CN114877644B

CN114877644B - Drying equipment is used in production of mud active carbon

Info

Publication number: CN114877644B
Application number: CN202210789041.8A
Authority: CN
Inventors: 颜炳林; 管延富
Original assignee: Shandong Haipuou Environmental Protection Equipment Co ltd
Current assignee: Hippo Environmental Protection Group Co.,Ltd.
Priority date: 2022-07-06
Filing date: 2022-07-06
Publication date: 2022-09-09
Anticipated expiration: 2042-07-06
Also published as: CN114877644A

Abstract

The invention discloses drying equipment for producing sludge activated carbon based on a vacuum dehydration technology, which belongs to the technical field of drying and comprises a machine body, wherein an electric heating tube is fixedly arranged in a side shell cavity of the machine body; according to the invention, the material receiving assembly is arranged in the material receiving assembly, so that the effect of automatically turning over the activated carbon while drying the activated carbon can be realized, the drying efficiency of the activated carbon is improved, meanwhile, the activated carbon can be automatically pushed through the magnetic assembly, the comprehensiveness of turning over is ensured, meanwhile, reverse turning over can be performed after drying, some activated carbon deposited on the lower layer can be continuously dried, the drying uniformity is improved, and the using effect is good.

Description

Drying equipment is used in production of mud active carbon

Technical Field

The invention belongs to the technical field of drying, and particularly relates to drying equipment for producing sludge activated carbon.

Background

Drying is a common processing technology, and is a technological method for removing moisture and humidity in materials, when many products are produced, in order to improve the preservation effect, drying treatment needs to be carried out on the products, meanwhile, when the materials are dried, drying equipment needs to be used, the sizes and the structures of the drying equipment are different, so that the types of the materials processed by the drying equipment are different, and when active carbon is dried, the drying equipment needs to be used.

Chinese patent discloses (CN 107906925A) a regenerated activated carbon drying device, which comprises: the spiral conveying device is used for crushing the regenerated activated carbon and conveying the crushed regenerated activated carbon; the hot air flow generating device is used for generating hot air flow with a first preset temperature and conveying the hot air flow; the first separation device is internally provided with a rotational flow air distribution belt for separating the crushed regenerated active carbon conveyed from the screw conveying device into powdery active carbon and waste particles through hot air flow; the drying and separating device comprises a dryer and a cyclone separator, wherein the dryer is used for performing heat exchange on the powdered activated carbon and hot air to complete drying, and the cyclone separator is used for separating the dried powdered activated carbon from the hot air. This regeneration active carbon drying equipment and drying method can break into the granule of certain granularity and proportion with regeneration active carbon, be convenient for the better drying of regeneration active carbon, present active carbon drying equipment, in order to improve holistic drying efficiency, generally can additionally set up the stirring structure, carry out the area of contact of stirring in order to improve active carbon and hot gas flow to active carbon, improve drying efficiency, nevertheless can consume a large amount of electric energy, and simultaneously, when carrying out the stirring, the active carbon can overturn the outside, the active carbon that leads to the outside can't carry out good stirring, the result of use is not good, in order to solve this problem, need a drying equipment for the production of sludge activated carbon urgently.

Disclosure of Invention

The invention aims to: in order to solve present active carbon drying equipment, in order to improve holistic drying efficiency, generally can additionally set up the stirring structure, carry out the stirring in order to improve the area of contact of active carbon and hot gas flow to the active carbon, improve drying efficiency, nevertheless can consume a large amount of electric energy, simultaneously, when carrying out the stirring, the active carbon can turn over to the outside, lead to the active carbon in the outside can't carry out good stirring, result of use and not good problem, and the production of a mud active carbon drying equipment who provides.

