CN220305655U - Internet of things monitoring and collecting device - Google Patents

Abstract

The utility model relates to an Internet of Things monitoring and collection device, which includes a monitor, a vertical rotating mechanism and a horizontal rotating mechanism. The monitor includes a housing, a camera, a sensor unit and a protective cover. The camera is arranged at the front end of the housing. The sensor unit is detachably mounted on the bottom of the housing, the protective cover is mounted on the top of the housing, the rotating end of the vertical rotating mechanism is connected to the protective cover, and the vertical rotating mechanism is mounted on the rotation of the horizontal rotating mechanism. On the other hand, the vertical rotation mechanism is used to drive the monitor to rotate in the vertical plane, and the horizontal rotation mechanism is used to drive the vertical rotation mechanism and the monitor to rotate in the horizontal plane. The utility model proposes an Internet of Things data collection device. The sensor unit is detachably arranged on the housing, and sensors can be quickly installed according to actual needs to meet data collection requirements.

Description

An Internet of Things monitoring and collection device

Technical field

The utility model relates to the field of Internet of Things engineering technology, specifically an Internet of Things monitoring and collection device.

Background technique

The Internet of Things (IoT) refers to the interconnection and interaction of various devices, sensors, machines and objects in the physical world, as well as the data and information they carry, through Internet connections and communication technologies to achieve intelligence. , automated and remotely controlled network systems. Simply put, the Internet of Things realizes interconnection and remote management between objects by connecting them to the Internet. The application scope of the Internet of Things is very wide, covering many fields, including smart homes, smart cities, smart transportation, industrial automation, agricultural monitoring, health care, etc. Through the Internet of Things, various devices and objects can collect data in real time, interconnect and implement automatic control, remote monitoring and intelligent decision-making through data analysis and intelligent algorithms. The advantage of the Internet of Things is that it provides more efficient, intelligent and convenient services, improving the quality and efficiency of life and work.

At present, real-time collection of data is generally achieved through Internet of Things monitoring equipment, which is usually a device connected through the Internet and equipped with sensors, cameras or other monitoring devices, used for real-time monitoring, collection and transmission of environmental data or specific objects. information. These devices use IoT technology to transmit the acquired data to the cloud platform or local server for subsequent analysis, processing and remote access. However, at present, IoT monitoring equipment usually adopts an integrated structure, that is, the original components such as cameras and sensors are usually fixed in a housing, and are designed according to specific scenarios. It is difficult to change later and cannot expand functions.

Utility model content

The technical problem to be solved by this utility model is to provide an Internet of Things monitoring and collection device in view of the above shortcomings. This utility model proposes an Internet of Things data collection device. The sensor unit is detachably installed on the casing and can be quickly installed according to actual needs. Install additional sensors to meet collection requirements.

In order to solve the above technical problems, this utility model adopts the following technical solutions:

An Internet of Things monitoring and collection device includes a monitor, a vertical rotating mechanism and a horizontal rotating mechanism. The monitor includes a housing, a camera, a sensor unit and a protective cover. The camera is located at the front end of the housing. The sensor unit The protective cover is removably provided at the bottom of the housing. The protective cover is provided at the top of the housing. The rotating end of the vertical rotating mechanism is connected to the protective cover. The vertical rotating mechanism is provided on the rotating end of the horizontal rotating mechanism. The vertical rotation mechanism is used to drive the monitor to rotate in the vertical plane, and the horizontal rotation mechanism is used to drive the vertical rotation mechanism and the monitor to rotate in the horizontal plane; the sensor unit includes an assembly plate, and the assembly plate A plurality of sensors are provided at the front end. The cameras and sensors are connected to the wireless module. Horizontal installation chutes are provided on both sides of the bottom of the housing. The assembly plate is provided with slide bars that cooperate with the installation chutes. , The front side of the housing is detachably provided with a front cover, and the front cover is provided with a limiting block for limiting the assembly plate to the installation chute.

Further, the vertical rotation mechanism includes a U-shaped shell, a first synchronous pulley, a second synchronous pulley and a first servo motor, the first synchronous pulley is arranged on the bottom side of the U-shaped shell, and the The first servo motor is arranged on the top of the U-shaped shell, the second synchronous pulley is arranged on the output end of the first servo motor, the first synchronous pulley and the second synchronous pulley are in the same vertical plane and pass through The synchronous belt is connected, the protective cover is fixedly connected to the rotating shaft of the first synchronous pulley, and the first servo motor is used to drive the protective cover to rotate in a vertical plane through the second synchronous pulley and the first synchronous pulley.

Further, the horizontal rotation mechanism includes a mounting platform, a turbine, a worm and a second servo motor. The turbine and the worm are horizontally arranged in the mounting platform, and the turbine and the worm mesh with each other. The second servo motor is connected to the worm, The U-shaped shell is connected to the rotating shaft of the turbine, and the second servo motor is used to drive the U-shaped shell to rotate in a horizontal plane through the turbine and the worm.

Further, an antenna is provided at the rear end of the housing, and the antenna is connected to the wireless module.

