CN113307467A - Biological charcoal soil amendment apparatus for producing of mud - Google Patents

Abstract

The invention discloses a device for producing a sludge biochar soil conditioner, which structurally comprises a supporting table, a pyrolysis device, a motor, a hopper, a material guide pipe, a heater and a collecting box, wherein the upper end surface of the left side of the supporting table is fixedly provided with the pyrolysis device, the top of the pyrolysis device is fixedly provided with the motor, a rotating rod is driven to rotate through the rotation of the motor to generate a certain external throwing force, the rotating rod slides inside a fixed pipe sleeve through a sliding shaft, so that a push rod is driven to push sludge outwards inside the fixed pipe sleeve, the uniformity of the heated sludge is improved, heat is dispersed into a plurality of heat guide pipes through the branch guide pipes, after entering the heat guide pipes, the ejection from the inside of the nozzles is accelerated through the extrusion of convex blocks, and through a plurality of nozzles which are vertically arranged, the round outer side of the whole heat insulation container body is subjected to more uniform heat, so that the whole sludge inside the heat insulation container body is comprehensively and uniformly heated, improving the integral pyrolysis effect of the sludge.

Description

Biological charcoal soil amendment apparatus for producing of mud

Technical Field

The invention relates to the field of sludge biochar soil, in particular to a production device of a sludge biochar soil conditioner.

Background

The biochar is a charcoal used as a soil conditioner, can help plant growth, can be applied to agricultural purposes and carbon collection and storage, is different from the traditional charcoal generally used as fuel, and the sludge also contains more carbon and has objective conditions for preparing the biochar, organic matter components in the sludge can be fully utilized by pyrolyzing the sludge through the pyrolysis device, so that the biochar is produced, but because the pyrolysis device pyrolyzes the sludge, heat generated by a heat energy generating device on the pyrolysis device is conducted to the interior of the pyrolysis device, so that the sludge is pyrolyzed, and the sludge has certain moisture, when the sludge is pyrolyzed at high temperature, carbon in a sludge carbon layer forms a thick layer and is easy to adhere to the inner wall of the pyrolysis device, so that the thickness of the inner wall of the pyrolysis device is increased, and the heat conduction efficiency is reduced, the sludge closer to the middle of the pyrolysis device is less heated, so that the overall pyrolysis effect of the sludge is reduced.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the sludge biochar soil conditioner production device structurally comprises a supporting table, a pyrolysis device, a motor, a hopper, a material guide pipe, a heater and a collecting box, wherein the pyrolysis device is fixedly arranged on the upper end face of the left side of the supporting table, the motor is fixedly arranged on the top of the pyrolysis device, the hopper is arranged at the right end of the material guide pipe, the left end of the material guide pipe is arranged at the upper right end of the pyrolysis device and communicated with the pyrolysis device, the heater is fixedly arranged on the upper end face of the right side of the supporting table, the heater is connected with the right side of the pyrolysis device, the collecting box is arranged at the lower right end of the supporting table, the pyrolysis device comprises a pyrolysis box, a stirring mechanism and a conduction mechanism, the material guide pipe is arranged at the upper right end of the pyrolysis box and communicated with the pyrolysis box, the stirring mechanism is arranged inside the pyrolysis box and synchronously rotates along with the output end of the motor, the conduction mechanism is arranged inside the pyrolysis box, and the conducting mechanism is positioned outside the stirring mechanism and is connected with the heater.

As a further improvement of the invention, the stirring mechanism comprises an outward pushing mechanism, a connecting rod, stirring pieces and an anti-sticking inner container, the middle part of the outward pushing mechanism synchronously rotates along with the output end of the motor, the outer side of the outward pushing mechanism is welded with one end of the connecting rod, the other end of the connecting rod is welded with the stirring pieces, the stirring pieces are abutted against the inner wall of the anti-sticking inner container, the anti-sticking inner container is fixedly arranged in the pyrolysis box, a conducting mechanism is arranged outside the anti-sticking inner container, and the connecting rod and the stirring pieces are respectively provided with four conducting mechanisms and are respectively arranged on four directions outside the outward pushing mechanism.

As a further improvement of the invention, the outward pushing mechanism comprises a rotating rod, a fixed pipe sleeve, a sliding shaft, a spring and a push rod, wherein the top of the rotating rod synchronously rotates along with the output end of the motor, the fixed pipe sleeve is welded on the outer side of the rotating rod, the sliding shaft is slidably mounted in the fixed pipe sleeve, the spring is fixedly mounted in the fixed pipe sleeve and fixed with the sliding shaft, the sliding shaft is arranged at the outer side end of the push rod, the push rod is mounted in the fixed pipe sleeve in a clearance fit manner, and the fixed pipe sleeve, the sliding shaft, the spring and the push rod are respectively arranged in four directions on the outer side of the rotating rod.

