underflow opening discharging water content is very low, overfall can obtain purer mud, can reach the object that construction is recycled, if setting angle is larger, underflow opening discharge has some setbacks, and overflow also can be caused to run thick.

As shown in Fig. 8, Fig. 9 and Figure 10, be communicated with between described transferring box 12 and described material storing box 5 by communicating pipe 18, one end of described communicating pipe 18 is provided with floating ball device 1900, and described floating ball device 1900 is positioned at described transferring box 12;

Described floating ball device 1900 comprises ball float body 20, shutoff platform 21, motion bar 22, fixed head 23 and tube connector 2403, described communicating pipe 18 and described tube connector 2403 to be airtightly connected for dismountable, described ball float body 20, shutoff platform 21, motion bar 22 are fixed together successively, and the area of described shutoff platform 21 is greater than the area of described tube connector 2403 orifice plane; Center circle 2401 and some ribs 2402 is provided with in described tube connector 2403, some described ribs 2402 are distributed in around described center circle 2401 radially, one end of described rib 2402 is fixed on described center circle 2401, and the other end is fixed on the inwall of described tube connector 2403; After described motion bar 22 stretches into described center circle 2401 from the lower end of described tube connector 2403, described fixed head 23 is removably fixed on the top of described motion bar 22, and the length of described fixed head 23 is greater than the diameter of described center circle 2401.

Transferring box 12 and material storing box 5 are fixedly installed by communicating pipe 18 and floating ball device 1900, when the liquid level in transferring box 12 drops to a certain degree, ball float body 20 is along with liquid level decline, motion bar 22 relative centre circle 2401 moves downward, make described shutoff platform 21 and depart from described communicating pipe 18, slurry then in material storing box 5 flows in described transferring box 12 along the interval between rib 2402 and rib 2402, supplementing of slurry is carried out to it, the liquid level in transferring box 12 is made to remain on certain altitude, avoid slurries not enough and mortar pump 13 is found time and frequent start-stop, extend the service life of pump, increase work efficiency, after the liquid level in transferring box 12 rises, ball float body 20 is along with liquid level rising, motion bar 22 relative centre circle 2401 moves upward, last shutoff platform 21 contacts with the lower port of described communicating pipe 18, and along with liquid level continue increase, the buoyancy of ball float body 20 is larger, then contact force is between the two larger, shutoff is more thorough, and the slurries of material storing box 5 cannot enter in transferring box 12 again.

Also be provided with the first overflow pipe 25 in described transferring box 12, the upper orifice of described first overflow pipe 25 exceeds 30 ~ 80mm than the lower port of described tube connector 24.

The setting of the first overflow pipe 25, when the slurries in transferring box 12 are too many, too much slurries just flow out from the upper orifice of the first overflow pipe 25, prevent the slurries unrestrained slurry overflow in transferring box 12; And the upper orifice of described first overflow pipe 25 30 ~ 80mm higher than the lower port of described tube connector 2403, when the slurries in transferring box 12 are sufficient, ball float body 20 rises and blocks tube connector 2403, do not resupply slurries, and now in transferring box 12 liquid level of slurries lower than the mouth of pipe of the first overflow pipe 25, effectively prevent undressed slurries and arrange outward.

The upper port of described first overflow pipe and the distance on described transferring box top are 150 ~ 200mm.

Upper port and the described transferring box 12 top distance of the first overflow pipe 25 are set to 150 ~ 200 ㎜, prevent slurries in transferring box 12 too much on the one hand, occur the phenomenon of unrestrained slurry; In turn ensure that in transferring box 12 that there are certain slurries on the other hand, avoid slurries not enough and mortar pump 13 is found time and frequent start-stop, extending the service life of pump, increase work efficiency.

Be provided with the second overflow pipe 26 in described material storing box, the lower end of described second overflow pipe 26 is communicated with described transferring box 12.When the upper orifice of super many second overflow pipes 26 of the pulp level in material storing box 5, directly flow out from the upper orifice of the second overflow pipe 26, prevent the slurry in material storing box 5 to overflow from its all directions, decrease working strength.

The upper port of described second overflow pipe 26 and the distance at described material storing box 5 top are 100 ~ 200mm.Second overflow pipe 26 is too near apart from the top of described material storing box 5, and the flushing effect played is not obvious, and material storing box 5 a little a little vibrates or tilts, and slurries still there will be the problem of overflow; Apart from too far away, then just cannot lay in too many slurries in material storing box 5, so preferred distance is 100 ~ 200mm.

As shown in figure 11, the both sides of described vibrating screen box 1 are provided with damping assembly 2700, described damping assembly 2700 comprises shock-absorbing spring 28, upper bracket of the spring 29, spring lower support 30, spring face shield 31 and holder 32, described shock-absorbing spring 28 is fixed between described upper bracket of the spring 29 and described spring lower support 30, described spring face shield 31 is fixed on described shock-absorbing spring 28 side, and its lower end and described spring lower support 30 are fixedly connected; Described vibration component 2700 is arranged on the side of described vibrating screen box 1 respectively by described upper bracket of the spring 29 and described holder 32.Vibrating motor 2 causes described vibrating screen box 1 that fierce vibration occurs, thus realize the object of screening, and in the process of vibrating screen box 1 vibration, the high vibration of peripheral devices must be caused, damping assembly 2700 is set, kinetic transformation during vibration is become the elastic potential energy of shock-absorbing spring 28, thus reach the object reducing vibration.And spring face shield 31 is fixed on the both sides of shock-absorbing spring 28, avoids the accident of shock-absorbing spring 28 to drop, injure field personnel by a crashing object, be also the guarantee to operating efficiency simultaneously.

