CN114233027B - Wall supporting equipment for mounting assembly type building - Google Patents

Abstract

The invention belongs to the field of fabricated buildings, and particularly provides wall body supporting equipment for mounting fabricated buildings, which comprises at least two supporting components, wherein the at least two supporting components are arranged side by side and are parallel to each other; the supporting component comprises a supporting rod, the supporting rod is arranged below the wall body and abutted against the wall body, two ends of the supporting rod are provided with two hoisting mechanisms symmetrically arranged, each hoisting mechanism comprises a shell, a bearing block can slide up and down in the shell, the bearing block is connected with the supporting rod, and a driving mechanism which is used for pushing the bearing block to slide and limit is further arranged in the shell.

Description

Wall supporting equipment for mounting assembly type building

Technical Field

The invention belongs to the field of assembly type buildings, and particularly relates to an improvement on the structure of wall body supporting equipment for assembly type building installation.

Background

The assembly type building is a building formed by assembling and installing on site in a reliable connection mode, for example, various non-bearing wall bodies installed indoors comprise partition walls and the like, a plurality of wall bodies are vertically placed in a row to form a non-bearing assembly type wall body structure, when the wall body is installed in the prior art, as shown in fig. 9, the length of the wall body is usually not matched with the height of a ceiling, a certain gap is reserved to facilitate installation of the wall body, during installation, the bottom of the wall body is jacked up through a wooden wedge to form a supporting structure, and during specific construction, the wooden wedge is usually knocked into the lower part of the wall body in a knocking mode to form the supporting structure.

However, due to the wedge-shaped structure of the wooden wedge, there are many problems, for example, the area of the stress point at the bottom of the wall is small, so that the structure of the wall is not stressed stably, the wall is not attached to the ceiling tightly, and no support is formed on the wall in the horizontal direction.

Disclosure of Invention

The invention aims to provide wall body supporting equipment for mounting an assembly type building, which can effectively support a wall body to be attached to a ceiling and form an effective horizontal support, and in order to realize the aim, the technical scheme adopted by the invention is as follows:

the wall body supporting equipment for the assembly type building installation comprises supporting components, wherein at least two supporting components are arranged side by side and are parallel to each other; the supporting assembly comprises a supporting rod, the supporting rod is arranged below the wall body and is abutted against the wall body, and two symmetrically arranged hoisting mechanisms are arranged at two ends of the supporting rod;

the hoisting mechanism comprises a shell, a bearing block is arranged in the shell in a vertically sliding mode and connected with the supporting rod, and a driving mechanism used for pushing the bearing block to slide and limit is further arranged in the shell.

Further, actuating mechanism is including setting up the external screw thread portion of bearing block lateral surface, the bearing block passes through external screw thread portion threaded connection shells inner wall, the fixed dwang that is provided with in bearing block top, the dwang passes the casing top.

Furthermore, two opposite sides of the lower end of the shell are provided with limiting openings communicated with the inside of the shell, the limiting openings are matched with the supporting rods, the supporting rods can be arranged in the limiting openings in a vertically sliding mode, and the end portions of the supporting rods extend out of the limiting openings.

Furthermore, the bottom of the bearing block is connected with a hook through a rope body, the hook is connected with the supporting rod, the hook is matched with the limiting opening, a shifting piece is arranged on one side of the hook, and the shifting piece extends out of the shell.

Furthermore, a sliding sleeve is slidably sleeved on the supporting rod, the top of the sliding sleeve is fixedly connected with a hanging ring, and the hanging ring is connected with the hook.

Further, rope body top fixedly connected with connecting block, the connecting block rotationally connects bearing block bottom.

Furthermore, the hoisting mechanism further comprises a pressing plate arranged between the shell and the wall body, the pressing plate is abutted to the wall body and is connected with the side face of the shell through an adjusting mechanism, and the adjusting mechanism is used for adjusting the distance between the pressing plate and the shell.

Furthermore, the adjusting mechanism comprises a threaded sleeve, one end of the threaded sleeve is fixedly connected with the pressing plate, the other end of the threaded sleeve is in threaded connection with a screw rod, and the other end of the screw rod is connected with the side face of the shell.

Furthermore, the side of the shell is provided with a connecting part, one side of the shell, away from the connecting part, is provided with a chute, a limiting plate can be slidably arranged in the chute, and the limiting plate is away from one side of the shell and is hinged to the end part of the screw rod.

Furthermore, the hinged axis of the screw rod is perpendicular to the support rod and is arranged horizontally.

