CN212364431U - Electromagnetic radiation monitoring device - Google Patents

Abstract

The utility model relates to an electromagnetic radiation monitoring devices, include: a base; the supporting mechanism is fixedly arranged on the base; the solar panel is connected with the supporting mechanism at one end facing the base and used for converting solar energy into electric energy; and the power storage module is electrically connected with the solar panel and is used for receiving and storing electric energy. The technical scheme of the utility model be through installation supporting mechanism and solar panel on the base, and acquire solar energy and turn into the electric energy with it based on solar panel, and then with the electric energy storage that solar panel conversion obtained to the electric power storage module in, thereby can carry out the continuous power supply based on the electric power storage module when externally the commercial power device power supply is interrupted, can effectively avoid appearing the problem of power supply interruption, also make the sustainable electromagnetic radiation monitoring that carries on of this electromagnetic radiation monitoring devices, avoid appearing the phenomenon that the monitoring was interrupted, better suitability has.

Description

Electromagnetic radiation monitoring device

Technical Field

The utility model relates to an electromagnetic radiation monitoring technology field especially relates to an electromagnetic radiation monitoring devices.

Background

At present, people have entered the information age, broadcast television and radio communication are rapidly developed, and a large number of devices for generating electromagnetic waves, such as television transmission towers, broadcast transmission stations, radar stations, satellite communication earth stations, microwave relay stations, mobile communication base stations and the like, are increasing.

The equipment plays an important role in human life and development, however, electromagnetic radiation in the environment is greatly increased, high-intensity and long-time electromagnetic radiation has adverse effects on the health of the public, the environment is seriously polluted, and then the real-time monitoring on the electromagnetic radiation needs to be enhanced. The electromagnetic radiation monitoring equipment on the existing market often can not continuously monitor the electromagnetic radiation in the environment because of the interruption of power supply. Therefore, the problems to be solved are: how to guarantee that the electromagnetic radiation device can continuously monitor electromagnetic radiation for a long time when the external commercial power equipment stops supplying power.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel electromagnetic radiation monitoring devices, this electromagnetic radiation monitoring devices can be outside when commercial power supply breaks up continuous operation in order to carry out real-time supervision with the electromagnetic radiation to the environment of locating, has better suitability.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an electromagnetic radiation monitoring device comprising:

a base;

the supporting mechanism is fixedly arranged on the base;

the solar panel is connected with the supporting mechanism on one side, facing the base, and is used for converting solar energy into electric energy; and a process for the preparation of a coating,

and the electric power storage module is electrically connected with the solar panel and is used for receiving and storing electric energy.

Further, the electromagnetic radiation monitoring device comprises: the first box is arranged on one side, facing the solar panel, of the base, the side, facing away from the base, of the first box faces the solar panel, and the power storage module is arranged in the first box.

Further, the support mechanism includes: a plurality of bracing pieces, each the bracing piece is parallel to each other the interval sets up, each the bracing piece towards the equal fixed connection in of homonymy tip of base in the base, each the bracing piece is kept away from the homonymy tip of base all with solar panel towards one side of base is connected.

Further, the power storage module includes: the solar control unit is electrically connected with the solar panel, and the storage battery is electrically connected with the solar control unit.

Further, the first box body is also internally provided with:

the air switch is electrically connected with an external commercial power device;

the switching power supply is electrically connected with the air switch; and a process for the preparation of a coating,

and the power supply switching unit is electrically connected with the switching power supply and the electric storage module.

Further, the electromagnetic radiation monitoring device further comprises:

the probe mechanism is used for detecting and acquiring electromagnetic radiation data;

the second box body is arranged on one side of the base, which faces the solar panel, and one side of the second box body, which faces away from the base, faces the solar panel; and a process for the preparation of a coating,

and the communication module is electrically connected with the probe mechanism and is used for receiving and processing the electromagnetic radiation data acquired by the probe mechanism.

Furthermore, a supporting tube is arranged on one side of the base facing the solar panel, the supporting tube and the solar panel are arranged at intervals, and the probe mechanism is arranged at one end of the supporting tube far away from the base.

Further, the communication module includes:

the industrial personal computer is electrically connected with the probe mechanism;

the frequency selection module is electrically connected with the industrial personal computer and the probe mechanism; and a process for the preparation of a coating,

and the network module is electrically connected with the industrial personal computer.

Further, the probe mechanism includes: the frequency selection device comprises a first probe and a second probe, wherein the first probe is electrically connected with the industrial personal computer, and the second probe is electrically connected with the frequency selection module and arranged at intervals with the first probe.

