CN116874158B - Mud discharging device and process for hydrolysis acidification tank after carpet weaving, dyeing and finishing - Google Patents

Abstract

The invention relates to the technical field of sludge treatment and provides a sludge discharge device and process for a hydrolytic acidification tank after carpet weaving, wherein the sludge discharge device comprises a device shell, a conveying assembly is arranged on the device shell, a fixing plate is fixedly connected to the side end face of the device shell, a supporting plate is fixedly connected to the bottom end face of the fixing plate, a second hydraulic rod is arranged in the supporting plate, a antiskid plate is fixedly connected to the bottom end of the second hydraulic rod, a reduction assembly is arranged in the device shell, a circulation treatment assembly is connected to the reduction assembly, a connecting frame is fixedly connected to the device shell, a waterproof frame is fixedly connected to the bottom end face of the connecting frame, and a third servo motor is arranged in the waterproof frame. Through the technical scheme, the problem that the sludge discharge device for the hydrolysis acidification tank in the prior art cannot perform efficient and convenient solid-liquid separation, drying and other reduction treatment and purification treatment works on sludge is solved.

Description

Mud discharging device and process for hydrolysis acidification tank after carpet weaving, dyeing and finishing

Technical Field

The invention relates to the technical field of sludge treatment, in particular to a sludge discharge device and a process for a hydrolytic acidification tank after carpet weaving, dyeing and finishing processing.

Background

The waste water after carpet dyeing and finishing processing usually contains various chemical substances, dyes, auxiliary agents and suspended solids, and cannot be directly discharged into the environment before being untreated, so that the waste water needs to be properly treated in order to meet environmental regulations and standards, a hydrolysis acidification tank is a common waste water treatment method, plays an important role in waste water treatment, and is beneficial to degrading organic matters, eliminating odor and reducing the influence of waste water discharge on the environment, and in the hydrolysis acidification tank, organic matters are degraded into hydrolysis products and waste water through the action of microorganisms and sludge is generated, so that the sludge needs to be matched with a sludge discharge device for periodic sludge discharge treatment, and the stability of the long-time working state of the hydrolysis acidification tank is ensured.

The prior sludge discharge device for the hydrolytic acidification tank has some problems in the actual use process, for example, the sludge discharge device and the process for the hydrolytic acidification tank have the publication number of CN202111673980.8, in the working process, although the stainless steel sludge discharge hopper can be lifted through a lifting structure to realize the treatment of a suspended particle layer in the hydrolytic acidification tank, the sludge leakage phenomenon in the sewage treatment process is reduced, but in the actual use process, the sludge discharge device cannot perform the efficient and convenient reduction treatment and purification treatment work of solid-liquid separation, drying and the like on the sludge after the sludge is pumped, and meanwhile, the sludge and the sewage cannot be conveniently and stably classified and collected, and the sludge are different in treatment mode, so that the sludge discharge device also needs to convey the sludge into other equipment for subsequent treatment after the sludge in the hydrolytic acidification tank is pumped, the practicability is poor, the working efficiency is low, and the prior sludge discharge device cannot be applied to the hydrolytic acidification tanks in different areas in the actual use process, and the practicability and the applicability are poor, so that the carpet processing requirements of the carpet processing device for the hydrolytic acidification tank after the hydrolytic acidification tank are needed.

Disclosure of Invention

The invention provides a sludge discharge device and a process for a hydrolytic acidification tank after carpet weaving, dyeing and finishing processing, which solve the problems that the sludge discharge device for the hydrolytic acidification tank in the related art cannot perform efficient and convenient solid-liquid separation, drying and other reduction treatment and purification treatment works on sludge, cannot perform convenient and stable classified collection on sludge and sewage, cannot be applied to hydrolytic acidification tanks in different areas, and has poor practicability and applicability.

The technical scheme of the invention is as follows:

the utility model provides a hydrolysis acidification pool mud discharging device after carpet weaving dyeing and finishing processing, includes the device shell, install conveying component on the device shell, fixedly connected with fixed plate on the device shell side terminal surface, fixedly connected with backup pad on the bottom end face of fixed plate, install the second hydraulic stem in the backup pad, the bottom fixedly connected with antiskid ribbed tile of second hydraulic stem, install the reduction subassembly in the device shell, be connected with circulation processing subassembly on the reduction subassembly, fixedly connected with connecting frame in the device shell, fixedly connected with waterproof frame on the bottom end face of connecting frame, install the third servo motor in the waterproof frame, the output shaft rotation of third servo motor is in the connecting frame, fixedly connected with first conical gear on the output shaft of third servo motor, the last meshing of first conical gear is connected with the second conical gear, fixedly connected with threaded rod on the second conical gear, threaded rod rotates to be connected with on the fishplate, link up in connecting frame fixedly connected with in the connecting frame, be connected with circulating process subassembly on the threaded rod, fixedly connected with connecting frame in the connecting frame, be connected with water-proof frame, install the third servo motor in the bottom of filter screen cylinder, the bottom of fourth servo motor is connected with the bottom of a cylinder, the bottom of a fourth servo motor is connected with a cylinder, a fourth servo motor is connected with a bottom end of a fourth servo motor is connected with a magnetic baffle fixedly connected with, a fourth servo motor is connected with a bottom end of a fourth cylinder, the side fixedly connected with second connecting spring of backup pad, the other end fixedly connected with second draw-in lever of second connecting spring, the second draw-in lever runs through sliding connection in the backup pad, the tip block of second draw-in lever is connected in the second draw-in groove, the side at the collecting box is seted up to the second draw-in groove, the universal wheel is installed to the bottom of collecting box.

As a preferred embodiment of the present invention, wherein: the conveying assembly comprises a first hydraulic rod, one end of the first hydraulic rod is fixedly connected with the side end of the device shell, the other end of the first hydraulic rod is fixedly connected with a feeding cylinder, a first servo motor is installed at the top of the feeding cylinder, the output end of the first servo motor is connected with a first screw rod, the bottom end of the first screw rod is fixedly connected with a scraping plate, the side end of the top of the feeding cylinder is connected with a telescopic hose, the other end of the telescopic hose is connected with a material guiding frame, the top end of the material guiding frame is connected with a feeding pipe, and the material guiding frame is fixedly connected with the top end of the device shell.

As a preferred embodiment of the present invention, wherein: the material of material loading section of thick bamboo is the filter screen, the length of material loading section of thick bamboo is less than the length of first hob, the top height of first hob is higher than the top height of device shell, scrape the flitch and be central symmetry and distribute the bottom both sides of first hob, the terminal surface of scraping the flitch is circular-arc, the inlet pipe is connected the top center part of guide frame, the bottom face of guide frame with the inside top face parallel and level of device shell.

