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CN-122004195-A - Continuous mousetrap and control method thereof

CN122004195ACN 122004195 ACN122004195 ACN 122004195ACN-122004195-A

Abstract

The application provides a continuous mousetrap and a control method thereof, wherein the continuous mousetrap comprises a shell, a mousetrap bin is arranged in the shell, a one-way door is arranged at one end of the mousetrap bin, a high-voltage plate is arranged at the bottom of the mousetrap bin, a mouse collecting box is arranged below the mousetrap bin, a control module, a networking module, an electric plate driving piece and a power supply are arranged in the shell, after a mouse contacts the high-voltage plate, the control module sends signals to the networking module and the electric plate driving piece, and the control module is used for enabling the electric plate driving piece to drive the high-voltage plate to move so that the mouse falls into the mouse collecting box and then drives the high-voltage plate to reset, and simultaneously sends signals for capturing the mouse to the outside. The continuous mousetrap can immediately kill and timely transfer the mice as long as the mice are captured, so that the continuous mice capture is realized, and the user can be timely informed of the information of the mice capture.

Inventors

  • ZHENG JUN
  • NING YUANAI

Assignees

  • 宁波大央科技有限公司

Dates

Publication Date
20260512
Application Date
20260203
Priority Date
20260113

Claims (18)

  1. 1. A continuous mousetrap is characterized in that a mousetrap bin (1-5) is arranged in the case (1), a mousetrap opening (1-1) is formed in one end of the mousetrap bin (1-5), a one-way door (6) is arranged on the mousetrap opening (1-1), the one-way door (6) can only be opened in one direction in the mousetrap bin, a movable high-voltage plate (4) is arranged at the bottom of the mousetrap bin (1-5), a mouse collecting box (3) with an upward opening is arranged below the mousetrap bin (1-5), a control module, a networking module, an electric plate driving piece and a power supply for supplying power are arranged in the case (1), after a mouse contacts the high-voltage plate (4), the control module sends signals to the networking module and the electric plate driving piece, and the electric plate driving piece is used for driving the high-voltage plate (4) to move or rotate outwards to enable the mouse collecting box (3) in the mousetrap bin (1-5), and then the control module is used for sending signals to the high-voltage plate (4) to the outside the mousetrap bin.
  2. 2. The continuous mousetrap according to claim 1, wherein an electric plate carrier plate (4-1) is arranged at the bottom of the mousetrap bin (1-5), the high-voltage electric plate (4) is fixed on the electric plate carrier plate (4-1), a rack (10) is arranged on the electric plate carrier plate (4-1), the electric plate driving piece comprises a motor (8) and a gear (9), the motor (8) is fixed on the outer side of the mousetrap bin (1-5), an output shaft of the motor (8) is in transmission connection with the gear (9), the gear (9) is meshed with the rack (10), forward rotation of the motor (8) enables the gear (9) to drive the rack (10) to drive the electric plate carrier plate (4-1) to move outwards of the mousetrap bin (1-5), reverse rotation of the motor (8) enables the gear (9) to drive the rack (10) to drive the electric plate carrier plate (4-1) to move reversely to reset.
  3. 3. The continuous mousetrap according to claim 2, wherein a first micro switch (11) and a second micro switch (12) are arranged in the shell (1), the first micro switch (11) can be triggered by moving the electric plate carrier plate (4-1) to the outside of the mousetrap bin (1-5), the motor (8) can stop rotating forwards by triggering the first micro switch (11), the second micro switch (12) can be triggered by moving the electric plate carrier plate (4-1) to the inside of the mousetrap bin (1-5), and the motor (8) can stop rotating backwards by triggering the second micro switch (12).
  4. 4. A continuous mousetrap according to claim 3, wherein the control module receives the trigger signals of the first microswitch (11) and the second microswitch (12), and the networking module sends a signal for capturing the mice outwards after the first microswitch (11) is triggered.
  5. 5. The continuous mousetrap according to claim 1 or4, wherein the networking module is a 4G module, a 5G module or a WiFi module for transmitting the signal of the trapped mouse to the terminal device of the user via the internet of things platform, or the networking module is a Lora or Zigbee module for transmitting the signal of the trapped mouse to the terminal device of the user via the gateway device, the internet of things platform in sequence.
  6. 6. The continuous mousetrap according to claim 2, wherein an inner support (2) is arranged in the shell (1), the inner support (2) is used for dividing a space above the mouse collecting box (3) into a mousetrap cabin (1-5) and an electric control system mounting part (2-4), the control module, the networking module and the electric plate driving part are all arranged in the electric control system mounting part (2-4), a carrier plate slideway (2-2) is arranged at the lower part of the inner support (2), the carrier plate slideway (2-2) is communicated with two sides of the inner support (2), one side of the electric plate carrier plate (4-1) provided with a rack (10) is slidably arranged in the carrier plate slideway (2-2), and the rack (10) penetrates through the carrier plate slideway (2-2) to be in meshed connection with the gear (9).
  7. 7. Continuous mousetrap according to claim 6, characterized in that on one side of the electric control system mounting part (2-4), the middle part of the inner bracket (2) is provided with a motor mounting part (2-3), and the motor (8) is fixedly connected to the motor mounting part (2-3).
  8. 8. The continuous mousetrap according to claim 6, wherein a one-way door limiting part (2-1) is arranged on one side of the mousetrap bin (1-5) and the inner bracket (2), a rotating shaft (6-1) is arranged at the top of the one-way door (6), the one-way door (6) can rotate around the rotating shaft (6-1), and one side of the one-way door (6) is adjacent to the inner bracket (2) and is limited on the inner side of the mousetrap bin (1-5) by the one-way door limiting part (2-1).
