CN112979132A

CN112979132A - Waste residue processing apparatus for sewage treatment

Info

Publication number: CN112979132A
Application number: CN202110201523.2A
Authority: CN
Inventors: 张丽
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-23
Filing date: 2021-02-23
Publication date: 2021-06-18

Abstract

The invention discloses a waste residue treatment device for sewage treatment, which comprises a plate-and-frame filter press main body and a treatment bin, wherein the treatment bin is arranged on one side of the discharge end of the plate-and-frame filter press main body and is positioned below the discharge end of the plate-and-frame filter press main body, an impact crushing mechanism is arranged in the treatment bin, a temperature-controlled heating mechanism is arranged below the treatment bin, and a quantitative loading mechanism is arranged at one end of the temperature-controlled heating mechanism. And the operation of transferring and storing is convenient, and the automatic continuous operation of the whole sewage and waste residue treatment can be realized.

Description

Waste residue processing apparatus for sewage treatment

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a waste residue treatment device for sewage treatment.

Background

According to statistics, more than two thousand municipal sewage plants have been built in China, the treatment capacity of municipal sewage reaches 1.22 hundred million tons per day, but the construction and operation of the sewage plants generate a large amount of excess sludge, generally, municipal sludge has 75% -85% of water content after being dehydrated and is easy to decay and stink, so the sludge needs to be dried, the sludge treatment is firstly concentrated and mechanically dried to make the sludge harmless and reduced, the fluid sludge with the water content of more than 90% can form sludge cakes after being dried by a filter press, the performance of sludge treatment equipment of different manufacturers is different, the water content of the treated sludge cakes is approximately between 30% -60%, the water content of the sludge cakes reaches below 40%, the sludge cakes accord with the standard of incineration disposal of sludge in China, can be mixed with coal in a fixed proportion and can be used as fuel for combustion and supply power or heating for national power grids, in addition, the sludge drying agent can be mixed with other materials to be used for making bricks, making cement and other building raw materials, so that a dry sludge cake formed after sludge filtration is actually a resource product, however, in the prior art, the equipment for drying sludge is mainly a plate-and-frame filter press, but the moisture of the sludge cake dried by the plate-and-frame filter press is still relatively high, the sludge cake cannot be directly reused, and the transportation and storage operation of massive sludge cakes with high humidity are difficult.

Disclosure of Invention

The invention aims to solve the problems, designs a waste residue treatment device for sewage treatment and solves the problems in the background technology.

The technical scheme of the invention for realizing the aim is as follows: a waste residue treatment device for sewage treatment comprises a plate-and-frame filter press main body and a treatment bin, wherein the treatment bin is arranged on one side of the discharge end of the plate-and-frame filter press main body and is positioned below the discharge end of the plate-and-frame filter press main body, an impact crushing mechanism is arranged in the treatment bin, a temperature-controlled heating mechanism is arranged below the treatment bin, and a quantitative loading mechanism is arranged at one end of the temperature-controlled heating mechanism;

the impact crushing mechanism comprises: the device comprises an impact crushing structure and a vibration material guiding structure, wherein the impact crushing structure is arranged on a treatment bin, one end of the impact crushing structure extends into the treatment bin, and the vibration material guiding structure is arranged at the lower end of the treatment bin;

the temperature control heating mechanism comprises: the device comprises a belt conveyor, a protective cover, a temperature control adjusting structure and a positioning rake-turning assembly, wherein the belt conveyor is arranged at the lower end of a treatment bin, the protective cover is buckled on the belt conveyor, the temperature control adjusting structure is arranged on the inner side wall surface of the protective cover, the upper end of the protective cover is provided with an exhaust port, the positioning rake-turning assembly is arranged in the protective cover, and one end of the positioning rake-turning assembly extends into one side of the belt conveyor;

the quantitative loading mechanism includes: the utility model provides a belt conveyor's material loading structure, including baffle box, to roller crusher, material collecting tank and ration, the baffle box sets up in band conveyer's discharge end one side, to roller crusher sets up on the baffle box lower extreme, the material collecting tank sets up on the lower extreme of pair roller crusher, the ration loads the structure and sets up on the lower extreme open position of material collecting tank.

