A support device for adjustable wall panels

By using the vertical support method and threaded connection design of the adjusting rod and the fixed rod, combined with the horizontal measuring component, the problem of insufficient adjustment accuracy and stability of the existing support device in the pallet-beam structure is solved, realizing precise support of the pallet and the beam and improving the construction progress.

CN224396125UActive Publication Date: 2026-06-23YUNNAN CONSTR ENG GENERAL CONTRACTING

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YUNNAN CONSTR ENG GENERAL CONTRACTING
Filing Date
2025-07-11
Publication Date
2026-06-23

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    Figure CN224396125U_ABST
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Abstract

The utility model relates to building construction device technical field, concretely for a kind of adjustable wallboard supporting device for supporting plate plus beam, including adjusting lever and fixed rod, adjusting lever is equipped with the adjusting disc of being able to adjust position up and down, the top end of adjusting lever is inserted with fixed rod, adjusting disc supports the bottom end of fixed rod, the top of fixed rod supports floor, the bottom end of adjusting lever is supported on brick wall, the inner wall of adjusting disc is provided with internal thread, the outer wall of adjusting lever is provided with external thread, adjusting disc is connected with adjusting lever thread. In the adjustable wallboard supporting device for supporting plate plus beam in this, adjusting lever and adjusting disc are connected by thread, rotating screw handle can drive adjusting disc to move up and down along adjusting lever, and then the height of fixed rod is adjusted. This adjustment mode is simple to operate, without complex angle adjustment and pretightening force control, compared with traditional inclined rod supporting structure, greatly reduces the adjustment error, improves the adjustment efficiency, can quickly adapt to the construction demand of different height.
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Description

Technical Field

[0001] This utility model relates to the field of building construction equipment technology, and more specifically, to an adjustable wall panel support device for pallet and beam. Background Technology

[0002] In the construction of slab-beam structures, the connection accuracy and support stability between the wall panels, slabs, and beams directly affect the overall load-bearing capacity and safety of the structure. Slab-beam structures, which combine the planar load-bearing capacity of the slabs with the longitudinal shear resistance of the beams, are widely used in key parts such as floor slabs and basement roofs of multi-story buildings. However, their complex stress system places more stringent requirements on the wall panel support devices.

[0003] Existing wall panel support devices have significant limitations when adapted to pallet-beam structures. For example, Chinese Patent Publication No. CN107975251A, "A Combined Support Device for Prefabricated Building Wall Panels," includes vertical support rods, adjustable support frames for composite panels, horizontal struts, and diagonal struts. The bottom of the vertical support rod has a support base that is fixedly connected to the embedded parts of the bottom floor slab, and the top is connected to the adjustable support frame for composite panels. One end of the horizontal strut is fixedly connected to the vertical support rod, and one end of the diagonal strut is hinged to the side of the horizontal strut near the vertical support rod, while the other end is connected to the prefabricated wall. In this structure, at the joint between the pallet and the beam, the diagonal force of the diagonal strut can easily cause deformation of the pallet edge, thus affecting the connection accuracy between the beam and the pallet. Its length adjustment mechanism has poor adaptability and cannot simultaneously meet the requirements of horizontal support at the bottom of the pallet and vertical tightening on the side of the beam. Frequent replacement of parts is required during operations such as height difference compensation and flatness calibration between the pallet and the beam, which seriously restricts the construction progress.

[0004] In the construction of pallet-beam structures, the installation of the pallet and beam often requires millimeter-level elevation errors. However, the adjustment precision of existing support devices, including those mentioned in the patent, largely relies on manual experience and lacks a synchronous calibration mechanism for the bottom surface of the pallet and the top surface of the beam. For example, during the pallet laying process, these traditional support devices cannot simultaneously ensure the horizontality of the pallet and the verticality of the beam, requiring repeated disassembly and adjustment. This not only increases the construction steps but also easily leads to cracks at the connection joint between the pallet and the beam due to unstable support.

[0005] Furthermore, the construction environment of pallet-beam structures is often accompanied by vibration loads during concrete pouring. The existing support structure is prone to loosening under long-term vibration, especially at the junction of the pallet and the beam. The attenuation of the support force may cause beam displacement, which in turn affects the verticality of the subsequent wall panel installation. At the same time, the existing support system lacks versatility for pallets of different thicknesses and beams of different cross-sectional dimensions, requiring the customization of various specifications of support components, which increases construction costs and management difficulty. Utility Model Content

[0006] The purpose of this utility model is to provide an adjustable wall panel support device for pallet and beam, so as to solve the problem that the traditional support device mentioned in the background art is difficult to ensure the horizontality of the pallet and the verticality of the beam at the same time, and requires repeated disassembly and adjustment, which not only increases the construction process, but also easily causes cracks at the connection node between the pallet and the beam due to unstable support.

