A sensitive beehive alarm for pesticide residue detection
By designing the detection and sealing components of the beehive alarm, the problem of existing technologies being able to detect pesticide residues only inside the beehive is solved. This enables the detection of pesticide residues both inside and outside the beehive, preventing bee poisoning and supporting convenient replacement of the alarm.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANXI MIDAO AGRICULTURAL TECHNOLOGY CO LTD
- Filing Date
- 2025-06-19
- Publication Date
- 2026-07-03
AI Technical Summary
Existing detection alarms can only detect pesticide residues inside the beehive and cannot provide early warnings of high concentrations of pesticide residues outside the beehive, which could lead to pesticide poisoning when bees come into contact with pesticides while out foraging.
A pesticide residue detection beehive alarm device including a detection component and a sealing component was designed. The device detects pesticide residues inside and outside the beehive by rotating the sealing frame and engaging the bevel gear, and prevents external interference by using a fan and a one-way valve.
It enables independent detection of pesticide residues inside and outside the beehive, provides early warnings to prevent bee poisoning, and allows for easy replacement of the detection alarm.
Smart Images

Figure CN224456706U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of beekeeping technology, and in particular to a sensitive beehive alarm for detecting pesticide residues. Background Technology
[0002] In recent years, with the widespread use of pesticides in agricultural production, the phenomenon of bees being poisoned or even dying from pesticide contact has become increasingly serious. The decline in bee colony numbers not only affects honey production but also poses a significant threat to the natural pollination ecosystem. Detection alarms are typically used to detect and alert on pesticide residues inside the beehive. However, existing detection alarms are usually installed inside the beehive and can only detect pesticide residues inside the hive, not outside. When high concentrations of pesticide residues exist in the external environment, there is no early warning, easily leading to bees coming into contact with pesticides and being poisoned.
[0003] Therefore, a sensitive beehive alarm for pesticide residue detection has now been developed, capable of detecting pesticide residues both inside and outside the beehive. Utility Model Content
[0004] To overcome the shortcomings of existing detection alarms that can only detect pesticide residues inside the beehive and cannot detect pesticide residues outside the beehive, this utility model provides a sensitive beehive alarm that can detect pesticide residues both inside and outside the beehive.
[0005] A sensitive beehive alarm for pesticide residue detection includes a beehive, a shield, a detection component, and a sealing component. The shield is snapped onto the upper side of the beehive, and the shield is equipped with a detection component capable of detecting pesticide residues. The detection component is equipped with a sealing component capable of preventing air from entering.
[0006] To further explain, the detection assembly includes a detection box, a first air inlet pipe, a second air inlet pipe, a rotating cover, an air outlet pipe, a fan, a detection alarm, a limiting frame, and a first telescopic spring. The detection box is connected to the upper side of the cover, the first air inlet pipe is connected to the right side of the detection box, and the second air inlet pipe is connected to the lower side of the detection box. The second air inlet pipe passes through the cover. The rotating cover is rotatably connected to the upper rear part of the detection box, the air outlet pipe is connected to the upper part of the rotating cover, and the fan is connected to the upper part of the air outlet pipe. The detection alarm is snapped into the inside of the detection box, and the limiting frame is slidably connected inside the detection box. The limiting frame contacts the detection alarm, and the first telescopic spring connects the front and rear parts of the limiting frame to the detection box.
[0007] To further explain, a one-way valve is installed inside the vent pipe.
[0008] To further explain, it also includes dust screens, with dust screens connected to the first air inlet pipe, the second air inlet pipe, and the air outlet pipe.
[0009] To further explain, the sealing assembly includes a motor, a first sealing frame, a bevel gear, a second sealing frame, a top pressure frame, and a second telescopic spring. The motor is connected to the left side of the second air intake pipe, and the first sealing frame is connected to the motor output shaft. The first sealing frame is rotatably connected to the second air intake pipe. A bevel gear is connected to the right side of the first sealing frame, and the second sealing frame is rotatably connected to the right side of the first air intake pipe. A bevel gear is also connected to the lower side of the second sealing frame, and the bevel gears mesh with each other. A top pressure frame is slidably connected to the lower part of the second air intake pipe. The first sealing frame and the top pressure frame are in a pressing fit, and a second telescopic spring is connected between the top pressure frame and the second air intake pipe.
[0010] To further explain, the fan, detection alarm, motor, and processor are electrically connected via a control module.
[0011] The beneficial effects of this utility model are as follows: 1. By rotating the first sealing frame, the second air inlet pipe is opened, allowing the detection alarm to detect pesticide residues inside the beehive. When the first sealing frame rotates, the bevel gear meshes, causing the second sealing frame to rotate and close the first air inlet pipe. After the first sealing frame rotates and closes the second air inlet pipe, the first air inlet pipe opens, allowing the detection alarm to detect pesticide residues outside the beehive. This achieves the effect of detecting pesticide residues inside and outside the beehive separately.
