CN218482144U - Mosquito killing device's switch module improves structure and including mosquito killing bat of this switch module - Google Patents

Abstract

The utility model discloses a mosquito eradication device's switch module improves structure and claps including the kill mosquito of this switch module, a mosquito eradication device's switch module improves structure, including casing, toggle switch and micro-gap switch, be provided with in the casing and settle the chamber, the intracavity is all arranged in to toggle switch and micro-gap switch, is provided with toggle key on the toggle switch, is provided with on the micro-gap switch and touches key, characterized by: the sliding key is clamped on the clamping opening, the lower part of the sliding key is provided with a pushing part and a clamping opening, the pushing part is close to the touch key, and the toggle key extends into the clamping opening at the lower part of the sliding key; this kind of mosquito killing device's switch module improves structure, and the card is put the sliding key on the mouth and is put through impeller and clamp mouth and the micro-gap switch and the toggle switch cooperation that correspond, and the user only needs to remove the sliding key and can make micro-gap switch and toggle switch keep being touched the state, convenient operation, simple and easy.

Description

Mosquito killing device's switch module improves structure and including mosquito killing bat of this switch module

Technical Field

The utility model relates to a mosquito eradication device technical field specifically is a mosquito eradication bat of mosquito eradication device's switch module improved structure including this switch module.

Background

Chinese invention patent numbers: 2011100242825, name: the utility model provides a take wire side power-off protection device's electric kill mosquito bat, the authorized announcement day: in 2016, 04 and 06 months, the mosquito killer structurally comprises a mosquito killing net, a handle, a booster circuit and a power supply, wherein the power supply provides enough voltage for the mosquito killing net through the booster circuit, and a control switch is connected between the power supply and the booster circuit in series; according to the electric mosquito swatter, people can cut off the net surface power-off protection device manually, so that the mosquito killing net is completely disconnected with an external circuit (a voltage boosting circuit) instantly, the mosquito killing net is ensured to have no residual electricity after being disconnected, the use safety of the electric mosquito swatter is obviously improved, and the power consumption of a product is not lost; moreover, because the cutting-off operation is carried out manually by people, people can feel the safety of the mosquito killing net more intuitively, the worry about the safety of the electric mosquito killing swatter is eliminated, the popularization of products is further facilitated, and the service life of the products can be prolonged.

However, the electric mosquito swatter with the structure still has the following defects: (1) In the electric mosquito swatter, a user needs to press the key by hand all the time to ensure that the control switch and the net surface power-off protection device (namely, two independent switches) are simultaneously triggered, so that the mosquito killing net is always in a working state (electrified high voltage), but the user needs to press the key by hand all the time, which causes great inconvenience for the user to operate; (2) The button comprises the button body and the linkage piece which are integrally formed, so that the structure of the button is complex, and meanwhile, in order to ensure that the button is stably matched with the control switch, the linkage piece and the network power-off protection device, the button is also complex to assemble on the handle.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve the not enough of above-mentioned prior art existence, and provide a user's kill mosquito convenient operation, simple and easy and simple structure's mosquito eradication device's switch module and improve the structure.

Another object of the utility model is to provide a kill mosquito including above-mentioned kill mosquito device's switch module improves kill mosquito of structure claps.

The purpose of the utility model is realized like this:

the utility model provides a mosquito eradication device's switch module improves structure, includes casing, toggle switch and micro-gap switch, be provided with in the casing and settle the chamber, toggle switch and micro-gap switch all arrange in and settle the intracavity, the last toggle key that is provided with of toggle switch, the last touch key, characterized by that of being provided with of micro-gap switch: the sliding key is clamped on the clamping port, a pushing piece and a clamping port are arranged at the lower part of the sliding key, the pushing piece is close to the touch key, and the toggle key extends into the clamping port at the lower part of the sliding key; this kind of mosquito killing device's switch module improves the structure, and the card is put the sliding key on the mouth is put to the card and is put the micro-gap switch and the toggle switch cooperation that mouthful and correspond through the impeller, promptly: the pushing piece pushes the touch key on the microswitch to act and enable the touch key to be in an action state all the time, and the clamping opening drives the toggle key on the toggle switch to move, so that a user only needs to move the sliding key to enable the microswitch and the toggle switch to be kept in a touched state, and the operation is convenient and simple; moreover, the pushing part and the clamping opening on the sliding key are simple in structure, the sliding key is clamped on the shell and is easy to install, meanwhile, the pushing part is firmly and stably matched with the microswitch and the clamping opening and the toggle switch, and the sliding key can be guaranteed to stably push the microswitch and the toggle switch to act.

The purpose of the utility model can also adopt the following technical measures to solve:

specifically, a push plate extends downwards from the lower part of the sliding key, the push plate forms the push member, one end of the push plate is provided with a push inclined plane, and the upper part of the touch key is close to the push inclined plane; by pushing the inclined plane, the pushing piece which moves horizontally can push the touch key to move downwards.

