CN111943645A

CN111943645A - Production line and production process for sintering heat-insulating bricks by using sewage sludge

Info

Publication number: CN111943645A
Application number: CN202010812149.5A
Authority: CN
Inventors: 陆首萍
Original assignee: Haiyan Dabeier New Building Material Co ltd
Current assignee: Haiyan Dabeier New Building Material Co ltd
Priority date: 2020-08-13
Filing date: 2020-08-13
Publication date: 2020-11-17

Abstract

The invention belongs to the technical field of sintered brick processing, in particular to a sewage sludge sintered insulating brick production line and a production process, which comprises a crushing mixer for processing raw materials, wherein the output side of the crushing mixer is provided with an aging pool for aging the raw materials, the output side of the aging pool is provided with a green brick extruder for green brick molding, and the output side of the green brick extruder is provided with a green brick dryer for drying green bricks; after smashing, then can let in mixing the intracavity with sewage sludge and dispersion emulsion powder through the mud feeder hopper, mix the material under the effect of mixing the stirring subassembly, then flow down to the homogenization intracavity through the unloading passageway, it is more even by the stirring of homogenization stirring subassembly, then flow out under discharge mechanism's mechanism, then the material flows out, thereby make the whole preorder process time that the material prepared shorten, only need a machine just can accomplish the preparation work to the material, reduction in production cost.

Description

Production line and production process for sintering heat-insulating bricks by using sewage sludge

Technical Field

The invention belongs to the technical field of sintered brick processing, and particularly relates to a production line and a production process for a sewage sludge sintered insulating brick.

Background

The sintered common brick has certain strength, good heat insulation and sound insulation performance, no condensation on indoor wall surfaces in winter and low cost. Although various new wall materials continuously appear, the sintered brick is still used as a main material in masonry engineering in a period of time in the future, and the sintered common brick can be used for building maintenance structures, masonry columns, arches, chimneys, kiln bodies, channels, foundations and the like. The light wall can be used together with heat insulating materials such as light aggregate concrete, aerated concrete, rock wool and the like to build a light wall with two sides made of bricks and the middle filled with light materials, and appropriate steel bars or steel bar meshes can be arranged in the masonry to form a reinforced masonry body to replace reinforced concrete columns, beams and the like.

At present, the production process of using sludge and sewage as raw materials of the baked bricks is provided, but the sludge needs to be dried in advance and then mixed and stirred with the sludge which is not dehydrated, but the treatment of the sludge needs to be carried out step by step at present, the steps and the time of a treatment process are increased, the brick firing time is increased, and the firing efficiency is slowed down.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides a production line and a production process of a sewage sludge sintered insulating brick, which aim to solve the problems.

In order to achieve the purpose, the invention provides the following technical scheme: sewage sludge sintering insulating brick production line, including being used for the crushing mixer to raw materials processing, the output side of crushing mixer is equipped with and is used for the ageing pond to the raw materials, the output side in ageing pond is equipped with and is used for the fashioned adobe extruder of adobe, the output side of adobe extruder is equipped with and is used for the adobe desiccator to the adobe drying, the output side of adobe desiccator is equipped with and is used for the adobe roasting kiln to the adobe calcination.

The production process of the sewage sludge sintered insulating brick production line comprises the following steps:

s1, preparing raw materials, namely selecting 200 parts of sewage sludge 160-80 wt%, 60-90 parts of dehydrated sludge blocks, 30-40 parts of rock wool and 5-10 parts of dispersed emulsion powder, wherein the water content of the sewage sludge is 70-80%;

s2, crushing and mixing, namely putting the dehydrated sludge blocks and rock wool into the crushing and mixing machine 10, crushing the dehydrated sludge blocks and the rock wool into 2-3mm in advance, adding sewage sludge with the water content of 70-80 wt% and the dispersed emulsion powder into the crushing and mixing machine 10, stirring together, and stirring for 30min at the rotation speed of 120-130r/min to obtain a mixed material;

step S3, aerobic aging, namely placing the stirred material into the aging tank 20 for standing and aging for 2-4 days;

step S4, extrusion molding, namely feeding the mixed material into the green brick extruder 30 for extrusion molding;

step S5, drying the green brick, and placing the extruded green brick in the green brick dryer 40 for drying treatment;

and step S6, firing and forming, namely, placing the dried green brick into the green brick firing kiln 50 for firing.