[0012] 2. When the detection alarm needs to be replaced, open the rotating cover and pull the limiting frame upward. The first telescopic spring is compressed and contracted, and then the detection alarm is taken out from the detection box. After the replacement is completed, release the limiting frame, and the first telescopic spring rebounds, so that the limiting frame resets and restricts the detection alarm. This achieves the effect of quickly and conveniently disassembling and assembling the detection alarm. Attached Figure Description
[0013] Figure 1 This is a three-dimensional structural diagram of the present invention.
[0014] Figure 2 This is a three-dimensional structural diagram of the beehive and testing box of this utility model.
[0015] Figure 3 This is a three-dimensional structural diagram of the air intake pipe and fan of this utility model.
[0016] Figure 4 This is a three-dimensional structural diagram of the detection alarm and the limiting frame of this utility model.
[0017] Figure 5 This is a three-dimensional structural diagram of the sealing frame and the top pressure frame of this utility model.
[0018] The markings in the attached diagram are as follows: 1: Beehive, 2: Shield, 3: Detection box, 4: First air inlet pipe, 5: Second air inlet pipe, 6: Rotating cover, 7: Air outlet pipe, 8: Fan, 9: Dustproof net, 10: Detection alarm, 11: Limiting frame, 12: First telescopic spring, 13: Motor, 14: First sealing frame, 15: Bevel gear, 16: Second sealing frame, 17: Top pressure frame, 18: Second telescopic spring. Detailed Implementation
[0019] The present invention will now be described more fully below with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. However, the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for thoroughness and completeness and to fully convey the scope of the invention to those skilled in the art.
[0020] A sensitive beehive alarm for pesticide residue detection, such as Figures 1-5 As shown, it includes a beehive 1, a shield 2, a detection component, and a sealing component. The shield 2 is snapped onto the upper side of the beehive 1. The shield 2 is equipped with a detection component, and the detection component is equipped with a sealing component.
[0021] like Figures 1-4 As shown, the detection assembly includes a detection box 3, a first air inlet pipe 4, a second air inlet pipe 5, a rotating cover 6, an air outlet pipe 7, a fan 8, a dustproof net 9, a detection alarm 10, a limiting frame 11, and a first telescopic spring 12. The detection box 3 is connected to the upper side of the cover 2. The first air inlet pipe 4 is connected to the right side of the detection box 3. The second air inlet pipe 5 is connected to the lower side of the detection box 3 and passes through the cover 2. The rotating cover 6 is rotatably connected to the upper rear part of the detection box 3. The air outlet pipe 7 is connected to the upper side of the rotating cover 6. A one-way valve is installed inside the air outlet pipe 7. The fan 8 is connected to the upper part of the air outlet pipe 7. Dustproof nets 9 are connected to the first air inlet pipe 4, the second air inlet pipe 5, and the air outlet pipe 7. The detection alarm 10 is snapped into the inside of the detection box 3. The limiting frame 11 is slidably connected inside the detection box 3 and contacts the detection alarm 10. The first telescopic spring 12 is connected to both the front and rear parts of the limiting frame 11 and the detection box 3.
[0022] like Figure 1 and Figure 5As shown, the sealing assembly includes a motor 13, a first sealing frame 14, a bevel gear 15, a second sealing frame 16, a top pressure frame 17, and a second telescopic spring 18. The motor 13 is connected to the left side of the second air intake pipe 5. The fan 8, the detection alarm 10, the motor 13, and the processor are electrically connected through a control module. The first sealing frame 14 is connected to the output shaft of the motor 13. The first sealing frame 14 is rotatably connected to the second air intake pipe 5. The bevel gear 15 is connected to the right side of the first sealing frame 14. The second sealing frame 16 is rotatably connected to the right side of the first air intake pipe 4. The bevel gear 15 is also connected to the lower side of the second sealing frame 16. The bevel gears 15 mesh with each other. The top pressure frame 17 is slidably connected to the lower part of the second air intake pipe 5. The first sealing frame 14 and the top pressure frame 17 are pressed together. The second telescopic spring 18 is connected between the top pressure frame 17 and the second air intake pipe 5.
[0023] When using this utility model, first place the beehive 1 in the bee breeding area, open the cover 2, and let the bees enter the beehive 1 to breed the bees;
[0024] When detecting pesticide residues inside beehive 1, the processor starts motor 13 through the control module, which drives the first sealing frame 14 to rotate and opens the second air intake pipe 5, allowing air from inside beehive 1 to enter the detection box 3 through the second air intake pipe 5. This enables the detection alarm 10 to detect pesticide residues inside beehive 1. When the first sealing frame 14 rotates, the bevel gear 15 meshes and rotates, causing the second sealing frame 16 to rotate and close the first air intake pipe 4, preventing external air from interfering with the detection results of the detection alarm 10. After the first sealing frame 14 rotates and closes the second air intake pipe 5, the first air intake pipe 4 opens, allowing external air from beehive 1 to enter the detection box 3 through the first air intake pipe 4. This enables the detection alarm 10 to detect pesticide residues outside beehive 1, thus enabling the detection of pesticide residues inside and outside beehive 1 separately. When the pesticide residue concentration is high, the detection alarm 10 issues an alarm.
