CN210405477U - Monitoring device - Google Patents

Abstract

An embodiment of the utility model provides a monitoring facilities belongs to the monitoring system field. The monitoring device includes: the front assembly of the host comprises a monitoring part and an assembly part, wherein the assembly part is in a convex spigot shape and extends backwards from the rear end of the monitoring part; the rear shell assembly is provided with an assembly part containing cavity serving as a concave spigot, and the assembly part is detachably arranged in the assembly part containing cavity and forms a coaxial spigot insertion structure; and the annular main machine sealing element is sleeved on the main machine front component and is pressed between the monitoring part and the rear shell component. Through the technical scheme, the monitoring equipment has better and more reliable waterproof capability, the monitoring equipment is prevented from being damaged due to water inflow, the monitoring equipment can better adapt to outdoor monitoring, and the application range is wider.

Description

Monitoring device

Technical Field

The utility model relates to a monitoring system field specifically relates to a monitoring facilities.

Background

Currently, in industrial and agricultural production, monitoring of the production process and production environment is very important. Particularly in the agricultural field, by monitoring the growth state and growth environment of crops, the planting of the crops can be planned, the yield of the crops can be predicted, insect pests can be prevented according to monitoring data, and a targeted and scientific basis is provided for management and batch planting of farmlands and crops. The monitoring data of the growth state and the growth environment of the crops mainly comprise air temperature, air humidity, illumination, images, voice and the like. At present, the farmland is mainly monitored by monitoring equipment such as security cameras and various farmland sensors. However, the current monitoring equipment has poor waterproof performance, and when the monitoring equipment is applied to outdoor monitoring, the monitoring equipment is easily damaged due to water inflow.

SUMMERY OF THE UTILITY MODEL

To at least partially solve the above problems in the prior art, an object of the embodiments of the present invention is to provide a monitoring device.

In order to achieve the above object, the present invention provides a monitoring device, including: the front assembly of the host comprises a monitoring part and an assembly part, wherein the assembly part is in a convex spigot shape and extends backwards from the rear end of the monitoring part; the rear shell assembly is provided with an assembly part containing cavity serving as a concave spigot, and the assembly part is detachably arranged in the assembly part containing cavity and forms a coaxial spigot insertion structure; and the annular main machine sealing element is sleeved on the main machine front component and is pressed between the monitoring part and the rear shell component.

Optionally, the inner peripheral wall of the fitting part receptacle is formed with a hollow boss including a hollow receptacle for mounting an electronic component.

Optionally, the electronic component includes a user identification card assembly, an outer end of the user identification card assembly being formed as an interface end exposed radially outward.

Optionally, a card cover slot formed around the interface end of the user identification card assembly is formed in the peripheral wall of the rear shell assembly, and the monitoring device further comprises a card cover detachably inserted into the card cover slot to cover the interface end of the user identification card assembly.

Optionally, the card cover slot is an inwardly-recessed stamped slot formed on a peripheral wall of the rear housing assembly.

Optionally, the monitoring device further comprises a card cover sealing member disposed between an inner peripheral wall of the card cover slot and an outer peripheral wall of the card cover to form a circumferential waterproof seal.

Optionally, the card cover seal is a bellows-like sealing sleeve, the sealing sleeve having an axial length greater than 5 mm.

Optionally, the electronic component includes a switch module, an outer peripheral wall of the rear housing assembly is provided with an operation portion mounting hole, an operation portion of the switch module passes through the operation portion mounting hole and is exposed to the outside, and a sealant or an encapsulation is filled between the outer peripheral wall of the operation portion and an inner wall of the operation portion mounting hole.

Optionally, the hollow cavity communicates with a socket hole on a rear end surface of the rear housing assembly, the electronic component further includes a power module, and the monitoring device further includes: a waterproof socket inserted into the socket hole to be connected with the power module; and the waterproof wire is used for connecting the waterproof socket and the solar panel.

