Quick flip jig device
The design of the quick-flipping code holder by the mold clamp solves the problem of easy slippage and detachment of existing codes, and achieves a stable connection between the code and the mold, ensuring production safety and efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUIZHOU WEIBO HARDWARE PROD
- Filing Date
- 2025-07-14
- Publication Date
- 2026-07-14
AI Technical Summary
The existing stepped tooth structure of the mold is prone to slippage or falling off during use, which can lead to mold misalignment and affect production safety and efficiency.
A quick-flipping mechanism for a mold clamp is designed. By setting up a quick-assembly and disassembly structure and a locking component, the position of the mold pad block can be adjusted and flipped, enhancing the fit strength. A spring-protected metal shell protects the high-elasticity tension spring, preventing accidental injury to the operator.
It effectively prevents the mold pieces from slipping and falling off, ensuring the stability and safety of the mold, adapting to different specifications of stepped structures, and improving production safety and efficiency.
Smart Images

Figure CN224488410U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of code device technology, specifically a rapid flipping code device for a mold clamp. Background Technology
[0002] In the machining process, clamps are frequently used. A clamp is a type of platen used to fix the mold and the workpiece to prevent them from shifting during use or processing. There are many types of clamps on the market to meet the needs of various occasions.
[0003] Existing stepped tooth mating structure molds are prone to slippage or detachment during use due to their precise mating surfaces and typically thin tooth structure. Especially under conditions of large force changes, the stepped teeth are prone to losing stable mating, leading to mold misalignment or safety accidents, which seriously affect production safety and efficiency. Therefore, it is necessary to design a quick-flipping mold mold device to improve the above problems. Utility Model Content
[0004] To overcome the above-mentioned defects, this utility model provides a quick flipping code device for mold clamps, which solves the problems in the prior art.
[0005] To achieve the above objectives, this utility model provides the following technical solution:
[0006] A quick-flipping die-cutting device for a die clamp, comprising:
[0007] A steel material pressing mold, wherein two steel material pressing molds are provided and arranged in parallel, and one end of the steel material pressing mold is provided with a pressing groove;
[0008] A central rod, which is fixedly connected between the other ends of the two steel pressing dies;
[0009] A shim block is provided at the end of the steel die away from the pressing groove.
[0010] A quick-assembly and disassembly structure is used to connect the shim block to the steel die, and the quick-assembly and disassembly structure is used to adjust the position of the shim block.
[0011] A locking assembly for adjusting the height of the steel die.
[0012] Preferably, the quick assembly / disassembly structure includes a first central column fixedly connected to the steel die and the central rod, and a second central column fixedly connected to the support block, with a high-elastic tension spring connecting the first central column and the second central column on the same side.
[0013] Preferably, the outer walls of the first and second central pillars are provided with annular grooves near their ends, and the two ends of the high-elastic tension spring are respectively hooked into the annular grooves of the first and second central pillars.
[0014] Preferably, the outer sides of the first central post, the second central post, and the high-elasticity tension spring are fitted with spring-protected metal shells.
[0015] Preferably, the ends of the first and second central pillars extend to the outside of the spring-protected metal sheet shell and are fixedly connected to a limiting plate.
[0016] Preferably, the locking assembly includes a retaining block and a threaded rod fixedly connected to the top of the retaining block. The top end of the threaded rod passes through the gap between the two steel die and is threadedly connected to a locking nut. A washer is sleeved between the locking nut and the steel die and outside the threaded rod.
[0017] Preferably, the thickness δ of the shim block is the same as the thickness of the steel die.
[0018] Preferably, the width W of the code pad is less than the thickness δ of the code pad.
[0019] Preferably, the depth D of the pressing groove is half the thickness of the steel pressing die.
[0020] Compared with the prior art, the beneficial effects of this utility model are:
[0021] 1. This utility model features a quick-release structure that can be used to position the displacement bracket shim. The position of the bracket shim can be flipped and adjusted to change the thickness of the bracket device. The thickness of the bracket device can be quickly switched between 15mm, 20mm, 25mm, and 30mm to adapt to the base plate thickness of standard jigs, enhancing the fit and ensuring the stability and tightness of the bracket device when fixing the mold. It adapts to different specifications of stepped structures. By changing the bracket thickness, the fit strength of the stepped teeth is significantly improved, effectively preventing slippage and detachment, and ensuring the safe operation of the mold.