Further, the electromagnetic radiation monitoring device further comprises: the power-off sensing unit is electrically connected with the industrial personal computer and the relay, and the relay is electrically connected with the air switch.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model provides an electromagnetic radiation monitoring devices who provides among the above-mentioned technical scheme, be through installation supporting mechanism and solar panel on the base, and acquire solar energy and turn into the electric energy with it based on solar panel, and then the electric energy storage that obtains solar panel conversion to the electric power storage module, thereby can carry out the continuous power supply based on the electric power storage module when outside commercial power device power supply is interrupted, can effectively avoid appearing the problem of power supply interruption, also make this electromagnetic radiation monitoring devices sustainable electromagnetic radiation monitoring that carries on, avoid appearing the phenomenon of monitoring interruption, better suitability has.

Drawings

Fig. 1 is a schematic view of an electromagnetic radiation monitoring device according to an embodiment of the present invention.

Fig. 2 is a schematic circuit connection diagram of the electromagnetic radiation monitoring device shown in fig. 1.

100. An electromagnetic radiation monitoring device; 10. a base; 20. a support mechanism; 21. a support bar; 30. a solar panel; 40. a first case; 50. a storage battery; 60. a solar control unit; 70. an air switch; 80. a switching power supply; 90. a power supply switching unit; 101. a probe mechanism; 1011. a first probe; 1012. a second probe; 102. a second case; 103. supporting a tube; 104. an industrial personal computer; 105. a frequency selection module; 106. a network module; 107. a power-off sensing unit; 108. a relay.

Detailed Description

The present invention will now be described in more detail with reference to the accompanying drawings, and it is to be understood that the following description of the present invention is made only by way of illustration and not by way of limitation with reference to the accompanying drawings. The various embodiments may be combined with each other to form other embodiments not shown in the following description.

Referring to fig. 1 and 2, an embodiment of the present invention provides a novel electromagnetic radiation monitoring device 100, in which the electromagnetic radiation monitoring device 100 can continuously monitor electromagnetic radiation under the condition that the power supply of the external commercial power device is interrupted, and the problem that the electromagnetic radiation cannot be continuously monitored due to the interruption of the power supply can be effectively avoided.

The electromagnetic radiation monitoring apparatus 100 includes: the solar energy storage system comprises a base 10, a support mechanism 20, a solar panel 30 and an electric power storage module, wherein the support mechanism 20 is fixedly arranged on the base 10; the side of the solar panel 30 facing the base 10 is connected to the supporting mechanism 20, the solar panel 30 is electrically connected to the power storage module, the solar panel 30 receives solar radiation to obtain solar energy and convert the obtained solar energy into electric energy, and the power storage module receives and stores the electric energy converted by the solar panel 30. When the external utility power device interrupts the power supply to the electromagnetic radiation monitoring device 100, the power storage module can continuously supply power based on the stored electric energy, so that the electromagnetic radiation monitoring device 100 can continuously monitor the electromagnetic radiation.

Wherein, the electric power storage module includes: the solar control system comprises a storage battery 50 and a solar control unit 60, wherein the solar panel 30 is electrically connected with the solar control unit 60, and the storage battery 50 is electrically connected with the solar control unit 60. The solar control unit 60 is a solar controller for controlling the solar panel 30 to input and store electric energy into and from the battery 50 and also controlling the battery 50 to output electric energy. It is understood that the solar panel 30 converts the solar energy into the electric energy, and then the electric energy converted by the solar panel 30 is transmitted to the battery 50 for storage through the solar control unit 60, and when the electric energy stored in the battery 50 reaches the maximum, the solar control unit 60 stops transmitting the electric energy to the battery 50.

Wherein, this electromagnetic radiation monitoring device 100 includes: first box 40, this first box 40 are installed in the one side that base 10 faces solar panel 30, and one side that first box 40 is the base 10 dorsad faces solar panel 30 to the electric power storage module is installed in first box 40, and this first box 40 can play waterproof, dustproof effect etc. in order to reach the effect of protecting the electric power storage module that is located first box 40.

Wherein, bearing structure includes each bracing piece 21, and the interval that is parallel to each other sets up between each bracing piece 21, and each bracing piece 21 is towards the equal fixed connection of homonymy tip of base 10 on base 10, and the homonymy tip that each bracing piece 21 kept away from base 10 all is connected with solar panel 30 towards one side of base 10 for support solar panel 30. It can be understood that, the supporting structure includes four supporting rods 21, the four supporting rods 21 are arranged in a square shape, and the height of two supporting rods 21 close to the first box 40 is the same and higher than the height of the other two supporting rods 21, so that the solar panel 30 is disposed in an inclined manner to adjust the irradiated angle of the solar panel 30.

