CN112814405B

CN112814405B - Reduce to evaporate and press air entrainment piece wall body fracture construction equipment

Info

Publication number: CN112814405B
Application number: CN202011627148.XA
Authority: CN
Inventors: 刘继超
Original assignee: Hebei Construction Group Corp Ltd
Current assignee: Hebei Construction Group Corp Ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2022-07-19
Anticipated expiration: 2040-12-30
Also published as: CN112814405A

Abstract

The utility model discloses a construction device for reducing cracking of an autoclaved aerated block wall, which belongs to the technical field of wall construction devices and comprises a butt joint base, a feeding mechanism, a steam humidifying mechanism and supporting rods, wherein the steam humidifying mechanism is installed at the upper end of the feeding mechanism, the supporting rods are arranged at four corners of the lower end of the feeding mechanism, and the supporting rods are fixedly connected with the butt joint base through the supporting rods. According to the construction device for reducing cracking of the autoclaved aerated block wall, steam moisturizing is performed on the autoclaved aerated block in the transfer process through the steam humidifying mechanism, the problem of cracking of the autoclaved aerated block wall in the later period is reduced, and the moisturizing is comprehensive and uniform; realize mechanized wall body and pile up, compare artifical manual building block, it is quick simple and convenient, practice thrift the amount of labour.

Description

Reduce and evaporate and press air entrainment piece wall body fracture construction equipment

Technical Field

The utility model relates to the technical field of wall construction devices, in particular to a construction device for reducing cracking of an autoclaved aerated block wall.

Background

The autoclaved aerated block is a novel light wall material with closed micropores, which is prepared by taking fly ash, lime and gypsum as main raw materials, adding a proper amount of air forming agent, pouring, standing, cutting and forming, and autoclaving at high temperature. The wall has the characteristics of light volume weight, heat preservation, heat insulation, water resistance, sound absorption, good earthquake resistance, convenient field construction and the like, and is mainly suitable for filling walls of frames and high-rise buildings; a non-load bearing partition wall; a composite heat-insulating layer and a self-heat-insulating outer wall of a peripheral retaining wall of the energy-saving building; roofing heat-insulating layer, etc. is a new type energy-saving wall material extensively used at home and abroad. The autoclaved aerated block needs to be built into an autoclaved aerated block wall.

The patent with the patent number of CN201920497213.8 discloses a brick arrangement tool for an autoclaved aerated block masonry, belongs to the field of buildings, is mainly used for brick arrangement measurement of the autoclaved aerated block masonry between constructional columns, and comprises a ruler, a first masonry module, a second masonry module and a leveling pipe, wherein a sliding groove is formed in the middle of the ruler, and the first masonry module and the second masonry module are arranged in the sliding groove and can slide in the sliding groove; the straightedge is provided with level tubes on the upper side, the left side and the right side of the chute. The utility model reduces brick arrangement errors and improves the rapid statistics of the number and the size of the building blocks; operators can quickly position the masonry, so that repeated adjustment operation of mortar joints is reduced, and the construction period is shortened; labor employment is reduced, labor cost is reduced, and rapid on-site masonry is realized.

However, above-mentioned evaporate and press air entrainment piece wall body construction and continue to use traditional manual piling mode, lead to evaporating to press air entrainment piece wall body construction speed low, the amount of labour is big, and when manual piling evaporates the air entrainment piece wall body, can make and evaporate the early steam humidification scope that breaks away from of pressure air entrainment piece, lead to evaporating when the construction to press air entrainment piece water content too low or because water pre-injection leads to evaporating to press air entrainment piece water content too much, evaporate the error of the water content of pressing the air entrainment piece and all can lead to the steam of later stage to press air entrainment piece wall body fracture.

Disclosure of Invention

The utility model aims to provide a construction device for reducing cracking of an autoclaved aerated block wall, which is used for carrying out steam moisturizing on an autoclaved aerated block in a transfer process through a steam humidifying mechanism, so that the problem of cracking of the autoclaved aerated block wall in the later period is reduced, and the moisturizing is comprehensive and uniform; realize mechanized wall body and pile up, compare artifical manual building block, it is quick simple and convenient, practice thrift the amount of labour to solve the problem that proposes among the above-mentioned background art.

