CN206520084U - The production line of non-evaporating pressure light block - Google Patents
The production line of non-evaporating pressure light block Download PDFInfo
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- CN206520084U CN206520084U CN201621399421.7U CN201621399421U CN206520084U CN 206520084 U CN206520084 U CN 206520084U CN 201621399421 U CN201621399421 U CN 201621399421U CN 206520084 U CN206520084 U CN 206520084U
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Abstract
The utility model discloses the production line of non-evaporating pressure light block, belong to building material field.The utility model will solve existing autoclave aerated concrete building block production equipment cost used and put into huge, the technical problem of the big technical problem of energy consumption.The discharging opening of the mixing pot bottom is located at the top that dry powder transmits belt end, and the charging aperture of running gate system is correspondingly arranged at the lower section of another termination of dry powder conveyer belt, and the side perpendicular to the first guide rail sets up set of rails, is additionally provided with diced system.The utility model is used to produce non-evaporating pressure light block.
Description
Technical field
The utility model belongs to building material field, and in particular to the production line of non-evaporating pressure light block.
Background technology
Autoclave aerated concrete building block has been the materials for wall generally used, existing autoclave aerated concrete building block production
Product are aided with miberal powder, fine sand etc. as packing material using cement, lime as major gelled material, using aluminium powder as material of getting angry, and pass through
Grinding, stir, get angry, being molded and HTHP maintenance form.Whole production process institute is natural material using material, day
Right material is all short-term non-renewable material, and excessively exploitation can have a strong impact on natural environment, and production equipment used into
This input is huge, and energy consumption is big.
Utility model content
The utility model will solve existing autoclave aerated concrete building block production equipment cost used and put into huge, production
The big technical problem of energy consumption;And there is provided the production line of non-evaporating pressure light block.
The production line of non-evaporating pressure light block of the present utility model includes dry powder blend tank 1, running gate system 2, first and ferried
Car 3, stripping manipulator 4, diced system 5, the discharging opening of the bottom of dry powder blend tank 1 are located at the upper of the termination of dry powder conveyer belt 6
Side, the charging aperture of running gate system 2 is correspondingly arranged at the lower section of another termination of dry powder conveyer belt 6, and the lower section of apparatus for pouring 3 sets first to lead
The first ferry bus 3 is provided with rail 7, the first guide rail 7, it is corresponding with the discharging opening of running gate system 2 and perpendicular to the side of the first guide rail 7
Moulding box component 10 can be placed with by setting up on the second guide rail 8, the second guide rail 8, the rear of the second guide rail 8 and with the second guide rail 8
It is arranged with set of rails 9 in parallel, the set of rails 9 includes at least two groups guide rails;In the left end of set of rails 9, perpendicular to set of rails 9
It is provided with direction on the 3rd guide rail 11, the 3rd guide rail 11 and is provided with the second ferry bus 12, the top of the 3rd guide rail 11 and guide rail
Group 9 is located at the corresponding position of front slideway and is provided with stripping manipulator 4, and the front end of the 3rd guide rail 11 and the second guide rail 8 are mutual
It is vertical and intersect;The rear end of set of rails 9 is arranged with the 4th guide rail 13 in parallel, and the rear end of the 4th guide rail 13 and the 3rd guide rail 11 is mutually hung down
Direct join intersects, and the 4th guide rail 13 is provided with the 3rd ferry bus 14, the left end of the 4th guide rail 13 and perpendicular to the side of the 4th guide rail 13
Set up the 5th guide rail 15;5th guide rail 15 is placed in the middle and the 6th guide rail 16 is provided with the direction of the 5th guide rail 15,
6th guide rail 16 is mutually perpendicular to and intersected with the 5th guide rail 15, and the right-hand member of the 6th guide rail 16 is mutually perpendicular to and handed over the 3rd guide rail 11
Fork, the top of the 6th guide rail 16 sets the first material grasping manipulator 17, the left side of the 6th guide rail 16 with perpendicular to the 6th guide rail 16
Side sets up diced system 5, and blank is transported into diced system 5 by the first material grasping manipulator 17.
