CN113185078A - Movable sludge treatment equipment - Google Patents

Abstract

The invention relates to the technical field of sludge treatment, and particularly discloses a mobile sludge treatment device which comprises a treatment vehicle, wherein the treatment vehicle is provided with a separation cylinder, a salvaging mechanism, a solid collecting box and a sewage treatment device, the separation cylinder can rotate, the side wall of the separation cylinder is provided with a plurality of filtering holes, and sewage can pass through the filtering holes; the salvaging mechanism comprises an annular conveying chain and a salvaging device fixedly connected to the annular conveying chain, the annular conveying chain is obliquely arranged, the lower end of the annular conveying chain is positioned in the separating cylinder, and the higher end of the annular conveying chain is positioned above the solid collecting box; the sewage separated by the separating cylinder can be discharged into a sewage processor. This scheme is through setting up the cylinder and salvaging the mechanism, has accomplished the separation of sewage, silt class discarded object and large granule discarded object in the mud, and simple structure and separation efficiency are high.

Description

Movable sludge treatment equipment

Technical Field

The invention relates to the technical field of sludge treatment, in particular to a mobile sludge treatment device.

Background

With the development of society, the amount of sludge and sewage generated in human life is increasing, and the sludge can be roughly divided into feed water sludge (sludge generated by raw water purification, such as water plants), domestic sewage sludge and industrial wastewater sludge, and the treatment of sludge and sewage is especially important for ensuring the normal and healthy progress of life.

Most of the sewage and sludge treatment in the prior art is unified centralized treatment, such as directly and uniformly discharging to a sludge treatment plant, and such as uniformly delivering to the sludge treatment plant to carry out unified treatment by adopting a sewage suction truck or a dung suction truck, the modes can complete the treatment of the sludge and the sewage, but need to be uniformly transported to the sludge treatment plant to carry out the treatment, so that the transportation cost is increased, the risk brought by transportation is increased, and the practical effect of sludge and sludge treatment is reduced.

In the prior art, in order to improve the treatment timeliness of sludge and sewage, the invention provides a movable sludge treatment vehicle which comprises a muddy water machine, a medicine soaking machine, a medicine adding pump and an extruder.

The existing sludge treatment vehicle can meet the purpose of timely treating sludge sewage, but the sludge sewage often contains not only sewage and sludge objects, but also a plurality of large-particle wastes, all the wastes are treated on a mud water machine in a unified way, the treatment speed is slow, and the problem of insufficient treatment due to more different objects exists.

Disclosure of Invention

The invention aims to provide a mobile sludge treatment device to solve the problem of low treatment efficiency of a sludge treatment vehicle in the prior art.

In order to achieve the above object, the basic scheme of the invention is as follows:

the movable sludge treatment equipment comprises a treatment vehicle, wherein the treatment vehicle is provided with a separation cylinder, a salvaging mechanism, a solid collecting box and a sewage treatment device, the separation cylinder can rotate, the side wall of the separation cylinder is provided with a plurality of filter holes, and sewage can pass through the filter holes; the salvaging mechanism comprises an annular conveying chain and a salvaging device fixedly connected to the annular conveying chain, the annular conveying chain is obliquely arranged, the lower end of the annular conveying chain is positioned in the separating cylinder, and the higher end of the annular conveying chain is positioned above the solid collecting box; the sewage separated by the separating cylinder can be discharged into a sewage processor.

Compare the beneficial effect in prior art:

when the scheme is adopted, the sludge with the sewage enters the rotating separation cylinder, and on one hand, the sewage in the separation cylinder penetrates through the filter holes under the action of centrifugal force and enters the sewage treatment device for treatment; on the other hand, when the sewage is separated from the separating cylinder, the annular conveying chain of the fishing mechanism is continuously conveyed, so that the fisher is continuously conveyed into the separating cylinder, the large-particle waste in the separating cylinder is fished out through the fisher, and the fisher is fixedly connected with the annular conveying chain and dumps the fished large-particle solid waste into the solid collecting box in the conveying process along with the annular conveying chain, so that the separation and recovery of the large-particle solid waste are completed; after the sewage and the large-particle waste in the separation cylinder are separated, only small-particle solid waste (hereinafter referred to as silt waste) such as silt remains in the separation cylinder.

