CN215602786U - Sticky catching type mosquito killing device - Google Patents

Abstract

The utility model provides a sticky trap type mosquito killing device which comprises a sticky mosquito board, a shell, a circuit board, a controllable light source and an electric plug, wherein the circuit board, the controllable light source and the electric plug are installed in the shell, the sticky mosquito board is independent of the shell and is removably and temporarily fixed on a mosquito killing head, meanwhile, an induction element used for inducing the existence of the sticky mosquito board 2 is further installed on the shell, whether the light source for attracting mosquitoes is lightened or not is determined by inducing the existence of the sticky mosquito board through the induction element, and therefore the automatic control of the controllable light source to follow the action of the sticky mosquito board is achieved. The sticking and catching type mosquito killing device can automatically light and extinguish the light source for attracting mosquitoes along with the insertion and pulling processes of the sticking mosquito plate, does not need manual operation of a user, is convenient to operate, and reduces the waste of electric energy.

Description

Sticky catching type mosquito killing device

Technical Field

The utility model relates to the technical field of domestic appliances, in particular to a sticky catching type mosquito killing device.

Background

The sticking type mosquito killing device is mosquito killing equipment without adopting any chemical mosquito killing substances, and is an environment-friendly and pollution-free efficient killing tool by arranging a light source and a sticking mosquito plate, attracting mosquitoes by utilizing phototaxis habits of the mosquitoes and sticking the mosquitoes by using the sticking mosquito plate. Wherein, the sticky mosquito board loses the viscidity gradually by the solidification of environmental impact and glue material itself after using a period, needs regular replacement. The mode that is comparatively commonly used at present is that the outside of device, the position punishment that corresponds two sides of gluing the mosquito board set up a spout respectively, will glue during the installation the mosquito board slip insert the spout can.

In the existing sticking and catching type mosquito killing device, the control of a light source needs to manually press a key to control the on and off states, so that the device is inconvenient to use practically; in addition, the sliding groove for mounting the mosquito sticking plate protrudes out of the shell of the device, so that the mosquito sticking plate is inconvenient to store and transport and is easy to damage in use.

Based on this, the present application is proposed.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a sticky catching type mosquito killing device, which can separate a sticky mosquito plate from a body, thereby improving the integrity of the sticky catching type mosquito killing device and being more convenient to carry and store.

In order to realize the purpose, the sticky catching type mosquito killing device has the following structure: comprises a shell, a circuit board arranged in the shell, a controllable light source, an electric plug and a mosquito sticking board;

the mosquito sticking plate is independent from the shell and can be temporarily fixed on the shell in a removable way; the shell is also provided with an induction element for inducing the existence of the mosquito-sticking plate;

the input end of the circuit board is electrically connected with the sensing element, the output end of the circuit board is electrically connected with the controllable light source through the conducting circuit, and the controllable light source is lightened when the sensing element senses the mosquito sticking plate.

Through the technical scheme, this device can put into and put out the light source automatically after taking out glutinous mosquito board, put into glutinous mosquito board and put into and light the light source automatically, realized glutinous automatic control who catches formula mosquito eradication device's light source, the operation steps in the use that has significantly reduced has not only made things convenient for the operation, also can prevent that the user from forgetting after putting into glutinous mosquito board and lighting the light source, forget the situation emergence of extinguishing the light source after taking out glutinous mosquito board, both ensured glutinous mosquito board and can effectively used, the energy consumption has also been reduced, use cost is saved.

For convenient use, the utility model is further provided with the following components: be equipped with on the casing and supply glutinous mosquito board male slot, so glutinous mosquito board accessible is inserted, is pulled out the mode temporarily, is fixed in on the essential element of mosquito eradication device comparatively steadily, in the use, glutinous mosquito board can not drop or be knocked over from the essential element of mosquito eradication device easily, facilitates the use.

The utility model further provides the following: the slot is arranged in the shell, and the outward protruding design of the sliding groove is eliminated or reduced, so that inconvenience in transportation, storage and use caused by the outward protruding design of the sliding groove is effectively avoided.

The utility model further provides the following: the shell is provided with a light outlet for transmitting light rays emitted by the controllable light source, and the slot is arranged adjacent to the light outlet; or a lamp trough used for installing a controllable light source is arranged on the shell, and the lamp trough is arranged adjacent to the light outlet.

Through above-mentioned technical scheme, can make glutinous mosquito board press close to with the light source, in order to ensure to catch the mosquito effect, can also make mosquito eradication device's structure obtain optimizing, help reducing mosquito eradication device's volume, so that carry.

