CN219556076U - Mosquito killing swatter structure - Google Patents

Abstract

The utility model discloses a mosquito-killing swatter structure in the technical field of mosquito-killing devices, which comprises swatters rotatably connected to a grip, wherein the two swatters can swing relatively until the surfaces are propped against each other; and a swinging part for driving the two beats to swing along the rotation pivot point of the grip. Through setting up two beats and the swing portion that is used for driving two beats relative pendulum, when the kill mosquito, expand two beats for the mosquito is located between two beats, and rethread swing portion drives two beats relative pendulum and is close to, and then makes two beats can beat the kill mosquito, and because beat can not produce the extrusion to the mosquito net, can not receive the influence of mosquito net and lead to mosquito kill effect not good; through setting up electro-magnet, sliding block and spring, produce magnetism by the electro-magnet circular telegram to produce magnetic attraction to the sliding block, make the sliding block remove towards the direction of beating, and then can make the hinge rod drive the beat swing, thereby make two beats can beat the kill mosquito worm, simple structure, and simple operation.

Description

Mosquito killing swatter structure

Technical Field

The utility model relates to the technical field of mosquito eradication devices, in particular to a mosquito eradication swatter structure.

Background

When the mosquito swatter in the prior art is used for killing mosquitoes, people hold a handle of the mosquito swatter and swing the mosquito swatter rapidly, so that the front face of the mosquito swatter faces the mosquito net and the mosquitoes on the mosquito net are squeezed and killed, but the mosquito net can be opened when the mosquito net is usually softer, the mosquito net can possibly not generate larger extrusion force when the mosquito swatter is arranged on the surface of the mosquito net, the mosquitoes can not be killed, and therefore the mosquito swatter capable of killing the mosquitoes needs to be improved.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides a mosquito swatter structure, and in order to solve the technical problems, the utility model provides the following technical scheme:

the utility model provides: a mosquito swatter structure comprising:

two beats connected to one handle are rotated, and the two beats can swing relatively until the surfaces are propped against each other;

and the swinging part is used for driving the two beats to swing along the rotation pivot point of the handle.

Preferably, the swatter is made of a plastics material.

Preferably, the opposite faces of both said beats are detachably mounted with exchangeable plates.

Preferably, two opposite ends of the replaceable plate in the transverse direction are respectively provided with a convex rib, one end of the racket, which is far away from the handle, is provided with a slot for the replaceable plate to be inserted from top to bottom, and the inner walls of the two sides of the slot are provided with locking grooves for the convex ribs to be inserted.

Preferably, the swing portion includes:

the lower end of the bent arm is rotationally connected to a flange arranged at the upper end of the handle, and the bent arm is also connected with a swinging arm;

the sliding block is clamped in the inner hole of the handle and forms sliding fit with the inner hole of the handle;

the two connecting arms are arranged on the outer edge of the sliding block, waist-shaped holes for the connecting arms to freely pass through are formed in the outer wall of the handle, a hinge rod is hinged to one end of the connecting arm penetrating out of the handle, and one end of the hinge rod, far away from the connecting arm, is correspondingly hinged to the two swinging arms;

and the driving assembly is used for driving the sliding block to slide in the inner hole of the handle.

Preferably, the driving assembly includes:

the electromagnet is arranged in the inner hole of the handle and positioned between the flange and the sliding block, and the electromagnet is matched with the sliding block for use;

and springs which are arranged in the inner holes of the handles and respectively elastically abut against the sliding blocks and the electromagnets at two ends in the elastic direction.

Compared with the prior art, the utility model has the beneficial effects that:

through setting up two beats and the swing portion that is used for driving two beats relative pendulum, when the kill mosquito, expand two beats for the mosquito is located between two beats, and rethread swing portion drives two beats relative pendulum and is close to, and then makes two beats can beat the kill mosquito, and because beat can not produce the extrusion to the mosquito net, so can not receive the influence of mosquito net and lead to the mosquito killing effect not good;

through setting up electro-magnet, sliding block and spring, produce magnetism by the electro-magnet circular telegram to produce magnetic attraction to the sliding block, make the sliding block remove towards the direction of beating, and then can make the hinge rod drive the beat swing, thereby make two beats can beat the mosquito killing, simple structure, and simple operation;

through setting up the interchangeable board, the interchangeable board surface of two beats offsets, and then can squeeze to beat the mosquito and kill, and take off through interchangeable board from beating and wash and disinfect, avoided the mosquito to be beaten the produced blood pollution when killing.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of a mosquito swatter structure according to the present utility model;

FIG. 2 is a schematic cross-sectional view of the structure of FIG. 1;

FIG. 3 is an enlarged schematic view of a partial structure at A in FIG. 2;

FIG. 4 is an exploded schematic view of the structure of FIG. 1;

FIG. 5 is a schematic view of the structure of a swatter according to the utility model;

fig. 6 is a schematic structural view of the replaceable plate in the present utility model.