Preferably, the crushing and mixing machine includes the organism, the inside of organism is equipped with from top to bottom and smashes grinding chamber, mixing chamber and homocline chamber, it link up each other between grinding chamber, mixing chamber and the homocline chamber to smash to grind the intracavity and install and be used for the crushing unit to comminuted, the mixing subassembly that is used for stirring the material is installed to the mixing intracavity, the homocline stirring subassembly and the discharge mechanism that are used for the homocline of material and derivation are installed to the homocline intracavity, crushing unit, mixing subassembly, homocline stirring subassembly and discharge mechanism all with external power source electric connection.

Preferably, the top of organism is equipped with the solid feeder hopper, the solid feeder hopper link up smash the grinding chamber, crushing unit includes crushing motor, crushing roller and grinding roller, crushing roller quantity is a plurality of, crushing roller rotates to be installed smash the top of grinding chamber, it is a plurality of to grind roller quantity, just it installs to grind the roller rotation smash the bottom of grinding the chamber, crushing motor is fixed in on the lateral wall of organism, just crushing motor is used for the drive crushing roller, grinding roller rotate.

Preferably, the output end of the grinding motor is provided with a transmission belt, and the transmission belt is in transmission connection with the grinding roller and the grinding roller.

Preferably, the mixing and stirring assembly comprises a mixing motor and a mixing stirrer, the mixing motor is fixed in the machine body, the mixing stirrer is fixed at the output end of the mixing motor, and the mixing stirrer rotates in the mixing and stirring cavity.

Preferably, the homogenizing stirring assembly comprises a homogenizing motor and a homogenizing stirrer, the homogenizing motor is fixedly installed at the bottom of the machine body, the homogenizing stirrer is rotatably installed in the homogenizing cavity, and the homogenizing stirrer is fixed at the output end of the homogenizing motor.

Preferably, discharge mechanism includes ejection of compact motor and ejection of compact auger, the bottom of organism is close to equipartition chamber department is equipped with out the feed cylinder, ejection of compact motor fixed mounting be in go out on the lateral wall of feed cylinder, ejection of compact auger is located go out in the feed cylinder, just the one end of ejection of compact auger with the output fixed connection of ejection of compact motor, the other end stretch into extremely the equipartition intracavity.

Preferably, be equipped with the unloading passageway between mixing chamber and the homocline chamber, and pass through the unloading passageway link up each other, be equipped with the mud feeder hopper on the lateral wall of organism, the mud feeder hopper run through extremely the inside in mixing chamber.

Preferably, the four corners of the bottom of the machine body are provided with supporting legs, the supporting legs are fixedly connected with the machine body, the bottom of the discharging barrel is provided with a discharging pipe, and the discharging pipe penetrates through the discharging barrel.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the dewatered sludge block and the rock wool are put in from the top of the machine body, the material is crushed by the crushing assembly, after crushing, the sewage sludge and the dispersed emulsion powder can be introduced into the mixing and stirring cavity through the slurry feed hopper, the material is mixed under the action of the mixing and stirring assembly, then the material flows down to the material homogenizing cavity through the discharging channel, the material is stirred more uniformly by the material homogenizing and stirring assembly, then the material flows out under the mechanism of the discharging mechanism, and then the material flows out, so that the whole preorder process time of material preparation is shortened, the preparation work of the material can be completed by only one machine, and the production cost is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic flow diagram of a production line according to the present invention;

FIG. 3 is a schematic sectional view showing a crushing mixer according to the present invention;

FIG. 4 is a side sectional view schematically showing the structure of the crushing mixer of the present invention.

In the figure: 10. a crushing mixer; 1. a body; 101. a crushing and grinding cavity; 102. a mixing and stirring chamber; 103. a material homogenizing cavity; 104. a blanking channel; 11. a solid feed hopper; 12. supporting legs; 13. a discharging barrel; 14. a discharging pipe; 15. a slurry feed hopper; 2. a size reduction assembly; 21. a grinding motor; 22. a transmission belt; 23. a crushing roller; 24. a grinding roller; 3. a mixing and stirring component; 31. a hybrid motor; 32. a mixing agitator; 4. a material homogenizing and stirring component; 41. a material homogenizing motor; 42. a homogenizing stirrer; 5. a discharging mechanism; 51. a discharging motor; 52. discharging auger; 20. an aging tank; 30. a green brick extruder; 40. a green brick dryer; 50. and a green brick roasting kiln.

