CN111438310A - Height-adjustable aerated concrete plate reinforcing mesh cage group net rack - Google Patents

Abstract

The invention discloses a height-adjustable aerated concrete plate reinforcement mesh cage group net rack, and belongs to the field of saddle reinforcement mesh cage circulating transportation lines. The movable unit comprises a fixed unit and a movable unit which are arranged side by side, wherein a chain connected to a movable beam of the movable unit sequentially bypasses a first chain wheel assembly above the movable beam and a second chain wheel assembly below the movable beam and is then connected to a driving assembly, and the movable beam reciprocates in the vertical direction under the action of the driving assembly, so that the height required by workers with various networking modes and different heights is met; the movable beam is provided with the rotatable baffle plate, so that the saddle seat cannot move back and forth during networking, networking can be performed more efficiently, and the movable beam is pushed to the fixed unit to wait for transportation after networking is completed; in addition, two opposite movable beams are needed for bearing the saddle seat, chains connected to the two movable beams bypass chain wheel shafts of the same driving assembly, so that the two movable beams move synchronously when the driving assembly acts, and the saddle seat is placed on the movable beams more stably.

Description

Height-adjustable aerated concrete plate reinforcing mesh cage group net rack

Technical Field

The invention relates to the field of saddle steel bar mesh cage circulating conveying lines in the manufacturing process of building materials, in particular to the field of saddle steel bar mesh cage automatic circulating conveying lines in the manufacturing process of aerated concrete plate line finished products, and more particularly relates to a height-adjustable aerated concrete plate steel bar mesh cage group net rack.

Background

Generally, concrete structures have strong compressive strength but low tensile strength, the microstructure of the concrete structures is cracked and separated by any significant bending action, so that the structures are damaged, and the tensile strength of reinforcing steel bars is very high, so that a mode of adding stiffening materials such as reinforcing steel bars into concrete is brought into force. At present, reinforced concrete is a structural form which is most applied in China, and China is also the region which uses reinforced concrete structures most in the world.

The aerated concrete plate pre-buried with the steel reinforcement cylinder mould is the reinforced concrete structure commonly used in the building, when carrying out the equipment of steel reinforcement cylinder mould in the aerated concrete plate production line now, is accomplished on simple support, but the highly fixed of this kind of support, and when the manual work adopted different network deployment modes, the demand to the height of network deployment frame was inconsistent, and the specification of steel reinforcement cylinder mould is different, operating personnel's height is different, the network deployment operation of adopting highly fixed support to be not convenient for.

Through retrieval, Chinese patent number Z L201610061960.8, the granted announcement date is 2018, 1 and 9, the invention provides a tool for assembling a steel bar net cage, the tool comprises a support frame, a first upright post and a second upright post are arranged on the support frame, a steel bar net cage assembling device is arranged between the two upright posts, a lifting mechanism for lifting the steel bar net cage assembling device is further arranged on the two upright posts, the steel bar net cage assembling device is provided with a positioning reference plate capable of positioning a steel bar net sheet in the length direction and is suitable for assembling steel bar net cages of different specifications, however, the steel bar net cage hanger of the tool is placed on the steel bar net cage assembling device, a machine is needed to move the hanger, the hanger is waited to be hung after the net cage is assembled, a new round of operation can be carried out after an empty hanger is hung, the flexibility of operation is not enough, and a person standing in front of the device can influence the operation route of the hanger.

Disclosure of Invention

1. Technical problem to be solved by the invention

The invention aims to solve the problems that the existing mesh frame of the steel bar mesh cage group is fixed in height and cannot adapt to different mesh cage sizes, different heights of workers and different mesh forming modes, and provides the mesh frame of the steel bar mesh cage group of the aerated concrete plate with the adjustable height.

2. Technical scheme

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

the height-adjustable aerated concrete plate reinforcing mesh cage grid assembly comprises two movable units, wherein a fixed unit is arranged between the two movable units; the movable unit comprises an adjusting assembly, a first chain wheel assembly, a second chain wheel assembly and a driving assembly, a chain of the driving assembly bypasses the second chain wheel assembly and the first chain wheel assembly and is connected to a movable beam of the adjusting assembly, the movable beam reciprocates in the vertical direction under the driving of the driving assembly, and the saddle seat reciprocates in the horizontal direction along the movable beam under the manual pushing.

