CN112792999A

CN112792999A - Environment-friendly maintenance of equipment for aerated concrete manufacture

Info

Publication number: CN112792999A
Application number: CN202110031603.8A
Authority: CN
Inventors: 崔志明
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-11
Filing date: 2021-01-11
Publication date: 2021-05-14

Abstract

The invention discloses a curing device for manufacturing and producing environment-friendly aerated concrete, which comprises a concrete pipeline, the concrete pipeline comprises a conveying pipeline, a driving shaft is arranged in the middle of the conveying pipeline, a motor is arranged on one side of the driving shaft, the driving shaft is sleeved with a plurality of rotating devices, the rotating devices are sleeved with a plurality of conveying blades, the rotating device and the conveying pipeline are both provided with linkage groups, each linkage group comprises a linkage device I, a linkage device II and a linkage device III, the first linkage device and the second linkage device are arranged in the rotating device, the conveying pipeline comprises an outer pipe, the conveying blade is characterized in that the conveying blade is provided with a plurality of inner pipes, the inner pipes are sleeved outside the conveying blades, and the linkage device III is arranged between the outer pipes and the inner pipes.

Description

Environment-friendly maintenance of equipment for aerated concrete manufacture

Technical Field

The invention relates to the technical field of concrete manufacturing, in particular to a curing device for manufacturing and producing environment-friendly aerated concrete.

Background

The aerated concrete is a light porous silicate product prepared by taking siliceous materials (sand, fly ash, siliceous tailings and the like) and calcareous materials (lime, cement) as main raw materials, adding a gas former (aluminum powder), and carrying out the processes of proportioning, stirring, pouring, pre-curing, cutting, autoclaving, curing and the like. The aerated concrete is named as aerated concrete because the aerated concrete contains a large amount of uniform and fine air holes.

The aerated concrete is easy to solidify due to internal gas, when the aerated concrete is manufactured, clots are easy to condense and remove on the inner wall of a conveying pipeline in the concrete conveying process, the clots are difficult to remove, and the aggregate can affect the concrete conveying. Therefore, it is necessary to design a curing apparatus for manufacturing and producing an environment-friendly aerated concrete, which can avoid the accumulation of clots and automatically clean the conveying pipeline.

Disclosure of Invention

The invention aims to provide environment-friendly maintenance equipment for manufacturing and producing aerated concrete, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an environment-friendly aerated concrete makes production and uses curing equipment, includes concrete pipe, concrete pipe includes pipeline, be provided with the driving shaft in the middle of the pipeline, driving shaft one side is provided with the motor, the cover is equipped with a plurality of rotary device on the driving shaft, the cover is equipped with a plurality of delivery vane on the rotary device, all be provided with linkage group in rotary device and the pipeline.

According to the technical scheme, the linkage group comprises a first linkage device, a second linkage device and a third linkage device, the first linkage device, the second linkage device and the third linkage device respectively comprise an inner shaft, an outer shaft is sleeved outside the inner shaft, a plurality of balls are arranged on the surface of the inner shaft, a plurality of ball grooves are formed in the outer shaft, a plurality of elastic clamping blocks are arranged in the ball grooves, the balls are clamped among the elastic clamping blocks, and the elastic clamping blocks are of hollow structures;

the first linkage device and the second linkage device are arranged inside the rotating device, the conveying pipeline comprises an outer pipe, a plurality of inner pipes are arranged in the outer pipe, the inner pipe sleeves are arranged outside the conveying blades, and the third linkage device is arranged between the outer pipe and the inner pipes.

According to the technical scheme, the rotating device comprises a gear shaft, the gear shaft is evenly sleeved on the driving shaft, gear teeth are arranged at two ends of the gear shaft, small planetary gears are meshed at two ends of the gear shaft, large planetary gears are arranged on rotating shafts of the small planetary gears, a rotating sleeve is sleeved outside the gear shaft, inner walls at two ends of the rotating sleeve are meshed with the large planetary gears, a first linkage device is arranged between the gear shaft and the rotating sleeve, and a second linkage device is arranged between the large planetary gears and the rotating shafts of the small planetary gears.

