Auxiliary tool for avoiding die steel reinforcement mesh from being damaged by treading
By designing auxiliary tooling for walking supports and support columns, the problem of deformation caused by construction workers stepping on the steel mesh was solved, thus protecting the steel mesh and improving the stability of the mold.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SI CHUAN JIAO JIAN CHENG SHI JIAN SHE FA ZHAN YOU XIAN GONG SI
- Filing Date
- 2025-05-15
- Publication Date
- 2026-06-05
AI Technical Summary
Construction workers stepped directly on the steel mesh while moving around in the mold, causing it to deform and be damaged, which affected the casting process.
An auxiliary tooling was designed, including a walking bracket and a support column. The support column passes through the mesh holes to support the mold, and combined with the deflection component, it expands the contact area to avoid directly stepping on the steel mesh.
This effectively prevents deformation and damage to the steel mesh, improving the stability of the mold and construction safety.
Smart Images

Figure CN224326053U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of steel mesh technology, and more specifically, to an auxiliary tooling for preventing damage to steel mesh in molds from being stepped on. Background Technology
[0002] Steel mesh is a structure attached to a mold to enhance its strength.
[0003] The existing steel mesh is suspended in the middle of the mold, which means that construction workers will step directly on the steel mesh when they move in the mold. Because of the suspended connection of the steel mesh and its own strength, it is very easy for it to deform and be damaged by the weight when stepped on, thus affecting the pouring of the mold. Utility Model Content
[0004] The purpose of this utility model is to provide an auxiliary tool to prevent damage to the steel mesh of the mold by stepping on it. This solves the problem that when construction workers move in the mold, they directly step on the steel mesh, causing the steel mesh to deform and be damaged by the weight pressure.
[0005] This utility model is achieved through the following technical solution:
[0006] This utility model provides an auxiliary tooling to prevent damage to the steel mesh of a mold from being stepped on. It includes a mold, a steel mesh connected to the middle of the mold, a mesh with a grid hole in the middle of the steel mesh, a traveling bracket connected above the steel mesh, a strap on the top of the traveling bracket, and support columns at the four corners of the bottom of the traveling bracket. The length and width of the support columns are smaller than the diameter of the mesh hole, and there are fitting grooves on both sides of the support columns. A deflection component is installed in the fitting groove and swings along the axis.
[0007] Preferably, the straps are two cloth bags set on the top of the walking frame, and one end of each strap is provided with a Velcro strap that matches the other.
[0008] Preferably, the deflection assembly includes a deflection rod, a deflection block, a hinge block, and a support block. The deflection rod is connected in a fitting groove, the deflection block is disposed on one side of the deflection rod, the hinge block is disposed at the bottom of the deflection rod, and the support block is connected to the bottom of the hinge block.
[0009] Preferably, the deflection rod is hinged in the fitting groove via a deflection block on one side.
[0010] Preferably, the support block is hinged to the bottom of the deflection rod via a hinge block, and the hinge block is telescopic.
[0011] Preferably, the support block mates with the groove at the bottom of the support column, the inner wall of the groove at the bottom of the support column is also provided with a sliding groove, and the two sides of the support block are provided with protrusions that mate with the sliding groove.
[0012] Preferably, the support block further includes a return spring, which is disposed at one end of the support block and connected to a groove at the bottom of the support column.
[0013] Preferably, the deflection rods are staggered and arranged on both sides of the support column.
[0014] The technical solution of this utility model has at least the following advantages and beneficial effects:
[0015] 1. The walking bracket and support column set in the device can prevent construction workers from stepping directly on the steel mesh, and instead put their weight on the mold, thus avoiding deformation of the steel mesh due to pressure.
[0016] 2. The device is also equipped with a deflection component. The deflection component allows the support column to expand the contact area with the mold when it passes through the steel mesh, thereby avoiding instability of the support due to insufficient contact area and preventing point damage to the mold. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0018] Figure 2 This utility model Figure 1 A magnified structural diagram of point A in the middle.
[0019] Figure 3 This is a bottom view sectional structural diagram of the support column of this utility model.
[0020] Reference numerals: 1-Mold, 2-Steel mesh, 201-Mesh hole, 3-Walking support, 301-Deflection rod, 3011-Deflection block, 3012-Hinge block, 302-Matching groove, 303-Support block, 3031-Reset spring, 304-Support column, 305-Binding strap. Detailed Implementation
[0021] The following is combined Figures 1 to 3 This utility model will be described in detail.
[0022] An auxiliary tooling for preventing damage to a steel mesh in a mold by trampling includes a mold 1, a steel mesh 2 connected to the middle of the mold 1, a mesh hole 201 provided in the middle of the steel mesh 2, a traveling support 3 connected above the steel mesh 2, a strap 305 provided at the top of the traveling support 3, and support columns 304 provided at the four corners of the bottom of the traveling support 3. The length and width of the support columns 304 are smaller than the diameter of the mesh hole 201. Fitting grooves 302 are provided on both sides of the support columns 304, and deflection components are provided in the fitting grooves 302. The deflection components swing along the axis.
[0023] Firstly, when pouring concrete, a mold is used for pouring, and a steel mesh 2 is connected in the mold to increase the strength of the mold.
[0024] Furthermore, the straps 305 are two cloth bags set on the top of the walking bracket 3, and one end of each strap 305 is provided with a Velcro fastener that fits together.
[0025] During the casting process, workers move within the mold. Their feet are first connected to the walking support 3 via straps 305. They then move along the steel mesh 2 using the walking support 3. The bottom of the walking support 3 is equipped with support columns 304, which pass directly through the mesh holes 201 to support the mold, preventing them from stepping directly on the steel mesh 2 and causing it to deform or be damaged.