Furthermore, the adjusting assembly further comprises a second stand column, a top beam and a cross beam, wherein the movable beam, the top beam and the cross beam are respectively arranged at different heights of the second stand column, a support is installed on the top beam, the first chain wheel assembly is installed on the support, a chain bypasses the first chain wheel assembly and is connected to the movable beam, and the movable beam is driven by the driving assembly to reciprocate in the vertical direction along the second stand column.

Furthermore, one end of the movable beam is provided with a second stop block, the other end of the movable beam is provided with a baffle seat, the baffle seat is connected with a baffle through a shaft, one end of the baffle far away from the shaft is provided with a handle, and the baffle is controlled to rotate around the shaft.

Furthermore, the movable beam is provided with a mounting piece, one end of the chain is fixed on the mounting piece, and the movable beam is driven by the driving assembly to reciprocate in the vertical direction along the second upright post; the movable beam is also provided with a sliding groove, the second upright post is provided with a track, and the movable beam moves along the track.

Furthermore, two ends of the second upright post are respectively provided with a first stop block, the movable beam moves between the first stop blocks, and rubber pads are arranged on the first stop blocks and the second stop blocks of the movable beam; the second upright post is back on one side of the movable beam and is provided with a support.

Furthermore, two adjusting assemblies are arranged and are oppositely arranged, and the saddle seat is arranged between the oppositely arranged adjusting assemblies and can horizontally move on the movable beam; the driving assembly is arranged between the adjusting assemblies, chains wound from the adjusting assemblies on the two sides respectively wind around the upper end and the lower end of the corresponding driving chain wheel, and are synchronously wound and discharged under the driving of the motor, so that the movable beams on the two sides synchronously move in the vertical direction.

Furthermore, the fixed unit comprises a first upright post, a fixed beam and a positioning assembly, the fixed beam is arranged on the first upright post, and the saddle seat horizontally moves along the fixed beam and the movable beam under the manual pushing action; two positioning assemblies are arranged and are respectively arranged at two ends of the fixed beam; the positioning seat of the positioning assembly is arranged on the fixed beam, and the positioning block is connected with the positioning seat through a rotating shaft and rotates around the rotating shaft under the control of a control shaft fixed with the rotating shaft.

Furthermore, the fixed beam and the movable beam are both provided with a groove and a plurality of bearing wheels, the bearing wheels are installed through wheel seats, and the saddle seat is placed on the bearing wheels and moves in the horizontal direction through the bearing wheels; the distance between the bearing wheels is less than the width of the saddle seat; the two ends of the saddle seat are provided with rollers which are arranged in the grooves and roll in the grooves.

Furthermore, the motor of the driving assembly is mounted on the base, the driving shaft of the driving assembly is mounted on the base through a bearing with a seat, and the motor drives the driving chain wheel connected with the driving shaft to rotate, so as to drive the chain wound on the driving chain wheel to rotate.

Furthermore, the first chain wheel assembly comprises a lifting chain wheel, a first chain wheel seat and a first wheel shaft, a first groove is formed in the first chain wheel seat, and the first wheel shaft of the lifting chain wheel is arranged in the first groove and is fixed by a first fixing plate;

the second chain wheel component is arranged below the second chain wheel component and comprises a positioning chain wheel, a second chain wheel seat and a second wheel shaft, a second groove is formed in the second chain wheel seat, the second wheel shaft of the positioning chain wheel is arranged in the second groove and is fixed by a second fixing plate, a second hole is formed in the second chain wheel seat, and a chain penetrates through the second hole and winds around the driving chain wheel.