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. 1-4, the present invention provides the following technical solutions: the sewage sludge sintering insulating brick production line comprises a crushing and mixing machine 10 for processing and treating raw materials, wherein an aging pool 20 for aging the raw materials is arranged on the output side of the crushing and mixing machine 10, a green brick extruder 30 for forming green bricks is arranged on the output side of the aging pool 20, a green brick dryer 40 for drying the green bricks is arranged on the output side of the green brick extruder 30, and a green brick roasting kiln 50 for roasting the green bricks is arranged on the output side of the green brick dryer 40.

s2, crushing and mixing, namely putting the dehydrated sludge blocks and rock wool into a crushing mixer 10, crushing the dehydrated sludge blocks and the rock wool into 2-3mm in advance, adding sewage sludge with the water content of 70-80 wt% and dispersed emulsion powder into the crushing mixer 10, stirring together, and stirring for 30min at the rotation speed of 120-130r/min to obtain a mixed material;

step S3, aerobic aging, namely placing the stirred material into an aging tank 20 for standing and aging for 2-4 days;

step S4, extrusion molding, namely feeding the mixed material into a green brick extruder 30 for extrusion molding;

step S5, drying the green brick, and placing the extruded green brick in a green brick dryer 40 for drying treatment;

and step S6, firing and forming, namely, placing the dried green brick into a green brick firing kiln 50 for firing.

In the embodiment, by arranging the crushing mixer 10 with the machine body 1, the crushing component 2, the mixing and stirring component 3, the homogenizing and stirring component 4 and the discharging mechanism 5, wherein the inside of the machine body 1 is provided with the crushing and grinding cavity 101, the mixing and stirring cavity 102 and the homogenizing and stirring cavity 103 from top to bottom, the crushing component 2 for crushing materials is installed in the crushing and grinding cavity 101, the mixing and stirring component 3 for stirring materials is installed in the mixing and stirring cavity 102, the homogenizing and stirring component 4 and the discharging mechanism 5 for homogenizing and leading out the materials are installed in the homogenizing and stirring cavity 103, when in use, dehydrated sludge blocks and rock wool are put in from the top of the machine body 1, the materials are crushed by the crushing component 2, after crushing, sewage sludge and dispersed emulsion powder with the water content of 70-80% by weight can be introduced into the mixing and stirring cavity 102 through the slurry feeding hopper 15, mix the material under the effect of stirring subassembly 3, then in flowing down the mixing chamber 103 through unloading passageway 104, it is more even to be stirred by mixing subassembly 4, then flows out under discharge mechanism 5's mechanism, then the material flows out to make the whole preorder process time of material preparation shorten, only need a machine just can accomplish the preparation work to the material, reduction in production cost.

Concretely, the crushing and mixing machine 10 includes organism 1, the inside of organism 1 is equipped with crushing and grinding chamber 101 from top to bottom, mixing and stirring chamber 102 and homocline chamber 103, crushing and grinding chamber 101, link up each other between mixing and stirring chamber 102 and the homocline chamber 103, install in the crushing and grinding chamber 101 and be used for crushing subassembly 2 to the material, install in the mixing and stirring chamber 102 and be used for the mixing and stirring subassembly 3 to the material stirring, install in the homocline chamber 103 and be used for homocline stirring subassembly 4 and discharge mechanism 5 to the material homocline and derive, crushing subassembly 2, mixing and stirring subassembly 3, homocline stirring subassembly 4 and discharge mechanism 5 all with external power source electric connection, through setting up from last crushing and grinding chamber 101 that distributes in proper order down, mixing and stirring chamber 102 and homocline chamber 103, can be with the solid material grinding, with liquid material and powdered object intensive mixing.

Specifically, the top of organism 1 is equipped with solid feeder hopper 11, solid feeder hopper 11 link up crushing grinding chamber 101, crushing unit 2 includes crushing motor 21, crushing roller 23 and grinding roller 24, crushing roller 23 quantity is a plurality of, crushing roller 23 rotates and installs the top at crushing grinding chamber 101, grinding roller 24 quantity is a plurality of, and grinding roller 24 rotates and installs the bottom at crushing grinding chamber 101, crushing motor 21 is fixed in on the lateral wall of organism 1, and crushing motor 21 is used for driving crushing roller 23, grinding roller 24 rotates, the output of crushing motor 21 is equipped with drive belt 22, drive belt 22 and crushing roller 23, grinding roller 24 transmission is connected, when using, drive belt 23 is driven through 22 by crushing motor 21, grinding roller 24 rotates, smash and grind the drive belt to the material.