In order to achieve the purpose, the utility model provides the following technical scheme: a construction device for reducing cracking of an autoclaved aerated block wall body comprises a butt joint base, a feeding mechanism, a steam humidifying mechanism and supporting rods, wherein the steam humidifying mechanism is installed at the upper end of the feeding mechanism, the supporting rods are arranged at four corners of the lower end of the feeding mechanism, and the supporting rods are fixedly connected with the butt joint base;

the steam humidifying mechanism comprises arc-shaped supports, a driving assembly, steam transmission pipes, steam nozzles, a steam pump and a hose, wherein the two sides of the feeding mechanism are fixedly connected with the arc-shaped supports through bolts, the steam transmission pipes are arranged between the two arc-shaped supports, the two ends of each steam transmission pipe are connected with the arc-shaped supports through the driving assembly, the outer side wall of each steam transmission pipe is provided with a plurality of steam nozzles which are arranged at equal intervals, the steam nozzles are mutually communicated with the inner cavities of the steam transmission pipes, and the inner cavities of the steam transmission pipes are mutually connected with the steam pump through the hose;

the feeding mechanism comprises a support, an adjusting air cylinder assembly, a fixed shaft assembly, a feeding motor, a moving shaft assembly and an auxiliary push plate, wherein the support is fixedly connected to support rods at two corners of the butt joint base through bolts, the adjusting air cylinder assembly is mounted on the support, the adjusting air cylinder assembly comprises a cylinder body and rod bodies, the middle part of the cylinder body is movably connected with the rod bodies, the moving shaft assembly is rotatably connected between the two rod bodies through a bearing, the fixed shaft assembly is fixedly connected between the two cylinder bodies, one end of the fixed shaft assembly is connected with the feeding motor, and the auxiliary push plate is welded on the side wall of the middle part of the fixed shaft assembly;

the butt joint base comprises a top plate, a bottom plate, a walking mechanism, lifting assemblies and infrared receivers, wherein four lifting assemblies are arranged between the top plate and the bottom plate and are distributed at four corners of the top plate, the infrared receivers are arranged on two sides of the top plate, and the walking mechanism is installed at the lower end of the bottom plate.

Furthermore, an electromagnetic valve is connected in series to the hose.

Further, drive assembly includes arc rack, limiting plate, T type slide rail, slide, driving motor and drive gear, through bolt fixedly connected with arc rack on the outer wall of arc support, is provided with the bellied T type slide rail in the outside on the lateral wall of arc support, and sliding connection slide on the T type slide rail installs driving motor on the slide, and driving motor is connected with drive gear, drive gear and arc rack intermeshing.

Further, the steam pump is connected with a steam engine.

Furthermore, the traveling mechanism comprises a movable wheel, an end plate, a middle shaft, a pinion, a main gear, a chain and a traveling motor, the movable wheel is rotatably connected to the left end and the right end of the middle shaft, the end plate is connected to the upper end of the movable wheel through a bolt, the pinion is welded to the middle of the middle shaft, the chain is meshed with the pinion, the main gear is meshed with the other end of the chain, and the main gear is fixedly connected to a rotating shaft of the traveling motor.

Further, the lifting component is one of a hydraulic cylinder, an air cylinder and an electric telescopic rod.

Further, the lifting assembly comprises a rotating motor and cross rods, the cross rods are mutually connected in the vertical direction, adjacent cross rods are connected in a rotating mode, and the middle of one cross rod is connected with the rotating motor.

Furthermore, the cross rod is composed of two rod bodies which are crossed with each other, the crossed part of the two rod bodies is rotationally connected through a rotating shaft, and the rotating shaft is connected with a rotating motor.