  9. 9. Continuous mousetrap according to claim 1, characterized in that the other end of the mousetrap cabin (1-5) is provided with a feeding port (1-2), the feeding port (1-2) is opposite to the mousetrap port (1-1) in a spaced way, a detachable feeding door (7) is arranged on the feeding port (1-2), a bait containing area (7-3) is arranged in the feeding door (7), the bait containing area (7-3) is used for containing bait for attracting mice, and the bait containing area (7-3) is communicated with the inside of the mousetrap cabin (1-5).
  10. 10. The continuous mousetrap according to claim 9, wherein a plurality of ventilation holes (7-4) are formed in the side, opposite to the inside of the mousetrap bin (1-5), of the bait holding area (7-3), a window is formed in the side part of the mousetrap bin (1-5) on the shell (1), a ventilation net is arranged on the window, and a plurality of ventilation holes are formed in the unidirectional door (6).
  11. 11. The continuous mousetrap according to claim 9, wherein the top end of the feeding port (1-2) is opened, two sides of the feeding port are provided with feeding gate sliding ways (1-3), two sides of the feeding gate (7) are provided with sliding walls (7-1), the sliding walls (7-1) are correspondingly matched with the feeding gate sliding ways (1-3) in a sliding mode, one of the sliding walls (7-1) and the feeding gate sliding ways (1-3) is provided with a sliding bar (1-4), the other one of the sliding walls is provided with a sliding groove (7-2), the sliding bar (1-4) is matched with the sliding groove (7-2) in a sliding mode, and the feeding gate (7) can slide downwards into the feeding port (1-2) or slide upwards out of the feeding port (1-2).
  12. 12. The continuous mousetrap according to claim 1, wherein a bin feeding step (5) is arranged on the front side of the mousetrap bin (1-5) in the shell (1), the bin feeding step (5) is open to the outside of the shell (1), the bin feeding step (5) is used for connecting the mousetrap bin (1-5) from the bottom in the shell (1), and the top end of the bin feeding step (5) is connected with the mousetrap opening (1-1).
  13. 13. Continuous mousetrap according to claim 1, characterized in that the drawer (3-2) is provided on one side of the mouse collecting box (3), the mouse collecting box (3) being retractable into and out of the housing (1).
  14. 14. The continuous mousetrap according to claim 1, wherein a battery compartment (13) and a power switch (14) are arranged in the shell (1), the power supply is a battery arranged in the battery compartment (13), and the power switch (14) is used for switching on or switching off the battery to supply power to the outside.
  15. 15. A method of controlling a continuous mousetrap according to any one of claims 1 to 14, wherein the method comprises: The high-voltage plate (4) is continuously powered by the power supply to keep a high-voltage state, and when a mouse enters the mouse trapping bin (1-5) through the one-way door (6) to touch the high-voltage plate (4), the high-voltage plate (4) sends a high-current signal to the control module; After receiving the high-current signal, the control module waits for a high-voltage deratization time t, then sends signals to the networking module and the electric plate driving piece, so that the electric plate driving piece drives the high-voltage electric plate (4) to move or rotate outwards of the mousetrap (1-5) to enable mice in the mousetrap (1-5) to fall into the mouse collecting box (3), then drives the high-voltage electric plate (4) to reset, and meanwhile, the networking module sends signals for capturing the mice outwards.
  16. 16. A method of controlling a continuous mousetrap according to claim 15, characterized in that it is based on a continuous mousetrap according to any one of claims 2-8; When the control module receives the high-current signal, the control module waits for a high-voltage deratization time t, then the control module sends a signal to the electric plate driving piece, so that the electric plate driving piece drives the motor (8) to rotate forward for n circles, the gear (9) drives the rack (10) to drive the electric plate carrier plate (4-1) to move out of the mousing bin (1-5) so that mice in the mousing bin (1-5) fall into the mouse collecting box (3), then the electric plate driving piece drives the motor (8) to rotate reversely for n circles, and the gear (9) drives the rack (10) to drive the electric plate carrier plate (4-1) to move reversely to reset.
  17. 17. A method of controlling a continuous mousetrap according to claim 15, characterized in that it is based on a continuous mousetrap according to any one of claims 3-5; When the control module receives the high-current signal, the control module waits for a high-voltage deratization time t, then the control module sends a signal to the electric plate driving piece to enable the electric plate driving piece to drive the motor (8) to continuously rotate forwards until the first micro switch (11) is triggered, the motor (8) stops rotating forwards, in the process of rotating forwards of the motor (8), the gear (9) drives the rack (10) to drive the electric plate carrier plate (4-1) to move outwards of the mousing bin (1-5) to enable mice in the mousing bin (1-5) to fall into the mouse collecting box (3), then the electric plate driving piece drives the motor (8) to continuously rotate backwards until the second micro switch (12) is triggered, and in the process of rotating backwards of the motor (8), the gear (9) drives the rack (10) to drive the electric plate carrier plate (4-1) to move backwards until reset.
  18. 18. A method of controlling a continuous mousetrap according to claim 16 or 17, characterized in that it is based on a continuous mousetrap according to claim 4 or 5; the control module receives trigger signals of the first micro switch (11) and the second micro switch (12), when the first micro switch (11) is triggered, the control module sends signals to the networking module, so that the networking module sends signals for capturing mice to the Internet of things platform or gateway equipment, the gateway equipment receives the signals for capturing the mice and sends the signals to the Internet of things platform, and finally the Internet of things platform sends the signals for capturing the mice to terminal equipment of a user.