3. Advantageous effects

Compared with the prior art, the technical scheme provided by the invention has the following remarkable effects:

(1) the height-adjustable aerated concrete plate reinforcing mesh cage grid frame is provided with the movable unit, and the movable unit can adjust the height in the vertical direction under the action of the chain wheel assembly I, the chain wheel assembly II and the driving assembly, so that the requirement for the networking height corresponding to the requirement when different modes of networking are adopted manually is met, manual networking can be realized more conveniently, the labor intensity of manual networking is reduced, the production efficiency is improved, the networking height required by workers with different heights is met, and the working comfort level of workers is improved.

(2) According to the height-adjustable aerated concrete plate reinforcing mesh cage group net rack, the movable beam is provided with the second stop block and the baffle plate, the baffle plate can rotate around the shaft, the fixed beam is provided with the two positioning assemblies, and the positioning blocks in the positioning assemblies can rotate around the shaft; when the saddle seat needs to move between the movable beam and the fixed beam, the baffle and the positioning block are both rotated to the position where the saddle seat cannot be blocked, and when the saddle seat is in place, the baffle or the positioning block is rotated to the position where the saddle seat can be clamped, so that the saddle seat cannot horizontally move, and the networking work of workers is facilitated.

(3) According to the height-adjustable aerated concrete plate reinforcing mesh cage grid assembly, the oppositely-arranged adjusting assemblies are driven by one driving assembly, the movable beams on the two sides can synchronously move under the action of the driving assembly, so that the movable beams are always at the same height, the saddle seat is more stably arranged on the movable beams, and the networking process is stable and reliable.

(4) According to the height-adjustable aerated concrete plate reinforcing mesh cage grid assembly frame, the fixed units and the movable units are placed side by side, the number of the fixed units and the number of the movable units are set according to production requirements, the saddle seat can move between the fixed units and the movable units, manual networking is carried out on the movable units by the saddle seat without networking, the saddle seat can be pushed to the fixed units after assembly is completed to wait for a crane to lift away, the movable units on the other side of the fixed units can continue networking while waiting for lifting away, and networking efficiency is high.

Drawings

Fig. 1 is a schematic structural view of a height-adjustable aerated concrete panel mesh reinforcement cage grid according to the present invention;

FIG. 2 is a schematic structural diagram of an adjustment assembly in a movable unit of a network rack;

FIG. 3 is a schematic view of a movable beam in the adjustment assembly;

FIG. 4 is a schematic structural diagram of a positioning assembly in a network rack fixing unit;

FIG. 5 is a schematic structural diagram of a first sprocket assembly in the rack;

FIG. 6 is a schematic structural diagram of a second sprocket assembly in the rack;

fig. 7 is a schematic view of a driving assembly in the rack assembly;

fig. 8 is a schematic view of the saddle seat placed on the net rack.

The reference numerals in the schematic drawings illustrate:

1a, a fixing unit; 1a1, a first upright; 1a2, fixed beam; 1a3, positioning component; 1a31, positioning block; 1a32, positioning seat; 1a33, a rotating shaft; 1a34, control shaft;

1b, a movable unit;

1b1, adjusting assembly; 1b11, second upright; 1b11-1 and a first stop block; 1b11-2, rubber pad; 1b11-3, track; 1b12, a walking beam; 1b12-1, a chute; 1b12-2 and a second stop block; 1b12-3, baffle; 1b12-4, shaft; 1b12-5, a baffle seat; 1b12-6, a handle; 1b12-7, mounting; 1b12-8, a load wheel; 1b12-9, wheel seat; 1b12-10, groove; 1b13, top beam; 1b13-1, a support; 1b13-2, well one; 1b14, cross beam; 1b15, bracket;

1b2, sprocket assembly one; 1b21, lifting sprocket; 1b22, sprocket seat I; 1b23, groove one; 1b24, axle one; 1b25 and a first fixing plate;

1b3 and a sprocket assembly II; 1b31, positioning sprocket; 1b32 and a second sprocket seat; 1b33 and a second groove; 1b34, axle two; 1b35 and a second fixing plate; 1b36, hole two;

1b4, drive assembly; 1b41, motor; 1b42, drive shaft; 1b43, seated bearing; 1b44, drive sprocket; 1b45, chain; 1b46, base;

12. a saddle seat; 13. a saddle; 14. a steel chisel.

