CN210808978U - Continuous mousetrap - Google Patents

Abstract

The utility model discloses a continuous type mousetrap, be in including storage mouse portion and the intercommunication setting that is used for the storage to catch the mouse store up the mouse portion of advancing in the mouse portion, it is equipped with the intercommunication with the junction spaced apart of storing up the mouse portion to advance the mouse portion, the bottom plate upper surface hinge that stores up the mouse portion has prevents that the mouse from escaping extremely advance the non return portion of mouse portion, advance the mouse portion and go up the intercommunication and be provided with at least one and attract the mouse to get into the passageway of advancing of mouse portion, advance and be provided with at least one in the passageway of mouse to advance the mouse portion orientation internal open, prevent the back portion of preventing that the mouse escapes. The utility model discloses the structure is ingenious, the ecological behavior of mouse in the make full use of mouse biology, and the life habit that drilling hole hidden is liked to the food demand of looking for of mouse and mouse realizes catching mouse in succession, and it is efficient and the processing cost is low to kill mouse, has reduced investment cost then.

Description

Continuous mousetrap

Technical Field

The utility model relates to a mousing field especially relates to a continuous type mousetrap.

Background

The mice are rodents which are tenacious in vitality, numerous in number, fast in reproduction speed and strong in adaptability, and almost all the mice eat the mice and can survive in any place. In 1949 + 1952, mass hygiene exercises were widely performed nationwide in the early period of building a country in order to change the reality of insanitary conditions and serious epidemic of infectious diseases in old China. In the anti-beauty-aid dynasty, during the bacterial war of smashing the emperor, under the leader of the central epidemic prevention committee, the new climax of the public health sports, namely the 'four-pest elimination sports', is rapidly raised everywhere. Rats, mosquitoes, flies and sparrows are classified as four major pests. Mice, mosquitoes, flies, cockroaches, to date, are four major pathogenic organisms that affect public health and transmit bacterial viruses. The mice are still one of four powerful vectors of disease media organisms, and cause immeasurable loss to life and production of people.

The existing deratization method mainly comprises chemical deratization and physical deratization, wherein the chemical deratization is to poison the rats by means of rodenticide, and is the most economic method in large-scale deratization. The main disadvantages of the chemical rodenticide method are as follows: 1. chemical deratization has great threat to human and livestock and is easy to cause pollution; 2. the application of the chemical rodenticide is greatly limited in production links such as food production and pharmacy, and high-density population environments such as business surpasses, catering and entertainment, and the like, and is even forbidden to use in order to ensure safety. Traditional physics mouse killing device is mousetrap, mousetrap and glues the mouse board, and traditional mousetrap, mousetrap are many to touch extension spring, transmission lever trigger organ behind mouse invasion mousetrap or mousetrap to catch the mouse, have following shortcoming: 1. under the influence of environment, the tension springs and the pull rods of the traditional mouse trapping cage and the traditional mouse trapping clamp are easily triggered by mistake, and the mouse trapping effect is lost after the false triggering; 2. because the continuous mouse trapping function is not provided, only one mouse can be trapped in one time in the environment with more mice, people need to know the mouse trapping and clear the mouse trapping reset mouse trap cage and the mouse trap, and then the mouse trap can be set again to trap the mouse, so that the continuous mouse trapping efficiency is low; 3. the cost of the mouse sticking plate is high, and the viscose surface is easily polluted by dust fall, precipitation and the like, so that the viscosity of the mouse sticking plate is reduced or the function of sticking and catching mice is completely lost. Therefore, the traditional physical rat killing mode can not realize large-scale rat killing, is difficult to realize instant rat killing and can not continuously work for a long time.

In recent years, people invented an electronic mousetrap which utilizes an electrified high-voltage iron wire (220V) to kill mice, needs to be observed by a special person during the mouse killing period, can quickly kill the mice moving on the ground, but cannot solve the problem that the mice movably climb and live in holes on the top of a building. Meanwhile, the electronic mousetrap needs a large open field, has many requirements on the field and has great electric shock and fire safety hidden dangers. Therefore, the electronic mousetrap is rarely used in warehouses and processing workshops in the grain, oil and food processing industry and the chemical industry.

