CN212954802U

CN212954802U - Sludge drying reducing mechanism of environmental protection

Info

Publication number: CN212954802U
Application number: CN202021698572.9U
Authority: CN
Inventors: 赵兵
Original assignee: Tianjin Lanshanze Environmental Protection And Energy Saving Technology Co ltd
Current assignee: Tianjin Lanshanze Environmental Protection And Energy Saving Technology Co ltd
Priority date: 2020-08-14
Filing date: 2020-08-14
Publication date: 2021-04-13
Anticipated expiration: 2030-08-14

Abstract

The utility model discloses a sludge drying reducing mechanism of environmental protection, smash collection device, dust purification device and operating button including compressor arrangement, initial waste liquid collection device, middle stage sludge dry powder collection device, later stage. The utility model belongs to the technical field of sludge treatment, specifically indicate a sludge drying reducing mechanism of environmental protection, adopt multistep compression reducing mechanism, reduce water content to mud and handle, be equipped with drying device and leak, reduce the probability that the dust produced, be equipped with the eccentric wheel in earlier stage and make the conveyer belt shake, lead the tiny particle and sink, the later stage is equipped with during dust extraction sewage storage bucket in the air exhauster will reducing mechanism, reduce dust pollution, to large-size granule and hard unable resolute material, be equipped with in addition and stir the rubbing crusher, improve kibbling efficiency, effectively solved sludge drying rubbing crusher inefficiency on the existing market, and self structure is complicated, maintain comparatively inconvenient problem.

Description

Sludge drying reducing mechanism of environmental protection

Technical Field

The utility model belongs to the technical field of sludge treatment, specifically indicate a sludge drying reducing mechanism of environmental protection.

Background

The sludge is a product after sewage treatment, is a very complex heterogeneous body consisting of organic fragments, bacterial thalli, inorganic particles, colloids and the like, and has the main characteristics of high water content, high organic matter content, easy decomposition and stink generation, fine particles, small specific gravity and colloidal liquid state. It is a thick matter between liquid and solid, can be transported by a pump, but is difficult to carry out solid-liquid separation by sedimentation; because the source of the sludge and the water treatment method are different, the properties of the produced sludge are different, the types of the sludge are many, the classification is complex, and the sludge can be generally classified according to the following methods at present: the sludge is mainly domestic sewage sludge, industrial wastewater sludge and water supply sludge according to the source. The existing sludge drying and crushing device can produce a large amount of dust in the drying and crushing process, and if the dust is not treated in time, the harm to the health of workers and the environment is easily caused.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a sludge drying reducing mechanism of environmental protection, adopt multistep compression reducing mechanism, reduce water content to mud and handle, be equipped with drying device and leak, reduce the probability that the dust produced, be equipped with the eccentric wheel in earlier stage and make the conveyer belt shake, lead the tiny particle to sink, the later stage is equipped with during dust extraction sewage storage bucket in the air exhauster will the reducing mechanism, reduce dust pollution, to large-size granule and hard unable resolvable material, be equipped with the pulper in addition, improve kibbling efficiency, sludge drying rubbing crusher inefficiency has effectively been solved on the existing market, and self structure is complicated, maintain comparatively inconvenient problem.

