阅读说明：本技术 敞开式无碍捕鼠网 (Open type non-obstacle mouse catching net ) 是由 罗成新 于 2020-05-16 设计创作，主要内容包括：本发明提供一种敞开式无碍捕鼠网,包括长条状的本体,所述本体的表面设有沿着所述本体长度方向布置的第一电极片,于所述本体的左右侧分别设有多个长条状的第二电极片,每一侧的所述第二电极片之间均间隔设置,所述第一电极片的两端分别连接电源正极和电源负极,所述第二电极片的两端分别通过电线连接电源正极和电源负极,于所述本体上设有用于感应是否有老鼠经过所述本体的感应元件,当所述感应元件感应有老鼠经过所述本体时,控制电源接通,以使所述第一电极片和所述第二电极片产生电压。本发明可提高捕鼠成功率。(The invention provides an open type accessible mouse trapping net which comprises a long strip-shaped body, wherein a first electrode plate arranged along the length direction of the body is arranged on the surface of the body, a plurality of long strip-shaped second electrode plates are respectively arranged on the left side and the right side of the body, the second electrode plates on each side are arranged at intervals, two ends of the first electrode plate are respectively connected with a power supply anode and a power supply cathode, two ends of the second electrode plate are respectively connected with the power supply anode and the power supply cathode through electric wires, an induction element used for inducing whether a mouse passes through the body is arranged on the body, and when the induction element induces the mouse to pass through the body, the power supply is controlled to be switched on so that the first electrode plate and the second electrode plates generate voltage. The invention can improve the success rate of mouse trapping.)

1. The open type accessible mouse trapping net is characterized by comprising a long strip-shaped body, wherein a first electrode plate arranged along the length direction of the body is arranged on the surface of the body, a plurality of long strip-shaped second electrode plates are respectively arranged on the left side and the right side of the body, the second electrode plates on each side are arranged at intervals, two ends of the first electrode plate are respectively connected with a power supply anode and a power supply cathode, two ends of the second electrode plate are respectively connected with the power supply anode and the power supply cathode through wires, an induction element used for inducing whether a mouse passes through the body is arranged on the body, and when the mouse is induced by the induction element to pass through the body, the power supply is controlled to be switched on, so that the first electrode plate and the second electrode plates generate voltage.

2. The open-type accessible mouse trap according to claim 1, wherein when the sensing element senses that a mouse passes through the body, the control power is turned on, and after a predetermined period of time, the control power is turned off to be connected to the first electrode tab and the second electrode tab.

3. The open, snagless rat trapping net according to claim 2, wherein the predetermined period of time is 20-30 seconds.

4. An open type accessible mouse trapping net according to any one of claims 1 to 3, wherein the induction element is an electromagnetic or infrared induction element, and the induction element comprises an emitting end provided at one end of the body and a receiving end provided at the other end of the body.

5. The open-type accessible mouse trapping net according to claim 4, wherein a length of the second electrode sheet is not less than a length of a space between the transmitting end and the receiving end.

6. The open type accessible mouse trapping net according to any one of claims 1 to 3, wherein the sensing element is a gravity sensor, or a gravity sensor is further provided on the body;

the body further comprises a transformation element, when the weight of a mouse detected by the gravity sensor is smaller than a preset value, the first electrode plate and the second electrode plate output first voltage through the transformation element, and when the weight of the mouse detected by the gravity sensor is not smaller than the preset value, the first electrode plate and the second electrode plate output second voltage through the transformation element, and the second voltage is larger than the first voltage.

7. The open type accessible mouse trapping net according to any one of claims 1 to 3, wherein one end of the second electrode sheet located on the same side of the body is connected to a positive electrode or a negative electrode of a power supply through the same wire.

8. An open, snagless rat trapping net according to any one of claims 1-3, wherein the closer to the body the more dense the second electrode sheet is, and the further away from the body the more sparse the second electrode sheet is.

9. An open type accessible mouse trapping net according to any one of claims 1 to 3, wherein a gap between two adjacent second electrode sheets is not more than 10 cm.

10. An open type accessible mouse trapping net according to any one of claims 1 to 3, wherein a placement groove for placing bait is provided in the middle of the body.

Technical Field

The invention relates to a mouse trapping device, in particular to an open type accessible mouse trapping net.