On the other hand, the embodiment of the utility model provides a still provide foretell monitoring facilities's mounting structure, monitoring facilities slope sets up, makes before the host computer subassembly be less than the backshell subassembly.

Optionally, the inner peripheral wall of the fitting part receptacle may be formed with a hollow protrusion protruding upward from a bottom of the inner peripheral wall and including a hollow receptacle for mounting an electronic component.

Through the technical scheme, the monitoring equipment has better and more reliable waterproof capability, the monitoring equipment is prevented from being damaged due to water inflow, the monitoring equipment can better adapt to outdoor monitoring, and the application range is wider.

Other features and advantages of embodiments of the present invention will be described in detail in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the embodiments of the invention, but do not constitute a limitation of the embodiments of the invention. In the drawings:

fig. 1 and 2 are partial exploded views of a monitoring device according to an embodiment of the present invention;

fig. 3 is a schematic usage diagram of a monitoring device according to an embodiment of the present invention;

fig. 4 is a partially enlarged view of a portion a of fig. 3;

fig. 5 is an exploded view of a front main unit assembly of a monitoring device according to an alternative embodiment of the present invention;

fig. 6 is a partial exploded view of a rear housing assembly of a monitoring device provided in accordance with an alternative embodiment of the present invention;

fig. 7 is a schematic view of a monitoring device according to an alternative embodiment of the present invention;

fig. 8 is an exploded view of a card cover according to an alternative embodiment of the present invention;

fig. 9 is a schematic view of a mounting bracket provided in an alternative embodiment of the present invention;

fig. 10 is a partial exploded view of a rear housing assembly of a monitoring device provided in accordance with an alternative embodiment of the present invention; and

fig. 11 is a schematic view of a monitoring device according to an alternative embodiment of the present invention.

Description of the reference numerals

1 front assembly of main unit and 2 rear shell assembly

3 solar cell panel 4 monitoring facilities installation pole

11 monitoring part 12 assembling part

111 host seal 112 overlap region

113 infrared light-transmitting sheet 114 image acquisition module

115 infrared lamp panel 116 voice collecting through hole

117 illumination collection module 118 brim

121 slot 122 main control board

123 main control board fixing piece 124 positioning module

125 groove side wall

21 mounting part receptacle 22 hollow boss

23 mounting bracket 24 socket hole

25 waterproof socket 26 waterproof wire

221 subscriber identity card assembly 222 card cover

223 switch module 224 power module

225 temperature and humidity sensor 231 support connecting part

232 anti-rotation connecting portion 2221 card lid sealing member

2222 card cover peripheral wall 2223 card cover slot

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

In the present invention, the embodiments and the features of the embodiments may be combined with each other without conflict.

If directional indications (such as up, down, left, right, front, and rear … …) are involved in the embodiments of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

As shown in fig. 1 to 11, the embodiment of the present invention provides a monitoring device, which can be applied to monitoring of agricultural production. The monitoring device comprises a main unit front assembly 1, a rear housing assembly 2 and an annular main unit seal 111. The main unit front assembly 1 includes a monitor portion 11 at a front end and a mounting portion 12 at a rear end. The assembly part 12 is a convex spigot and extends backwards from the rear end of the monitoring part 11, the rear shell component 2 is provided with an assembly part containing cavity 21 as a concave spigot, and the assembly part 12 is detachably installed in the assembly part containing cavity 21 and forms a coaxial spigot plugging structure. As shown in fig. 2, the mounting portion 12 is provided with a plug-in groove 121, and the inner peripheral wall of the mounting portion accommodating cavity 21 is formed with a hollow protrusion 22, and when the mounting portion 12 is mounted in the mounting portion accommodating cavity 21, the hollow protrusion 22 and the plug-in groove 121 form a plug-in fit. The hollow boss 22 has a hollow cavity for mounting electronic components such as a subscriber identity card assembly 221, a switch module 223, a temperature and humidity sensor 225, and a power module 224. So, through set up cavity bellying 22 in backshell subassembly 2 to form the cooperation of pegging graft with the cartridge groove 121 of assembly portion 12, not only can make monitoring facilities's spatial arrangement more sparingly reasonable, can also play the function of positioning of assembly, so that monitoring facilities's production, thereby improve production efficiency, reduction in production cost.