This scheme sets up cylinder and salvage mechanism on the processing truck that can remove, has accomplished the separation of sewage in the mud, silt class discarded object and large granule discarded object promptly, and simple structure, separation efficiency are high, after different discarded objects separate, are favorable to subsequent processing's high efficiency and sufficiency.

In addition, in this scheme, constantly pivoted cylinder for large granule discarded object forms regular circumference removal along the cylinder under the effect of centrifugal force, and the circumference of large granule discarded object removes, makes large granule discarded object can be intercepted by the fisher fast, and then accelerates salvaging of large granule discarded object.

Further, the separating cylinder comprises an inner cylinder and an outer cylinder, the outer cylinder is fixedly arranged, the inner cylinder can rotate, the inner cylinder is sleeved in the outer cylinder, an outlet is arranged in a space between the inner cylinder and the outer cylinder, and the outlet is communicated with the sewage treatment device.

Has the advantages that: the inner cylinder is convenient for sewage to be separated from the inner cylinder, and the outlet on the outer cylinder is convenient for sewage to be discharged in time.

Furthermore, the inner tube includes can the pivoted section of thick bamboo wall and fixed bobbin base, is equipped with the cleaning brush on the bobbin base, and the cleaning brush can paste mutually with the section of thick bamboo wall of inner tube.

Has the advantages that: the wall of the cylinder is conveniently cleaned by the cleaning brush, so that the filter hole is prevented from being blocked, and the sewage can be continuously separated from the inner cylinder.

Furthermore, the cleaning brush is rotatably connected to the bottom of the inner barrel and penetrates through the bottom of the inner barrel, the barrel wall of the inner barrel extends downwards to the bottom of the inner barrel, a first gear is arranged on a section of the cleaning brush extending out of the barrel bottom, and an inner gear ring meshed with the first gear is arranged on a section of the barrel wall extending downwards; the cleaning brush is provided with a spiral plate extending along the height direction of the cleaning brush.

Has the advantages that: the rotation through section of thick bamboo wall drives the rotation of cleaning brush, and because of the cooperation of gear on the cleaning brush and the section of thick bamboo wall for the slew velocity of cleaning brush is greater than the slew velocity of section of thick bamboo wall, and the cleaning brush can be constantly rotated by the in-process of separating out the inner tube at sewage, forms the clearance to section of thick bamboo wall. The clearance brush rotates simultaneously and is equivalent to stirring the object in the inner tube for large granule discarded object and silt class discarded object distribute more evenly in the high space of inner tube, avoid large granule discarded object and silt class discarded object deposit and be unfavorable for the problem that large granule discarded object was salvaged out and the problem that large granule discarded object blockked up the filtration pore.

In addition, the stirring to mud sewage is further accelerated to the existence of spiral plate, and the spiral plate can upwards take the discarded object of large granule when the deposit of large granule discarded object is at the bottom of the section of thick bamboo for large granule discarded object is salvaged more thoroughly.

Further, the bottom of the cylinder bottom is rotatably connected with a second gear, the second gear is meshed with the gear ring, a wheel disc of the second gear is provided with an eccentric blanking hole, and the cylinder bottom is provided with a discharge hole; the inner tube below is equipped with the silt collecting box, and when blanking hole and discharge opening were aligned, the object in the inner tube can enter into the silt collecting box through discharge opening and blanking hole.

Has the advantages that: when sewage, large granule discarded object and silt class discarded object were separated, sewage and large granule discarded object constantly left the inner tube, and bobbin base portion including silt class discarded object constantly deposits, and the alignment of blanking hole and discharge opening can help silt class discarded object in time to discharge this moment, makes things convenient for the separation of follow-up new mud sewage.

Furthermore, the bottom of the cylinder bottom is obliquely arranged, and the discharge hole is arranged at the lower end of the cylinder bottom.

Has the advantages that: the sediment and the discharge of silt wastes are facilitated.