In order to achieve the purpose, the invention adopts the following technical scheme: a drying device for producing sludge activated carbon comprises a machine body, wherein an electric heating tube is fixedly installed in a side shell cavity of the machine body, a top shell is fixedly installed at the top of the machine body, a feeding hole is fixedly installed at the top of the top shell, a driving rack and a baffle are longitudinally and fixedly installed on the bottom surface of the top shell, and a pressure-bearing air guide mechanism and a material receiving assembly are arranged on the inner wall of the bottom surface of the machine body;

the material receiving assembly comprises a material receiving box, two mounting seats are fixedly mounted on the top surface of a frame body of the material receiving box, an installation main shaft is rotatably mounted between the two mounting seats, an engagement gear and a material turning plate are fixedly mounted on the outer portion of the installation main shaft, the engagement gear and a driving rack are connected in an engaged mode, four pressure-bearing spring shafts are fixedly mounted at the bottom of the material receiving box, and the bottom ends of the four pressure-bearing spring shafts are fixedly connected with the inner wall of the bottom of the machine body.

As a further description of the above technical solution:

an installation inner groove is formed in a side shell of the material receiving box, a built-in magnet plate is fixedly installed inside the installation inner groove, a guide rail is fixedly installed on the inner wall of the material receiving box, a material pushing magnet plate is installed on the guide rail in a sliding mode, the magnetic poles of the material pushing magnet plate and the magnetic poles of the built-in magnet plate are the same, the baffle and the installation inner groove are installed in a matched mode, the baffle is located between the material pushing magnet plate and the built-in magnet plate, and a drying net is fixedly installed at the bottom of the material receiving box.

As a further description of the above technical solution:

the pressure-bearing air guide mechanism comprises a pressure-bearing seat, a top plate is fixedly mounted at the top of the pressure-bearing seat, an air guide assembly is longitudinally and fixedly mounted in the pressure-bearing seat, and the top surfaces of two sides of the pressure-bearing seat are obliquely arranged.

As a further description of the above technical solution:

the air guide assembly comprises an air cylinder, a cylindrical shell is fixedly mounted on the outer wall of one side of the air cylinder through a connecting pipe, an air outlet guide pipe is fixedly mounted on the outer wall of one side of the cylindrical shell, an accelerating volute is mounted inside the cylindrical shell, and a cylinder cover is fixedly mounted at the top of the air cylinder.

As a further description of the above technical solution:

one end of the air outlet guide pipe penetrates through and extends to the outer side of the cylinder cover, a piston shaft is slidably mounted in the cylinder, and the top plate and the air pushing piston are fixedly mounted at the top end and the bottom end of the piston shaft respectively.

As a further description of the above technical solution:

the inner wall sliding connection of air piston and inflator, the top plate is located the outside of inflator, fixed mounting has outer spring on the top surface of cover, outer spring suit is in the outside of piston axle.

As a further description of the above technical solution:

all be provided with the condensation subassembly on the both sides outer wall of organism, the condensation subassembly includes the condensing box, fixed mounting has the aqueduct on the bottom surface of condensing box, the one end fixed mounting of aqueduct has a water board.

As a further description of the above technical solution:

the water outlet plate is located above the inclined plane of the bearing seat, a side cover is fixedly mounted on one side of the condensing box, a liquid gathering base is fixedly mounted on the inner wall of the bottom surface of the condensing box, and a water through hole is formed in the middle of the liquid gathering base.

As a further description of the above technical solution:

fixed mounting has vortex refrigerator on one side inner wall of condensing box, all there are two snakelike condenser pipes through pipe support fixed mounting on the both sides inner wall of condensing box, and the one end of two snakelike condenser pipes all passes and extends to the inboard of organism.

As a further description of the above technical solution:

