CN111943478B - Multi-temperature-channel organic sludge treatment system and efficient treatment method thereof - Google Patents

Abstract

The invention discloses a multi-temperature-channel organic sludge treatment system and an efficient treatment method thereof, and relates to the technical field of organic sludge treatment equipment. Through high-efficient puddler subassembly includes the rotatory main shaft in center, the downside is fixed respectively and is provided with fixed mounting panel and lower fixed mounting panel on the inside of last muddy mud jar main part, the rotatory main shaft in center runs through to set up at last fixed mounting panel and fixed mounting panel central point down and puts to the rotatory main shaft in center is provided with the installation swivel bearing piece with the department of running through of last fixed mounting panel and lower fixed mounting panel, the fixed rotatory puddler in center that is provided with in surface of the rotatory main shaft in center, it is provided with the rotatory pivot of side linkage to go up the rotation on the both ends of fixed mounting panel and lower fixed mounting panel, has solved and has stirred catalyst and organic sludge that can not be fine, has just so influenced subsequent organic sludge treatment operation content's problem.

Description

Multi-temperature-channel organic sludge treatment system and efficient treatment method thereof

Technical Field

The invention relates to the technical field of organic sludge treatment equipment, in particular to a multi-temperature-channel organic sludge treatment system and a high-efficiency treatment method thereof.

Background

In the sewage treatment process, a large amount of sludge is generated, and the sludge contains a large amount of toxic and harmful substances, such as parasitic ova, pathogenic microorganisms, synthetic organic matters, heavy metal ions and the like. Therefore, the sludge needs to be treated and disposed in time, so that toxic and harmful substances in the sludge can be stably treated or utilized; the useful substances can be comprehensively utilized, and the harm is changed into the benefit.

At this moment, organic sludge treatment equipment is needed, wherein stirring equipment is needed, and the traditional organic sludge stirring equipment has certain defects and cannot stir the catalyst and the organic sludge well, so that the subsequent organic sludge operation content is influenced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a multi-temperature-channel organic sludge treatment system and a high-efficiency treatment method thereof, and solves the problem that the subsequent organic sludge operation content is influenced because a catalyst and organic sludge cannot be well stirred.

In order to achieve the purpose, the invention is realized by the following technical scheme: a multi-temperature channel organic sludge treatment system and an efficient treatment method thereof comprise a main support plate, wherein a heating filter plate component is fixedly arranged inside the main support plate, an auger rod component is fixedly arranged on the main support plate at the lower part of the heating filter plate component, a sludge outlet port is arranged at the bottom of the other side of the auger rod component, and an upper sludge mixing tank component is fixedly arranged at the upper end of the heating filter plate component.

Preferably, the upper mixing mud tank component comprises an upper mixing mud tank main body, an outer fixing limiting block is fixedly arranged on the outer surface of the upper mixing mud tank main body, a mud tank mounting support is fixedly arranged on the bottom of the outer fixing limiting block, a catalyst filling port and an upper mixing mud tank main body feeding port are formed in the upper side of the upper mixing mud tank main body, an upper driving motor is fixedly arranged on an upper side port of the upper mixing mud tank main body, and a high-efficiency stirring rod assembly is fixedly arranged in the inner part of the upper mixing mud tank main body on the driving end of the upper driving motor.

Preferably, high-efficient stirring rod subassembly includes the rotatory main shaft in center, downside is fixed respectively on the inside of upmixing mud jar main part and is provided with fixed mounting panel and lower fixed mounting panel, the rotatory main shaft in center runs through to set up at last fixed mounting panel and fixed mounting panel central point down and puts to the rotatory main shaft in center is provided with the installation swivel bearing piece with the department of running through of last fixed mounting panel and lower fixed mounting panel, the fixed rotatory puddler in center that is provided with on the surface of the rotatory main shaft in center, it is provided with the rotatory pivot of side linkage to go up to rotate on the both ends of fixed mounting panel and lower fixed mounting panel, the fixed rotatory telescopic link rod of side linkage that is provided with in the rotatory pivot of side linkage, the inside of the rotatory telescopic link rod of side linkage is provided with inside spring part, the fixed side linkage stirring panel that is provided with of the expansion end of the rotatory telescopic link of side linkage.