Further limit, the left side of the diced system 5 is provided with the 7th guide rail 18, the 7th guide rail 18 and the 5th guide rail 15
Parallel, the 7th guide rail 18 is provided with the 4th ferry bus 19, and the front end of the 7th guide rail 18 is mutually perpendicular to and intersected provided with rewinding guide rail
20。
The diced system 5 include transverse cutting device 501, first longitudinal direction cutting machine 502, second longitudinal direction cutting machine 503,
Second material grasping manipulator 504, the 3rd material grasping manipulator 505 and rotation material grasping hand 506, the 6th guide rail 16 are additionally provided with transverse cuts dress
501 are put, transverse cutting device 501 is located at the left side of the first material grasping manipulator 17, the left side of transverse cutting device 501 sets second to grab
Expect manipulator 504, the second material grasping manipulator 504 transverse cutting device 501 is handled after blank grab deliver to first longitudinal direction cutting
Machine 502, the both sides of transverse cutting device 501 respectively set first longitudinal direction cutting machine 502, the rear end of first longitudinal direction cutting machine 502 side by side
Rotation material grasping manipulator 506 is provided with, the rear end of rotation material grasping manipulator 506 is provided with second longitudinal direction cutting machine 503, and rotation is grabbed
Blank is rotated by 90 ° after picking up after material manipulator 506 handles first longitudinal direction cutting machine 503, then is placed in second longitudinal direction cutting machine 503
On, it is provided with the 3rd material grasping manipulator 505 between two second longitudinal direction cutting machines 503, the 3rd material grasping manipulator 505 is by second longitudinal direction
Blank after the cutting of cutting machine 503, which is grabbed, delivers to the 4th ferry bus 19.
The production line of the non-evaporating pressure light block of the utility model also includes waste recovery systems 21, and waste recovery systems are by total
Transmission belt 211 and branch's conveyer belt 212, transverse cutting device 501, first longitudinal direction cutting machine 502 and second longitudinal direction cutting machine 503
Underface be equipped with branch's conveyer belt 212, each band of branch's transmission 212 is located at total biography close to the terminations of the side of the 6th guide rail 16
The top of band 211 is sent, total conveyer belt 211 is arranged on the lower right-hand side of transverse cutting device 501, and is parallel along the 6th guide rail 16
What direction was set.
Described running gate system 2 includes pouring furnace 201, water pot 202, reinforcing agent tank 203, foaming agent tank 204, foam stabilizer tank
205, the delivery port of water pot 202, the discharging opening of reinforcing agent tank 203, the discharging of the discharging opening of foaming agent tank 204 and foam stabilizer tank
Mouth is equipped with the first pneumatic control valve 206 and import corresponding with the top of pouring furnace 201 is connected, and the top of water pot 202 is equal
Even to be provided with three support feets 207, support feet 207 is connected by weight sensor 208 with support frame 209.
The pouring furnace 201 includes body of heater 201a, cover plate 201c, agitating paddle 201d, decelerator 201e and motor 201f;Institute
The body of heater 201a stated is straight tube, and body of heater 201a bottom, which is arranged side by side at the top of two conical bottom 201b, body of heater, sets cover plate 201c,
Set and set at the top of 2 agitating paddles 201d, each agitating paddle 201d along along conical bottom 201b centerline direction on cover plate 201c
Decelerator 201e is equipped with, decelerator 201e top is connected with motor 201f, and each conical bottom 201b bottom is provided with
The second pneumatic control valve 201h, agitating paddle 201d puddler and bottom are both provided with discharging opening 201g, each discharging opening 201g
Temperature sensor 201i is set in portion.
Described dry powder blend tank 1 is to set to scrape wall agitating paddle in vertical mixing tank, the vertical mixing tank.
The bottom of the dry powder blend tank 1 sets discharging opening close to canister side.
The production line production light block method of non-evaporating pressure light block is completed by following step in the utility model:
Powder mixture is uniformly mixed so as to obtain Step 1: cement, sand, flyash are placed in dry powder blend tank 1,
Step 2: water adds running gate system 2 and then adds reinforcing agent and foam stabilizer, stir, then transmitted by dry powder
Band adds powder mixture, stirs, is eventually adding foaming agent, stirs, is then injected into moulding box component 10, maintenance 6 hours with
On, stripping manipulator 4 is stripped, then longitudinally cutting after transverse cuts, longitudinally cutting again after being rotated by 90 °, and obtains non-evaporating pressure
Building block.