Further, still be equipped with the inserted sheet between second gear and the barrel head, inserted sheet sliding connection is at the barrel head, is equipped with the intercommunicating pore of intercommunication blanking hole and discharge opening on the inserted sheet.

Has the advantages that: because sludge and sewage are not deposited soon after separation begins, if the discharge holes discharge objects at the moment, the discharged objects are not only silt wastes; the existence of inserted sheet just can make silt discharge again after the deposit, guarantees that what discharge is silt, ensures the accuracy of separation.

Further, a spiral sliding groove is formed in the periphery of the wall of the inner cylinder, a sliding block is connected in the sliding groove in a sliding mode, and the inner cylinder with the sliding groove forms a cylindrical cam; the device also comprises a push type sprayer which is arranged on the treatment vehicle and is filled with the medicament, the push type sprayer is provided with a push rod for starting the push type sprayer and a sprayer for spraying the medicament, the slider is fixedly connected on the push rod, and the sprayer is positioned above the solid collecting box.

Has the advantages that: through the design of the spiral chute, the wall of the inner cylinder drives the sliding block to move up and down when rotating, the sliding block moves up and down so as to drive the pressing rod to continuously work up and down, and the sprayer of the pressing type sprayer sprays the medicament into the solid collecting box to complete the timely treatment of large-particle waste; and the work of the push type sprayer is driven by the power of the rotation of the cylinder wall, so that the energy utilization rate is improved.

Furthermore, the fisher adopts a fishing rake, one end of the fishing rake is provided with a blocking net, and the blocking net is used for blocking objects which do circular motion in the inner cylinder.

Has the advantages that: the salvaging harrow is convenient for raking large-particle wastes and can also be convenient for dripping sewage in the salvaged objects; and the blocking net can prevent large-particle wastes from being separated from the fishing rake under the action of centrifugal force.

Furthermore, one end of the salvaging harrow, which is far away from the blocking net, is rotatably connected with a stop lever, a torsion spring is arranged between the stop lever and the salvaging harrow, and the stop lever can rotate towards the inner side of the salvaging harrow.

Has the advantages that: when large-particle wastes continuously flow into the salvaging rake, the stop lever can be pushed by the large-particle wastes, so that the large-particle wastes can conveniently and quickly enter the salvaging rake; and when no longer having the large granule discarded object to gush in salvaging the harrow, the pin loses pressing of large granule discarded object and kick-backs under the torsional spring effect, and the pin after the kick-back is parallel with the arresting barrier to in with the large granule discarded object pocket on the fisher, reduce the large granule discarded object that gets into the fisher and convey the probability that drops before the solid collecting box.

Drawings

FIG. 1 is a front view of a first embodiment of the present invention;

FIG. 2 is a partial front cross-sectional view of a first embodiment of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a top view of FIG. 2;

FIG. 5 is an enlarged view of the portion B of FIG. 4;

FIG. 6 is a partial front cross-sectional view of a second embodiment of the present invention;

fig. 7 is a schematic structural view of a sliding groove and a sliding block of an inner cylinder in the second embodiment of the invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the sewage treatment device comprises a treatment vehicle 1, a rack 2, a sewage pumping pump 3, a separation cylinder 4, an inner cylinder 41, a cylinder wall 411, a cylinder bottom 412, an inner gear ring 413, an outer cylinder 42, a fishing mechanism 5, a transmission chain 51, a fishing rake 52, a blocking net 53, a stop lever 54, a solid collecting box 6, a sediment collecting box 7, a sewage treatment device 8, a cleaning brush 9, a first gear 10, a second gear 20, a blanking hole 201, an inserting piece 30, a spray head 40, a sliding groove 50 and a sliding block 60.

Example one

An embodiment substantially as described herein with reference to figures 1 to 5 of the accompanying drawings:

portable sludge treatment equipment installs frame 2 in the carriage of processing vehicle 1 including processing vehicle 1, installs in frame 2 and takes out dirty pump 3, separator 4, salvage mechanism 5, solid collecting box 6, silt collecting box 7 and sewage treatment ware 8, takes out dirty pump 3 and is used for sending to separator 4 after the extraction of mud sewage in.