As a preferred embodiment of the present invention, wherein: the reduction assembly comprises a second servo motor, the second servo motor is fixedly connected to the top end of the device shell, the output end of the second servo motor is connected with a rotating shaft, a protection plate and a rotating rod are fixedly connected to the rotating shaft, the other end of the rotating rod is rotationally connected with a transmission shaft, the bottom end of the transmission shaft is rotationally connected with a guide block, the guide block is in limiting sliding connection in a guide frame, a mounting plate is fixedly connected to the bottom end face of the guide frame, the second servo motor is fixed to the center of the top end of the device shell, the top end face of the protection plate is attached to the inner top end face of the device shell, the protection plate is in a cross shape, the length and the width of the protection plate are respectively larger than the length and the width of an opening in the bottom of the guide frame, the guide frame is made of a large-aperture screen plate, the length and the width of the guide frame are respectively equal to the length and the thickness of the mounting plate, and the front end face and the rear end face of the mounting plate are attached to the inner wall of the device shell.

As a preferred embodiment of the present invention, wherein: install electric heating pipe in the mounting panel, fixedly connected with first heat-conducting plate on the side terminal surface of mounting panel, fixedly connected with extrusion spring in the first heat-conducting plate, extrusion spring's the other end fixedly connected with sliding block, sliding block spacing sliding connection is in the first heat-conducting plate, fixedly connected with second heat-conducting plate on the sliding block, install the leading wheel on the inside side terminal surface of device shell, electric heating pipe equidistance distributes in the mounting panel, the bottom surface of mounting panel with the terminal surface of connecting frame laminating mutually, first heat-conducting plate equidistance distributes in the both sides of mounting panel, extrusion spring symmetric distribution is in the inside both sides of first heat-conducting plate, extrusion spring passes through the sliding block with second heat-conducting plate one-to-one, the transversal right triangle that personally submits of second heat-conducting plate, the leading wheel equidistance distributes in the inside both sides of device shell, the leading wheel with first heat-conducting plate one-to-one.

As a preferred embodiment of the present invention, wherein: the circulating treatment assembly comprises an exhaust fan, the exhaust fan is fixedly connected to the transmission shaft, a scraping rod and a circular gear are fixedly connected to the transmission shaft, an inner gear is connected to the circular gear in a meshed mode, the inner gear is fixedly connected to the inner top end face of the device shell, the top of the device shell is connected with an air inlet pipe, a first filter screen plate is fixedly connected to the air inlet pipe, a treatment frame is connected to the other end of the air inlet pipe, the scraping rods are symmetrically distributed on two sides of the top end of the transmission shaft, the length of each scraping rod is larger than the bottom opening radius of the corresponding air inlet pipe, and the top end face of each scraping rod is attached to the bottom end face of the corresponding first filter screen plate.

As a preferred embodiment of the present invention, wherein: the device comprises a processing frame, an exhaust pipe, an active carbon screen plate, a dehumidifying screen plate, a magnetic frame, a first connecting spring, a first clamping rod, a first clamping groove and a second clamping rod, wherein the processing frame is fixedly connected to the side end face of the device shell, the bottom end of the processing frame is connected with the exhaust pipe, the bottom end of the exhaust pipe is connected to the side end face of the device shell, the active carbon screen plate and the dehumidifying screen plate are connected to the processing frame in a penetrating sliding mode, the ends of the active carbon screen plate and the dehumidifying screen plate are connected to the magnetic frame in a clamping mode, the magnetic frame is magnetically adsorbed to be connected to the side end of the processing frame, the first connecting spring is fixedly connected to the magnetic frame, the first clamping rod is connected to the magnetic frame in a sliding mode, and the first clamping groove is formed in the active carbon screen plate and the dehumidifying screen plate.

As a preferred embodiment of the present invention, wherein: the active carbon screen plate and the dehumidification screen plate are mutually attached, the shape and the size of the active carbon screen plate are equal to those of the dehumidification screen plate, the active carbon screen plate and the dehumidification screen plate are attached to the inner wall of the treatment frame, first clamping rods are symmetrically distributed on the upper side and the lower side of the magnetic frame, and the first clamping rods correspond to the first clamping grooves one by one.

As a preferred embodiment of the present invention, wherein: the connecting frame is fixed the inside middle part of device shell, the central axis of first conical gear with the central axis of connecting frame is located same vertical central line, second conical gear symmetric distribution is in the both sides of first conical gear, second conical gear passes through the threaded rod with second filter screen plate one-to-one, the up and down terminal surface of second filter screen plate with the inner wall of connecting frame laminating mutually, the terminal surface with the inner wall of device shell laminating mutually around the second filter screen plate, the feed cylinder is located under the device shell, the inside bottom of device shell is circular-arc, the length of feed cylinder is less than the length of second screw rod, the guide cylinder symmetric distribution is in the bottom both sides of feed cylinder down, the guide cylinder with magnetic baffle one-to-one, the collection box with be the laminating connection between the division board and the backup pad.

A mud discharging process for a hydrolytic acidification tank after carpet weaving, dyeing and finishing processing comprises the following steps:

s1: after the wastewater after carpet weaving, dyeing and finishing is treated in a hydrolysis acidification tank, a worker pushes a conveying component on a device shell into the hydrolysis acidification tank, and sucks sludge at the bottom of the hydrolysis acidification tank;

s2: the conveying component sucks the sludge in the hydrolysis acidification tank into the device shell, and the reduction treatment and the circulation drying treatment of the sludge can be completed simultaneously by utilizing the reduction component and the circulation treatment component, so that redundant wastewater in the sludge can be conveyed into a collecting box at one side;

s3: after the sludge treatment work is finished, the second filter screen plates at two sides can be driven to be stored in the connecting frame through the threaded rod by utilizing the driving of the third servo motor, and the sludge can be conveyed to the collecting box at the other side through the spiral conveying of the second spiral rod;

s4: and classifying, transferring and conveying the wastewater and the sludge by utilizing a collecting box and universal wheels.

