Electronic detonator bundling system
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- INNER MONGOLIA HONGQI CHEM IND
- Filing Date
- 2025-06-18
- Publication Date
- 2026-07-03
AI Technical Summary
The existing electronic detonator bundling process is inefficient, inconvenient to operate manually, and prone to loosening, resulting in poor aesthetics.
Design an electronic detonator binding system that uses a foot switch to control a pneumatic device to open and push the rubber sleeve, achieving semi-automatic binding. The system ensures that the rubber sleeve is stably fitted onto the finished product through the cooperation of a pneumatic piston rod and a magnetic ring.
It improves bundling efficiency, prevents the finished product from becoming loose, is easy to operate, and produces neat and attractive bundles, while reducing the intensity of manual labor.
Smart Images

Figure CN224448276U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of engineering blasting technology, specifically to an electronic detonator binding system. Background Technology
[0002] Electronic detonators, also known as digital electronic detonators, digital detonators, or industrial digital electronic detonators, are electric detonators that use an electronic control module to control the detonation process. The electronic control module is a dedicated circuit module located inside the digital electronic detonator. It has functions such as controlling the detonation delay time and detonation energy, and contains a built-in detonator identification code and detonation password. It can test its own functions, performance, and the electrical performance of the detonator's ignition element, and can communicate with the detonation controller and other external control devices.
[0003] Electronic detonators are mainly composed of a base tube, an ignition head, an electronic ignition element, and lead wires.
[0004] After the electronic detonators are assembled automatically, they need to be transported to the strapping system. The strapping system mainly includes several procedures: packaging, strapping, boxing, and transportation to the warehouse. During the strapping process, rubber bands are mostly used to prevent the finished products from moving around inside the packaging.
[0005] The existing bundling process is mostly done manually by workers. The specific operation method is that several workers stand on one side of the conveyor belt. When the finished product is conveyed to them, they first use both hands to gather the baseboard, foundation pipe, etc. together. Then, they pull out the rubber band from one side, grab the gathered finished product with one hand, put the rubber band on it with the other hand, and then put it back on the conveyor belt. This completes the bundling work.
[0006] While this manual binding method is not very labor-intensive, it still has some inefficiencies. It is also inconvenient to hold the assembled electronic detonator wires with one hand, which can easily lead to loosening. Furthermore, the appearance of the bound wires needs to be slightly adjusted to avoid an unsightly result.
[0007] Therefore, a strapping device that is easy to operate and highly efficient is needed. Utility Model Content
[0008] The purpose of this invention is to provide an electronic detonator binding system.
[0009] This utility model is implemented by the following technical solution:
[0010] An electronic detonator bundling system includes a base, a telescopic column fixedly installed at the top of the base, the telescopic column being inclined, a fixed cylinder fixedly installed on the side wall of the telescopic column, a foot switch electrically connected to one side of the base, a plug-in cylinder fitted onto the fixed cylinder, multiple first piston cylinders evenly fixedly connected to the inner wall of one side of the plug-in cylinder, a first piston rod slidably connected inside each first piston cylinder, an air pipe fixedly connected to the outer wall of each first piston cylinder, a sealing plate fixedly fitted onto the multiple air pipes, a sealing ring fixedly installed inside the fixed cylinder, the sealing plate extending into the sealing ring and slidingly connected to it, an electric telescopic rod fixedly installed inside the fixed cylinder, a first piston plate fixedly installed at the output end of the electric telescopic rod, multiple slots provided on the outer wall of the plug-in cylinder, a moving block slidably connected to each slot, each first piston rod penetrating the plug-in cylinder and fixedly connected to the corresponding moving block, the first piston rod slidably connected to the plug-in cylinder, and a limit protrusion and a limit triangular block fixedly installed on each moving block.
[0011] Preferably, a T-shaped rod is fixedly installed on one side of the first piston plate, and a second piston plate is slidably connected to the T-shaped rod. A magnetic ring is fixedly embedded in the inner wall of the fixed cylinder, and multiple connecting pipes are fixedly connected to the outer wall of the fixed cylinder. A second piston cylinder is fixedly connected to each connecting pipe, and a second piston rod is slidably connected inside each second piston cylinder. One end of each second piston rod extends out of the second piston cylinder and is slidably connected to it. A lever is fixedly connected to one end of the second piston rod.
[0012] Preferably, the fixed cylinder is provided with a positioning hole, the plug-in cylinder is provided with a plug hole, a positioning pin is inserted into the plug hole, and the positioning pin extends into the positioning hole and is slidably connected to it.
[0013] Preferably, diagonal braces are fixedly installed on the side wall of the movable block, and multiple diagonal braces are arranged at an angle.
[0014] Preferably, a limit ring is fixedly installed on the outer wall of the fixed cylinder.