In order to further optimize the structural design, the utility model is further provided with the following components: the slot is arranged in parallel with the light outlet or the light groove; and/or the slot and the light outlet or the light trough are arranged at the top of the shell.

The utility model further provides the following: the sensing element is at least one of an infrared sensor, a limit switch, a proximity switch, a microswitch and a tact switch.

In order to ensure the detection effect, the utility model further comprises the following steps: when the sensing element adopts a limit switch, a proximity switch, a microswitch and a tact switch, the sensing element is arranged in the middle of the slot and the middle of the mosquito sticking plate correspondingly and provided with an opening, and the detection end of the sensing element faces to the side wall of the opening.

The utility model further provides the following: the controllable light source comprises a lamp substrate and a plurality of lamp beads arranged on the lamp substrate, and the lamp substrate is connected with the circuit board through a conductive circuit.

The utility model further provides the following: the lamp base plate is obliquely arranged, so that light rays emitted by lamp beads on the lamp base plate can obliquely irradiate on a plane where the mosquito sticking plate/slot is located; or the lamp substrates are arranged in parallel, so that the light emitted by the lamp beads on the lamp substrates is parallel to the plane where the mosquito sticking plate/slot is located. In the above scheme, the former is more favorable to directly leading phototaxis insects such as mosquito to gluing the mosquito board, so it is better to glue the effect of catching, however, because of the material relation, gluing the mosquito board and probably causing certain reflection of light, cause the light pollution to increase.

The utility model further provides the following: in the slot, the front surface and the rear surface in the width direction of the slot are convexly provided with supporting points which are used for keeping the mosquito-sticking plate inserted into the slot parallel to the plane of the slot. On one hand, the long-term use of the device is prevented from being influenced by the residual glue at the position where the mosquito-sticking plate is obliquely stuck near the opening of the slot; on the other hand, the mosquito sticking plate can be further fixed in the slot to prevent the mosquito sticking plate from being separated from the slot when the shell swings (towards the left, towards the right or even downwards).

The utility model further provides the following: the electric plug is a rotary plug, so that the electric plug is suitable for being used at different positions and angles in actual use.

The utility model has the following beneficial effects:

firstly, the sticky trap type mosquito killing device can automatically light and extinguish the light source for attracting mosquitoes along with the insertion and pulling processes of the sticky mosquito plate, does not need manual operation of a user, is convenient to operate, and reduces the waste of electric energy.

Secondly, the sticky catching type mosquito killing device is simple in structure, small in size and convenient to carry and use.

Drawings

FIG. 1 is a general schematic diagram of an embodiment of the present invention.

FIG. 2 is a schematic view of an assembly of an inductive element according to an embodiment of the present invention.

FIG. 3 is a schematic overall side view of an embodiment of the present invention.

Fig. 4 is a schematic sectional view of fig. 3A.

Fig. 5 is a sectional view taken along the direction of fig. 3B.

Reference numerals: 1-shell, 2-glutinous mosquito board, 3-micro-gap switch, 101-light trough, 102-slot, 103-electric plug, 104-lamp base plate, 104 a-lamp pearl, 105-circuit board, 201-opening, 201 a-opening side wall, 301-detection end.

Detailed Description

The utility model provides a sticky catching type mosquito killing device which comprises a mosquito killing head and a sticky mosquito plate 2, wherein the sticky mosquito plate 2 is independent of the mosquito killing head and is removably and temporarily fixed on the mosquito killing head, meanwhile, an induction element used for inducing the existence of the sticky mosquito plate 2 is also arranged on the mosquito killing head, and whether a light source for attracting mosquitoes is lightened or not is determined by inducing the existence of the sticky mosquito plate 2 through the induction element, so that the automatic control that a controllable light source follows the action of the sticky mosquito plate 2 is realized, and the practical use is greatly facilitated.

The present invention is further illustrated by the following specific examples.

Embodiment 1 this embodiment provides a glue formula of catching mosquito eradication device, including casing 1, circuit board 105, controllable light source, electric plug 103, glue mosquito board 2, circuit board 105, controllable light source and electric plug 103 are all installed on casing 1, glue mosquito board 2 and be independent of casing 1, and it can remove to be fixed in temporarily on the casing 1, and simultaneously, still install the micro-gap switch 3 that is used for gluing mosquito board 2 to exist on the casing 1, be connected through the conducting wire electricity between input and the sensing element of circuit board 105, output and the controllable light source, when micro-gap switch 3 is triggered by gluing mosquito board 2 controllable light source is lighted.