[0007] To achieve the above objectives, this utility model provides an adjustable wall panel support device for a support plate with beams, including an adjusting rod and a fixing rod. The adjusting rod is equipped with an adjusting disc that can be adjusted vertically. The top of the adjusting rod is inserted into the fixing rod, the adjusting disc supports the bottom of the fixing rod, the top of the fixing rod supports the floor slab, and the bottom of the adjusting rod is supported on a brick wall. The inner wall of the adjusting disc is provided with an internal thread, and the outer wall of the adjusting rod is provided with an external thread. The adjusting disc and the adjusting rod are threadedly connected.

[0008] This design features an internal thread on the inner wall of the adjusting disc that mates with the external thread on the outer wall of the adjusting rod, forming a threaded transmission structure. When the adjusting disc is rotated, based on the helix angle characteristic of the thread, the adjusting disc moves up and down along the axial direction of the adjusting rod. The top of the adjusting rod is inserted into the fixed rod, and the adjusting disc supports the bottom of the fixed rod. By raising and lowering the adjusting disc, the height of the fixed rod changes, thereby adjusting the support height so that the top of the fixed rod can support the floor slab, and the bottom of the adjusting rod supports the brick wall.

[0009] Preferably, the surface of the brick wall is fitted with a beam bottom formwork.

[0010] This setup involves installing beam bottom formwork on the brick wall surface. The beam bottom formwork serves as a supporting structure, bearing the weight of concrete and other materials during subsequent beam pouring. In conjunction with the adjustable wall panel support device for supporting the beam, it transfers the load generated during beam construction to the brick wall and the supporting structure below.

[0011] Preferably, a lower support plate is installed at the bottom of the adjusting rod, and an upper support plate is installed at the top of the fixing rod.

[0012] This feature increases the contact area between the adjusting rod and the brick wall by adding a lower support plate at the bottom of the adjusting rod. According to the pressure formula (when the pressure is constant, the larger the contact area, the smaller the pressure), this allows the pressure of the adjusting rod on the brick wall to be distributed more evenly. Similarly, the upper support plate at the top of the fixed rod increases the contact area with the floor slab, evenly distributing the pressure transmitted from the fixed rod.

[0013] Preferably, the adjustment disc is equipped with screw handles on both outer walls.

[0014] This feature, with the rotating handles on both sides of the adjustment disc, increases the point of application of force and the length of the lever arm for the operator. Based on the lever principle, when adjusting the position of the adjustment disc, the operator can generate a large torque by applying a small force through the rotating handles, thus easily turning the adjustment disc.

[0015] Preferably, the upper inner wall of the adjusting disc is provided with an annular support step, and the bottom end of the fixing rod is supported on the support step.

[0016] This feature provides a stable support plane for the bottom of the fixed rod by creating an annular support step on the upper inner wall of the adjustment plate. The bottom of the fixed rod is placed on the support step, which evenly distributes the pressure transmitted from the fixed rod onto the adjustment plate. Furthermore, the limiting effect of the support step restricts the horizontal movement of the fixed rod, making the connection between the fixed rod and the adjustment plate more secure.

[0017] Preferably, the inner wall of the fixing rod is provided with a hollow socket, and the top end of the adjusting rod is inserted into the socket of the fixing rod.

[0018] This design features a hollow socket on the inner wall of the fixing rod that interlocks with the top of the adjusting rod, forming a plug-in connection structure. This connection method allows the fixing rod and adjusting rod to transmit force in the axial direction and, to a certain extent, restricts their relative rotation and horizontal displacement. Furthermore, the plug-in connection facilitates installation and disassembly, allowing for flexible combination or separation according to actual construction needs.

[0019] Preferably, a horizontal measuring component is installed on one outer wall of the fixed rod.

[0020] This device installs a level measuring component on the outer wall of one side of the fixing rod. The component's measurement function monitors the verticality of the fixing rod in real time. Since the fixing rod supports the floor slab, its verticality directly reflects the levelness of the floor slab or wall panel installation. When the fixing rod is not vertical, the level measuring component will provide a corresponding indication, prompting the construction personnel to make adjustments.