As shown in fig. 1 to 4, a main unit sealing member 111 is sleeved on the main unit front component 1 and pressed between the monitoring portion 11 and the rear housing component 2, wherein the main unit sealing member 111 may be, for example, an elastic sealing ring. In this way, the fitting portion of the main unit front assembly 1 is covered by the rear housing assembly 2, and an overlapping area 112 is formed between the monitor portion 11 and the rear housing assembly 2, the main unit seal 111 is located at the overlapping area 112, and the monitor portion 11 and the rear housing assembly 2 form a waterproof seal by pressing the main unit seal 111. Because monitoring portion 11 and backshell subassembly 2 all extrude annular host computer sealing member 111 through the perisporium, consequently host computer sealing member 111's stress surface is whole annular surface to host computer sealing member 111 atress dispersion is even, and then can avoid host computer sealing member 111 to appear the fracture phenomenon, so that water-proof effects is more reliable.

Therefore, the monitoring equipment has better and more reliable waterproof capability, the monitoring equipment is prevented from being damaged due to water inflow, the monitoring equipment can better adapt to outdoor monitoring, and the application range is wider.

The utility model relates to an optional implementation way, as shown in fig. 5, the monitoring portion 11 of subassembly 1 can include image acquisition device before the host computer, and this image acquisition device can be for visible light camera or infrared camera etc. mainly used gathers image data, and this image data can include video and photo etc.. A brim 118 is formed at the front edge of the monitoring part 11, and the brim 118 can prevent the lens of the image capturing device from affecting the image capturing effect due to the accumulation of dust and sand. Wherein, when the image acquisition device is an infrared camera, the image acquisition device can include an infrared light-transmitting sheet 113, an image acquisition module 114 and an infrared lamp panel 115. Wherein, infrared printing opacity piece 113 sets up in the front end of monitoring portion 11, and image acquisition module 114 sets up in infrared printing opacity piece 113 inboard, and infrared lamp plate 115 sets up around image acquisition module 114. The infrared lamp panel 115 is used for emitting infrared rays to the outside to irradiate an object, and the infrared rays are transmitted to the image acquisition module 114 through the infrared light-transmitting sheet 113 after being subjected to diffuse reflection by the object. The image acquisition module 114 is configured to receive the infrared rays transmitted through the infrared transmitting sheet 113 and generate image data based on the received infrared rays. It can be understood that, because monitoring facilities's inside is sealed relatively, and infrared lamp plate 115 of infrared camera gives out heat great, consequently sets up infrared camera at monitoring portion 11 foremost, can avoid the inside high temperature of monitoring facilities, and then avoids monitoring facilities to leak because of the inflation.

Further, the monitoring part 11 further includes a voice collecting module (not shown) and a light collecting module 117. Wherein, the voice acquisition module sets up in infrared printing opacity piece 113 inboard, corresponds this voice acquisition module on the mounting panel around the infrared printing opacity piece 113 and is provided with pronunciation collection through-hole 116, and pronunciation collection module can gather pronunciation through this pronunciation collection through-hole 116. The illumination collection module 117 is also disposed inside the infrared transparent sheet 113, and a detection portion of the illumination collection module 117 penetrates through the mounting plate around the infrared transparent sheet 113 to collect illumination intensity. Wherein, the voice acquisition through hole 116 can be used for communicating the inside of the monitoring device with the outside besides being used for transmitting voice, thereby balancing the inside and outside air pressure and temperature of the monitoring device and avoiding the inside temperature and the too high air pressure of the monitoring device.