In this embodiment, in order to realize that the mosquito sticking plate 2 can be temporarily fixed on the casing 1 removably, the top of the casing 1 is provided with a slot 102 into which the mosquito sticking plate 2 can be inserted, and the width of the slot 102 is slightly larger than the thickness of the mosquito sticking plate. In order to avoid the outward protrusion of the slot 102, in the present embodiment, the slot 102 is preferably an inward concave groove, and the slot 102 is a rectangular groove with a certain depth. Referring to fig. 2, the micro switch 3 is installed in the middle of the slot 102, correspondingly, the middle of the mosquito-sticking board 2 is correspondingly provided with an opening 201, the detecting end 301 of the micro switch is facing to the sidewall of the opening 201, and the plane of the wall surface of the opening sidewall 201a is preferably on the same plane as the plane of the detecting end 301 of the micro switch 3 in the triggering state, so as to ensure that the opening sidewall 201a on the opening 201 at the bottom of the micro switch can effectively press the detecting end 301 of the micro switch 3 and trigger the micro switch 3 when the mosquito-sticking board 2 is inserted into the slot 102.

Meanwhile, the top of the housing 1 is further provided with a light outlet for light to pass through, the slot 102 is adjacent to the light outlet and can be arranged in parallel, and the controllable light source is installed below the light outlet. The controllable light source comprises a lamp substrate 104 and a plurality of lamp beads 104a arranged on the lamp substrate 104, and the lamp substrate 104 is electrically connected with the circuit board 105 through a lead. The lamp substrates 104 are arranged in parallel, so that the light emitted by the lamp beads 104a thereon is parallel to the plane of the slot 102.

In this embodiment, considering that the width of the slot 102 is greater than the thickness of the mosquito-sticking plate 2, in order to prevent the mosquito-sticking plate 2 from tilting after being inserted into the slot 102, the front and rear sides of the slot 102 in the width direction may protrude out of the supporting points of the front and rear walls of the slot 102, and the supporting points may be a protrusion, a convex handle, or a convex block, or a V-shaped elastic supporting structure formed by bending a thin metal rod, which has a certain elasticity, may be used to contact and cooperate with the mosquito-sticking plate 2 to realize the supporting. By providing the supporting points, the mosquito sticking plate 2 inserted into the slot 102 can be kept parallel to the plane of the slot 102, thereby preventing the glue on the mosquito sticking plate 2 from being stuck to the notch of the slot 102 due to the inclination.

In this embodiment, can set up a controller on the circuit board 105, the input of controllable light source is connected with the output electricity of controller, and micro-gap switch 3's output is connected with the input electricity of controller thereby, circuit board 105 can be according to micro-gap switch 3's detection signal, and the controllable light source of control is lighted, is taken out and is extinguished when gluing mosquito board 2 and inserting.

Or the microswitch 3, the controllable light source and the 5V power supply are connected in series in a loop together, when the microswitch 3 is pressed to be closed by the mosquito sticking plate 2, the loop is conducted, the controllable light source is lightened, and when the mosquito sticking plate 2 is taken out, the microswitch 3 loses pressure to disconnect the loop and extinguish the controllable light source.

Embodiment 2 is different from embodiment 1 in that in this embodiment, the sensing element is an infrared sensor, the infrared sensor is installed on the front and rear sides of the slot 102, and the detection end is disposed opposite to the front and rear surfaces of the mosquito sticking board 2.

Besides, the sensing element can also adopt a limit switch, a proximity switch, a tact switch, an optical sensor and the like, and the specific installation position of the sensing element is adaptively adjusted according to the detection mode of the specific sensing element.

Embodiment 3 differs from embodiment 1 in that in this embodiment, the top of the housing 1 is provided with an outward protruding slot 102 protruding from the top of the housing 1, and the outward protruding slot 102 is two independent and opposite strips and has a groove formed on an opposite side along the length direction thereof. The width of the mosquito sticking plate 2 is adapted to the distance between the two strips, and the mosquito sticking plate 2 is only required to be inserted into the grooves of the two strips during use. Correspondingly, the microswitch 3 may be arranged in a recess of the bar or on the top of the housing 1.

Alternatively, the protruding slot 102 is a block with a certain width, which is disposed at the middle of the top of the housing 1 and has an upward U-shaped groove for the mosquito-sticking board 2 to insert into.