Wherein, still install in first box 40: an air switch 70, a switching power supply 80, and a power supply switching unit 90. One end of the air switch 70 is electrically connected to an external commercial power device, and the other end is electrically connected to the switching power supply 80; the power supply switching unit 90 is electrically connected with the switching power supply 80 and is used for communicating with a power supply circuit to supply power based on an external commercial power device; the power supply switching means 90 is also electrically connected to the power storage module, that is, the power supply switching means 90 is electrically connected to the solar control means 60; when the power supply of the external commercial power device is interrupted, the power supply switching unit 90 will cut off the connection with the switching power supply 80 and be electrically connected with the solar control unit 60, so that the storage battery 50 can supply power instead of the external commercial power device, the purpose of switching the power supply mode is achieved, and the problem that the electromagnetic radiation detection cannot be performed due to the interruption of the power supply of the external commercial power device is avoided. It will be appreciated that the air switch 70, i.e. the air circuit breaker, automatically opens the circuit when the current in the circuit exceeds a defined current, so as to stop the external mains supply; a switching power supply 80, i.e., a switching power supply, a switching converter, for converting a voltage or a current; the power supply switching unit 90 is a dc power switch.

Wherein, this electromagnetic radiation monitoring device 100 still includes: probe mechanism 101, second box 102 and communication module, probe mechanism 101 is used for surveying and obtaining electromagnetic radiation data, for example: comprehensive field intensity, frequency-selective intensity and the like of electromagnetic radiation; the second box 102 is installed on one side of the base 10 facing the solar panel 30, one side of the second box 102 facing away from the base 10 faces the solar panel 30, and the second box 102 has waterproof and dustproof functions to protect the parts inside the second box 102; the communication module is installed inside the second box 102, and the communication module is electrically connected to the probe mechanism 101 and is used for receiving and processing the electromagnetic radiation data detected and acquired by the probe mechanism 101.

The supporting tube 103 is installed on one side of the base 10 facing the solar panel 30, one side of the supporting tube 103 facing the base 10 is fixedly connected with the base 10, the probe mechanism 101 is installed at one end of the supporting tube 103 far away from the base 10, and the supporting tube 103 and the solar panel 30 are arranged at intervals for supporting the probe mechanism 101. In addition, the support pipe 103 is a PVC pipe.

In addition, the probe mechanism 101 includes: the device comprises a first probe 1011 and a second probe 1012, wherein the first probe 1011 is used for detecting and acquiring the comprehensive field intensity of the electromagnetic radiation, and the second probe 1012 is used for detecting and acquiring the frequency-selective intensity. Correspondingly, the number of the support pipes 103 arranged on the side of the base 10 facing the solar panel 30 is two, the first probes 1011 and the second probes 1012 are correspondingly arranged on the end of each support pipe 103, and the two support pipes are parallel to each other and are arranged at two sides of the solar panel 30.

Wherein, this communication module includes: industrial personal computer 104, frequency selection module 105 and network module 106. The industrial personal computer 104 is electrically connected with the frequency selection module 105, and the industrial personal computer 104 and the frequency selection module 105 are electrically connected with the probe mechanism 101, namely: the industrial personal computer 104 is electrically connected with a first probe 1011 in the probe mechanism 101 and is used for receiving comprehensive field intensity data of electromagnetic radiation acquired by the detection of the first probe 1011; the frequency selection module 105 is electrically connected with the second probe 1012 in the probe mechanism 101, the frequency selection module 105 can receive frequency selection intensity data acquired by the second probe 1012 and process the frequency selection intensity data, and then the frequency selection module 105 sends the processed frequency selection intensity data to the industrial personal computer 104. The network module 106 is electrically connected with the industrial personal computer 104, and is configured to receive data, such as the integrated field intensity containing electromagnetic radiation and the processed frequency-selecting intensity, sent by the industrial personal computer 104, and send the received data to an external terminal platform, for example: webpage end, cell-phone APP etc. to the electromagnetic radiation data that the user looked over and obtained after monitoring.

In addition, the industrial personal computer 104, the frequency selection module 105, and the network module 106 are electrically connected to the power supply switching unit 90, so that the power consumption components such as the industrial personal computer 104, the frequency selection module 105, and the network module 106 are supplied with power based on an external commercial power device or the battery 50.

Wherein, this electromagnetic radiation monitoring devices 100 is last still including: outage sensing unit 107 and relay 108, outage sensing unit 107 carries out the electricity with industrial computer 104 and is connected for whether response industrial computer 104 cuts off the power supply, and can generate the outage data that contain relevant information such as outage time, number of times, also can send this outage data to terminal platform, if: a web page end, a mobile phone end and the like. The relay 108 is electrically connected to the power cutoff sensing unit 107 and electrically connected to the air switch.

The power supply switching process of the electromagnetic radiation monitoring apparatus 100 provided in the above embodiment can be described as follows:

when power is supplied based on an external commercial power device, the external commercial power device transmits current to the power utilization components such as the industrial personal computer 104 and the frequency selection module 105 so that the power utilization components can normally monitor and operate; when the power supply of the external commercial power device is interrupted, the power supply switching unit 90 is electrically disconnected from the switching power supply 80 and electrically connected to the solar control unit 60, and then the storage battery 50 outputs current to the electric components such as the solar control unit 60, the network module 106, the industrial personal computer 104, the frequency selection module 105, and the like, so that the electric components can normally monitor and operate.