In addition, the monitoring device further includes a main control board 122, a positioning module 124, and a wireless communication module (not shown). The main control board 122 is mounted on the outer bottom wall of the insertion slot 121 of the assembly portion 12 through the main control board fixing member 123, and a single chip microcomputer or a microprocessor and other elements may be disposed on the main control board 122, so as to control electronic elements, such as an image acquisition device, a voice acquisition module, a light acquisition module 117, a positioning module 124, a wireless communication module, a user identification card assembly 221, a switch module 223, and a power module 224, electrically connected to the main control board 122, and process related data. The positioning module 124 may be disposed on the main control board 122 for positioning the monitoring device, and since the positioning module 124 is far away from the image capturing device located on the monitoring portion 11, the interference of the image capturing module 114 and the infrared lamp panel 115 on the position information detection may be avoided. The Positioning module 124 may be a GPS (Global Positioning System) module or a beidou Positioning module. The wireless communication module may be provided in the slot sidewall 125 of the cartridge slot 121, and an antenna connected to the wireless communication module may be provided on an outer surface of the slot sidewall 125. The wireless communication module may be, for example, a 4G module, a 5G module, a WiFi module, a bluetooth module, or the like. Through installing wireless communication module in the groove lateral wall 125 of cartridge groove 121, can effectively avoid orientation module 124, image acquisition module 114 and infrared lamp plate 115 to cause the interference to wireless communication module. Thus, a reasonable installation position is determined according to the functions of the main control board 122, the positioning module 124 and the wireless communication module, so that interference among electronic elements can be avoided, and space and cost can be saved.

In an optional implementation manner, the wireless communication module may be, for example, a 4G module, and the 4G module may be electrically connected to the subscriber identity module 221 of the monitoring device to obtain relevant subscriber identity information, so as to perform transceiving of wireless data. Data collected by the image collection device, the voice collection module, the illumination collection module 117, the positioning module 124 and the temperature and humidity sensor 225 of the monitoring device are firstly transmitted to the main control board 122, and the main control board 122 sends the data to the background server through the 4G module. Therefore, the agricultural digital monitoring system can realize real-time monitoring and remote observation of crops, and can also carry out agricultural digital processing on long-term collected data through the background server so as to realize datamation of production states and environments, thereby promoting informatization and datamation development of agriculture. The user can inquire the growth state and the environmental information of the crops in real time through the background terminal or the mobile phone, so that the crops can be managed more effectively and disasters can be prevented in time.

In an alternative embodiment of the present invention, as shown in fig. 6 to 8, a subscriber identity module (sim) card module may be disposed in the hollow cavity of the hollow protruding portion 22 of the rear housing module 2. The outer end of the subscriber identity card assembly 221 is formed as an interface end exposed radially outward. A card cover insertion slot 2223 formed around the interface end of the sim card 221 is formed on the outer peripheral wall of the rear case member 2, and the card cover insertion slot 2223 may be, for example, an inwardly-recessed punched slot formed on the outer peripheral wall of the rear case member 2. The monitoring device may further include a card cover 222 removably inserted into the card cover slot 223 to cover the interface end of the subscriber identity card assembly 221, and a card cover seal 2221 may be provided between an inner circumferential wall of the card cover slot 223 and an outer circumferential wall of the card cover 222 to form a circumferential waterproof seal. For a good waterproof effect, the card cover sealing member 221 may be, for example, a sealing sleeve in the shape of a bellows, and the axial length of the sealing sleeve is greater than 5 mm. The card cover seal 221 is not limited to a bellows-shaped seal sleeve, and may be other types of sleeves, collars, and the like.

Further, a switch module 223 may be disposed in the hollow cavity of the hollow boss 22. The outer peripheral wall of the rear case assembly 2 may be provided with an operation portion mounting hole through which an operation portion (i.e., a key or knob portion) of the switch module 223 is exposed to the outside. And sealant or rubber coating is filled between the peripheral wall of the operating part and the inner wall of the hole of the operating part mounting hole so as to perform waterproof sealing.