Background

The rats often appear in sewers, toilets, kitchens, sundries piles, garbage piles and the like, move back and forth between bacteria-carrying places and clean places, and transmit pathogenic bacteria through rat feet, body hair and stomach carried objects, and the plagues are transmission media for occurrence and prevalence of a plurality of diseases and can transmit more than 30 diseases such as plague, epidemic hemorrhagic fever, leptospirosis and the like.

Plague is a virulent infectious disease which is originally caused by murines and can cause interpersonal epidemics, has strong infectivity and high historical mortality, and is written in the rat death department of the south-passage of the Qing Dynasty civilians: the east dead mouse and the west dead mouse are shown, and the human dead mouse is shown as tiger. The mice die for a few days and the humans die as boundary clogs. It is estimated that the number of deaths from murine diseases has historically been far greater than that of war victims.

Furthermore, a mouse is a greedy animal, and each mouse eats food corresponding to its weight of 1/5-1/10 every day. It is estimated that about 5% of the food produced annually is deprived by rats and 5000 million tons of food are lost annually worldwide, losing billions of dollars. In addition, the mouse can also eat seeds of the forest, gnaw seedlings and barks, and serious harm is brought to the forest. Mice can destroy grasslands, compete for pasture with livestock and affect the animal husbandry.

The damage of the mouse to the industry and the construction industry is serious, and accidents caused by short circuit caused by the fact that the mouse bites the electric wire are rare and serious.

Thus, deratization is very important. There are many methods of deratization, which can be generally classified into environmental deratization, physical deratization, chemical deratization, biological deratization, and ecological deratization. Most of the existing physical mouse killing methods adopt a cage method or a box method, for example, a mouse trapping cage disclosed in CN106719570A and a mouse trap disclosed in CN107969413A all adopt a closed space to trap and kill the mouse. These methods are not good in mouse trapping effect because mice are very alert, very flexible and crafty, and cannot enter the inside of the mousetrap actively.

Disclosure of Invention

In view of this, in order to solve one of the technical problems in the related art to a certain extent, it is necessary to provide an open type unhindered mouse trapping net to improve the success rate of trapping mice.

The invention provides an open type accessible mouse trapping net which comprises a long strip-shaped body, wherein a first electrode plate arranged along the length direction of the body is arranged on the surface of the body, a plurality of long strip-shaped second electrode plates are respectively arranged on the left side and the right side of the body, the second electrode plates on each side are arranged at intervals, two ends of the first electrode plate are respectively connected with a power supply anode and a power supply cathode, two ends of the second electrode plate are respectively connected with the power supply anode and the power supply cathode through electric wires, an induction element used for inducing whether a mouse passes through the body is arranged on the body, and when the induction element induces the mouse to pass through the body, the power supply is controlled to be switched on so that the first electrode plate and the second electrode plates generate voltage.

Further, when the induction element induces a mouse to pass through the body, the power supply is controlled to be switched on, and after a preset time, the power supply is controlled to be switched off and connected with the first electrode plate and the second electrode plate.

Further, the preset time is 20-30 s.

Furthermore, the induction element is an electromagnetic or infrared induction element, and the induction element comprises an emitting end arranged at one end of the body and a receiving end arranged at the other end of the body.

Further, the length of the second electrode plate is not less than the length of the distance between the transmitting end and the receiving end.

Further, the sensing element is a gravity sensor, or the body is also provided with a gravity sensor;

the body further comprises a transformation element, when the weight of a mouse detected by the gravity sensor is smaller than a preset value, the first electrode plate and the second electrode plate output first voltage through the transformation element, and when the weight of the mouse detected by the gravity sensor is not smaller than the preset value, the first electrode plate and the second electrode plate output second voltage through the transformation element, and the second voltage is larger than the first voltage.

Furthermore, one end of the second electrode plate, which is positioned on the same side of the body, is connected with the positive electrode or the negative electrode of the power supply through the same wire.

Further, the closer to the body, the denser the second electrode sheet is, and the farther away from the body, the sparser the second electrode sheet is.

Further, a gap between two adjacent second electrode plates is not more than 10 cm.

Furthermore, a placing groove for placing baits is arranged in the middle of the body.

According to the scheme, the mouse trapping net can be paved on the ground, no baffle obstacle exists, the alertness of a mouse can be reduced, the bait can be placed on the body, the voltage cannot be generated by the second electrode plate when the mouse just enters the second electrode plate region from one side due to bait attraction, the voltage is generated by the first electrode plate and the second electrode plate when the mouse is required to walk to the body and is sensed by the sensing element, the mouse can be in a hurry and wants to escape from the mouse trapping net due to the fact that the mouse is firstly subjected to electric shock of the first electrode plate, the mouse needs to leave from the region of the second electrode plate, and then the mouse can be stunned or killed through multiple electric shocks of the second electrode plate, so that effective mouse trapping is achieved.