The working principle and the beneficial effects of the invention are as follows:

firstly, intermittent discharging of sludge can be completed by utilizing the cooperation of the protection plate and the material guide frame, the phenomenon that a large amount of sludge is once conveyed to cause the internal blockage of the device to influence the subsequent treatment work is avoided, meanwhile, the sludge can be subjected to high-efficiency solid-liquid separation by virtue of intermittent extrusion of the mounting plate, the sludge can be further extruded by virtue of movement of each second heat-conducting plate, the sludge can be efficiently heated and dried, the reduction and drying treatment of the sludge are automatically completed, the stability and convenience of the subsequent transportation treatment work of the sludge are ensured, the use diversity of a sludge discharge device is increased, and the working efficiency of the sludge discharge device is improved; the circulating conveying of the high-temperature waste gas in the device shell can be completed through the air inlet pipe, the treatment frame and the air outlet pipe, the drying treatment efficiency and the drying effect of the sludge can be further improved by utilizing the circulating dried high-temperature gas, the energy utilization rate is improved, and the heat energy waste is avoided; moreover, the second hydraulic rod is matched with the driving of each universal wheel, the moving state and the placing state of the whole device can be conveniently switched, the whole device can be conveniently moved to the hydrolytic acidification tank in different areas, the whole device can be conveniently and stably conveyed to the inside of the device according to the sticky degree of sludge by using the first screw rod or the feeding pipe, the follow-up treatment and sludge discharge work of sludge are completed, the classified collection of waste water and sludge can be conveniently completed, and the stability and convenience of the follow-up classified transportation and conveying work of the waste water and the sludge are ensured.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic perspective view of the whole structure of the present invention;

FIG. 2 is a schematic view of a connection structure of a first screw rod and a scraping plate;

FIG. 3 is a schematic diagram of the connection structure of the activated carbon screen and the moisture removal screen of the present invention;

FIG. 4 is a schematic view of the connection structure of the connection frame and the second filter screen plate of the present invention;

FIG. 5 is a schematic view of the connection structure of the blanking barrel and the guide barrel of the present invention;

FIG. 6 is a schematic diagram of the overall front view of the present invention;

FIG. 7 is a schematic diagram of the main cross-section structure of the material guiding frame of the present invention;

FIG. 8 is a schematic view of the main cross-section of the housing of the apparatus of the present invention;

FIG. 9 is a schematic view of the structure of FIG. 8A in accordance with the present invention;

FIG. 10 is a schematic view of the main sectional structure of the air intake pipe of the present invention;

FIG. 11 is a schematic view of the bottom structure of the internal gear of the present invention;

FIG. 12 is a schematic view of the device housing of the present invention in a top-down view;

FIG. 13 is a schematic view of the mounting plate of the present invention in a top-down configuration;

FIG. 14 is a schematic view of the primary cross-sectional structure of the first heat-conducting plate of the present invention;

FIG. 15 is a schematic view showing a top-down structure of a first heat-conductive plate of the present invention;

FIG. 16 is a schematic view of a main cross-section of a processing block of the present invention;

FIG. 17 is a schematic view of the main cross-section of a second screen panel of the present invention;

FIG. 18 is a schematic view of the structure of FIG. 17C in accordance with the present invention;

FIG. 19 is a schematic view of a second screen panel of the present invention in a top-down configuration;

FIG. 20 is a schematic view of the structure of FIG. 8B in accordance with the present invention;

FIG. 21 is a schematic view of the main sectional structure of the support plate of the present invention;

FIG. 22 is a schematic side cross-sectional view of a support plate of the present invention;

FIG. 23 is a schematic view of the main sectional structure of the blanking barrel of the present invention;

FIG. 24 is a schematic view of the present invention in a cut-away configuration of the blanking cartridge.

In the figure: 1. a device housing; 2. a transport assembly; 201. a first hydraulic lever; 202. a feeding cylinder; 203. a first servo motor; 204. a first screw rod; 205. a scraping plate; 206. a flexible hose; 207. a material guiding frame; 208. a feed pipe; 3. a fixing plate; 4. a support plate; 5. a second hydraulic lever; 6. a cleat; 7. a decrementing component; 701. a second servo motor; 702. a rotating shaft; 703. a protection plate; 704. a rotating lever; 705. a transmission shaft; 706. a guide block; 707. a guide frame; 708. a mounting plate; 709. an electric heating tube; 710. a first heat-conducting plate; 711. extruding a spring; 712. a sliding block; 713. a second heat-conducting plate; 714. a guide wheel; 8. a cyclical processing assembly; 801. an exhaust fan; 802. a scraping rod; 803. a circular gear; 804. an internal gear; 805. an air inlet pipe; 806. a first screen plate; 807. a processing frame; 808. an exhaust pipe; 809. an activated carbon screen; 810. a dehumidifying screen plate; 811. a magnetic frame; 812. a first connecting spring; 813. a first clamping rod; 814. a first clamping groove; 9. a connection frame; 10. a waterproof frame; 11. a third servo motor; 12. a first bevel gear; 13. a second bevel gear; 14. a threaded rod; 15. a splice plate; 16. a second screen plate; 17. a blanking cylinder; 18. a fourth servo motor; 19. a second screw rod; 20. a guide cylinder; 21. a return spring; 22. a magnetic baffle; 23. a partition plate; 24. a second connecting spring; 25. a second clamping rod; 26. a second clamping groove; 27. a collection box; 28. and a universal wheel.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1:

as shown in fig. 1-24, this embodiment provides a sludge discharge device for hydrolysis acidification tank after carpet weaving, dyeing and finishing processing, which comprises a device housing 1, a conveying component 2 is installed on the device housing 1, a fixed plate 3 is fixedly connected on the side end surface of the device housing 1, a supporting plate 4 is fixedly connected on the bottom end surface of the fixed plate 3, a second hydraulic rod 5 is installed in the supporting plate 4, a antiskid plate 6 is fixedly connected at the bottom end of the second hydraulic rod 5, a reduction component 7 is installed in the device housing 1, a circulation processing component 8 is connected on the reduction component 7, a connecting frame 9 is fixedly connected in the device housing 1, a waterproof frame 10 is fixedly connected on the bottom end surface of the connecting frame 9, a third servo motor 11 is installed in the waterproof frame 10, an output shaft of the third servo motor 11 is rotatably connected in the connecting frame 9, a first conical gear 12 is fixedly connected on the output shaft of the third servo motor 11, the first conical gear 12 is connected with a second conical gear 13 in a meshed manner, the second conical gear 13 is fixedly connected with a threaded rod 14, the threaded rod 14 is rotationally connected to a connecting plate 15, the connecting plate 15 is fixedly connected to a connecting frame 9, the threaded rod 14 is connected with a second filter screen plate 16 in a threaded manner, the second filter screen plate 16 is in limit sliding connection to the connecting frame 9, the bottom of the device shell 1 is fixedly connected with a blanking cylinder 17, the bottom end of the blanking cylinder 17 is provided with a fourth servo motor 18, the output shaft of the fourth servo motor 18 is fixedly connected with a second screw rod 19, the bottom side end of the blanking cylinder 17 is connected with a guide cylinder 20, the guide cylinder 20 is fixedly connected with a reset spring 21, the top end of the reset spring 21 is fixedly connected with a magnetic baffle 22, the magnetic baffle 22 is in limit sliding connection to the guide cylinder 20, the bottom of the fourth servo motor 18 is fixedly connected with a partition plate 23, the side fixedly connected with second connecting spring 24 of backup pad 4, the other end fixedly connected with second clamping rod 25 of second connecting spring 24, second clamping rod 25 runs through sliding connection in backup pad 4, the tip block of second clamping rod 25 is connected in second draw-in groove 26, the side at collection box 27 is seted up to second draw-in groove 26, universal wheel 28 is installed to the bottom of collection box 27, through the extension and the shrink of second hydraulic stem 5, can carry out convenient switching to the holistic mobile state of device and the placed state, and then can guarantee the device and stability and the convenience of the operating condition in different hydrolytic acidification tank department, and cooperation conveying assembly 2 can be convenient and stable carry the mud in the hydrolytic acidification tank to the mud device, utilize the drive cooperation of reduction subassembly 7 and cyclic treatment subassembly 8, combine second filter screen 16 can carry out high-efficient solid-liquid separation simultaneously to mud, high-efficient heating stoving and high-efficient mummification, guarantee that the follow-up of mud transports the stability of processing work and convenient, simultaneously, energy utilization ratio has been promoted, avoid heat energy waste and environmental pollution, after the sludge treatment work is finished, through switching over the guide drum 20 and the steady state of the second spiral shell of material drum of the device, the completion of the work of the subsequent sludge is accomplished to the steady and the sludge is carried out in the steady and the sludge is carried out the steady and is accomplished to the sludge is accomplished in the steady and is accomplished the 17 after the sludge is accomplished the steady and is accomplished to the sludge and is accomplished the steady and convenient and is dried the 17.