Be provided with regulating block 33 between described spring lower support 30 and described holder 32, described regulating block 33 is bolted on described spring lower support 30 and described holder 32.

The front and back end height of described vibrating screen box 1 is unequal, there is certain difference in height like this, water content after vibration in mortar can than few when not having a difference in height, so regulating block 33 to be bolted on spring lower support 30 and described holder 32, according to the difference of material, difference in height is also different, can change the regulating block 33 of differing heights to adapt to, making technical scheme more have practicality by taking out bolt.

Below know-why of the present utility model is described in conjunction with specific embodiments.These describe just in order to explain principle of the present utility model, and can not be interpreted as the restriction to the utility model protection domain by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other detailed description of the invention of the present utility model, and these modes all will fall within protection domain of the present utility model.

Claims (10)

1. the mud for the treatment of waste material divides a husky machine, and involving vibrations screen box and the vibrating motor be fixedly connected with described vibratory sieve, is characterized in that: comprise feeding assembly, Screen assemblies and material storing box;

The damping sheet that described feeding assembly comprises feed pipe, discharge bucket and is located in described discharge bucket, the Way out of described discharge bucket is perpendicular to described feed pipe; One end of described damping sheet is fixed on the inwall of described discharge bucket and downward-sloping, and the other end is suspended in described discharge bucket;

Described Screen assemblies comprises is located at elementary sieve nest in described vibrating screen box and secondary sieve nest, cyclone, transferring box, mortar pump and charge tube, described secondary sieve nest is located at the top of described elementary sieve nest, and the mesh size of described elementary sieve nest is greater than the mesh size of described secondary sieve nest; The discharging of described discharge bucket drops on described elementary sieve nest, and the discharging of described vibrating screen box drops on described transferring box;

Described transferring box is located at immediately below described vibrating screen box and is also communicated with it;

Described cyclone is obliquely installed, and the discharging of described cyclone drops on described secondary sieve nest; Described transferring box is communicated with the charging aperture of described mortar pump, and the discharging opening of described mortar pump is communicated with the feeding mouth of described cyclone by described charge tube; The overfall of described cyclone is communicated with described material storing box.

2. a kind of mud for the treatment of waste material according to claim 1 divides husky machine, it is characterized in that: described elementary sieve nest is all communicated with the hopper for discharge with the front end of secondary sieve nest, and described hopper is fixed on the front end of described vibrating screen box; The both sides of described elementary sieve nest and secondary sieve nest are fixed on the madial wall of described vibrating screen box by briquetting, the height of described briquetting is greater than opposite side.

3. a kind of mud for the treatment of waste material according to claim 1 divides husky machine, it is characterized in that: the angle of described cyclone and vertical direction is greater than 0 ° and is less than 30 °.

4. a kind of mud for the treatment of waste material according to claim 1 divides husky machine, it is characterized in that: be communicated with by communicating pipe between described transferring box and described material storing box, one end of described communicating pipe is provided with floating ball device, and described floating ball device is positioned at described transferring box;

Described floating ball device comprises ball float body, shutoff platform, motion bar, fixed head and tube connector, described communicating pipe and described tube connector are dismountable to be airtightly connected, described ball float body, shutoff platform, motion bar are fixed together successively, and the area of described shutoff platform is greater than the area of described tube connector orifice plane; Be provided with center circle and some ribs in described tube connector, some described ribs are distributed in around described center circle radially, and one end of described rib is fixed on described center circle, and the other end is fixed on the inwall of described tube connector; After described motion bar stretches into described center circle from the lower end of described tube connector, described fixed head is removably fixed on the top of described motion bar, and the length of described fixed head is greater than described center diameter of a circle.

5. a kind of mud for the treatment of waste material according to claim 4 divides husky machine, it is characterized in that: be also provided with the first overflow pipe in described transferring box, and the upper orifice of described first overflow pipe exceeds 30 ~ 80mm than the lower port of described tube connector.

6. divide husky machine according to claim 4 or a kind of mud for the treatment of waste material according to claim 5, it is characterized in that: the upper port of described first overflow pipe and the distance on described transferring box top are 150 ~ 200mm.

7. a kind of mud for the treatment of waste material according to claim 1 divides husky machine, it is characterized in that: be provided with the second overflow pipe in described material storing box, and the lower end of described second overflow pipe is communicated with described transferring box.

8. a kind of mud for the treatment of waste material according to claim 7 divides Sha Jiji, it is characterized in that: the upper port of described second overflow pipe and the distance at described material storing box top are 100 ~ 200mm.

9. a kind of mud for the treatment of waste material according to claim 1 divides husky machine, it is characterized in that: the both sides of described vibrating screen box are provided with damping assembly, described damping assembly comprises shock-absorbing spring, upper bracket of the spring, spring lower support, spring face shield and holder, described shock-absorbing spring is fixed between described upper bracket of the spring and described spring lower support, described spring face shield is fixed on described shock-absorbing spring side, and its lower end and described spring lower support are fixedly connected; Described vibration component is arranged on the side of described vibrating screen box respectively by described upper bracket of the spring and described holder.

10. a kind of mud for the treatment of waste material according to claim 9 divides Sha Jiji, it is characterized in that: be provided with regulating block between described spring lower support and described holder, and described regulating block is bolted on described spring lower support and described holder.