Drawings

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

The following detailed description will further illustrate the invention in conjunction with the above-described figures.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention. It is to be understood that the drawings are provided solely for the purposes of reference and illustration and are not intended as a definition of the limits of the invention. The connection relationships shown in the drawings are for clarity of description only and do not limit the manner of connection.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It should also be noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; either mechanically or electrically, and may be internal to both elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

It should be noted that in the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be configured in a specific orientation, and operate, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, unlike the conventional mouse trap, the open type unhindered mouse trapping net 100 according to the present invention is a mouse trapping device without a specific trap chamber, which can be laid on a plane (e.g., the ground) without any obstacle.

Specifically, the mouse trapping net 100 includes a long-strip-shaped body 10, and a power supply or a power supply interface for connecting an external power supply may be disposed on the body 10.

The surface of the body 10 is provided with first electrode plates 20 arranged along the length direction of the body 10, and the number of the first electrode plates 20 may be one or more. The body 10 has a first end a and a second end B, and a left side C and a right side D at the first end a and the second end B.

A plurality of second electrode plates 30 are provided on the left and right sides C and D of the body 10. The second electrode sheets 30 on each side are arranged at intervals.

The left side and the right side of the body 10 are respectively provided with a second electrode plate area S, the second electrode plate areas S form electric shock areas, and the body 10 is located between the two electric shock areas.

The first electrode sheet 20 and the second electrode sheet 30 may be in a straight shape or in an arc shape, in this embodiment, the first electrode sheet 20 and the second electrode sheet 30 are preferably in a straight shape, and the body 10 is also preferably in a straight shape, so that the second electrode sheet 30 can be wound and placed conveniently.

The second electrode sheets 30 may be equally spaced or not equally spaced.

Specifically, the closer to the body 10, the denser the second electrode sheet 30 is, and the farther from the body 10, the sparser the second electrode sheet 30 is. The second electrode sheet 30 becomes thinner as it goes outward, so that it is possible to prevent the concentration of the second shock sheet from increasing the alertness of the mouse. The more inward the second electrode sheet 30 is, the denser the second electrode sheet 30 is, when a mouse is shocked by the first electrode sheet 20 and leaves the main body 10, the mouse is shocked more densely by the second electrode sheet 30, so that the mouse trapping effect is improved.

The gap between two adjacent second electrode plates 30 is preferably not more than 10cm, the 10cm is the length of a normal mouse, when a mouse is half stunned by electric shock and is not killed, the mouse can be spastically laid on at least one second electrode plate 30, and then the mouse can be continuously shocked by the second electrode plates 30 within a period of time until the mouse is completely stunned or killed, and the catching effect is improved.

The first electrode sheet 20 and the second electrode sheet 30 may be thin sheets, and when the second electrode sheet 30 is laid flat, the second electrode sheet 30 is laid flat on the surface of the support to reduce the alertness of the mouse.

Two ends of the first electrode plate 20 are respectively connected with a positive power supply electrode and a negative power supply electrode. Two ends of the second electrode plate 30 are respectively connected with a positive power supply electrode and a negative power supply electrode through wires 40.

The same end of each second electrode sheet 30 can be connected to the positive electrode or the negative electrode of the power supply through the same wire 40, so that the voltages of the second electrode sheets 30 at the same moment are substantially equal, and the second electrode sheets 30 can be wound into a bundle. Of course, each of the second electrode plates 30 may be connected to the positive electrode or the negative electrode of the power source through a wire 40.

The body 10 is provided with an induction element 50 for inducing whether a mouse passes through the body 10, and the induction element 50 may be various types of sensors, such as an infrared temperature sensor, an electromagnetic or infrared transmitting and receiving type induction element, a gravity sensor, and the like, without limitation.

When a mouse is sensed to pass through the body 10 by the sensing element 50, the power is controlled to be switched on, so that the first electrode plate 20 and the second electrode plate 30 generate a voltage with a strength enough to stun or die the mouse.

When the mouse catching net 100 is used, the mouse catching net 100 can be flatly laid on the ground, and the alertness of mice can be reduced due to the fact that the mouse catching net is free of baffle obstacles. The body 10 is located between the two electric shock regions, so that a bait can be placed on the body 10, when a mouse is induced by the bait and just enters the second electrode sheet region S from one side C or D (as shown in fig. 1, the entrance path Q1), the second electrode sheet 30 does not generate voltage, and the mouse can be prevented from reversely escaping.