Detailed Description

For a further understanding of the invention, reference should be made to the following detailed description taken in conjunction with the accompanying drawings and examples.

Example 1

Referring to fig. 1 and 2, the height-adjustable aerated concrete slab rebar mesh cage grid of the embodiment includes two fixed units 1a and two movable units 1b, and the two movable units 1b are arranged side by side with the fixed units 1a and are respectively located at two sides of the fixed units 1 a. The movable unit 1b comprises an adjusting assembly 1b1, a chain wheel assembly I1 b2, a chain wheel assembly II 1b3 and a driving assembly 1b4, a chain 1b45 of the driving assembly 1b4 bypasses the chain wheel assembly II 1b3 and the chain wheel assembly I1 b2, a movable beam 1b12 connected to the adjusting assembly 1b1, the movable beam 1b12 reciprocates in the vertical direction under the driving of the driving assembly 1b4, and the saddle seat 12 reciprocates in the horizontal direction along the fixed beam 1a2 and the movable beam 1b12 of the fixed unit 1 a.

The two adjusting assemblies 1b1 are arranged, and are oppositely arranged, the distance between the two adjusting assemblies is matched with the length of the saddle seat 12, specifically, the adjusting assembly 1b1 further comprises a second upright post 1b11, a top beam 1b13 and a cross beam 1b14, the two second upright posts 1b11 are arranged and installed on an embedded plate on the ground, the movable beam 1b12, the top beam 1b13 and the cross beam 1b14 are respectively arranged at different heights of the second upright post 1b11, one side of the second upright post 1b11, which is back to the movable beam 1b12, is provided with a support 1b15 which is in a triangular structure, and the two second upright posts 1b11 and the support 1b15 enable the whole networking frame to be stably installed on the ground.

Referring to fig. 7, two chain wheel assemblies, namely, a chain wheel assembly 1b2 and a chain wheel assembly two 1b3, are mounted at the adjusting assembly 1b1 on each side, the chain wheel assembly one 1b2 is mounted on a support 1b13-1 arranged on the top beam 1b13, and the chain wheel assembly two 1b3 is mounted on the ground below the chain wheel assembly one 1b 2; the driving assembly 1b4 is arranged between the adjusting assemblies 1b1, four driving chain wheels 1b44 are arranged on the driving assembly, a chain 1b45 wound from the adjusting assembly 1b1 at one side is wound around the upper end of the corresponding driving chain wheel 1b44, a chain 1b45 wound from the adjusting assembly 1b1 at the other side is wound around the lower end of the corresponding driving chain wheel 1b44, and a chain 1b45 wound from the adjusting assembly 1b1 at two sides is synchronously wound in and released under the driving of a motor 1b41, so that the movable beams 1b12 at two sides synchronously move in the vertical direction.

The driving chain wheels 1b44 are driven by the same motor 1b41 to drive the chains 1b45 on two sides to synchronously act, so that the moving distances of the two movable beams 1b12 connected with the driving chain wheels are kept consistent and are always at the same height, and each movable beam 1b12 is wholly kept in a horizontal state, so that the situation that the heights of two ends are different is avoided, the saddle seat 12 is placed on the movable beam 1b12 and moves more stably along with the movable beam 1b12, and the networking process is stable and reliable.

Specifically, referring to fig. 5 to 7, the first sprocket assembly 1b2 includes a lifting sprocket 1b21, a first sprocket seat 1b22 and a first wheel axle 1b24, the first sprocket seat 1b22 is provided with a first groove 1b23, and the first wheel axle 1b24 and the lifting sprocket 1b21 are fixed and placed in the first groove 1b23 and fixed by a first fixing plate 1b 25. The second chain wheel assembly 1b3 comprises a positioning chain wheel 1b31, a second chain wheel seat 1b32 and a second wheel axle 1b34, wherein the second chain wheel seat 1b32 is provided with a second groove 1b33, the second wheel axle 1b34 and the positioning chain wheel 1b31 are fixed and arranged in the second groove 1b33 and fixed by a second fixing plate 1b35, and the second chain wheel seat 1b32 is further provided with a second hole 1b 36.