Compared with the prior art, the utility model has the beneficial effects that: according to the construction device for reducing cracking of the autoclaved aerated block wall, steam moisturizing is performed on the autoclaved aerated block in the transfer process through the steam humidifying mechanism, the surface of the autoclaved aerated block is guaranteed to be up to the standard during construction, the cracking problem of the autoclaved aerated block wall in the later period is reduced, and the steam moisturizing is comprehensive and uniform by adopting a multi-angle steam injection structure; adopt automatic mode of butt joint to evaporate to press the air entrainment piece to transport to wall body department from the delivery end to through the height of adjusting construction equipment, will evaporate to press the air entrainment piece to pile up on the wall body, realize that mechanized wall body piles up, compare artifical manual building block, it is quick simple and convenient, practice thrift the amount of labour.

Drawings

FIG. 1 is an overall structure diagram of a construction device for reducing cracking of an autoclaved aerated block wall body, provided by the utility model;

FIG. 2 is a structural diagram of a steam humidifying mechanism of the construction device for reducing cracking of an autoclaved aerated block wall body;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a structural diagram of a feeding mechanism of the construction device for reducing cracking of an autoclaved aerated block wall body;

FIG. 5 is a structural view of a butt joint base of the construction device for reducing cracking of an autoclaved aerated block wall in the first embodiment of the utility model;

FIG. 6 is a structural view of a traveling mechanism of the construction device for reducing cracking of an autoclaved aerated block wall body;

FIG. 7 is a structural view of a docking base of the construction apparatus for reducing cracking of an autoclaved aerated block wall in the second embodiment of the present invention;

FIG. 8 is an enlarged view of a portion of FIG. 7 at B according to the present invention.

In the figure: 1. butting the base; 11. a top plate; 12. a base plate; 13. a traveling mechanism; 131. a moving wheel; 132. an end plate; 133. a middle shaft; 134. a pinion gear; 135. a main gear; 136. a chain; 137. a traveling motor; 14. a lifting assembly; 141. a rotating electric machine; 142. a cross bar; 15. an infrared receiver; 2. a feeding mechanism; 21. a support; 22. adjusting the cylinder assembly; 221. a cylinder body; 222. a rod body; 23. fixing the shaft assembly; 24. a feeding motor; 25. moving the shaft assembly; 26. an auxiliary push plate; 3. a steam humidifying mechanism; 31. an arc-shaped bracket; 32. a drive assembly; 321. an arc-shaped rack; 322. a limiting plate; 323. a T-shaped slide rail; 324. a slide plate; 325. a drive motor; 326. a drive gear; 33. a steam delivery pipe; 34. a steam spray head; 35. a steam pump; 36. a hose; 37. an electromagnetic valve; 4. a support rod.

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.

Example one

Referring to fig. 1, the construction device for reducing cracking of the autoclaved aerated block wall comprises a butt joint base 1, a feeding mechanism 2, a steam humidifying mechanism 3 and supporting rods 4, wherein the steam humidifying mechanism 3 is installed at the upper end of the feeding mechanism 2, the supporting rods 4 are arranged at four corners of the lower end of the feeding mechanism 2, and the butt joint base 1 is fixedly connected with the supporting rods 4.

Referring to fig. 2 to 3, the steam humidifying mechanism 3 includes an arc-shaped support 31, a driving assembly 32, a steam transmission pipe 33, a steam spray head 34, a steam pump 35 and a hose 36, the two sides of the feeding mechanism 2 are both fixedly connected with the arc-shaped support 31 through bolts, the steam transmission pipe 33 is arranged between the two arc-shaped supports 31, the two ends of the steam transmission pipe 33 are both connected with the arc-shaped support 31 through the driving assembly 32, the driving assembly 32 includes an arc-shaped rack 321, a limiting plate 322, a T-shaped sliding rail 323, a sliding plate 324, a driving motor 325 and a driving gear 326, the arc-shaped rack 321 is fixedly connected with the outer wall of the arc-shaped support 31 through bolts, the T-shaped sliding rail 323 protruding to the outside is arranged on the side wall of the arc-shaped support 31, the sliding plate 324 is slidably connected with the T-shaped sliding rail 323, the driving motor 325 is arranged on the sliding plate 324, and the driving gear 326 is connected with the driving motor 325, the driving gear 326 is meshed with the arc-shaped rack 321, the driving assembly 32 on the steam humidifying mechanism 3 drives the steam transmission pipe 33 to move along the arc-shaped support 31, so that the steam jet direction is adjusted, multi-angle humidification of the autoclaved aerated block is realized, a plurality of steam spray heads 34 which are arranged at equal intervals are arranged on the outer side wall of the steam transmission pipe 33, the steam spray heads 34 are communicated with the inner cavity of the steam transmission pipe 33, the inner cavity of the steam transmission pipe 33 is connected with the steam pump 35 through a hose 36, the steam pump 35 is connected with a steam engine, steam generated in the steam engine is extracted by the steam pump 35, enters the steam transmission pipe 33 and is sprayed out from the steam spray heads 34, and the hose 36 is connected with an electromagnetic valve 37 in series, and the electromagnetic valve 37 is used for controlling and limiting flow.