According to the technical scheme, the gear shaft comprises a gear shaft body, a circular groove is formed in the gear shaft body, a rotating block is arranged in the circular groove and welded on the driving shaft, a rotating baffle is arranged in the circular groove, a rotating elastic bag is arranged on one side of the rotating block and the rotating baffle, a clamping block elastic bag is arranged in an elastic clamping block of the linkage device I, the inner part of the rotating elastic bag is connected with a pipeline in the clamping block elastic bag, and an inclined valve is arranged in the pipeline;

the rotating device further comprises a valve groove, a valve is arranged in the valve groove, a direct-current pipeline is arranged on the left side of the valve, an oblique-current pipeline is arranged in the middle of the valve, a stop block is arranged on the right side of the valve, one side, far away from the rotating elastic bag, of the circular groove is connected with a first gas storage tank through a reverse one-way valve pipeline, and the first gas storage tank is connected with an elastic clamping block inner pipeline of the linkage device II through the left side of the valve.

According to the technical scheme, an outer tube elastic bag is arranged outside the outer tube, the interior of the outer tube elastic bag is connected with an inner pipeline of a fixture block elastic bag of the linkage device III, and an inclined valve is arranged in the pipeline.

According to the technical scheme, one side, away from the rotary elastic bag, of the circular groove is further connected with a second air storage tank through a forward one-way valve pipeline.

According to the technical scheme, the rotating elastic bag is further connected with a pipeline at the left end of the valve groove, and the left side of the valve groove is connected with a pipeline inside the clamping block elastic bag of the linkage device I.

According to the technical scheme, the second gas storage tank is connected with the bottom of the right side of the valve groove through a pipeline, the top of the right side of the valve groove is provided with the single valve, and the upper end of the single valve is connected with the inner pipeline of the elastic clamping block of the second linkage device.

According to the technical scheme, conveying blade includes two fixed blocks, the fixed block is all to setting up in the rotatory cover in the slant, be provided with the turning block groove in the fixed block, the turning block inslot is provided with the turning block, the turning block rotation axis sets up in turning block groove outer end, the turning block is close to rotation axis one side and is provided with the liquid outlet, rotation axis one side is kept away from on the turning block surface is provided with the slip gasket, turning block groove pipe connection has the concrete cleaning agent case.

According to the technical scheme, the upper end of the single valve is connected with an internal pipeline of the gas storage box, and an oblique valve is arranged in the pipeline.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the linkage group is used for changing the operation mode of the rotating device, when the concrete is conveyed, the rotating device can drive the conveying blade to scrape soft clots on the inner pipe, the conveying pipeline and the conveying blade are protected at the same time, and after the concrete is conveyed, the rotating device 2 automatically cleans the conveying pipeline 11 to remove hard clots.

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 view of the overall structure of the present invention;

FIG. 2 is a schematic view of a linkage set configuration of the present invention;

FIG. 3 is a schematic view of the structure of the rotating device of the present invention;

FIG. 4 is a schematic view of the delivery conduit configuration of the present invention;

FIG. 5 is a schematic view of the delivery blade configuration of the present invention;

in the figure: 1. a concrete pipe; 11. a delivery conduit; 111. an outer tube; 112. an inner tube; 113. an outer tube elastic balloon; 12. a drive shaft; 13. a motor; 14. a conveying blade; 141. a fixed block; 142. rotating the block; 143. a liquid outlet; 144. sliding the sealing sheet; 2. a rotating device; 21. a gear shaft; 211. a gear shaft body; 212. a circular groove; 213. rotating the block; 214. rotating the baffle; 215. rotating the elastic bag; 216. a fixture block elastic bag; 22. a rotating sleeve; 23. a valve slot; 24. a valve; 25. a first gas storage tank; 26. a second gas storage tank; 27. a one-way valve; 3. a linkage group; 3-1, a first linkage device; 3-2, a linkage device II; 3-3, a linkage device III; 31. an inner shaft; 32. an outer shaft; 33. a ball bearing; 34. and the elastic clamping block.

