Multi-channel trap type environmental protection rat trap
The multi-channel trapping environmentally friendly rat extermination box uses balloons and spiked rods combined with climbing devices to cause rats to fall into disinfectant and be electrocuted. This solves the problems of slow poisoning and sticky traps catching only one rat, achieving a highly efficient and safe group rat extermination effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHENGDU RONGHAO BIOTECHNOLOGY CO LTD
- Filing Date
- 2025-07-23
- Publication Date
- 2026-07-07
AI Technical Summary
Among existing rodent control methods, poisons are slow to kill rodents and their bodies are easy to hide, rot, and spread viruses. Sticky rat traps and rat cages can only catch one rat and are easily avoided by the rat population, making it difficult to achieve efficient and safe group rodent control.
The design incorporates a multi-channel trapping environmentally friendly rodent control box, utilizing balloons and spiked rods combined with climbing components. Rats climb onto the balloons, causing them to burst and fall into the disinfectant solution, where they are quickly killed by an electric shock component. The combination of disinfectant and electric shock ensures the complete inactivation of pathogens and prevents the rat population from escaping.
It achieves efficient and safe one-time extermination of a large number of rats, avoiding the concealment of carcasses and the spread of pathogens, thus improving hygiene and safety and long-term control efficiency.
Smart Images

Figure CN224460965U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of rodent control technology, specifically to a multi-channel trapping environmentally friendly rodent control box. Background Technology
[0002] Rats are small mammals belonging to the family Muridae in the order Rodentia. They are characterized by high reproductive rate, good adaptability, and omnivorous diet. They are widely distributed in human settlements, and their harm is mainly manifested in three aspects: First, they spread diseases such as plague, leptospirosis, and hantavirus, threatening public health and safety; second, they damage infrastructure by gnawing on wires and pipes, causing fires or water leaks; and third, they contaminate food and stored goods, causing economic losses. Currently, rat control mainly involves using poison to kill rats, trapping rats with sticky traps, and trapping rats with rat cages.
[0003] In the above methods, rats are poisoned. After eating the poison, the rats will not die immediately. During this time, they may hide in secluded corners and are not easily discovered. If they are not discovered for a long time, the rat carcasses are prone to rotting and breeding pathogenic microorganisms, causing the spread of viruses. When rats are caught by sticky traps or rat cages, only a single individual can be captured. After a successful capture, the rats will quickly avoid the trap area. Utility Model Content
[0004] This utility model provides a multi-channel trapping environmentally friendly rat extermination box, which solves the problems of slow death caused by poisons, easy hiding and odor of carcasses that spread viruses, and the fact that sticky rat boards and rat cages can only catch a single rat and are easily avoided by rat groups.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a multi-channel trapping environmentally friendly rodent extermination box, comprising a hollow box base, a box cover, balloons, and climbing components;
[0006] The box cover is placed on the hollow box base. Two elastic baffles are symmetrically installed inside the box cover. A partition is installed inside the box cover above the two elastic baffles, and a through opening is opened in the middle of the partition. The balloon passes through the opening and is placed on the two elastic baffles.
[0007] The box cover has openings on all four sides, and the openings are located at the top of the balloon. A needle rod is installed inside the hollow box base, which is located below the balloon, and disinfectant is placed inside the hollow box base.
[0008] The climbing device is fitted onto the box cover and is used by mice to climb to the entrance of the passage.
[0009] An electric shock device is installed on the side of the hollow box base to conduct electricity to the disinfectant solution when a mouse falls into it.
[0010] Preferably, the elastic stop includes a rotating rod, and two rotating rods are symmetrically and rotatably installed inside the box cover. Each of the two rotating rods is fixedly fitted with an inclined baffle. The two baffles have an inverted octagonal opening structure. A torsion spring is fitted on the rotating rod, and the two ends of the torsion spring are respectively connected to the baffle and the inner wall of the box cover. The balloon is placed on the two baffles.