Example 4 this example differs from example 1 in that: in this embodiment, the top of the casing 1 is provided with a platform for placing the mosquito-sticking board 2, the controllable light source is arranged right above the top of the platform and adjacent to the platform, and the controllable light source and the casing 1 are fixedly connected through a bending or bending structure. When in use, the mosquito sticking plate is only required to be placed on the platform.

In this embodiment, if the micro switch 3 is used as the sensing element, the micro switch 3 with high sensitivity needs to be selected, and the detection end (i.e., the trigger button) of the micro switch 3 is exposed to the top of the housing 1 during installation. If an infrared sensor or an optical sensor is adopted, the detection end of the infrared sensor or the optical sensor is exposed out of the top of the shell 1.

Example 5 this example differs from example 1 in that: in this embodiment, the casing 1 is provided with a light trough 101 for installing the controllable light source, the light trough 101 is a groove recessed in the top surface of the casing 1, and the bottom of the groove is provided with a threading hole. The light trough 101 is adjacent to the light outlet, the controllable light source comprises a lamp substrate 104 and a plurality of lamp beads 104a arranged on the lamp substrate 104, during assembly, only the connecting lead of the lamp substrate 104 needs to be stretched into the shell 1 through the threading hole, the lamp substrate 104 is directly clamped and fixed in the light trough 101, then the surface of the light trough 101 is provided with a dustproof and sealed transparent cover, and the connecting lead of the lamp substrate 104 is preferably connected with the control circuit on the circuit board 105 in the shell 1.

Example 6 this example differs from example 1 in that: in this embodiment, the lamp substrate 104 is obliquely arranged, so that the light emitted by the lamp beads 104a thereon can be obliquely irradiated on the plane of the mosquito sticking plate 2/the slot 102, thereby improving the effect of sticking and catching mosquito.

In the above embodiment, the electric plug 103 may be a rotary plug, as appropriate for practical use.

Claims (10)

1. The utility model provides a glue formula of catching mosquito eradication device which characterized in that: comprises a shell, a circuit board arranged in the shell, a controllable light source, an electric plug and a mosquito sticking board;

the mosquito sticking plate is independent from the shell and can be temporarily fixed on the shell in a removable way; the shell is also provided with an induction element for inducing the existence of the mosquito-sticking plate;

the input end of the circuit board is electrically connected with the sensing element, the output end of the circuit board is electrically connected with the controllable light source through the conducting circuit, and the controllable light source is lightened when the sensing element senses the mosquito sticking plate.

2. The mosquito eradication device according to claim 1, wherein: the shell is provided with a slot for inserting the mosquito sticking plate; the width of the slot is larger than the thickness of the mosquito sticking plate.

3. The mosquito eradication device according to claim 2, wherein: the slot is arranged in the shell.

4. The mosquito eradication device according to claim 2, wherein: the shell is provided with a light outlet for transmitting light rays emitted by the controllable light source, and the slot is arranged adjacent to the light outlet; or a lamp trough used for installing a controllable light source is arranged on the shell, and the lamp trough is arranged adjacent to the light outlet.

5. The mosquito eradication device according to claim 2, wherein: the slot is arranged in parallel with the light outlet or the light groove; and/or the slot and the light outlet or the light trough are arranged at the top of the shell.

6. The mosquito eradication device according to claim 1, wherein: the sensing element is at least one of an infrared sensor, a limit switch, a proximity switch, a microswitch and a tact switch.

7. A mosquito killer according to any of claims 2 to 5, wherein: when the sensing element adopts a limit switch, a proximity switch, a microswitch and a tact switch, the sensing element is arranged in the middle of the slot and the middle of the mosquito sticking plate correspondingly and provided with an opening, and the detection end of the sensing element faces to the side wall of the opening.

8. The mosquito eradication device according to any one of claims 1 through 6, wherein: the controllable light source comprises a lamp substrate and a plurality of lamp beads arranged on the lamp substrate, and the lamp substrate is connected with the circuit board through a conductive circuit.

9. The mosquito eradication device according to claim 8, wherein: the lamp base plate is obliquely arranged, so that light rays emitted by lamp beads on the lamp base plate can obliquely irradiate on a plane where the mosquito sticking plate/slot is located;

or the lamp substrates are arranged in parallel, so that the light emitted by the lamp beads on the lamp substrates is parallel to the plane where the mosquito sticking plate/slot is located.

10. A mosquito killer according to any of claims 2 to 5, wherein: in the slot, the front and/or rear surface in the width direction of the slot is convexly provided with a supporting point, and the supporting point is used for keeping the mosquito-sticking plate inserted into the slot parallel to the plane of the slot;

and/or, the electrical plug is a rotating plug.

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