CN220845247U - ALC light autoclaved aerated concrete wall auxiliary installation device - Google Patents

Abstract

The utility model discloses an ALC light autoclaved aerated concrete wall auxiliary installation device, which comprises: two plane frames which are arranged in parallel at intervals, wherein any one of the plane frames is of a right triangle structure which is vertically arranged and can freely move along the ground through a moving mechanism arranged at the bottom; the connecting rod is fixedly connected with the top ends of the two plane frames; a pulley provided on the connecting rod; the support is fixedly connected with the bevel edges of the two plane frames; the wire rope outlet end of the winch upwards winds through the pulley, vertically extends downwards and is fixedly connected with the hoisting mechanism. The utility model forms abundant and stable transportation and hoisting spaces between the plane frames, and is convenient for the moving mechanism and the winch to move and lift the ALC lath to a proper installation position, thereby greatly improving the installation efficiency and the installation quality of the ALC lath, simultaneously effectively reducing the manual workload in the construction process and lowering the construction cost.

Description

ALC light autoclaved aerated concrete wall auxiliary installation device

Technical Field

The utility model relates to the field of building engineering. More particularly, the utility model relates to an ALC light autoclaved aerated concrete wall auxiliary installation device.

Background

ALC light partition board is also called autoclaved aerated light concrete slab, is formed by processing light autoclaved aerated concrete slabs, belongs to novel building energy-saving products, and has wide application in the field of building engineering. The lightweight autoclaved aerated concrete plate (ALC slat) is a high-quality novel building material formed by taking silica sand, cement and lime as main raw materials and curing at high temperature and high pressure, and has the advantages of light volume weight, high strength, high heat insulation, good sound insulation, convenient construction, durable fire resistance, low manufacturing cost, quick construction period, industrialized production, standardization, industrialized installation and the like.

In the construction of ALC lightweight autoclaved aerated concrete wall, a plurality of ALC laths are required to be spliced and assembled, because the single ALC lath serving as a wall structure has the characteristics of large volume and heavy weight, a flat plate transfer vehicle is generally adopted to move the ALC lath to the vicinity of a mounting position in the transportation and mounting of the plate, then the ALC lath is lifted manually and positioned and mounted, and the following problems exist in the mounting process: 1. 3-5 persons are needed to cooperate in the installation process, so that the workload is large, and the labor cost is high; 2. the ALC lath is generally difficult to assemble in place once and needs to be adjusted for many times under the influence of a working face and an installation tool (the floor space occupied by the slab transfer trolley), the installation efficiency is low, and the splicing quality of the slab joint is difficult to guarantee.

In order to solve the problems, an ALC light autoclaved aerated concrete wall auxiliary installation device needs to be designed, so that the installation efficiency and the installation quality of plates are improved while the construction cost is reduced.

Disclosure of utility model

The utility model aims to provide an ALC light autoclaved aerated concrete wall auxiliary installation device, which is convenient for a moving mechanism to move and lift an ALC slat to a proper installation position by forming a sufficient and stable transportation and lifting space between plane frames, so that the installation efficiency and the installation quality of the ALC slat are greatly improved, the manual workload in the construction process is effectively reduced, and the construction cost is reduced.

To achieve these objects and other advantages and in accordance with the purpose of the utility model, there is provided an ALC lightweight autoclaved aerated concrete wall auxiliary installation apparatus including:

Two plane frames which are arranged at intervals in parallel, wherein any one plane frame is of a right triangle structure which is arranged vertically, two right-angle sides of the plane frame are respectively arranged along the vertical direction and the horizontal direction, and the plane frames freely move along the ground through a moving mechanism arranged at the bottom;

The connecting rod is fixedly connected with the top ends of the two plane frames along the horizontal direction;

A pulley disposed on the connecting rod;

the support is fixedly connected with the bevel edges of the two plane frames along the horizontal direction;

The wire rope outlet end of the winch upwards winds through the pulley, vertically extends downwards and is fixedly connected with the hoisting mechanism, and the hoisting mechanism is used for hoisting the ALC lath.