Preferably, the heating filter plate component comprises an external heating box main board, a feed port is arranged at the upper end of the external heating box main board, a plurality of inclined heating panels are arranged inside the external heating box main board, a sliding filling panel outer frame is arranged inside the external heating box main board, a catalyst sliding filling plate is arranged inside the sliding filling panel outer frame in a sliding manner, a push-pull cylinder is fixedly arranged on one side of the catalyst sliding filling plate, and a discharge port is arranged at the bottom of the external heating box main board.

Preferably, the inclined heating panel comprises an inclined heating panel main body, a sludge guide groove is formed in the surface of the inclined heating panel main body, a cylindrical hole is formed in one side end face of the inclined heating panel main body, and an external heating pipe is arranged in the cylindrical hole.

Preferably, the inside of auger rod component is provided with motor, auger rod frame and rotation axis bearing frame, auger rod frame upside is provided with into end material mouth, and it links to each other to advance the end material mouth and the discharge gate of external heating box mainboard bottom.

Preferably, the upper mud mixing tank body is fixedly connected with the upper side of the heating filter plate component through a mud mixing tank mounting bracket.

Preferably, the sliding filling panel outer frame is arranged at the bottom port of the inclined heating panel side in the main board of the external heating box body, and the width value of the catalyst sliding filling panel is half of the width value of the sliding filling panel outer frame.

Preferably, the high-efficiency treatment method of any one of the multiple-temperature-channel organic sludge treatment systems comprises the following steps:

s1, adding a catalyst into organic sludge, adding the catalyst into the upper mixing tank main body at a feeding port of the upper mixing tank main body, adding the catalyst from a catalyst filling port, connecting a high-efficiency stirring rod assembly inside the upper mixing tank main body with a driving end of an upper driving motor, stirring the sludge and the catalyst inside the upper mixing tank main body by rotating a central rotating stirring rod, and meshing the outer end of the central rotating stirring rod between side linkage stirring panels, so that the rotating of the central rotating stirring rod drives the side linkage stirring panels to rotate.

S2, drying the sludge added with the catalyst, entering the interior of the external heating box body main board from the port of the feed inlet, enabling the sludge added with the catalyst to be in contact with the inclined heating panel firstly after being stirred, arranging an external heating pipe in the inclined heating panel, arranging a sludge guide groove on the surface of the inclined heating panel main body, enabling the external heating pipe to heat the sludge in a bending mode, enabling the sludge to have sufficient time, adding the catalyst from the lower end of the inclined heating panel through an outflow port, pushing the catalyst sliding filling plate into the interior of the external heating box body main board, enabling the sludge to be in contact with the catalyst sliding filling plate, and facilitating subsequent quick operation.

Advantageous effects

The invention provides a multi-temperature-channel organic sludge treatment system and a high-efficiency treatment method thereof. Compared with the prior art, the method has the following beneficial effects:

1. the utility model provides a multiple temperature way organic sludge treatment system, include central rotatory main shaft through high-efficient stirring rod subassembly, the downside is fixed respectively and is provided with fixed mounting panel and lower fixed mounting panel on the inside of upmixing mud jar main part, central rotatory main shaft runs through and sets up at last fixed mounting panel and fixed mounting panel central point down, and the department of running through of central rotatory main shaft and last fixed mounting panel and lower fixed mounting panel is provided with installation swivel bearing piece, the fixed rotatory puddler in center that is provided with on the surface of central rotatory main shaft, it is provided with the rotatory pivot of side linkage to rotate on the both ends of last fixed mounting panel and lower fixed mounting panel, the fixed rotatory flexible connecting rod of side linkage that is provided with in the rotatory pivot of side linkage, the inside of the rotatory flexible connecting rod of side linkage is provided with inside spring part, the fixed stirring panel that is provided with side linkage of the movable end of the rotatory flexible connecting rod of side linkage, the problem of stirring catalyst and organic sludge that can not be fine has just so influenced subsequent organic sludge operation content.

2. The utility model provides a multiple temperature way organic sludge treatment system, include external heating box mainboard through heating filter component, be provided with the feed inlet port on the upper end of external heating box mainboard, the inside of external heating box mainboard is provided with a plurality of slope heating panels, the inside of external heating box mainboard is provided with slip filling panel frame, the inside slip of slip filling panel frame is provided with catalyst slip filling board, the fixed push-and-pull cylinder that is provided with in one side of catalyst slip filling board, the bottom of external heating box mainboard is provided with the discharge gate, make it can carry out dehydration operation with the organic sludge after the catalysis stirring, make things convenient for its subsequent operation.