[0015] Preferably, the telescopic column consists of a telescopic rod and a telescopic cylinder, with a locking screw screw threaded onto the outer wall of the telescopic cylinder and a counterweight installed on the outer wall of the telescopic cylinder.
[0016] The advantages of this utility model are: after the operator steps on the foot switch, the device will stably open, push and then reset the rubber sleeve, thus smoothly completing the binding work. The operation is simple and convenient. In this way, the operator does not need to operate with one hand, which can realize the semi-automation of the binding work and improve the work efficiency to a certain extent. Moreover, the finished product can be gripped with both hands throughout the process, which can effectively prevent the finished product from loosening again. The rubber sleeve is in place in one step without the need for secondary adjustment, and the finished product is beautiful and neat after binding. Attached Figure Description
[0017] Figure 1 This is a first-view perspective perspective view of this utility model;
[0018] Figure 2 This is a second-view perspective perspective view of this utility model;
[0019] Figure 3 This is an enlarged schematic diagram of A of this utility model.
[0020] In the diagram: 1. Base; 2. Telescopic column; 3. Foot switch; 4. Fixed cylinder; 5. Limiting ring; 6. Inserting cylinder; 7. First piston cylinder; 8. Air pipe; 9. Diagonal rod; 10. Second piston cylinder; 11. Connecting pipe; 12. Second piston rod; 13. Lever; 14. Electric telescopic rod; 15. First piston plate; 16. T-shaped rod; 17. Second piston plate; 18. Magnetic ring; 19. Sealing ring; 20. Sealing plate; 21. First piston rod; 22. Moving block; 23. Limiting protrusion; 24. Limiting triangular block. Detailed Implementation
[0021] like Figures 1 to 3 As shown, an electronic detonator bundling system includes a base 1, a telescopic column 2 fixedly installed at the top of the base 1, the telescopic column 2 being inclined, a fixing cylinder 4 fixedly installed on the side wall of the telescopic column 2, a foot switch 3 electrically connected to one side of the base 1, a plug-in cylinder 6 sleeved on the fixing cylinder 4, a plurality of first piston cylinders 7 evenly fixedly connected to the inner wall of one side of the plug-in cylinder 6, a first piston rod 21 slidably connected inside each first piston cylinder 7, an air pipe 8 fixedly connected to the outer wall of each first piston cylinder 7, a sealing plate 20 fixedly sleeved on the plurality of air pipes 8, a sealing ring 19 fixedly installed inside the fixing cylinder 4, the sealing plate 20 extending into the sealing ring 19 and slidingly connected to it, an electric telescopic rod 14 fixedly installed inside the fixing cylinder 4, and the output end of the electric telescopic rod 14... A first piston plate 15 is fixedly installed. Multiple slots are provided on the outer wall of the insertion cylinder 6. A moving block 22 is slidably connected in each slot. Each first piston rod 21 passes through the insertion cylinder 6 and is fixedly connected to the corresponding moving block 22. The first piston rod 21 is slidably connected to the insertion cylinder 6. Each moving block 22 is fixedly installed with a limiting protrusion 23 and a limiting triangular block 24. During operation, the equipment is installed opposite the worker. After the operator steps on the foot switch 3, the electric telescopic rod 14 extends, thereby compressing the gas and allowing it to enter the corresponding first piston cylinder 7 through multiple air pipes 8. This causes the first piston rod 21 to drive the moving block 22 to move, thus opening the rubber sleeve located at the current position, making it convenient for the operator to put it on the finished product.
[0022] A T-shaped rod 16 is fixedly installed on one side of the first piston plate 15. A second piston plate 17 is slidably connected to the T-shaped rod 16. A magnetic ring 18 is fixedly embedded in the inner wall of the fixed cylinder 4. Multiple connecting pipes 11 are fixedly connected to the outer wall of the fixed cylinder 4. A second piston cylinder 10 is fixedly connected to each connecting pipe 11. A second piston rod 12 is slidably connected inside each second piston cylinder 10. One end of each second piston rod 12 extends out of the second piston cylinder 10 and is slidably connected thereto. A lever 13 is fixedly connected to one end of the second piston rod 12. Because the fixed cylinder 4 is inclined towards... Towards the ground, the several rubber sleeves fitted onto the insertion cylinder 6 maintain a downward tilting sliding force. When one rubber sleeve is opened for use, another immediately slides to the corresponding position. When the rubber sleeve is opened, the electric telescopic rod 14 resets and continues to retract. During the reset process (when the first piston plate 15 and the second piston plate 17 move to the position of the magnetic ring 12, at which point the rubber sleeve is in an opened state), because the magnetic ring 18 attracts the second piston plate 17, the first piston plate 15 retracts first, thereby allowing the gas to flow along the multiple connecting... The connector 11 enters the corresponding second piston cylinder 10, causing the second piston rod 12 to drive the lever 13 to move. This continuously pushes the rubber sleeve out of the multiple inclined rods 9, allowing it to be smoothly fitted onto the finished product. At this time, due to the T-shaped rod 16, the second piston plate 17 is also pulled, causing the gas in the first piston cylinder 7 to be extracted. The moving block 22 also resets. The loose rubber sleeve fitted onto the insertion cylinder 6 re-enters between the limiting protrusion 23 and the limiting triangular block 24 under the tilting force, thus completing one complete binding operation. When the operator presses foot switch 3 again, the device repeats the above operation, steadily opening, pushing, and resetting the rubber sleeves one by one, thus smoothly completing the binding work. The operation is simple and convenient. The operator does not need to operate with one hand. After grasping the finished product with both hands and closing it, the operator can directly place it between multiple diagonal bars 9 and press foot switch 3 once. This can realize the semi-automation of the binding work, which improves the work efficiency to a certain extent. Moreover, the operator can grasp the finished product with both hands throughout the process, which can effectively prevent the finished product from loosening again. The rubber sleeve is in place in one step without the need for secondary adjustment. The finished product is neat and beautiful after binding.
