A high strength building module auxiliary support frame

By using the positioning plate and support frame structure of the high-strength building module auxiliary support frame, the problem of rebar alignment in the installation of precast wall panels is solved, enabling rapid positioning and precise adjustment, and improving construction efficiency and safety.

CN122280368APending Publication Date: 2026-06-26GUANGDONG YAYING CONSTRUCTION ENGINEERING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
GUANGDONG YAYING CONSTRUCTION ENGINEERING CO LTD
Filing Date
2026-05-15
Publication Date
2026-06-26

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Abstract

This invention relates to the field of construction equipment, and more particularly to a high-strength building module auxiliary support frame, comprising two symmetrically arranged pillars, a positioning plate, and a support frame; the two pillars are connected to the positioning plate; the positioning plate is composed of two symmetrical parts spliced ​​together; an even number of connecting columns are symmetrically distributed and fixed on the positioning plate; all connecting columns are connected to the support frame. This invention enables rapid preliminary positioning of the wall by setting the positioning plate and support frame, and using the pillars as a reference, eliminating the need for repeated trial lifting and adjustment of the wall, significantly shortening the alignment time and greatly improving construction efficiency. The avoidance component allows the two pillars to deflect around the center of the connecting cylinder, staggering their arrangement from the wall, thereby avoiding the steel reinforcement cages on both sides of the wall or the already installed wall, preventing obstruction between structures, and improving the site adaptability of the equipment.
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Description

Technical Field

[0001] This invention relates to the field of building equipment, and more particularly to a high-strength auxiliary support frame for building modules. Background Technology

[0002] Prefabricated building structures have become an important development direction for modern architecture due to their advantages such as high construction efficiency, controllable quality, energy saving and environmental protection. Among them, precast concrete wall panels are the core components of prefabricated buildings. The processes of steel bar binding, concrete pouring and curing are completed in the factory. After being transported to the construction site, they are installed by hoisting equipment. During the installation of precast wall panels, the precast wall panels need to be hoisted to the design position so that the steel bar holes at the bottom of the wall panel are accurately aligned with the supporting steel bars extending from the lower structure. During this process, workers can only rely on experience to repeatedly try to lift and adjust, and multiple lifting and horizontal movement are required to barely align them, which seriously affects the construction progress. If the steel bars are not accurately aligned and are forcibly dropped, the supporting steel bars are prone to hitting the hole wall, causing the concrete at the edge of the steel bar hole to crack, affecting the wall quality and the anchorage performance of the steel bars. In severe cases, it may even be necessary to replace the precast components. Summary of the Invention

[0003] To overcome the shortcomings of precast wall panel installation, where workers have difficulty observing whether the rebar holes are aligned with the supporting rebars, and can only make repeated trial adjustments, resulting in low efficiency and the risk of damage to the rebar holes due to forced lowering, thus affecting the quality of the wall, this invention provides a high-strength building module auxiliary support frame.

[0004] The technical solution is as follows: A high-strength building module auxiliary support frame, characterized in that it comprises two symmetrically arranged pillars, a positioning plate, a support frame, and an avoidance component; a positioning plate is installed between the two pillars, the positioning plate being composed of two symmetrically spliced ​​parts; an even number of connecting columns are fixedly connected to the positioning plate along symmetrical positions, and the upper ends of all the connecting columns jointly support the support frame; the support frame has an overall U-shaped structure and is composed of two symmetrically spliced ​​parts; an even number of connecting sleeves are fixedly connected to the support frame along symmetrical positions, each connecting sleeve correspondingly sleeved on a connecting column and forming a sliding contact with it. The system features a movable joint, with a limiting block fixedly installed at the top of each connecting column to limit and stop the connecting sleeve; several clearance holes are formed through the positioning plate for vertical reinforcing bars to pass through; a horizontal groove is formed on the support frame for vertical reinforcing bars to pass through; a clearance component is installed at the bottom of the positioning plate to adjust the position of the column relative to the wall; a movable groove is formed on each part of the positioning plate to limit the movement of the clearance component; and a clearance opening is formed on each part of the positioning plate for vertical reinforcing bars to pass through; the clearance opening is connected to the movable groove.