Example 2:

as shown in fig. 1 to 24, based on the same concept as that of the above-mentioned embodiment 1, this embodiment also provides a sludge discharge device for a hydrolytic acidification tank after carpet weaving, dyeing and finishing processing.

In this embodiment, the conveying assembly 2 includes a first hydraulic rod 201, one end of the first hydraulic rod 201 is fixedly connected to a side end of the device housing 1, the other end of the first hydraulic rod 201 is fixedly connected with a feeding cylinder 202, a first servo motor 203 is installed at the top of the feeding cylinder 202, an output end of the first servo motor 203 is connected with a first screw rod 204, a scraping plate 205 is fixedly connected to the bottom end of the first screw rod 204, a flexible hose 206 is connected to the side end of the top of the feeding cylinder 202, a material guiding frame 207 is connected to the other end of the flexible hose 206, a material guiding frame 207 is connected to a material feeding pipe 208, the material guiding frame 207 is fixedly connected to the top end of the device housing 1, the material of the feeding cylinder 202 is a filter screen, the length of the feeding cylinder 202 is smaller than that of the first screw rod 204, the top end of the first screw rod 204 is higher than the top end of the device housing 1, the scraping plates 205 are distributed on two sides of the bottom end of the first screw rod 204 in a central symmetry manner, the end faces of the scraping plates 205 are arc-shaped, the feeding pipe 208 is connected to the central part of the top end of the material guiding frame 207, the bottom end face of the material guiding frame 207 is flush with the top end face of the inside of the device shell 1, if the sludge in the hydrolysis acidification tank is sticky, the anti-skid plates 6 are driven to move upwards to be separated from the ground by the second hydraulic rods 5, the device can move conveniently and quickly by integrally utilizing all universal wheels 28 at the bottom of the collecting box 27, after moving to a proper position, the extension of all the second hydraulic rods 5 can lift the device integrally, the feeding cylinder 202 can be pushed to all positions inside the hydrolysis acidification tank conveniently and stably by matching with the first hydraulic rods 201, the sludge at the bottom end of the hydrolysis acidification tank can be gathered and conveyed spirally by matching with the rotation of the scraping plates 205 at two sides by using the continuous rotation of the first screw rods 204, the redundant waste water falls into the hydrolysis acidification tank automatically through the feeding cylinder 202 made of the mesh plate material, only the sludge is conveyed, and then the sludge can be conveyed into the sludge discharge device conveniently and stably through the flexible hose 206 and the material guide frame 207.

In this embodiment, the reduction assembly 7 includes a second servo motor 701, the second servo motor 701 is fixedly connected to the top end of the device housing 1, the output end of the second servo motor 701 is connected with a rotating shaft 702, a protection plate 703 and a rotating rod 704 are fixedly connected to the rotating shaft 702, the other end of the rotating rod 704 is rotatably connected with a transmission shaft 705, the bottom end of the transmission shaft 705 is rotatably connected with a guide block 706, the guide block 706 is limited and slidingly connected in a guide frame 707, a mounting plate 708 is fixedly connected to the bottom end surface of the guide frame 707, the second servo motor 701 is fixed to the center of the top end of the device housing 1, the top end surface of the protection plate 703 is attached to the inner top end surface of the device housing 1, the protection plate 703 is in a cross shape, the length and the width of the protection plate 703 are respectively greater than the length and the width of the bottom opening of the guide frame 207, the guide frame 707 is made of a large-aperture screen, the length and the width of the guide frame 707 are equal to the length and the thickness of the mounting plate 708, the front end and the rear end surfaces of the mounting plate 708 are attached to the inner wall of the device housing 1, the rotation shaft 702 of the second servo motor 701 is utilized to drive the protection plate 703 and rotate simultaneously, the protection plate 703 and the rotating at the bottom end of the guide frame 704 by the rotating shaft 702, the second servo motor 701 is fixed to the top end, the inner surface of the guide frame 703 is continuously, the inner side of the protection plate 703 is continuously, and the sludge is continuously conveyed by the guide frame 703, and the sewage is continuously and the sewage is prevented from being blocked by the intermittent device.

