TWM557018U - Mosquito count monitoring device - Google Patents

Abstract

The novel mosquito quantity monitoring device includes: a casing having an accommodating space inside, and at least one light-emitting element is arranged in the accommodating space, and an opening is provided on at least one side of the casing, and the opening is Communicate with the accommodation space. A mosquito-catching unit has at least one booster circuit and is electrically connected to at least one power grid. The booster circuit and the power grid are disposed in the accommodating space, and the power grid corresponds to the opening. The circuit is provided to set a predetermined voltage output value. A monitoring unit is provided with a control circuit and at least one first wireless signal element, the control circuit is electrically connected to the power grid, and the control circuit records the number of voltage changes of the power grid. And a mobile electronic device having a processor, a memory, a touch screen and a second wireless signal element, a mobile application is installed in the memory, the first wireless signal element and the second wireless signal element The signal components are connected, and the number of voltage changes is transmitted to the mobile application and displayed on the touch screen.

Description

Mosquito quantity monitoring device

The invention relates to a monitoring device, in particular to a mosquito quantity monitoring device for electric shock mosquitoes and calculating the number of electric shock mosquitoes.

In summer, mosquitoes easily breed and breed, causing mosquitoes to fly around the house, which not only affects sleep, but also produces symptoms such as itching and discomfort after biting, and severe cases are more likely to spread infectious diseases such as dengue fever and Japanese encephalitis. Proper and safe anti-mosquito measures cannot be ignored. In traditional mosquito removal methods, it is common to use mosquito-repellent incense, but the smell of mosquito-repellent incense is unpleasant and pungent, and it affects human health, so it is gradually abandoned.

Secondly, in order to effectively kill mosquitoes, many mosquito-killing products are gradually produced, such as electric mosquito coils, electric mosquito swatters, mosquito traps, etc., in order to effectively eliminate mosquitoes that affect people's daily lives. However, killing mosquitoes is a cure for the symptoms and not the root cause. We should start from the source of mosquito prevention to effectively reduce the number of mosquitoes.

In view of this, how to eliminate the above-mentioned shortcomings is the technical difficulty that the creators of this case want to solve; however, based on years of experience in the relevant industry, the creators of this case have made painstaking efforts after years of meticulous research and improvement. Successfully developed this case, and made the new model born to enhance the efficacy.

In view of the above-mentioned shortcomings, the new mosquito quantity monitoring device includes: a casing having an accommodating space inside, and the accommodating space is provided with at least one light emitting element, and at least one side of the casing is provided with An opening is communicated with the accommodating space. A mosquito-catching unit has at least one booster circuit and is electrically connected to at least one power grid. The booster circuit and the power grid are disposed in the accommodating space, and the power grid corresponds to the opening. The circuit is provided to set a predetermined voltage output value. A monitoring unit is provided with a control circuit and at least one first wireless signal element, the control circuit is electrically connected to the power grid, and the control circuit records the number of voltage changes of the power grid. And a mobile electronic device having a processor, a memory, a touch screen and a second wireless signal element, a mobile application is installed in the memory, the first wireless signal element and the second wireless signal element The signal components are connected, and the number of voltage changes is transmitted to the mobile application and displayed on the touch screen.

The main purpose of the new model is to have the functions of electric shock mosquitoes and counting the number of electric shock mosquitoes, and use with mobile electronic devices and mobile applications, users can grasp whether the number of mosquitoes has increased abnormally at any time, so as to determine whether a special person is required The environment is disinfected, the environment is clean, and the number of mosquitoes is reduced naturally.

1‧‧‧Mosquito quantity monitoring device

10‧‧‧shell

11‧‧‧ accommodation space

12‧‧‧light-emitting element

13‧‧‧ opening

20‧‧‧ Mosquito Capture Unit

21‧‧‧Boost circuit

22‧‧‧ Power Grid

23‧‧‧ predetermined voltage output value

30‧‧‧monitoring unit

31‧‧‧Control circuit

32‧‧‧The first wireless signal component

33‧‧‧The first microphone

34‧‧‧Second microphone

40‧‧‧mobile electronic device

41‧‧‧Processor

42‧‧‧Memory

43‧‧‧Touch screen

44‧‧‧Second wireless signal element

50‧‧‧ mobile app

The first figure is a schematic diagram of the state of use of the new model.

The second picture is a schematic diagram of the new type of mosquito trapping unit.

The third figure is a schematic diagram of the new monitoring unit.

The fourth figure is a schematic diagram of a new type of mobile electronic device.

The fifth figure is a schematic diagram of the display information of the new mobile application.

The sixth figure is a schematic diagram of another embodiment of the present invention.

In order to make it easy for your reviewers to understand the content of the new model and the effect it can achieve, specific examples are given in conjunction with the illustrations, and the detailed description is as follows: Please refer to the first to fourth figures, the new mosquito quantity monitoring device 1, It includes: a casing 10, a mosquito-trapping unit 20, a monitoring unit 30, a mobile electronic device 40, and a mobile application 50, and its structure is as follows: the casing 10 has an accommodation space 11 inside, and At least one light-emitting element 12 is provided in the accommodation space 11. An opening 13 is provided on at least one side of the housing 10. The opening 13 communicates with the accommodation space 11. The light-emitting element 12 is used to attract mosquitoes, but not Limited to this, mosquitoes can also be attracted using fan suction or chemical odor.