The invention has the following beneficial effects:

the invention adopts at least two support rods to effectively support the wall body, so that the support structure of the wall body is more stable, and the technical problem of unstable structure of the wood wedge in the prior art is solved.

The couple can the condition of the posture and the wall body slope slightly of adaptation accommodation process in the articulated structure of the cooperation and the screw rod of rings, and can eliminate because the height error between a plurality of casings that ground relief is uneven or concave-convex structure produces, rotates the handle in-process moreover, and the bracing piece makes two hoist mechanism configuration become a whole, makes the circumference restraint of casing enough big to avoid the casing to rotate along with the bearing block.

Through the side-by-side design of the supporting rods, the invention can avoid the working space for laying concrete, so that the construction of workers is facilitated, and the supporting rods are convenient to take out and the whole equipment is convenient to disassemble quickly.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a lifting mechanism;

FIG. 3 is a schematic view of the downwardly mounted lifting mechanism;

FIG. 4 is a schematic view of concrete being laid under a wall;

FIG. 5 is a schematic top view;

FIG. 6 is a schematic bottom view of the limiting opening;

FIG. 7 is a schematic top view of the limiting plate and the connecting portion;

FIG. 8 is a schematic view of the support bar and the suspension ring;

fig. 9 is a prior art schematic.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 9 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 embodiments. Unless otherwise specified, the technical means used in the examples are conventional means well known to those skilled in the art.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1, a wall supporting apparatus for prefabricated building installation includes support members arranged at least two side by side and parallel to each other; the supporting assembly comprises a supporting rod 2, the supporting rod 2 is arranged below the wall body 1 and is abutted against the wall body 1, and two symmetrically arranged hoisting mechanisms are arranged at two ends of the supporting rod 2;

the hoisting mechanism comprises a shell 3, a bearing block 4 can be arranged in the shell 3 in a vertically sliding mode, the bearing block 4 is connected with the supporting rod 2, and a driving mechanism used for pushing the bearing block 4 to slide and limit is further arranged in the shell 3.

Specifically, the wall 1 is a non-load-bearing wall in the prior art, such as a partition wall, etc., which is installed indoors and has a ceiling 13 on the top, a floor 22 on the bottom, and at least two support rods 2 perpendicular to the side wall of the wall 1, preferably two support rods 2 and support assemblies, wherein the two support rods 2 on the bottom of the wall 1 are sufficient for effectively supporting the wall 1.

During specific implementation, the bearing block 4 is driven by the driving mechanism, so that the supporting rod 2 is driven to move upwards, the top of the wall body 1 is pressed against the ceiling 13, and the matching is tighter.

The invention adopts at least two support rods 2 to effectively support the wall body 1, so that the support structure of the wall body 1 is more stable, and the technical problem of unstable structure of the wood wedge in the prior art is solved.

As shown in fig. 2, further, the driving mechanism includes an external thread portion disposed on an outer side surface of the bearing block 4, the bearing block 4 is in threaded connection with the inner wall of the housing 3 through the external thread portion, a rotating rod 8 is fixedly disposed on the top of the bearing block 4, and the rotating rod 8 penetrates through the top of the housing 3.

Specifically, the rotating rod 8 is vertically arranged, the bottom of the rotating rod is fixedly connected with the top of the bearing block 4, the top of the rotating rod can vertically slide to pass through the shell 3, in addition, a handle 9 is further arranged at the top of the rotating rod 8, and the handle 9 can slide to pass through the rotating rod 8, so that the handle 9 can rotate outside the wall body 1.

Furthermore, two opposite sides of the lower end of the shell 3 are provided with limiting openings 17 communicated with the inside of the shell, the limiting openings 17 are matched with the supporting rod 2, the supporting rod 2 can be arranged in the limiting openings 17 in a vertical sliding mode, and the end portion of the supporting rod extends out of the limiting openings 17.

Specifically, the casing 3 is a cylinder structure, which is provided with a cavity with a downward opening, the open end face of the bottom is abutted to the ground 22, as shown in fig. 6, two limit openings 17 are located in the radial direction of the casing 3, the bottom of the casing 3 is a structure of two arc-shaped plates, a gap between the two arc-shaped plates forms the limit opening 17, the size of the opening gap of the limit opening 17 is matched with the diameter of the support rod 2, and further limit the support rod 2, so that the height of the support rod can be raised and lowered in the vertical direction, but the support rod cannot horizontally rotate along the axis of the casing 3, and further when the support block 4 is rotated by the handle 9 to ascend and descend, under the action of the support rod 2 extruded by the wall body 1, the support rod 2 limits the casing 3, and prevents the support block 4 from rotating together, particularly at the last stage of the wall body 1 ascending, the ceiling 13 needs to be slightly extruded, at this moment, the torque required for the rotation of the support block 4 is increased, at this moment, the cooperation of the limit opening 17 and the support rod 2 can be fine, and prevent the casing 3 from rotating together with the support block 4.