The temperature control adjustment structure comprises: mounting groove, electric plate and accuse temperature regulating assembly, the mounting groove sets up on the interior lateral wall face of protection casing, the electric plate sets up in the mounting groove, accuse temperature regulating assembly sets up on the outside wall face of protection casing and one end stretches into in the protection casing.

The temperature control adjusting assembly comprises: the protective cover comprises a mounting seat, a temperature sensor and a controller module, wherein the mounting seat is arranged on the outer side wall surface of the protective cover, the temperature sensor is arranged on the inner side wall surface of the protective cover, and the controller module is arranged on the mounting seat and is connected with the temperature sensor and the electric hot plate.

The location turns over harrow subassembly includes: the connecting seat is arranged on the inner side wall surface of the protective cover, one end of the supporting rod is connected with the connecting seat, the other end of the supporting rod stretches into the upper portion of the belt conveyor, and the rake head is arranged on the lower side wall surface of the supporting rod.

The positioning rake-turning component adopts a plurality of groups of staggered arrangement, rake teeth on the rake head are of an arc structure, and the radian of the rake teeth is consistent with that of the belt surface of the belt conveyor.

The quantitative loading structure includes: mount, quantitative control subassembly and row material loading unit spare, the mount sets up on the groove that gathers materials, quantitative control subassembly sets up on the mount and in one end stretches into the groove that gathers materials, it sets up on the lower extreme of groove that gathers materials and one end is connected with quantitative control subassembly to arrange the material loading unit spare.

The quantitative control assembly comprises: servo motor, reduction gear and connecting axle, servo motor sets up on the mount, the input of reduction gear is the drive end with servo motor and is connected, the one end of connecting axle is connected with the output of reduction gear, the other end stretches into in the collecting groove.

The discharge loading assembly comprises: discharging pipe, pay-off screw rod and connector, the discharging pipe sets up on the lower extreme of collecting the silo, the pay-off screw rod cartridge is in the discharging pipe, the one end of connector is connected with the connecting axle, the other end is connected with the pay-off screw rod.

The impact crushing structure includes: mounting bracket, rotating electrical machines, axis of rotation and a plurality of impact roller, the mounting bracket sets up on handling the storehouse, rotating electrical machines sets up on the mounting bracket, axis of rotation one end is connected with rotating electrical machines, in the other end stretches into the processing storehouse, it is a plurality of the impact roller is along fixed welding of annular array on the lateral wall of axis of rotation.

The vibrations guide structure includes: discharge chute, compression spring and shock dynamo, the discharge chute rotates to set up on the lower extreme open position of handling the storehouse, compression spring one end is connected with the discharge chute lateral wall, the other end is connected with the processing storehouse, shock dynamo sets up on the lower extreme of discharge chute.

The waste residue treatment device for sewage treatment, which is manufactured by the technical scheme of the invention, is used for improving the existing plate and frame filter press main body, a treatment bin is arranged on one side of the discharge end of the plate and frame filter press main body, an impact type crushing mechanism is arranged in the treatment bin, a temperature control heating mechanism is arranged at the lower part of the impact type crushing mechanism, sludge after sewage treatment is guided into the plate and frame filter press main body for filter pressing treatment, sludge cakes generated after filter pressing treatment enter a lower conveying channel, are conveyed out through the conveying channel and are put into the treatment bin, the impact type crushing mechanism is used for crushing the sludge cakes, block-shaped sludge cakes are made to enter the temperature control heating mechanism, the temperature control heating mechanism is used for drying the sludge cakes, the dried sludge blocks further enter a quantitative loading mechanism, the dried sludge blocks are further crushed, and then are discharged quantitatively and can be directly reused, the device is convenient to transport and store, can realize the automatic continuous operation of the whole sewage and waste residue treatment, and solves the problems that in the prior art, the device for drying sludge is mainly a plate-and-frame filter press, but the moisture of the sludge cake after drying by the plate-and-frame filter press is still relatively high, the sludge cake cannot be directly reused, and the transportation and storage operation of the blocky sludge cake with high humidity are difficult.

Drawings

FIG. 1 is a schematic view of a waste residue treatment apparatus for sewage treatment according to the present invention.