Preferably, the ALC light autoclaved aerated concrete wall auxiliary installation device, the planar frame comprises a first vertical rod which is vertically arranged; the horizontal rod is horizontally arranged and fixedly connected with the bottom end of the first vertical rod; the inclined rod is fixedly connected with the top end of the first vertical rod and the end part of the horizontal rod, which is far away from the first vertical rod; the second vertical rod is vertically arranged and fixedly connected with the middle parts of the horizontal rods and the inclined rods, and the top ends of the second vertical rods of the two plane frames are fixedly connected through a horizontal rod which is horizontally arranged.

Preferably, the ALC lightweight autoclaved aerated concrete wall auxiliary installation device, the moving mechanism comprises two universal wheels, the two universal wheels are arranged at the bottom of the horizontal rod at intervals along the length direction of the horizontal rod, and any universal wheel is rotatably connected with the horizontal rod.

Preferably, the ALC lightweight autoclaved aerated concrete wall auxiliary installation device, the planar frame further comprises a locking mechanism, the locking mechanism comprises a wooden wedge, the wooden wedge is arranged at the bottom of the first vertical rod and detachably connected with the first vertical rod, and the height of the wooden wedge is equal to the distance between the bottom end of the first vertical rod and the ground.

Preferably, the ALC lightweight autoclaved aerated concrete wall auxiliary installation device, the support comprises two support frames, the two support frames are oppositely arranged at the lower parts of the two plane frames, any support frame is of an inverted-L structure, the two support frames and the corresponding plane frame are positioned in the same vertical plane, the vertical parts of the support frames are fixedly connected with the horizontal rods and the diagonal rods, and the horizontal parts horizontally extend outwards from the intersection points of the vertical parts and the diagonal rods; the horizontal parts of the two support frames are fixedly connected with each other, and the winch is installed in the middle of the horizontal support frame.

Preferably, the ALC light autoclaved aerated concrete wall auxiliary installation device comprises a lifting ring which is fixedly connected with the wire rope outlet end; and two lifting ropes are symmetrically sleeved at two ends of the ALC slat, one end of each lifting rope is hung on the lifting ring, and the other end of each lifting rope is supported at the bottom of the ALC slat.

Preferably, the distance between the two lifting ropes supported at the bottom of the ALC slat is 1/2 of the total length of the ALC slat.

The utility model at least comprises the following beneficial effects:

The utility model forms abundant and stable transportation and hoisting space between the plane frames, is convenient for the moving mechanism to cooperate with the windlass to move and lift the ALC lath to a proper installation position, and constructors can finely adjust and further position and install the ALC lath after preliminary displacement is finished on the basis, wherein the stress and displacement of the ALC lath are mainly controlled by the auxiliary installation device, and the constructors only need to cooperate to adjust and fix the detailed position of the plate, thereby effectively reducing the manual workload in the construction process, reducing the construction cost, avoiding the interference of site construction equipment to the transportation and movement process of the ALC lath, being beneficial to installing the ALC lath in place once and greatly improving the installation efficiency and the installation quality of the ALC lath.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic structural view of an ALC lightweight autoclaved aerated concrete wall auxiliary installation device according to an embodiment of the utility model;

FIG. 2 is a schematic view of the ALC slat in the above embodiment;

FIG. 3 is a schematic view showing the connection structure of ALC lath in the above embodiment.

Reference numerals illustrate:

1. A universal wheel; 2. a hoist; 3. a pulley; 4. a wire rope; 5. a hanging ring; 6. ALC lath; 7. a hanging rope; 8. a first upright; 9. a horizontal bar; 10. a support; 11. a diagonal rod; 12. a second upright; 13. a cross bar; 14. and (5) a locking mechanism.

Detailed Description

The present utility model is described in further detail below with reference to the drawings to enable those skilled in the art to practice the utility model by referring to the description.

It should be noted that the experimental methods described in the following embodiments, unless otherwise specified, are all conventional methods, and the reagents and materials, unless otherwise specified, are all commercially available; in the description of the present utility model, the terms "transverse", "longitudinal", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus are not to be construed as limiting the present utility model.

As shown in fig. 1 to 3, the present utility model provides an ALC lightweight autoclaved aerated concrete wall auxiliary installation apparatus, comprising:

Two plane frames which are arranged at intervals in parallel, wherein any one plane frame is of a right triangle structure which is arranged vertically, two right-angle sides of the plane frame are respectively arranged along the vertical direction and the horizontal direction, and the plane frames freely move along the ground through a moving mechanism arranged at the bottom;

The connecting rod is fixedly connected with the top ends of the two plane frames along the horizontal direction;

A pulley 3 provided on the connecting rod;

the support 10 is fixedly connected with the bevel edges of the two plane frames along the horizontal direction;

the wire rope 4 outlet end of the winch 2 upwards winds through the pulley 3, vertically downwards extends and is fixedly connected with a hoisting mechanism, and the hoisting mechanism is used for hoisting the ALC lath 6.