Cement accounts for the 30%~40% of powder mixture weight wherein in step one, and sand accounts for powder mixture weight
30%, flyash accounts for the 30%~40% of powder mixture weight;Auxiliary agent is the 3%~5% of powder mixture weight, and auxiliary agent is
Reinforcing agent, foam stabilizer and foaming agent, reinforcing agent account for the 2%~3% of auxiliary agent weight, and foaming agent accounts for the 1%~2% of auxiliary agent weight,
Remaining is foam stabilizer.
Powder blending tank 1 of the present utility model, running gate system 2, ferry bus, stripping manipulator 4, diced system 5 pass through sensing
Device realizes intelligentized processing system after collecting information by computer disposal.Base is transported by ferry bus and various manipulators
Material.Set of rails 9 can be used for the maintenance of building block blank.
The utility model is reasonable in design, manufacturing process is fine, multiple functional, advanced technology, compressive resistance are high, size is accurate,
Automaticity is high.Equipment is realized mechanical, electrical, liquid integrated.Suitable for sand, aggregate chips, slag, coal ash, flyash, bottom slag and useless
Abandon building waste etc..
Operating efficiency of the present utility model is high, reduces labor strength, cost-effective, energy consumption is small, pollutant discharge amount
It is small.Simple production process of the present utility model, energy-conservation.The utility model method is conserved using room temperature, it is not necessary to which HTHP is supported
Shield, simplifies production technology, reduces equipment investment and production is consumed energy.
Non-evaporating pressure light block light weight, insulation, fire resistance and integral composite that the utility model method is obtained,
The materials for walls such as clay brick, Haydite brickses, hollow brick can be substituted.
Non-evaporating pressure light block can largely utilize the industrial wastes such as flyash, slag, stone flour, reduce waste discharge, can
Ecological condition is effectively improved, is preserved the ecological environment, the energy is saved.
The non-evaporating pressure light block of the utility model production has that density is small, intensity is high, and density is in 300~800kg/m3,
Compression strength is 1.0~8.0kg/cm2。
The non-evaporating pressure light block thermal and insulating performance of the utility model production is good, has in the building block of the utility model production
The tiny bubble largely closed, therefore with good thermal and insulating performance;Thermal conductivity factor is 0.05~0.3W/MK, thermal resistance
About 10~20 times of normal concrete building block, with excellent energy-saving effect.
The good sound-proof refractory performance of non-evaporating pressure light block of the utility model production, building block category of the present utility model is more
Porous materials, with good sound insulation value.Other building block is made up of non-flammable inorganic material, with good fire resistance, A
Level fire-protection standard, is greatly improved the fire-protection rating of construction material.
The non-evaporating pressure light block shock resistance of the utility model production is good, with low modulus of elasticity, impact loading tool
There is good absorption and dispersion.Further, since building block own wt is well below normal concrete building block, danger when collapsing
Evil is smaller.
The non-evaporating pressure light block water resistance of the utility model production is strong, because the production building block of the utility model method has
Autonomous closure bubble and good globality make its water absorption rate relatively low, with preferable water proofing property.
The non-evaporating pressure light block good environmental protection of the utility model production, raw materials for production are nontoxic, non-radioactive material group
Into without the releasing of the harmful substances such as benzene, formaldehyde during use.
The non-evaporating pressure light block excellent in durability of the utility model production, anti-aging system can be good, without tortoise during use
Split.
