CN219593499U - Wireless intelligent mouse damage control system - Google Patents

Abstract

The utility model provides a wireless intelligent mouse damage control system, which comprises a central host and a plurality of terminal extensions respectively connected with the central host, wherein each terminal extension comprises a control unit, a power module, an ultrasonic module, a bionic wave module and a first communication module which are respectively connected with the control unit; the central host comprises a second communication module matched with the first communication module and an identification module connected with the second communication module; the terminal extension is also provided with a machine code module matched with the identification module and used for uniquely identifying the terminal extension; the central host machine is used for managing and operating the corresponding terminal extension through the code matching of the identification module and the machine code module. Compared with the existing rat repelling technology, the utility model connects the central host computer with a plurality of terminal extensions through local area network communication, has simple installation, does not need slotting and wiring, and only needs an external power supply for the terminal extensions.

Description

Wireless intelligent mouse damage control system

Technical Field

The utility model relates to the technical field of rat damage control, in particular to a wireless intelligent rat damage control system.

Background

The damage of mice to human beings is not decayed for a long time, and becomes one of the most important biological disasters. The rats not only steal food and gnaw and engage articles, but also spread hundreds of diseases, which causes serious harm to the production and life of human beings. The common prevention measures mainly comprise chemical killing, physical prevention and biological prevention, each mode has respective length and application range, most of the prevention measures need to be manually and personally on site, and the prevention measures do not accord with the great trend of the existing artificial intelligent environment. For example, the chinese patent with publication number CN 210841325U discloses an intelligent mouse pest control system based on internet of things, although the intelligent mouse pest control system can be remotely managed by using internet of things technology, so as to realize protection against, expelling and controlling of mouse pests, the intelligent mouse pest control system with such structure has complex wiring and small control range.

Disclosure of Invention

In view of this, the utility model provides a wireless intelligent mouse damage control system, which expands the control range by connecting a central host with a plurality of terminal extensions, and can independently control the working modes of each extension and the related parameter setting without slotting and wiring.

In order to achieve the above purpose, the technical scheme of the utility model is realized as follows:

the utility model adopts a wireless intelligent mouse pest control system, which comprises a central host and a plurality of terminal extensions respectively connected with the central host, wherein each terminal extension comprises a control unit, a power module, an ultrasonic module, a bionic wave module and a first communication module, wherein the power module is used for supplying power to the wireless intelligent mouse pest control system, the ultrasonic module is used for sending ultrasonic waves, the bionic wave module is used for sounding and expelling mouse pests, and the first communication module is used for realizing information transmission with the central host;

the central host comprises a second communication module matched with the first communication module and an identification module connected with the second communication module; the terminal extension is also provided with a machine code module matched with the identification module and used for uniquely identifying the terminal extension; the central host machine is used for managing and operating the corresponding terminal extension through the code matching of the identification module and the machine code module.

Further, the terminal extension further comprises a storage module connected with the control unit, and the storage module is used for storing information of the terminal extension.

Further, the terminal extension further comprises a clock module and a bursting module, wherein the clock module and the bursting module are connected with the control unit, the clock module is used for setting working time, and the bursting module is used for sending out bursting signals.

Further, the terminal extension further comprises an electromagnetic wave module connected with the control unit, and the electromagnetic wave module is used for sending electromagnetic waves.

Further, the central host computer also comprises a management module and a display module which are respectively connected with the second communication module, wherein the management module is used for adding and deleting, setting or checking the information of the terminal extensions through the second communication module, and the display module is used for displaying the online and offline quantity running conditions of the terminal extensions through the second communication module and displaying the working states of the terminal extensions through graphics.

Further, the central host computer further comprises a third communication module, the third communication module is connected with external equipment through the Internet, an applet or an APP connected with the central host computer is arranged on the external equipment, a fourth communication module matched with the third communication module is arranged on the applet or the APP, and the applet or the APP is used for setting working parameters of the terminal extension set managed by the central host computer and checking the running condition of the terminal extension set.

Further, the external device is a mobile terminal device, including but not limited to a mobile phone, a tablet, and all devices supporting applet or APP manipulation.

Further, the central host also comprises a communication network interface connected with an external device.

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

the wireless intelligent mouse damage control system comprises a central host and terminal extensions, wherein the central host is connected with a plurality of terminal extensions through local area network communication; the terminal extension is provided with a machine code module for uniquely identifying the terminal extension; the central host manages and operates the terminal extension through code matching with the machine code module. Compared with the existing rat repelling technology, the utility model connects the central host computer with a plurality of terminal extensions through local area network communication, has simple installation, does not need slotting and wiring, only needs external power supply for the terminal extensions, can be installed and used on multiple floors and across areas, has large control range and flexible operation; in addition, the central host can be connected with a plurality of terminal extensions at the same time, so that the control range is further enlarged.