[0021] Preferably, the level measuring component includes an L-shaped plate, one vertical end of which is welded to the outer wall of the fixing rod, and a level measuring instrument is mounted on the horizontal end of the L-shaped plate.

[0022] In this setup, the vertical end of the L-shaped plate in the leveling component is welded to the outer wall of the fixed rod, and the horizontal end is fitted with a level measuring instrument. The L-shaped plate's structural design allows the level measuring instrument to be positioned optimally for level measurement, ensuring accurate measurement of the fixed rod's verticality. The level measuring instrument uses an internal liquid or electronic sensing element; when the fixed rod tilts, the state of the liquid or sensing element changes, thus indicating the horizontal deviation.

[0023] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0024] This adjustable wall panel support device, used in conjunction with a support plate and beam, abandons the traditional diagonal bracing structure in terms of support stability and structural protection. It employs a vertical support method using adjusting rods and fixed rods, which transmits force vertically, avoiding deformation of the support plate edges caused by diagonal forces. This effectively ensures the accuracy of the connection between the support plate and the beam, reducing structural damage caused by improper support methods. Simultaneously, the lower support plate at the bottom of the adjusting rod and the upper support plate at the top of the fixed rod increase the contact area with the support surface, resulting in a more uniform distribution of support force. Under vibration loads such as during concrete pouring, this reduces the probability of structural loosening and the risk of beam displacement, further ensuring the verticality of the wall panel installation.

[0025] In terms of adjustment accuracy and ease of operation, the threaded connection design of the adjustment disc and adjustment rod, along with the screw handles on both sides, allows workers to easily fine-tune the height of the fixed rod by rotating the adjustment disc, meeting the millimeter-level elevation error requirements of the support plate and beam structure. A level measuring component installed on the outer wall of one side of the fixed rod can monitor the levelness in real time during the support process, eliminating the need for workers to repeatedly run between the support rod and the wall panel for measurement, saving multiple disassembly and adjustment steps, and significantly improving construction efficiency. Moreover, this adjustment method does not require frequent replacement of parts, adapting to various construction needs such as compensation for the height difference between the support plate and the crossbeam, and flatness calibration.

[0026] In terms of versatility and cost control, the device can adapt to the support requirements of pallets of different thicknesses and beams of different cross-sectional sizes through the up-and-down adjustment of the adjustment plate and the plug-in cooperation between the adjustment rod and the fixed rod. It eliminates the need to customize support components of various specifications, which significantly enhances the versatility of the device and reduces construction costs and management difficulty.

[0027] In addition, the annular support steps on the upper inner wall of the adjusting plate provide stable support to the bottom of the fixed rod. Combined with the insertion and connection of the adjusting rod and the fixed rod, this further enhances the overall structural stability of the device, ensuring that the support force will not decrease during long-term support and providing a reliable guarantee for the construction quality of the pallet and beam structure. Attached Figure Description

[0028] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0029] Figure 2 This is a partial structural schematic diagram of the present invention;

[0030] Figure 3 This is a schematic diagram of the horizontal measuring component in this utility model;

[0031] The meanings of the labels in the diagram are as follows:

[0032] 1. Adjusting disc; 11. Internal thread; 12. Tightening handle; 13. Support step; 2. Adjusting rod; 21. Lower support plate; 3. Fixing rod; 31. Upper support plate; 32. Socket; 4. Horizontal measuring component; 41. L-shaped plate; 42. Horizontal measuring instrument; 5. Brick wall; 6. Beam bottom formwork; 7. Floor slab. Detailed Implementation

[0033] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0034] This utility model provides an adjustable wall panel support device for a pallet with added beams, such as... Figure 1 As shown, it includes an adjusting rod 2 and a fixing rod 3. An adjusting disc 1 that can be adjusted up and down is installed on the adjusting rod 2. The fixing rod 3 is inserted into the top of the adjusting rod 2. The adjusting disc 1 supports the bottom end of the fixing rod 3. The top of the fixing rod 3 supports the floor slab 7. The bottom end of the adjusting rod 2 is supported on the brick wall 5. The inner wall of the adjusting disc 1 is provided with an internal thread 11. The outer wall of the adjusting rod 2 is provided with an external thread. The adjusting disc 1 and the adjusting rod 2 are threadedly connected.