In order to solve the problems, an electronic mouse trap is improved by people, if CN108235679A discloses a mouse trapping box, a trapping port and a recycling port are arranged on a box body, an anode power grid wire and a cathode power grid wire are arranged in the box body, the anode power grid wire and the cathode power grid wire are respectively connected with a high-voltage power converter, a lifting platform driven by a motor through a lifting frame is arranged below a power grid, and after a mouse is killed by high-voltage electric shock, the motor drives the lifting platform to rotate to a vertical state, so that the mouse killed by high-voltage electric shock falls into the recycling box. Although the technical scheme can realize continuous mouse trapping, the structure is complex, the processing cost is high, and the investment cost of grain and oil, food and chemical industries is increased; meanwhile, the technical scheme still utilizes the high-voltage electric shock killing principle, so that potential safety hazards exist.

Disclosure of Invention

An object of the utility model is to provide a continuous type mousetrap that the structure is ingenious, the processing cost is low and the security is high.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

continuous type mousetrap, including being used for the storage to catch storage mouse portion and the intercommunication setting of mouse store up the mouse portion of advancing in the mouse portion, advance the mouse portion and store up the junction spaced apart of mouse portion and be equipped with the intercommunication, the bottom plate upper surface hinge that stores up the mouse portion has prevents that the mouse from escaping extremely advance the non return portion of mouse portion, advance the mouse portion and go up the intercommunication and be provided with at least one and attract the mouse to get into the passageway of advancing of mouse portion, advance and be provided with at least one in the passageway of rat to advance the mouse portion direction in, prevent the portion of preventing returning that the mouse escaped.

The mouse inlet part is communicated with the bottom of the mouse storage part, and the communication part is arranged at the joint of the mouse inlet part and the mouse storage part.

The rat inlet channel is a light-transmitting channel.

The anti-return part is a transparent door body hinged to the upper part of the rat inlet channel, the transparent door body obliquely extends from the top of the transparent door body to the rat inlet part, and a ventilating structure is arranged at the bottom of the transparent door body.

The ventilating structure comprises a transparent protruding piece extending downwards from the middle of the bottom edge of the transparent door body, the bottom edge of the transparent protruding piece is placed on the bottom wall of the rat inlet channel, the bottom edges of the transparent door bodies positioned on two sides of the transparent protruding piece and the rat inlet channel form a ventilating seam in a surrounding mode, and the height of the ventilating seam is smaller than 6 mm.

The ventilating structure comprises a ventilating hole formed in the transparent door body.

The non-return portion is hinged to the communicating portion and towards the non-return baffle arranged in the center of the mouse storage portion, overlapping edges of the non-return baffle extend from the middle of the non-return baffle to the side wall direction of the mouse storage portion and are provided with overlapping protruding pieces, and the overlapping edges of the non-return baffle on two sides of the overlapping protruding pieces and the communicating portion form a light transmission seam smaller than 6 mm.

The mouse storage part is of a box structure, and the top cover of the mouse storage part is of a transparent structure; any one side wall or any two side walls of the mouse storage part are of a drawing structure with a handle.

The mouse storage device is characterized in that a first pressure sensor is arranged in the bottom plate, an audible and visual alarm or a luminous alarm is arranged on the mouse storage portion, a signal output end of the first pressure sensor is electrically connected with a signal input end of the single chip microcomputer, a signal output end of the single chip microcomputer is electrically connected with a signal input end of the audible and visual alarm or the luminous alarm, a signal output end of the single chip microcomputer is electrically connected with a signal input end of the wireless sending module, and the single chip microcomputer is electrically connected with a power module in the mouse storage portion.

And a second pressure sensor is arranged in the bottom plate of the mouse inlet part, and the signal output end of the second pressure sensor is electrically connected with the signal input end of the singlechip.