In addition, a detection module for detecting the ambient temperature and/or the ambient humidity may be further disposed in the hollow cavity of the hollow protruding portion 22. The detection module may be, for example, a temperature and humidity sensor 225. Through putting temperature and humidity sensor 225 in rear shell assembly 2's cavity bellying 22, can be so that temperature and humidity sensor 225 keeps away from heat sources such as image acquisition device to improve and detect the precision. In addition, the space where the temperature and humidity sensor 225 is located can be divided into independent cavities communicated with the outside, so that the influence of other heat sources of the monitoring equipment on the detection precision of the temperature and humidity sensor 225 can be avoided, and the detection precision of the temperature and humidity sensor 225 is further improved.

In an alternative embodiment of the present invention, as shown in fig. 2, 10 and 11, a power module 224 may be further disposed in the hollow cavity of the hollow protruding portion 22, and the power module 224 may be disposed near the rear end face of the rear housing component 2. The hollow receptacle of the hollow boss 22 communicates with a receptacle hole 24 on the rear end face of the rear housing component 2. The monitoring device may also include a waterproof socket 25 and a waterproof wire 26, the waterproof socket 25 being inserted into the socket hole 24 to connect with the power module 224. The waterproof wire 26 connects the waterproof socket 25 with the solar panel 3 to supply power to the monitoring device through the solar panel 3, so that the monitoring device can still be used under the condition of no power supply of a power grid.

As shown in fig. 6, 9 and 11, the monitoring device may further include a mounting bracket 23 mounted on the rear housing assembly 2, the mounting bracket including a bracket body, and bracket coupling parts 231 and rotation-preventing coupling parts 232 provided at both ends of the bracket body. The mounting bracket 23 may be located at the bottom of the rear housing assembly 2 when the monitoring device is assembled. The bracket connecting portion 231 and the anti-rotation connecting portion 232 can be threaded holes, wherein the aperture of the bracket connecting portion 231 is large to play a role in fixing, and the aperture of the anti-rotation connecting portion 232 is small to prevent the monitoring device from rotating on the mounting bracket 23. By means of the mounting bracket 23 and the corresponding fixing bolt, the monitoring device can be stably mounted on the monitoring device mounting pole 4.

As shown in fig. 3 and 11, the embodiment of the present invention further provides a mounting structure of a monitoring device. Specifically, the monitoring device may be mounted on the monitoring device mounting post 4 at an incline via a bottom mounting bracket 23, and such that the host front assembly 1 is lower than the rear housing assembly 2. Adopt the slope assembly can make monitoring facilities be difficult for ponding in the rainy day to play a natural waterproof effect. The hollow protruding portion 22 of the assembly portion receiving cavity 21 may protrude upward from the bottom of the inner circumferential wall of the assembly portion receiving cavity 21, and the user identification card assembly 221 and the switch module 223 may be disposed in the hollow receiving cavity of the hollow protruding portion 22. A card cover 222 for covering the user identification card assembly 221 and an operation portion mounting hole for mounting the switch module 223 are located at the bottom of the rear case assembly 2. Wherein, card lid 222 inserts backshell subassembly 2 from bottom to top to structure about constituting, thereby when raining, because the rainwater down flows from the top, consequently in difficult entering user identification card subassembly 221, and then play better water-proof effects, guarantee that the user also can not damage monitoring facilities because of intaking when switching card lid 222. Through the design, a user can conveniently take and put the user identity identification card (namely the SIM card) and carry out switching operation, and a better waterproof effect can be achieved.

The utility model discloses among the above-mentioned technical scheme, monitoring facilities has integrateed a plurality of data acquisition modules such as image acquisition device, temperature and humidity sensor, pronunciation collection module, illumination collection module and orientation module, can gather multiple data such as ambient temperature, ambient humidity, illumination intensity, image, pronunciation and position. For the mode that adopts security protection camera and farmland sensor to monitor at present, the utility model discloses embodiment provides a monitoring facilities has that the integrated level is high, save space, water-proof effects is good, the precision is high, the low power dissipation, portable, the installation is simple and advantage with low costs. Data collected by the monitoring equipment can be transmitted through the wireless communication module, and the solar cell panel can be used for supplying power, so that the monitoring equipment is not limited by communication lines and power supply lines, the installation area is more flexible, and the monitoring equipment can be widely applied to agricultural production.