The utility model adopts the following technical scheme: the utility model relates to an environmental protection sludge drying and smashing device, which comprises a compression device, an initial waste liquid collecting device, a middle-stage sludge dry powder collecting device, a later-stage smashing and collecting device, a dust purifying device and an operating button, wherein the initial waste liquid collecting device is arranged below the compression device, the middle-stage sludge dry powder collecting device is arranged at one side of the initial waste liquid collecting device, the later-stage smashing and collecting device is arranged at one side of the middle-stage sludge dry powder collecting device and is not arranged at the same side with the initial waste liquid collecting device, one end of the dust purifying device is connected with the later-stage smashing and collecting device, the other end of the dust purifying device is connected with the initial waste liquid collecting device, and the operating button is arranged on the outer wall; the later-stage crushing and collecting device comprises a crushing and collecting pipe, a crushing and screening device and a re-crushing device, wherein an opening of the crushing and collecting pipe is arranged below the middle-stage sludge dry powder collecting device, the crushing and screening device is connected with an outlet of the crushing and collecting pipe, and the re-crushing device is arranged in the later-stage crushing and collecting device and is connected with the upper end of the crushing and screening device; the crushing and screening device comprises a later-stage rotating motor, a connecting rod rotating column, a later-stage crushing tank, an in-tank bearing plate, an in-tank crushing cutter, a later-stage screening rotary drum, a later-stage bottom screwing cover, a side end collecting cavity and a later-stage manual valve, wherein the later-stage rotating motor is arranged on the later-stage crushing and collecting device, one end of the connecting rod rotating column is connected with the output end of the later-stage rotating motor, the later-stage bottom screwing cover is connected with the other end of the connecting rod rotating column, the connecting rod rotating column is clamped and rotatably arranged on the later-stage bottom screwing cover, the later-stage crushing tank is arranged on the later-stage crushing and collecting device and is arranged on the connecting rod rotating column, the in-tank bearing plate is arranged in the later-stage crushing tank and is arranged on the connecting rod rotating column, the in-tank crushing, the later-stage screening rotary drum is arranged on the connecting rod rotating column, the side end collecting cavity is arranged on the side edge of the later-stage screening rotary drum, and the later-stage manual valve is arranged at the lower end of the side end collecting cavity.

Further, the repulping device includes axis of rotation once more, repulverizes grinding apparatus, repulverizes the valve, repulverizes the motor and repulverizes the collecting pipe once more, axis of rotation block once more rotates to be located in the repulverizing device, the repulverize motor is located in the repulverize device and is linked to each other with the axis of rotation once more, the repulverize grinding apparatus is located in the axis of rotation once more, the repulverize the collecting pipe locate the lower extreme of repulverizing the device once more and link to each other with the later stage crushing jar, in the repulverize collecting pipe is located to the one end of repulverize the.

Further, compressor arrangement includes upper end opening, lower extreme opening, compression pivot, compression motor and compression runner, the compressor arrangement top is located to the upper end opening, the compressor arrangement top is located to the lower extreme opening, compression pivot block rotates and locates in the compressor arrangement, the compression motor is located in the compressor arrangement and is linked to each other with the compression pivot, the compression runner is located in the compression pivot.

Further, the initial waste liquid collecting device comprises an initial conveying crawler belt, a liquid seepage strip-shaped groove, an initial rotating motor, an initial synchronous rotating shaft, a waste liquid collecting barrel, an initial heating lamp tube and a waste liquid barrel upper end baffle plate, wherein the initial conveying crawler belt is arranged below the compression device, the liquid seepage strip-shaped groove is arranged on the initial conveying crawler belt, the initial rotating motor is arranged at one end of the initial conveying crawler belt, the initial synchronous rotating shaft is clamped and rotated at the other end of the initial conveying crawler belt, the waste liquid collecting barrel is arranged below the initial conveying crawler belt, the initial heating lamp tube is arranged above the initial conveying crawler belt, and the waste liquid barrel upper end baffle plate is arranged on the waste liquid collecting barrel.

Further, the middle-stage sludge dry powder collecting device comprises a middle-stage conveying crawler belt, a middle-stage dry powder leakage hole, a middle-stage rotating motor, a middle-stage synchronous rotating shaft, a middle-stage sludge recycling bin, an eccentric wheel, an eccentric motor and a middle-stage heating lamp, wherein the middle-stage sludge recycling bin is arranged on one side of the waste liquid collecting bin, the middle-stage conveying crawler belt is arranged above the middle-stage sludge recycling bin, the middle-stage dry powder leakage hole is arranged on the middle-stage conveying crawler belt, the middle-stage rotating motor is arranged at one end of the middle-stage conveying crawler belt, the middle-stage synchronous rotating shaft is clamped and rotatably arranged at the other end of the middle-stage conveying crawler belt, the eccentric motor is arranged in an annular shape formed by the middle-stage.