The utility model discloses the structure is ingenious, the ecological behavior of mouse in the make full use of mouse biology, and the life habit that drilling hole hidden is liked to the food demand of looking for of mouse and mouse realizes catching mouse in succession, and it is efficient and the processing cost is low to kill mouse, has reduced investment cost then. In order to reduce the alertness of the mouse, the mouse inlet channel is made into a light transmission channel, namely, the anti-return parts in the mouse inlet channel are all transparent door bodies, so that the prevention consciousness of the mouse is reduced, and the mouse is induced to enter the mouse inlet channel; the transparent door body obliquely extends from the top to the mouse inlet part, so that the transparent door body can only be opened inwards but not outwards, a mouse passing over the transparent door body can only move forwards to the mouse inlet part but cannot escape, and finally the mouse has to enter the mouse storage part from the mouse inlet part, so that continuous mouse trapping can be realized; the transparent door body is provided with the air holes and the air permeable seams, so that the air permeable performance can be ensured, and the height of the air permeable seams is less than 6mm, so that mice can be prevented from drilling; the non-return part with light transmission performance on the mouse storage part can guide the mouse to escape to the mouse storage part. The utility model also has the alarm function, the mouse trapping information can be obtained at the first time, so as to clean the mouse in time and avoid the secondary pest and mouse pollution caused by untimely cleaning of dead bodies after the death of the mouse; meanwhile, the reason for the formation of the mouse damage can be analyzed and traced in the first time, so that the risk of the mouse damage is reduced to the maximum extent.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic sectional view along a-a in fig. 1.

Fig. 3 is an enlarged sectional view in the direction B-B in fig. 1.

Fig. 4 is an enlarged view of the structure of the end stop shutter of fig. 1.

Fig. 5 is another schematic structural diagram of the check baffle of the present invention.

Fig. 6 is a third structural schematic diagram of the non-return baffle of the present invention.

Fig. 7 is a schematic block circuit diagram of the present invention.

Detailed Description

As shown in fig. 1 and 2, the continuous type mouse trap of the present invention comprises a mouse storage part 1 for storing the caught mouse and a mouse inlet part 2 communicated with the bottom of the mouse storage part 1, wherein the mouse storage part 1 is of a box structure (i.e. the mouse storage part 1 is a mouse storage box), a top cover 1.1 of the mouse storage part 1 is a transparent cover (the top cover 1.1 is hinged to the top of the mouse storage part 1, of course, the top cover 1.1 can also be buckled to the top of the mouse storage part 1), the transparent cover is not only convenient for observing the inside condition of the mouse storage part 1, but also has light transmittance, and ensures the brightness of the mouse storage part 1; the left side wall and the right side wall of the mouse storage part 1 are both of a pull-out structure, and handles 1.2 are arranged on the left side wall and the right side wall of the mouse storage part 1, so that mice can be cleaned conveniently;

as shown in fig. 2 and 3, the mouse inlet part 2 is of a box structure, the mouse inlet part 2 is communicated with a bottom plate 1.3 of the mouse storage part 1, and a through hole 2.1 for light transmission is formed in the side wall of the mouse inlet part 2 to ensure the light transmission of the mouse inlet part 2; four mouse inlet channels 3 are communicated with the side wall of the mouse inlet part 2 (certainly, according to actual requirements, the mouse inlet channels 3 can be two, three, five or more), three anti-return parts 4 which are opened towards the mouse inlet part 2 and prevent mice from escaping are arranged in each mouse inlet channel 3, each anti-return part 4 is a transparent door body 4.1 hinged to the upper part of the mouse inlet channel 3, two edges of the top edge of the transparent door body 4.1 are extended and provided with a pair of mounting rods 4.2, the top part of the mouse inlet channel 3 is provided with a pair of mounting holes matched with the mounting rods 4.2, the mounting rods 4.2 are rotatably arranged in the mounting holes, the transparent door body 4.1 is opened or closed by rotating the mounting rods 4.2 (certainly, the transparent door body 4.1 can also be hinged to the top part of the mouse inlet channel 3 by hinges during actual installation), the transparent door body 4.1 can ensure the light transmittance of the mouse inlet channel 3, namely, the mouse inlet channel 3 is a light transmittance channel, reducing the precaution consciousness of the mice;

as shown in fig. 3, the transparent door body 4.1 extends from the top to the rat entrance part 2 in an inclined manner, the length of the transparent door body 4.1 is greater than the height of the rat entrance channel 3, the transparent door body 4.1 is obliquely overlapped on the bottom wall of the rat entrance channel 3 due to self weight in a free state, so that the transparent door body 4.1 can only be opened inwards but not outwards, and a rat cannot escape from the rat entrance channel 3 once crossing the transparent door body 4.1 at the outermost side (of course, the transparent door body 4.1 can be vertically arranged during actual manufacturing, and a non-return boss is arranged on the bottom wall of the rat entrance channel 3 at the outer side of each transparent door body 4.1); the bottom of the transparent door body 4.1 is provided with a ventilation structure, the ventilation structure comprises a transparent lug 4.3 extending downwards from the middle part of the bottom edge of the transparent door body 4.1, the bottom edge of the transparent lug 4.3 is overlapped on the bottom wall of the rat inlet channel 3, the bottom edges of the transparent door bodies 4.1 positioned at two sides of the transparent lug 4.3 and the rat inlet channel 3 enclose a ventilation seam 4.4, and the ventilation performance of the rat inlet channel 3 is ensured; in order to further improve the air permeability of the rat entrance channel 3, the transparent door body 4.1 is provided with the air holes 4.5, so that rats can be ensured to see more places, and the alertness of the rats is reduced;