Fig. 2 is a schematic structural diagram of a front view cross section of an impact crushing mechanism of a waste residue treatment device for sewage treatment.

FIG. 3 is a schematic structural view of a temperature-controlled heating mechanism of a waste residue treatment apparatus for sewage treatment according to the present invention.

Fig. 4 is a schematic side view of A, A position of the waste residue treatment device for sewage treatment according to the present invention.

FIG. 5 is a schematic sectional view of a quantitative loading mechanism of a waste residue treatment apparatus for sewage treatment according to the present invention.

In the figure: 1-a plate and frame filter press main body; 2, a treatment bin; 3-a belt conveyor; 4-a protective cover; 5-a material guide groove; 6-double-roller type pulverizer; 7-a material collecting groove; 8-mounting grooves; 9-electric heating plate; 10-a mounting seat; 11-a temperature sensor; 12-a controller module; 13-a connecting seat; 14-a strut; 15-drag head; 16-a fixing frame; 17-a servo motor; 18-a reducer; 19-a connecting shaft; 20-a discharge pipe; 21-a feed screw; 22-a connector; 23-a mounting frame; 24-a rotary electric machine; 25-a rotating shaft; 26-an impact roll; 27-a discharge chute; 28-compression spring; 29-vibration motor.

Detailed Description

The present invention is described in detail below with reference to the accompanying drawings, as shown in fig. 1 to 5, all electrical components in the present application are connected to their adapted power supplies through wires, and an appropriate controller should be selected according to actual situations to meet control requirements, and specific connection and control sequence should be implemented by referring to the following working principle, in which the electrical connection between the electrical components is implemented in sequence, and the detailed connection means is a known technology in the art, and the following description mainly describes the working principle and process, and does not describe the electrical control.

Example (b): according to the attached drawings 1-5 of the specification, the plate and frame filter press main body 1 and the processing bin 2 are included, the position relation and the connection relation are as follows, the processing bin 2 is arranged on one side of the discharge end of the plate and frame filter press main body 1 and is located below the discharge end of the plate and frame filter press main body 1, an impact type crushing mechanism is arranged in the processing bin 2, a temperature control heating mechanism is arranged below the processing bin 2, a quantitative loading mechanism is arranged at one end of the temperature control heating mechanism, and the impact type crushing mechanism comprises: strike broken structure and vibrations guide structure, strike broken structure and set up on handling storehouse 2 and one end stretch into in handling storehouse 2, vibrations guide structure sets up on the lower extreme of handling storehouse 2, and wherein accuse temperature heating mechanism includes: band conveyer 3, protection casing 4, accuse temperature are adjusted structure and location and are turned over harrow subassembly, and band conveyer 3 sets up on the lower extreme position of handling storehouse 2, and protection casing 4 spiral-lock is on band conveyer 3, and accuse temperature is adjusted the structure and is set up on the side wall face in protection casing 4, and the gas vent has been seted up to the upper end of protection casing 4, and location turns over harrow subassembly and sets up in protection casing 4 and one end stretches into 3 one sides of band conveyer, and above-mentioned ration loading mechanism includes: a guide chute 5, a double-roller crusher 6, a material collecting chute 7 and a quantitative loading structure, wherein the guide chute 5 is arranged on one side of the discharge end of a belt conveyor 3, the double-roller crusher 6 is arranged on the lower end of the guide chute 5, the material collecting chute 7 is arranged on the lower end of the double-roller crusher 6, the quantitative loading structure is arranged on the lower end opening position of the material collecting chute 7, the existing plate and frame filter press main body 1 is improved, a treatment chamber 2 is arranged on one side of the discharge end of the plate and frame filter press main body 1, an impact type crushing mechanism is arranged in the treatment chamber 2, a temperature control heating mechanism is arranged on the lower part of the impact type crushing mechanism, the treated sludge of sewage is guided into the plate and frame filter press main body 1 for filter pressing treatment, the sludge cake generated after filter pressing treatment enters a lower conveying channel and is conveyed out through the conveying channel and put into the treatment chamber 2, the sludge cake, and make cubic mud cake enter into accuse temperature heating mechanism in, utilize accuse temperature heating mechanism to carry out drying process to the mud cake, the further quantitative loading mechanism that enters into of mud piece after the stoving, go on further smashing the back to dry mud piece, the ration ejection of compact can directly carry out the reutilization, and transport and save the operation convenience, can realize the automatic continuous operation of whole sewage waste residue processing.