As a further improvement of the invention, the anti-sticking liner comprises a heat-insulating liner body, an extrusion ball and a top spring, wherein the heat-insulating liner body is fixedly arranged in the pyrolysis box, the extrusion ball is arranged on the inner wall of the heat-insulating liner body in a clearance fit manner, the extrusion ball is fixed with one end of the top spring, the top spring is arranged in the heat-insulating liner body, a conduction mechanism is arranged on the outer side of the heat-insulating liner body, ninety-six extrusion balls are arranged, twenty-four extrusion balls are in a group, and the groups of the ninety-six extrusion balls are vertically distributed on the inner wall of the heat-insulating liner body.

As a further improvement of the invention, the conduction mechanism comprises a heat insulation layer, a conduction pipe, a heat collection pipe, branch pipes and transmission mechanisms, the heat insulation layer is arranged on the outer side of the heat insulation liner body, the conduction pipe is fixedly embedded in the right end of the heat insulation layer and is communicated with the heat collection pipe, the heat collection pipe is positioned on the outer side of the heat insulation liner body, the branch pipes are arranged in the heat collection pipe and are communicated with the transmission mechanisms, the inner side end of each transmission mechanism is abutted against the outer side surface of the heat insulation liner body, the branch pipes and the transmission mechanisms are respectively provided with twenty-four, the twenty-four transmission mechanisms are in conduction connection through the twenty-four branch pipes, and the twenty-four transmission mechanisms are uniformly distributed on the outer side of the heat insulation liner body in a ring shape.

As a further improvement of the invention, the transfer mechanism comprises a heat pipe, a convex block and a nozzle, wherein the inside of the heat pipe is communicated with the branch pipe, the convex block is arranged on the inner wall of the heat pipe, the nozzle is fixedly embedded at the outer side end of the heat pipe and is communicated with the outer side surface of the heat preservation liner body, the nozzle is abutted against the outer side surface of the heat preservation liner body, and the nozzle is in a cavity round table structure with a wide inlet and a narrow outlet.

The invention has the beneficial effects that:

1. through the rotation of motor, driven the dwang and rotated, produced certain power of getting rid of outward, slide at fixed pipe box inside through the sliding shaft at this moment to having driven the push rod and having pushed mud outside fixed pipe box is inside, will be close to the mud at middle part and push out outward, stirring piece is laminating the internal wall of heat preservation courage simultaneously and is stirring, extrudees the extrusion ball, makes the carbon-layer of the internal inside adhesion of heat preservation courage take place to drop, improves the homogeneity that mud was heated.

2. Inside heat through the branch pipe dispersion to a plurality of heat pipes, the heat entered into the inside back of heat pipe, through the extrusion of lug for spout from the nozzle is inside, through a plurality of nozzles of vertical setting, thereby make the whole circular outside of heat preservation courage body receive more even heat, make the whole thermally equivalent that carries out of mud of the internal portion of heat preservation courage, improve the holistic pyrolysis effect of mud.

Drawings

FIG. 1 is a schematic structural diagram of a sludge biochar soil conditioner production device.

FIG. 2 is a schematic view of the internal structure of a pyrolysis apparatus according to the present invention.

FIG. 3 is a schematic top view of an agitating mechanism according to the present invention.

Fig. 4 is a schematic top sectional view of an extrapolation mechanism according to the present invention.

Fig. 5 is a schematic view of an anti-sticking liner and a partially enlarged structure of the liner.

FIG. 6 is a schematic top view of an internal structure of a conducting mechanism according to the present invention.

Fig. 7 is a schematic diagram of the internal structure of a transfer mechanism according to the present invention.