[0005] Optionally, the clearance assembly includes: a connecting cylinder, a rotating ring, a connecting pin, a connecting strip, and a collar; a portion of the positioning plate has a connecting cylinder fixedly connected to its bottom; the connecting cylinder is rotatably connected to a rotating ring for adjusting the position of the support column; two connecting pins are fixedly connected to the rotating ring; each connecting pin is inserted into a connecting strip; each connecting strip is fixedly connected to a sliding cylinder; each sliding cylinder extends into a movable groove and is damped and slidably connected to the corresponding portion of the positioning plate; each sliding cylinder has a clearance opening for clearing vertical reinforcing bars; each connecting strip is fixedly connected to a collar; each collar is sleeved with a support column.

[0006] Optionally, the connecting column consists of a lower cylindrical part and an upper frustum part; the inner diameter of the connecting sleeve is the same as the outer diameter of the cylindrical part; the diameter of the large circular surface of the frustum part is the same as the outer diameter of the cylindrical part.

[0007] The present invention employs the above-described structure, in which the connecting sleeve moves upward and away from the cylindrical part to the frustum part, the connecting sleeve loses its restriction and can move within a small range on the horizontal plane, allowing the 3-support bracket to adjust its position within a small range.

[0008] Optionally, it also includes threaded shafts and clamping blocks; two threaded shafts are symmetrically distributed and rotatably connected on the support frame; each threaded shaft consists of a symmetrical front half shaft and a rear half shaft; the front half shaft and the rear half shaft are inserted into each other; four clamping blocks for clamping the wall are slidably connected in a rectangular distribution on the support frame; two of the clamping blocks are threadedly connected to a front half shaft by threaded rings; the other two clamping blocks are threadedly connected to a rear half shaft by threaded rings.

[0009] The present invention adopts the above structure, and by controlling the threaded shaft, the clamping block clamps the wall, fixing the support frame to the wall and positioning the two.

[0010] Optionally, each part of the support frame is fixed with at least two handles.

[0011] Optionally, several anti-slip grooves are provided on the outer surface of the cylindrical part of the connecting column.

[0012] Optionally, the lower edge of the clearance hole is chamfered.

[0013] Optionally, the front half-shaft is equipped with an anti-slip throttle.

[0014] Optionally, a wear-resistant rubber layer is provided on the contact surface between the clamping block and the wall.

[0015] Optionally, it also includes nuts and retaining screws; a nut is fixed to each collar; each nut is threaded with a retaining screw for adapting to the diameter of the support column; the retaining screw passes through the collar.

[0016] The present invention has the following advantages: The present invention enables rapid preliminary positioning of the wall by setting a positioning plate and a support frame, and with the support column as a reference, there is no need to repeatedly try to lift and adjust the wall, which greatly shortens the alignment time and significantly improves the construction efficiency; The avoidance component allows the two supports to deflect around the center of the connecting cylinder and be staggered from the wall, thereby avoiding the steel cages on both sides of the wall or the already installed wall, avoiding obstruction between structures, and improving the site adaptability of the equipment. The connecting column, composed of a cylindrical part and a frustum part, enables the restriction and small-range horizontal adjustment of the support frame, thereby allowing for fine adjustment of the support frame's position to fit the wall, making the positioning accurate and the adjustment convenient. By using a threaded shaft to drive the clamping block to hold the wall, the wall can be quickly positioned in the center of the support frame, freeing the installer's hands to handle other operations and improving the safety and convenience of the installation process. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the auxiliary support frame for the high-strength building module of the present invention; Figure 2 A schematic diagram showing the vertical reinforcing bars passing through the positioning plate of this invention; Figure 3 This is an exploded view of the positioning plate, support frame, and clearance assembly of the present invention; Figure 4 This is an exploded view of the two parts of the positioning plate of the present invention; Figure 5 This is an exploded view of the two parts of the support frame of the present invention; Figure 6 This is a schematic diagram of the structure of the threaded shaft and clamping block of the present invention; Figure 7 This is a front view of the invention and the wall. Figure 8 This is a side view of the support frame of the present invention supporting the wall; Figure 9 This is a top view of the support structure that avoids the wall in this invention.

[0018] The meanings of the reference numerals in the attached diagram are as follows: 1-support column, 2-positioning plate, 21-connecting column, 211-cylindrical part, 212-frustum part, 22-limiting block, 23-connecting cylinder, 24-rotating ring, 25-connecting pin, 201-avoidance hole, 202-moving groove, 203-avoidance opening one, 3-support bracket, 31-connecting sleeve, 32-horizontal groove, 33-handle, 4-connecting strip, 41-slide cylinder, 411-avoidance opening two, 5-ring, 51-nut, 52-fixing screw, 6-threaded shaft, 61-front half shaft, 62-rear half shaft, 63-clamping block, 111-vertical steel bar, 222-wall. Detailed Implementation

[0019] To make the objectives, technical solutions, and advantages of this invention clearer, the invention will be further described in detail below with reference to the accompanying drawings. It is hereby declared that the directional terms such as up, down, left, right, front, back, inside, and outside used in this text are based solely on the accompanying drawings and are not intended to specifically limit the invention.