3. The utility model provides a multi-temperature way organic sludge treatment system, include external heating box mainboard through heating filter component, be provided with the feed inlet port on the upper end of external heating box mainboard, the inside of external heating box mainboard is provided with a plurality of slope heating panels, the inside of external heating box mainboard is provided with slip filling panel frame, the inside slip of slip filling panel frame is provided with catalyst slip filling plate, one side of catalyst slip filling plate is fixed and is provided with the push-and-pull cylinder, the bottom of external heating box mainboard is provided with the discharge gate, the slope heating panel includes the slope heating panel main part, the mud guide slot has been seted up on the surface of slope heating panel main part, the cylinder hole has been seted up on one side end face of slope heating panel main part, the cylinder downthehole is provided with external heating pipe, make it can heat organic sludge, and there is certain buffering time.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic structural view of an upper mud mixing tank component according to the present invention;

FIG. 4 is a schematic view of the construction of the high efficiency stirring rod assembly of the present invention;

FIG. 5 is a schematic view of the internal structure of the side-linked rotary telescopic link according to the present invention;

FIG. 6 is a schematic view of a heated filter plate member according to the present invention;

FIG. 7 is a front view of a heated filter plate member construction of the present invention;

FIG. 8 is a top view of a heated filter plate member construction according to the present invention;

FIG. 9 is a schematic view of the internal structure of the heated filter plate member of the present invention;

FIG. 10 is a schematic diagram of an inclined heating panel structure according to the present invention.

In the figure: 1. an upper mud mixing tank component; 11. an upper mud mixing tank main body; 12. a catalyst filling port; 13. a feeding hole of the upper mud mixing tank main body; 14. an upper drive motor; 15. an external fixation limiting block; 16. a mud mixing tank mounting bracket; 17. a high efficiency agitator bar assembly; 171. installing a rotary bearing block; 172. an upper fixed mounting panel; 173. the telescopic connecting rod is rotated in a side linkage manner; 174. a side linkage rotating shaft; 175. a lower fixed mounting panel; 176. a stirring rod is rotated in the center; 177. a central rotating main shaft; 178. a side linkage stirring panel; 179. an inner spring member; 2. heating the filter plate member; 21. an external heating box body main board; 22. a feed inlet port; 23. a catalyst slide filling plate; 24. pushing and pulling the cylinder; 25. sliding the outer frame of the filling panel; 26. tilting the heating panel; 261. tilting the heating panel main body; 262. a sludge guide tank; 263. externally arranging a heating pipe; 3. an auger stem member; 4. a main body bracket plate; 5. a sludge outlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a multi-temperature channel organic sludge treatment system and an efficient treatment method thereof comprise a main support plate 4, a heating filter plate component 2 is fixedly arranged inside the main support plate 4, an auger rod component 3 is fixedly arranged on the main support plate 4 at the lower part of the heating filter plate component 2, a sludge outlet port 5 is arranged at the bottom of the other side of the auger rod component 3, and an upper sludge mixing tank component 1 is fixedly arranged at the upper end of the heating filter plate component 2.

Referring to fig. 3, the upper mud mixing tank member 1 includes an upper mud mixing tank main body 11, an outer fixing limiting block 15 is fixedly disposed on an outer surface of the upper mud mixing tank main body 11, a mud mixing tank mounting bracket 16 is fixedly disposed at a bottom of the outer fixing limiting block 15, the upper mud mixing tank main body 11 is fixedly connected to an upper side of the heating filter plate member 2 through the mud mixing tank mounting bracket 16, a catalyst filling port 12 and an upper mud mixing tank main body feeding port 13 are formed in an upper side of the upper mud mixing tank main body 11, an upper driving motor 14 is fixedly disposed at an upper side port of the upper mud mixing tank main body 11, and a high-efficiency stirring rod assembly 17 is fixedly disposed inside the upper mud mixing tank main body 11 at a driving end of the upper driving motor 14.