Furthermore, the bottom of the bearing block 4 is connected with a hook 5 through a rope body 15, the hook 5 is connected with the supporting rod 2, the hook 5 is matched with the limiting opening 17, one side of the hook 5 is provided with a shifting piece 14, and the shifting piece 14 extends out of the shell 3.

Further, the support rod 2 is slidably sleeved with a sliding sleeve 7, the top of the sliding sleeve 7 is fixedly connected with a hanging ring 6, and the hanging ring 6 is connected with the hook 5.

Specifically, rings 6 and couple 5 are prior art, and couple 5 passes rings 6, realizes the effect of bearing, and the thickness of couple 5 is less than spacing opening 17's opening size, and then can make couple 5 part extend spacing opening 17 through stirring plectrum 14, then in inserting rings 6 with its hook point part, has realized the effect of the joint support pole 2 of being convenient for.

The supporting rods 2 with different lengths can be adapted by sliding the sliding sleeves 7 on the two hoisting mechanisms, and the distance between the two hoisting mechanisms can be adjusted to adapt to the wall bodies 1 with different thicknesses.

In addition, the end parts of the two ends of the supporting rod 2 are respectively provided with a limiting part, the diameter of the limiting parts is larger than that of the supporting rod 2 to play a limiting role, the supporting rod 2 can be a rod piece manufactured in batch production, the diameter is between 0.6cm and 3cm, the material can be high-strength steel to adapt to the installation environment below the wall body 1, in special emergency situations, the supporting rod 2 can also be a reinforcing steel bar obtained from local materials on site, for example, when the specially-made supporting rod 2 is used up or the supporting rod 2 is seriously bent, one or more reinforcing steel bars can be used as the supporting rod 2 at the moment to be inserted into the sliding sleeve 7, and the supporting rod 2 is not limited by the invention, so that the invention has the functions of convenient replacement, replacement and disassembly of the supporting rod 2, and has the advantage of being reusable.

During specific installation, firstly, the wall body 1 is pushed, the bottom of the wall body is enabled to be exposed out of the gap, then one support rod 2 is inserted, the other side of the wall body is pushed, another support rod 2 is inserted, the whole wall body 1 is enabled to be supported by the two support rods 2, the support rods 2 are located on the ground 22 at the moment, as shown in fig. 3, the shell 3 is inserted into the upper portion of the support rods 2 downwards at the moment, the limiting openings 17 are clamped on the support rods 2, then the hooks 5 are inserted into the hanging rings 6, and then lifting and supporting are carried out.

Because the hanging ring 6 is matched with the hook 5, the support rod 2 can slightly deflect in the radial direction, and further, in a field environment, the height error among a plurality of shells 3 caused by uneven terrain or a concave-convex structure of the ground 22 can be eliminated, namely, the shell 3 on one side is high, the shell on the other side is low, the whole wall body 1 is kept in a vertical and non-deflected posture, and the top of the wall body can be tightly matched with the ceiling 13.

In addition, in the process of rotating the handle 9 to lift the bearing block 4, the handles 9 on the plurality of hoisting mechanisms can be sequentially rotated without rotating together, the hoisting ring 6 rotates around the hook 5, the supporting rod 2 is inclined, one end of the supporting rod is tilted, and finally the plurality of hoisting mechanisms are adjusted to enable the top of the wall body 1 to press the ceiling 13.

In addition, two supporting plates 18 are fixedly arranged on the radial side face of the shell 3, the two supporting plates 18 are arranged in the length direction of the side face of the wall body 1, the bottoms of the two supporting plates are flush with the bottom end face of the shell 3, and further effective support is formed for the shell 3, the structural stability of the shell 3 is improved, an inclined strut 19 is further fixedly arranged on one side, away from the wall body 1, of the shell 3, the inclined strut 19 is obliquely arranged, the inclined struts 19 on the two hoisting mechanisms are of a symmetrical structure, one end of the inclined strut 19 is fixedly connected with the upper end side face of the shell 3, the other end of the inclined strut is arranged on the ground 22, and further the whole shell 3 and the wall body 1 are effectively supported in the horizontal direction.

Further, the top of the rope body 15 is fixedly connected with a connecting block 16, and the connecting block 16 is rotatably connected with the bottom of the bearing block 4.