[0020] Example 1: As Figures 1-9 As shown, a high-strength building module auxiliary support frame includes two symmetrically arranged pillars 1; It also includes a positioning plate 2, a support frame 3, and a clearance assembly; the two pillars 1 are connected to the positioning plate 2; the positioning plate 2 is spliced ​​from two symmetrical front and rear parts; four connecting pillars 21 are welded to the positioning plate 2 in a symmetrical front and rear arrangement; all connecting pillars 21 are connected to the support frame 3; the support frame 3 is U-shaped; the support frame 3 is spliced ​​from two symmetrical front and rear parts; four connecting sleeves 31 are welded to the support frame 3 in a symmetrical front and rear arrangement; each connecting sleeve 31 is slidably connected to a connecting pillar 21; a limiting block 22 is welded to the top of each connecting pillar 21; six clearance holes 201 are provided on the positioning plate 2; a transverse groove 32 is provided on the support frame 3; a clearance assembly is connected to the bottom of the positioning plate 2; each part of the positioning plate 2 has a movable groove 202; each part of the positioning plate 2 has a clearance opening 203; the clearance opening 203 communicates with the movable groove 202.

[0021] The clearance assembly includes: a connecting cylinder 23, a rotating ring 24, a connecting pin 25, a connecting strip 4, and a collar 5; the connecting cylinder 23 is fixedly connected to the bottom of the front half of the positioning plate 2; the rotating ring 24 is rotatably connected to the connecting cylinder 23; two connecting pins 25 are welded on the rotating ring 24; each connecting pin 25 is inserted into a connecting strip 4; each connecting strip 4 is welded with a sliding cylinder 41; each sliding cylinder 41 extends into a movable groove 202 and is dampedly slidably connected to the corresponding part of the positioning plate 2; each sliding cylinder 41 has a clearance opening 411; each connecting strip 4 is welded with a collar 5; each collar 5 is sleeved with a support column 1.

[0022] The connecting column 21 consists of a lower cylindrical part 211 and an upper frustum part 212; the inner diameter of the connecting sleeve 31 is the same as the outer diameter of the cylindrical part 211; the diameter of the large circular surface of the frustum part 212 is the same as the outer diameter of the cylindrical part 211; when the connecting sleeve 31 moves upward and separates from the cylindrical part 211 to the frustum part 212, the connecting sleeve 31 is no longer restricted and can move within a small range on the horizontal plane, allowing the support bracket 3 to adjust its position within a small range.

[0023] It also includes a threaded shaft 6 and a clamping block 63; the support frame 3 has two threaded shafts 6 rotatably connected in a symmetrical arrangement; each threaded shaft 6 consists of a front half shaft 61 and a rear half shaft 62 symmetrically arranged; the front half shaft 61 and the rear half shaft 62 are inserted into each other; the support frame 3 has four clamping blocks 63 slidably connected in a rectangular arrangement; two of the clamping blocks 63 are threadedly connected to a front half shaft 61 by threaded rings; the other two clamping blocks 63 are threadedly connected to a rear half shaft 62 by threaded rings; by controlling the threaded shaft 6 to clamp the clamping blocks 63 to clamp the wall 222, the support frame 3 and the wall 222 are fixed and positioned.

[0024] Each part of the support frame 3 is welded with two handles 33; workers can hold the handles 33 to easily separate the two parts of the support frame 3.

[0025] Several anti-slip grooves are provided on the outer surface of the cylindrical part 211 of the connecting column 21; the worker holds the cylindrical part 211 of the connecting column 21 to facilitate the movement of the positioning plate 2 and to facilitate the separation of the two parts of the positioning plate 2.

[0026] The lower edge of the clearance hole 201 is beveled to facilitate the insertion of the vertical reinforcing bar 111 into the clearance hole 201.

[0027] A non-slip handle is provided on one side of the front half-shaft 61 that protrudes from the support frame 3 for workers to hold and rotate the front half-shaft 61, which in turn drives the rear half-shaft 62 to rotate.

[0028] A wear-resistant rubber layer is provided on the contact surface between the clamping block 63 and the wall 222 to improve the stability of clamping the wall 222.