[0026] Furthermore, the deflection assembly includes a deflection rod 301, a deflection block 3011, a hinge block 3012, and a support block 303. The deflection rod 301 is connected in the fitting groove 302. The deflection block 3011 is disposed on one side of the deflection rod 301. The hinge block 3012 is disposed at the bottom of the deflection rod 301. The support block 303 is connected to the bottom of the hinge block 3012. The deflection rod 301 is hinged in the fitting groove 302 via the deflection block 3011 on one side. The support block 303 is hinged to the deflection rod 301 via the hinge block 3012. The bottom of the support block 3012 is telescopic, and the support block 303 is fitted with the groove at the bottom of the support column 304. The inner wall of the groove at the bottom of the support column 304 is also provided with a sliding groove, and the two sides of the support block 303 are provided with protrusions that fit with the sliding groove. The support block 303 also includes a return spring 3031, which is located at one end of the support block 303. The return spring 3031 at the same end of the support block 303 is connected to the groove at the bottom of the support column 304. The deflection rod 301 is staggered and located on both sides of the support column 304.
[0027] Simultaneously, when the support column 304 passes through the mesh hole 201, the inclined surface of the deflection rod 301 connected to the fitting groove 302 on both sides of the support column 304 will abut against the inner wall of the mesh hole 201. As the support column 304 continues to descend, it will gradually squeeze the outward deflection part of the deflection rod 301, thereby causing the bottom of the deflection rod 301 to deflect out, thus dragging the bottom support block 303 out, thereby increasing the contact surface between the bottom of the support column 304 and the mold, further increasing stability and preventing the mold from being damaged due to a small contact surface. At the same time, the hinge block 3012 connecting the support block 303 is telescopic to cooperate with the deflection of the deflection rod 301 and the displacement of the dragging support block 303.
[0028] The following is a detailed implementation process of this utility model. Firstly, during concrete pouring, a mold is used. A steel mesh 2 is connected within the mold to increase its strength. During the mold pouring process, workers move within the mold. When moving within the mold, the workers' feet are first connected to a walking support 3 via straps 305. The walking support 3 moves along the steel mesh 2. The bottom of the walking support 3 is equipped with support columns 304, which pass directly through the mesh holes 201 to support the mold, preventing direct stepping on the steel mesh 2 and thus avoiding deformation and damage. Simultaneously, the support... When the column 304 passes through the mesh hole 201, the inclined surface of the deflection rod 301 connected to the fitting groove 302 on both sides of the support column 304 will abut against the inner wall of the mesh hole 201. As the support column 304 continues to descend, it will gradually squeeze the outward deflection part of the deflection rod 301, so that the bottom of the deflection rod 301 will deflect out, thereby dragging the bottom support block 303 out, thereby increasing the contact surface between the bottom of the support column 304 and the mold, further increasing stability and preventing the mold from being damaged due to a small contact surface. At the same time, the hinge block 3012 connecting the support block 303 is telescopic to cooperate with the deflection of the deflection rod 301 and the displacement of the dragging support block 303.
Claims
1. An auxiliary tooling for preventing damage to a steel mesh in a mold by trampling, comprising a mold (1), wherein a steel mesh (2) is connected to the middle of the mold (1), and the steel mesh (2) has mesh holes (201) in the middle, characterized in that, A walking support (3) is connected above the steel mesh (2). A strap (305) is provided on the top of the walking support (3). Support columns (304) are provided at the four corners of the bottom of the walking support (3). The length and width of the support column (304) are smaller than the diameter of the mesh hole (201). Fitting grooves (302) are provided on both sides of the support column (304). A deflection component is provided in the fitting groove (302). The deflection component swings along the axis.
2. The auxiliary tooling for preventing damage to the steel mesh of the mold by trampling, as described in claim 1, is characterized in that... The straps (305) are two cloth bags set on the top of the walking support (3), and one end of each strap (305) is provided with a Velcro fastener that fits together.
3. The auxiliary tooling for preventing damage to the steel mesh of the mold by trampling, as described in claim 1, is characterized in that... The deflection assembly includes a deflection rod (301), a deflection block (3011), a hinge block (3012), and a support block (303). The deflection rod (301) is connected in a fitting groove (302). The deflection block (3011) is disposed on one side of the deflection rod (301). The hinge block (3012) is disposed at the bottom of the deflection rod (301). The support block (303) is connected to the bottom of the hinge block (3012).
4. The auxiliary tooling for preventing damage to the steel mesh of the mold by trampling, as described in claim 3, is characterized in that... The deflection rod (301) is hinged in the fitting groove (302) via a deflection block (3011) on one side.
5. The auxiliary tooling for preventing damage to the steel mesh of the mold by trampling, as described in claim 3, is characterized in that... The support block (303) is hinged to the bottom of the deflection rod (301) via a hinge block (3012), and the hinge block (3012) is telescopic.
6. The auxiliary tooling for preventing damage to the steel mesh of the mold by trampling, as described in claim 3, is characterized in that... The support block (303) engages with the groove at the bottom of the support column (304), and the inner wall of the groove at the bottom of the support column (304) is also provided with a sliding groove, and the support block (303) is provided with protrusions on both sides that engage with the sliding groove.
7. The auxiliary tooling for preventing damage to the steel mesh of the mold by trampling, as described in claim 3, is characterized in that... The support block (303) also includes a reset spring (3031), which is disposed at one end of the support block (303). The reset spring (3031) at the same end of the support block (303) is connected to the groove at the bottom of the support column (304).
8. The auxiliary tooling for preventing damage to the steel mesh of the mold by trampling, as described in claim 3, is characterized in that... The deflection rod (301) is offset on both sides of the support column (304).