Specifically, the upper part of the touch key is an arc surface, and the arc surface on the upper part of the touch key is abutted to the pushing inclined surface; the arc surface on the upper part of the touch key is more beneficial to pushing the inclined surface to push the touch key to move downwards.

Particularly, an inserting column is arranged in the arranging cavity, an inserting hole is formed in the microswitch, and the inserting column extends into the inserting hole; the matching of the inserting column and the inserting hole provides a positioning effect for the installation of the microswitch in the arranging cavity, and the installation of the microswitch is facilitated.

Specifically, the lower part of the sliding key extends downwards to form two clamping plates, a gap is reserved between the two clamping plates, the toggle key extends into the gap between the two clamping plates, and the gap forms the clamping opening; the clamping opening is composed of two clamping plates, the structure is simple, and the implementation is easy.

Specifically, the sliding key is respectively extended with a first clamping arm and a second clamping arm, and the first clamping arm and the second clamping arm are both arranged in the accommodating cavity and abut against the shell on the upper part of the accommodating cavity; the first clamping arm is matched with the second clamping arm, so that the sliding key is stably clamped in the placement cavity, and meanwhile, the first clamping arm and the second clamping arm cannot influence the movement of the sliding key on the placement cavity.

Specifically, a pushing bump is further arranged at the upper end of the sliding key, and the pushing bump extends upwards to form a clamping opening; the user can apply acting force on the pushing convex block conveniently, and then the horizontal movement of the sliding key is realized.

Another object of the present invention is to provide:

a mosquito killer with an improved structure of a switch assembly of the mosquito killing device comprises a battery, a booster circuit, a discharge circuit and a mosquito killing net, wherein the booster circuit comprises a low-voltage input end and a high-voltage output end; this kind of kill mosquito is clapped, realizes the break-make between boost circuit and the battery through toggle switch, and then realizes whether boost circuit's work is, realizes whether discharge circuit's work through micro-gap switch, consequently, user's accessible sliding key makes toggle switch and micro-gap switch action simultaneously to realize that the user is to boost circuit and discharge circuit's simultaneous control.

The toggle switch further comprises a first power-off gear, a second normally-open switch gear and a third normally-open switch gear, wherein the positive end of the second normally-open switch gear and the positive end of the third normally-open switch gear are both electrically connected with the positive electrode of the battery, the negative end of the second normally-open switch gear is connected with the LED1, the other end of the LED1 is connected with the negative electrode of the battery, the negative end of the third normally-open switch gear is divided into two paths, one path is connected with the LED2, the LED2 is connected with the negative electrode of the battery, and the other path is connected with the low-voltage input end; through moving a toggle key on the toggle switch, the corresponding second normally-open switch gear is closed or the third normally-open switch gear is closed, so that the LED1 or the LED2 and the booster circuit are electrified and operated.

Specifically, the discharge circuit further comprises a first discharge resistor and a second discharge resistor, the microswitch is a normally closed switch, two ends of the microswitch are respectively connected with the first discharge resistor and the second discharge resistor, and the other ends of the first discharge resistor and the second discharge resistor are respectively connected with two ends of the high-voltage output end; so that surplus electricity on the kill mosquito net can carry out automatic discharge through the first discharge resistor and the second discharge resistor, and it is efficient, and safe to discharge.

The beneficial effects of the utility model are as follows:

(1) This kind of mosquito killing device's switch module improves structure, and the card is put the sliding key on the card puts the mouth and is put the micro-gap switch and the toggle switch cooperation that mouthful and correspond through the impeller, promptly: the pushing piece pushes the touch key on the microswitch to act and enable the touch key to be in an action state all the time, and the clamping opening drives the toggle key on the toggle switch to move, so that a user only needs to move the sliding key to enable the microswitch and the toggle switch to be kept in a touched state, and the operation is convenient and simple; furthermore, the pushing part and the clamping opening on the sliding key are simple in structure, the sliding key is clamped on the shell, the installation is easy, meanwhile, the pushing part is firmly and stably matched with the microswitch and the clamping opening and the toggle switch, and the sliding key can stably push the microswitch and the toggle switch to move.

(2) The upper part of the touch key is an arc surface which is propped against the pushing inclined plane; the arc surface on the upper part of the touch key is more beneficial to pushing the inclined surface to push the touch key to move downwards.

(3) This kind of kill mosquito is clapped, realizes the break-make between boost circuit and the battery through toggle switch, and then realizes whether boost circuit's work is, realizes whether discharge circuit's work through micro-gap switch, consequently, user's accessible sliding key makes toggle switch and micro-gap switch action simultaneously to realize that the user is to boost circuit and discharge circuit's simultaneous control.