In the above technical scheme, the auxiliary installation device of the ALC lightweight autoclaved aerated concrete wall is used for stably hoisting and rapidly moving the ALC lath which is transported to the vicinity of the construction position through conventional plate transportation equipment (a plate transfer trolley and the like) to the position to be installed, and adjusting the detailed position of the ALC lath through manual cooperation and fixedly installing the ALC lath. The auxiliary installation device is provided with a moving mechanism and a lifting mechanism, and the lifting mechanism is matched with the winch, the pulley and the lifting mechanism to lift and lift the lower ALC slat, so that the installation height of the ALC slat is adjusted; the moving mechanism can realize the integral movement of the plane frame on the ground, drive the ALC lath to synchronously move, and realize the adjustment of the plane installation position of the ALC lath; above-mentioned moving mechanism and elevating system cooperation can realize the flexible control to the spatial position of ALC slat, is favorable to quick, accurate with the ALC slat remove to waiting the mounted position department, constructor only need supplementary ALC slat accurate counterpoint can directly carry out fixed mounting (once install in place) to it, has effectively reduced manual work load and work degree of difficulty, has improved efficiency of construction and construction quality. In the lifting mechanism, a pulley is arranged in the middle of a connecting rod, and the axis of the pulley is parallel to the connecting rod; the hoist engine sets up in the middle part of support, and the wire rope of hoist engine winds and establishes on the reel, and the axis parallel arrangement of reel and pulley to, guarantee that hoist engine wire rope can wind smoothly and wear the pulley and downwards be connected with hoist mechanism, wire rope line shape is smooth, receive and releases steadily. Meanwhile, the ALC light autoclaved aerated concrete wall auxiliary installation device forms a sufficient and stable transportation and hoisting space between two plane frames, on one hand, transportation equipment (a plane transfer trolley) can move to a position between the two plane frames, so that a hoisting mechanism can vertically hoist an ALC slat after aligning the ALC slat, interference of site construction equipment on transportation and hoisting processes of the ALC slat (namely, mutual interference between the transportation equipment and the auxiliary installation device on the plane position is avoided), the position of the ALC slat on the transportation equipment is not required to be additionally adjusted, and the hoisting efficiency and the hoisting stability of the ALC slat are greatly improved; on the other hand, other structural members (connecting rods, pulleys, supports, windlass and the like are arranged at the outer edges of the plane frames) are not arranged in the hoisting space formed between the two plane frames, so that collision of the ALC lath with the auxiliary installation device or other surrounding construction equipment in the hoisting and subsequent moving processes is effectively avoided, and the construction safety is improved.

The utility model has simple structure, can be assembled and manufactured by using the existing conventional construction materials and equipment, and has low cost; in practical application, form stable panel transportation, hoist and mount space through planar frame, make the gesture that the ALC slat can keep vertical setting through moving mechanism and hoist engine cooperation remove and promote to suitable mounted position, the manual work cooperation is with its fixed mounting for the installation (the location equipment of a plurality of ALC slats) of whole ALC wallboard is high-efficient swift, and be difficult for taking place the safe collision accident, compare with traditional installation method, a large amount of manpower and time that the ALC slat transport and the positioning in-process required have been saved, manual work load has been reduced, still improved the installation effectiveness and the installation quality of ALC slat when reducing construction cost by a wide margin.