Referring to fig. 4, the feeding mechanism 2 includes a support 21, an adjusting cylinder assembly 22, a fixed shaft assembly 23, a feeding motor 24, a moving shaft assembly 25 and an auxiliary push plate 26, the support 21 is fixedly connected to the support rods 4 at two corners of the docking base 1 through bolts, the adjusting cylinder assembly 22 is mounted on the support 21, the adjusting cylinder assembly 22 includes a cylinder body 221 and a rod body 222, the middle of the cylinder body 221 is movably connected with the rod body 222, the two rod bodies 222 are rotatably connected with the moving shaft assembly 25 through bearings, the two cylinder bodies 221 are fixedly connected with the fixed shaft assembly 23, one end of the fixed shaft assembly 23 is connected with the feeding motor 24, and the auxiliary push plate 26 is welded on the side wall of the middle of the fixed shaft assembly 23.

Referring to fig. 5 to 6, the docking base 1 includes a top plate 11, a bottom plate 12, a traveling mechanism 13, lifting assemblies 14 and infrared receivers 15, four lifting assemblies 14 are disposed between the top plate 11 and the bottom plate 12, the lifting assemblies 14 are one of hydraulic cylinders, air cylinders and electric telescopic rods, the four lifting assemblies 14 are distributed at four corners of the top plate 11, the infrared receivers 15 are disposed at two sides of the top plate 11, the traveling mechanism 13 is mounted at a lower end of the bottom plate 12, the traveling mechanism 13 includes a moving wheel 131, an end plate 132, a middle shaft 133, a pinion 134, a main gear 135, a chain 136 and a traveling motor 137, the moving wheel 131 is rotatably connected to both left and right ends of the middle shaft 133, the end plate 132 is connected to an upper end of the moving wheel 131 through a bolt, the pinion 134 is welded to a middle portion of the middle shaft 133, the pinion 134 is connected to the chain 136 in a meshing manner, the main gear 135 is connected to the other end of the chain 136 in a meshing manner, the main gear 135 is fixedly connected to a rotating shaft of the traveling motor 137, the traveling mechanism 13 drives the docking base 1 to move to a port of a conveyor belt of the autoclaved aerated block, the infrared receiver 15 receives an infrared signal emitted by an infrared emitter at the port of the conveyor belt, after docking, the conveyor belt conveys the autoclaved aerated block to the feeding mechanism 2, and after receiving the autoclaved aerated block, the device moves to a wall body to be stacked.