Drawings

Fig. 1 is an initial state schematic diagram of the improved structure of the switch component of the mosquito killing device.

Fig. 2 is a schematic view of the first working state of the improved structure of the switch assembly of the mosquito killing device.

Fig. 3 is a schematic diagram of a second working state of the improved structure of the switch assembly of the mosquito killing device of the present invention.

Fig. 4 is a schematic view of the mosquito swatter of the present invention.

Detailed Description

The invention will be further described with reference to the following drawings and examples:

the embodiment, as shown in fig. 1 to fig. 3, a mosquito killing device's switch assembly improves structure, including casing 1, toggle switch 2 and micro-gap switch 3, be provided with arrangement chamber 11 in the casing 1, toggle switch 2 and micro-gap switch 3 all arrange in arrangement chamber 11, toggle switch 2 is last to be provided with toggle key 21, micro-gap switch 3 is last to be provided with touch key 31, characterized by: the sliding key is characterized by further comprising a sliding key 4, a clamping opening 12 communicated with the placing cavity 11 is formed in the shell 1, the sliding key 4 is clamped on the clamping opening 12, a pushing piece 41 and a clamping opening 42 are arranged on the lower portion of the sliding key 4, the pushing piece 41 is close to the touch key 31, and the toggle key 21 extends into the clamping opening 42 in the lower portion of the sliding key 4.

As a specific scheme, a push plate extends downwards from the lower part of the sliding key 4, the push plate forms the push member 41, a push inclined surface 411 is arranged at one end of the push plate, and the upper part of the touch key 31 is close to the push inclined surface 411; the upper portion of the touch key 31 is an arc surface 311, and the arc surface 311 on the upper portion of the touch key 31 abuts against the push inclined surface 411.

In this embodiment, an insertion column 13 is disposed in the installation cavity 11, an insertion hole 32 is disposed on the micro switch 3, and the insertion column 13 extends into the insertion hole 32.

More specifically, two clamping plates 43 extend downwards from the lower portion of the sliding key 4, a gap exists between the two clamping plates 43, and the toggle key 21 extends into the gap between the two clamping plates 43, and the gap forms the clamping opening 42.

In this embodiment, the sliding key 4 is extended with a first clamping arm 44 and a second clamping arm 45, and the first clamping arm 44 and the second clamping arm 45 are both disposed in the accommodating cavity 11 and abut against the housing 1 on the upper portion of the accommodating cavity 11.

In this embodiment, a pushing protrusion 46 is further disposed at the upper end of the sliding key 4, and the pushing protrusion 46 extends upward to form the locking opening 12.

As shown in FIG. 4, a kill mosquito including structure is improved to above-mentioned mosquito killing device's switch module is clapped, including battery 5, boost circuit 6, discharge circuit 7 and kill mosquito net 8, boost circuit 6 includes low pressure input and high voltage output end, the power input end both ends of mosquito net 8 of going out are connected with the high voltage output end both ends, discharge circuit 7's both ends connect in parallel at the both ends of high voltage output end, characterized by, toggle switch 2 connects between low pressure input and battery 5, micro-gap switch 3 establishes ties on discharge circuit 7.

As specific scheme, toggle switch 2 still includes that first outage gear 22, second normally open switch gear 23, third normally open switch gear 24, the positive terminal of second normally open switch gear 23 and the positive terminal of third normally open switch gear 24 all are connected with battery 5 anodal electricity, and LED1 is connected to the negative pole end of second normally open switch gear 23, and battery 5 negative pole is connected to the LED1 other end, and the negative pole end of third normally open switch gear 24 divides two tunnel, connects LED2 all the way, and LED2 reconnection battery 5 negative pole, another way is connected with the low pressure input.

In this implementation, the discharge circuit 7 further includes a first discharge resistor 71 and a second discharge resistor 72, the micro switch 3 is a normally closed switch, the first discharge resistor 71 and the second discharge resistor 72 are respectively connected to two ends of the micro switch 3, and the other ends of the first discharge resistor 71 and the second discharge resistor 72 are respectively connected to two ends of the high-voltage output end.

The working principle is as follows:

in the initial state: the sliding key 4 is not moved, and the toggle key 21 on the toggle switch 2 is located at the first power-off position 22 at this time, that is: the booster circuit 6 is not switched on to work, meanwhile, the touch key 31 on the micro switch 3 does not act, and the micro switch 3 keeps a normally closed state (namely, a discharging state);

the first working state: the sliding key 4 is pushed to move, so that the toggle key 21 is driven to move and the touch key 31 is driven to act, at the moment, the toggle key 21 on the toggle switch 2 moves to the second normally open switch gear 23, so that the second normally open switch gear 23 is closed, the LED1 is electrified to work, the booster circuit 6 is not connected to work, and meanwhile, the microswitch 3 is in a disconnected state (namely, a non-discharge state);

a second working state: the sliding key 4 is continuously pushed to move, so that the toggle key 21 is continuously driven to move and the touch key 31 is continuously driven to move, at this time, the toggle key 21 on the toggle switch 2 moves to the third normally open switch gear 24, so that the third normally open switch gear 24 is closed, the LED2 is electrified to work, the booster circuit 6 is connected to work, the mosquito killing net 8 is electrified to work, and meanwhile, the microswitch 3 is in a disconnected state (namely, a non-discharge state).