[0011] Preferably, the climbing component includes a support frame, which is fixedly fitted onto the box cover and located at the lower part of the passage opening. Two downwardly inclined climbing boards are symmetrically installed on the support frame, and multiple spaced strips are installed on the climbing boards.
[0012] Preferably, the electric shock assembly includes a fixing cylinder, which is installed on the side of the hollow box base. An electric shock element that can extend into the hollow box base is slidably disposed inside the fixing cylinder, and the electric shock element is used to conduct electricity to the disinfectant in the hollow box base. A locking element for locking the electric shock element is installed on the fixing cylinder.
[0013] Preferably, the electric shock device includes an electric rod, a first piston, and a second piston. One end of the fixed cylinder has an opening communicating with the hollow housing. The first piston is disposed in the opening. The electric rod is mounted on the side of the first piston and placed inside the fixed cylinder. One end of the electric rod slides through the other end of the fixed cylinder and is fitted with an insulating handle. A cable electrically connected to the electric rod is connected to the insulating handle. The second piston is fixedly fitted onto the electric rod and spaced apart from the first piston. It is used to replace the first piston when the electric rod pushes it into the hollow housing, so that it is moved to the opening position. The locking device is used to lock the position of the electric rod.
[0014] Preferably, the locking component includes a sleeve shaft and a bolt, and the other end of the fixing cylinder is fitted with a sleeve shaft that is sleeved on the electric rod, and the sleeve shaft is threaded with a bolt that is pressed against the electric rod.
[0015] Preferably, the bottom of the hollow box base is connected to a drain pipe, and a valve is installed on the drain pipe. The top of the box cover has an opening, and an end cap is closed inside the opening.
[0016] The beneficial effects of this utility model are as follows:
[0017] 1. When using this invention, bait can be placed on the partition inside the box, allowing it to distribute around the balloon. Rats can climb up the climbing mechanism to the passageways around the box and enter through them. When a large number of rats climb onto the balloon, the elastic barrier at the bottom will gradually deform under the force, and the balloon will gradually fall. When the balloon touches the needle rod, it will be punctured, and the rats will fall into the disinfectant inside the hollow box. This invention can achieve one-time and efficient killing, avoiding the problems of carcass hiding, odor, and pathogen transmission caused by traditional poison bait, thus improving hygiene and safety.
[0018] 2. When a large number of rats fall into the disinfectant solution inside the hollow box, the conductive parts inside the electric shock assembly can be pushed into the disinfectant solution, conducting electricity to the disinfectant solution and causing the rats to die quickly, ensuring the complete inactivation of pathogens. At the same time, the closed design of the box prevents the rats from escaping or avoiding it, effectively solving the shortcomings of sticky rat boards and rat cages that can only capture a single individual and are easy to arouse the rats' alarm, thus improving the efficiency of long-term prevention and control. Attached Figure Description
[0019] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0020] Figure 1 This is a schematic diagram of the overall structure of the multi-channel trapping environmentally friendly rodent extermination box proposed in this utility model;
[0021] Figure 2 This is a schematic diagram of the internal structure of the hollow box base and box cover of this utility model;
[0022] Figure 3 This utility model Figure 2 Overall front view;
[0023] Figure 4 This is a schematic diagram of the structure of the elastic stop of this utility model;
[0024] Figure 5 This is a schematic diagram of the structure of the electric shock assembly of this utility model;
[0025] Figure 6 This utility model Figure 5 Enlarged view of A in the middle;
[0026] Figure 7 This is a structural schematic diagram of the climbing component of this utility model;
[0027] Numbered in the diagram: 1. Hollow box base; 101. Box cover; 102. Channel opening; 103. Needle rod; 104. End cap; 105. Drain pipe; 2. Elastic stop; 21. Rotating rod; 22. Baffle; 23. Torsion spring; 3. Balloon; 31. Partition; 4. Climbing component; 41. Bearing frame; 42. Climbing board; 43. Strip; 5. Electric shock assembly; 51. Fixing cylinder; 52. Electric shock component; 521. Electric rod; 522. First piston; 523. Second piston; 524. Insulating handle; 525. Cable; 53. Locking component; 531. Sleeve shaft; 532. Bolt. Detailed Implementation
[0028] The technical solution of this utility model will now be clearly and completely described with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.