The separating cylinder 4 comprises an inner cylinder 41 and an outer cylinder 42, the outer cylinder 42 is fixedly mounted on the rack 2, the inner cylinder 41 can rotate (can be driven by a motor), the inner cylinder 41 is rotatably connected to the rack 2, the inner cylinder 41 is sleeved in the outer cylinder 42, an outlet is formed in a space between the inner cylinder 41 and the outer cylinder 42, the outlet is communicated with the sewage treatment device 8 through a pipeline, and sewage can enter the sewage treatment device 8 for treatment.

The inner cylinder 41 comprises a rotatable cylinder wall 411 and a fixed cylinder bottom 412, the cylinder bottom 412 is fixedly connected to the frame 2, the cylinder wall 411 is provided with a plurality of filtering holes, and sewage can pass through the filtering holes and then is discharged into the sewage processor 8 through an outlet; the cylinder wall 411 is rotatably connected with the frame 2 and the cylinder bottom 412, and the cleaning brush 9 is rotatably connected with the cylinder bottom 412.

The cleaning brush 9 is rotatably connected to the bottom 412 of the inner barrel 41, a brush on the cleaning brush 9 can be attached to the barrel wall 411 of the inner barrel 41, a rotating shaft of the cleaning brush 9 penetrates through the barrel bottom 412, the barrel wall 411 of the inner barrel 41 extends downwards to the lower part of the barrel bottom 412, a first gear 10 is fixedly connected to a section of the cleaning brush 9 extending out of the barrel bottom 412, and an inner gear ring 413 meshed with the first gear 10 is processed on a section of the barrel wall 411 extending downwards; a spiral plate extending along the height direction of the cleaning brush 9 is fixedly arranged on a rotating shaft of the cleaning brush 9.

The bottom of the cylinder bottom 412 is rotatably connected with a second gear 20, the second gear 20 can also be meshed with the gear ring, a wheel disc of the second gear 20 is provided with an eccentric blanking hole 201, and the cylinder bottom 412 is provided with a discharge hole; the silt collecting box 7 is placed below the inner cylinder 41, and when the blanking hole 201 is aligned with the discharging hole, objects in the inner cylinder 41 can enter the silt collecting box 7 through the discharging hole and the blanking hole 201.

An inserting piece 30 is further arranged between the second gear 20 and the barrel bottom 412, the inserting piece 30 is connected to the barrel bottom 412 in a sliding mode, and a communicating hole for communicating the blanking hole 201 with the discharging hole is formed in the inserting piece 30.

The bottom of the cylinder bottom 412 is obliquely arranged, and the discharge hole is arranged at the lower end of the cylinder bottom 412.

The fishing mechanism 5 comprises an annular conveying chain 51 and a fisher fixedly connected to the annular conveying chain 51 (specifically, a conveying plate is mounted on the annular conveying chain 51, and the fisher is fixed on the conveying plate), the annular conveying chain 51 is arranged obliquely, the lower end of the annular conveying chain 51 is positioned in the separating cylinder 4, and the higher end of the annular conveying chain 51 is positioned above the solid collecting box 6.

The fisher adopts a fishing rake 52, one end of the fishing rake 52 is fixed with a blocking net 53, and the blocking net 53 is used for blocking objects which do circular motion in the inner cylinder 41.

One end of the salvaging harrow 52 far away from the arresting net 53 is rotatably connected with a stop lever 54, a torsion spring is arranged between the stop lever 54 and the salvaging harrow 52, and the stop lever 54 can rotate towards the inner side of the salvaging harrow 52.

The specific implementation process is as follows:

when sludge and sewage need to be treated, the sludge and sewage are pumped by the sewage pumping pump 3 and then are sent into the separating cylinder 4, the inner cylinder 41 of the separating cylinder 4 is rotated by starting the motor, the sewage flows out from an outlet between the inner cylinder 41 and the outer cylinder 42 through the filtering holes, and the flowing-out sewage enters the sewage treatment device 8 for subsequent treatment.