[0022] 2. This utility model features a spring-protected metal shell that covers the outside of the high-elasticity spring. This shell can be adjusted according to the displacement and rotation space of the support block, protecting the high-elasticity spring from deformation, stretching, falling, or other situations that could injure operators and improving the protective effect. Attached Figure Description
[0023] Figure 1 A schematic diagram of the overall three-dimensional structure of the rapid flipping and coding device for the mold fixture;
[0024] Figure 2 A three-dimensional structural diagram of the rapid flipping and coding device of the mold fixture;
[0025] Figure 3 Front view of the quick-flipping code device for the mold fixture;
[0026] Figure 4 A schematic diagram of the first flipping state structure of the rapid flipping code device for the mold fixture;
[0027] Figure 5 A schematic diagram of the second flipping state structure of the rapid flipping code device for the mold fixture;
[0028] Figure 6 A schematic diagram of the third flipping state structure of the rapid flipping code device for the mold fixture;
[0029] Figure 7 This is a schematic diagram of the fourth flipping state structure of the rapid flipping code device for the mold fixture.
[0030] In the diagram: 1. Steel pressing mold; 101. Pressing groove; 2. Center rod; 3. Elevating block; 4. First center column; 5. Second center column; 6. High-elastic tension spring; 7. Spring protective metal shell; 8. Locking assembly; 801. Retaining block; 802. Threaded rod; 803. Locking nut; 804. Washer. Detailed Implementation
[0031] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.
[0032] Example: Please refer to Figures 1-7This embodiment provides a quick-flipping stacking device for a die clamp, including a steel die 1, a center rod 2, a stacking block 3, a quick-assembly / disassembly structure, and a locking assembly 8. Two steel dies 1 are provided and arranged in parallel. One end of each steel die 1 has a pressing groove 101. The center rod 2 is fixedly connected between the other ends of the two steel dies 1. The stacking block 3 is located at the end of the steel die 1 away from the pressing groove 101. The quick-assembly / disassembly structure is used to connect the stacking block 3 to the steel die 1 and to adjust the position of the stacking block 3. The locking assembly 8 is used to adjust the position of the steel die 1. The height of the mold 1 can be used to position the displacement bracket 3 via a quick-release structure. The position of the bracket 3 can be flipped and adjusted to change the thickness of the bracket device. This allows the thickness of the bracket device to be quickly switched between 15mm, 20mm, 25mm, and 30mm, adapting to the base plate thickness of standard jigs and enhancing the fit. This ensures the stability and tightness of the bracket device when fixing the mold, and adapts to different specifications of stepped structures. By changing the bracket thickness, the fit strength of the stepped teeth is significantly improved, effectively preventing slippage and detachment, and ensuring the safe operation of the mold.
[0033] In this embodiment, as Figure 2 As shown, the quick assembly / disassembly structure includes a first central column 4 fixedly connected to the steel mold 1 and the central rod 2, and a second central column 5 fixedly connected to the stacking block 3. The two ends of the first central column 4 extend to the outside of the steel mold 1, and the two ends of the second central column 5 extend to the outside of the stacking block 3. A high-elasticity tension spring 6 is connected between the first central column 4 and the second central column 5 on the same side. The high-elasticity tension spring 6 can pull the stacking block 3 close to the steel mold 1 to ensure that the stacking block 3 is stable after being flipped, thus realizing the quick flipping mechanism of the stacking block 3.
[0034] In this embodiment, as Figure 2 As shown, annular grooves are provided on the outer walls of the first central pillar 4 and the second central pillar 5 near their ends. The two ends of the high-elasticity spring 6 are hooked into the annular grooves of the first central pillar 4 and the second central pillar 5 respectively, which improves the stability of the connection between the high-elasticity spring 6 and the first central pillar 4 and the second central pillar 5 and prevents the high-elasticity spring 6 from falling off the first central pillar 4 and the second central pillar 5.
[0035] In this embodiment, as Figure 1 and Figure 2As shown, a spring protective metal shell 7 is sleeved on the outside of the first central column 4, the second central column 5, and the high-elasticity tension spring 6. The ends of the first central column 4 and the second central column 5 extend to the outside of the spring protective metal shell 7 and are fixedly connected with limit plates. The limit plates prevent the spring protective metal shell 7 from detaching. The limit plates can be adjusted according to the displacement and rotation space of the code pad block 3 to protect the high-elasticity tension spring 6 from accidental injury to the operator due to deformation, stretching, falling, etc., thereby improving the protection effect.
[0036] In this embodiment, as Figure 1 and Figure 2 As shown, the locking assembly 8 includes a retaining block 801 and a threaded rod 802 fixedly connected to the top of the retaining block 801. The top end of the threaded rod 802 passes through the gap between the two steel material pressing dies 1 and is threadedly connected to a locking nut 803. A washer 804 is sleeved between the locking nut 803 and the steel material pressing die 1 and outside the threaded rod 802. In use, the retaining block 801 is fixed on the base plate of the fixture. By tightening the locking nut 803 on the threaded rod 802, the locking nut 803 presses one end of the steel material pressing die 1 with the pressing groove 101 against the die and the other end against the washer, thus pressing and fixing the die. The locking nut 803 is designed to prevent it from loosening.