Drawings

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

FIG. 1 is a schematic diagram of a wireless intelligent rodent control system of the present utility model;

fig. 2 is a schematic structural diagram of an embodiment of the terminal extension of the present utility model.

FIG. 3 is a schematic diagram of a central host according to an embodiment of the present utility model.

The reference numerals in the drawings denote:

1. a central host; 101. a second communication module; 102. an identification module; 103. a management module; 104. a display module; 105. a third communication module; 2. a terminal extension; 201. a control unit; 202. a power module; 203. an ultrasonic module; 204. an electromagnetic wave module; 205. a bionic wave module; 206. a clock module; 207. a flash module; 208. a storage module; 209. a first communication module; 210. and a machine code module.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

As shown in fig. 1 and fig. 2, the present utility model adopts a wireless intelligent mouse pest control system, which comprises a central host 1 and a plurality of terminal extensions 2 respectively connected with the central host 1, wherein each terminal extension 2 comprises a control unit 201, and a power module 202, an ultrasonic module 203, an electromagnetic wave module 204, a bionic wave module 205 and a first communication module 209 respectively connected with the control unit 201, the power module 202 is used for supplying power to the wireless intelligent mouse pest control system, the ultrasonic module 203 and the electromagnetic wave module 204 are used for respectively transmitting ultrasonic waves and electromagnetic waves, the bionic wave module 205 is used for sounding and expelling mouse pests, and the first communication module 209 is used for realizing information transmission with the central host 1;

the intelligent remote control system comprises a central host 1 and a terminal extension 2, wherein the terminal extension 2 comprises a control unit 201, a power supply module 202, an ultrasonic module 203, a bionic wave module 205 and a first communication module 209 which are respectively connected with the control unit 201, the power supply module 202 is used for supplying power to a wireless intelligent mouse damage control system, the ultrasonic module 203 is used for sending ultrasonic waves, the bionic wave module 205 is used for sounding and expelling mouse damage, and the first communication module 209 is used for realizing information transmission with the central host 1;

the central host 1 comprises a second communication module 101 matched with the first communication module 209 and an identification module 102 connected with the second communication module 101, and specifically, the second communication module 101 is connected with a plurality of terminal extensions 2 through local area network communication, preferably connected with 1-8 terminal extensions 2; the terminal extension 2 is further provided with a machine code module 210 matched with the identification module 102 for uniquely identifying the terminal extension 2; the central host 1 is paired with the machine code module 210 through the identification module 102 for managing and operating the corresponding terminal extension 2.

Each terminal extension 2 is provided with a device unique machine code module 210, the machine code module 210 can generate machine codes in advance through software, the machine codes can also be obtained through obtaining ID numbers of hardware of the terminal extension 2, after power-on networking, the central host 1 sets parameters such as working modes, working time periods and the like of the terminal extensions 2 matched with the machine code module 210 through a local area network, and the set parameters are stored on the terminal extensions 2. After offline network disconnection, the central host 1 cannot set parameters of the terminal extension 2, but parameters such as a working mode, a working period and the like before network disconnection are stored on the terminal extension 2, so that normal operation of the terminal extension 2 is not affected. The central host 1 may control the range size as needed, and connect a plurality of terminal extensions 2. Because the central host 1 is connected with the terminal extension 2 through local area network communication, slotting wiring is not needed, the installation is simple, and the terminal extension 2 can work normally only by an external power supply.

Fig. 2 is a schematic structural diagram of an embodiment of the terminal extension 2 of the present utility model. As shown in fig. 2, the terminal extension 2 specifically includes a control unit 201, a power module 202, an ultrasonic module 203, an electromagnetic wave module 204, a bionic wave module 205, a clock module 206, a flash module 207, and a first communication module 209, and specifically, the first communication module 209 is connected to the second communication module 101 of the central host 1 through a local area network. Specifically, as shown in fig. 2, the control unit 201 is connected to a power module 202, an ultrasonic module 203, an electromagnetic wave module 204, a bionic wave module 205, a clock module 206, a flash module 207, and a first communication module 209, respectively.

The power module 202 is used for supplying power to the terminal extension 2; the ultrasonic module 203 is used for sending ultrasonic waves, and the terminal extension 2 stimulates the nervous system and the auditory system of the mice through the frequency waves of the ultrasonic waves so that the mice feel uncomfortable and escape from the site; in addition, an electromagnetic wave module 204 may be further provided, wherein the electromagnetic wave module 204 is used for transmitting electromagnetic waves, and the terminal extension 2 stimulates the nervous system and the auditory system of the mice through low-frequency waves of the electromagnetic waves, so that the mice feel uncomfortable and escape from the site; the bionic wave module 205 is used for sounding and expelling the mouse injury, the sound of the bionic wave module 205 is the sound of a pre-recorded mouse tragic, fighting and the like, and after the sound is played, the mouse feels uncomfortable to realize expelling the mouse injury; the clock module 206 is configured to set the working time of the terminal extension 2, and preferably, the clock module 206 selects a DS1302 clock chip; the explosion module 207 is configured to send an explosion signal to make a mouse feel fear and other discomfort; the first communication module 209 is configured to implement information transfer with the central host 1.