Specifically, mix stirring subassembly 3 including hybrid motor 31 and mixing agitator 32, hybrid motor 31 is fixed in the inside of organism 1, and mixing agitator 32 is fixed in hybrid motor 31's output, and mixing agitator 32 rotates in mixing and stirring chamber 102, and when using, hybrid motor 31 drives mixing agitator 32 and rotates, stirs the material.

Specifically, the homogenizing stirring assembly 4 comprises a homogenizing motor 41 and a homogenizing stirrer 42, the homogenizing motor 41 is fixedly installed at the bottom of the machine body 1, the homogenizing stirrer 42 is rotatably installed in the homogenizing cavity 103, the homogenizing stirrer 42 is fixed at the output end of the homogenizing motor 41, and when the homogenizing stirrer is used, the homogenizing stirrer 42 is driven by the homogenizing motor 41 to move to homogenize and stir the material.

Concretely, discharge mechanism 5 includes ejection of compact motor 51 and ejection of compact auger 52, the bottom of organism 1 is close to equipartition chamber 103 department and is equipped with out feed cylinder 13, ejection of compact motor 51 fixed mounting is on the lateral wall of play feed cylinder 13, ejection of compact auger 52 is located play feed cylinder 13, and the one end of ejection of compact auger 52 and ejection of compact motor 51's output fixed connection, the other end stretches into to equipartition chamber 103 in, be equipped with unloading passageway 104 between mixing chamber 102 and the equipartition chamber 103, and link up each other through unloading passageway 104, be equipped with mud feeder hopper 15 on organism 1's the lateral wall, mud feeder hopper 15 runs through to the inside of mixing chamber 102, when using, drive ejection of compact auger 52 through ejection of compact motor 51 and rotate, send the inside material of equipartition chamber 103 unloading passageway 104 to carry away.

Specifically, the bottom four corners department of organism 1 all is equipped with supporting leg 12, and supporting leg 12 and organism 1 fixed connection go out the bottom of feed cylinder 13 and be equipped with unloading pipe 14, and unloading pipe 14 link up out feed cylinder 13, through setting up supporting leg 12, can guarantee the stability of whole organism 1 at the operation in-process.

The working principle and the using process of the invention are as follows: after the device is installed, when the device is used, dewatered sludge blocks and rock wool are put in from the top of a machine body 1, materials are crushed by a crushing component 2, sewage sludge with the water content of 70-80% by weight and dispersed emulsion powder are introduced into a mixing and stirring cavity 102 through a slurry feed hopper 15 after being crushed, the materials are mixed under the action of a mixing and stirring component 3, then the mixture flows into a material homogenizing cavity 103 through a discharging channel 104, is stirred more uniformly by a material homogenizing and stirring component 4, then flows out under a mechanism of a discharging mechanism 5, and then flows out, so that the time of the whole preorder process of material preparation is shortened, the preparation work of the materials can be completed by only one machine, and the production cost is reduced.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. Sewage sludge sintering insulating brick production line which characterized in that: including being used for the crushing and mixing machine (10) to raw materials processing, the output side of crushing and mixing machine (10) is equipped with and is used for ageing pond (20) of ageing to the raw materials, the output side of ageing pond (20) is equipped with and is used for fashioned adobe extruder (30) of adobe, the output side of adobe extruder (30) is equipped with and is used for adobe drying's adobe desiccator (40), the output side of adobe desiccator (40) is equipped with and is used for adobe roasting's adobe roasting kiln (50).

2. The production process of the sewage sludge sintered insulating brick production line according to claim 1, characterized in that: the method comprises the following steps:

s2, crushing and mixing, namely putting the dehydrated sludge blocks and rock wool into the crushing and mixing machine (10) to be crushed to 2-3mm in advance, adding sewage sludge with the water content of 70-80 wt% and dispersed emulsion powder into the crushing and mixing machine (10) to be stirred together, and stirring for 30min at the rotating speed of 120-130r/min to obtain a mixed material;

step S3, aerobic aging, namely placing the stirred material into the aging tank (20) for standing and aging for 2-4 days;

s4, extrusion molding, namely feeding the mixed material into the green brick extruder (30) for extrusion molding;

step S5, drying the green brick, and placing the extruded green brick into the green brick dryer (40) for drying treatment;

and S6, firing and forming, namely placing the dried green brick into the green brick firing kiln (50) for firing.