As can be seen from the accompanying drawings 1 to 5 in the specification, in the specific implementation process, the temperature control adjusting structure comprises: mounting groove 8, electric plate 9 and accuse temperature regulating assembly, mounting groove 8 sets up on the interior lateral wall face of protection casing 4, and electric plate 9 sets up in mounting groove 8, and accuse temperature regulating assembly sets up on the outside wall face of protection casing 4 and in one end stretches into protection casing 4, wherein accuse temperature regulating assembly includes: mount pad 10, temperature sensor 11 and controller module 12, mount pad 10 sets up on the outside wall of protection casing 4, and temperature sensor 11 sets up on the inside wall face of protection casing 4, and controller module 12 sets up on mount pad 10 and is connected with temperature sensor 11 and electric plate 9, and above-mentioned location turns over harrow subassembly and includes: the connecting seat 13, the supporting rod 14 and the rake head 15, the connecting seat 13 is arranged on the inner side wall surface of the protective cover 4, one end of the supporting rod 14 is connected with the connecting seat 13, the other end of the supporting rod extends into the upper part of the belt conveyor 3, the rake head 15 is arranged on the lower side wall surface of the supporting rod 14, the positioning rake-turning components are arranged in a multi-group staggered mode, rake teeth on the rake head 15 are of an arc structure, the radian of the rake teeth is consistent with that of the belt surface of the belt conveyor 3, when the positioning rake-turning components are used, mud cakes enter the processing bin 2 and are impacted and crushed through the impact crushing mechanism, the crushed mud cakes enter the belt conveyor, the temperature of the electric heating plate 9 in the mounting groove 8 in the protective cover 4 is controlled through the controller module 12 on the side wall of the mounting seat 10, so as to improve the temperature in the protective cover 4, then, the mud cakes in the belt conveyor 3 are dried, and moisture generated in the, and utilize temperature sensor 11 to monitor the ambient temperature in the protection casing 4, in clod transfer process, the rake head 15 of branch 14 lower extreme on connecting seat 13 turns over the harrow to the clod to can improve stoving operating efficiency greatly, the location turns over harrow subassembly and adopts multiunit staggered arrangement, and the rake teeth on the rake head 15 is arc structure and the radian is unanimous with the belt face of band conveyer 3 can further improve the evaporation rate of moisture.

As can be seen from the accompanying FIGS. 1-5, in the specific implementation process, the quantitative loading structure comprises: mount 16, quantitative control subassembly and row material loading unit spare, mount 16 sets up on the groove 7 that gathers materials, and quantitative control subassembly sets up on mount 16 and one end stretch into in the groove 7 that gathers materials, arranges material loading unit spare and sets up on the lower extreme of groove 7 that gathers materials and one end is connected with quantitative control subassembly, and wherein quantitative control subassembly includes: servo motor 17, reduction gear 18 and connecting axle 19, servo motor 17 sets up on mount 16, and the input of reduction gear 18 is the drive end with servo motor 17 and is connected, and connecting axle 19's one end is connected with reduction gear 18's output, in the other end stretches into the silo 7 that gathers materials, above-mentioned row of expecting loads the subassembly and includes: a discharge pipe 20, a feeding screw 21 and a connector 22, wherein the discharge pipe 20 is arranged at the lower end of the material collecting groove 7, the feeding screw 21 is inserted into the discharge pipe 20, one end of the connector 22 is connected with the connecting shaft 19, the other end is connected with the feeding screw 21, when in use, the dried mud block enters the material guide chute 5, the roller type crusher 6 is crushed, the crushed waste residue powder enters the material collecting chute 7, the servo motor 17 on the fixed frame 16 at the upper part of the material collecting chute 7 is started to control the driving end of the servo motor 17 to rotate, thereby driving the input end of the reducer 18 to rotate, the input end of the reducer 18 rotates synchronously to make the output end of the reducer 18 rotate, the output end of the reducer 18 rotates to drive the feeding screw 21 to rotate, the feeding screw 21 rotates, thereby realizing the quantitative exporting and loading of the waste residue powder under the matching action of the discharging pipe 20.