Further, dust purification device includes dust recycling pipe, front end exhaust fan and rear end exhaust fan, dust recycling pipe one end is located on the crushing collection device in later stage, the other end of dust recycling pipe is located on the waste liquid collecting vessel, the front end exhaust fan is located in the dust recycling pipe and is close to the crushing collection device in later stage, the rear end exhaust fan is located in the dust recycling pipe and is close to the waste liquid collecting vessel.

Further, the operating button comprises a starting button, a stopping button, a heating button and a re-crushing button, the starting button is arranged on the outer wall of the later-stage crushing and collecting device, the stopping button is arranged below the starting button, the heating button is arranged below the stopping button, and the re-crushing button is arranged below the heating button.

Further, the start button is electrically connected with a later-stage rotating motor, the start button is electrically connected with a compression motor, the start button is electrically connected with an initial-stage rotating motor, the start button is electrically connected with a middle-stage rotating motor, the start button is electrically connected with an eccentric motor, the start button is electrically connected with a front-end exhaust fan, the start button is electrically connected with a rear-end exhaust fan, the stop button is electrically connected with a later-stage rotating motor, the stop button is electrically connected with the compression motor, the stop button is electrically connected with the initial-stage rotating motor, the stop button is electrically connected with the middle-stage rotating motor, the stop button is electrically connected with the eccentric motor, the stop button is electrically connected with the front-end exhaust fan, the stop button is electrically connected with the rear-end exhaust fan, the heating button is electrically connected with an initial-stage heating lamp, the regrinding button is electrically connected with a regrinding motor.

Further, the loading board is equipped with two sets ofly in the jar, axis of rotation is equipped with two sets ofly once more, smash the grinding apparatus once more and be equipped with two sets ofly, the compression pivot is equipped with two sets ofly, the compression runner is equipped with two sets ofly, waste liquid bucket upper end baffle is equipped with two sets ofly.

Further, the diameter of the eccentric motor is smaller than that of the middle-term synchronous rotating shaft, the two groups of compression motors are arranged on the compression rotating wheel in an out-of-phase mode, and the two groups of re-crushing motors are arranged on the re-crushing grinding tool in an out-of-phase mode.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme a sludge drying reducing mechanism of environmental protection, adopt multistep compression reducing mechanism, reduce the water content to mud and handle, be equipped with drying device and leak, reduce the probability that the dust produced, it makes the conveyer belt shake to be equipped with the eccentric wheel earlier stage, lead the tiny particle to sink, the later stage is equipped with during dust in the air exhauster will the reducing mechanism is taken out and is got the sewage storage bucket, reduce dust pollution, to large-size granule and hard unable decomposition material, be equipped with in addition and stir the rubbing crusher, improve kibbling efficiency, sludge drying rubbing crusher inefficiency on the existing market has effectively been solved, and self structure is complicated, maintain comparatively inconvenient problem.

Drawings

FIG. 1 is a front sectional view of the environment-friendly sludge drying and pulverizing apparatus of the present invention;

FIG. 2 is a top view of the primary conveyor belt of the sludge drying and pulverizing apparatus of the present invention;

fig. 3 is a top view of the middle-term conveying track of the environment-friendly sludge drying and pulverizing device.