[0035] The internal thread 11 on the inner wall of the adjusting disc 1 engages with the external thread on the outer wall of the adjusting rod 2, forming a threaded transmission structure. When the adjusting disc 1 is rotated, based on the helix angle characteristic of the thread, the adjusting disc 1 moves up and down along the axial direction of the adjusting rod 2. The top of the adjusting rod 2 is inserted into the fixed rod 3, and the adjusting disc 1 supports the bottom end of the fixed rod 3. The height of the fixed rod 3 changes through the raising and lowering of the adjusting disc 1, thereby adjusting the support height so that the top of the fixed rod 3 can support the floor slab 7, and the bottom end of the adjusting rod 2 is supported on the brick wall 5. This achieves convenient and adjustable support height, which can adapt to the support height requirements of different floor heights or different construction scenarios. Compared with fixed-height support devices, it has a wider range of applications. The threaded connection has a self-locking characteristic, ensuring the stability of the position after adjustment, preventing height changes during the support process, and enhancing the reliability of the support.

[0036] In this embodiment, as Figure 1 As shown, the surface of the brick wall 5 is fitted with a beam bottom formwork 6.

[0037] A beam bottom formwork 6 is installed on the surface of brick wall 5. The beam bottom formwork 6 serves as a supporting structure, bearing the weight of concrete and other materials during subsequent beam pouring. In conjunction with the adjustable wall panel support device for supporting the beam, it transfers the load generated during beam construction to brick wall 5 and the supporting structure below. This provides a stable formwork support foundation for beam construction, ensuring the beam has accurate shape and dimensions during pouring and improving construction quality. Working in tandem with the support device, it distributes the beam construction load, preventing excessive local stress and ensuring the stability of the entire construction structure.

[0038] Specifically, such as Figure 1 As shown, a lower support plate 21 is installed at the bottom of the adjusting rod 2, and an upper support plate 31 is installed at the top of the fixing rod 3. The support plate 31 is connected and fixed to the floor slab 7 by expansion screws.

[0039] The lower support plate 21 installed at the bottom of the adjusting rod 2 increases the contact area between the adjusting rod 2 and the brick wall 5. According to the pressure formula, when the pressure is constant, the larger the contact area, the smaller the pressure, allowing the pressure of the adjusting rod 2 on the brick wall 5 to be distributed more evenly. Similarly, the upper support plate 31 installed at the top of the fixed rod 3 increases the contact area with the floor slab 7, evenly distributing the pressure transmitted from the fixed rod 3. This reduces the local pressure on the supporting surface brick wall 5 and floor slab 7, preventing damage to the brick wall 5 and floor slab 7 due to excessive pressure. At the same time, the increased contact area increases the friction between the supporting device and the supporting surface, enhancing the overall stability of the supporting device and reducing the risk of displacement or tilting of the supporting device.

[0040] Furthermore, such as Figure 2 As shown, the two outer walls of the adjustment disc 1 are equipped with screw handles 12.

[0041] The screw handles 12 installed on the outer walls of both sides of the adjusting disc 1 increase the point of application of force and the length of the lever arm for the operator. Based on the lever principle, when adjusting the position of the adjusting disc 1, the operator can generate a large torque by applying a small force by screwing the handles 12, thus easily rotating the adjusting disc 1. This greatly reduces the labor intensity of the operator in adjusting the height of the support device, making the adjustment operation easier and more convenient, and improving construction efficiency. At the same time, it facilitates precise control of the rotation angle and adjustment amount of the adjusting disc 1, further improving the accuracy of the height adjustment of the support device.

[0042] Furthermore, such as Figure 2 As shown, the upper inner wall of the adjusting plate 1 is provided with an annular support step 13, and the bottom end of the fixing rod 3 is supported on the support step 13.

[0043] The annular support step 13 on the upper inner wall of the adjusting plate 1 provides a stable support plane for the bottom end of the fixed rod 3. The bottom end of the fixed rod 3 is supported on the support step 13, which evenly distributes the pressure transmitted from the fixed rod 3 onto the adjusting plate 1. Furthermore, the limiting effect of the support step 13 restricts the horizontal movement of the fixed rod 3, making the connection between the fixed rod 3 and the adjusting plate 1 more stable. This enhances the connection stability between the fixed rod 3 and the adjusting plate 1, ensuring that the supporting force can be stably transmitted from the fixed rod 3 to the adjusting plate 1, then to the adjusting rod 2 and the support surface; it prevents the fixed rod 3 from shaking or shifting under stress, improving the structural stability and reliability of the entire support device and providing a more stable guarantee for the wall panel support.

[0044] Furthermore, such as Figure 2 As shown, the inner wall of the fixing rod 3 is provided with a hollow socket 32, and the top end of the adjusting rod 2 is inserted into the socket 32 ​​of the fixing rod 3.