Brief description of the drawings
Fig. 1 is the schematic diagram of the utility model production line;
Fig. 2 is dry powder blend tank 1 and the connection diagram of running gate system 2;
Fig. 3 is the structural representation of running gate system 2;
1 in figure --- powder blending tank, 2 --- running gate system, 3 --- the first ferry bus, 4 --- stripping manipulator, 5 ---
Diced system, 6 --- dry powder conveyer belt, 7 --- the first guide rail, 8 --- the second guide rail, 9 --- set of rails, 10 --- moulding box group
Part, 11 --- the 3rd guide rail, 12 --- the second ferry bus, 13 --- the 4th guide rail, 14 --- the 3rd ferry bus, 15 --- the 5th
Guide rail, 16 --- the 6th guide rail, 17 --- the first material grasping manipulator, 18 --- the 7th guide rail, 19 --- the 4th ferry bus,
20 --- rewinding guide rail, 501 --- transverse cutting device, 502 --- first longitudinal direction cutting machine, 503 --- second longitudinal direction cuttings
Machine, 504 --- the second material grasping manipulator, 505 --- the 3rd material grasping manipulator, 506 --- rotation material grasping hand, 21 --- reclaim system
System, 211 --- total transmission belt, 212 --- branch's conveyer belt, 201 --- pouring furnace, 202 --- water pot, 203 --- reinforcing agent
Tank, 204 --- foaming agent tank, 205 --- foam stabilizer tank, 206 --- the first pneumatic control valve, 207 --- support feet,
208 --- weight sensor, 209 --- support frame, 201a --- body of heater, 201b --- conical bottom, 201c --- cover plate,
201d --- agitating paddle, 201e --- decelerator, 201f --- motor, 201g --- discharging opening, 201h --- the second pneumatic tune
Save valve, 201i --- temperature sensor.
Embodiment
Illustrated with reference to Fig. 1,2 and 3, it is non-evaporating pressure light block production line include dry powder blend tank 1, running gate system 2,
First ferry bus 3, stripping manipulator 4, diced system 5, the discharging opening of the bottom of dry powder blend tank 1 are located at dry powder conveyer belt 6
The top of termination, the charging aperture of running gate system 2 is correspondingly arranged at the lower section of another termination of dry powder conveyer belt 6, and the lower section of apparatus for pouring 3 is set
Put and be provided with the first ferry bus 3 on the first guide rail 7, the first guide rail 7, it is corresponding with the discharging opening of running gate system 2 and perpendicular to first
The side of guide rail 7, which is set up, can be placed with moulding box component 10 on the second guide rail 8, the second guide rail 8, the rear of the second guide rail 8 and with
Second guide rail 8 is arranged with set of rails 9 in parallel, and the set of rails 9 includes at least two groups guide rails;In the left end of set of rails 9, perpendicular to
Be provided with the direction of set of rails 9 on the 3rd guide rail 11, the 3rd guide rail 11 and be provided with the second ferry bus 12, the 3rd guide rail 11 it is upper
Side is located at the corresponding position of front slideway with set of rails 9 and is provided with stripping manipulator 4, and the front end of the 3rd guide rail 11 is led with second
Rail 8 is mutually perpendicular to and intersected;The rear end of set of rails 9 is arranged with parallel after the 4th guide rail 13, the 4th guide rail 13 and the 3rd guide rail 11
End is mutually perpendicular to and intersected, and the 4th guide rail 13 is provided with the 3rd ferry bus 14, the left end of the 4th guide rail 13 and is led perpendicular to the 4th
The side of rail 13 sets up the 5th guide rail 15;5th guide rail 15 is placed in the middle and is provided with the 6th on the direction of the 5th guide rail 15
Guide rail 16, the 6th guide rail 16 is mutually perpendicular to and intersected with the 5th guide rail 15, and the right-hand member and the 3rd guide rail 11 of the 6th guide rail 16 are mutual
Vertical and intersect, the top of the 6th guide rail 16 sets the first material grasping manipulator 17, the left side of the 6th guide rail 16 with perpendicular to the 6th
The side of guide rail 16 sets up diced system 5, and blank is transported into diced system 5 by the first material grasping manipulator 17.