In the embodiment, an electric heating pipe 709 is installed in a mounting plate 708, a first heat conducting plate 710 is fixedly connected to the side end surface of the mounting plate 708, an extrusion spring 711 is fixedly connected to the first heat conducting plate 710, the other end of the extrusion spring 711 is fixedly connected with a sliding block 712, the sliding block 712 is in limited sliding connection with the first heat conducting plate 710, a second heat conducting plate 713 is fixedly connected to the sliding block 712, a guide wheel 714 is installed on the side end surface of the inside of a device shell 1, the electric heating pipes 709 are equidistantly distributed in the mounting plate 708, the bottom end surface of the mounting plate 708 is attached to the top end surface of a connecting frame 9, the first heat conducting plates 710 are equidistantly distributed on two sides of the mounting plate 708, the extrusion springs 711 are symmetrically distributed on two sides of the inside of the first heat conducting plate 710, the extrusion springs 711 are in one-to-one correspondence with the second heat conducting plates 713 through the sliding block 712, the cross section of the second heat conducting plates 713 is in a right triangle shape, the guide wheel 714 is equidistantly distributed on two sides of the inside of the device shell 1, the guide wheels 714 are in one-to-one correspondence with the first heat-conducting plates 710, the rotating rods 704 can stir the mounting plates 708 at the bottom of the guide frame 707 to do left-right reciprocating motion in the device shell 1 through the guide blocks 706 on the transmission shaft 705, can stir the sludge to two sides and squeeze the sludge, and cooperate with the second filter screen plates 16 on the two sides to conduct efficient solid-liquid separation on the sludge, meanwhile, in the sludge squeezing process, the second heat-conducting plates 713 on the first heat-conducting plates 710 can be pushed to move to the side at the same time through the guide wheels 714, and through the movement of the second heat-conducting plates 713, the sludge can be further squeezed, meanwhile, the sludge can be separated into multiple layers and efficiently heated and dried, the moisture in the sludge is further reduced, the reduction and drying treatment of the sludge are completed, the stability and convenience of the subsequent transfer treatment work of the sludge are ensured, the use diversity of the mud discharging device is increased, and the working efficiency of the mud discharging device is improved.

In this embodiment, the circulation processing component 8 includes the exhaust fan 801, exhaust fan 801 fixed connection is on transmission shaft 705, fixedly connected with scraper bar 802 and circular gear 803 on the transmission shaft 705, the meshing is connected with internal gear 804 on the circular gear 803, internal gear 804 fixed connection is on the inside top terminal surface of device shell 1, the top of device shell 1 is connected with intake pipe 805, the first filter plate 806 of fixedly connected with in the intake pipe 805, the other end of intake pipe 805 is connected with processing frame 807, scraper bar 802 symmetric distribution is on the top both sides of transmission shaft 705, the length of scraper bar 802 is greater than the bottom opening radius of intake pipe 805, the top terminal surface of scraper bar 802 is laminated with the bottom terminal surface of first filter plate 806, processing frame 807 fixed connection is on the device shell 1 side terminal surface, the bottom of processing frame 807 is connected with blast pipe 808, the bottom of blast pipe 808 is connected on the device shell 1 side terminal surface, in the rotation process of dwang 704, the circular gear 805 can be driven by transmission shaft 705 and stable, the circular gear 804 in the revolution process can be driven in the cooperation, and automatic rotation can drive the circular gear 804 on the revolution process, and further, the fan on transmission shaft 705 can be driven to carry out the rotation on 801, and carry out the rotation processing in the high temperature drying process and the exhaust gas circulation processing device 803 can be carried out in the high temperature circulation process and the exhaust device 803.

In this embodiment, run through sliding connection in the processing frame 807 and have activated carbon screen 809 and remove damp otter board 810, the tip of activated carbon screen 809 and remove damp otter board 810 all block connection in magnetic frame 811, magnetic frame 811 magnetism adsorbs the side end of connecting at processing frame 807, fixedly connected with first connecting spring 812 on the magnetic frame 811, the other end fixedly connected with first clamping lever 813 of first connecting spring 812, first clamping lever 813 sliding connection is in magnetic frame 811, first draw-in groove 814 has all been seted up on activated carbon screen 809 and the remove damp otter board 810, the tip block connection of first clamping lever 813 is in first draw-in groove 814, activated carbon screen 809 and remove damp otter board 810 each other laminating, the shape size of activated carbon screen 809 is equal with the shape size of remove damp otter board 810, activated carbon screen 809 and remove damp otter board 810 all laminate with processing frame 807 inner wall mutually, first clamping lever 813 symmetric distribution is in the upper and lower both sides of magnetic frame 811, first clamping lever 813 and first clamping groove 814 one-to-one, utilize activated carbon screen 809 and remove damp otter board 809 in the processing frame 807 and the drying efficiency of drying energy and drying efficiency are improved simultaneously, drying efficiency is avoided in the drying efficiency is improved.

In this embodiment, the connecting frame 9 is fixed at the middle part inside the device housing 1, the central axis of the first conical gear 12 and the central axis of the connecting frame 9 are located on the same vertical central line, the second conical gears 13 are symmetrically distributed on two sides of the first conical gear 12, the second conical gears 13 are in one-to-one correspondence with the second filter screen plates 16 through the threaded rods 14, the upper end face and the lower end face of the second filter screen plates 16 are attached to the inner wall of the connecting frame 9, the front end face and the rear end face of the second filter screen plates 16 are attached to the inner wall of the device housing 1, the blanking barrel 17 is located under the device housing 1, the inner bottom end of the device housing 1 is arc-shaped, the length of the blanking barrel 17 is smaller than the length of the second spiral rod 19, the guide barrels 20 are symmetrically distributed on two sides of the bottom of the blanking barrel 17, the guide barrels 20 are in one-to-one correspondence with the magnetic baffle plates 22, the collecting boxes 27 are attached to the partition plates 23 and the supporting plates 4, the upward or downward movement of the magnetic baffles 22 in the guide barrels 20 at the two sides can be used for respectively controlling the opening and closing states of the guide barrels 20 at the two sides at the bottom of the lower feed barrel 17, when the sludge is subjected to solid-liquid separation, only one guide barrel 20 at one side is required to be controlled to be opened, the guide barrels 20 at the other side are required to be closed, at the moment, redundant waste water can be stably conveyed into the collecting box 27 at one side, after the sludge reduction treatment and the drying treatment, the opening and closing states of the guide barrels 20 at the two sides are switched, the second filter screen plate 16 on the threaded rod 14 at the two sides can be driven to simultaneously move to the middle through the first conical gear 12 and the second conical gear 13, at the moment, the sludge can be automatically conveyed to the bottom end in the device shell 1 through the openings at the two sides, and the sludge can be automatically and stably conveyed into the collecting box 27 at the other side through the second spiral rod 19 in the lower feed barrel 17, and (3) completing sludge discharge and classification collection of wastewater and sludge.