[0029] The working principle of Example 1, and the installation steps of wall 222 using this invention are as follows: Initially, as Figure 1 In the indicated state, positioning plate 2 and support frame 3 are fully assembled. Align each clearance hole 201 with each vertical reinforcing bar 111. Positioning plate 2 and support frame 3 are fitted onto each vertical reinforcing bar 111 from top to bottom. Each vertical reinforcing bar 111 passes through the clearance hole 201 of positioning plate 2 and then through the horizontal groove 32 of support frame 3. At this point, the bottom of the connecting sleeve 23 of positioning plate 2 is in contact with the ground. Positioning plate 2 is placed in place and its relative position to the vertical reinforcing bars 111 is fixed. Two supports 1 are located on the left and right sides of positioning plate 2, respectively. Hoisting workers use hoisting equipment to hoist wall 222 above support frame 3. Then, installation workers grab handle 33 and move support frame 3 upwards. Support frame 3 drives connecting sleeve 31 to move upwards relative to connecting column 21 until... Figure 2As shown, the support frame 3 is higher than the top of the vertical steel bar 111. Then, the hoisting workers adjust the angle of the wall 222 so that the wall 222 is located between the two support columns 1. Using the support columns 1 as a reference, the wall 222 is initially positioned. Then, the hoisting equipment is controlled to slowly lower the wall 222. The bottom of the wall 222 falls into the U-shaped support frame 3. The support frame 3 limits the wall 222. Then, the wall 222 continues to be lowered. The installation workers move the support frame 3 downward at the same time. The connecting sleeve 31 slides down along the connecting column 21. When the top of the vertical steel bar 111 passes through the horizontal groove 32 of the support frame 3, it passes through the steel bar hole at the bottom of the wall 222, completing the connection between the wall 222 and the vertical steel bar 111.

[0030] After the top of the vertical reinforcing bar 111 is inserted into the reinforcing bar hole at the bottom of the wall 222, the hoisting worker first keeps the wall 222 at its current height. The installation worker lowers the support frame 3, which detaches from the bottom of the wall 222 and lands on the upper side of the positioning plate 2. The installation worker holds the connecting column 21 of the front half of the positioning plate 2 with one hand and the corresponding support column 1 of the front half of the positioning plate 2 with the other hand, and pulls the connecting column 21 and the support column 1 away from the wall 222, so that the two parts of the positioning plate 2 separate. The connecting column 21 of the front half of the positioning plate 2 drives the front half of the support frame 3 through the connecting sleeve 31. The front and rear halves of the positioning plate 2 and the support frame 3, along with the corresponding support column 1, are separated from the wall 222. Then, the workers remove the front half of the positioning plate 2 and the support frame 3, along with the corresponding support column 1, from below the wall 222. After that, the hoisting workers lower the wall 222 until the bottom of the wall 222 contacts the ground and the vertical steel bar 111 is fully inserted into the wall 222, completing the installation of the wall 222. Before installing the next wall 222, the installers reassemble the front and rear halves of the positioning plate 2 and the support frame 3, making it usable again.

[0031] When there are protruding steel cages on the left and right sides of the wall 222 to be installed, or when the wall 222 already installed on one side obstructs the support column 1, before fitting the positioning plate 2 onto the vertical steel bar 111, the installer rotates the rotating ring 24 relative to the connecting cylinder 23. The rotating ring 24 drives the connecting strip 4 to rotate through the connecting pin 25. The connecting strip 4 drives the sliding cylinder 41 to slide from one side of the movable groove 202 to the other side. At the same time, the connecting strip 4 drives the two supports 1 to deflect around the connecting cylinder 23 as the center of rotation, so that the two supports 1 are as follows: Figure 9 As shown, it is not on the same straight line as the wall 222, and is offset from the left and right sides of the wall 222, thereby avoiding the steel cage of the wall 222, or the wall 222 that has already been installed.

[0032] It should be noted that when the two parts of the positioning plate 2 are separated, the support column 1, connecting strip 4, slide cylinder 41, collar 5 corresponding to the front half of the positioning plate 2, as well as the connecting cylinder 23, rotating ring 24 and connecting pin 25 are connected to the front half of the positioning plate 2. When the rear half of the positioning plate 2 is separated from the front half, the connecting strip 4 is separated from the corresponding connecting pin 25, thus completing the separation of the two parts.