It should be noted that, in order to further improve the terminal extension 2, the terminal extension 2 of the present utility model may further be provided with a storage module 208, where the storage module 208 is configured to store information of the terminal extension 2, and the information of the terminal extension 2 may include, but is not limited to, basic parameter information and working parameters such as machine code, location information, working state, etc. of the terminal extension 2. When the terminal extension 2 is disconnected from the central host 1, the central host 1 cannot manage and operate the terminal extension 2, but the storage module 208 stores the working parameter information set by the central host 1 before the disconnection, so that the terminal extension 2 can still work independently and normally.

In order to further perfect the terminal extension 2, the terminal extension 2 of the utility model can be further provided with an indicator light, a key module and the like, and the key module is convenient for field personnel to manually operate, and the indicator light plays a role in prompting whether the terminal extension 2 works or not.

In a further technical solution, as shown in fig. 3, the central host 1 of the present utility model includes a second communication module 101, and a management module 103 and a display module 104 that are respectively connected to the second communication module 101, where the second communication module 101 is connected to a first communication module 209 on the terminal extension 2 through a local area network, so as to implement information transfer between the central host 1 and the terminal extension 2, and the management module 103 is used for adding, deleting, setting or checking the terminal extension 2 by a user, and the display module 104 is used for displaying the online and offline number running conditions of the terminal extension 2, and presenting the working state of the terminal extension 2 through a graphic.

It should be noted that, the central host 1 further includes a third communication module 105, where the third communication module 105 includes, but is not limited to, a WIFI communication module, a 4G communication module, and a 5G communication module, where the third communication module 105 is connected to an external device through the internet, and the external device is provided with an applet or APP, and the applet or APP is connected to the central host 1 through the third communication module 105 to set working parameters of the terminal extension 2 managed by the central host 1, and view the operation condition of the terminal extension 2.

Specifically, a user login interface is arranged on the external equipment through an applet or an APP, so that an administrator can enter the central host 1 according to the identity of the administrator, and the working state and working parameters of the terminal extension 2 of the central host 1 can be operated or known; in addition, the management module 103 of the central host 1 manages and stores user information, which may include an account number registered by the user, and may also include other client information filled in by the user, such as name, gender, age, telephone number, address, etc.

It should be noted that, the applet or APP installed in the external device displays my device through the home page, and the working parameters of the terminal extension 2 can be set by clicking the my device, so as to determine the working duration, starting time, working frequency, volume, remote start and stop of the terminal extension 2. It should be noted that the running condition of the extension terminal 2 can also be checked by my device.

It should be noted that the external device may be a mobile terminal device, and the mobile terminal device includes, but is not limited to, a mobile phone, a tablet, and all devices supporting applet or APP control.

In addition, the external device can also be an internet of things platform.

Further, the central host 1 is also provided with an RS485 communication network interface, through which it can be connected to external devices.

It should be noted that, the central host 1 is connected to the internet of things platform through the internet, and the internet of things platform is provided with the aforementioned applet or APP, so that the terminal extension 2 can be managed and operated through the internet of things platform.

The working principle of the wireless intelligent mouse damage control system is as follows:

first, after the power-on networking, the central host 1 performs code matching with the machine code modules 210 set on the plurality of terminal extensions 2 and used for uniquely identifying the terminal extensions 2 through the local area network, and the central host 1 performs working parameter setting and management on the terminal extensions 2 matched with the machine code modules 210 through the local area network, preferably, the working parameter information may include a working mode, a working period, a working frequency, a volume and remote start/stop of the terminal extensions 2, but is not limited thereto. And the working parameter information is transmitted to the terminal extension 2 through the local area network and stored in the storage module 208 of the terminal extension 2, and the terminal extension 2 performs the mouse damage prevention and control work according to the set working parameters.

The central host 1 performs association processing on the received basic parameter information and operation parameter information of the terminal extension 2. The concrete steps are as follows: the central host 1 can count the online or offline number running conditions of the terminal extensions 2 according to the requirement, and present the running conditions in a graphic form, and the central host 1 can delete, add, view or remotely control the terminal extensions 2.