Wherein, 1, a compression device, 2, an initial waste liquid collection device, 3, a middle-stage sludge dry powder collection device, 4, a later-stage crushing collection device, 5, a dust purification device, 6, an operation button, 7, a crushing collection pipe, 8, a crushing screening device, 9, a re-crushing device, 10, a later-stage rotating motor, 11, a connecting rod rotating column, 12, a later-stage crushing tank, 13, an in-tank bearing plate, 14, an in-tank crushing cutter, 15, a later-stage screening rotating cylinder, 16, a later-stage bottom end screwing cover, 17, a side end collection cavity, 18, a later-stage manual valve, 19, a re-rotating shaft, 20, a re-crushing grinding tool, 21, a re-crushing valve, 22, a re-crushing motor, 23, a re-crushing collection pipe, 24, an upper end opening, 25, a lower end opening, 26, a compression rotating shaft, 27, a compression motor, 28, a compression rotating wheel, 31. an initial rotating motor, 32, an initial synchronous rotating shaft, 33, a waste liquid collecting barrel, 34, an initial heating lamp tube, 35, a waste liquid barrel upper end baffle, 36, a medium-term conveying crawler belt, 37, a medium-term dry powder leakage hole, 38, a medium-term rotating motor, 39, a medium-term synchronous rotating shaft, 40, a medium-term sludge recycling barrel, 41, an eccentric wheel, 42, an eccentric motor, 43, a medium-term heating lamp, 44, a dust recycling pipe, 45, a front-end exhaust fan, 46, a rear-end exhaust fan, 47, a starting button, 48, a stopping button, 49, a heating button, 50 and a re-crushing button.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-3, the utility model relates to an environment-friendly sludge drying and pulverizing device, which comprises a compression device 1, an initial waste liquid collecting device 2, a middle-stage sludge dry powder collecting device 3, a later-stage pulverizing and collecting device 4, a dust purifying device 5 and an operation button 6, wherein the initial waste liquid collecting device 2 is arranged below the compression device 1, the middle-stage sludge dry powder collecting device 3 is arranged at one side of the initial waste liquid collecting device 2, the later-stage pulverizing and collecting device 4 is arranged at one side of the middle-stage sludge dry powder collecting device 3 and is not at the same side with the initial waste liquid collecting device 2, one end of the dust purifying device 5 is connected with the later-stage pulverizing and collecting device 4, the other end of the dust purifying device 5 is connected with the initial waste liquid collecting device 2, and the operation button 6 is arranged on; the later-stage crushing and collecting device 4 comprises a crushing and collecting pipe 7, a crushing and screening device 8 and a re-crushing device 9, wherein an opening of the crushing and collecting pipe 7 is arranged below the middle-stage sludge dry powder collecting device 3, the crushing and screening device 8 is connected with an outlet of the crushing and collecting pipe 7, and the re-crushing device 9 is arranged in the later-stage crushing and collecting device 4 and is connected with the upper end of the crushing and screening device 8; the crushing and screening device 8 comprises a later-stage rotating motor 10, a connecting rod rotating column 11, a later-stage crushing tank 12, an in-tank bearing plate 13, an in-tank crushing cutter 14, a later-stage screening rotary drum 15, a later-stage bottom rotary screw cover 16, a side end collecting cavity 17 and a later-stage manual valve 18, wherein the later-stage rotating motor 10 is arranged on the later-stage crushing and collecting device 4, one end of the connecting rod rotating column 11 is connected with the output end of the later-stage rotating motor 10, the later-stage bottom rotary screw cover 16 is connected with the other end of the connecting rod rotating column 11, the connecting rod rotating column 11 is clamped and rotatably arranged on the later-stage bottom rotary screw cover 16, the later-stage crushing tank 12 is arranged on the later-stage crushing and collecting device 4 and is arranged on the connecting rod rotating column 11, the in-tank bearing plate 13 is arranged in the later-stage crushing tank 12 and is arranged, the later-stage screening rotary drum 15 is arranged in the later-stage crushing tank 12 and is arranged on a later-stage bottom rotary screw cover 16, the later-stage screening rotary drum 15 is arranged on the connecting rod rotating column 11, the side end collecting cavity 17 is arranged on the side edge of the later-stage screening rotary drum 15, and the later-stage manual valve 18 is arranged at the lower end of the side end collecting cavity 17.