After adopting the above technical solution, the utility model has the following advantages compared with the existing technology:

The sensor unit of the present utility model can be detachably installed on the casing. The assembly plate cooperates with the installation chute through the slide bars on both sides. Different types of sensors can be installed on the assembly plate as needed, and then fixed on the casing through the assembly plate. , to suit different application scenarios, the collected data can be sent to a remote PC through the wireless module;

The utility model adjusts the orientation of the camera and the sensor through two rotating mechanisms. The servo motor of the vertical rotating mechanism is arranged on the U-shaped frame. When adjustment is required, the first servo motor drives the synchronous belt to rotate to drive the housing in the direction of the camera. Rotating on a vertical plane, the structure of the external motor can reduce the weight of the casing and reduce the work of the first servo motor. The horizontal rotating mechanism adopts a combination of worm gears, which has high power transmission efficiency and has reverse self-locking characteristics. When the second servo motor stops inputting power, the turbine locks itself to prevent the monitor from rotating due to wind force.

The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

Description of drawings

Figure 1 is a schematic diagram of the three-dimensional structure of the utility model;

Figure 2 is a schematic three-dimensional structural diagram of the utility model from another angle;

Figure 3 is an exploded schematic diagram of the monitor of the present utility model;

Figure 4 is a partial cross-sectional structural diagram of the utility model (monitor and installation platform are omitted).

In the drawings, the parts represented by each number are listed as follows:

1. Housing; 11. Installation chute; 2. Camera; 3. Sensor unit; 31. Assembly plate; 311. Slider; 32. Sensor; 4. Protective cover; 5. Front cover; 51. Limit block; 61. U-shaped shell; 62. First synchronous pulley; 63. Second synchronous pulley; 64. First servo motor; 71. Installation table; 72. Turbine; 73. Worm; 74. Second servo motor; 8 ,antenna.

Detailed ways

The principles and features of the present utility model are described below with reference to the accompanying drawings. The examples cited are only used to explain the utility model and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner" and "outer" The directions or positional relationships indicated by , "clockwise" and "counterclockwise" are based on the directions or positional relationships shown in the drawings. They are only for the convenience of describing the present utility model and simplifying the description, rather than indicating or implying the device referred to. Or elements must have a specific orientation, be constructed and operate in a specific orientation, and therefore should not be construed as limitations on the invention.

As shown in Figures 1 and 2, an Internet of Things monitoring and collection device includes a monitor, a vertical rotating mechanism and a horizontal rotating mechanism. The monitor includes a housing 1, a camera 2, a sensor unit 3 and a protective cover 4. The camera 2 is disposed at the front end of the housing 1, the sensor unit 3 is detachably disposed at the bottom of the housing 1, the protective cover 4 is disposed at the top of the housing 1, and the rotating end of the vertical rotation mechanism is in contact with the protective cover. 4 connection, the vertical rotating mechanism is arranged on the rotating end of the horizontal rotating mechanism, the vertical rotating mechanism is used to drive the monitor to rotate in the vertical plane, the horizontal rotating mechanism is used to drive the vertical rotating mechanism and The monitor rotates in the horizontal plane.

As shown in Figures 2 and 3, as an embodiment, the sensor unit 3 includes an assembly plate 31, and a plurality of sensors 32 are provided at the front end of the assembly plate 31;

Horizontal installation chute 11 is provided on both sides of the bottom of the housing 1. The assembly plate 31 is provided with a slide bar 311 that matches the installation chute 11. The front side of the housing 1 is detachably provided with The front cover 5 is provided with a limiting block 51 for limiting the assembly plate 31 in the installation chute 11 .

Specifically, the shape of the bottom end of the housing 1 is a horizontal tapered column. Mounting chute 11 is provided on both sides of the tapered column. The mounting chute 11 is a rectangular slot, and the mounting chute is connected to the front end of the housing 1. , a strip groove is provided on the inner wall of the installation chute 11, and both sides of the assembly plate 31 are provided with slide bars 311 that cooperate with the strip groove. The assembly plate 31 can be inserted into the installation chute from the front end of the installation chute 11. Then the front cover 5 is installed, and the assembly plate 31 is fixed in the installation chute 11 through the limit block 51, and multiple different types of sensors (such as temperature and humidity sensors, gas sensors, pressure sensors, etc.) can be installed on the assembly plate 31 , the model can be an existing conventional model), the power supply can be a direct plug power supply or a battery, the camera 2 and the sensor 32 are both connected to a wireless module, and the wireless module can be Yinghua UHIOT04.

As an implementation manner, an antenna 8 is provided at the rear end of the housing 1 .