Meanwhile, the fishing mechanism 5 is started, the conveying chain 51 conveys clockwise, the conveying chain 51 drives the fishing rake 52 to continuously move into the inner cylinder 41, the inner cylinder 41 rotates, large-particle wastes do circular motion, in the motion process, the large-particle wastes automatically enter from one end of the fishing rake 52 with the stop lever 54, when the large-particle wastes are more, the stop lever 54 is directly pressed by the large-particle wastes, the stop lever 54 rotates towards the inside of the fishing rake 52 (in a state shown in fig. 3), the large-particle wastes can conveniently enter the fishing rake 52 more quickly, the fished objects are conveyed to a high position of the fishing mechanism 5 under the conveying of the conveying chain 51, when the fishing rake 52 moves to the upper side of the solid collecting box 6, the fishing rake 52 can dump the collected large-particle wastes into the solid collecting box 6, and the separation and collection of the large-particle wastes are completed.

After large granule discarded object salvages a period of time, the volume of sewage also reduces can a lot in inner tube 41, and silt class discarded object can deposit in inner tube 41 bottom simultaneously, removes inserted sheet 30 this moment for the intercommunicating pore and the discharge gate of inserted sheet 30 align, and at the two 20 continuous pivoted in-process of gear, blanking hole 201 intermittent type aligns with the intercommunicating pore, and then the intermittent type is accomplished the collection with silt class discarded object discharge to silt collecting box 7 in.

In this embodiment, set up cylinder 4 and salvage mechanism 5 on can moving treatment cart 1, accomplished the separation of sewage, silt class discarded object and large granule discarded object in the mud promptly, simple structure, separation efficiency are high, after different discarded objects separate, are favorable to subsequent processing's high efficiency and sufficiency.

In this embodiment, constantly pivoted separating cylinder 4 for large granule discarded object forms regular circumference removal along separating cylinder 4 under the effect of centrifugal force, and the circumference removal of large granule discarded object makes large granule discarded object can be intercepted by the fisher fast, and then accelerates the salvage of large granule discarded object.

Besides, this embodiment has still set up cleaning brush 9, and the rotation through section of thick bamboo wall 411 drives cleaning brush 9's rotation, because of the cooperation of gear 10 on cleaning brush 9 and section of thick bamboo wall 411 last ring gear for cleaning brush 9's slew velocity is greater than section of thick bamboo wall 411's slew velocity, and cleaning brush 9 can be constantly rotated at the in-process that sewage was separated out inner tube 41, forms the clearance to section of thick bamboo wall 411. Simultaneously, the cleaning brush 9 rotates to be equivalent to stirring the objects in the inner barrel 41, so that large-particle wastes and silt wastes are more uniformly distributed in the height space of the inner barrel 41, and the problem that the large-particle wastes and the silt wastes are not beneficial to fishing out the large-particle wastes and the problem that the large-particle wastes block the filter holes are avoided.

In addition, the stirring of mud sewage is further accelerated to the existence of spiral plate, and the spiral plate can be upwards taken large granule waste when large granule waste deposit in the bobbin base 412 for large granule waste is salvaged more thoroughly.

Example two

The second embodiment is basically as shown in fig. 6 and fig. 7, and the second embodiment is modified on the basis of the first embodiment as follows:

a spiral sliding groove 50 is formed in the periphery of a cylinder wall 411 of the inner cylinder 41 (specifically, the cylinder wall 411 of the inner cylinder 41 is higher than the outer cylinder 42, a section of the inner cylinder 41 exposed above the outer cylinder 42 is processed with the spiral sliding groove 50), a sliding block 60 is connected in the sliding groove 50 in a sliding mode, and the inner cylinder 41 with the sliding groove 50 forms a cylindrical cam; still including installing the push type atomizer that is equipped with the medicament on handling car 1, the push type atomizer is last to have the shower nozzle 40 that starts the push type atomizer press the depression bar and spout the medicament, slider 60 fixed connection is on pressing the depression bar, the quantity of shower nozzle 40 has two, shower nozzle 40 is all installed to the top of solid collecting box 6 and silt collecting box 7, when slider 60 reciprocates, drives and presses the depression bar and reciprocates, the push type atomizer begins to work, shower nozzle 40 blowout medicament.