[0045] The hollow socket 32 ​​on the inner wall of the fixed rod 3 engages with the top of the adjusting rod 2 to form a plug-in connection structure. This connection method allows the fixed rod 3 and the adjusting rod 2 to transmit force in the axial direction and, to a certain extent, restricts their relative rotation and horizontal displacement. Simultaneously, the plug-in connection facilitates installation and disassembly, allowing for flexible combination or separation according to actual construction needs. This ensures effective force transmission between the fixed rod 3 and the adjusting rod 2, enabling the support device to stably support the floor slab 7. The convenient installation and disassembly facilitate quick assembly and adjustment of the support device in different construction scenarios, improving construction flexibility and efficiency. Furthermore, by rationally designing the dimensional fit between the socket 32 ​​and the top of the adjusting rod 2, the stability and reliability of the connection can be further improved.

[0046] Furthermore, such as Figure 1 As shown, a horizontal measuring component 4 is installed on one outer wall of the fixed rod 3.

[0047] A horizontal measuring component 4 is installed on the outer wall of one side of the fixed rod 3. The measuring component 4 monitors the verticality of the fixed rod 3 in real time. Since the fixed rod 3 supports the floor slab 7, its verticality directly reflects the horizontal state of the floor slab 7 or wall panel installation. When the fixed rod 3 is not vertical, the horizontal measuring component 4 will provide a corresponding indication, prompting the construction personnel to make adjustments. This provides construction personnel with an intuitive means of monitoring the horizontal state, eliminating the need for other complex measuring tools and methods, and enabling timely detection of horizontal deviations during the installation of the wall panel or floor slab 7. It facilitates timely adjustments by construction personnel, ensuring the horizontal accuracy of the wall panel or floor slab 7 installation, improving construction quality and efficiency, and avoiding subsequent construction problems caused by horizontal deviations.

[0048] Furthermore, such as Figure 3As shown, the horizontal measuring component 4 includes an L-shaped plate 41. The vertical end of the L-shaped plate 41 is welded to the outer wall of the fixed rod 3, and a horizontal measuring instrument 42 is installed on the horizontal end of the L-shaped plate 41.

[0049] The horizontal measuring component 4 includes an L-shaped plate 41, one vertical end of which is welded to the outer wall of the fixed rod 3, and a horizontal measuring instrument 42 is mounted on the horizontal end. The structural design of the L-shaped plate 41 allows the horizontal measuring instrument 42 to be positioned optimally for horizontal measurement, accurately measuring the verticality of the fixed rod 3. The horizontal measuring instrument 42 uses an internal liquid or electronic sensing element; when the fixed rod 3 tilts, the state of the liquid or sensing element changes, thus indicating the horizontal deviation. This ensures the stable installation and accurate measurement of the horizontal measuring instrument 42, enabling precise monitoring of the horizontal state of the fixed rod 3. Construction personnel can directly obtain intuitive measurement results from the horizontal measuring instrument 42, quickly determine the installation status of the wall panel or floor slab 7, and make adjustments, simplifying the measurement and adjustment process and improving construction efficiency and installation accuracy.

[0050] When using the adjustable wall panel support device for pallet and beam of this utility model, the first step is to prepare for installation. Place the lower support plate 21 at the bottom of the adjusting rod 2 stably on the brick wall 5. The lower support plate 21 increases the contact area with the brick wall 5. According to the pressure formula, under constant pressure, the increased contact area reduces the pressure exerted by the adjusting rod 2 on the brick wall 5, thus preventing damage to the brick wall 5 due to excessive local pressure. Simultaneously, the increased contact area also increases friction, ensuring the stability of the adjusting rod 2.

[0051] Next, the top end of the fixing rod 3 is brought into contact with the floor slab 7, so that the upper support plate 31 at the top of the fixing rod 3 supports the floor slab 7. The upper support plate 31 also increases the contact area to evenly distribute the pressure transmitted by the fixing rod 3, reducing the local pressure on the floor slab 7, preventing damage to the floor slab 7, and enhancing the stability of the support. At this time, the top end of the adjusting rod 2 is inserted into the hollow socket 32 ​​on the inner wall of the fixing rod 3. The two are inserted and cooperate to form a stable axial force transmission structure, which restricts relative rotation and horizontal displacement, ensuring that the force can be effectively transmitted. At the same time, the bottom end of the fixing rod 3 is placed on the annular support step 13 on the upper inner wall of the adjusting plate 1. The support step 13 not only provides a stable support plane for the fixing rod 3, but also evenly distributes the pressure transmitted by the fixing rod 3 onto the adjusting plate 1, and further enhances the stability of the connection between the fixing rod 3 and the adjusting plate 1 through the limiting effect.