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. 1-5, the present invention provides the following technical solutions: the curing equipment comprises a concrete pipeline 1, wherein the concrete pipeline 1 comprises a conveying pipeline 11, a driving shaft 12 is arranged in the middle of the conveying pipeline 11, a motor 13 is arranged on one side of the driving shaft 12, a plurality of rotating devices 2 are sleeved on the driving shaft 12, a plurality of conveying blades 14 are sleeved on the rotating devices 2, linkage groups 3 are arranged in the rotating devices 2 and the conveying pipeline 11 respectively, the linkage groups 3 are used for changing the operation mode of the rotating devices 2, the rotating devices 2 are used for protecting the conveying pipeline 11 and the conveying blades 14 when concrete is conveyed, and after the concrete is conveyed, the conveying pipeline 11 is automatically cleaned by the rotating devices 2;

the linkage group 3 comprises a first linkage device 3-1, a second linkage device 3-2 and a third linkage device 3-3, wherein the first linkage device 3-1, the second linkage device 3-2 and the third linkage device 3-3 are sequentially connected with one another, an outer shaft 32 is sleeved outside an inner shaft 31, a plurality of balls 33 are arranged on the surface of the inner shaft 31, a plurality of ball grooves are formed in the outer shaft 32, a plurality of elastic clamping blocks 34 are arranged in the ball grooves, the balls 33 are clamped among the elastic clamping blocks 34, and the elastic clamping blocks 34 are of hollow structures;

the first linkage device 3-1 and the second linkage device 3-2 are arranged inside the rotating device 2, the conveying pipeline 11 comprises an outer pipe 111, a plurality of inner pipes 112 are arranged in the outer pipe 111, the inner pipes 112 are sleeved outside the conveying blades 14, the third linkage device 3-3 is arranged between the outer pipe 111 and the inner pipes 112, in a normal condition, in the linkage group 3, the balls 33 are clamped by the elastic clamping blocks 34, the inner shaft 31 and the outer shaft 32 can be mutually driven to rotate, and the inner shaft 31 or the outer shaft 32 is subjected to a large reverse force or the strength of the elastic clamping blocks 34 is reduced, the balls 33 can press the elastic clamping blocks 34, so that the inner shaft 31 and the outer shaft 32 slide relatively to idle;

when the concrete conveying device is normally used, the motor 13 drives the conveying blades 14 to rotate through the rotating device 2, so that the conveying blades 14 continuously scrape coagulated concrete on the inner pipe 112, a clot is prevented from appearing on the inner pipe 112, when hard clots which are difficult to scrape appear on the inner pipe 112, the clot can clamp the conveying blades 14, the acting force of the conveying blades 14 directly acts on the inner pipe 112 at the moment, the inner pipe 112 is stressed too much, the linkage device III 3-3 idles, so that the inner pipe 112 rotates along with the conveying blades 14, the effect of automatically cleaning the clot when conveying concrete is achieved, when the hard clots which are difficult to treat are scraped, the inner pipe 112 rotates along with the conveying blades 14, the damage of the inner pipe 112 or the conveying blades 14 caused by the overlarge acting force when the hard clots are cut off is avoided, and the effect of protecting the inner pipe 112 and the conveying blades 14 is achieved;