In another technical scheme, the ALC light autoclaved aerated concrete wall auxiliary installation device comprises a first vertical rod 8 which is vertically arranged; the horizontal rod 9 is horizontally arranged and fixedly connected with the bottom end of the first vertical rod; a diagonal rod 11 fixedly connecting the top end of the first upright 8 with the end of the horizontal rod 9 remote from the first upright; the second vertical rod 12 is vertically arranged and fixedly connected with the middle parts of the horizontal rod 9 and the inclined rod 11, and the top ends of the second vertical rods of the two plane frames are fixedly connected through a horizontal rod 13 which is horizontally arranged. Wherein, first pole setting, horizon bar and diagonal bar constitute jointly plane frame's basic frame structure, owing to plane frame's diagonal bar one side still carries on the hoist mechanism (hoist engine, pulley) that is used for hoisting the heavy object, for guaranteeing the atress stability of diagonal bar, set up the second pole setting that is used for the reinforcement in the above-mentioned technical scheme to adopt the horizontal pole to connect the top of the second pole setting of both sides, also be the further connection to both sides diagonal bar simultaneously, thereby, also improved both sides plane frame connection's wholeness when strengthening diagonal bar supporting stability, be favorable to guaranteeing the construction stability.

In another technical scheme, the ALC light autoclaved aerated concrete wall auxiliary installation device comprises two universal wheels 1, wherein the universal wheels 1 are arranged at the bottom of the horizontal rod 9 at intervals along the length direction of the horizontal rod 9, and any universal wheel 1 is rotationally connected with the horizontal rod 9. The two universal wheels of the moving mechanism are oppositely arranged at two ends of the horizontal rod, so that the plane frame can stably and freely move on the ground. After the lifting mechanism is used for lifting the ALC lath, the position of the integral auxiliary installation device can be adjusted through the universal wheel, so that the installation direction and the (horizontal) installation position of the ALC lath can be adjusted, the ALC lath can avoid obstacles possibly existing in a construction area, can be quickly and once moved to the position to be installed, the repeated adjustment of the transverse and vertical installation positions of the ALC lath is avoided, the construction of the ALC lath spliced in sequence along the height direction is also facilitated, and the construction efficiency is further improved.

In another technical scheme, the ALC lightweight autoclaved aerated concrete wall auxiliary installation device, the planar frame further comprises a locking mechanism 14, which comprises a wooden wedge, the wooden wedge is arranged at the bottom of the first vertical rod 8 and is detachably connected with the first vertical rod, and the height of the wooden wedge is equal to the distance between the bottom end of the first vertical rod 8 and the ground. Specifically, after the winch 2 and the hoisting mechanism are used to hoist the ALC lath 6 in a matched manner and the ALC lath is moved to a corresponding installation position through the moving mechanism, in order to ensure the stability of horizontal positioning in the installation height adjustment and the fixed installation process of the subsequent ALC lath, the position of the auxiliary installation device needs to be locked by adopting the locking mechanism 14, so that the position of the auxiliary installation device is prevented from sliding relatively with the ground in the subsequent construction process, and the smooth in-place installation of the ALC lath is influenced. In the embodiment, after the ALC lath is moved to the horizontal position, the wooden wedge is blocked at the bottom of the first upright rod, so that the plane frame is relatively stably supported on the ground and cannot slide relatively; after the installation of the current ALC lath is completed, the auxiliary installation device is required to be moved again, and the wooden wedge is moved out. In addition, a jacking mechanism (such as a jack) can be additionally arranged between the locking device and the first upright rod, and in a moving state, the jacking mechanism is in an initial state, and the locking device is not contacted with the ground; under the locking state, the pushing end of the jacking mechanism pushes downwards to enable the bottom surface of the locking mechanism (the wooden wedge) to be in butt joint with the ground, and the jacking force is properly increased according to actual construction requirements, so that under the condition that the plane frame is not inclined, the static friction force between the locking mechanism and the ground is further increased, and the auxiliary installation device is prevented from sliding.

In another technical scheme, the ALC lightweight autoclaved aerated concrete wall auxiliary installation device, the support 10 comprises two supporting frames, which are oppositely arranged at the lower parts of the two plane frames, any supporting frame is of an inverted-L structure, and is positioned in the same vertical plane with the corresponding plane frame, the vertical part of the supporting frame is fixedly connected with the horizontal rod and the diagonal rod, and the horizontal part extends outwards horizontally from the intersection point of the vertical part and the diagonal rod; the horizontal parts of the two support frames are fixedly connected with each other, and the winch is installed in the middle of the horizontal support frame. In the above technical scheme, the vertical portion of support frame is vertical to be set up between diagonal rod and horizon bar, and the horizon portion uses vertical portion top as the starting point reverse direction plane frame outside horizontal extension to a stull for installing the hoist engine can set up in the plane frame outside, under the prerequisite of guaranteeing installation and job stabilization nature, lets the mounted position of hoist engine stagger the space between two plane frames, avoids occupying the construction space in middle part, influences the use of ALC slat hoist and mount or other construction equipment (such as slab transfer car or the like).