Example two

Referring to fig. 7 to 8, the docking base 1 includes a top plate 11, a bottom plate 12, a traveling mechanism 13, lifting assemblies 14 and infrared receivers 15, four lifting assemblies 14 are disposed between the top plate 11 and the bottom plate 12, each lifting assembly 14 includes a rotating motor 141 and a cross bar 142, a plurality of cross bars 142 are connected to each other in a vertical direction, and adjacent cross bars 142 are connected to each other in a rotating manner, the middle of one cross bar 142 is connected to the rotating motor 141, the cross bar 142 is composed of two cross bars, the intersection of the two cross bars is connected to the rotating motor 141 in a rotating manner through a rotating shaft, the four lifting assemblies 14 are distributed at four corners of the top plate 11, the infrared receivers 15 are disposed on two sides of the top plate 11, the traveling mechanism 13 is mounted on the lower end of the bottom plate 12, and the traveling mechanism 13 includes a moving wheel 131, a moving wheel 142, and a moving wheel 142, The device comprises an end plate 132, a middle shaft 133, a pinion 134, a main gear 135, a chain 136 and a walking motor 137, wherein the left end and the right end of the middle shaft 133 are respectively connected with a moving wheel 131 in a rotating mode, the upper end of the moving wheel 131 is connected with the end plate 132 through a bolt, the pinion 134 is welded in the middle of the middle shaft 133, the pinion 134 is connected with the chain 136 in a meshing mode, the other end of the chain 136 is connected with the main gear 135 in a meshing mode, the main gear 135 is fixedly connected to a rotating shaft of the walking motor 137, the walking mechanism 13 drives the docking base 1 to move to a conveying belt port of the autoclaved aerated block, the infrared receiver 15 receives an infrared signal emitted by an infrared emitter at the conveying belt port, after docking, the autoclaved aerated block is conveyed to the feeding mechanism 2 by the conveying belt, and after the autoclaved aerated block is received, the device moves to a wall body to be piled.

The working principle is as follows: the traveling mechanism 13 drives the docking base 1 to move to a conveying belt port of the autoclaved aerated block, the infrared receiver 15 receives an infrared signal emitted by an infrared emitter at the conveying belt port, after docking, the conveying belt conveys the autoclaved aerated block to the feeding mechanism 2, and after receiving the autoclaved aerated block, the device moves to a wall body to be piled; in the moving process, the steam pump 35 extracts steam generated in the steam engine, the steam enters the steam transmission pipe 33 and is sprayed out from the steam spray nozzle 34, and the driving assembly 32 on the steam humidifying mechanism 3 drives the steam transmission pipe 33 to move along the arc-shaped support 31, so that the direction of steam spraying is adjusted, and multi-angle humidifying of the autoclaved aerated block is realized; after the device moves to the wall body that needs to pile up, feed motor 24 drives fixed axle subassembly 23 rotatory, with evaporate on the fixed axle subassembly 23 press the air entrainment piece to promote to remove axle subassembly 25, adjust cylinder subassembly 22 and drive the block and stretch forward, supplementary push pedal 26 promotes the block simultaneously, and the construction of evaporating the pressure air entrainment piece wall body is accomplished to piling up in the wall body after evaporating the air entrainment piece and breaking away from removal axle subassembly 25.

In conclusion: according to the construction device for reducing cracking of the autoclaved aerated block wall, steam is kept moist for the autoclaved aerated block in the transportation process through the steam humidifying mechanism 3, the cracking problem of the autoclaved aerated block wall in the later period is reduced, and the moisture is kept comprehensively and uniformly; the autoclaved aerated block is transferred to the wall body from the conveying end by adopting an automatic butt joint mode, and the autoclaved aerated block is stacked on the wall body by adjusting the height of the construction device, so that the mechanical stacking of the wall body is realized.

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

Claims

1. The construction device for reducing cracking of the autoclaved aerated block wall body is characterized by comprising a butt joint base (1), a feeding mechanism (2), a steam humidifying mechanism (3) and supporting rods (4), wherein the steam humidifying mechanism (3) is installed at the upper end of the feeding mechanism (2), the supporting rods (4) are arranged at four corners of the lower end of the feeding mechanism (2), and the supporting rods (4) are fixedly connected with the butt joint base (1);

the steam humidifying mechanism (3) comprises arc-shaped supports (31), a driving assembly (32), steam transmission pipes (33), steam spray heads (34), a steam pump (35) and a hose (36), wherein the two sides of the feeding mechanism (2) are fixedly connected with the arc-shaped supports (31) through bolts, the steam transmission pipes (33) are arranged between the two arc-shaped supports (31), the two ends of each steam transmission pipe (33) are connected with the arc-shaped supports (31) through the driving assembly (32), the outer side walls of the steam transmission pipes (33) are provided with the plurality of steam spray heads (34) which are arranged at equal intervals, the steam spray heads (34) are communicated with inner cavities of the steam transmission pipes (33), and the inner cavities of the steam transmission pipes (33) are connected with the steam pump (35) through the hose (36);