Specifically, the rope body 15 is a steel wire rope, the connecting block 16 may be a steel wire rope joint in the prior art, and the rotational connection manner between the connecting block and the bearing block 4 may be the manner shown in fig. 2, that is, the connecting block 16 is provided with an annular groove, and the bottom of the bearing block 4 is rotatably clamped in the annular groove to prevent the hook 5 from rotating along with the bearing block 4.

Further, the hoisting mechanism further comprises a pressing plate 10 arranged between the shell 3 and the wall body 1, the pressing plate 10 is abutted to the wall body 1, the pressing plate 10 is connected with the side surface of the shell 3 through an adjusting mechanism, and the adjusting mechanism is used for adjusting the distance between the pressing plate 10 and the shell 3.

Specifically, a gap is formed between the shell 3 and the wall body 1, the pressing plates 10 are arranged in the gap, the pressing plates 10 are vertically arranged, the outer side faces of the wall body 1 are abutted by the two pressing plates 10, and the extrusion force of the pressing plates 10 is adjusted through the adjusting mechanism, so that the lower end of the wall body 1 is effectively supported in the horizontal direction, and the structure is stable.

Further, the adjusting mechanism comprises a threaded sleeve 11, one end of the threaded sleeve 11 is fixedly connected with the pressing plate 10, the other end of the threaded sleeve is connected with a screw rod 12 in a threaded manner, and the other end of the screw rod 12 is connected with the side surface of the shell 3.

Specifically, the axis of the threaded sleeve 11 is perpendicular to the wall surface of the wall body 1, and is provided with a threaded hole adapted to the screw 12, and the threaded sleeve 11 is integrally in a hexagon nut structure so as to extend into a wrench to rotate, so that the pressing plate 10 extrudes the wall body 1.

Further, casing 3 side is provided with connecting portion 20, connecting portion 20 is kept away from one side of casing 3 is provided with the spout, slidable is provided with limiting plate 21 in the spout, limiting plate 21 is kept away from one side of casing 3 is articulated screw rod 12 tip.

Further, the hinged axis of the screw 12 is perpendicular to the support rod 2 and is horizontally arranged.

Specifically, connecting portion 20 sets up in the radial of casing 3, as shown in fig. 7, the opening orientation of spout is kept away from the direction of casing 3, and is provided with the bellying in the both sides of opening terminal surface to be used for the rotation of spacing limiting plate 21, during the concrete implementation, as shown in fig. 3, after installing casing 3, insert limiting plate 21 in the spout from top to bottom, then rotate thread bush 11 through the spanner, make clamp plate 10 extrude wall body 1 can, have the effect of the different wall body 1 thickness of adaptation.

Meanwhile, due to the hinged structure of the screw 12, the pressing plate 10 can rotate relative to the limiting plate 21, and the rotating direction of the pressing plate is along the inclined direction of the wall body 1 so as to adapt to the condition that the wall body 1 inclines due to installation errors, and when the hoisting mechanism at one end is adjusted, the bearing block 4 rises, so that one end of the supporting rod 2 tilts and can also adapt to the inclined posture of the shell 3.

The complete working process of the invention is as follows:

firstly, as shown in fig. 3, a wall 1 is erected on the ground 22, then a worker supports one side of the wall 1, inserts one supporting rod 2, then supports the other side of the wall 1, inserts a second supporting rod 2, then adjusts the angle of the supporting rods 2 to enable the two supporting rods 2 to be parallel and perpendicular to the wall surface of the wall 1, then inserts a shell 3 on a hoisting mechanism onto the supporting rods 2 from top to bottom, enables a limiting opening 17 to be clamped on the supporting rods 2, supports an inclined supporting rod 19 on the ground 22, enables a hook 5 and a hanging ring 6 to be at the same height, then stirs a shifting piece 14 to enable the shifting piece 14 to extend out of the shell 3, then pushes the shifting piece 14 into the shell 3 and inserts the hook 5 onto the hanging ring 6 to form matching, and finally sequentially installs other hoisting mechanisms,

and secondly, inserting the limiting plate 21 into a sliding groove of the connecting part 20 from top to bottom, then rotating the threaded sleeve 11 through a wrench to enable the pressing plate 10 to extrude the wall body 1, sequentially adjusting the pressing plates 10 on other hoisting mechanisms to form pre-tightening of the pressing plates 10 on the wall body 1, and in the step, under the combined action of the inclined support rods 19 and the pressing plates 10, forming effective support for the wall body 1 in the horizontal direction.