[0025] After the test is completed, the processor starts the fan 8 through the control module, so that the air in the test chamber 3 is discharged from the exhaust pipe 7. The one-way valve is used to prevent external air from entering from the exhaust pipe 7, and the dust screen 9 is used to prevent dust and other impurities from entering the test chamber 3 from the first intake pipe 4, the second intake pipe 5 and the exhaust pipe 7.
[0026] When the first sealing frame 14 rotates, it squeezes the top pressure frame 17 to move downward. The second telescopic spring 18 is squeezed and contracted, so that the top pressure frame 17 pushes out the obstruction at the outlet of the second air intake pipe 5 and at the same time prevents bees from entering the second air intake pipe 5. After the first sealing frame 14 rotates and resets, the second telescopic spring 18 rebounds, so that the top pressure frame 17 resets.
[0027] When the detection alarm 10 needs to be replaced, the rotating cover 6 can be opened, and the limiting frame 11 can be pulled upward. The first telescopic spring 12 is compressed and contracted, and then the detection alarm 10 can be taken out from the detection box 3. After the replacement is completed, the limiting frame 11 is released, and the first telescopic spring 12 rebounds, so that the limiting frame 11 resets and limits the detection alarm 10, thereby enabling quick and convenient disassembly and assembly of the detection alarm 10.
[0028] Although the present invention has been described with reference to exemplary embodiments, it should be understood that the present invention is not limited to the disclosed exemplary embodiments. The scope of the following claims should be given the broadest interpretation in order to cover all variations and equivalent structures and functions.
Claims
1. A sensitive hive alarm for detection of pesticide residues, characterized in that: It includes a beehive (1), a shield (2), a detection component and a sealing component. The shield (2) is snapped onto the upper side of the beehive (1). The shield (2) is equipped with a detection component that can detect pesticide residues. The detection component is equipped with a sealing component that can prevent air from entering.
2. A sensitive hive alarm for detecting pesticide residues according to claim 1, characterised in that: The detection assembly includes a detection box (3), a first air inlet pipe (4), a second air inlet pipe (5), a rotating cover (6), an air outlet pipe (7), a fan (8), a detection alarm (10), a limiting frame (11), and a first telescopic spring (12). The detection box (3) is connected to the upper side of the cover (2), the first air inlet pipe (4) is connected to the right side of the detection box (3), and the second air inlet pipe (5) is connected to the lower side of the detection box (3). The second air inlet pipe (5) passes through the cover (2). A rotating cover (6) is rotatably connected to the upper rear of the test box (3). An air outlet pipe (7) is connected to the upper side of the rotating cover (6). A fan (8) is connected to the upper part of the air outlet pipe (7). A test alarm (10) is snapped into the inside of the test box (3). A limiting frame (11) is slidably connected inside the test box (3). The limiting frame (11) is in contact with the test alarm (10). A first telescopic spring (12) is connected between the front and rear parts of the limiting frame (11) and the test box (3).
3. A sensitive hive alarm for detecting pesticide residues according to claim 2, characterised in that: The exhaust pipe (7) is equipped with a one-way valve.
4. A sensitive hive alarm for detecting pesticide residues according to claim 2, characterised in that: It also includes a dustproof net (9), and the first air inlet pipe (4), the second air inlet pipe (5) and the air outlet pipe (7) are all connected to the dustproof net (9).
5. A sensitive hive alarm for detecting pesticide residues according to claim 2, characterised in that: The sealing assembly includes a motor (13), a first sealing frame (14), a bevel gear (15), a second sealing frame (16), a top pressure frame (17), and a second telescopic spring (18). The motor (13) is connected to the left side of the second air intake pipe (5). The first sealing frame (14) is connected to the output shaft of the motor (13). The first sealing frame (14) is rotatably connected to the second air intake pipe (5). The bevel gear (15) is connected to the right side of the first sealing frame (14). The second sealing frame (16) is rotatably connected to the right side of the first air intake pipe (4). The bevel gear (15) is also connected to the lower side of the second sealing frame (16). The bevel gears (15) mesh with each other. The top pressure frame (17) is slidably connected to the lower part of the second air intake pipe (5). The first sealing frame (14) and the top pressure frame (17) are pressed together. The second telescopic spring (18) is connected between the top pressure frame (17) and the second air intake pipe (5).
6. A sensitive hive alarm for detecting pesticide residues according to claim 5, characterised in that: The fan (8), the detection alarm (10), the motor (13) and the processor are electrically connected through the control module.