as shown in fig. 1-2 and 4, four communicating parts 5 are arranged at the connecting part of the mouse inlet part 2 and the mouse storage part 1 at intervals (the communicating parts 5 are mouse inlet openings), the upper surface of a bottom plate 1.3 of the mouse storage part 1 is hinged with a non-return part for preventing a mouse from escaping to the mouse inlet part 2, the non-return part is a non-return baffle 6.1, two edges of a hinged edge of the non-return baffle 6.1 are provided with mounting shafts 6.2 in an extending way, and a lap joint edge opposite to the hinged edge is provided with lap joint lugs 6.3 in an extending way from the middle part to the side wall of the mouse storage part for preventing the mouse from escaping; a light transmission seam 6.4 enclosed by the lap edge and the mouse inlet is less than 6mm, so that a mouse can be prevented from entering the mouse inlet, and the light transmission and air permeability can be ensured; in order to further ensure the light transmission, the non-return baffle 6.1 is provided with a light hole A6.5.

During actual processing, the non-return baffle 6.1 can also be in a structure as shown in fig. 5, one edge of the non-return baffle 6.1 is hinged to the bottom plate of the mouse storage part 1, the other three edges of the non-return baffle are placed at the mouse inlet, the non-return baffle 6.1 is provided with an A light hole 8, the light transmission is guaranteed, and a mouse is attracted to enter the mouse storage part 1 from the mouse inlet.

In actual processing, the non-return baffle 6.1 can also be in a structure as shown in fig. 6, one edge of the non-return baffle 6.1 is hinged on the bottom plate 1.3 of the mouse storage part 1, and the other edge of the non-return baffle 6.1 opposite to the non-return baffle is placed at the mouse inlet to prevent the mouse from escaping; the other two sides of the non-return baffle 6.1 and the gap of the mouse inlet are provided with a B light-transmitting seam 9 which is smaller than 6mm, and the non-return baffle 6.1 is provided with a C light-transmitting hole 10 to ensure light transmission and attract the mouse to enter the mouse storage part 1 from the mouse inlet part 2.

As shown in fig. 7, a first pressure sensor (an upper surface pressure sensor sensing area of the bottom plate) is arranged in the bottom plate, in order to further monitor the condition of the mouse entering part, a second pressure sensor is arranged in the bottom plate, a light-emitting alarm 7 (i.e., an LED, which is arranged on the front side wall of the mouse storing part) is arranged on the mouse storing part 1, a signal output end of the first pressure sensor is electrically connected with a signal input end of a single chip microcomputer, a signal output end of the single chip microcomputer is electrically connected with a signal input end of the light-emitting alarm, a signal output end of the single chip microcomputer is electrically connected with a signal input end of a wireless transmitting module, the wireless transmitting module is electrically connected with a wireless receiving end (which may be a mobile; the signal output end of the second pressure sensor is electrically connected with the signal input end of the single chip microcomputer, and the single chip microcomputer can transmit the weight of the mouse in the mouse storage part and the mouse inlet part to a computer in a monitoring room or a mobile phone of a warehouse manager in real time. When the weight of a mouse in the mouse inlet part or the mouse storage part reaches a preset value, the single chip microcomputer sends an alarm signal to the luminous alarm, meanwhile, the weight information is sent to the mobile phone or the computer through the wireless sending module, and the mobile phone or the computer sends out sound for reminding, so that the mouse can be cleaned in time, and secondary pollution is prevented.

In actual manufacturing, in order to conveniently install the anti-return part and clean the rat inlet channel 3, the top wall and the side wall of the rat inlet channel 3 are made into a split structure; in order to prevent the mouse from escaping, the outer contour of the non-return baffle plate can adopt a sawtooth structure.