Repulping device 9 includes axis of rotation 19 once more, repulverizes grinding apparatus 20, repulverizes valve 21, repulverizes motor 22 and repulverizes collecting pipe 23 once more, axis of rotation 19 block once more is rotated and is located in repulverizes device 9 once more, repulverize motor 22 locate in repulverize device 9 and link to each other with axis of rotation 19 once more, repulverize grinding apparatus 20 is located on axis of rotation 19 once more, repulverize collecting pipe 23 locate the lower extreme of repulverizing device 9 once more and link to each other with later stage crushing jar 12, repulverize valve 21's one end and locate in repulverize collecting pipe 23, repulverize valve 21's the other end and locate on.

Compression device 1 includes upper end opening 24, lower extreme opening 25, compression pivot 26, compression motor 27 and compression runner 28, 1 top in compression device is located to upper end opening 24, 1 top in compression device is located to lower extreme opening 25, compression pivot 26 block is rotated and is located in compression device 1, compression motor 27 is located in compression device 1 and is linked to each other with compression pivot 26, compression runner 28 is located on compression pivot 26.

The initial waste liquid collecting device 2 comprises an initial conveying crawler 29, a liquid seepage strip-shaped groove 30, an initial rotating motor 31, an initial synchronous rotating shaft 32, a waste liquid collecting barrel 33, an initial heating lamp tube 34 and a waste liquid barrel upper end baffle 35, wherein the initial conveying crawler 29 is arranged below the compression device 1, the liquid seepage strip-shaped groove 30 is arranged on the initial conveying crawler 29, the initial rotating motor 31 is arranged at one end of the initial conveying crawler 29, the initial synchronous rotating shaft 32 is clamped and rotated at the other end of the initial conveying crawler 29, the waste liquid collecting barrel 33 is arranged below the initial conveying crawler 29, the initial heating lamp tube 34 is arranged above the initial conveying crawler 29, and the waste liquid barrel upper end baffle 35 is arranged on the waste liquid collecting barrel 33.

The middle-stage sludge dry powder collecting device 3 comprises a middle-stage conveying crawler 36, a middle-stage dry powder leakage hole 37, a middle-stage rotating motor 38, a middle-stage synchronous rotating shaft 39, a middle-stage sludge recycling bin 40, an eccentric wheel 41, an eccentric motor 42 and a middle-stage heating lamp 43, wherein the middle-stage sludge recycling bin 40 is arranged on one side of the waste liquid collecting bin 33, the middle-stage conveying crawler 36 is arranged above the middle-stage sludge recycling bin 40, the middle-stage dry powder leakage hole 37 is arranged on the middle-stage conveying crawler 36, the middle-stage rotating motor 38 is arranged at one end of the middle-stage conveying crawler 36, the middle-stage synchronous rotating shaft 39 is clamped and rotatably arranged at the other end of the middle-stage conveying crawler 36, the eccentric motor 42 is arranged in an annular shape formed by the middle-stage conveying crawler 36, the eccentric wheel 41.

Dust purification device 5 includes dust recovery pipe 44, front end exhaust fan 45 and rear end exhaust fan 46, dust recovery pipe 44 one end is located on the later stage is smashed collection device 4, the other end of dust recovery pipe 44 is located on waste liquid collecting vessel 33, front end exhaust fan 45 locates in dust recovery pipe 44 and is close to the later stage and smashes collection device 4, rear end exhaust fan 46 locates in dust recovery pipe 44 and is close to waste liquid collecting vessel 33.

The operation button 6 comprises a start button 47, a stop button 48, a heating button 49 and a re-crushing button 50, the start button 47 is arranged on the outer wall of the later-stage crushing and collecting device 4, the stop button 48 is arranged below the start button 47, the heating button 49 is arranged below the stop button 48, and the re-crushing button 50 is arranged below the heating button 49.