[0033] Furthermore, when the support bracket 3 is moved upwards to connect with the bottom of the wall 222, to facilitate adjustment of the relative position of the support bracket 3 and the wall 222 and ensure accurate positioning, the connecting sleeve 31 moves upwards to disengage from the cylindrical part 211 and is located at the frustum 212. The inner diameter of the connecting sleeve 31 is the same as the outer diameter of the cylindrical part 211, while the diameter of the large circular surface of the frustum 212 is the same as the outer diameter of the cylindrical part 211. The connecting sleeve 31 continues to move upwards, losing the restriction of the cylindrical part 211, and moves within a small range on the horizontal plane, allowing the support bracket 3 to adjust its position within a small range. At this time, the wall 222 can remain stationary. The installer can quickly install the support bracket by adjusting its position. The bracket 3 is joined to the bottom of the wall 222, with the wall 222 located in the center of the bracket 3. The bottom steel bar hole is aligned with the horizontal groove 32, completing the positioning. At this time, the bracket 3 and the positioning plate 2 are slightly misaligned. However, when the bracket 3 moves down, the connecting sleeve 31 moves from the small circular surface of the cylindrical part 211 of the connecting column 21 to the large circular surface. The cylindrical part 211 will force the connecting sleeve 31 to correct the position of the bracket 3, thereby correcting the relative position of the bracket 3 and the positioning plate 2. The horizontal groove 32 of the bracket 3 is aligned with the vertical steel bar 111. The bracket 3 drives the wall 222, so that the steel bar hole is aligned with the vertical steel bar 111, thereby achieving installation positioning.

[0034] Furthermore, after the installer connects the support bracket 3 to the bottom of the wall 222, he holds the support bracket 3 with one hand and rotates the threaded shaft 6 with the other. The front half shaft 61 and the rear half shaft 62 of the threaded shaft 6 drive the corresponding clamping blocks 63 to move closer to the wall 222. The two clamping blocks 63 push the wall 222 to be positioned in the center of the support bracket 3. Then, the clamping blocks 63 continue to move, and the two clamping blocks 63 clamp the wall 222, fixing the support bracket 3 to the wall 222. This frees up the installer's hands, allowing him to handle other situations when lowering the support bracket 3.

[0035] Based on the above steps, we can see that the present invention has the following effects: By setting up positioning plate 2 and support frame 3, the wall 222 is quickly and initially positioned, and with support column 1 as a reference, there is no need to repeatedly try to lift and adjust the wall 222, which greatly shortens the alignment time and significantly improves construction efficiency. The avoidance component allows the two support columns 1 to deflect around the center of the connecting cylinder 23 and be staggered from the wall 222, thereby avoiding the steel cages on both sides of the wall 222 or the already installed wall 222, avoiding obstruction between structures and improving the site adaptability of the equipment. The connecting column 21, which consists of a cylindrical part 211 and a frustum part 212, enables the restriction and small-range horizontal adjustment of the support frame 3, thereby allowing for fine adjustment of the position of the support frame 3 to adapt to the wall 222, making the positioning accurate and the adjustment convenient. By driving the clamping block 63 to clamp the wall 222 through the threaded shaft 6, the wall 222 can be quickly positioned in the center of the support frame 3, freeing the installer's hands so that they can handle other operations, thus improving the safety and convenience of the installation process.

[0036] Example 2: Based on Example 1, such as Figure 2 , Figure 3 and Figure 8 As shown, it also includes a nut 51 and a fixing screw 52; a nut 51 is fixedly connected to each collar 5; a fixing screw 52 is threadedly connected to each nut 51; the fixing screw 52 passes through the collar 5.

[0037] Working principle of Example 2: When adjusting the two support columns 1 to avoid the steel cage of the wall 222, or when adjusting the wall 222 that has already been installed, the installer screws the fixing screw 52 outwards towards the nut 51. The fixing screw 52 releases the pressure on the support column 1 and releases the fixing of the collar 5 to the support column 1, allowing the support column 1 to slide up and down relative to the collar 5. When adjusting the support column 1, the installer lifts the support column 1 upwards so that the bottom of the support column 1 does not contact the ground, avoiding ground friction that hinders the movement of the support column 1, and eliminating the wear of the ground on the bottom of the support column 1, ensuring the flatness of the bottom of the support column 1. During the installation assistance process, the overall angle of the invention is not affected. After the support column 1 is moved, the fixing screw 52 is screwed back into the nut 51, and the fixing screw 52 re-fixes the support column 1 to the collar 5.

[0038] The above description is merely an embodiment of the present invention and does not limit the patent scope of the present invention. Any equivalent structural or procedural transformations made based on the content of the present invention specification, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of the present invention.

