Adjustable fastening force hanging mold reverse ridge sealing plate reinforcing assembly

By combining the threaded adjusting rod with the threaded transmission hole and designing the limiting plate, the problem of difficult adjustment of the fastening force of the sealing plate of the lifting formwork reverse retainer is solved, achieving precise fastening and stable connection of the sealing plate body, improving construction quality and reuse rate.

CN224495777UActive Publication Date: 2026-07-14GUANGXI XINYANG NEW MATERIAL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGXI XINYANG NEW MATERIAL TECH CO LTD
Filing Date
2025-08-08
Publication Date
2026-07-14

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    Figure CN224495777U_ABST
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Abstract

The utility model discloses a can adjust the fastening force's hanging mould reverse ridge seal plate reinforcing assembly, including two formworks, one side of two the formwork all is equipped with the seal plate body, one side of two the seal plate body all is equipped with the reinforcing plate, one side of two the reinforcing plate all is set up and is equipped with the thread transmission hole, the inner wall of two the thread transmission hole all is connected with the thread adjusting rod in screw thread, one side of two the seal plate body all is fixed and inlaysed with bearing. The device can drive the seal plate body to move through the thread cooperation of thread adjusting rod and thread transmission hole, and then is convenient for adjusting the fastening force of seal plate body, can make construction personnel according to actual demand, accurate control rotates the number of turns, thereby adjusting the fastening force of seal plate body to formwork, avoids the appearance of expanding mould, leaking pulp when pouring concrete because of too small fastening force, guarantees the reverse ridge forming effect is good, also prevents the damage of seal plate because of too big fastening force, has improved the repeated utilization of seal plate.
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Description

Technical Field

[0001] This utility model relates to the field of suspended formwork inverted retaining wall sealing plate, and in particular to a suspended formwork inverted retaining wall sealing plate reinforcement component with adjustable fastening force. Background Technology

[0002] The formwork sealing plate is a component used in building construction to connect the pouring and hoisting mold of the wall and the backsplash. It is usually installed at the junction of the backsplash and the wall to seal the formwork opening, ensure the sealing and forming quality of the concrete pouring, prevent grout leakage, and effectively prevent concrete from overflowing from the junction of the backsplash and the wall during the pouring process, thus avoiding grout leakage and ensuring the integrity and appearance quality of the concrete pouring.

[0003] In construction, the reinforcement of the sealing plate of the suspended formwork inverted curb is crucial. Currently, the reinforcement method usually involves using timber and tie bolts. The timber is first cut and then tightened with tie bolts to clamp and secure the inverted curb formwork. However, this reinforcement method makes it difficult to effectively adjust the tightening force. In actual operation, it is impossible to control the tightening force. If the force is too weak, the sealing plate is prone to bulging and grout leakage when pouring concrete, resulting in poor inverted curb forming effect. On the other hand, if the force is too strong, it will damage the sealing plate and affect its reuse. To address these issues, we propose a suspended formwork inverted curb sealing plate reinforcement component with adjustable tightening force. Utility Model Content

[0004] The purpose of this invention is to provide a lifting mold anti-reverse retaining plate reinforcement component with adjustable fastening force to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution:

[0006] An adjustable fastening force lifting mold anti-seal plate reinforcement assembly includes two templates. Each template has a sealing plate body on one side, and a reinforcement plate on one side of each sealing plate body. Each reinforcement plate has a threaded transmission hole on one side, and a threaded adjusting rod is threadedly connected to the inner wall of each threaded transmission hole. Bearings are fixedly embedded on one side of each sealing plate body. The outer surface of one end of each threaded adjusting rod is fixedly connected to the inner ring of each of the two bearings. Two reinforcement support plates are fixedly connected to the outer surface of each reinforcement plate, and a connecting plate is fixedly connected to one side of each of the two sets of reinforcement support plates.

[0007] In a further embodiment, two through holes are provided on one side of each of the two connecting plates, and a fixing screw is fixedly connected to one side of each of the two templates. The outer surfaces of the two sets of fixing screws are threaded with fixing nuts, and the fixing screws are located inside the through holes.

[0008] In a further embodiment, two limiting holes are provided on one side of each of the two sets of reinforcing support plates, and two limiting plates are fixedly connected to the opposite side of each of the two sealing plates. The outer surfaces of the two sets of limiting plates are slidably connected to the inner walls of the two sets of limiting holes.

[0009] In a further embodiment, a strip-shaped perforated plate is provided above both templates, and two fixing bolts are provided inside the strip-shaped perforated plate. A set of threaded fixing holes is provided on the upper surface of both templates, and the outer surface of the fixing bolts is adapted to the inner wall of the threaded fixing holes.