the rotating device 2 comprises a gear shaft 21, the gear shaft 21 is uniformly sleeved on the driving shaft 12, gear teeth are arranged at two ends of the gear shaft 21, a pinion gear is meshed at two ends of the gear shaft 21, a pinion gear is arranged on a pinion rotating shaft, a rotating sleeve 22 is sleeved outside the gear shaft 21, inner walls at two ends of the rotating sleeve 22 are meshed with the pinion gear, a linkage device I3-1 is arranged between the gear shaft 21 and the rotating sleeve 22, a linkage device II 3-2 is arranged between the pinion gear and a pinion rotating shaft, when the strength of an elastic clamping block 34 of the linkage device I3-1 is high and the strength of an elastic clamping block 34 of the linkage device II 3-2 is low, the pinion gear and the pinion gear slide relatively, the gear shaft 21 directly drives the rotating sleeve 22 to rotate forward and quickly, and when the strength of the elastic clamping block 34 of the linkage device I3-1 is low and the strength of the elastic clamping block 34 of the linkage device, at the moment, the gear shaft 21 and the rotating sleeve 22 slide relatively, and the small planetary gear and the large planetary gear are fixed mutually to form a planetary gear structure, so that the gear shaft 21 drives the rotating sleeve 22 to rotate slowly in the reverse direction, the effect of controlling the working mode of the conveying blade 14 through the linkage device I3-1 and the linkage device II 3-2 is achieved, the conveying blade 14 is used for scraping coagulum during the forward quick rotation, and the conveying blade 14 is convenient to be coated with a concrete cleaning agent during the reverse slow rotation, so that the cleaning mode is changed according to the condition;

the gear shaft 21 comprises a gear shaft body 211, a circular groove 212 is arranged in the gear shaft body 211, a rotating block 213 is arranged in the circular groove 212, the rotating block 213 is welded on the driving shaft 12, a rotating baffle plate 214 is arranged in the circular groove 212, a rotating elastic bag 215 is arranged on one side of the rotating block 213 and the rotating baffle plate 214, a clamping block elastic bag 216 is arranged in an elastic clamping block 34 of the linkage device I3-1, the inner part of the rotating elastic bag 215 is connected with a pipeline in the clamping block elastic bag 216, and an inclined valve is arranged in the pipeline;

the rotating device 2 further comprises a valve groove 23, a valve 24 is arranged in the valve groove 23, a direct-flow pipeline is arranged on the left side of the valve 24, an oblique-flow pipeline is arranged in the middle of the valve 24, a stop block is arranged on the right side of the valve 24, one side, far away from the rotating elastic bag 215, of the circular groove 212 is connected with a first air storage tank 25 through a reverse one-way valve pipeline, the first air storage tank 25 is connected with an inner pipeline of an elastic clamping block 34 of a linkage device II 3-2 through the left side of the valve 24, when the rotating device 2 rotates forwards and concrete is conveyed, the conveying blade 14 bears resistance of the concrete, the resistance is transmitted to the gear shaft 21 through the linkage device I3-1, so that the rotating baffle plate 214 and the rotating block 213 mutually press the rotating elastic bag 215, air pressure in the rotating elastic bag 215 is synchronous to the elastic clamping block 216, the strength of the elastic clamping block 34 of the linkage device I3-, negative pressure is generated on one side of the circular groove 212, which is far away from the rotary elastic bag 215, gas in the gas storage tank I25 is pumped out and is synchronously fed into the elastic clamping block 34 of the linkage device II 3-2, the strength of the elastic clamping block 34 of the linkage device II 3-2 is reduced, the effects of automatically increasing the strength of the elastic clamping block 34 of the linkage device I3-1 and reducing the strength of the elastic clamping block 34 of the linkage device II 3-2 when concrete is conveyed are achieved, the planetary gear structure is disabled, meanwhile, the elastic clamping block 34 of the linkage device I3-1 has enough strength to overcome the resistance of cement and can overcome the inner pipe 112 to rotate together by the linkage device III 3-3 when hard clots are scraped, so that the conveying blade 14 is driven to convey the cement and scrape soft clots, and the ball 33 in the linkage device III 3-3 can be driven to press down the elastic clamping block 34 when the hard clots are scraped, rotating inner tube 112 together to protect inner tube 112 and transport blades 14;