the bottom of the outer walls of the two sides of the machine body is fixedly provided with a sundry box, and the sundry box is connected with the machine body through a heat conduction pipe.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in the invention, the material receiving assembly is arranged in the machine body, when the active carbon is dried, the active carbon is added into the machine body through the material inlet, the electric heating pipe is opened, the temperature in the equipment is raised, the active carbon can fall into the material receiving assembly and is loaded in the material receiving box, the bearing pressure of the bearing spring is increased along with the increase of the weight of the added active carbon, the material receiving box automatically descends after the bearing pressure limit of the bearing spring is exceeded, the driving rack can drive the meshing gear which is meshed and connected with the driving rack to rotate in the descending process of the material receiving box, the mounting main shaft and the material turning plate synchronously rotate at the moment, the rotating material turning plate can automatically turn over the active carbon loaded in the material receiving box, the contact area of the active carbon and hot air is increased, the drying is carried out, meanwhile, when the material receiving box descends, the baffle plate can be separated from the mounting inner groove, and the blockage between the material pushing plate and the built-in magnet plate disappears, because the magnetic poles of the material pushing magnet plate and the built-in magnet plate are the same, the built-in magnet plate can generate resistance to the material pushing magnet plate, so that the material pushing magnet plate can be displaced, the active carbon can be automatically pushed to the middle part and is concentrated at the material turning plate, the comprehensiveness of the turning of the active carbon is improved, the problem that the rim charge cannot be well turned is avoided, meanwhile, after the active carbon is dried, the internal moisture disappears, the gravity in the material receiving box is reduced, the material receiving box can be slowly lifted by the bearing spring shaft, and the material turning plate can continuously perform reverse drying and turning, through the linkage structure design, the effect of automatic turning while drying the active carbon can be realized, the drying efficiency of the active carbon is improved, meanwhile, the automatic pushing of the active carbon can be realized through the magnetic assembly, the comprehensiveness of the turning is ensured, meanwhile, the reverse turning can be performed after the drying, so that some active carbon deposited on the lower layer can be continuously dried, improve the drying uniformity and have good use effect.

2. According to the invention, the pressure-bearing air guide mechanism is arranged in the material receiving assembly, when the material receiving assembly is pressed to descend, the material receiving assembly can generate contact pressure on the top plate of the pressure-bearing air guide mechanism, the top plate subjected to contact pressure enables the air pushing piston to move downwards, the air in the air cylinder is pressed into the cylindrical shell, the air flow can enter the accelerating scroll and accelerate, and finally the air flow is led out through the air outlet guide pipe.

3. In the invention, the condensing assembly and the impurity box are arranged outside, in the process of turning and drying the activated carbon by the material turning plate, the situation that some activated carbon cannot be cracked and fall through meshes of the drying net is avoided, the falling small-particle activated carbon can roll down to the impurity box through the inclined surface of the pressure bearing seat to be stored, when the activated carbon is dried, liquid in the activated carbon is evaporated to generate a large amount of water vapor, the water vapor can be slowly and upwards transferred into the two snakelike condensing pipes of the condensing assembly, the vortex refrigerator can continuously refrigerate, the water vapor enters the snakelike condensing pipes to be condensed into liquid to be accumulated, finally the liquid is dripped on the liquid collecting base, the guided water can flow on the inclined surface of the pressure bearing seat, some non-falling adhered activated carbon particles remained on the water can be flushed into the condensing box, meanwhile, the heat in the equipment can be synchronously transferred into the impurity box through the heat conducting pipe, the fine activated carbon material to some that collect in the miscellaneous workbin carries out synchronous drying, can take out after the drying, recycles, through this design, can effectively utilize the condensation to produce liquid to carry out synchronous cleanness in the device to the steam that the equipment internal drying produced, also can collect the activated carbon material that drops simultaneously, avoids the waste of resource.

Drawings

Fig. 1 is a schematic perspective view of a drying apparatus for producing sludge activated carbon.

Fig. 2 is an exploded perspective view of a drying apparatus for sludge activated carbon production.

Fig. 3 is a schematic diagram of an enlarged explosion three-dimensional structure of a top shell and a baffle plate in drying equipment for producing sludge activated carbon.

Fig. 4 is a schematic diagram of an enlarged explosion three-dimensional structure of a material receiving assembly in drying equipment for producing sludge activated carbon.

Fig. 5 is a schematic diagram of an enlarged explosion three-dimensional structure of a pressure-bearing air guide mechanism in drying equipment for producing sludge activated carbon.

FIG. 6 is a schematic diagram of an enlarged exploded perspective structure of an air guide assembly in a drying apparatus for producing sludge activated carbon.

Fig. 7 is an enlarged exploded perspective view of a condensing unit in a drying apparatus for sludge activated carbon production.

Fig. 8 is an enlarged schematic perspective view of an accelerating spiral disk in a drying device for producing sludge activated carbon.