In another technical scheme, the ALC light autoclaved aerated concrete wall auxiliary installation device comprises a hoisting ring 5 which is fixedly connected with the wire outlet end of the steel wire rope 4; and two lifting ropes 7 are symmetrically sleeved at two ends of the ALC slat 6, any lifting rope 7 is of an annular structure, one end of each lifting rope is hung on the lifting ring 5, and the other end of each lifting rope is supported at the bottom of the ALC slat 6. When the ALC slat is in a vertical posture, any lifting rope is integrally arranged in a vertical plane and inclines relative to the surface of the ALC slat, the bottom end of the lifting rope is close to the end part of the ALC slat, the top end of the lifting rope inclines upwards and extends towards the middle part of the ALC slat, the two lifting ropes are connected at the middle point of the ALC slat and then are hung on a lifting ring above the lifting rope, and the lifting ring is of a claw structure and is convenient to detach and mount from the end part of the annular lifting rope.

In another technical scheme, the distance between the two lifting ropes 7 supported at the bottom of the ALC lath 6 is 1/2 of the total length of the ALC lath. Specifically, the bottom ends of the lifting ropes are supported at the position of 1/4 of the bottom edge length of the ALC slat, so that the ALC slat is uniformly stressed in the lifting process, and the lifting stability is improved.

In this embodiment, the method for installing the ALC strip by using the ALC lightweight autoclaved aerated concrete wall auxiliary installation device is as follows:

S1, transferring the plate into position: lifting plates (a plurality of ALC slats) to a discharging platform through lifting equipment, then transporting the plates to the vicinity of the positions where the ALC slats are installed by adopting 2 flat plate transfer vehicles, vertically placing each ALC slat on the flat plate transfer vehicle, binding the plates by using nylon hanging strips before lifting, checking whether the hanging strips are firmly bound or not, and enabling the nylon hanging strip to be 5cm and 600mm away from the plate end;

S2, hoisting and installing plates: the ALC light autoclaved aerated concrete wall auxiliary installation device is adopted to hoist the plates to the installation position in sequence to be installed in place by matching with manpower, the installation sequence is preferably installed from the edge of the hole to two sides, the edge plates of the hole and the external corner plates are preferably used as whole plates, and the wall without the hole is installed from one end in sequence;

S21, an ALC light autoclaved aerated concrete wall auxiliary installation device is assembled in advance and moved to the vicinity of the position where an ALC slat is to be installed, then a flat transfer truck carrying the corresponding ALC slat is moved to the position right below a hoisting mechanism, and the hoisting mechanism is made to be opposite to the midpoint of the ALC slat;

S22, respectively binding (sleeving) the two lifting ropes at a position 1/4 of the length from the end part of the ALC slat, hanging the lifting ropes on the lifting rings, driving the steel wire ropes through the windlass, and driving the ALC slat to vertically lift for a certain distance (the lifting distance can be slightly larger than the installation height of the ALC slat) through the connection between the lifting rings and the lifting ropes so as to enable the ALC slat to leave the slab transfer vehicle;

S23, adjusting the horizontal position of the auxiliary installation device and the ALC lath hoisted by the auxiliary installation device through a moving mechanism to enable the auxiliary installation device to fall right above a position to be installed, then plugging wood wedges at the bottom of the first upright rod, and locking all universal wheels to enable the auxiliary installation device to be fixed on the ground;

S24, driving the steel wire rope to further adjust the height of the ALC lath through the winch, adjusting the detailed position of the ALC lath in cooperation with the manual work, enabling the ALC lath to accurately fall on the installation position, dismantling connection of the ALC lath and the hoisting mechanism, and then fixedly installing the ALC lath through the manual work.