It should be noted that, the invention is a mud discharging device and process for hydrolysis acidification tank after carpet weaving, dyeing and finishing processing, firstly, after the waste water after carpet weaving, dyeing and finishing processing is processed in the hydrolysis acidification tank, a worker can drive the anti-skid plate 6 to move upwards by controlling and opening the second hydraulic rod 5 in each supporting plate 4 until the anti-skid plate is separated from the ground by using the second hydraulic rod 5, at the moment, each universal wheel 28 at the bottom of the two side collecting boxes 27 contacts with the ground, then the worker can conveniently move by pushing the whole device, at the moment, until the device moves to a proper position beside the hydrolysis acidification tank, then the second hydraulic rod 5 in each supporting plate 4 can be controlled and opened again, the second hydraulic rod 5 can drive the anti-skid plate 6 to move downwards, and then the whole device can be lifted, in the lifting process of the device, the feeding cylinder 202 can be driven to synchronously lift by the first hydraulic rod 201, until the bottom end of the scraping plate 205 is higher than the top end of the hydrolytic acidification tank, then a worker can push the feeding cylinder 202 to move towards the inside of the hydrolytic acidification tank by controlling and opening the first hydraulic rod 201 on the device shell 1 under the driving action of the first hydraulic rod 201, then the whole device can be driven to descend by utilizing the contraction of each second hydraulic rod 5, the bottom of the feeding cylinder 202 is inserted into sludge in the hydrolytic acidification tank, the feeding cylinder 202 can be conveniently and stably pushed to all positions in the hydrolytic acidification tank by utilizing the whole movement of the device and the expansion of the first hydraulic rod 201, the first screw rod 204 can be driven to stably rotate in the feeding cylinder 202 under the driving action of the first servo motor 203, meanwhile, the scraping plate 205 at two sides of the bottom can be driven to simultaneously rotate by the first screw rod 204, the sludge at the bottom end of the hydrolysis acidification tank can be gathered by utilizing the rotation of the scraping plates 205 at the two sides, the continuous rotation of the first screw rod 204 is matched, the continuous and stable screw conveying of the sludge can be realized by matching the feeding cylinder 202, in the conveying process, redundant waste water automatically falls into the hydrolysis acidification tank through the feeding cylinder 202 made of a screen plate material, only the conveying of the sludge is realized, and then the sludge can be conveniently and stably conveyed into a sludge discharge device through the flexible hose 206 and the material guide frame 207;

In the sludge conveying process, under the driving action of the second servo motor 701, the protection plate 703 and the rotating rod 704 can be driven to rotate simultaneously through the rotating shaft 702 at the output end, the continuous rotation of the protection plate 703 is utilized, the batch discharging of the sludge can be completed by matching with the material guiding frame 207, meanwhile, in the rotating process of the rotating rod 704, the guide block 706 on the transmission shaft 705 can be driven to perform stable revolution, the guide block 706 on the transmission shaft 705 can be driven to perform automatic stable left-right reciprocating motion in the device shell 1 through the guide block 706 on the transmission shaft 705, the mounting plate 708 can be driven to perform automatic stable left-right reciprocating motion on the connecting frame 9, in the left-right reciprocating motion process of the mounting plate 708, the discharged sludge can be driven to the side, the sludge is extruded, and the second filter screen plates 16 on two sides are matched to perform efficient solid-liquid separation on the sludge, the redundant waste water can flow to the blanking cylinder 17 at the bottom of the device shell 1, at the moment, a worker can move upwards by stirring the magnetic baffle 22 in the left guide cylinder 20, the guide cylinder 20 is not made of iron, and the device shell 1 is made of iron, so that when the magnetic baffle 22 in the left guide cylinder 20 is manually stirred upwards, the magnetic baffle 22 in the left guide cylinder 20 can be adsorbed and fixed at the bottom of the device shell 1, at the moment, the guide cylinder 20 at the left side of the blanking cylinder 17 is opened, the guide cylinder 20 at the right side is closed, the second screw rod 19 can be driven to stably rotate in the blanking cylinder 17 under the driving action of the fourth servo motor 18, and the waste water at the bottom end in the device shell 1 can be stably conveyed into the collecting box 27 at the left side through the guide cylinder 20 at the left side under the screw conveying action of the second screw rod 19, so as to finish solid-liquid separation treatment of sludge;

When the mounting plate 708 extrudes sludge in a left-right reciprocating motion process, the second heat conducting plates 713 on the first heat conducting plates 710 can be driven to move to the guide wheels 714, the second heat conducting plates 713 on two sides of the first heat conducting plates 710 can be driven to automatically move to the side under the extrusion pushing action of the guide wheels 714, the sludge can be further extruded, meanwhile, the sludge can be separated into multiple layers, the sludge in each layer can be efficiently heated and dried by combining with each electric heating pipe 709 in the mounting plate 708, the moisture in the sludge is further reduced, and when the second heat conducting plates 713 on the first heat conducting plates 710 move away from the guide wheels 714, the second heat conducting plates 713 can be driven to automatically reset by utilizing the elastic action of the extrusion springs 711, so that the stability of the follow-up repeated working state is ensured;

and in the rotating process of the rotating rod 704, the circular gear 803 can be driven to stably revolve in the inner gear 804 through the transmission shaft 705, under the meshing action of the inner gear 804, the circular gear 803 in the revolution process can be driven to automatically rotate, and then the exhaust fan 801 and the two side scraping rods 802 on the transmission shaft 705 can be driven to rotate while revolving, so that high-temperature waste gas generated in the sludge drying treatment process can be conveyed, under the continuous rotating action of the exhaust fan 801, the circulation conveying of the high-temperature waste gas in the device shell 1 can be completed through the air inlet pipe 805, the treatment frame 807 and the exhaust pipe 808, meanwhile, in the waste gas circulation conveying process, the waste gas can be filtered, purified and dehumidified by the activated carbon screen 809 and the dehumidifying screen 810 in the treatment frame 807, and the drying treatment efficiency and the drying effect of the sludge can be further improved by using the high-temperature gas of circulation drying, meanwhile, the energy utilization rate is improved, the heat energy waste is avoided, in the circulating conveying process, the first filter screen plate 806 in the air inlet pipe 805 is utilized to carry out dust and impurity filtering operation on air, the revolution and rotation of the scraping rods 802 at the two sides are utilized to carry out automatic scraping and cleaning operation on the dust and impurity filtered by the bottom end surface of the first filter screen plate 806, the first filter screen plate 806 is prevented from being blocked in the long-time working process, the subsequent filtering effect is influenced, after the device working is finished, the worker can drive the activated carbon screen plate 809 and the dehumidifying screen plate 810 to move outwards to be separated from the processing frame 807 by pulling the magnetic frame 811 outwards, and the first clamping rods 813 on the magnetic frame 811 are pulled outwards until the first clamping rods 813 move to be separated from the first clamping grooves 814 on the activated carbon screen plate 809 and the dehumidifying screen plate 810, the method has the advantages that the disassembling work of the activated carbon screen 809 and the dehumidifying screen 810 can be completed, the activated carbon screen 809 and the dehumidifying screen 810 can be conveniently and stably processed in the follow-up mode, the stable working state of the activated carbon screen 809 and the dehumidifying screen 810 is guaranteed, when the activated carbon screen 809 and the dehumidifying screen 810 are required to be installed, only the first clamping rods 813 on the magnetic frame 811 are required to be pulled outwards again, the activated carbon screen 809 and the dehumidifying screen 810 are inserted into the magnetic frame 811, then the first clamping rods 813 can be driven to be rotationally clamped into the first clamping grooves 814 on the activated carbon screen 809 and the dehumidifying screen 810 under the elastic action of the first connecting springs 812, the clamping installation work of the activated carbon screen 809 and the dehumidifying screen 810 is completed, then the activated carbon screen 809 and the dehumidifying screen 810 are inserted into the processing frame 807, the sealing of the processing frame 807 and the installation work of the magnetic frame 811 are completed by the magnetic adsorption force of the magnetic frame 811, and the follow-up waste gas purification processing work is guaranteed;