[0010] In a further embodiment, the bottom surfaces of both sets of reinforcing support plates are fixedly connected to a fixing base plate, and the bottom surfaces of both fixing base plates are provided with fixing holes.

[0011] In a further embodiment, a sealing gasket is fixedly embedded on one side of each of the two sealing plates, and the side of the two sealing gaskets that are close to each other is in contact with the side of the two templates that are far apart from each other.

[0012] Compared with the prior art, the beneficial effects of this utility model are:

[0013] This device, through the threaded engagement of the threaded adjusting rod and the threaded transmission hole, can move the sealing plate, thereby facilitating the adjustment of the sealing plate's fastening force. Construction personnel can precisely control the number of rotations according to actual needs, thus adjusting the sealing plate's fastening force on the template. This prevents insufficient fastening force from causing bulging and grout leakage during concrete pouring, ensuring good molding results for the inverted curb. It also prevents damage to the sealing plate due to excessive fastening force, improving the reusability of the sealing plate. Simultaneously, the cooperation between the limiting plate and the limiting hole can limit the movement of the sealing plate, preventing it from rotating. Attached Figure Description

[0014] Figure 1 This is a frontal three-dimensional structural diagram of the adjustable fastening force lifting mold anti-sunken retaining plate reinforcement component.

[0015] Figure 2 This is a frontal sectional view of the adjustable fastening force lifting formwork anti-recession sealing plate reinforcement assembly.

[0016] Figure 3 This is a side view of the three-dimensional structure of the adjustable fastening force lifting formwork anti-sill sealing plate reinforcement component template.

[0017] Figure 4 A side view of the three-dimensional structure of the sealing plate of the adjustable fastening force lifting mold anti-sunken retaining plate reinforcement component.

[0018] Figure 5 Reinforcement assembly for adjustable fastening force of lifting formwork inverted retaining wall sealing plate Figure 3 A magnified structural diagram of part A in the middle.

[0019] In the diagram: 1. Template; 2. Sealing plate; 3. Reinforcing support plate; 4. Threaded adjusting rod; 5. Threaded transmission hole; 6. Bearing; 7. Reinforcing plate; 8. Sealing gasket; 9. Strip perforated plate; 91. Fixing bolt; 92. Threaded fixing port; 10. Limiting plate; 11. Limiting hole; 12. Connecting plate; 13. Through hole; 14. Fixing screw; 15. Fixing nut; 16. Fixing base plate; 17. Fixing hole. Detailed Implementation

[0020] 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.

[0021] Please see Figure 1-5 In this utility model, the adjustable fastening force lifting mold anti-reverse retaining plate reinforcement assembly includes two templates 1. Each template 1 has a sealing plate body 2 on one side. A sealing gasket 8 is fixedly embedded on one side of each sealing plate body 2. The sides of the two sealing gaskets 8 that are close to each other contact the sides of the two templates 1 that are far apart. Each sealing plate body 2 has a reinforcing plate 7 on one side. A threaded transmission hole 5 is opened on one side of each reinforcing plate 7. A threaded adjusting rod 4 is threadedly connected to the inner wall of each threaded transmission hole 5. A sealing plate 8 is fixedly embedded on one side of each sealing plate body 2. The outer surfaces of the bearings 6 and the two threaded adjusting rods 4 are fixedly connected to the inner rings of the two bearings 6 respectively. The outer surfaces of the two reinforcing plates 7 are fixedly connected to two reinforcing support plates 3. The two sets of reinforcing support plates 3 are fixedly connected to one side of each side of the two sets of reinforcing support plates 3. Through the cooperation between the threaded adjusting rods 4 and the threaded transmission holes 5 at the reinforcing plates 7, the bearings 6 are allowed to rotate freely when the threaded adjusting rods 4 are rotated, but the axial movement is restricted. This allows the reinforcing plates 7 to translate along the threaded axis. This translational force is transmitted to the sealing plate body 2 through the reinforcing support plates 3, and then the fastening force of the sealing plate body 2 can be adjusted.

[0022] In a further embodiment, two through holes 13 are provided on one side of each of the two connecting plates 12, and two fixing screws 14 are fixedly connected to one side of each of the two templates 1. Fixing nuts 15 are threadedly connected to the outer surfaces of the two sets of fixing screws 14, and the fixing screws 14 are located inside the through holes 13. Two limiting holes 11 are provided on one side of each of the two sets of reinforcing support plates 3, and two limiting plates 10 are fixedly connected to the opposite sides of the two sealing plates 2. The outer surfaces of the two sets of limiting plates 10 are slidably connected to the inner walls of the two sets of limiting holes 11. Specifically, by passing the fixing screws 14 through the through holes 13 and cooperating with the tightening of the fixing nuts 15, a rigid connection between the template 1 and the reinforcing support plate 3 is achieved. By sliding the limiting plates 10 and the limiting holes 11, the stability of the sealing plate 2 during movement is ensured, and lateral displacement is prevented.