[0029] according to Figures 1-7 As shown, the multi-channel trapping environmentally friendly rodent extermination box includes a hollow box base 1, a box cover 101, a balloon 3, and a climbing component 4;
[0030] The box cover 101 is placed on the hollow box base 1. Two elastic baffles 2 are symmetrically installed inside the box cover 101. A partition 31 located above the two elastic baffles 2 is installed inside the box cover 101. A through opening is opened in the middle of the partition 31. The balloon 3 passes through the opening and is placed on the two elastic baffles 2.
[0031] The box cover 101 has openings 102 on all four sides, and the openings 102 are located on the upper part of the balloon 3. The hollow box base 1 is equipped with a needle rod 103 located below the balloon 3, and the hollow box base 1 is filled with disinfectant.
[0032] The climbing components 4 are mounted on the box cover 101 for the mouse to climb to the passageway 102;
[0033] An electric shock assembly 5 is installed on the side of the hollow box 1, which is used to conduct electricity to the disinfectant solution when a mouse falls into the disinfectant solution inside the hollow box 1.
[0034] The climbing component 4 of this invention assists mice in climbing to the passageway 102. After entering through the passageway 102, the mice gather on the balloon 3. When the weight reaches a threshold, the balloon 3 presses down on the elastic stop 2 and falls, where it is punctured by the needle rod 103 inside the hollow box 1. The mice fall into the hollow box 1 containing disinfectant. At this time, the electric shock component 5 on the side is activated, which conducts electricity to the disinfectant, accelerating the death of the mice. The multi-channel design improves the efficiency of mice entering. The balloon 3 and the needle rod 103 work together to achieve a triggered fall. The combination of disinfectant and electric shock component 5 ensures efficient death of the mice, while avoiding the concealment of the carcass and reducing the risk of pathogen transmission.
[0035] In a specific embodiment, the elastic stop 2 includes a rotating rod 21. Two rotating rods 21 are symmetrically and rotatably installed inside the box cover 101. An inclined baffle 22 is fixedly fitted on each of the two rotating rods 21. The two baffles 22 have an inverted octagonal opening structure. A torsion spring 23 is fitted on the rotating rod 21, and the two ends of the torsion spring 23 are respectively connected to the baffle 22 and the inner wall of the box cover 101. The balloon 3 is placed on the two baffles 22. When the weight of the mouse gathers on the balloon 3, the baffle 22 rotates downward around the rotating rod 21, and the torsion spring 23 is twisted and stores force. When the weight is removed, the torsion spring 23 resets and drives the baffle 22 back to the initial position. The inverted octagonal opening structure facilitates the placement of the balloon 3 and its sinking under force. The elastic effect of the torsion spring 23 enables the baffle 22 to automatically reset, ensuring that the device can be reused. At the same time, the timing of the mouse falling is controlled by the weight triggering mechanism.
[0036] In a specific embodiment, the climbing component 4 includes a support frame 41, which is fixedly mounted on the box cover 101 and located at the lower part of the passage opening 102. Two downwardly inclined climbing boards 42 are symmetrically installed on the support frame 41, and multiple spaced strips 43 are installed on the climbing boards 42. Rats can climb upwards along the climbing boards 42, and the strips 43 increase friction to prevent slipping. Finally, they enter the box cover 101 through the passage opening 102. The inclined climbing boards 42 conform to the climbing habits of rats, the strips 43 improve climbing stability, and the support frame 41 ensures that the climbing structure is stable, effectively guiding rats into the device and improving the success rate of trapping.