Further limit, the left side of the diced system 5 is provided with the 7th guide rail 18, the 7th guide rail 18 and the 5th guide rail 15
Parallel, the 7th guide rail 18 is provided with the 4th ferry bus 19, and the front end of the 7th guide rail 18 is mutually perpendicular to and intersected provided with rewinding guide rail
20。
The diced system 5 include transverse cutting device 501, first longitudinal direction cutting machine 502, second longitudinal direction cutting machine 503,
Second material grasping manipulator 504, the 3rd material grasping manipulator 505 and rotation material grasping hand 506, the 6th guide rail 16 are additionally provided with transverse cuts dress
501 are put, transverse cutting device 501 is located at the left side of the first material grasping manipulator 17, the left side of transverse cutting device 501 sets second to grab
Expect manipulator 504, the second material grasping manipulator 504 transverse cutting device 501 is handled after blank grab deliver to first longitudinal direction cutting
Machine 502, the both sides of transverse cutting device 501 respectively set first longitudinal direction cutting machine 502, the rear end of first longitudinal direction cutting machine 502 side by side
Rotation material grasping manipulator 506 is provided with, the rear end of rotation material grasping manipulator 506 is provided with second longitudinal direction cutting machine 503, and rotation is grabbed
Blank is rotated by 90 ° after picking up after material manipulator 506 handles first longitudinal direction cutting machine 503, then is placed in second longitudinal direction cutting machine 503
On, it is provided with the 3rd material grasping manipulator 505 between two second longitudinal direction cutting machines 503, the 3rd material grasping manipulator 505 is by second longitudinal direction
Blank after the cutting of cutting machine 503, which is grabbed, delivers to the 4th ferry bus 19.
The production line of the non-evaporating pressure light block of the utility model also includes waste recovery systems 21, and waste recovery systems are by total
Transmission belt 211 and branch's conveyer belt 212, transverse cutting device 501, first longitudinal direction cutting machine 502 and second longitudinal direction cutting machine 503
Underface be equipped with branch's conveyer belt 212, each band of branch's transmission 212 is located at total biography close to the terminations of the side of the 6th guide rail 16
The top of band 211 is sent, total conveyer belt 211 is arranged on the lower right-hand side of transverse cutting device 501, and is parallel along the 6th guide rail 16
What direction was set.
Described running gate system 2 includes pouring furnace 201, water pot 202, reinforcing agent tank 203, foaming agent tank 204, foam stabilizer tank
205, the delivery port of water pot 202, the discharging opening of reinforcing agent tank 203, the discharging of the discharging opening of foaming agent tank 204 and foam stabilizer tank
Mouth is equipped with the first pneumatic control valve 206 and import corresponding with the top of pouring furnace 201 is connected, and the top of water pot 202 is equal
Even to be provided with three support feets 207, support feet 207 is connected by weight sensor 208 with support frame 209.
The pouring furnace 201 includes body of heater 201a, cover plate 201c, agitating paddle 201d, decelerator 201e and motor 201f;Institute
The body of heater 201a stated is straight tube, and body of heater 201a bottom, which is arranged side by side at the top of two conical bottom 201b, body of heater, sets cover plate 201c,
Set and set at the top of 2 agitating paddles 201d, each agitating paddle 201d along along conical bottom 201b centerline direction on cover plate 201c
Decelerator 201e is equipped with, decelerator 201e top is connected with motor 201f, and each conical bottom 201b bottom is provided with
The second pneumatic control valve 201h, agitating paddle 201d puddler and bottom are both provided with discharging opening 201g, each discharging opening 201g
Temperature sensor 201i is set in portion.
Described dry powder blend tank 1 is to set to scrape wall agitating paddle in vertical mixing tank, the vertical mixing tank.
The bottom of the dry powder blend tank 1 sets discharging opening close to canister side.
The production line production light block method of non-evaporating pressure light block is completed by following step in the utility model:
Powder mixture is uniformly mixed so as to obtain Step 1: cement, sand, flyash are placed in dry powder blend tank 1,
Step 2: water adds running gate system 2 and then adds reinforcing agent and foam stabilizer, stir, then transmitted by dry powder
Band adds powder mixture, stirs, is eventually adding foaming agent, stirs, is then injected into moulding box component 10, maintenance 6 hours with
On, stripping manipulator 4 is stripped, then longitudinally cutting after transverse cuts, longitudinally cutting again after being rotated by 90 °, and obtains non-evaporating pressure
Building block.Cement accounts for the 30% of powder mixture weight wherein in step one, and sand accounts for the 30% of powder mixture weight, flyash
Account for the 40% of powder mixture weight;Auxiliary agent is the 4% of powder mixture weight, and auxiliary agent is reinforcing agent, foam stabilizer and foaming agent,
Reinforcing agent accounts for the 2.5% of auxiliary agent weight, and foaming agent accounts for the 1.5% of auxiliary agent weight.