In the figure: the handle comprises a handle body, a waist-shaped hole, a connecting arm 3, a hinge rod 4, a flange 5, a swinging arm 6, a bent arm 7, a racket 8, a replaceable plate 9, an electromagnet 10, a spring 11, a sliding block 12, a protruding edge 13 and a slot 14.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Examples

As shown in fig. 1-6, the present embodiment provides a technical solution: a mosquito swatter structure comprises a handle 1, wherein the handle 1 can be held by a user:

the two beats 8 connected to one handle 1 are rotated, the two beats 8 can swing relatively until the surfaces of the two beats are propped against each other, and the effect of killing mosquitoes can be achieved after the surfaces of the two beats are propped against each other;

and a swinging part for driving the two beats 8 to swing along the rotation pivot point of the grip 1.

In the mosquito swatter structure of the utility model, a user holds the grip 1 by hand, the sides of the two swatters 8 are prevented from contacting or not contacting with the mosquito net, and the mosquito is located between the two unfolded swatters, when the mosquito swatters are used for killing the mosquito, the swinging part is started, and the swinging part drives the two swatters 8 to swing relatively along the rotation pivot point of the grip 1, so that the two swatters 8 are relatively close to each other, and the mosquito located between the two swatters 8 is killed.

As shown in fig. 1 to 6, the swatter 8 is made of plastic material, so that the overall weight of the swatter 8 is light, and no loud noise is generated in the process of killing mosquitoes by the other two swatters 8.

As shown in fig. 1 to 6, the opposite surfaces of the two beats 8 are detachably provided with the replaceable plate 9, when the two beats 8 kill mosquitoes, blood of the mosquitoes can adhere to the opposite surfaces of the beats 8, in addition, the blood adhering to the surfaces of the beats 8 is inconvenient to clean and easy to cause blood pollution because of the fact that the components on the beats 8 are more and difficult to clean, after the replaceable plate 9 is arranged, the replaceable plate 9 replaces the beats to kill the mosquitoes, after the beats are killed, the replaceable plate 9 is taken off from the beats 8, and then the replaceable plate 9 is cleaned, so that the components such as the beats do not need to be cleaned, and the operation is more convenient and quick.

As shown in fig. 1-6, two opposite ends of the replaceable plate 9 in the transverse direction are respectively provided with a convex rib 13, one end of the racket 8 far away from the grip 1 is provided with a slot 14 for inserting the replaceable plate 9 from top to bottom, the inner walls of two sides of the slot 14 are provided with locking grooves for inserting the convex ribs 13, and the replaceable plate 9 is inserted into the slot 14 from top to bottom and the convex ribs 13 are simultaneously inserted into the locking grooves, so that the replaceable plate 9 can be firmly installed in the slot 14, and in addition, the convex ribs 13 can be arranged in a tight fit mode with the inner walls of the locking grooves.

As shown in fig. 1 to 6, the swinging portion includes:

the lower end of the bent arm 7 is connected to a flange 5 arranged at the upper end of the handle 1 through an installation pivot in a rotating way, and the bent arm 7 is also connected with a swinging arm 6;

a sliding block 12 engaged in the inner hole of the grip 1 and forming a sliding fit with the inner hole of the grip 1, wherein the sliding block 12 can move along the axial direction of the grip 1;

the two connecting arms 3 are arranged on the outer edge of the sliding block 12, the waist-shaped holes 2 through which the connecting arms 3 freely pass are arranged on the outer wall of the handle 1, the hinge rod 4 is hinged at one end of the connecting arms 3 penetrating out of the handle 1, and the end of the hinge rod 4, which is far away from the connecting arms 3, is correspondingly hinged on the two swinging arms 6;

a driving component for driving the sliding block 12 to slide in the inner hole of the grip 1.