[0037] In a specific embodiment, the electric shock assembly 5 includes a fixing cylinder 51, which is installed on the side of the hollow box base 1. An electric shock component 52 that can extend into the hollow box base 1 is slidably disposed inside the fixing cylinder 51, and the electric shock component 52 is used to conduct electricity to the disinfectant in the hollow box base 1. A locking component 53 is installed on the fixing cylinder 51 to lock the electric shock component 52. When a rat falls into the disinfectant, the electric shock component 52 is pushed to extend into the disinfectant in the hollow box base 1, and its position is fixed by the locking component 53. Then the electric shock component 52 is energized to conduct electricity to the disinfectant, causing the rat to die quickly.
[0038] In a specific embodiment, the electric shock device 52 includes an electric rod 521, a first piston 522, and a second piston 523. One end of the fixed cylinder 51 has an opening communicating with the interior of the hollow housing 1. The first piston 522 is disposed within the opening. The electric rod 521 is mounted on the side of the first piston 522 and placed inside the fixed cylinder 51. One end of the electric rod 521 slides through the other end of the fixed cylinder 51 and is fitted with an insulating handle 524. A cable 525 electrically connected to the electric rod 521 is connected to the insulating handle 524. The second piston 523... The 23 is fixedly mounted on the electric rod 521 and spaced apart from the first piston 522. It is used to replace the first piston 522 when the electric rod 521 pushes the first piston 522 into the hollow box 1. The locking member 53 is used to lock the position of the electric rod 521. In use, the insulating handle 524 is pushed to make the electric rod 521 drive the first piston 522 into the hollow box 1. At this time, the second piston 523 moves to the opening position to seal. After the cable 525 is energized, the electric rod 521 conducts electricity to the disinfectant, quickly killing the rat and preventing it from struggling and escaping.
[0039] In a specific embodiment, the locking component 53 includes a sleeve shaft 531 and a bolt 532. The other end of the fixing cylinder 51 is fitted with a sleeve shaft 531 that is sleeved on the electric rod 521. The sleeve shaft 531 is threaded with a bolt 532 that is pressed against the electric rod 521. When the electric rod 521 moves to a suitable position, the bolt 532 is tightened to press it against the electric rod 521. The position of the electric rod 521 is fixed by friction, ensuring a continuous and stable conductivity and improving the reliability of the device.
[0040] In a specific embodiment, the bottom of the hollow box base 1 is connected to a drain pipe 105, and a valve is installed on the drain pipe 105. The valve controls its opening and closing, and is used to discharge the disinfectant and debris after use. The top of the box cover 101 is open, and an end cover 104 is closed inside the opening. Opening the end cover 104 facilitates the feeding of bait into the box cover 101, the replacement of balloons 3, and other maintenance operations.
[0041] The specific working principle of this utility model is as follows:
[0042] First, open the end cap 104 on the box cover 101, then put bait on the partition 31 and distribute it around the balloon 3. Inject an appropriate amount of disinfectant into the hollow box base 1, close the end cap 104. During the trapping stage, the rats climb along the climbing board 42, pass through the support frame 41 to reach the passage openings 102 around the box cover 101, enter the box cover 101 and gather on the balloon 3.
[0043] As the number of mice increases, the weight of balloon 3 increases, compressing the baffle 22 of the elastic baffle 2. The baffle 22 rotates around the rotating rod 21, and the torsion spring 23 stores force. When the weight exceeds the threshold, balloon 3 continues to fall and is punctured by the needle rod 103 in the hollow box 1, and the mice fall into the disinfectant.
[0044] During the extermination phase, the insulating handle 524 of the electric shock assembly 5 is pushed, causing the electric rod 521 to drive the first piston 522 into the hollow box seat 1. The second piston 523 seals the opening, and the position of the electric rod 521 is locked by the bolt 532 on the sleeve shaft 531. After the cable 525 is energized, the electric rod 521 conducts electricity to the disinfectant, accelerating the death of the rats.
[0045] After completing the rodent extermination, loosen bolt 532, reset stun gun 521, open the valve of drain pipe 105 to discharge waste liquid, replace balloon 3 and reset elastic stop 2, and prepare for the next use.
[0046] The above description is merely a specific embodiment of this utility model, but the protection scope of this utility model is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this utility model should be included within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the scope of the claims.