The motor 1b41 of the driving assembly 1b4 is installed on the base 1b46, the driving shaft 1b42 thereof is installed on the base 1b46 through the belt-seat bearing 1b43 and rotates in the belt-seat bearing 1b43 to drive the driving sprocket 1b44 connected with the driving shaft 1b42 to rotate, the chain 1b45 is fixed on the driving sprocket 1b44, bypasses the driving sprocket 1b44, passes through the hole two 1b36, sequentially bypasses the positioning sprocket 1b31 and the lifting sprocket 1b21, and is connected to the movable beam 1b 12. The second sprocket assembly 1b3 located below the first sprocket assembly 1b2 limits the orientation of the chain 1b45, making the chain 1b45 rotate more smoothly on each sprocket.

With reference to fig. 2 and 3, the movable beam 1b12 is provided with a mounting member 1b12-7, one end of a chain 1b45 is fixed on the mounting member 1b12-7, a hole 1b13-2 is formed in the adjusting assembly 1b1 at the corresponding position of a top beam 1b13, a cross beam 1b14 and a support 1b13-1, and the chain 1b45 penetrates through the hole 1b 13-2; the movable beam 1b12 is further provided with a sliding groove 1b12-1, the second upright post 1b11 is provided with a track 1b11-3, two ends of the track 1b11-3 are provided with a first stopper 1b11-1, and the first stopper 1b11-1 is provided with a rubber pad 1b 11-2. The chain 1b45 is driven by the driving assembly 1b4 to drive the movable beam 1b12 to move back and forth along the second upright post 1b11 between two stoppers 1b 11-1.

In the actual networking process, workers install the net sheets on the steel drill 14 to form a net cage, various networking modes are usually adopted in the process, and the optimum heights are different when networking is carried out in different modes, so that the height of the movable unit 1b can be adjusted in the vertical direction under the action of the chain wheel assembly I1 b2, the chain wheel assembly II 1b3 and the driving assembly 1b4, the requirement for the networking height corresponding to the requirement when networking is carried out in different modes manually is met, and manual networking can be realized more conveniently; meanwhile, the networking height can be adjusted according to the height of specific workers, the labor intensity of manual networking is reduced, and the working comfort and the production efficiency of the workers are improved.

One end of the movable beam 1b12 is provided with a second stop block 1b12-2, the second stop block 1b12-2 is also provided with a rubber pad 1b11-2, the other end of the movable beam is provided with a baffle seat 1b12-5, the baffle seat 1b12-5 is connected with a baffle 1b12-3 through a shaft 1b12-4, one end of the baffle 1b12-3, which is far away from the shaft 1b12-4, is provided with a handle 1b12-6, and the baffle 1b12-3 is controlled to rotate around the shaft 1b 12-4.

The movable unit 1b and the fixed unit 1a are arranged side by side, the movable beam 1b12 can be arranged side by side with the fixed beam 1a2 when moving to a certain height, the fixed beam 1a2 is fixed on the two first upright posts 1a1, and the two ends of the fixed beam are also provided with positioning assemblies 1a 3; the positioning seat 1a32 of the positioning assembly 1a3 is mounted on the fixed beam 1a2, and the positioning block 1a31 is connected with the positioning seat 1a32 through a rotating shaft 1a33 and rotates around the rotating shaft 1a33 under the control of a control shaft 1a34 fixed with the rotating shaft 1a33, see fig. 4.

Referring to fig. 8, the saddle seat 12 is placed between the oppositely disposed adjustment assemblies 1b1 and can be moved to the fixed unit 1a, specifically, the saddle seat 12 moves on the movable beam 1b12 and the fixed beam 1a2, the fixed beam 1a2 and the movable beam 1b12 are both provided with the grooves 1b12-10 and the plurality of bearing wheels 1b12-8, the bearing wheels 1b12-8 are installed through the wheel seats 1b12-9, and the spacing distance between the bearing wheels is smaller than the width of the saddle seat 12; the saddle seat 12 is placed on the carrier wheel 1b12-8 and moved in the horizontal direction by the carrier wheel 1b12-8, and the saddle seat 12 is provided at both ends with rollers which are placed in and rolled in the grooves 1b12-10, and they are engaged to make the movement of the saddle seat 12 more stable.