3. The production process of the sewage sludge sintered insulating brick production line according to claim 2, characterized in that: crushing-mixing machine (10) is including organism (1), the inside of organism (1) is equipped with from top to bottom and smashes grinding chamber (101), mixing chamber (102) and homocline chamber (103), it link up each other between grinding chamber (101), mixing chamber (102) and homocline chamber (103) to smash, install in grinding chamber (101) and be used for crushing subassembly (2) to the comminuted, install in mixing chamber (102) and be used for mixing subassembly (3) to the material stirring, install in homocline chamber (103) and be used for homocline stirring subassembly (4) and discharge mechanism (5) to the material homocline and derive, crushing subassembly (2), mixing subassembly (3), homocline stirring subassembly (4) and discharge mechanism (5) all with external power source electric connection.

4. The production process of the sewage sludge sintered insulating brick production line according to claim 3, characterized in that: the top of organism (1) is equipped with solid feeder hopper (11), solid feeder hopper (11) link up smash grinding chamber (101), crushing unit (2) are including crushing motor (21), crushing roller (23) and grinding roller (24), crushing roller (23) quantity is a plurality of, crushing roller (23) rotate to be installed smash the top of grinding chamber (101), grinding roller (24) quantity is a plurality of, just grinding roller (24) rotate to be installed smash the bottom of grinding chamber (101), crushing motor (21) are fixed in on the lateral wall of organism (1), just crushing motor (21) are used for the drive crushing roller (23), grinding roller (24) rotate.

5. The production process of the sewage sludge sintered insulating brick production line according to claim 4, characterized in that: the output end of the crushing motor (21) is provided with a transmission belt (22), and the transmission belt (22) is in transmission connection with the crushing roller (23) and the grinding roller (24).

6. The production process of the sewage sludge sintered insulating brick production line according to claim 3, characterized in that: mix stirring subassembly (3) including hybrid motor (31) and mixing agitator (32), hybrid motor (31) are fixed in the inside of organism (1), mixing agitator (32) are fixed in the output of hybrid motor (31), mixing agitator (32) rotate and are in mix in the stirring chamber (102).

7. The production process of the sewage sludge sintered insulating brick production line according to claim 3, characterized in that: the material homogenizing and stirring assembly (4) comprises a material homogenizing motor (41) and a material homogenizing stirrer (42), the material homogenizing motor (41) is fixedly installed at the bottom of the machine body (1), the material homogenizing stirrer (42) is rotatably installed in the material homogenizing cavity (103), and the material homogenizing stirrer (42) is fixed at the output end of the material homogenizing motor (41).

8. The production process of the sewage sludge sintered insulating brick production line according to claim 3, characterized in that: discharge mechanism (5) are including ejection of compact motor (51) and ejection of compact auger (52), the bottom of organism (1) is close to equipartition chamber (103) department is equipped with out feed cylinder (13), ejection of compact motor (51) fixed mounting be in on the lateral wall of play feed cylinder (13), ejection of compact auger (52) are located go out feed cylinder (13), just the one end of ejection of compact auger (52) with the output fixed connection of ejection of compact motor (51), the other end stretch into extremely in equipartition chamber (103).

9. The production process of the sewage sludge sintered insulating brick production line according to claim 3, characterized in that: be equipped with unloading passageway (104) between mixing and stirring chamber (102) and homocline chamber (103), and pass through unloading passageway (104) link up each other, be equipped with mud feeder hopper (15) on the lateral wall of organism (1), mud feeder hopper (15) run through to the inside of mixing and stirring chamber (102).

10. The production process of the sewage sludge sintered insulating brick production line according to claim 8, characterized in that: the bottom four corners department of organism (1) all is equipped with supporting leg (12), supporting leg (12) with organism (1) fixed connection, the bottom of play feed cylinder (13) is equipped with unloading pipe (14), unloading pipe (14) link up go out feed cylinder (13).