Referring to fig. 4-5, the high-efficiency stirring rod assembly 17 includes a central rotating main shaft 177, an upper fixed mounting panel 172 and a lower fixed mounting panel 175 are respectively fixedly disposed on the upper and lower sides of the interior of the upper mud mixing tank body 11, the central rotating main shaft 177 penetrates the upper fixed mounting panel 172 and the lower fixed mounting panel 175, a mounting rotating bearing block 171 is disposed at the penetrating position of the central rotating main shaft 177, the upper fixed mounting panel 172 and the lower fixed mounting panel 175, a central rotating stirring rod 176 is fixedly disposed on the outer surface of the central rotating main shaft 177, side-linked rotating shafts 174 are rotatably disposed on the two ends of the upper fixed mounting panel 172 and the lower fixed mounting panel 175, side-linked rotating telescopic links 173 are fixedly disposed on the side-linked rotating shafts 174, an interior spring member 179 is disposed in the interior of the side-linked rotating telescopic links 173, and a side-linked stirring panel 178 is fixedly disposed at the movable end of the side-linked rotating telescopic links 173.

Referring to fig. 6-9, the heating filter plate member 2 includes an external heating box main board 21, a motor, an auger rod outer frame and a rotary bearing frame are disposed inside the auger rod member 3, a feed port is disposed on an upper side of the auger rod outer frame, the feed port is connected to a discharge port at a bottom of the external heating box main board 21, a feed port 22 is disposed on an upper end of the external heating box main board 21, a plurality of inclined heating panels 26 are disposed inside the external heating box main board 21, a sliding filling panel outer frame 25 is disposed inside the external heating box main board 21, a catalyst sliding filling plate 23 is slidably disposed inside the sliding filling panel outer frame 25, a push-pull cylinder 24 is fixedly disposed on one side of the catalyst sliding filling plate 23, a discharge port is disposed at a bottom port of the inclined heating panel 26 inside the external heating box main board 21, and a width of the catalyst sliding filling plate 23 is half of a width of the sliding filling panel 25.

Referring to fig. 10, the inclined heating panel 26 includes an inclined heating panel main body 261, a sludge guide groove 262 is formed on a surface of the inclined heating panel main body 261, a cylindrical hole is formed on an end surface of one side of the inclined heating panel main body 261, and an external heating pipe 263 is disposed in the cylindrical hole.

The high-efficiency treatment method of any one of the multi-temperature-channel organic sludge treatment systems comprises the following steps:

s1, adding a catalyst into organic sludge, adding the catalyst into the upper sludge mixing tank main body 11 at an upper sludge mixing tank main body feed port 13 on the upper sludge mixing tank main body 11, simultaneously adding the catalyst from a catalyst filling port 12, and connecting a high-efficiency stirring rod assembly 17 in the upper sludge mixing tank main body 11 with a drive end of an upper drive motor 14, so that the sludge and the catalyst in the upper sludge mixing tank main body 11 are stirred by the rotation of a central rotary stirring rod 176, and meanwhile, the outer end of the central rotary stirring rod 176 is engaged between side linkage stirring panels 178, so that the side linkage stirring panels 178 are driven to rotate by the rotation of the central rotary stirring rod 176;

s2, drying the sludge added with the catalyst, entering the interior of the external heating box body main board 21 from the position of the feed inlet port 22, enabling the sludge added with the catalyst to be firstly contacted with the inclined heating panel 26 after being stirred, arranging an external heating pipe 263 in the inclined heating panel 26, arranging a sludge guide groove 262 on the surface of the inclined heating panel main body 261, enabling the sludge to be bent, enabling the external heating pipe 263 to heat the sludge, adding the catalyst from the position of an outlet at the lower end of the inclined heating panel 26, pushing the catalyst sliding injection plate 23 into the interior of the external heating box body main board 21, enabling the sludge to be contacted with the catalyst sliding injection plate 23, and facilitating subsequent rapid operation.

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

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

Claims (3)

1. The utility model provides an organic sludge treatment system of many temperature channels, includes main part support plate (4), its characterized in that: a heating filter plate component (2) is fixedly arranged inside the main support plate (4), an auger rod component (3) is fixedly arranged on the lower part of the heating filter plate component (2) positioned on the main support plate (4), a sludge outlet port (5) is arranged at the bottom of the other side of the auger rod component (3), and an upper sludge mixing tank component (1) is fixedly arranged at the upper end of the heating filter plate component (2);