Illustration of the drawings:

1. a feed inlet; 2. a top shell; 3. a condensing assembly; 31. a side cover; 32. a serpentine condenser tube; 33. a vortex refrigerator; 34. a condenser tank; 35. a liquid collecting base; 36. a water conduit; 37. a water outlet plate; 4. a sundry box; 5. a baffle plate; 6. a material receiving assembly; 61. a built-in magnet plate; 62. a material turning plate; 63. a meshing gear; 64. installing a main shaft; 65. a mounting seat; 66. a pushing magnet plate; 67. installing an inner groove; 68. a material receiving box; 69. a spring bearing shaft; 610. drying the net; 7. a pressure-bearing air guide mechanism; 71. a top plate; 72. an air guide assembly; 721. a topsheet; 722. a piston shaft; 723. an outer spring; 724. a cylinder cover; 725. a push piston; 726. an air cylinder; 727. an air outlet duct; 728. a cylindrical shell; 729. accelerating the worm disc; 73. a pressure bearing seat; 8. a driving rack; 9. a heat conducting pipe; 10. a body.

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. 1-8, the present invention provides a technical solution: a drying device for producing sludge activated carbon comprises a machine body 10, wherein an electric heating tube is fixedly installed in a side shell cavity of the machine body 10, a top shell 2 is fixedly installed at the top of the machine body 10, a feeding hole 1 is fixedly installed at the top of the top shell 2, a driving rack 8 and a baffle 5 are longitudinally and fixedly installed on the bottom surface of the top shell 2, and a pressure-bearing air guide mechanism 7 and a material receiving assembly 6 are arranged on the inner wall of the bottom surface of the machine body 10;

the material receiving assembly 6 comprises a material receiving box 68, two mounting seats 65 are fixedly mounted on the top surface of a frame body of the material receiving box 68, a mounting main shaft 64 is rotatably mounted between the two mounting seats 65, a meshing gear 63 and a material turning plate 62 are fixedly mounted on the outer portion of the mounting main shaft 64, the meshing gear 63 and the driving rack 8 are mutually meshed and connected, four pressure-bearing spring shafts 69 are fixedly mounted at the bottom of the material receiving box 68, the bottom ends of the four pressure-bearing spring shafts 69 are fixedly connected with the inner wall of the bottom surface of the machine body 10, an installation inner groove 67 is formed in a side shell of the material receiving box 68, an internal magnet plate 61 is fixedly mounted inside the installation inner groove 67, a guide rail is fixedly mounted on the inner wall of the material receiving box 68, a material pushing magnet plate 66 is slidably mounted on the guide rail, the magnetic poles of the material pushing magnet plate 66 and the internal magnet plate 61 are the same, and the baffle 5 and the installation inner groove 67 are mutually matched and mounted, the baffle 5 is positioned between the pushing magnet plate 66 and the built-in magnet plate 61, and the bottom of the material collecting box 68 is fixedly provided with a drying net 610.

The specific implementation mode is as follows: when the activated carbon is dried, the activated carbon is added into the machine body 10 through the feed inlet 1, the electric heating pipe is opened, the temperature in the equipment is raised, the activated carbon falls into the material receiving assembly 6 and is loaded in the material receiving box 68, the bearing pressure of the bearing spring shaft 69 is increased along with the increase of the weight of the added activated carbon, the material receiving box 68 automatically descends after the bearing pressure limit of the bearing spring shaft 69 is exceeded, the driving rack 8 can drive the meshing gear 63 meshed and connected with the driving rack to rotate in the descending process of the material receiving box 68, the mounting main shaft 64 and the material turning plate 62 synchronously rotate at the moment, the rotating material turning plate 62 can automatically turn over the activated carbon loaded in the material receiving box 68, the contact area between the activated carbon and hot air is increased, the drying is carried out, meanwhile, when the material receiving box 68 descends, the baffle 5 can be separated from the mounting inner groove 67, and the blockage between the material pushing plate 66 and the built-in magnet plate 61 disappears, because the magnetic poles of the material pushing magnet plate 66 and the magnetic poles of the internal magnet plate 61 are the same, the internal magnet plate 61 can generate resistance to the material pushing magnet plate 66, so that the material pushing magnet plate 66 can be displaced, the activated carbon can be automatically pushed to the middle part and concentrated at the material turning plate 62, the comprehensiveness of the turning of the activated carbon is improved, the problem that the rim charge cannot be well turned is solved, meanwhile, after the activated carbon is dried, the internal moisture disappears, the gravity in the material receiving box 68 is reduced, the pressure-bearing spring shaft 69 can slowly lift the material receiving box 68, and the material turning plate 62 can continue to reversely dry and turn the material.