the feeding mechanism (2) comprises a support (21), an adjusting cylinder assembly (22), a fixed shaft assembly (23), a feeding motor (24), a moving shaft assembly (25) and an auxiliary push plate (26), the supporting rods (4) at two corners of the butt joint base (1) are fixedly connected with supporting seats (21) through bolts, an adjusting air cylinder assembly (22) is installed on the support (21), the adjusting air cylinder assembly (22) comprises a cylinder body (221) and rod bodies (222), the middle part of the cylinder body (221) is movably connected with the rod bodies (222), a moving shaft assembly (25) is rotatably connected between the two rod bodies (222) through a bearing, a fixed shaft assembly (23) is fixedly connected between the two cylinder bodies (221), one end of the fixed shaft assembly (23) is connected with a feeding motor (24), and an auxiliary push plate (26) is welded on the side wall of the middle part of the fixed shaft assembly (23);

butt joint base (1) includes roof (11), bottom plate (12), running gear (13), lifting unit (14) and infrared receiver (15), be provided with four lifting unit (14) between roof (11) and bottom plate (12), four lifting unit (14) distribute in the four corners department of roof (11), the both sides of roof (11) all are provided with infrared receiver (15), running gear (13) are installed to the lower extreme of bottom plate (12).

2. The construction device for reducing the crack of the autoclaved aerated block wall body according to claim 1, wherein an electromagnetic valve (37) is connected in series on the hose (36).

3. The construction device for reducing cracking of the autoclaved aerated block wall body according to claim 1, wherein the driving assembly (32) comprises an arc-shaped rack (321), a limiting plate (322), a T-shaped sliding rail (323), a sliding plate (324), a driving motor (325) and a driving gear (326), the arc-shaped rack (321) is fixedly connected to the outer wall of the arc-shaped support (31) through a bolt, the T-shaped sliding rail (323) protruding towards the outside is arranged on the side wall of the arc-shaped support (31), the sliding plate (324) is connected to the T-shaped sliding rail (323) in a sliding manner, the driving motor (325) is installed on the sliding plate (324), the driving gear (326) is connected to the driving motor (325), and the driving gear (326) is meshed with the arc-shaped rack (321).

4. The construction device for reducing the crack of the autoclaved aerated block wall body as claimed in claim 1, wherein the steam pump (35) is connected with a steam engine.

5. The construction device for reducing the crack of the autoclaved aerated block wall body according to claim 1, wherein the walking mechanism (13) comprises a moving wheel (131), an end plate (132), a middle shaft (133), a pinion (134), a main gear (135), a chain (136) and a walking motor (137), the moving wheel (131) is rotatably connected to the left end and the right end of the middle shaft (133), the end plate (132) is connected to the upper end of the moving wheel (131) through a bolt, the pinion (134) is welded to the middle of the middle shaft (133), the chain (136) is meshed with the pinion (134), the main gear (135) is meshed with the other end of the chain (136), and the main gear (135) is fixedly connected to a rotating shaft of the walking motor (137).

6. The construction device for reducing the crack of the autoclaved aerated block wall body according to claim 1, wherein the lifting component (14) is one of a hydraulic cylinder, an air cylinder and an electric telescopic rod.

7. The construction device for reducing the crack of the autoclaved aerated block wall body according to claim 1, wherein the lifting assembly (14) comprises a rotating motor (141) and cross rods (142), a plurality of cross rods (142) are connected with each other in the vertical direction, adjacent cross rods (142) are connected with each other in a rotating way, and the rotating motor (141) is connected with the middle part of one cross rod (142).

8. The construction device for reducing the crack of the autoclaved aerated block wall body according to claim 7, wherein the cross bar (142) is composed of two bar bodies which are crossed with each other, the crossed part of the two bar bodies is rotationally connected through a rotating shaft, and the rotating shaft is connected with a rotating motor (141).