In the figure: the device comprises a support table-1, a pyrolysis device-2, a motor-3, a hopper-4, a material guide pipe-5, a heater-6, a collection box-7, a pyrolysis box-21, an agitation mechanism-22, a conduction mechanism-23, an outward pushing mechanism-221, a connecting rod-222, a stirring sheet-223, an anti-sticking inner container-224, a rotating rod-21 a, a fixed pipe sleeve-21 b, a sliding shaft-21 c, a spring-21 d, a push rod-21 e, a heat preservation inner container-24 a, an extrusion ball-24 b, a top spring-24 c, a heat insulation layer-231, a conduction pipe-232, a heat collection pipe-233, a branch pipe-234, a transmission mechanism-235, a heat conduction pipe-35 c, a bump-35 b and a nozzle-35 c.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention relates to a sludge biochar soil conditioner production device which structurally comprises a supporting table 1, a pyrolysis device 2, a motor 3, a hopper 4, a material guide pipe 5, a heater 6 and a collection box 7, wherein the pyrolysis device 2 is fixedly arranged on the upper end face of the left side of the supporting table 1, the motor 3 is fixedly arranged on the top of the pyrolysis device 2, the hopper 4 is arranged at the right end of the material guide pipe 5, the left end of the material guide pipe 5 is arranged at the right upper end of the pyrolysis device 2 and communicated with the right upper end of the pyrolysis device 2, the heater 6 is fixedly arranged on the upper end face of the right side of the supporting table 1 and connected with the right side of the pyrolysis device 2, the collection box 7 is arranged at the lower end of the right side of the supporting table 1, the pyrolysis device 2 comprises a pyrolysis box 21, a stirring mechanism 22 and a conduction mechanism 23, the material guide pipe 5 is arranged at the right upper end of the pyrolysis box 21 and communicated with the pyrolysis device, the stirring mechanism 22 is arranged inside the pyrolysis box 21, and the inside of the stirring mechanism 22 rotates synchronously with the output end of the motor 3, the conducting mechanism 23 is arranged inside the pyrolysis box 21, the conducting mechanism 23 is positioned outside the stirring mechanism 22, and the conducting mechanism 23 is connected with the heater 6.

The stirring mechanism 22 comprises an outward pushing mechanism 221, a connecting rod 222, a stirring sheet 223 and an anti-sticking inner container 224, the middle of the outward pushing mechanism 221 rotates synchronously along with the output end of the motor 3, the outer side of the outward pushing mechanism 221 is welded with one end of the connecting rod 222, the other end of the connecting rod 222 is welded with the stirring sheet 223, the stirring sheet 223 is abutted to the inner wall of the anti-sticking inner container 224, the anti-sticking inner container 224 is fixedly installed inside the pyrolysis box 21, a conducting mechanism 23 is arranged outside the anti-sticking inner container 224, the connecting rod 222 and the stirring sheet 223 are respectively provided with four parts and are respectively arranged on four positions outside the outward pushing mechanism 221, the outward pushing mechanism 221 is favorable for driving the stirring sheet 223 to rotate, so that sludge is uniformly stirred, and the uniformity.

Wherein, the push-out mechanism 221 includes a rotating rod 21a, a fixed pipe sleeve 21b, a sliding shaft 21c, a spring 21d and a push rod 21e, the top of the rotating rod 21a rotates synchronously with the output end of the motor 3, the fixed pipe sleeve 21b is welded on the outer side of the rotating rod 21a, the sliding shaft 21c is slidably mounted inside the fixed pipe sleeve 21b, the spring 21d is fixedly mounted inside the fixed pipe sleeve 21b, the spring 21d is fixed with the sliding shaft 21c, the sliding shaft 21c is arranged at the outer side end of the push rod 21e, the push rod 21e is mounted inside the fixed pipe sleeve 21b by clearance fit, the fixed pipe sleeve 21b, the sliding shaft 21c, the spring 21d and the push rod 21e are all provided with four parts which are respectively arranged on four positions on the outer side of the rotating rod 21a, so as to generate a certain outer swinging force when the rotating rod 21a rotates, thereby driving the push rod 21e to move to the outer side, the sludge close to the middle part is pushed out towards the outer side, and the sludge close to the middle part is ensured to receive more uniform heat.

Wherein, antiseized inner bag 224 includes the heat preservation courage body 24a, extrusion ball 24b, top spring 24c, the heat preservation courage body 24a fixed mounting is inside pyrolysis box 21 to extrusion ball 24b adopts clearance fit to install on the heat preservation courage body 24a inner wall, extrusion ball 24b is fixed mutually with top spring 24c one end, top spring 24c installs inside the heat preservation courage body 24a, the heat preservation courage body 24a outside is equipped with conduction mechanism 23, extrusion ball 24b is equipped with ninety six altogether to twenty four are a set of, are vertical distribution on the heat preservation courage body 24a inner wall, do benefit to the stirring vane 223 at the in-process of stirring mud, extrude the skew to extrusion ball 24b, thereby make the adhesion take place to drop at the heat preservation courage body 24a inner wall, avoid the heat preservation courage body 24a thickness to increase, ensure the efficiency of heat conduction.