In a specific implementation, the impact crushing structure comprises: mounting bracket 23, rotating electrical machines 24, axis of rotation 25 and a plurality of impact roller 26, mounting bracket 23 sets up on handling storehouse 2, and rotating electrical machines 24 sets up on

mounting bracket

23, and 25 one end of axis of rotation is connected with rotating electrical machines 24, in the other end stretches into handling storehouse 2, and a plurality of impact roller 26 are fixed to be welded on the lateral wall of axis of rotation 25 along annular array, and wherein vibrations guide structure includes: discharge chute 27, compression spring 28 and shock dynamo 29, discharge chute 27 rotates and sets up on the lower extreme open position who handles storehouse 2, compression spring 28 one end is connected with discharge chute 27 lateral wall, the other end is connected with handling storehouse 2, shock dynamo 29 sets up on discharge chute 27's lower extreme, when using, start the rotary dynamo 24 on the mounting bracket 23 who handles storehouse 2 upper portion, control rotary dynamo 24's drive end rotates, then drive axis of rotation 25 and rotate, axis of rotation 25 rotates, thereby make the last impact roller 26 of axis of rotation 25 rotate, the mud cake that frame pressure filter main part operation produced enters into handles storehouse 2, then strike the broken fritter of mud cake, under the action of gravity, the mud cake enters into discharge chute 27 on, start the shock dynamo 29 of discharge chute 27 lower extreme, under the effect of vibrations, derive the mud cake to belt conveyor 3 on.

To sum up, the waste residue treatment device for sewage treatment improves the existing plate and frame filter press main body 1, a treatment bin 2 is arranged on one side of the discharge end of the plate and frame filter press main body 1, an impact type crushing mechanism is arranged in the treatment bin 2, a temperature control heating mechanism is arranged on the lower part of the impact type crushing mechanism, sludge after sewage treatment is guided into the plate and frame filter press main body 1 for filter pressing treatment, sludge cakes generated after filter pressing treatment enter a lower conveying channel, are conveyed out through the conveying channel and are put into the treatment bin 2, the impact type crushing mechanism is utilized to crush the sludge cakes, the blocky sludge cakes enter the temperature control heating mechanism, the temperature control heating mechanism is utilized to dry the sludge cakes, the dried sludge blocks further enter a quantitative loading mechanism, the dried sludge blocks are further crushed, and then are discharged quantitatively and can be directly utilized secondarily, the device is convenient to transport and store, can realize the automatic continuous operation of the whole sewage and waste residue treatment, and solves the problems that in the prior art, the device for drying sludge is mainly a plate-and-frame filter press, but the moisture of the sludge cake after drying by the plate-and-frame filter press is still relatively high, the sludge cake cannot be directly reused, and the transportation and storage operation of the blocky sludge cake with high humidity are difficult.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. A waste residue treatment device for sewage treatment comprises a plate-and-frame filter press main body (1) and a treatment bin (2), and is characterized in that the treatment bin (2) is arranged on one side of the discharge end of the plate-and-frame filter press main body (1) and is positioned below the discharge end of the plate-and-frame filter press main body (1), an impact type crushing mechanism is arranged in the treatment bin (2), a temperature-controlled heating mechanism is arranged below the treatment bin (2), and a quantitative loading mechanism is arranged at one end of the temperature-controlled heating mechanism;

the impact crushing mechanism comprises: the device comprises an impact crushing structure and a vibration material guiding structure, wherein the impact crushing structure is arranged on a treatment bin (2), one end of the impact crushing structure extends into the treatment bin (2), and the vibration material guiding structure is arranged at the lower end of the treatment bin (2);

the temperature control heating mechanism comprises: the temperature control device comprises a belt conveyor (3), a protective cover (4), a temperature control adjusting structure and a positioning rake-turning assembly, wherein the belt conveyor (3) is arranged at the lower end of a treatment bin (2), the protective cover (4) is buckled on the belt conveyor (3), the temperature control adjusting structure is arranged on the inner side wall surface of the protective cover (4), an air outlet is formed in the upper end of the protective cover (4), the positioning rake-turning assembly is arranged in the protective cover (4), and one end of the positioning rake-turning assembly extends into one side of the belt conveyor (3);

the quantitative loading mechanism includes: baffle box (5), to roll crusher (6), material collecting tank (7) and ration loading structure, baffle box (5) set up in the discharge end one side of band conveyer (3), set up on baffle box (5) lower extreme to roll crusher (6), material collecting tank (7) set up on the lower extreme to roll crusher (6), the ration loading structure sets up on the lower extreme open position of material collecting tank (7).