And thirdly, rotating the handle 9 to enable the bearing block 4 to rise, tilting one end of the support rod 2 to be in an inclined posture, adjusting the height of the other end of the support rod 2 to enable the support rod 2 to jack the wall body 1, then sequentially adjusting the heights of the support rods 2 on the hoisting mechanism, and finally enabling the top of the wall body 1 to be tightly matched with the ceiling 13 to form the structure shown in the figure 1, wherein in the step, one worker can sequentially rotate the handle 9, or a plurality of workers can simultaneously rotate the handles 9 on different hoisting mechanisms, the matching of the hook 5 and the hanging ring 6 and the hinged structure of the screw 12 can be matched with the inclined posture of the support rod 2 and the slightly inclined condition of the wall body 1 in the adjusting process, and the height errors among a plurality of shells 3 caused by uneven ground 22 or concave-convex structures can be eliminated, in the process of rotating the handle 9, the support rod 2 enables the two cranes to form a whole, so that the circumferential constraint of the shells 3 is large enough to avoid the shells 3 from rotating along with the bearing block 4.

Fourthly, as shown in fig. 4, concrete is laid between the lower part of the wall body 1 and the ground 22 and between the upper part of the wall body and the ceiling 13, after the concrete is stabilized, the handle 9 is rotated to reduce the height of the support rod 2, then the hoisting mechanism and the support rod 2 are taken down, and finally the gap below the wall body 1 is filled with the concrete.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various changes, modifications, alterations, and substitutions which may be made by those skilled in the art without departing from the spirit of the present invention shall fall within the protection scope defined by the claims of the present invention.

Claims (5)

1. A wall body support device for prefabricated building installation which characterized in that: the device comprises at least two supporting assemblies which are arranged side by side and are parallel to each other; the supporting assembly comprises a supporting rod (2), the supporting rod (2) is arranged below the wall body (1) and is abutted against the wall body (1), and two symmetrically arranged hoisting mechanisms are arranged at two ends of the supporting rod (2);

the hoisting mechanism comprises a shell (3), a bearing block (4) is arranged in the shell (3) in a vertically sliding manner, the bearing block (4) is connected with the supporting rod (2), and a driving mechanism for pushing the bearing block (4) to slide and limit is further arranged in the shell (3);

limiting openings (17) communicated with the inside of the shell are formed in two opposite sides of the lower end of the shell (3), the limiting openings (17) are matched with the supporting rod (2), the supporting rod (2) can be arranged in the limiting openings (17) in a vertically sliding mode, and the end portion of the supporting rod extends out of the limiting openings (17);

the bottom of the bearing block (4) is connected with a hook (5) through a rope body (15), the hook (5) is connected with the support rod (2), the hook (5) is matched with the limiting opening (17), one side of the hook (5) is provided with a shifting sheet (14), and the shifting sheet (14) extends out of the shell (3) from the limiting opening (17);

a sliding sleeve (7) is slidably sleeved on the supporting rod (2), the top of the sliding sleeve (7) is fixedly connected with a hanging ring (6), and the hanging ring (6) is connected with the hook (5);

the hoisting mechanism further comprises a pressing plate (10) arranged between the shell (3) and the wall (1), the pressing plate (10) is abutted to the wall (1), the pressing plate (10) is connected with the side surface of the shell (3) through an adjusting mechanism, and the adjusting mechanism is used for adjusting the distance between the pressing plate (10) and the shell (3);

the adjusting mechanism comprises a threaded sleeve (11), one end of the threaded sleeve (11) is fixedly connected with the pressing plate (10), the other end of the threaded sleeve is connected with a screw rod (12) in a threaded manner, and the other end of the screw rod (12) is connected with the side surface of the shell (3).

2. A wall support apparatus for prefabricated building installations as claimed in claim 1, wherein: actuating mechanism is including setting up the external screw thread portion of bearing block (4) lateral surface, bearing block (4) are passed through external screw thread portion threaded connection casing (3) inner wall, bearing block (4) top is fixed and is provided with dwang (8), dwang (8) are passed casing (3) top.

3. A wall support apparatus for prefabricated building installations as claimed in claim 1, wherein: rope body (15) top fixedly connected with connecting block (16), connecting block (16) rotationally connect bearing block (4) bottom.

4. A wall support apparatus for prefabricated building installations as claimed in claim 1, wherein: casing (3) side is provided with connecting portion (20), connecting portion (20) are kept away from one side of casing (3) is provided with the spout, slidable is provided with limiting plate (21) in the spout, limiting plate (21) are kept away from one side of casing (3) is articulated screw rod (12) tip.

5. A wall support apparatus for assembly building installations according to claim 4 wherein: the hinged axis of the screw rod (12) is vertical to the support rod (2) and is arranged horizontally.

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