Description

Continuous mousetrap and control method thereof Technical Field The application relates to the technical field of mousetraps, in particular to a continuous mousetrap and a control method thereof. Background Mice steal food, destroy furniture clothes, carry a large amount of germs, and have great harm to the production and life of human beings. In order to kill mice invading the human territory, many types of mouse trapping devices have been invented, such as mousetraps, poison type mousetraps, and electric shock type mousetraps. Since the mice have strong alertness, as long as the mice captured by the mice capturing device have a chance to send warning signals to other mice, such as the sounds of the mice, the remained urine, smell and the like, the other mice can be alerted, and the next mouse cannot be captured by the mice capturing device. Therefore, there are few devices capable of continuously trapping living mice. Content of the application The application aims to solve the technical problem of providing the continuous mousetrap, which can immediately kill and timely transfer the mice as long as the mice are captured, so that the mice are prevented from sending warning signals to other mice, further the continuous mice capture is realized, and all the captured mice can be conveniently cleaned together. The technical scheme is that the continuous mousetrap comprises a shell, a mousetrap bin is arranged in the shell, a mousetrap opening is formed in one end of the mousetrap bin, a one-way door is arranged on the mousetrap opening and can only be opened in one direction in the mousetrap bin, a movable high-voltage plate is arranged at the bottom of the mousetrap bin, a mouse collecting box with an upward opening is arranged below the mousetrap bin, a control module, a networking module, a plate driving piece and a power supply for supplying power are arranged in the shell, after a mouse contacts the high-voltage plate, the control module sends signals to the networking module and the plate driving piece, and the control module is used for enabling the plate driving piece to drive the high-voltage plate to move or rotate out of the mousetrap bin so that the mouse in the mousetrap bin falls into the mouse collecting box and then drives the high-voltage plate to reset, and meanwhile the networking module sends signals for capturing the mouse outwards. Compared with the prior art, the continuous mousetrap has the advantages that mice can enter the mousetrap through the one-way door, but cannot escape from the one-way door, the mice entering the mousetrap can be directly shocked and killed by the high-voltage plate immediately, then fall into the mouse collecting box under the linkage action of the control module, the electric plate driving piece and the high-voltage plate, and the networking module sends out signals for capturing the mice, so that the continuous mousetrap can immediately kill and timely transfer the mice as long as the mice are captured, avoid sending warning signals to other mice, further realize continuous mouse capturing, timely inform a user of the information for capturing the mice, and enable the user to conveniently clean all the captured mice together by cleaning the mouse collecting box. Preferably, an electric plate carrier plate is arranged at the bottom of the mousetrap, a high-voltage electric plate is fixed on the electric plate carrier plate, a rack is arranged on the electric plate carrier plate, the electric plate driving piece comprises a motor and a gear, the motor is fixed on the outer side of the mousetrap, an output shaft of the motor is connected with the gear in a transmission manner, the gear is meshed with the rack, the motor can drive the gear to drive the electric plate carrier plate to move out of the mousetrap through forward rotation, and the gear can drive the gear to drive the electric plate carrier plate to reversely move to reset through reverse rotation. By adopting the structure, the motor is convenient to drive the electric plate carrier plate to move or reset outside the mousetrap with the high-voltage electric plate. Preferably, a first micro switch and a second micro switch are arranged in the shell, the electric plate carrier plate moves outside the mousing bin to trigger the first micro switch, the first micro switch is triggered to enable the motor to stop rotating forwards, the electric plate carrier plate moves inside the mousing bin to trigger the second micro switch, and the second micro switch is triggered to enable the motor to stop rotating reversely. By adopting the structure, the start and stop of the motor can be effectively controlled, so that the electric plate carrier plate can be accurately positioned no matter moving out of the mousing bin or resetting, and the control hardware is simple, so that the cost is reduced. Preferably, the control module receives trigger signals of the first micro switch and the second micro switch, and the