The positioning block 1a31 is triangular, when the saddle seat 12 is hung to the fixing unit 1a by the lifting device, the saddle seat can accurately fall to the fixing beam 1a2 along the positioning block 1a31, then the positioning block 1a31 rotates to a state that the saddle seat 12 cannot be hindered from moving under the action of the control shaft 1a34, the baffle 1b12-3 rotates to a state that the saddle seat 12 cannot be hindered from moving through the handle 1b12-6, the saddle seat 12 is manually pushed to the movable unit 1b on one side, then the baffle 1b12-3 is operated to match with the baffle two 1b12-2 to clamp the saddle seat 12, and the height is adjusted to be proper under the action of the driving component 1b4 to perform networking. Meanwhile, the saddle seat 12 with the other side being networked is manually pushed to the fixing unit 1a, and is lifted away by the lifting device, and then the saddle seat 12 which is not networked is lifted. When the lifting device operates, networking work can be carried out on the networking frame all the time, and the manual networking is matched with the lifting process, so that the networking efficiency is improved.

The present invention and its embodiments have been described above schematically, without limitation, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching, without departing from the spirit of the invention, the person skilled in the art shall not inventively design the similar structural modes and embodiments to the technical solution, but shall fall within the scope of the invention.

Claims (10)

1. The utility model provides an aerated concrete panel reinforcing bar net cage group rack with adjustable height which characterized in that: the device comprises two movable units (1b), wherein a fixed unit (1a) is arranged between the two movable units (1 b); the movable unit (1b) comprises an adjusting assembly (1b1), a chain wheel assembly I (1b2), a chain wheel assembly II (1b3) and a driving assembly (1b4), a chain (1b45) of the driving assembly (1b4) bypasses the chain wheel assembly II (1b3) and the chain wheel assembly I (1b2), and is connected to a movable beam (1b12) of the adjusting assembly (1b1), the movable beam (1b12) is driven by the driving assembly (1b4) to reciprocate in the vertical direction, and the saddle seat (12) is manually pushed to reciprocate in the horizontal direction along the movable beam (1b 12).

2. A height adjustable aerated concrete slab rebar grid mesh grid as claimed in claim 1, wherein: adjusting part (1b1) still include second stand (1b11), top beam (1b13) and crossbeam (1b14), walking beam (1b12), top beam (1b13) and crossbeam (1b14) set up respectively in the different height departments of second stand (1b11), install support (1b13-1) on top beam (1b13), sprocket assembly (1b2) install on support (1b13-1), chain (1b45) is connected to walking beam (1b12) around sprocket assembly (1b2), walking beam (1b12) is along second stand (1b11) reciprocating motion in the vertical direction under the drive of drive assembly (1b 4).

3. A height adjustable aerated concrete slab rebar mesh cage grid as claimed in claim 2, wherein: one end of the movable beam (1b12) is provided with a second stop block (1b12-2), the other end of the movable beam is provided with a baffle seat (1b12-5), the baffle seat (1b12-5) is connected with a baffle (1b12-3) through a shaft (1b12-4), one end, far away from the shaft (1b12-4), of the baffle (1b12-3) is provided with a handle (1b12-6), and the baffle (1b12-3) is controlled to rotate around the shaft (1b 12-4).

4. A height adjustable aerated concrete slab rebar grid mesh grid as claimed in claim 3 wherein: the movable beam (1b12) is provided with a mounting piece (1b12-7), one end of the chain (1b45) is fixed on the mounting piece (1b12-7), and the movable beam (1b12) is driven by the driving assembly (1b4) to reciprocate in the vertical direction along the second upright post (1b 11); the movable beam (1b12) is further provided with a sliding groove (1b12-1), the second upright post (1b11) is provided with a track (1b11-3), and the movable beam (1b12) moves along the track (1b 11-3).