The specific use mode and function of the embodiment are as follows:

in the invention, sludge is put in from a hopper 4 and is conducted and conveyed into an anti-sticking inner container 224 through a material guide pipe 5, a heater 6 is started, heat is conducted into the anti-sticking inner container 224 through a conduction mechanism 23, the sludge is pyrolyzed, in the pyrolysis process, a rotating rod 21a is driven to rotate through the rotation of a motor 3, a stirring sheet 223 is driven to stir the sludge through a connecting rod 222, meanwhile, a certain external throwing force is generated in the rotating process of the rotating rod 21a, at the moment, the sliding shaft 21c slides in a fixed pipe sleeve 21b, so that a push rod 21e is driven to push the sludge outwards in the fixed pipe sleeve 21b and push the sludge close to the middle part outwards, the sludge close to the middle part is ensured to be subjected to more uniform heat, meanwhile, the stirring sheet 223 is attached to the inner wall of a heat insulation inner container 24a to stir and extrude an extrusion ball 24b, push extrusion ball 24b through top spring 24c and move outward to make the inside adherent carbon-layer of heat preservation courage body 24a take place to drop, form the carbon-layer on heat preservation courage body 24a inner wall when avoiding the mud pyrolysis, ensure that heat preservation courage body 24a carries out normal heat-conduction, improve the homogeneity that mud was heated.

Example 2:

as shown in fig. 6 to 7:

wherein, the conducting mechanism 23 comprises a heat insulating layer 231, a conducting pipe 232, a heat collecting pipe 233, a branch conduit 234 and a transferring mechanism 235, the heat insulating layer 231 is arranged at the outer side of the heat insulating liner body 24a, the conducting pipe 232 is fixedly embedded in the right end of the heat insulating layer 231, the conducting pipe 232 is communicated with the heat collecting pipe 233, the heat collecting pipe 233 is arranged at the outer side of the heat insulating liner body 24a, the branch conduit 234 is arranged in the heat collecting pipe 233, the branch conduit 234 is communicated with the transferring mechanism 235, the inner end of the transferring mechanism 235 is abutted to the outer side surface of the heat insulating liner body 24a, the branch conduit 234 and the transferring mechanism 235 are respectively provided with twenty-four, the twenty-four transferring mechanisms 235 are connected by conducting through the twenty-four branch conduits 234, the twenty-four transferring mechanisms 235 are uniformly distributed at the outer side of the heat insulating liner body 24a in a ring shape, so as to improve the uniformity of conducting and avoiding uneven local heating at the outer side of the heat insulating liner body 24a, improving the integral pyrolysis effect of the sludge.

The transfer mechanism 235 comprises a heat pipe 35c, a bump 35b and a nozzle 35c, the inside of the heat pipe 35c is communicated with the branch pipe 234, the bump 35b is arranged on the inner wall of the heat pipe 35c, the nozzle 35c is fixedly installed at the outer side end of the heat pipe 35c and is communicated with the outer side end of the heat pipe 35c, the nozzle 35c is abutted to the outer side surface of the heat insulation liner body 24a, and the nozzle 35c is of a cavity truncated cone-shaped structure with a wide inlet and a narrow outlet, so that heat can be conducted to the outer wall of the heat insulation liner body 24a, and backflow of the heat can be avoided.

The specific use mode and function of the embodiment are as follows:

in the invention, heat generated by the heater 6 is conducted into the heat collecting tube 233 through the conducting tube 232, the heat inside the heat collecting tube 233 is prevented from losing through the heat insulating layer 231, then the heat is dispersed into the plurality of heat conducting tubes 35c through the conducting tube 234, after the heat enters the heat conducting tubes 35c, the ejection from the inside of the nozzles 35c is accelerated through the extrusion of the bumps 35b, through the plurality of nozzles 35c which are vertically arranged, the overall circular outer side of the heat insulating liner body 24a is subjected to more uniform heat, the heat is more uniformly dispersed to all directions inside the heat insulating liner body 24a, the overall sludge inside the heat insulating liner body 24a is uniformly heated, and the overall pyrolysis effect of the sludge is improved.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The utility model provides a mud biochar soil amendment apparatus for producing, its structure includes brace table (1), pyrolysis device (2), motor (3), hopper (4), passage (5), heater (6), collecting box (7), brace table (1) left side up end fixed mounting has pyrolysis device (2) to pyrolysis device (2) top fixed mounting has motor (3), establish at passage (5) right-hand member hopper (4), passage (5) left end is established at pyrolysis device (2) upper right end and is link up mutually, heater (6) fixed mounting is at brace table (1) right side up end to heater (6) are connected with pyrolysis device (2) right side, establish at brace table (1) right side lower extreme collecting box (7), its characterized in that:

the pyrolysis device (2) comprises a pyrolysis box (21), a stirring mechanism (22) and a conduction mechanism (23), wherein a material guide pipe (5) is arranged at the upper right end of the pyrolysis box (21) and is communicated with the pyrolysis box, the stirring mechanism (22) is arranged inside the pyrolysis box (21), the stirring mechanism (22) rotates synchronously along with the output end of a motor (3), the conduction mechanism (23) is arranged inside the pyrolysis box (21), the conduction mechanism (23) is located on the outer side of the stirring mechanism (22), and the conduction mechanism (23) is connected with a heater (6).

2. The device for producing the sludge biochar soil conditioner as claimed in claim 1, is characterized in that: the stirring mechanism (22) comprises an outward pushing mechanism (221), a connecting rod (222), a stirring sheet (223) and an anti-sticking inner container (224), the middle of the outward pushing mechanism (221) rotates synchronously along with the output end of the motor (3), the outer side of the outward pushing mechanism (221) is welded with one end of the connecting rod (222), the other end of the connecting rod (222) is welded with the stirring sheet (223), the stirring sheet (223) is abutted to the inner wall of the anti-sticking inner container (224), the anti-sticking inner container (224) is fixedly installed inside the pyrolysis box (21), and a conduction mechanism (23) is arranged outside the anti-sticking inner container (224).

3. The device for producing the sludge biochar soil conditioner as claimed in claim 2, is characterized in that: extrapolate mechanism (221) and include dwang (21 a), fixed pipe box (21 b), slip axle (21 c), spring (21 d), push rod (21 e), dwang (21 a) top is along with motor (3) output synchronous rotation, dwang (21 a) outside welding has fixed pipe box (21 b) to slip axle (21 c) slidable mounting is inside fixed pipe box (21 b), fixed pipe box (21 b) inside fixed mounting has spring (21 d) to spring (21 d) are fixed mutually with slip axle (21 c), establish at push rod (21 e) outside end sliding axle (21 c), push rod (21 e) adopt clearance fit to install inside fixed pipe box (21 b).

4. The device for producing the sludge biochar soil conditioner as claimed in claim 2, is characterized in that: antiseized inner bag (224) is including the heat preservation courage body (24 a), extrusion ball (24 b), spring (24 c), the heat preservation courage body (24 a) fixed mounting is inside pyrolysis box (21) to extrusion ball (24 b) adopt clearance fit to install on the heat preservation courage body (24 a) inner wall, extrusion ball (24 b) are fixed mutually with spring (24 c) one end, spring (24 c) are installed inside the heat preservation courage body (24 a), the heat preservation courage body (24 a) outside is equipped with conduction mechanism (23).

5. The device for producing the sludge biochar soil conditioner as claimed in claim 4, is characterized in that: conduction mechanism (23) include insulating layer (231), conduction pipe (232), thermal-collecting tube (233), branch pipe (234), transport mechanism (235), establish in the heat preservation courage body (24 a) outside insulating layer (231) to inside the inlaying of insulating layer (231) right-hand member installs conduction pipe (232), conduction pipe (232) link up with thermal-collecting tube (233) mutually, thermal-collecting tube (233) are located the heat preservation courage body (24 a) outside, thermal-collecting tube (233) inside is equipped with branch pipe (234), branch pipe (234) link up with transport mechanism (235) mutually, transport mechanism (235) medial extremity is inconsistent with heat preservation courage body (24 a) outside surface.

6. The device for producing the sludge biochar soil conditioner as claimed in claim 5, is characterized in that: the transfer mechanism (235) comprises a heat pipe (35 c), a convex block (35 b) and a nozzle (35 c), the interior of the heat pipe (35 c) is communicated with the branch pipe (234), the convex block (35 b) is arranged on the inner wall of the heat pipe (35 c), the nozzle (35 c) is fixedly installed at the outer side end of the heat pipe (35 c) and is communicated with the outer side end of the heat pipe (35 c), and the nozzle (35 c) is abutted to the outer side surface of the heat insulation liner body (24 a).

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