In the mosquito swatter structure, the driving assembly drives the sliding block 12 to move upwards, so that the sliding block 12 can drive the two hinge rods 4 to swing, and when the hinge rods 4 swing, the two swing arms 6 can be driven to swing, and further the two bent arms 7 can be driven to swing relatively, so that the two swatters 8 are relatively close, and further the swatters can kill mosquitoes.

As shown in fig. 1 to 6, the driving assembly includes:

the electromagnet 10 is arranged in the inner hole of the handle 1 and is positioned between the flange 5 and the sliding block 12, the electromagnet 10 is powered by a storage battery arranged in the inner hole of the handle 1, a button switch can be arranged on the handle 1 to control the power supply of the electromagnet 10 to be electrified, namely, the electromagnet 10 and the sliding block 12 are matched for use, namely, magnetism is generated after the electromagnet 10 is electrified, and magnetic attraction force is generated on the sliding block 12 (the sliding block 12 is made of any material of iron, cobalt and nickel), so that the connecting arm 3 can be driven to slide in the waist-shaped hole 2, and the hinge rod can be driven to swing;

the spring 11 is arranged in the inner hole of the handle 1, and the two ends of the elastic direction respectively elastically abut against the sliding block 12 and the electromagnet 10, and when the sliding block 12 moves towards the electromagnet, the spring 11 is compressed, so that the spring 11 is in a compressed state.

In the mosquito swatter structure, after the electromagnet 10 is electrified, magnetism is generated, and magnetic attraction is generated on the sliding block 12, so that the connecting arm 3 can be driven to slide in the waist-shaped hole 2, the hinge rod can be driven to swing, meanwhile, the sliding block compresses the spring 11, the spring 11 is in a compressed state, after the swatter is extinguished, the electromagnet is disconnected, the elastic potential energy of the spring 11 is released, so that the sliding block 12 can be driven to slide downwards, the hinge rod drives the two bent arms to be relatively far away, and the two swatters are mutually unfolded.

Finally, it should be noted that: the above is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that the present utility model is described in detail with reference to the foregoing embodiments, and modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. A mosquito swatter structure, comprising:

two beats (8) connected to one grip (1) are rotated, and the two beats (8) can swing relatively until the surfaces are propped against each other;

and a swinging part for driving the two beats (8) to swing along the rotation pivot point of the grip (1).

2. A mosquito swatter structure according to claim 1, characterized in that the swatter (8) is made of a plastic material.

3. A mosquito swatter structure according to claim 2, characterized in that the two swatters (8) are detachably mounted with exchangeable plates (9) on opposite sides.

4. A mosquito swatter structure as claimed in claim 3, wherein two opposite ends of the replaceable plate (9) in the transverse direction are respectively provided with a convex rib (13), one end of the swatter (8) far away from the handle (1) is provided with a slot (14) for inserting the replaceable plate (9) from top to bottom, and the inner walls of two sides of the slot (14) are provided with locking grooves for inserting the convex ribs (13).

5. The mosquito swatter structure of claim 4, wherein the swinging portion comprises:

a bent arm (7) connected to the racket (8), wherein the lower end of the bent arm (7) is rotatably connected to a flange (5) arranged at the upper end of the grip (1), and a swinging arm (6) is also connected to the bent arm (7);

a sliding block (12) clamped in the inner hole of the grip (1) and in sliding fit with the inner hole of the grip (1);

the two connecting arms (3) are arranged on the outer edge of the sliding block (12), a waist-shaped hole (2) for the connecting arms (3) to freely pass through is formed in the outer wall of the handle (1), a hinge rod (4) is hinged to one end, penetrating out of the handle (1), of the connecting arms (3), and one end, far away from the connecting arms (3), of the hinge rod (4) is correspondingly hinged to the two swinging arms (6);

and the driving assembly is used for driving the sliding block (12) to slide in the inner hole of the handle (1).

6. A mosquito swatter structure according to claim 5, wherein said drive assembly comprises:

an electromagnet (10) arranged in the inner hole of the grip (1) and positioned between the flange (5) and the sliding block (12), wherein the electromagnet (10) is matched with the sliding block (12);

and springs (11) which are arranged in the inner holes of the handles (1) and are respectively elastically propped against the sliding blocks (12) and the electromagnets (10) at two ends in the elastic direction.