The non-evaporating pressure light block of production has that density is small, intensity is high, and density is in 300~800kg/m3Between, pressure resistance
Degree is in 1.0~8.0kg/cm2Between.Production non-evaporating pressure light block thermal conductivity factor be 0.05~0.3W/MK between, thermal resistance
About 15 times of normal concrete building block.
Claims (8)
1. the production line of non-evaporating pressure light block, including dry powder blend tank (1), running gate system (2), the first ferry bus (3), the demoulding
Manipulator (4), diced system (5), it is characterised in that the discharging opening of dry powder blend tank (1) bottom is located at dry powder conveyer belt
(6) top of termination, the charging aperture of running gate system (2) is correspondingly arranged at the lower section of dry powder conveyer belt (6) another termination, apparatus for pouring
3 lower sections set and are provided with the first ferry bus (3) on the first guide rail (7), the first guide rail (7), relative with running gate system (2) discharging opening
And the second guide rail (8) should be set up perpendicular to the side of the first guide rail (7), the second guide rail can be placed with moulding box component on (8)
(10), the rear of the second guide rail (8) and it is arranged with set of rails (9) in parallel with the second guide rail (8), the set of rails (9) is included extremely
Few two groups of guide rails;Left end in set of rails (9), is provided with the 3rd guide rail (11), the 3rd leads on the direction of set of rails (9)
The second ferry bus (12) is provided with rail (11), the top of the 3rd guide rail (11) and set of rails (9) are corresponding positioned at front slideway
Position be provided with stripping manipulator (4), the front end of the 3rd guide rail (11) is mutually perpendicular to and intersected with the second guide rail (8);Guide rail
Group (9) rear end is arranged with the 4th guide rail (13) in parallel, and the rear end of the 4th guide rail (13) and the 3rd guide rail (11) is mutually perpendicular to and handed over
Fork, the 4th guide rail (13) is provided with the 3rd ferry bus (14), the left end of the 4th guide rail (13) and perpendicular to the 4th guide rail (13)
Side sets up the 5th guide rail (15);5th guide rail (15) is placed in the middle and is provided with the 6th on the direction of the 5th guide rail (15)
Guide rail (16), the 6th guide rail (16) is mutually perpendicular to and intersected with the 5th guide rail (15), and the right-hand member of the 6th guide rail (16) is led with the 3rd
Rail (11) is mutually perpendicular to and intersected, and the top of the 6th guide rail (16) sets the first material grasping manipulator (17), the 6th guide rail (16)
Left side and diced system (5) is set up perpendicular to the side of the 6th guide rail (16), by the first material grasping manipulator (17) by blank
It is transported to diced system (5).
2. the production line of non-evaporating pressure light block according to claim 1 a, it is characterised in that left side for the diced system (5)
Side is provided with the 7th guide rail (18), and the 7th guide rail (18) is parallel with the 5th guide rail (15), and the 7th guide rail (18) is provided with the 4th pendulum
Car (19) is crossed, the front end of the 7th guide rail (18) is mutually perpendicular to and intersected provided with rewinding guide rail (20).
3. the production line of non-evaporating pressure light block according to claim 2, it is characterised in that diced system (5) is included laterally
Cutter device (501), first longitudinal direction cutting machine (502), second longitudinal direction cutting machine (503), the second material grasping manipulator (504),
Three material grasping manipulators (505) and rotation material grasping manipulator (506), the 6th guide rail (16) are additionally provided with transverse cutting device (501), horizontal
It is located to cutter device (501) on the left of the left side of the first material grasping manipulator (17), transverse cutting device (501) and the second material grasping is set
Blank after transverse cutting device (501) processing is grabbed and delivers to first longitudinal direction by manipulator (504), the second material grasping manipulator (504)
Cutting machine (502), transverse cutting device (501) both sides respectively set first longitudinal direction cutting machine (502), first longitudinal direction cutting machine side by side
(502) rear end is provided with rotation material grasping manipulator (506), and rotation material grasping manipulator (506) rear end is provided with second longitudinal direction
Cutting machine (503), rotation material grasping manipulator (506) is rotated by 90 ° after blank after first longitudinal direction cutting machine (503) processing is picked up,
It is placed in again on second longitudinal direction cutting machine (503), the 3rd material grasping manipulator is provided between two second longitudinal direction cutting machines (503)
(505) blank after, the 3rd material grasping manipulator (505) cuts second longitudinal direction cutting machine (503), which is grabbed, delivers to the 4th ferry bus
(19)。
4. the production line of non-evaporating pressure light block according to claim 3, it is characterised in that the production line also includes waste material
Recovery system 21, waste recovery systems are indulged by total transmission belt 211 and branch's conveyer belt 212, transverse cutting device (501), first
Branch's conveyer belt 212, each branch's transmission 212 are equipped with immediately below to cutting machine (502) and second longitudinal direction cutting machine (503)
Band is located at the top of total conveyer belt 211 close to the termination of the 6th guide rail (16) side, and total conveyer belt 211 is arranged on transverse cuts dress
(501) lower right-hand side is put, and is set along the 6th guide rail (16) parallel direction.