The present invention has been described in detail with reference to the accompanying drawings, but the present invention is not limited to the details of the foregoing embodiments, and the technical idea of the present invention can be within the scope of the present invention, and can be modified to various simple modifications, and these simple modifications all belong to the protection scope of the present invention.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. In order to avoid unnecessary repetition, the embodiments of the present invention do not separately describe various possible combinations.

In addition, various different embodiments of the present invention can be combined arbitrarily, and the disclosed content of the present invention should be considered as the same as long as it does not violate the idea of the embodiments of the present invention.

Claims (11)

1. A monitoring device, characterized in that the monitoring device comprises:

the host front assembly (1) comprises a monitoring part (11) and an assembling part (12), wherein the assembling part (12) is in a convex spigot shape and extends backwards from the rear end of the monitoring part (11);

the rear shell assembly (2) is provided with an assembly part accommodating cavity (21) serving as a concave spigot, and the assembly part (12) is detachably arranged in the assembly part accommodating cavity (21) and forms a coaxial spigot insertion structure; and

and the annular main machine sealing piece (111) is sleeved on the main machine front component (1) and is pressed between the monitoring part (11) and the rear shell component (2).

2. The monitoring device according to claim 1, characterized in that the inner peripheral wall of the fitting part receptacle (21) is formed with a hollow boss (22), the hollow boss (22) comprising a hollow receptacle for mounting an electronic component.

3. The monitoring device according to claim 2, wherein the electronic component comprises a user identification card assembly (221), an outer end of the user identification card assembly (221) being formed as an interface end exposed radially outward.

4. The monitoring device according to claim 3, wherein a card cover slot (2223) formed around the interface end of the SIM card assembly (221) is formed on the peripheral wall of the rear housing assembly (2), and the monitoring device further comprises a card cover (222) detachably inserted into the card cover slot (2223) to cover the interface end of the SIM card assembly (221).

5. The monitoring device of claim 4, wherein the card cover slot (2223) is an inwardly stamped groove formed on a peripheral wall of the rear housing component (2).

6. The monitoring device of claim 4, further comprising a card cover seal (2221) disposed between an inner peripheral wall of the card cover receptacle (2223) and an outer peripheral wall of the card cover (222) to form a circumferential waterproof seal.

7. The monitoring device of claim 6, wherein the card cover seal (2221) is a bellows-like sealing sleeve having an axial length greater than 5 mm.

8. The monitoring device according to claim 2, wherein the electronic component comprises a switch module (223), the outer peripheral wall of the rear housing component (2) is provided with an operating part mounting hole, the operating part of the switch module (223) is exposed outwards through the operating part mounting hole, and a sealant or an encapsulation is filled between the outer peripheral wall of the operating part and the inner wall of the operating part mounting hole.

9. The monitoring device according to claim 2, wherein the hollow cavity communicates with a socket hole (24) on a rear end face of the rear housing assembly (2), the electronic component further comprising a power supply module (224), the monitoring device further comprising:

a waterproof socket (25), the waterproof socket (25) being inserted into the socket hole (24) to be connected with the power module (224); and

and the waterproof wire (26) is used for connecting the waterproof socket (25) and the solar panel (3).

10. The mounting structure of the monitoring device according to any one of claims 1 to 9, wherein the monitoring device is disposed obliquely such that the main unit front component (1) is lower than the rear case component (2).

11. The mounting structure of a monitoring device according to claim 10, wherein an inner peripheral wall of the fitting portion housing chamber (21) is formed with a hollow boss (22), the hollow boss (22) protruding upward from a bottom of the inner peripheral wall and including a hollow housing chamber for mounting an electronic component.

Images