the outer tube 111 is externally provided with an outer tube elastic bag 113, the inner part of the outer tube elastic bag 113 is connected with the inner pipeline of the fixture block elastic bag 216 of the linkage device III 3-3, and the pipeline is internally provided with an oblique valve, when relative sliding is initiated between the inner shaft 31 and the outer shaft 32, in the linkage device III 3-3, due to the extrusion of the ball 33, gas in the fixture block elastic bag 216 can be extruded into the outer tube elastic bag 113, and the oblique valve allows the gas to easily enter the outer tube elastic bag 113, but can be blocked when returning to the fixture block elastic bag 216, the strength of the fixture block elastic bag 216 can not be recovered immediately, so that the effect that the strength of the fixture block elastic bag 216 can be reduced after the fixture block elastic bag 216 of the linkage device III 3-3 is extruded is achieved, idle running between the outer tube 111 and the inner tube 112 can be more easily caused, the resistance of the conveying blade 14 when driving the inner tube 112 to rotate is reduced, when the ball 33 is clamped again, the conveying blade 14 and the inner tube 112 can suddenly bear a large force, and the strength of the clamping block elastic bag 216 is reduced, so that the force can be reduced, and the effect of protecting the conveying blade 14 and the inner tube 112 is achieved;

the circular groove 212 is connected with the second air storage tank 26 through a forward check valve pipe on the side far away from the rotary elastic bag 215, because after each idling, when the ball 33 is blocked again, the conveying blade 14 and the inner pipe 112 will suddenly receive a great force, although the strength of the clamping block elastic bag 216 is reduced, the force is still great, because the force suddenly appears and disappears, the relative rotation between the rotary block 213 and the rotary baffle 214 repeatedly increases and decreases to form piston movement, through the forward check valve and the reverse check valve, the rotary block 213 and the rotary baffle 214 will continuously convey the gas in the first air storage tank 25 to the second air storage tank 26, the earlier the hard clot appears, because the conveying blade 14 is not scraped, the accumulated clot is more, but because the idling time of the outer pipe 111 and the inner pipe 112 is longer, the pressure difference between the first air storage tank 25 and the second air storage tank 26 is also greater, the effect that the first air storage tank 25 and the second air storage tank 26 can continuously store air pressure difference according to idle time is achieved, and a foundation is provided for subsequent pipeline cleaning;

the interior of the rotary elastic bag 215 is also connected with a pipeline at the left end of the valve groove 23, the left side of the valve groove 23 is connected with a pipeline inside the fixture block elastic bag 216 of the linkage device I3-1, when concrete is conveyed, the valve 24 is kept at the right end of the valve groove 23 due to high pressure in the rotary elastic bag 215, when the concrete is conveyed, the rotary block 213 and the rotary baffle plate 214 quickly rotate due to sudden reduction of resistance, and due to obstruction of an oblique valve, gas in the fixture block elastic bag 216 cannot immediately return to the rotary elastic bag 215, so that negative pressure is generated in the rotary elastic bag 215 to suck the valve 24 to the left side of the valve groove 23, and the effects of automatically changing the position of the valve 24 after the concrete is conveyed are achieved, the pipeline flow direction of the invention is changed, the operation mode of the rotary device 2 is automatically switched, and the cleaning mode of the inner pipe 112 is changed;

the second air storage tank 26 is connected with the bottom of the right side of the valve groove 23 through a pipeline, the top of the right side of the valve groove 23 is provided with a single valve 27, the upper end of the single valve 27 is connected with the inner pipeline of an elastic clamping block 34 of a second linkage device 3-2, after the valve 24 moves to the left side, the single valve 27 is communicated with the second air storage tank 26 through the right side of the valve groove 23, high pressure in the second air storage tank 26 enters the right side of the valve groove 23 and the elastic clamping block 34 of the second linkage device 3-2, the valve 24 is kept at the left end of the valve groove 23, the strength of the elastic clamping block 34 of the second linkage device 3-2 is increased, meanwhile, due to the change of the position of the valve 24, the first air storage tank 25 is communicated with the elastic clamping block 34 of the first linkage device 3-1, the strength of the elastic clamping block 34 of the first linkage device 3-1 is reduced due to negative pressure in the first air storage tank, the functions of keeping the valve 24 displaced and driving the conveying blade 14 to reversely and slowly rotate and switching the cleaning mode are achieved;