[0052] When adjusting the support height, the operator grasps the screw handles 12 on both sides of the adjusting disc 1. Because the screw handles 12 increase the point of application of force and the length of the lever arm, based on the lever principle, only a small force is needed to generate a large torque, thus easily rotating the adjusting disc 1. The internal thread 11 on the inner wall of the adjusting disc 1 engages with the external thread on the outer wall of the adjusting rod 2. When rotating the adjusting disc 1, based on the helix angle characteristic of the thread, the adjusting disc 1 moves up and down along the axial direction of the adjusting rod 2, thereby driving the fixed rod 3 to rise and fall synchronously, achieving precise adjustment of the support height to adapt to different floor heights or construction scenarios. Moreover, the self-locking characteristic of the threaded connection ensures the stability of the adjusted position, preventing height changes during the support process.

[0053] During the adjustment of the support height, construction workers can monitor the verticality of the fixed rod 3 in real time through the horizontal measuring component 4 installed on the outer wall of one side of the fixed rod 3. The vertical end of the L-shaped plate 41 in the horizontal measuring component 4 is welded to the outer wall of the fixed rod 3, and the horizontal measuring instrument 42 installed at the horizontal end is in the optimal position for horizontal measurement. When the fixed rod 3 tilts, the state of the liquid or electronic sensing element inside the horizontal measuring instrument 42 changes, thereby giving a horizontal deviation indication. Based on this indication, the construction workers adjust the verticality of the fixed rod 3 by adjusting the position of the adjusting plate 1, thereby ensuring the horizontal accuracy of the floor slab 7 or wall panel installation. In this way, through the coordinated work of the adjusting plate 1, adjusting rod 2, fixed rod 3, and horizontal measuring component 4, the adjustable wall panel support device for the support plate and beam provides stable and accurate support for the wall panel, meeting the diverse needs in the construction process.

[0054] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely preferred examples and are not intended to limit the utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. An adjustable wall panel support device for a pallet with added beams, comprising an adjusting rod (2) and a fixing rod (3), characterized in that: An adjusting disc (1) capable of adjusting the position up and down is installed on the adjusting rod (2). A fixing rod (3) is inserted into the top of the adjusting rod (2). The adjusting disc (1) supports the bottom end of the fixing rod (3). The top of the fixing rod (3) supports the floor slab (7). The bottom end of the adjusting rod (2) is supported on the brick wall (5). The inner wall of the adjusting disc (1) is provided with an internal thread (11). The outer wall of the adjusting rod (2) is provided with an external thread. The adjusting disc (1) and the adjusting rod (2) are threadedly connected.

2. The adjustable wall panel support device for pallet and beam as described in claim 1, characterized in that: The surface of the brick wall (5) is fitted with a beam bottom formwork (6).

3. The adjustable wall panel support device for pallet and beam as described in claim 1, characterized in that: The bottom end of the adjusting rod (2) is equipped with a lower support plate (21), and the top end of the fixing rod (3) is equipped with an upper support plate (31).

4. The adjustable wall panel support device for pallet and beam as described in claim 1, characterized in that: The adjustment disc (1) is equipped with screw handles (12) on both outer walls.

5. The adjustable wall panel support device for pallet and beam according to claim 1, characterized in that: The upper inner wall of the adjusting plate (1) is provided with an annular support step (13), and the bottom end of the fixing rod (3) is supported on the support step (13).

6. The adjustable wall panel support device for pallet and beam according to claim 5, characterized in that: The inner wall of the fixing rod (3) is provided with a hollow socket (32), and the top end of the adjusting rod (2) is inserted into the socket (32) of the fixing rod (3).

7. The adjustable wall panel support device for pallet and beam according to claim 1, characterized in that: A horizontal measuring component (4) is installed on one side of the outer wall of the fixed rod (3).

8. The adjustable wall panel support device for pallet and beam according to claim 7, characterized in that: The horizontal measuring component (4) includes an L-shaped plate (41), one side of the vertical end of the L-shaped plate (41) is welded to the outer wall of the fixed rod (3), and a horizontal measuring instrument (42) is installed on the horizontal end of the L-shaped plate (41).