The start button 47 is connected with the later stage rotation motor 10 electricity, the start button 47 is connected with the compression motor 27 electricity, the start button 47 is connected with the initial stage rotation motor 31 electricity, the start button 47 is connected with the middle stage rotation motor 38 electricity, the start button 47 is connected with the eccentric motor 42 electricity, the start button 47 is connected with the front end exhaust fan 45 electricity, the start button 47 is connected with the rear end exhaust fan 46 electricity, the stop button 48 is connected with the later stage rotation motor 10 electricity, the stop button 48 is connected with the compression motor 27 electricity, the stop button 48 is connected with the initial stage rotation motor 31 electricity, the stop button 48 is connected with the middle stage rotation motor 38 electricity, the stop button 48 is connected with the eccentric motor 42 electricity, the stop button 48 is connected with the front end exhaust fan 45 electricity, the stop button 48 is connected with the rear end exhaust fan 46 electricity, the heating button 49 is connected with the initial stage heating lamp tube 34, the heating button 49 is electrically connected to the middle-stage heating lamp 43, and the re-pulverization button 50 is electrically connected to the re-pulverization motor 22.

The tank inner bearing plate 13 is provided with two groups, the secondary rotating shaft 19 is provided with two groups, the secondary crushing grinding tool 20 is provided with two groups, the compression rotating shaft 26 is provided with two groups, the compression motor 27 is provided with two groups, the compression rotating wheel 28 is provided with two groups, and the waste liquid barrel upper end baffle 35 is provided with two groups.

The diameter of the eccentric motor 42 is smaller than that of the middle-term synchronous rotating shaft 39, the two groups of compression motors 27 are arranged on the compression runner 28 in a phase-different mode, and the two groups of re-crushing motors 22 are arranged on the re-crushing grinding tool 20 in a phase-different mode.

When the sludge drying machine is used specifically, a user presses the starting button 47 and pours sludge into the compression device 1, the compression motor 27 rotates anticlockwise to drive the compression rotating wheel 28 to extrude the sludge into the middle, the sludge is extruded into a flat shape, water in the sludge is extruded out, the water and sludge are separated and fall on the initial conveying crawler 29 and fall into the waste liquid collecting barrel 33 along the liquid seepage strip-shaped groove 30, the initial rotating motor 31 rotates clockwise to convey the sludge on the initial conveying crawler 29 to the other end of the initial conveying crawler 29 and fall onto one end of the medium conveying crawler 36, the medium rotating motor 38 rotates clockwise to convey the sludge on the medium conveying crawler 36 to the other end of the medium conveying crawler 36, the medium eccentric motor 42 rotates to drive the eccentric wheel 41 to rotate, the eccentric wheel 41 periodically collides with the medium conveying crawler 36, and applies upward power to the sludge on the medium conveying crawler 36, the small sludge blocks which are small and meet the specification fall from the middle-stage dry powder leakage hole 37 by shaking up and down and fall into a middle-stage sludge recycling bin 40 below, the sludge blocks on the middle-stage conveying crawler 36 finally fall into the crushing and collecting pipe 7 and enter the in-tank bearing plate 13 in the later-stage crushing tank 12 through the crushing and collecting pipe 7, the later-stage rotating motor 10 rotates to drive the in-tank crushing knife 14 to crush the sludge blocks, the fragments fall into the later-stage screening rotary drum 15 along a gap between the in-tank bearing plate 13 and the later-stage crushing tank 12, the later-stage screening rotary drum 15 rotates to screen out the sludge meeting the requirement and fall into the side end collecting cavity 17, a user opens the later-stage manual valve 18 to take out the proper sludge, if the sludge blocks exist in the later-stage screening rotary drum 15, the user opens the later-stage bottom end screw cap 16 to take out the large sludge blocks in the later-stage crushing tank 12, pouring the sludge block into the re-crushing device 9, rotating the re-crushing motor 22 anticlockwise, crushing the sludge block by the re-crushing grinder 20 into the re-crushing collecting pipe 237 and into the later-stage crushing tank 12, closing the re-crushing valve 21 and pressing the re-crushing button 50 to stop the rotation of the re-crushing motor 22 by the user; when mud needs further to be dried, the user presses the heating button 49, and further drying process is carried out in order to improve follow-up crushing efficiency to mud to initial stage heating fluorescent tube 34 and middle stage heating lamp 43 pipe, it is above that the utility model discloses holistic work flow, repeat this step when using next time can.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims

1. The utility model provides a sludge drying reducing mechanism of environmental protection which characterized in that: the device comprises a compression device, an initial waste liquid collection device, a medium-term sludge dry powder collection device, a later-stage crushing collection device, a dust purification device and an operation button, wherein the initial waste liquid collection device is arranged below the compression device, the medium-term sludge dry powder collection device is arranged on one side of the initial waste liquid collection device, the later-stage crushing collection device is arranged on one side of the medium-term sludge dry powder collection device and is not on the same side with the initial waste liquid collection device, one end of the dust purification device is connected with the later-stage crushing collection device, the other end of the dust purification device is connected with the initial waste liquid collection device, and the operation button is arranged on the outer wall of the later-stage; the later-stage crushing and collecting device comprises a crushing and collecting pipe, a crushing and screening device and a re-crushing device, wherein an opening of the crushing and collecting pipe is arranged below the middle-stage sludge dry powder collecting device, the crushing and screening device is connected with an outlet of the crushing and collecting pipe, and the re-crushing device is arranged in the later-stage crushing and collecting device and is connected with the upper end of the crushing and screening device; the crushing and screening device comprises a later-stage rotating motor, a connecting rod rotating column, a later-stage crushing tank, an in-tank bearing plate, an in-tank crushing cutter, a later-stage screening rotary drum, a later-stage bottom screwing cover, a side end collecting cavity and a later-stage manual valve, wherein the later-stage rotating motor is arranged on the later-stage crushing and collecting device, one end of the connecting rod rotating column is connected with the output end of the later-stage rotating motor, the later-stage bottom screwing cover is connected with the other end of the connecting rod rotating column, the connecting rod rotating column is clamped and rotatably arranged on the later-stage bottom screwing cover, the later-stage crushing tank is arranged on the later-stage crushing and collecting device and is arranged on the connecting rod rotating column, the in-tank bearing plate is arranged in the later-stage crushing tank and is arranged on the connecting rod rotating column, the in-tank crushing, the later-stage screening rotary drum is arranged on the connecting rod rotating column, the side end collecting cavity is arranged on the side edge of the later-stage screening rotary drum, and the later-stage manual valve is arranged at the lower end of the side end collecting cavity.

2. The environment-friendly sludge drying and crushing device according to claim 1, which is characterized in that: repulping the comminution device once more including axis of rotation once more, repulverize the grinding apparatus, repulverize the valve, repulverize the motor and repulverize the collecting pipe once more, axis of rotation block once more rotates to be located in the repulverize the comminution device, the repulverize the motor locate in the repulverize the comminution device and link to each other with the axis of rotation once more, repulverize the grinding apparatus locate again the lower extreme of the comminution device and link to each other with the later stage crushing tank, in the repulverize collecting pipe was located to the one end of repulverize the valve, the other end of repulverize the valve is.

3. The environment-friendly sludge drying and crushing device according to claim 2, which is characterized in that: the compression device comprises an upper end opening, a lower end opening, a compression rotating shaft, a compression motor and a compression rotating wheel, wherein the upper end opening is arranged above the compression device, the lower end opening is arranged above the compression device, the compression rotating shaft is clamped and rotated in the compression device, the compression motor is arranged in the compression device and is connected with the compression rotating shaft, and the compression rotating wheel is arranged on the compression rotating shaft.