the conveying blade 14 comprises two fixed blocks 141, the fixed blocks 141 are obliquely arranged on the rotary sleeve 22, a rotary block groove is arranged in each fixed block 141, a rotary block 142 is arranged in each rotary block groove, a rotary shaft of the rotary block 142 is arranged at the outer end of each rotary block groove, a liquid outlet 143 is arranged on one side, close to the rotary shaft, of the rotary block 142, a sliding sealing sheet 144 is arranged on one side, far away from the rotary shaft, of the surface of the rotary block 142, a concrete cleaning agent box is connected to each rotary block groove through a pipeline, when the conveying blade 14 rotates in the forward direction, the sliding sealing sheet 144 slides in friction with the inner tube 112 to block the liquid outlet 143, the rotary block 142 is attached to the inner tube 11 to scrape off clots through hydraulic pressure of the concrete cleaning agent box, when the conveying blade 14 rotates in the reverse direction, the sliding sealing sheet 144 slides in friction with the inner tube, the clot is softened, so that the effect of quickly coating a concrete cleaning agent on the surface of the inner pipe 112 with the hard clot after the concrete is conveyed is achieved, and the clot is prevented from being continuously hardened and difficult to clean;

the upper end of the single valve 27 is also connected with an internal pipeline of the first air storage tank 25, an oblique valve is arranged in the pipeline, when the valve 24 displaces, the first air storage tank 25 is also communicated with the second air storage tank 26, but due to the obstruction of the oblique valve, the air pressure of the first air storage tank 25 and the air pressure of the second air storage tank 26 are synchronous and slow, so that the conveying blade 14 has enough time to paint the concrete cleaning agent, meanwhile, as the idle time of the outer pipe 111 and the inner pipe 112 is longer, more coagulum is condensed at the position, but the pressure difference between the first air storage tank 25 and the second air storage tank 26 is larger, the conveying blade 14 can paint excessive concrete cleaning agent at the position, after the first air storage tank 25 and the second air storage tank 26 are completely arranged at the same position, the conveying blade 14 can return to rotate forward, the softened coagulum is scraped, and the effect of painting more concrete cleaning agent on the inner pipe 112 according to the, and the clot can be quickly scraped after being softened, thereby playing the role of automatically cleaning the clot.

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

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. The utility model provides an environment-friendly aerated concrete makes production and uses maintenance equipment, includes concrete pipe (1), its characterized in that: concrete pipe (1) includes pipeline (11), be provided with driving shaft (12) in the middle of pipeline (11), driving shaft (12) one side is provided with motor (13), the cover is equipped with a plurality of rotary device (2) on driving shaft (12), the cover is equipped with a plurality of transport blade (14) on rotary device (2), all be provided with linkage group (3) in rotary device (2) and pipeline (11).

2. The curing equipment for manufacturing and producing the environment-friendly aerated concrete according to claim 1, which is characterized in that: the linkage group (3) comprises a first linkage device (3-1), a second linkage device (3-2) and a third linkage device (3-3), the first linkage device (3-1), the second linkage device (3-2) and the third linkage device (3-3) all comprise inner shafts (31), outer shafts (32) are sleeved outside the inner shafts (31), a plurality of balls (33) are arranged on the surfaces of the inner shafts (31), a plurality of ball grooves are formed in the outer shafts (32), a plurality of elastic clamping blocks (34) are arranged in the ball grooves, the balls (33) are clamped among the elastic clamping blocks (34), and the elastic clamping blocks (34) are of hollow structures;

the first linkage device (3-1) and the second linkage device (3-2) are arranged inside the rotating device (2), the conveying pipeline (11) comprises an outer pipe (111), a plurality of inner pipes (112) are arranged in the outer pipe (111), the inner pipes (112) are sleeved outside the conveying blades (14), and the third linkage device (3-3) is arranged between the outer pipe (111) and the inner pipes (112).