After the sludge reduction and drying treatment work is finished, a worker can move downwards by stirring the magnetic baffle 22 in the left guide cylinder 20 until the magnetic baffle 22 moves to be separated from the device shell 1, at the moment, under the elastic action of the reset spring 21, the magnetic baffle 22 can be driven to automatically move downwards to reset, the left guide cylinder 20 is closed, then the magnetic baffle 22 in the right guide cylinder 20 is pushed upwards through repeated operation and is adsorbed and fixed at the bottom of the device shell 1, at the moment, the guide cylinder 20 on the left side of the blanking cylinder 17 is closed, the guide cylinder 20 on the right side is opened, then the worker can drive the first conical gear 12 on the output shaft to stably rotate under the driving action of the third servo motor 11 by controlling and opening the third servo motor 11, the corresponding threaded rod 14 can be driven to stably rotate on the connecting plate 15 through the second conical gear 13 which is meshed and connected at the two sides, at the moment, the threaded rod 14 at the moment, the second filter screen 16 at the two sides can be driven to simultaneously move downwards and are fixedly and are stored in the connecting frame 9, at the two sides of the connecting frame 9, at the moment, the connecting frame 9 can automatically rotate to the bottom of the connecting frame 19, the second spiral shell 19 can be driven to stably move to the bottom end of the device shell 19 under the action of the connecting frame 1, the spiral shell can be stably driven to the bottom the sewage can be stably and the sewage can be conveyed to the bottom end of the device, and the sewage can be stably under the action of the sewage can be collected in the sewage can be conveyed to the bottom the sewage can and the sewage can in the sewage can and the sewage can in the sewage, and the sewage can, and the sewage can;

After the device work is finished, the staff can move and break away from the second clamping groove 26 at the side end of the collecting box 27 through the second clamping rod 25 which is pulled outwards until the second clamping rod 25 is moved, at this time, the collecting box 27 can be conveniently detached, and then waste water and sludge in the collecting boxes 27 at two sides can be conveniently transported, and similarly, when the collecting box 27 needs to be installed, the staff only needs to pull the second clamping rod 25 on the supporting plate 4 outwards again and push the collecting box 27 to reset, and then under the elastic action of the second connecting spring 24, the second clamping rod 25 can be driven to be automatically clamped into the second clamping groove 26 on the collecting box 27, so that the clamping installation of the collecting box 27 is completed, and the stability of the follow-up working state of the collecting box 27 is ensured.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (4)