Claims (10)

1. The utility model provides a mosquito eradication device's switch module improves structure, includes casing (1), toggle switch (2) and micro-gap switch (3), be provided with arrangement chamber (11) in casing (1), in arrangement chamber (11) are all arranged in toggle switch (2) and micro-gap switch (3), be provided with toggle key (21) on toggle switch (2), be provided with on micro-gap switch (3) and touch key (31), characterized by: the novel mechanical hand is characterized by further comprising a sliding key (4), a clamping opening (12) communicated with the placing cavity (11) is formed in the shell (1), the sliding key (4) is clamped on the clamping opening (12), a pushing piece (41) and a clamping opening (42) are arranged on the lower portion of the sliding key (4), the pushing piece (41) is close to the touch key (31), and the toggle key (21) extends into the clamping opening (42) in the lower portion of the sliding key (4).

2. The improved switch assembly structure of a mosquito killer according to claim 1, wherein a push plate extends downwards from the lower part of the sliding key (4) and forms the pushing member (41), a push inclined surface (411) is arranged at one end of the push plate, and the upper part of the touch key (31) is close to the push inclined surface (411).

3. The improved switch component structure of a mosquito killing device according to claim 2, characterized in that the upper part of the touch key (31) is a circular arc surface (311), and the circular arc surface (311) on the upper part of the touch key (31) is abutted against the push inclined surface (411).

4. The improved switch component structure of a mosquito killing device according to claim 2, wherein an insertion column (13) is arranged in the mounting cavity (11), an insertion hole (32) is arranged on the microswitch (3), and the insertion column (13) extends into the insertion hole (32).

5. The improved structure of the switch component of the mosquito killing device according to the claim 1 is characterized in that two clamping plates (43) extend downwards from the lower part of the sliding key (4), a gap exists between the two clamping plates (43), the toggle key (21) extends into the gap between the two clamping plates (43), and the gap forms the clamping opening (42).

6. The improved structure of the switch component of the mosquito killing device according to claim 1, characterized in that the sliding key (4) is respectively extended with a first clamping arm (44) and a second clamping arm (45), and the first clamping arm (44) and the second clamping arm (45) are both arranged in the placing cavity (11) and are abutted against the shell (1) on the upper part of the placing cavity (11).

7. The improved structure of the switch component of the mosquito killing device according to claim 6, characterized in that the upper end of the sliding key (4) is further provided with a pushing projection (46), and the pushing projection (46) extends upwards to form the clamping opening (12).

8. A mosquito killer pat comprising the improved structure of the switch component of the mosquito killer device of any claim 1 to 7, comprising a battery (5), a booster circuit (6), a discharge circuit (7) and a mosquito killing net (8), wherein the booster circuit (6) comprises a low-voltage input end and a high-voltage output end, the two ends of the power input end of the mosquito killing net (8) are connected with the two ends of the high-voltage output end, the two ends of the discharge circuit (7) are connected in parallel at the two ends of the high-voltage output end, and the mosquito killer pat is characterized in that the toggle switch (2) is connected between the low-voltage input end and the battery (5), and the microswitch (3) is connected in series on the discharge circuit (7).

9. A mosquito swatter as claimed in claim 8, wherein the toggle switch (2) further comprises a first power-off gear (22), a second normally-open switch gear (23), and a third normally-open switch gear (24), wherein the positive terminal of the second normally-open switch gear (23) and the positive terminal of the third normally-open switch gear (24) are both electrically connected with the positive electrode of the battery (5), the negative terminal of the second normally-open switch gear (23) is connected with the LED1, the other end of the LED1 is connected with the negative electrode of the battery (5), the negative terminal of the third normally-open switch gear (24) is divided into two paths, one path is connected with the LED2, the LED2 is connected with the negative electrode of the battery (5), and the other path is connected with the low-voltage input end.

10. A mosquito swatter as claimed in claim 8, wherein the discharge circuit (7) further comprises a first discharge resistor (71) and a second discharge resistor (72), the microswitch (3) is a normally closed switch, two ends of the microswitch (3) are respectively connected with the first discharge resistor (71) and the second discharge resistor (72), and the other ends of the first discharge resistor (71) and the second discharge resistor (72) are respectively connected with two ends of the high voltage output end.

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