2. The apparatus of claim 1, wherein the temperature control adjustment structure comprises: mounting groove (8), electric plate (9) and accuse temperature regulating block, mounting groove (8) set up on the interior lateral wall face of protection casing (4), electric plate (9) set up in mounting groove (8), accuse temperature regulating block sets up on the outside wall face of protection casing (4) and one end stretches into in protection casing (4).

3. The apparatus of claim 2, wherein the temperature control adjustment assembly comprises: mount pad (10), temperature sensor (11) and controller module (12), mount pad (10) set up on the outside wall face of protection casing (4), temperature sensor (11) set up on the protection casing (4) inside wall face, controller module (12) set up on mount pad (10) and are connected with temperature sensor (11) and electric plate (9).

4. A waste residue treatment apparatus for sewage treatment as claimed in claim 3, wherein said positioning raker assembly comprises: connecting seat (13), branch (14) and harrow head (15), connecting seat (13) set up on the interior lateral wall face of protection casing (4), the one end of branch (14) is connected with connecting seat (13), and the other end stretches into band conveyer (3) top, harrow head (15) set up on the downside wall face of branch (14).

5. A waste residue treatment device for sewage treatment according to claim 4, wherein the positioning rake-overturning components are arranged in a plurality of groups in a staggered manner, and rake teeth on the rake head (15) are of an arc structure and have the radian consistent with the belt surface of the belt conveyor (3).

6. A waste residue treatment apparatus for sewage treatment as set forth in claim 1, wherein said quantitative loading structure comprises: mount (16), ration control subassembly and row material loading assembly, mount (16) set up on album silo (7), ration control subassembly sets up on mount (16) and in one end stretched into album silo (7), row material loading assembly sets up on the lower extreme of album silo (7) and one end is connected with ration control subassembly.

7. A waste residue treatment apparatus for sewage treatment as set forth in claim 6, wherein said quantitative control module comprises: servo motor (17), reduction gear (18) and connecting axle (19), servo motor (17) set up on mount (16), the input and servo motor (17) of reduction gear (18) are the drive end and are connected, the one end of connecting axle (19) is connected with the output of reduction gear (18), the other end stretches into in trough (7) that gathers materials.

8. A waste residue processing apparatus for sewage treatment as set forth in claim 7, wherein said discharge loading module includes: discharging pipe (20), pay-off screw rod (21) and connector (22), discharging pipe (20) set up on the lower extreme of collecting groove (7), pay-off screw rod (21) cartridge is in discharging pipe (20), the one end of connector (22) is connected with connecting axle (19), and the other end is connected with pay-off screw rod (21).

9. A waste residue treatment apparatus for sewage treatment as set forth in claim 1, wherein said impact crushing structure comprises: mounting bracket (23), rotating electrical machines (24), axis of rotation (25) and a plurality of impact roller (26), mounting bracket (23) set up on handling storehouse (2), rotating electrical machines (24) set up on mounting bracket (23), axis of rotation (25) one end is connected with rotating electrical machines (24), the other end stretches into in handling storehouse (2), and is a plurality of impact roller (26) are fixed to be welded on the lateral wall of axis of rotation (25) along annular array.

10. The waste residue processing apparatus for sewage treatment as set forth in claim 9, wherein said vibration material guiding structure comprises: blown down tank (27), compression spring (28) and shock dynamo (29), blown down tank (27) rotate to set up on handling the lower extreme open position in storehouse (2), compression spring (28) one end is connected with blown down tank (27) lateral wall, the other end with handle storehouse (2) and be connected, shock dynamo (29) set up on the lower extreme of blown down tank (27).