4. The environment-friendly sludge drying and crushing device according to claim 3, which is characterized in that: the initial-stage waste liquid collecting device comprises an initial-stage conveying crawler belt, a seepage strip-shaped groove, an initial-stage rotating motor, an initial-stage synchronous rotating shaft, a waste liquid collecting barrel, an initial-stage heating lamp tube and a waste liquid barrel upper end baffle plate, wherein the initial-stage conveying crawler belt is arranged below the compressing device, the seepage strip-shaped groove is arranged on the initial-stage conveying crawler belt, the initial-stage rotating motor is arranged at one end of the initial-stage conveying crawler belt, the initial-stage synchronous rotating shaft is clamped and rotated at the other end of the initial-stage conveying crawler belt, the waste liquid collecting barrel is arranged below the initial-stage conveying crawler belt, the initial-stage heating lamp tube is arranged above the initial-.

5. The environment-friendly sludge drying and crushing device according to claim 4, which is characterized in that: the medium-term sludge dry powder collecting device comprises a medium-term conveying crawler belt, a medium-term dry powder leakage hole, a medium-term rotating motor, a medium-term synchronous rotating shaft, a medium-term sludge recycling bin, an eccentric wheel, an eccentric motor and a medium-term heating lamp, wherein the medium-term sludge recycling bin is arranged on one side of a waste liquid collecting bin, the medium-term conveying crawler belt is arranged above the medium-term sludge recycling bin, the medium-term dry powder leakage hole is formed in the medium-term conveying crawler belt, the medium-term rotating motor is arranged at one end of the medium-term conveying crawler belt, the medium-term synchronous rotating shaft is clamped and rotatably arranged at the other end of the medium-term conveying crawler belt, the eccentric motor is arranged in an annular shape formed by the medium.

6. The environment-friendly sludge drying and crushing device according to claim 5, which is characterized in that: dust purification device includes dust recycling pipe, front end exhaust fan and rear end exhaust fan, dust recycling pipe one end is located on the crushing collection device in later stage, the other end of dust recycling pipe is located on the waste liquid collecting vessel, the front end exhaust fan is located in the dust recycling pipe and is close to the crushing collection device in later stage, the rear end exhaust fan is located in the dust recycling pipe and is close to the waste liquid collecting vessel.

7. The environment-friendly sludge drying and crushing device according to claim 6, which is characterized in that: the operation button comprises a start button, a stop button, a heating button and a re-crushing button, the start button is arranged on the outer wall of the later-stage crushing and collecting device, the stop button is arranged below the start button, the heating button is arranged below the stop button, and the re-crushing button is arranged below the heating button.

8. The environment-friendly sludge drying and crushing device according to claim 7, which is characterized in that: the starting button is electrically connected with a later-stage rotating motor, the starting button is electrically connected with a compression motor, the starting button is electrically connected with an initial-stage rotating motor, the starting button is electrically connected with a middle-stage rotating motor, the starting button is electrically connected with an eccentric motor, the starting button is electrically connected with a front-end exhaust fan, the starting button is electrically connected with a rear-end exhaust fan, the stopping button is electrically connected with a later-stage rotating motor, the stopping button is electrically connected with the compression motor, the stopping button is electrically connected with the initial-stage rotating motor, the stopping button is electrically connected with the middle-stage rotating motor, the stopping button is electrically connected with the eccentric motor, the stopping button is electrically connected with the front-end exhaust fan, the stopping button is electrically connected with the rear-end exhaust fan, the heating button is electrically connected with an initial-stage, the regrinding button is electrically connected with a regrinding motor.

9. The environment-friendly sludge drying and crushing device according to claim 8, which is characterized in that: the jar interior loading board is equipped with two sets ofly, axis of rotation is equipped with two sets ofly once more, the regrinding grinding apparatus is equipped with two sets ofly, the compression pivot is equipped with two sets ofly, the compression motor is equipped with two sets ofly, the compression runner is equipped with two sets ofly, waste liquid bucket upper end baffle is equipped with two sets ofly.

10. The environment-friendly sludge drying and crushing device according to claim 9, which is characterized in that: the diameter of the eccentric motor is smaller than that of the middle-term synchronous rotating shaft, the two groups of compression motors are arranged on the compression rotating wheel in an out-of-phase mode, and the two groups of re-crushing motors are arranged on the re-crushing grinding tool in an out-of-phase mode.