the upper mud mixing tank component (1) comprises an upper mud mixing tank main body (11), an outer fixing limiting block (15) is fixedly arranged on the outer surface of the upper mud mixing tank main body (11), a mud mixing tank mounting support (16) is fixedly arranged at the bottom of the outer fixing limiting block (15), a catalyst filling port (12) and an upper mud mixing tank main body feeding port (13) are formed in the upper side of the upper mud mixing tank main body (11), an upper driving motor (14) is fixedly arranged on an upper side port of the upper mud mixing tank main body (11), a high-efficiency stirring rod component (17) is fixedly arranged inside the upper mud mixing tank main body (11) on a driving end of the upper driving motor (14), and the high-efficiency stirring rod component (17) comprises a central rotating main shaft (177), go up the inside of muddy mud jar main part (11) and go up downside and fixedly provided with fixed mounting panel (172) and fixed mounting panel (175) down respectively, center rotating spindle (177) run through the setting and put at last fixed mounting panel (172) and fixed mounting panel (175) central point down to center rotating spindle (177) and last fixed mounting panel (172) and fixed mounting panel (175) run through the department and be provided with installation swivel bearing piece (171) down, the fixed rotatory puddler (176) of center that is provided with on the surface of center rotating spindle (177), go up the both ends top spin of fixed mounting panel (172) and lower fixed mounting panel (175) and spin up A side linkage rotating shaft (174) is rotatably arranged, a side linkage rotating telescopic connecting rod (173) is fixedly arranged on the side linkage rotating shaft (174), an internal spring piece (179) is arranged inside the side linkage rotating telescopic connecting rod (173), and a side linkage stirring panel (178) is fixedly arranged at the movable end of the side linkage rotating telescopic connecting rod (173);

the heating filter plate component (2) comprises an external heating box body main board (21), a feed port (22) is arranged at the upper end of the external heating box body main board (21), a plurality of inclined heating panels (26) are arranged inside the external heating box body main board (21), a sliding filling panel outer frame (25) is arranged inside the external heating box body main board (21), a catalyst sliding filling plate (23) is arranged inside the sliding filling panel outer frame (25) in a sliding manner, a push-pull cylinder (24) is fixedly arranged on one side of the catalyst sliding filling plate (23), a discharge port is arranged at the bottom of the external heating box body main board (21), the inclined heating panel (26) comprises an inclined heating panel main body (261), a sludge guide groove (262) is formed in the surface of the inclined heating panel main body (261), a cylindrical hole is formed in the end face of one side of the inclined heating panel main body (261), an external heating pipe (263) is arranged in the cylindrical hole, a motor, an auger rod and a rotating shaft bearing frame are arranged inside the auger rod, a feed port is arranged at the upper side of the auger rod, and is connected with the discharge port at the bottom of the external heating box body (21);

the efficient treatment method of the multi-temperature-channel organic sludge treatment system specifically comprises the following steps:

s1, adding a catalyst into organic sludge, adding the catalyst into an upper sludge mixing tank main body (11) at an upper sludge mixing tank main body feed inlet (13) of the upper sludge mixing tank main body (11), adding the catalyst from a catalyst feeding port (12), connecting a high-efficiency stirring rod assembly (17) in the upper sludge mixing tank main body (11) with a drive end of an upper drive motor (14), stirring sludge and the catalyst in the upper sludge mixing tank main body (11) by rotating a central rotating stirring rod (176), and meshing the outer end of the central rotating stirring rod (176) between side linkage stirring panels (178), so that the side linkage stirring panels (178) are driven to rotate by the rotation of the central rotating stirring rod (176);

s2, drying the sludge added with the catalyst, entering the interior of the external heating box main board (21) from the port (22) of the feed inlet, firstly contacting the sludge added with the catalyst after stirring with the inclined heating panel (26), arranging an external heating pipe (263) in the inclined heating panel (26), arranging a sludge guide groove (262) on the surface of the inclined heating panel main body (261), and bending the sludge guide groove (262), so that the sludge can have sufficient time to heat the external heating pipe (263), simultaneously flowing out from the lower end of the inclined heating panel (26), adding the catalyst from the catalyst sliding injection board (23), then pushing the catalyst sliding injection board (23) into the interior of the external heating box main board (21), and contacting the sludge with the catalyst sliding injection board (23), thereby facilitating subsequent rapid operation.

2. The multi-temperature channel organic sludge treatment system according to claim 1, wherein: the upper mud mixing tank main body (11) is fixedly connected with the upper side of the heating filter plate component (2) through a mud mixing tank mounting bracket (16).

3. The multi-temperature channel organic sludge treatment system according to claim 1, wherein: the sliding filling panel outer frame (25) is arranged at the bottom port of the side of the inclined heating panel (26) in the external heating box main plate (21), and the width value of the catalyst sliding filling plate (23) is half of the width value of the sliding filling panel outer frame (25).

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