When a mouse needs to walk to the body 10 and is sensed by the sensing element 50, the first electrode plate 20 and the second electrode plate 30 generate a voltage, the mouse is first shocked by the first electrode plate 20 and will be confused and want to escape from the mouse trapping net 100, and at this time, the mouse is located in the middle of the second electrode plate regions S at two sides and needs to leave from the second electrode plate regions S (such as an escape path Q2 or Q3 shown in fig. 1).

A placement groove (not shown) for placing bait may be provided at the middle of the body 10 to trap a mouse to the middle of the body 10, the mouse will get away from the center of the net 100 during escaping, and the time and probability of being shocked during leaving will be greater.

Further, optionally, when a mouse is sensed to pass through the body 10 by the sensing element 50, the power is controlled to be turned on, and after a predetermined period of time has elapsed, the power is controlled to be turned off from the first electrode sheet 20 and the second electrode sheet 30. Repeated experiments of the applicant find that the preset time period is set to be 20-30s most appropriate, the electric shock can be continuously applied to the spastic mice within the 20-30s, the subsequent mouse trapping effect can be influenced if the time period is too long, and the current mouse shock effect can be influenced if the time period is too short.

When a mouse triggers the power on to generate a voltage between the first electrode plate 20 and the second electrode plate 30 and is shocked, the mouse is stunned or killed. After a predetermined period of time (for example, 20s or 25s) has elapsed for capturing another mouse, the power is disconnected from the first electrode pad 20 and the second electrode pad 30, and the first electrode pad 20 and the second electrode pad 30 no longer have a voltage, so that another mouse is required to trigger the power to be turned on again. Therefore, the second electrode plate 30 can be prevented from continuously having voltage, and the mice are prevented from darting or being difficult to enter the middle of the mouse trapping net 100 due to vigilance, so that the subsequent mouse trapping effect is prevented from being influenced.

In this embodiment, the sensing element 50 is an electromagnetic or infrared sensing element 50, and the sensing element 50 includes an emitting end disposed at one end of the body 10 and a receiving end disposed at the other end of the body 10.

Specifically, the top surface at the both ends of body 10 is formed with protruding 11, two protruding 11 is just right, wherein first end A protruding 11 is towards second end B install the one side of protruding 11 the transmitting terminal, second end B protruding 11 is towards first end A the one side of protruding 11 is installed the receiving terminal, the transmitting terminal with space (the space between two protruding 11) between the receiving terminal can supply the mouse to pass, and the scope that the mouse can walk is great to trap the mouse.

The length L of the second electrode sheet 30 is not less than the distance between the transmitting end and the receiving end, so that the length of the second electrode sheet 30 is greater than the width of the mouse, and if the mouse enters the body 10 from the side of the second electrode sheet region S and is sensed by the sensing element 50, the mouse still needs to pass through the second electrode sheet region S and still needs to be shocked by the second electrode sheet 30 if the mouse escapes in the reverse direction.

In another embodiment, the sensing element 50 is a gravity sensor, or a gravity sensor is further disposed on the body 10.

The body 10 may further include a transformer element thereon.

When the gravity sensor detects that the weight of the mouse is less than a predetermined value, the first electrode sheet 20 and the second electrode sheet 30 output a first voltage through a voltage transformation element.

When the gravity sensor detects that the weight of the mouse is not less than a preset value, the first electrode plate 20 and the second electrode plate 30 output a second voltage through a voltage transformation element, wherein the second voltage is greater than the first voltage.

Furthermore, the voltage transformation element can enable the first electrode plate 20 and the second electrode plate 30 to output a voltage proportional to the weight of the rat detected by the gravity sensor, and the rat with larger weight will be shocked by larger voltage, so as to ensure that the rat with larger weight can be stunned or killed effectively.

Throughout the description and claims of this application, the words "comprise/comprises" and the words "have/includes" and variations of these are used to specify the presence of stated features, values, steps or components but do not preclude the presence or addition of one or more other features, values, steps, components or groups thereof.

Some features of the invention, which are, for clarity, described in the context of separate embodiments, may also be provided in combination in a single embodiment. Conversely, certain features of the invention, which are, for brevity, described in the context of a single embodiment, may also be provided separately or in any suitable combination in different embodiments.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.