Claims
1. A multi-channel trapping environmentally friendly rodent control box, characterized in that... It includes a hollow box base (1), a box cover (101), a balloon (3) and climbing components (4); The box cover (101) is placed on the hollow box base (1). Two elastic baffles (2) are symmetrically installed inside the box cover (101). A partition (31) is installed inside the box cover (101) above the two elastic baffles (2), and a through opening is provided in the middle of the partition (31). The balloon (3) passes through the opening and is placed on the two elastic baffles (2). The box cover (101) has a channel opening (102) on all four sides, and the channel opening (102) is located on the upper part of the balloon (3). The hollow box base (1) is equipped with a needle rod (103) located below the balloon (3), and the hollow box base (1) is filled with disinfectant. The climbing component (4) is fitted onto the box cover (101) for the mouse to climb to the entrance of the passage (102); An electric shock assembly (5) is installed on the side of the hollow box (1) to conduct electricity to the disinfectant when a mouse falls into the disinfectant solution inside the hollow box (1).
2. The multi-channel trapping environmentally friendly rodent extermination box according to claim 1, characterized in that, The elastic stop (2) includes a rotating rod (21). Two rotating rods (21) are symmetrically and rotatably installed inside the box cover (101). An inclined baffle (22) is fixedly fitted on each of the two rotating rods (21). The two baffles (22) have an inverted octagonal opening structure. A torsion spring (23) is fitted on the rotating rod (21), and the two ends of the torsion spring (23) are connected to the baffle (22) and the inner wall of the box cover (101) respectively. The balloon (3) is placed on the two baffles (22).
3. The multi-channel trapping environmentally friendly rodent extermination box according to claim 2, characterized in that, The climbing component (4) includes a support frame (41), which is fixedly mounted on the box cover (101) and located at the lower part of the passage opening (102). Two downwardly inclined climbing boards (42) are symmetrically installed on the support frame (41), and multiple spaced strips (43) are installed on the climbing boards (42).
4. The multi-channel trapping environmentally friendly rodent extermination box according to claim 3, characterized in that, The electric shock assembly (5) includes a fixing cylinder (51) which is installed on the side of the hollow box base (1). An electric shock element (52) that can be inserted into the hollow box base (1) is slidably disposed inside the fixing cylinder (51). The electric shock element (52) is used to conduct electricity to the disinfectant in the hollow box base (1). A locking element (53) for locking the electric shock element (52) is installed on the fixing cylinder (51).
5. The multi-channel trapping environmentally friendly rodent extermination box according to claim 4, characterized in that, The electric shock device (52) includes an electric rod (521), a first piston (522) and a second piston (523). One end of the fixed cylinder (51) is provided with a through-hole communicating with the hollow box base (1). The first piston (522) is disposed in the through-hole. The electric rod (521) is installed on the side of the first piston (522) and placed in the fixed cylinder (51). One end of the electric rod (521) slides through the other end of the fixed cylinder (51) and is equipped with an insulating handle (524). A cable (525) electrically connected to the electric rod (521) is connected to the insulating handle (524). The second piston (523) is fixedly fitted on the electric rod (521) and is spaced apart from the first piston (522). When the electric rod (521) pushes the first piston (522) into the hollow box base (1), it replaces the electric rod (521) at the through-hole position. The locking device (53) is used to lock the position of the electric rod (521).
6. The multi-channel trapping environmentally friendly rodent extermination box according to claim 5, characterized in that, The locking component (53) includes a sleeve shaft (531) and a bolt (532). The other end of the fixing cylinder (51) is fitted with a sleeve shaft (531) that is sleeved on the electric rod (521). The sleeve shaft (531) is threaded with a bolt (532) that is pressed against the electric rod (521).
7. The multi-channel trapping environmentally friendly rodent extermination box according to claim 6, characterized in that, The bottom of the hollow box base (1) is connected to a drain pipe (105), and a valve is installed on the drain pipe (105). The top of the box cover (101) is open, and an end cap (104) is closed inside the open.