Referring to the second figure, the mosquito-catching unit 20 has at least one booster circuit 21 and is electrically connected to at least one power grid 22, and the booster circuit 21 and the power grid 22 are disposed in the accommodation space 11, and The power grid 22 corresponds to the opening 13, and the booster circuit 21 provides a predetermined voltage output value 23.

Referring to the third figure, the monitoring unit 30 has a control circuit 31 and at least one first wireless signal element 32. The control circuit 31 is electrically connected to the power grid 22, and the control circuit 31 records the power of the power grid 22 Number of voltage changes.

Referring to the fourth figure, the mobile electronic device 40 includes a processor 41, a memory 42, a touch screen 43 and a second wireless signal element 44. A mobile application 50 is installed in the memory 42, The first wireless signal element 32 is connected to the second wireless signal element 44, and the number of voltage changes is transmitted to the mobile application 50 and displayed on the touch screen 43.

Please refer to the first to fifth figures. When the new type is used, when the electric grid 22 shocks mosquitoes, the electric grid 22 will generate sparks and the voltage of the electric grid 22 will also change. Therefore, the control circuit 31 records the electric grid 22 The number of times of voltage change is used as the number of electric shock mosquitoes, and then the first wireless signal element 32 and the second wireless signal element 44 are connected, and the mobile application 50 in the mobile electronic device 40 is used to view the information of the number of voltage changes. Among them, the mobile application 50 can directly display the words "the number of electric shock mosquitoes" and the "number" of the electric shock mosquitoes on the touch screen 43 so that the user can see at a glance. In addition, the mobile application 50 can also display the voltage and time change table. , So that users can know in detail the time of electric shock and the density of mosquitoes.

Please refer to the third and sixth figures, which are another embodiment of the present invention. In this embodiment, the control circuit 31 is further electrically connected to at least one first microphone 33, and the first microphone 33 is disposed adjacent to the first microphone 33. The power grid 22 is thereby used by the first microphone 33 to receive the electric shock sound emitted by the power grid 22.

When the new model is in use, when the electric grid 22 shocks mosquitoes, sparks are generated, and at the same time, the number of times that the first microphone 33 receives the electric burst sounds is accompanied by the electric burst sound. As one of the basis for the number of electric shock mosquitoes, users can take action Application 50 analyzes the change in voltage and the sound of electric bursts to improve the accuracy of the number of mosquitoes that are shocked.

In addition, in this embodiment, the control circuit 31 is further electrically connected to at least one second microphone 34. The second microphone 34 is disposed adjacent to the power grid 22, so that the second microphone 34 receives an audio frequency range below 1000 Hz. Audio.

Since the audio emitted by the mosquito's wings is different from other insects, in this embodiment, the audio is set to be less than 1000 Hz, that is, it is judged as a mosquito, so as to distinguish whether the insect being shocked is a mosquito to improve accuracy.

The above detailed description is a specific description of one of the feasible embodiments of the new model, but the embodiments are not intended to limit the scope of the patent of the new model. Any equivalent implementation or change that does not depart from the spirit of the new technology should be included in this case. Within the scope of patents.

1‧‧‧Mosquito quantity monitoring device

10‧‧‧shell

11‧‧‧ accommodation space

12‧‧‧light-emitting element

13‧‧‧ opening

22‧‧‧ Power Grid

40‧‧‧mobile electronic device

43‧‧‧Touch screen

50‧‧‧ mobile app

Claims (3)

A mosquito quantity monitoring device includes: a casing having an accommodating space inside, and at least one light-emitting element is arranged in the accommodating space; an opening is provided on at least one side of the casing, and the opening is Communicating with the accommodating space; a mosquito trapping unit having at least one booster circuit and electrically connected to at least one power grid, the booster circuit and the power grid are disposed in the accommodating space, and the power grid is connected with Corresponding to the opening, the booster circuit is provided to set a predetermined voltage output value; a monitoring unit is provided with a control circuit and at least one first wireless signal element, the control circuit is electrically connected to the power grid, and is controlled by the control The circuit records the number of voltage changes of the power grid; and a mobile electronic device having a processor, a memory, a touch screen, and a second wireless signal component, a mobile application is installed in the memory, and the first A wireless signal element is connected to the second wireless signal element, and the number of voltage changes is transmitted to the mobile application and displayed on the touch screen. The mosquito quantity monitoring device according to claim 1, wherein the control circuit is further electrically connected to at least one first microphone, and the first microphone is disposed adjacent to the power grid, so that the first microphone receives the power from the power grid. Electric shock sound. The mosquito quantity monitoring device according to claim 1, wherein the control circuit is further electrically connected to at least a second microphone, and the second microphone is disposed adjacent to the power grid, so that the second microphone receives the audio frequency below 1000 Hz. Audio.