3. The curing equipment for manufacturing and producing the environment-friendly aerated concrete according to claim 2, wherein the curing equipment comprises: rotating device (2) includes gear shaft (21), the driving shaft (12) is located to even cover of gear shaft (21), gear shaft (21) both ends are provided with the teeth of a cogwheel, the meshing of gear shaft (21) both ends has little planetary gear, be provided with big planetary gear on the little planetary gear rotation axis, gear shaft (21) overcoat is equipped with swivel housing (22), swivel housing (22) both ends inner wall and big planetary gear meshing, aggregate unit (3-1) sets up between gear shaft (21) and swivel housing (22), aggregate unit two (3-2) set up between big planetary gear and little planetary gear rotation axis.

4. The curing equipment for manufacturing and producing the environment-friendly aerated concrete according to claim 3, wherein the curing equipment comprises: the gear shaft (21) comprises a gear shaft body (211), a circular groove (212) is formed in the gear shaft body (211), a rotating block (213) is arranged in the circular groove (212), the rotating block (213) is welded on the driving shaft (12), a rotating baffle plate (214) is arranged in the circular groove (212), a rotating elastic bag (215) is arranged on one side of the rotating block (213) and the rotating baffle plate (214), a clamping block elastic bag (216) is arranged in an elastic clamping block (34) of the linkage device I (3-1), the inner part of the rotating elastic bag (215) is connected with a pipeline in the clamping block elastic bag (216), and an inclined valve is arranged in the pipeline;

rotating device (2) still includes valve groove (23), be provided with valve (24) in valve groove (23), valve (24) left side is provided with the direct current pipeline, be provided with the oblique flow pipeline in the middle of valve (24), valve (24) right side is the dog, it has gas storage box (25) to keep away from rotatory elasticity bag (215) one side through reverse check valve pipe connection in circular recess (212), gas storage box (25) are through the inside pipe connection of valve (24) left side and elastic clamping block (34) of aggregate unit two (3-2).

5. The curing equipment for manufacturing and producing the environment-friendly aerated concrete according to claim 4, wherein the curing equipment comprises: an outer tube elastic bag (113) is arranged outside the outer tube (111), the inner part of the outer tube elastic bag (113) is connected with the inner pipeline of a clamping block elastic bag (216) of the linkage device III (3-3), and an oblique valve is arranged in the pipeline.

6. The curing equipment for manufacturing and producing the environment-friendly aerated concrete according to claim 5, wherein the curing equipment comprises: one side of the circular groove (212) far away from the rotary elastic bag (215) is also connected with a second air storage tank (26) through a forward one-way valve pipeline.

7. The curing equipment for manufacturing and producing the environment-friendly aerated concrete according to claim 6, wherein the curing equipment comprises: the interior of the rotary elastic bag (215) is also connected with a pipeline at the left end of the valve groove (23), and the left side of the valve groove (23) is connected with an internal pipeline of a fixture block elastic bag (216) of the linkage device I (3-1).

8. The curing equipment for manufacturing and producing the environment-friendly aerated concrete according to claim 7, wherein the curing equipment comprises: the second air storage tank (26) is connected with the bottom of the right side of the valve groove (23) through a pipeline, a single valve (27) is arranged at the top of the right side of the valve groove (23), and the upper end of the single valve (27) is connected with an inner pipeline of an elastic clamping block (34) of the second linkage device (3-2).

9. The curing equipment for manufacturing and producing the environment-friendly aerated concrete according to claim 8, wherein the curing equipment comprises: conveying blade (14) include two fixed blocks (141), fixed block (141) are all to setting up on swivel sleeve (22) to one side, be provided with the turning block groove in fixed block (141), the turning block inslot is provided with turning block (142), turning block (142) rotation axis sets up in turning block groove outer end, turning block (142) are close to rotation axis one side and are provided with liquid outlet (143), turning block (142) surface is kept away from rotation axis one side and is provided with slip gasket (144), turning block groove pipe connection has the concrete cleaning agent case.

10. The curing equipment for manufacturing and producing the environment-friendly aerated concrete according to claim 9, wherein: the upper end of the single valve (27) is also connected with an internal pipeline of the first gas storage tank (25), and an oblique valve is arranged in the pipeline.