When the continuous mousetrap is used, a mouse often appears in a warehouse or a workshop, the mouse enters the mouse entering channel 3 tentatively because the mouse entering channel 3 is a light transmitting channel, and once the mouse passes through the anti-return door positioned on the outer side, the mouse can only continuously advance until entering the mouse entering part 2 because the anti-return door can only be opened inwards but cannot be opened outwards because the anti-return door can only be opened inwards, and the mouse is attracted to push the anti-return baffle 6.1 to jump into the mouse storing part 1 because the anti-return baffle 6.1 and the top cover 1.1 both have light transmission properties, so that the mouse is continuously trapped; meanwhile, in order to improve the mouse trapping efficiency, the mouse bait can be prevented from attracting the mouse in the mouse inlet channel, the mouse inlet part and the mouse storage part. During the mouse catching period, workers can check the internal condition of the mouse storage part 1 through a transparent cover at the top of the mouse storage part 1; when the weight of the mouse in the mouse storage part 1 reaches a preset value, an alarm is given to remind a worker to recover the mouse.

Claims (10)

1. A continuous type mousetrap which is characterized in that: the mouse storage device comprises a mouse storage part and a mouse inlet part, wherein the mouse storage part is used for storing a caught mouse, the mouse inlet part is communicated with the mouse storage part, a communicating part is arranged at the joint of the mouse inlet part and the mouse storage part at intervals, the upper surface of a bottom plate of the mouse storage part is hinged with a non-return part for preventing the mouse from escaping to the mouse inlet part, at least one mouse inlet channel for sucking the mouse into the mouse inlet part is communicated with the mouse inlet part, and at least one mouse return preventing part for preventing the mouse from escaping is arranged in the mouse inlet channel and inwards opening towards the mouse inlet part.

2. The continuous type mousetrap of claim 1, wherein: the mouse inlet part is communicated with the bottom of the mouse storage part, and the communication part is arranged at the joint of the mouse inlet part and the mouse storage part.

3. The continuous type mousetrap of claim 1, wherein: the rat inlet channel is a light-transmitting channel.

4. The continuous type mousetrap of claim 1, wherein: the anti-return part is a transparent door body hinged to the upper part of the rat inlet channel, the transparent door body obliquely extends from the top of the transparent door body to the rat inlet part, and a ventilating structure is arranged at the bottom of the transparent door body.

5. The continuous type mousetrap of claim 4, wherein: the ventilating structure comprises a transparent protruding piece extending downwards from the middle of the bottom edge of the transparent door body, the bottom edge of the transparent protruding piece is placed on the bottom wall of the rat inlet channel, the bottom edges of the transparent door bodies positioned on two sides of the transparent protruding piece and the rat inlet channel form a ventilating seam in a surrounding mode, and the height of the ventilating seam is smaller than 6 mm.

6. The continuous type mousetrap of claim 4, wherein: the ventilating structure comprises a ventilating hole formed in the transparent door body.

7. The continuous type mousetrap of claim 1, wherein: the non-return portion is hinged to the communicating portion and towards the non-return baffle arranged in the center of the mouse storage portion, overlapping edges of the non-return baffle extend from the middle of the non-return baffle to the side wall direction of the mouse storage portion and are provided with overlapping protruding pieces, and the overlapping edges of the non-return baffle and the communicating portion form a light transmission seam smaller than 6 mm.

8. The continuous type mousetrap of claim 1, wherein: the mouse storage part is of a box structure, and the top cover of the mouse storage part is of a transparent structure; any one side wall or any two side walls of the mouse storage part are of a drawing structure with a handle.

9. The continuous type mousetrap of claim 1, wherein: the mouse storage device is characterized in that a first pressure sensor is arranged in the bottom plate, an audible and visual alarm or a luminous alarm is arranged on the mouse storage portion, a signal output end of the first pressure sensor is electrically connected with a signal input end of the single chip microcomputer, a signal output end of the single chip microcomputer is electrically connected with a signal input end of the audible and visual alarm or the luminous alarm, a signal output end of the single chip microcomputer is electrically connected with a signal input end of the wireless sending module, and the single chip microcomputer is electrically connected with a power module in the mouse storage portion.

10. The continuous type mousetrap of claim 9, wherein: and a second pressure sensor is arranged in the bottom plate of the mouse inlet part, and the signal output end of the second pressure sensor is electrically connected with the signal input end of the singlechip.

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