5. the production line of non-evaporating pressure light block according to claim 1, it is characterised in that described running gate system (2) bag
Include pouring furnace (201), water pot (202), reinforcing agent tank (203), foaming agent tank (204), foam stabilizer tank (205), water pot (202)
Delivery port, the discharging opening of reinforcing agent tank (203), the discharging opening of the discharging opening of foaming agent tank (204) and foam stabilizer tank are equipped with
First pneumatic control valve 206 and it is connected with corresponding import at the top of pouring furnace (201), the top of water pot (202) is uniformly set
There are three support feets (207), support feet (207) is connected by weight sensor (208) with support frame (209).
6. the production line of non-evaporating pressure light block according to claim 5, it is characterised in that pouring furnace (201) includes body of heater
(201a), cover plate (201c), agitating paddle (201d), decelerator (201e) and motor (201f);Described body of heater (201a) is straight
Cylinder, the bottom of body of heater (201a), which is arranged side by side at the top of two conical bottoms (201b), body of heater, sets cover plate (201c), cover plate (201c)
On 2 agitating paddles (201d) are set along along conical bottom (201b) centerline direction, the top of each agitating paddle (201d) is set
There is decelerator (201e), the top of decelerator (201e) is connected with motor (201f), and the bottom of each conical bottom (201b) is equal
It is provided with discharging opening (201g), each discharging opening (201g) and is both provided with the second pneumatic control valve (201h), agitating paddle
Temperature sensor (201i) is set on the puddler of (201d) and bottom.
7. the production line of non-evaporating pressure light block according to claim 1, it is characterised in that described dry powder blend tank (1)
For vertical mixing tank, interior set of the vertical mixing tank scrapes wall agitating paddle.
8. the production line of non-evaporating pressure light block according to claim 1, it is characterised in that the bottom of dry powder blend tank (1)
Close to canister side, discharging opening is set.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621399421.7U CN206520084U (en) | 2016-12-19 | 2016-12-19 | The production line of non-evaporating pressure light block |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621399421.7U CN206520084U (en) | 2016-12-19 | 2016-12-19 | The production line of non-evaporating pressure light block |
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Publication Number | Publication Date |
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CN206520084U true CN206520084U (en) | 2017-09-26 |
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ID=59889164
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CN201621399421.7U Active CN206520084U (en) | 2016-12-19 | 2016-12-19 | The production line of non-evaporating pressure light block |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106671264A (en) * | 2016-12-19 | 2017-05-17 | 哈尔滨天顺化工科技开发有限公司 | Production line and method of non-autoclaved light building blocks |
CN112321307A (en) * | 2020-11-09 | 2021-02-05 | 济南万瑞炭素有限责任公司 | Prefabricated block heat-insulating pad of carbon anode roasting furnace and preparation equipment and method thereof |
-
2016
- 2016-12-19 CN CN201621399421.7U patent/CN206520084U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106671264A (en) * | 2016-12-19 | 2017-05-17 | 哈尔滨天顺化工科技开发有限公司 | Production line and method of non-autoclaved light building blocks |
CN112321307A (en) * | 2020-11-09 | 2021-02-05 | 济南万瑞炭素有限责任公司 | Prefabricated block heat-insulating pad of carbon anode roasting furnace and preparation equipment and method thereof |
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