The pressure-bearing air guide mechanism 7 comprises a pressure-bearing seat 73, a top plate 71 is fixedly mounted at the top of the pressure-bearing seat 73, an air guide assembly 72 is longitudinally and fixedly mounted in the pressure-bearing seat 73, the top surfaces of the two sides of the pressure-bearing seat 73 are obliquely arranged, the air guide assembly 72 comprises an air cylinder 726, a cylindrical shell 728 is fixedly mounted on the outer wall of one side of the air cylinder 726 through a connecting pipe, an air outlet conduit 727 is fixedly mounted on the outer wall of one side of the cylindrical shell 728, an accelerating spiral disk 729 is mounted in the cylindrical shell 728, a cylinder cover 724 is fixedly mounted at the top of the air cylinder 726, one end of the air outlet conduit 727 penetrates through and extends to the outer side of the cylinder cover 724, a piston shaft 722 is slidably mounted in the air cylinder 726, a top plate 721 and an air pushing piston 725 are fixedly mounted at the top end and the bottom end of the piston shaft 722 respectively, and the air pushing piston 725 is slidably connected with the inner wall of the air cylinder 726, the top plate 721 is located outside the cylinder 726, an outer spring 723 is fixedly installed on the top surface of the cylinder cover 724, and the outer spring 723 is sleeved outside the piston shaft 722.

The specific implementation mode is as follows: when the material receiving assembly 6 is pressed and lowered, the material receiving assembly 6 can generate contact pressure on the top plate 721 of the pressure-bearing air guide mechanism 7, the contacted top plate 721 enables the air pushing piston 725 to move downwards, air in the air cylinder 726 is pressed into the cylindrical shell 728, air flow can enter the accelerating spiral disk 729 and accelerate, and finally the air flow is guided out through the air outlet duct 727, so that hot air flow in the equipment can rapidly flow to dry the activated carbon.

The condensing assembly 3 is arranged on the outer walls of the two sides of the machine body 10, the condensing assembly 3 comprises a condensing tank 34, a water guide pipe 36 is fixedly installed on the bottom surface of the condensation tank 34, one end of the water guide pipe 36 is fixedly installed with a water outlet plate 37, the water outlet plate 37 is positioned above the inclined plane of the pressure bearing seat 73, one side of the condensation tank 34 is fixedly provided with a side cover 31, a liquid collecting base 35 is fixedly arranged on the inner wall of the bottom surface of the condensing box 34, a water through hole is arranged at the middle position of the liquid collecting base 35, a vortex refrigerator 33 is fixedly arranged on the inner wall of one side of the condensation box 34, two snake-shaped condensation pipes 32 are fixedly arranged on the inner walls of the two sides of the condensation box 34 through pipe frames, one ends of the two snake-shaped condensation pipes 32 penetrate through and extend to the inner side of the machine body 10, the bottom of the outer walls of the two sides of the machine body 10 is fixedly provided with a material mixing box 4, and the material mixing box 4 is connected with the machine body 10 through a heat conducting pipe 9.

The specific implementation mode is as follows: in the process of turning and drying the activated carbon by the material turning plate 62, the situation that some activated carbon cannot fall through meshes of the drying net 610 due to fragmentation is avoided, the falling small-particle activated carbon can roll down to the sundry box 4 through the inclined surface of the pressure bearing seat 73 and is stored, when the activated carbon is dried, liquid in the activated carbon is evaporated to generate a large amount of water vapor, the water vapor can be slowly uploaded and guided into the two serpentine condenser pipes 32 of the condensing assembly 3, the vortex refrigerator 33 can continuously refrigerate, the water vapor enters the serpentine condenser pipes 32 to be condensed into liquid to be accumulated, finally the liquid is dripped on the liquid collecting base 35 and is guided out through the water outlet plate 37, the guided water can flow on the inclined surface of the pressure bearing seat 73, some remained non-falling adhered activated carbon particles are flushed into the condenser box 34, and meanwhile, heat in the equipment can be synchronously conducted into the sundry box 4 through the heat conducting pipe 9, and synchronously drying some fine activated carbon materials collected in the impurity box 4, and taking out after drying.