[0023] The fixed cylinder 4 is provided with a positioning hole, and the plug-in cylinder 6 is provided with a plug hole. A positioning pin is inserted into the plug hole. The positioning pin extends into the positioning hole and slides therewith, so that the fixed cylinder 4 and the plug-in cylinder 6 can be easily plugged in, thereby facilitating the fitting of multiple rubber sleeves onto the plug-in cylinder 6.
[0024] A diagonal rod 9 is fixedly installed on the side wall of the movable block 22. Multiple diagonal rods 9 are set at an angle, so that when the lever 13 pushes the rubber sleeve, it will continuously expand the rubber sleeve, making it easy to put on the finished product.
[0025] A limit ring 5 is fixedly installed on the outer wall of the fixed cylinder 4, and the limit ring 5 plays a limiting role.
[0026] The telescopic column 2 consists of a telescopic rod and a telescopic cylinder. A locking screw is screwed onto the outer wall of the telescopic cylinder, and a counterweight is installed on the outer wall of the telescopic cylinder to ensure overall stability. The device can also be extended to meet the needs of workers of different heights.
[0027] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. An electronic detonator strapping system, characterized by, The device includes a base, a telescopic column fixedly mounted at the top of the base, the telescopic column being inclined, a fixed cylinder fixedly mounted on the side wall of the telescopic column, a foot switch electrically connected to one side of the base, a plug-in cylinder fitted onto the fixed cylinder, multiple first piston cylinders evenly fixedly connected to the inner wall of one side of the plug-in cylinder, a first piston rod slidably connected inside each first piston cylinder, an air pipe fixedly connected to the outer wall of each first piston cylinder, a sealing plate fixedly fitted onto the multiple air pipes, a sealing ring fixedly mounted inside the fixed cylinder, the sealing plate extending into the sealing ring and slidably connected to it, an electric telescopic rod fixedly mounted inside the fixed cylinder, a first piston plate fixedly mounted at the output end of the electric telescopic rod, multiple slots provided on the outer wall of the plug-in cylinder, a moving block slidably connected to each slot, each first piston rod penetrating the plug-in cylinder and fixedly connected to the corresponding moving block, the first piston rod slidably connected to the plug-in cylinder, and a limit protrusion and a limit triangular block fixedly mounted on each moving block.
2. The electronic detonator strapping system of claim 1, wherein, A T-shaped rod is fixedly installed on one side of the first piston plate. A second piston plate is slidably connected to the T-shaped rod. A magnetic ring is fixedly embedded in the inner wall of the fixed cylinder. Multiple connecting pipes are fixedly connected to the outer wall of the fixed cylinder. A second piston cylinder is fixedly connected to each connecting pipe. A second piston rod is slidably connected inside each second piston cylinder. One end of each second piston rod extends out of the second piston cylinder and is slidably connected to it. A lever is fixedly connected to one end of the second piston rod.
3. The electronic detonator strapping system of claim 1, wherein, The fixed cylinder is provided with a positioning hole, and the plug-in cylinder is provided with a plug hole. A positioning pin is inserted into the plug hole, and the positioning pin extends into the positioning hole and is slidably connected to it.
4. The electronic detonator strapping system of claim 1, wherein, The movable block is fixedly installed with diagonal rods on its side wall, and the multiple diagonal rods are set at an angle.
5. The electronic detonator strapping system of claim 1, wherein, A limit ring is fixedly installed on the outer wall of the fixed cylinder.
6. The electronic detonator bundling system according to claim 1, characterized in that, The telescopic column consists of a telescopic rod and a telescopic cylinder. A locking screw is screwed onto the outer wall of the telescopic cylinder, and a counterweight is installed on the outer wall of the telescopic cylinder.