Claims

1. A high-strength building module auxiliary support frame, comprising two symmetrically arranged pillars (1); characterized in that, It also includes a positioning plate (2), a support frame (3), and a clearance assembly; the two pillars (1) are connected to the positioning plate (2); the positioning plate (2) is composed of two symmetrical parts; an even number of connecting posts (21) are symmetrically distributed and fixed on the positioning plate (2); all the connecting posts (21) are connected to the support frame (3); the support frame (3) is U-shaped; the support frame (3) is composed of two symmetrical parts; an even number of connecting sleeves (31) are symmetrically distributed and fixed on the support frame (3); each connecting sleeve (31) is slidably connected to a connecting post (21); and a clearance assembly is fixed to the top of each connecting post (21). The limiting block (22) of the limiting connecting sleeve (31); the positioning plate (2) is provided with several avoidance holes (201) for avoiding vertical steel bars (111); the support frame (3) is provided with a horizontal groove (32) for avoiding vertical steel bars (111); the bottom of the positioning plate (2) is connected to an avoidance component for the control column (1) to avoid the wall (222); each part of the positioning plate (2) is provided with an active groove (202) for the limiting avoidance component; each part of the positioning plate (2) is provided with an avoidance opening (203) for avoiding vertical steel bars (111); the avoidance opening (203) is connected to the active groove (202).

2. The high-strength building module auxiliary support frame according to claim 1, characterized in that, The clearance assembly includes: a connecting cylinder (23), a rotating ring (24), a connecting pin (25), a connecting strip (4), and a collar (5); a portion of the bottom of the positioning plate (2) is fixedly connected to the connecting cylinder (23); the connecting cylinder (23) is rotatably connected to the rotating ring (24) for adjusting the position of the support column (1); two connecting pins (25) are fixedly connected to the rotating ring (24); each connecting pin (25) is inserted into a connecting strip (4); each connecting strip (4) is fixedly connected to a sliding cylinder (41); each sliding cylinder (41) extends into a movable groove (202) and is damped and slidably connected to the corresponding part of the positioning plate (2); each sliding cylinder (41) has a clearance opening (411) for clearing the vertical reinforcing bar (111); each connecting strip (4) is fixedly connected to a collar (5); each collar (5) is sleeved with a support column (1).

3. The high-strength building module auxiliary support frame according to claim 2, characterized in that, The connecting column (21) consists of a lower cylindrical part (211) and an upper frustum part (212); the inner diameter of the connecting sleeve (31) is the same as the outer diameter of the cylindrical part (211); the diameter of the large circular surface of the frustum part (212) is the same as the outer diameter of the cylindrical part (211).

4. The high-strength building module auxiliary support frame according to claim 2, characterized in that, It also includes a threaded shaft (6) and a clamping block (63); two threaded shafts (6) are symmetrically distributed and rotatably connected on the support frame (3); each threaded shaft (6) is composed of a symmetrical front half shaft (61) and a rear half shaft (62); the front half shaft (61) and the rear half shaft (62) are inserted into each other; four clamping blocks (63) for clamping the wall (222) are slidably connected on the support frame (3) in a rectangular distribution; two of the clamping blocks (63) are threadedly connected to a front half shaft (61) by means of a threaded ring; the other two clamping blocks (63) are threadedly connected to a rear half shaft (62) by means of a threaded ring.

5. A high-strength building module auxiliary support frame according to any one of claims 1-4, characterized in that, Each part of the support frame (3) is fixed with at least two handles (33).

6. The high-strength building module auxiliary support frame according to claim 3, characterized in that, Several anti-slip grooves are provided on the outer surface of the cylindrical part (211) of the connecting column (21).

7. The high-strength building module auxiliary support frame according to claim 6, characterized in that, The lower edge of the clearance hole (201) is chamfered.

8. The high-strength building module auxiliary support frame according to claim 7, characterized in that, The front half shaft (61) is equipped with an anti-slip throttle.

9. A high-strength building module auxiliary support frame according to claim 8, characterized in that, A wear-resistant rubber layer is provided on the contact surface between the clamping block (63) and the wall (222).

10. A high-strength building module auxiliary support frame according to claim 9, characterized in that, It also includes a nut (51) and a fixing screw (52); a nut (51) is fixed to each collar (5); each nut (51) is threaded with a fixing screw (52) for adapting to the diameter of the support (1); the fixing screw (52) passes into the collar (5).