The working principle is as follows: when the activated carbon is dried, the activated carbon is added into the machine body 10 through the feed inlet 1, the electric heating pipe is opened, the temperature in the equipment is raised, the activated carbon falls into the material receiving assembly 6 and is loaded in the material receiving box 68, the bearing pressure of the bearing spring shaft 69 is increased along with the increase of the weight of the added activated carbon, the material receiving box 68 automatically descends after the bearing pressure limit of the bearing spring shaft 69 is exceeded, the driving rack 8 can drive the meshing gear 63 meshed and connected with the driving rack to rotate in the descending process of the material receiving box 68, the mounting main shaft 64 and the material turning plate 62 synchronously rotate at the moment, the rotating material turning plate 62 can automatically turn over the activated carbon loaded in the material receiving box 68, the contact area between the activated carbon and hot air is increased, the drying is carried out, meanwhile, when the material receiving box 68 descends, the baffle 5 can be separated from the mounting inner groove 67, and the blockage between the material pushing plate 66 and the built-in magnet plate 61 disappears, because the magnetic poles of the material pushing magnet plate 66 and the built-in magnet plate 61 are the same, the built-in magnet plate 61 generates resistance to the material pushing magnet plate 66, so that the material pushing magnet plate 66 is displaced, the activated carbon is automatically pushed to the middle part and is concentrated at the material turning plate 62, the comprehensiveness of the turning of the activated carbon is improved, the problem that the rim charge cannot be well turned is solved, meanwhile, after the activated carbon is dried, the internal moisture disappears, the gravity in the material receiving box 68 is reduced, the pressure-bearing spring shaft 69 can slowly lift the material receiving box 68, and the material turning plate 62 continues to reversely dry and turn the material; when the material receiving assembly 6 is pressed and lowered, the material receiving assembly 6 can generate contact pressure on the top plate 721 of the pressure-bearing air guide mechanism 7, the top plate 721 subjected to contact pressure enables the air pushing piston 725 to move downwards, air in the air cylinder 726 is pressed into the cylindrical shell 728, air flow can enter the accelerating spiral disk 729 and accelerate, and finally the air flow is led out through the air outlet duct 727, so that hot air flow in the equipment can rapidly flow to dry the activated carbon; in the process of turning and drying the activated carbon by the material turning plate 62, the situation that some activated carbon cannot fall through meshes of the drying net 610 due to fragmentation is avoided, the falling small-particle activated carbon can roll down to the sundry box 4 through the inclined surface of the pressure bearing seat 73 and is stored, when the activated carbon is dried, liquid in the activated carbon is evaporated to generate a large amount of water vapor, the water vapor can be slowly uploaded and guided into the two serpentine condenser pipes 32 of the condensing assembly 3, the vortex refrigerator 33 can continuously refrigerate, the water vapor enters the serpentine condenser pipes 32 to be condensed into liquid to be accumulated, finally the liquid is dripped on the liquid collecting base 35 and is guided out through the water outlet plate 37, the guided water can flow on the inclined surface of the pressure bearing seat 73, some remained non-falling adhered activated carbon particles are flushed into the condenser box 34, and meanwhile, heat in the equipment can be synchronously conducted into the sundry box 4 through the heat conducting pipe 9, some fine activated carbon materials collected in the impurity box 4 are synchronously dried and can be taken out after being dried.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a drying equipment is used in production of mud active carbon, includes organism (10), the side shell intracavity fixed mounting of organism (10) has the electrothermal tube, the top fixed mounting of organism (10) has top shell (2), the top fixed mounting of top shell (2) has feed inlet (1), its characterized in that: a driving rack (8) and a baffle (5) are longitudinally and fixedly installed on the bottom surface of the top shell (2), and a pressure-bearing air guide mechanism (7) and a material receiving assembly (6) are arranged on the inner wall of the bottom surface of the machine body (10);