5. A height adjustable aerated concrete slab rebar mesh cage grid as claimed in claim 4, wherein: two ends of the second upright post (1b11) are respectively provided with a first stop block (1b11-1), the movable beam (1b12) moves between the two first stop blocks (1b11-1), and rubber pads (1b11-2) are respectively arranged on the first stop block (1b11-1) and the second stop block (1b12-2) of the movable beam (1b 12); the second upright post (1b11) is back to one side of the movable beam (1b12) and is provided with a bracket (1b 15).

6. A height adjustable aerated concrete slab rebar mesh cage grid as claimed in claim 5, wherein: the two adjusting assemblies (1b1) are arranged oppositely, and the saddle seat (12) is arranged between the oppositely arranged adjusting assemblies (1b1) and can horizontally move on the movable beam (1b 12); the driving assembly (1b4) is arranged between the adjusting assemblies (1b1), chains (1b45) wound from the adjusting assemblies (1b1) on the two sides respectively wind around the upper end and the lower end of the corresponding driving chain wheel (1b44), and are synchronously wound and discharged under the driving of the motor (1b41), so that the movable beams (1b12) on the two sides synchronously move in the vertical direction.

7. A height adjustable aerated concrete slab rebar mesh cage grid as claimed in claim 6, wherein: the fixed unit (1a) comprises a first upright post (1a1), a fixed beam (1a2) and a positioning assembly (1a3), wherein the fixed beam (1a2) is arranged on the first upright post (1a1), and under the action of manual pushing, the saddle seat (12) horizontally moves along the fixed beam (1a2) and the movable beam (1b 12); two positioning assemblies (1a3) are arranged and are respectively arranged at two ends of the fixed beam (1a 2); the positioning seat (1a32) of the positioning assembly (1a3) is installed on the fixed beam (1a2), the positioning block (1a31) is connected with the positioning seat (1a32) through a rotating shaft (1a33), and rotates around the rotating shaft (1a33) under the control of a control shaft (1a34) fixed with the rotating shaft (1a 33).

8. A height adjustable aerated concrete slab rebar grid as claimed in claim 7 wherein: the fixed beam (1a2) and the movable beam (1b12) are both provided with grooves (1b12-10) and a plurality of bearing wheels (1b12-8), the bearing wheels (1b12-8) are installed through wheel seats (1b12-9), and the saddle seat (12) is placed on the bearing wheels (1b12-8) and moves in the horizontal direction through the bearing wheels (1b 12-8); the distance between the bearing wheels (1b12-8) is smaller than the width of the saddle seat (12); the two ends of the saddle seat (12) are provided with rollers which are arranged in the grooves (1b12-10) and roll in the grooves.

9. A height adjustable aerated concrete slab rebar grid as claimed in claim 8 wherein: the motor (1b41) of the driving assembly (1b4) is installed on the base (1b46), the driving shaft (1b42) of the driving assembly is installed on the base (1b46) through the bearing with a seat (1b43), and the motor (1b41) drives the driving chain wheel (1b44) connected with the driving shaft (1b42) to rotate, so that the chain (1b45) wound on the driving chain wheel (1b44) is driven to rotate.

10. A height adjustable aerated concrete slab rebar grid as claimed in claim 9 wherein: the chain wheel assembly I (1b2) comprises a lifting chain wheel (1b21), a chain wheel seat I (1b22) and a wheel shaft I (1b24), wherein a groove I (1b23) is formed in the chain wheel seat I (1b22), and the wheel shaft I (1b24) of the lifting chain wheel (1b21) is arranged in the groove I (1b23) and is fixed by a fixing plate I (1b 25);

sprocket subassembly two (1b3) set up in sprocket subassembly one (1b2) below, including location sprocket (1b31), sprocket seat two (1b32) and shaft two (1b34), set up fluted two (1b33) on sprocket seat two (1b32), groove two (1b33) is arranged in to shaft two (1b34) of location sprocket (1b31), fixed by fixed plate two (1b35), sprocket seat two (1b32) on still set up porose two (1b36), chain (1b45) passes porose two (1b36), be rich in driving sprocket (1b 44).

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