[0023] In a further embodiment, a perforated plate 9 is provided above both templates 1. Two fixing bolts 91 are provided inside the perforated plate 9. A set of threaded fixing holes 92 are opened on the upper surface of both templates 1, and the outer surface of the fixing bolts 91 is adapted to the inner wall of the threaded fixing holes 92. The bottom surfaces of the two sets of reinforcing support plates 3 are fixedly connected to fixing base plates 16. Fixing holes 17 are opened on the bottom surfaces of the two fixing base plates 16. Specifically, the perforated plate 9 can be connected to the threaded fixing holes 92 of the template 1 through the fixing bolts 91, which can form a rigid constraint across the double templates 1, effectively resisting the lateral thrust during concrete pouring. Through the fixing holes 17 of the fixing base plates 16, it can be anchored to the building structure by expansion bolts, further enhancing the overturning resistance of the component. The sealing gasket 8 is made of elastic material and deforms under the action of fastening force, which can fill the small gap between the template 1 and the sealing plate 2, improving the sealing effect.

[0024] The working principle of this utility model is as follows: First, place two templates 1 in a predetermined position, then pass the fixing screw 14 through the through hole 13 at the connecting plate 12, and tighten it with the fixing nut 15 to make the template 1 and the connecting plate 12 firmly connected. When adjusting the fastening force of the sealing plate 2, rotate the threaded adjustment rod 4 to make the threaded adjustment rod 4 and the threaded transmission hole 5 threadedly connected. Therefore, when the threaded adjustment rod 4 rotates, the reinforcing plate 7 will move under the action of threaded transmission, which can drive the sealing plate 2 to apply pressure to the template 1. Then, by controlling the number of rotations, the fastening force of the sealing plate 2 can be adjusted.

[0025] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

[0026] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.

Claims

1. A formwork kickout closure plate reinforcement assembly with adjustable fastening force, characterized in that: The utility model relates to a two -template (1), two the one side of the template (1) is equipped with sealing plate body (2), two sealing plate body (2) one side is equipped with reinforcing plate (7), two reinforcing plate (7) one side face all are seted up screw thread transmission hole (5), two screw thread transmission hole (5) inner wall all are connected with screw thread adjusting rod (4), two sealing plate body (2) one side face all are fixedly embedded with bearing (6), two screw thread adjusting rod (4) one end outer surface respectively with two bearing (6) inner ring fixed connection, two reinforcing plate (7) outer surface all are fixedly connected with two reinforcing branch plate (3), two groups reinforcing branch plate (3) one side face all are fixedly connected with connecting plate (12).

2. The adjustable clamping force form tieback kickboard closure panel reinforcement assembly of claim 1, wherein: Two connecting plate (12) one side face all are seted up two through -holes (13), two template (1) one side face all are fixedly connected with fixed screw rod (14), two groups fixed screw rod (14) outer surface all are connected with fixed nut (15), and fixed screw rod (14) are located inside through -hole (13).

3. The adjustable clamping force hanging form kickers closure panel reinforcement assembly according to claim 1, wherein: Two groups reinforcing branch plate (3) one side face all are seted up two limit hole (11), two sealing plate body (2) mutually far away one side face all are fixedly connected with two limit board (10), two groups limit board (10) outer surface respectively with two groups limit hole (11) inner wall sliding connection.

4. The adjustable clamping force form-holding kickout closure panel reinforcement assembly according to Claim 1, wherein: Two template (1) top are commonly equipped with strip hole plate (9), and the inside of strip hole plate (9) is equipped with two fixed bolts (91).

5. The adjustable clamping force hanging form kickers closure panel reinforcement assembly according to Claim 1, wherein: Two groups reinforcing branch plate (3) bottom all are fixedly connected with fixed bottom plate (16), and the bottom of two fixed bottom plate (16) all are seted up fixed hole (17).

6. The adjustable clamping force form-holding kickout closure panel reinforcement assembly of claim 1 wherein: Two template (1) upper surface all are seted up a group of screw fixed mouth (92), and fixed bolt (91) outer surface and screw fixed mouth (92) inner wall are matched.

7. The adjustable clamping force hanging form kickers closure panel reinforcement assembly according to Claim 1, wherein: Two sealing plate body (2) one side face all are fixedly embedded with sealing gasket (8), and two sealing gasket (8) mutually close one side face respectively with two template (1) mutually far away one side face contact.