In addition, the central host 1 may be connected to an external device through the internet, where the external device is provided with an applet or APP connected to the central host 1, and the applet or APP is provided with a fourth communication module matched with the third communication module 105, where the applet or APP is used to set the working parameters of the terminal extension 2 managed by the central host 1 and check the operation condition of the terminal extension 2.

Specifically, a user login interface is arranged on the external equipment, so that an administrator can enter the central host 1 in an identity, and the working state and working parameters of the terminal extension 2 of the central host 1 can be operated or known; in addition, the user information set by the external device is managed and saved by the management module 103 of the central host 1, and the user information may include an account number registered by the user on the terminal extension 2, and may further include other client information filled in by the user, such as name, gender, age, telephone number, address, etc.

The external equipment comprises, but is not limited to, a mobile terminal provided with an applet or APP, a user host connected through an RS485 communication network interface or other types of network ports, an Internet of things platform connected through the Internet, and the like;

after offline network disconnection, the central host 1 cannot set parameters of the terminal extension 2, but the terminal extension 2 stores working parameters such as working mode, working period and the like before network disconnection, so that the normal work of the terminal extension 2 is not affected.

In summary, the wireless intelligent mouse pest control system of the utility model connects the central host 1 with a plurality of terminal extensions 2 through local area network communication, and the central host 1 manages and operates the terminal extensions 2 by checking codes with the machine code module 210 on the terminal extensions 2. On the other hand, the central host 1 is connected with an external device through the internet, an applet or an APP is provided on the external device, and the operating parameters of the terminal extension 2 managed by the central host 1 are set through the applet or the APP, and the operation condition of the terminal extension 2 is checked. Through the setting central host 1 can connect many terminal extension 2 simultaneously, and the installation is simple, need not the fluting wiring, realizes the remote control of external equipment such as mobile terminal, thing networking platform to terminal extension 2 simultaneously, and intelligent degree is high, convenient operation and labour saving and time saving.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The wireless intelligent mouse damage control system is characterized by comprising a central host machine (1) and a plurality of terminal extensions (2) which are respectively connected with the central host machine (1), wherein each terminal extension (2) comprises a control unit (201), a power module (202), an ultrasonic module (203), a bionic wave module (205) and a first communication module (209) which are respectively connected with the control unit (201), the power module (202) is used for supplying power to the wireless intelligent mouse damage control system, the ultrasonic module (203) is used for transmitting ultrasonic waves, the bionic wave module (205) is used for sounding and expelling mouse damage, and the first communication module (209) is used for realizing information transmission with the central host machine (1);

the central host (1) comprises a second communication module (101) matched with the first communication module (209) and an identification module (102) connected with the second communication module (101); the terminal extension (2) is also provided with a machine code module (210) matched with the identification module (102) and used for uniquely identifying the terminal extension (2); the central host (1) is used for managing and operating the corresponding terminal extension (2) by matching the identification module (102) with the machine code module (210).

2. The wireless intelligent rat-pest control system according to claim 1, characterized in that the terminal extension (2) further comprises a memory module (208) connected to the control unit (201), the memory module (208) being adapted to store information of the terminal extension (2).

3. The wireless intelligent mouse pest control system according to claim 1, wherein the terminal extension (2) further comprises a clock module (206) and a flashing module (207) connected with the control unit (201), the clock module (206) is used for setting working time, and the flashing module (207) is used for sending out a flashing signal.

4. The wireless intelligent mouse pest control system according to claim 1, characterized in that the terminal extension (2) further comprises an electromagnetic wave module (204) connected with the control unit (201), the electromagnetic wave module (204) being used for transmitting electromagnetic waves.

5. The wireless intelligent mouse damage control system according to any one of claims 1-4, wherein the central host (1) further comprises a management module (103) and a display module (104) which are respectively connected with the second communication module (101), the management module (103) is used for adding and deleting, setting or checking information of the terminal extensions (2) through the second communication module (101), and the display module (104) is used for displaying the online and offline number running conditions of the terminal extensions (2) through the second communication module (101) and displaying the working state of the terminal extensions (2) through graphics.

6. The wireless intelligent mouse damage control system according to claim 5, wherein the central host (1) further comprises a third communication module (105), the third communication module (105) is connected with an external device through the internet, an applet or APP connected with the central host (1) is arranged on the external device, a fourth communication module matched with the third communication module (105) is arranged on the applet or APP, and the applet or APP is used for setting the working parameters of the terminal extension (2) managed by the central host (1) and checking the operation condition of the terminal extension (2).

7. The wireless intelligent mouse damage control system of claim 6, wherein the external device is a mobile terminal device, and the mobile terminal device is a cell phone or a tablet.

8. The wireless intelligent rodent control system of claim 6, wherein the central host (1) further comprises a communication network interface to which external devices are connected.