The electromagnetic radiation monitoring device 100 provided in the above embodiment, through installing supporting mechanism 20 and solar panel 30 on base 10, and acquire solar energy and turn into the electric energy with it based on solar panel 30, and then store the electric energy that solar panel 30 conversion obtained to the electric power storage module, thereby can carry out continuous power supply based on the electric power storage module when external commercial power device power supply is interrupted, can effectively avoid the problem of power supply interruption, also make this electromagnetic radiation monitoring device 100 sustainable electromagnetic radiation monitoring of carrying out, avoid the phenomenon of monitoring interruption, and has better suitability.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. An electromagnetic radiation monitoring device, comprising:

a base (10);

the supporting mechanism (20), the said supporting mechanism (20) is fixedly mounted on the said base (10);

a solar panel (30), wherein one side of the solar panel (30) facing the base (10) is connected with the supporting mechanism (20), and the solar panel (30) is used for converting solar energy into electric energy; and a process for the preparation of a coating,

an electrical storage module electrically connected with the solar panel (30) for receiving and storing electrical energy.

2. The electromagnetic radiation monitoring device according to claim 1, wherein the electromagnetic radiation monitoring device (100) comprises: the solar energy storage device comprises a first box body (40), wherein the first box body (40) is arranged on one side, facing the solar panel (30), of the base (10), one side, facing away from the base (10), of the first box body (40) faces the solar panel (30), and the electric storage module is arranged in the first box body (40).

3. The electromagnetic radiation monitoring device of claim 1, wherein the support mechanism (20) comprises: a plurality of bracing pieces (21), each bracing piece (21) interval setting that is parallel to each other, each bracing piece (21) towards the equal fixed connection in of homonymy tip of base (10) in base (10), each bracing piece (21) are kept away from the homonymy tip of base (10) all with solar panel (30) towards one side of base (10) is connected.

4. The electromagnetic radiation monitoring device of claim 1, wherein the power storage module comprises: the solar control system comprises a storage battery (50) and a solar control unit (60), wherein the solar control unit (60) is electrically connected to the solar panel (30), and the storage battery (50) is electrically connected to the solar control unit (60).

5. The electromagnetic radiation monitoring device of claim 2, wherein said first housing (40) further houses:

an air switch (70), the air switch (70) being electrically connected to an external utility device;

a switching power supply (80), the switching power supply (80) being electrically connected to the air switch (70); and a process for the preparation of a coating,

and a power supply switching unit (90), wherein the power supply switching unit (90) is electrically connected to the switching power supply (80) and the power storage module.

6. The electromagnetic radiation monitoring device according to claim 5, wherein the electromagnetic radiation monitoring device (100) further comprises:

the probe mechanism (101) is used for detecting and acquiring electromagnetic radiation data;

the second box body (102), the second box body (102) is arranged on one side of the base (10) facing the solar panel (30), and one side of the second box body (102) facing away from the base (10) faces the solar panel (30); and a process for the preparation of a coating,

the communication module is electrically connected with the probe mechanism (101) and is used for receiving and processing the electromagnetic radiation data detected and acquired by the probe mechanism (101).

7. An electromagnetic radiation monitoring device as claimed in claim 6, wherein a support tube (103) is provided on a side of the base (10) facing the solar panel (30), the support tube (103) being spaced from the solar panel (30), and the probe means (101) being provided at an end of the support tube (103) remote from the base (10).

8. The electromagnetic radiation monitoring device of claim 6, wherein the communication module comprises:

the industrial personal computer (104), the industrial personal computer (104) is electrically connected with the probe mechanism (101);

the frequency selection module (105), the frequency selection module (105) is electrically connected with the industrial personal computer (104) and the probe mechanism (101); and a process for the preparation of a coating,

a network module (106), wherein the network module (106) is electrically connected with the industrial personal computer (104).

9. The electromagnetic radiation monitoring device of claim 8, wherein the probe mechanism (101) comprises: the frequency selection device comprises a first probe (1011) and a second probe (1012), wherein the first probe (1011) is electrically connected with the industrial personal computer (104), and the second probe (1012) is electrically connected with the frequency selection module (105) and arranged at intervals with the first probe (1011).

10. The electromagnetic radiation monitoring device of claim 8, wherein the electromagnetic radiation monitoring device (100) further comprises: the air switch comprises a power-off sensing unit (107) and a relay (108), wherein the power-off sensing unit (107) is electrically connected with the industrial personal computer (104) and the relay (108), and the relay (108) is electrically connected with the air switch (70).

Images