the receiving assembly (6) comprises a receiving box (68), two mounting seats (65) are fixedly mounted on the top surface of a frame body of the receiving box (68), an installation main shaft (64) is rotatably mounted between the two mounting seats (65), a meshing gear (63) and a material turning plate (62) are fixedly mounted outside the installation main shaft (64), the meshing gear (63) is meshed with the driving rack (8) and connected with the driving rack (8), four pressure-bearing spring shafts (69) are fixedly mounted at the bottom of the receiving box (68), and the bottom ends of the four pressure-bearing spring shafts (69) are fixedly connected with the inner wall of the bottom surface of the machine body (10);

an installation inner groove (67) is formed in a side shell of the material receiving box (68), an internal magnet plate (61) is fixedly installed inside the installation inner groove (67), a guide rail is fixedly installed on the inner wall of the material receiving box (68), a material pushing magnet plate (66) is installed on the guide rail in a sliding mode, the material pushing magnet plate (66) and the internal magnet plate (61) have the same magnetic pole, the baffle (5) and the installation inner groove (67) are installed in a matched mode, the baffle (5) is located between the material pushing magnet plate (66) and the internal magnet plate (61), and a drying net (610) is fixedly installed at the bottom of the material receiving box (68);

the pressure-bearing air guide mechanism (7) comprises a pressure-bearing seat (73), a top plate (71) is fixedly mounted at the top of the pressure-bearing seat (73), an air guide assembly (72) is longitudinally and fixedly mounted in the pressure-bearing seat (73), and top surfaces of two sides of the pressure-bearing seat (73) are obliquely arranged;

the air guide assembly (72) comprises an air cylinder (726), a cylindrical shell (728) is fixedly installed on the outer wall of one side of the air cylinder (726) through a connecting pipe, an air outlet guide pipe (727) is fixedly installed on the outer wall of one side of the cylindrical shell (728), an accelerating volute (729) is installed inside the cylindrical shell (728), and a cylinder cover (724) is fixedly installed at the top of the air cylinder (726);

one end of the air outlet conduit (727) penetrates through and extends to the outer side of the cylinder cover (724), a piston shaft (722) is slidably mounted in the cylinder (726), and a top plate (721) and an air pushing piston (725) are fixedly mounted at the top end and the bottom end of the piston shaft (722) respectively;

the air pushing piston (725) is connected with the inner wall of the air cylinder (726) in a sliding mode, the top plate (721) is located on the outer side of the air cylinder (726), an outer spring (723) is fixedly installed on the top face of the cylinder cover (724), and the outer spring (723) is sleeved on the outer side of the piston shaft (722).

2. The drying equipment for producing the sludge activated carbon according to claim 1, wherein the condensing assemblies (3) are arranged on the outer walls of the two sides of the machine body (10), each condensing assembly (3) comprises a condensing box (34), a water guide pipe (36) is fixedly installed on the bottom surface of each condensing box (34), and a water outlet plate (37) is fixedly installed at one end of each water guide pipe (36).

3. The drying equipment for producing the sludge activated carbon according to claim 2, wherein the water outlet plate (37) is positioned above an inclined plane of the pressure bearing seat (73), a side cover (31) is fixedly installed on one side of the condensing box (34), a liquid gathering base (35) is fixedly installed on the inner wall of the bottom surface of the condensing box (34), and a water through hole is formed in the middle position of the liquid gathering base (35).

4. The drying equipment for producing the sludge activated carbon according to claim 3, wherein a vortex refrigerator (33) is fixedly installed on the inner wall of one side of the condensing box (34), two serpentine condenser pipes (32) are fixedly installed on the inner walls of the two sides of the condensing box (34) through pipe frames, and one ends of the two serpentine condenser pipes (32) penetrate through and extend to the inner side of the machine body (10).

5. The drying equipment for producing the sludge activated carbon according to claim 4, wherein the bottom of the outer walls of the two sides of the machine body (10) are fixedly provided with impurity boxes (4), and the impurity boxes (4) are connected with the machine body (10) through heat conduction pipes (9).