The ALC laths are all custom designed and prefabricated in a factory, and due to uncertainty of construction quality of workers, thermal expansion, cold contraction and other reasons, grid cloth is usually required to be pasted at a plate seam (of adjacent ALC laths) when the ALC laths are assembled, the method can enable the plate surface at the plate seam to be raised by 3-4mm, the integral flatness of the ALC wallboard is easily damaged, and the wall forming quality is affected. In order to solve the above problems and further improve the splicing and mounting quality of the ALC lath, in this embodiment, as shown in fig. 2-3, a concave-convex groove design is adopted at the splicing surface of the plate, so that the ALC lath is convenient to mutually engage when being spliced, and the overall stability of the assembled ALC wallboard structure is facilitated to be enhanced; meanwhile, an anti-cracking groove (with the depth of 3-5mm and the width of 50 mm) is reserved (processed) at the edge of the plate splicing, so that after the adjacent ALC laths are spliced through the concave-convex groove, a strip-shaped groove arranged along the length direction of the plate seam is naturally formed at the plate seam, when the grid cloth is pasted, the grid cloth with proper size is selected and pressed into the strip-shaped groove, the plate surface at the plate seam and other plate surfaces can be leveled after construction is finished, the integral flatness of the wallboard is guaranteed, the treatment of subsequent procedures (chromatic aberration and plate seam edges) is avoided, and the construction efficiency of the ALC wallboard is further improved.

Although embodiments of the present utility model have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the utility model would be readily apparent to those skilled in the art, and accordingly, the utility model is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (7)

1. An ALC lightweight autoclaved aerated concrete wall auxiliary installation device, characterized by comprising:

Two plane frames which are arranged at intervals in parallel, wherein any one plane frame is of a right triangle structure which is arranged vertically, two right-angle sides of the plane frame are respectively arranged along the vertical direction and the horizontal direction, and the plane frames freely move along the ground through a moving mechanism arranged at the bottom;

The connecting rod is fixedly connected with the top ends of the two plane frames along the horizontal direction;

A pulley disposed on the connecting rod;

the support is fixedly connected with the bevel edges of the two plane frames along the horizontal direction;

The wire rope outlet end of the winch upwards winds through the pulley, vertically extends downwards and is fixedly connected with the hoisting mechanism, and the hoisting mechanism is used for hoisting the ALC lath.

2. The ALC lightweight autoclaved aerated concrete wall auxiliary installation apparatus as recited in claim 1, wherein the planar frame includes a first upright, which is vertically disposed; the horizontal rod is horizontally arranged and fixedly connected with the bottom end of the first vertical rod; the inclined rod is fixedly connected with the top end of the first vertical rod and the end part of the horizontal rod, which is far away from the first vertical rod; the second vertical rod is vertically arranged and fixedly connected with the middle parts of the horizontal rods and the inclined rods, and the top ends of the second vertical rods of the two plane frames are fixedly connected through a horizontal rod which is horizontally arranged.

3. The ALC lightweight autoclaved aerated concrete wall auxiliary installation apparatus as recited in claim 2, wherein the moving mechanism includes two universal wheels disposed at the bottom of the horizontal bar at intervals along the length direction of the horizontal bar, and any universal wheel is rotatably connected with the horizontal bar.

4. The ALC lightweight autoclaved aerated concrete wall auxiliary installation apparatus as recited in claim 2, wherein the planar frame further includes a locking mechanism including a wooden wedge disposed at the bottom of the first upright and detachably connected thereto, the wooden wedge having a height equal to a distance between the bottom end of the first upright and the ground.

5. The ALC lightweight autoclaved aerated concrete wall auxiliary installation device as recited in claim 2, wherein the support comprises two supporting frames which are oppositely arranged at the lower parts of the two plane frames, any supporting frame is of an inverted-L structure and is positioned in the same vertical plane with the corresponding plane frame, the vertical part of the supporting frame is fixedly connected with the horizontal rod and the diagonal rod, and the horizontal part extends outwards horizontally from the intersection point of the vertical part and the diagonal rod; the horizontal parts of the two support frames are fixedly connected with each other, and the winch is installed in the middle of the horizontal support frame.

6. The ALC lightweight autoclaved aerated concrete wall auxiliary installation device as recited in claim 1, wherein the hoisting mechanism comprises a hoisting ring fixedly connected with the wire rope outlet end; and two lifting ropes are symmetrically sleeved at two ends of the ALC slat, one end of each lifting rope is hung on the lifting ring, and the other end of each lifting rope is supported at the bottom of the ALC slat.

7. The ALC lightweight autoclaved aerated concrete wall auxiliary installation apparatus as recited in claim 6, wherein the two suspension ropes are supported at a distance of 1/2 of the total length of the ALC lath at a position of the bottom of the ALC lath.