In the embodiment, the rotation of the inner cylinder 41 is utilized to drive the push type sprayer to be started, and the spray head 40 sprays the medicament into the solid collecting box 6 and the sediment collecting box 7 to complete the timely treatment of large-particle waste and sediment; and the work of the push type sprayer is powered by the rotation of the cylinder wall 411, so that the energy utilization rate is improved.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. Portable sludge treatment equipment, its characterized in that: the device comprises a treatment vehicle, wherein the treatment vehicle is provided with a separation cylinder, a fishing mechanism, a solid collecting box and a sewage treatment device, the separation cylinder can rotate, the side wall of the separation cylinder is provided with a plurality of filtering holes, and sewage can pass through the filtering holes; the salvaging mechanism comprises an annular conveying chain and a salvaging device fixedly connected to the annular conveying chain, the annular conveying chain is obliquely arranged, the lower end of the annular conveying chain is positioned in the separating cylinder, and the higher end of the annular conveying chain is positioned above the solid collecting box; the sewage separated by the separating cylinder can be discharged into a sewage processor.

2. The mobile sludge treatment facility of claim 1 wherein: the separating cylinder comprises an inner cylinder and an outer cylinder, the outer cylinder is fixedly arranged, the inner cylinder can rotate, the inner cylinder is sleeved in the outer cylinder, an outlet is arranged in a space between the inner cylinder and the outer cylinder, and the outlet is communicated with the sewage treatment device.

3. The mobile sludge treatment apparatus of claim 2, wherein: the inner tube is equipped with the cleaning brush including the section of thick bamboo wall that can rotate and fixed bobbin base on the bobbin base, and the section of thick bamboo wall that cleaning brush can paste mutually with the inner tube is brushed.

4. The mobile sludge treatment apparatus of claim 3 wherein: the cleaning brush is rotatably connected to the bottom of the inner barrel and penetrates through the bottom of the inner barrel, the barrel wall of the inner barrel extends downwards to the lower part of the bottom of the inner barrel, a first gear is arranged on a section of the cleaning brush extending out of the barrel bottom, and an inner gear ring meshed with the first gear is arranged on a section of the barrel wall extending downwards; the cleaning brush is provided with a spiral plate extending along the height direction of the cleaning brush.

5. The mobile sludge treatment facility of claim 4 wherein: the bottom of the cylinder bottom is rotatably connected with a second gear, the second gear is meshed with the gear ring, a wheel disc of the second gear is provided with an eccentric blanking hole, and the cylinder bottom is provided with a discharge hole; the inner tube below is equipped with the silt collecting box, and when blanking hole and discharge opening were aligned, the object in the inner tube can enter into the silt collecting box through discharge opening and blanking hole.

6. The mobile sludge treatment apparatus of claim 5 wherein: the bottom of the cylinder bottom is obliquely arranged, and the discharge hole is formed in the lower end of the cylinder bottom.

7. The mobile sludge treatment facility of claim 6 wherein: still be equipped with the inserted sheet between gear two and the barrel head, inserted sheet sliding connection is equipped with the intercommunicating pore of intercommunication blanking hole and discharge opening at the barrel head on the inserted sheet.

8. The mobile sludge treatment apparatus of claim 2, wherein: the periphery of the wall of the inner cylinder is provided with a spiral sliding chute, a sliding block is connected in the sliding chute in a sliding mode, and the inner cylinder with the sliding chute forms a cylindrical cam; the device also comprises a push type sprayer which is arranged on the treatment vehicle and is filled with the medicament, the push type sprayer is provided with a push rod for starting the push type sprayer and a sprayer for spraying the medicament, the slider is fixedly connected on the push rod, and the sprayer is positioned above the solid collecting box.

9. The mobile sludge treatment facility of claim 1 wherein: the fishing tool adopts a fishing rake, one end of the fishing rake is provided with a blocking net, and the blocking net is used for blocking objects which do circular motion in the inner cylinder.

10. The mobile sludge treatment facility of claim 9 wherein: one end of the salvaging harrow, which is far away from the blocking net, is rotatably connected with a stop lever, a torsional spring is arranged between the stop lever and the salvaging harrow, and the stop lever can rotate towards the inner side of the salvaging harrow.

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