1. The utility model provides a mud discharging device for hydrolysis acidification pool after carpet is woven dyeing and finishing processing, its characterized in that, including device shell (1), install conveying component (2) on device shell (1), fixedly connected with fixed plate (3) on device shell (1) side terminal surface, fixedly connected with backup pad (4) on the bottom terminal surface of fixed plate (3), install second hydraulic stem (5) in backup pad (4), the bottom fixedly connected with antiskid ribbed tile (6) of second hydraulic stem (5), install reduction subassembly (7) in device shell (1), be connected with circulation processing subassembly (8) on reduction subassembly (7), fixedly connected with connecting frame (9) in device shell (1), fixedly connected with waterproof frame (10) on the bottom terminal surface of connecting frame (9), install third servo motor (11) in waterproof frame (10), the output shaft rotation of third servo motor (11) is connected in connecting frame (9), first gear (12) of output shaft fixedly connected with bevel gear (12) on third servo motor (11), on bevel gear (13) are connected with on bevel gear (13), the threaded rod (14) is rotationally connected to the connecting plate (15), the connecting plate (15) is fixedly connected to the connecting frame (9), the threaded rod (14) is connected with the second filter screen plate (16) in a threaded manner, the second filter screen plate (16) is in limiting sliding connection to the connecting frame (9), the bottom of the device shell (1) is fixedly connected with the blanking cylinder (17), the fourth servo motor (18) is installed at the bottom end of the blanking cylinder (17), the second spiral rod (19) is fixedly connected to the output shaft of the fourth servo motor (18), the bottom side end of the blanking cylinder (17) is connected with the guide cylinder (20), the guide cylinder (20) is fixedly connected with the return spring (21), the top end of the return spring (21) is fixedly connected with the magnetic baffle plate (22), the magnetic baffle plate (22) is in limiting sliding connection to the guide cylinder (20), the bottom of the fourth servo motor (18) is fixedly connected with the partition plate (23), the side end of the support plate (4) is fixedly connected with the second spiral rod (19), the second clamping spring (24) is fixedly connected to the second clamping rod (25), the second clamping rod (25) is fixedly connected to the second clamping rod (25) and the second clamping rod (25) is fixedly connected to the end of the second clamping rod (25), the second clamping groove (26) is formed in the side end of the collecting box (27), the universal wheel (28) is mounted at the bottom of the collecting box (27), the conveying component (2) comprises a first hydraulic rod (201), one end of the first hydraulic rod (201) is fixedly connected with the side end of the device shell (1), the other end of the first hydraulic rod (201) is fixedly connected with the feeding cylinder (202), the top of the feeding cylinder (202) is provided with the first servo motor (203), the output end of the first servo motor (203) is connected with a first spiral rod (204), the bottom end of the first spiral rod (204) is fixedly connected with a scraping plate (205), the top side end of the feeding cylinder (202) is connected with a flexible hose (206), the other end of the flexible hose (206) is connected with a guide frame (207), the top end of the guide frame (207) is connected with a 208), the guide frame (207) is fixedly connected with the top end of the device shell (1), the motor (7) comprises a first spiral rod (204), the output end of the first servo motor (203) is connected with a rotary shaft (701) and the second servo motor (702) is fixedly connected with the top end of the second servo motor (702), the other end of the rotating rod (704) is rotationally connected with a transmission shaft (705), the bottom end of the transmission shaft (705) is rotationally connected with a guide block (706), the guide block (706) is in limit sliding connection in a guide frame (707), a mounting plate (708) is fixedly connected to the bottom end face of the guide frame (707), a second servo motor (701) is fixed to the center of the top end of the device shell (1), the top end face of the protection plate (703) is attached to the inner top end face of the device shell (1), the protection plate (703) is in a cross shape, the length and the width of the protection plate (703) are respectively larger than the length and the width of an opening at the bottom of the guide frame (207), the guide frame (707) is made of a large-aperture screen, the length and the width of the guide frame (707) are respectively equal to the length and the thickness of the mounting plate (708), the front end face and the rear end face of the mounting plate (708) are attached to the inner wall of the device shell (1), an electric heating tube (709) is mounted in the mounting plate (708), the first end face (710) is fixedly connected with a spring (710), the first end face (710) is fixedly connected with a spring (711), and the other end face (710) is fixedly connected with a spring (710), the sliding block (712) is in limit sliding connection in the first heat-conducting plate (710), fixedly connected with second heat-conducting plates (713) on the sliding block (712), install leading wheel (714) on the inside side terminal surface of device shell (1), electric heating pipe (709) equidistance distributes in mounting panel (708), the bottom surface of mounting panel (708) with the top terminal surface of connecting frame (9) is laminated mutually, first heat-conducting plates (710) equidistance distributes in the both sides of mounting panel (708), extrusion spring (711) symmetric distribution is in the inside both sides of first heat-conducting plates (710), extrusion spring (711) pass through sliding block (712) with second heat-conducting plates (713) one-to-one, the transversal right triangle that is personally submitted of second heat-conducting plates (713), leading wheel (714) equidistance distributes in the inside both sides of device shell (1), leading wheel (714) with first heat-conducting plates (710) are corresponding mutually, circulation processing subassembly (8) include fan (801), exhaust fan (803) are connected with all round transmission shaft (803) on the fixed connection round transmission shaft (803) have, on the transmission shaft (803) are connected with round transmission shaft (803) on the round transmission shaft (803), the inner gear (804) is fixedly connected to the inner top end face of the device housing (1), the top of the device housing (1) is connected with an air inlet pipe (805), a first filter screen plate (806) is fixedly connected to the bottom end face of the air inlet pipe (805), a processing frame (807) is connected to the other end of the air inlet pipe (805), the scraping rods (802) are symmetrically distributed on two sides of the top end of the transmission shaft (705), the length of each scraping rod (802) is larger than the bottom opening radius of the air inlet pipe (805), the top end face of each scraping rod (802) is attached to the bottom end face of the first filter screen plate (806), the processing frame (807) is fixedly connected to the side end face of the device housing (1), an exhaust pipe (808) is connected to the bottom end face of the processing frame (807), an active carbon screen plate (809) and a moisture removing screen plate (810) are connected to the side face of the device housing (1) in a penetrating and sliding mode, the end portions of the active carbon screen plate (809) and the moisture removing screen plate (810) are connected to the magnetic frame (811) in a magnetic mode, the other end fixedly connected with first clamping rod (813) of first connecting spring (812), first clamping rod (813) sliding connection is in magnetic frame (811), first draw-in groove (814) have all been seted up on active carbon otter board (809) and the dehumidification otter board (810), the tip block of first clamping rod (813) is connected in first draw-in groove (814), active carbon otter board (809) and the mutual laminating of dehumidification otter board (810), the shape size of active carbon otter board (809) with the shape size of dehumidification otter board (810) equals, active carbon otter board (809) with dehumidification otter board (810) all with the laminating of processing frame (807) inner wall mutually, first clamping rod (813) symmetric distribution is in the upper and lower both sides of magnetic frame (811), first clamping rod (813) with first draw-in groove (814) one-to-one.

2. The sludge discharge device for a hydrolytic acidification tank after carpet weaving, dyeing and finishing processing according to claim 1, wherein the sludge discharge device is characterized in that: the material of material loading section of thick bamboo (202) is the filter screen, the length of material loading section of thick bamboo (202) is less than the length of first hob (204), the top height of first hob (204) is higher than the top height of device shell (1), scraping plate (205) are central symmetry and distribute in the bottom both sides of first hob (204), the terminal surface of scraping plate (205) is circular-arc, inlet pipe (208) are connected the top center part of guide frame (207), the bottom face of guide frame (207) with the inside top face parallel and level of device shell (1).

3. The sludge discharge device for a hydrolytic acidification tank after carpet weaving, dyeing and finishing processing according to claim 1, wherein the sludge discharge device is characterized in that: the utility model discloses a device, including connecting frame (9), lower feed cylinder (17), baffle (22) and baffle (23) are equipped with, connecting frame (1) is equipped with inside middle part of connecting frame (1), the central axis of first conical gear (12) with the central axis of connecting frame (9) is located same vertical central line, second conical gear (13) symmetric distribution is in the both sides of first conical gear (12), second conical gear (13) are passed through threaded rod (14) with second filter screen plate (16) one-to-one, the up-and-down terminal surface of second filter screen plate (16) with the inner wall of connecting frame (9) laminating mutually, the front and back terminal surface of second filter screen plate (16) with the inner wall of device shell (1) laminating mutually, feed cylinder (17) are located under device shell (1), the inside bottom of device shell (1) is personally submitted circular arc, the length of feed cylinder (17) is less than the length of second hob (19), guide cylinder (20) symmetric distribution is in the bottom both sides of feed cylinder (17), guide cylinder (20) and baffle (23) are laminated mutually with baffle (23) each other.

4. A sludge discharge process for a hydrolytic acidification tank after carpet weaving, dyeing and finishing processing, which adopts the sludge discharge device for the hydrolytic acidification tank after carpet weaving, dyeing and finishing processing according to claim 1, and is characterized by comprising the following steps:

s1: after the waste water after carpet weaving, dyeing and finishing is treated in a hydrolysis acidification tank, a worker pushes a conveying component (2) on a device shell (1) into the hydrolysis acidification tank, and sucks sludge at the bottom of the hydrolysis acidification tank;

s2: the conveying component (2) pumps the sludge in the hydrolysis acidification tank into the device shell (1), and the sludge reduction treatment and the circulating drying treatment can be completed simultaneously by utilizing the reduction component (7) and the circulating treatment component (8), so that redundant wastewater in the sludge can be conveyed into a collecting box (27) at one side;

s3: after the sludge treatment work is finished, the second filter screen plates (16) on two sides can be driven to be accommodated in the connecting frame (9) through the threaded rod (14) by utilizing the driving of the third servo motor (11), and the sludge can be conveyed to the collecting box (27) on the other side through the spiral conveying of the second spiral rod (19);

s4: the wastewater and the sludge are transported in a classified way by utilizing a collecting box (27) and universal wheels (28).