[0037] In this embodiment, as Figure 3 As shown, the thickness δ of the support block 3 is the same as the thickness of the steel die 1, the width W of the support block 3 is less than the thickness δ of the support block 3, and the depth D of the pressing groove 101 is half the thickness of the steel die 1. δ is 20mm, W is 15mm, and D is 10mm.
[0038] In this embodiment, the quick-flipping code device of the mold fixture has four usage states:
[0039] 1. The 15mm operating condition of this code device: (e.g.) Figure 4 As shown, the pressing groove 101 is set on the top of the steel pressing mold 1, so that the bottom surface of the steel pressing mold 1 is pressed against the mold. Then, the code pad 3 is moved to the bottom of the steel pressing mold 1, so that the width W of the code pad 3 is the thickness of the code device, i.e., 15mm.
[0040] 2. The 20mm operating condition of this code device: (e.g.) Figure 5 As shown, the pressing groove 101 is set on the top of the steel pressing mold 1, so that the bottom surface of the steel pressing mold 1 is pressed against the mold. The code pad 3 is moved to the bottom of the steel pressing mold 1, and then the code pad 3 is flipped so that the thickness δ of the code pad 3 is the thickness of the code device, i.e. 20mm.
[0041] 3. The 25mm operating condition of this coding device: (e.g.) Figure 6As shown, the pressing groove 101 is set at the bottom of the steel pressing mold 1, so that the pressing groove 101 of the steel pressing mold 1 is pressed tightly on the mold. Then, the code pad 3 is moved to the bottom of the steel pressing mold 1, so that the width W of the code pad 3 plus the depth D of the pressing groove 101 is the thickness of the code device, i.e., 25mm.
[0042] 4. The 30mm operating condition of this code device: (e.g.) Figure 7 As shown, the pressing groove 101 is set at the bottom of the steel pressing mold 1, so that the pressing groove 101 of the steel pressing mold 1 is pressed tightly on the mold. Then, the code pad 3 is moved to the bottom of the steel pressing mold 1, and then the code pad 3 is flipped over, so that the thickness δ of the code pad 3 plus the depth D of the pressing groove 101 is the thickness of the code device, that is, 30mm.
[0043] The above embodiments are preferred implementations of this utility model. In addition, this utility model can also be implemented in other ways. Any obvious substitutions without departing from the concept of this technical solution are within the protection scope of this utility model.
Claims
1. A rapid flipping and coding device for a mold clamp, characterized in that, include: Steel material pressing mold (1), two steel material pressing molds (1) are provided and arranged in parallel, and a pressing groove (101) is opened at one end of the steel material pressing mold (1). The center rod (2) is fixedly connected between the other ends of the two steel pressing molds (1); The code-raising block (3) is located at one end of the steel die (1) away from the pressing groove (101); A quick-assembly and disassembly structure is used to connect the shim block (3) to the steel die (1) and to adjust the position of the shim block (3). Locking assembly (8) is used to adjust the height of the steel die (1).
2. The rapid flipping and coding device for a mold clamp according to claim 1, characterized in that, The quick assembly and disassembly structure includes a first central column (4) fixedly connected to the steel die (1) and the central rod (2) and a second central column (5) fixedly connected to the support block (3). A high-elastic tension spring (6) is connected between the first central column (4) and the second central column (5) on the same side.
3. The rapid flipping and coding device for a mold clamp according to claim 2, characterized in that, The outer walls of the first central column (4) and the second central column (5) are provided with annular grooves near their ends, and the two ends of the high-elastic tension spring (6) are respectively hooked into the annular grooves of the first central column (4) and the second central column (5).
4. The rapid flipping and coding device for a mold clamp according to claim 2, characterized in that, The outer sides of the first central column (4), the second central column (5) and the high-elastic tension spring (6) are fitted with spring-protected metal sheet shells (7).
5. The rapid flipping and coding device for a mold clamp according to claim 4, characterized in that, The ends of the first central post (4) and the second central post (5) extend to the outside of the spring-protected metal sheet shell (7) and are fixedly connected to the limiting plate.
6. The rapid flipping and coding device for a mold clamp according to claim 1, characterized in that, The locking assembly (8) includes a retaining block (801) and a threaded rod (802) fixedly connected to the top of the retaining block (801). The top end of the threaded rod (802) passes through the gap between the two steel die (1) and is threadedly connected to a locking nut (803). A washer (804) is sleeved between the locking nut (803) and the steel die (1) and outside the threaded rod (802).
7. The rapid flipping and coding device for a mold clamp according to claim 1, characterized in that, The thickness δ of the raised block (3) is the same as the thickness of the steel die (1).
8. A quick-flipping and coding device for a mold clamp according to claim 7, characterized in that, The width W of the code pad (3) is less than the thickness δ of the code pad (3).
9. A quick-flipping and coding device for a mold clamp according to claim 8, characterized in that, The depth D of the pressing groove (101) is half the thickness of the steel pressing die (1).