As shown in Figure 4, as an embodiment, the vertical rotation mechanism includes a U-shaped shell 61, a first synchronous pulley 62, a second synchronous pulley 63 and a first servo motor 64. The first synchronous belt The wheel 62 is disposed on the bottom side of the U-shaped shell 61, the first servo motor 64 is disposed on the top of the U-shaped shell 61, the second synchronous pulley 63 is disposed on the output end of the first servo motor 64, the The first synchronous pulley 62 and the second synchronous pulley 63 are in the same vertical plane and connected through a synchronous belt, and the protective cover 4 is connected to the rotating shaft of the first synchronous pulley 62;

Specifically, the rotating shafts of the first synchronous pulley 62 and the second synchronous pulley 63 are both arranged horizontally, and the rotating shafts are installed inside the U-shaped shell 61 through bearings. One end of the rotating shaft of the first synchronous pulley 62 passes through the U-shaped shell 61 and the U-shaped shell 61. The protective cover 4 is fixedly connected;

When the vertical angle of the monitor needs to be adjusted, the first servo motor 64 drives the second synchronous pulley 63 to rotate, and drives the first synchronous pulley 62 to rotate through the synchronous belt, thereby driving the monitor to rotate in the vertical plane until it rotates. Stop rotating when it reaches the appropriate angle.

As shown in Figure 4, as an embodiment, the horizontal rotation mechanism includes a mounting platform 71, a turbine 72, a worm 73 and a second servo motor 74. The turbine 72 and the worm 73 are horizontally arranged in the mounting platform 71, and The turbine 72 and the worm 73 mesh with each other, the second servo motor 74 is connected to the worm 73, and the U-shaped shell 61 is connected to the rotating shaft of the turbine 72;

Specifically, the rotating shaft of the worm 73 is arranged horizontally in the mounting platform 71 , the rotating shaft of the turbine 72 is arranged vertically in the mounting platform 71 , and the rotating shaft is installed in the mounting platform 71 through bearings, and the bottom end of the rotating shaft of the turbine 72 passes through the mounting platform 71 and the mounting platform 71 . The top of the U-shaped shell 61 is connected, and the mounting platform 71 can be installed on a vertical pole or other equipment as needed;

When the horizontal angle of the monitor needs to be adjusted, the second servo motor 74 drives the worm 73 to rotate to drive the turbine 72 to rotate, thereby driving the U-shaped shell 61 and the monitor to rotate on the horizontal plane until they rotate to a suitable angle and then stop.

The above are examples of the best embodiments of the present invention, and the parts not described in detail are common knowledge to those of ordinary skill in the art. The protection scope of the present utility model is subject to the content of the claims. Any equivalent transformation based on the technical inspiration of the present utility model is also within the protection scope of the present utility model.

Claims (4)

1. The utility model provides a thing networking control collection system, its characterized in that includes watch-dog, vertical rotary mechanism and horizontal rotary mechanism, the watch-dog includes casing (1), camera (2), sensor unit (3) and protection casing (4), camera (2) set up in casing (1) front end, sensor unit (3) can dismantle and set up in casing (1) bottom, protection casing (4) set up in the top of casing (1), vertical rotary mechanism's rotating end is connected with protection casing (4), vertical rotary mechanism sets up on horizontal rotary mechanism's rotating end, vertical rotary mechanism is used for driving the watch-dog and rotates in vertical plane, horizontal rotary mechanism is used for driving vertical rotary mechanism and watch-dog and rotates in the horizontal plane; the sensor unit (3) comprises an assembly plate (31), a plurality of sensors (32) are arranged at the front end of the assembly plate (31), the camera (2) and the sensors (32) are connected with the wireless module, horizontal installation sliding grooves (11) are formed in two sides of the bottom of the shell (1), sliding strips (311) matched with the installation sliding grooves (11) are arranged on the assembly plate (31), a front cover (5) is detachably arranged on the front side of the shell (1), and limiting blocks (51) used for limiting the assembly plate (31) in the installation sliding grooves (11) are arranged on the front cover (5).

2. The internet of things monitoring and collecting device according to claim 1, wherein the vertical rotating mechanism comprises a U-shaped shell (61), a first synchronous pulley (62), a second synchronous pulley (63) and a first servo motor (64), the first synchronous pulley (62) is arranged on one side of the bottom of the U-shaped shell (61), the first servo motor (64) is arranged at the top of the U-shaped shell (61), the second synchronous pulley (63) is arranged at the output end of the first servo motor (64), the first synchronous pulley (62) and the second synchronous pulley (63) are connected in the same vertical plane and through a synchronous belt, the protective cover (4) is fixedly connected with a rotating shaft of the first synchronous pulley (62), and the first servo motor (64) is used for driving the protective cover (4) to rotate in the vertical plane through the second synchronous pulley (63) and the first synchronous pulley (62).

3. The internet of things monitoring and collecting device according to claim 2, wherein the horizontal rotating mechanism comprises a mounting table (71), a turbine (72), a worm (73) and a second servo motor (74), the turbine (72) and the worm (73) are horizontally arranged in the mounting table (71), the turbine (72) and the worm (73) are meshed with each other, the second servo motor (74) is connected with the worm (73), the U-shaped shell (61) is connected with a rotating shaft of the turbine (72), and the second servo motor (74) is used for driving the U-shaped shell (61) to rotate in a horizontal plane through the turbine (72) and the worm (73).

4. The internet of things monitoring and collecting device according to claim 1, wherein an antenna (8) is arranged at the rear end of the shell (1), and the antenna is connected with the wireless module.