CN110007372B - SFR-I4H-S type micro-power consumption integrated rainfall telemetering terminal - Google Patents

Abstract

The invention relates to the technical field of rainfall telemetering terminals, in particular to an SFR-I4H-S type micro-power consumption integrated rainfall telemetering terminal, which comprises a waterproof sealing shell, wherein the left end of the upper end surface of the waterproof sealing shell is provided with a seven-core sensor interface and a five-core configuration interface, the front end surface of the waterproof sealing shell is provided with a sealing end cover, and the rainfall telemetering terminal has the advantages that: according to the invention, all the operation modules are integrally designed and fixedly clamped on the insulating support plate, so that parts such as a case, a remote measuring terminal, a communication terminal, a solar charging controller, a lithium battery pack, a rain gauge and the like are all arranged in the terminal, the structural connection is more compact, the shell volume is reduced, and the space utilization efficiency is increased; through installing solar cell panel at the rear end face of shell, through solar panel output port with solar panel access circuit in, realize solar panel and equipment casing integrated design for the power supply at terminal is more stable, reliable.

Description

SFR-I4H-S type micro-power consumption integrated rainfall telemetering terminal

Technical Field

The invention relates to the technical field of rainfall telemetering terminals, in particular to an SFR-I4H-S type micro-power consumption integrated rainfall telemetering terminal.

Background

The remote measuring terminal integrates data acquisition, transmission and storage functions, adopts a low-power-consumption design, is particularly suitable for monitoring sites powered by solar energy, can greatly reduce the cost of solar energy power supply and reduce the construction difficulty, and is widely applied to industries such as meteorology, hydrology, water conservancy, geology and the like.

The telemetering terminal has the following defects in the use of rainfall detection:

1. the traditional rainfall telemetry station comprises a case, a telemetry terminal, a communication terminal, a solar charging controller, a lead storage battery, a rainfall gauge and the like, and the detection device has larger occupied space due to the composition structure, and the telemetry station has more complex internal connection and is inconvenient to maintain;

2. the existing telemetry terminal is usually powered by solar energy, but the detection terminal is connected with a solar panel through a cable, so that the terminal is inconvenient to transport, the cable is easy to break, the terminal is powered off, and the terminal stops running;

3. the existing telemetry terminal has the defects that the operation modules are mutually linked, so that the fault occurs, the shutdown maintenance is needed, and the detection work is influenced.

Disclosure of Invention

The invention aims to provide an SFR-I4H-S type micro-power consumption integrated rainfall telemetering terminal to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the left end of the upper end face of the waterproof sealing shell is provided with a seven-core sensor interface and a five-core configuration interface, the front end face of the waterproof sealing shell is provided with a sealing end cover, the sealing end cover is connected with the front end face of the waterproof sealing shell in a sealing mode through screws in mounting holes, the lower end of the right end face of the waterproof sealing shell is provided with a USB data interface, the rear end face of the waterproof sealing shell is fixedly provided with a baffle, the upper end of the baffle is higher than the upper end face of the waterproof sealing shell, and the rear end face of the baffle is provided with a plurality of solar cell panels in matrix distribution.

Preferably, waterproof sealing shell's inside is provided with insulating cradling plate, insulating cradling plate's up end left end is provided with the plug, and both ends are provided with the ear seat of mutual symmetry about insulating cradling plate, and this ear seat passes through screw fixed mounting at waterproof sealing shell's inner chamber rear end face, and insulating cradling plate's preceding terminal surface is provided with a plurality of mounting grooves, the inside circuit board that is provided with of this mounting groove.

Preferably, the circuit board is a circuit board with a low-power consumption telemetering terminal, and the circuit board comprises an information processing module, an information acquisition module, a power supply module and a wireless transmission module.

Preferably, the information acquisition module is composed of a sensor, a rain gauge and a pulse circuit, wherein the sensor is electrically connected with the seven-core sensor interface and the five-core configuration interface, the lower ends of the seven-core sensor interface and the five-core configuration interface are provided with sockets, the seven-core sensor interface and the five-core configuration interface are electrically connected with the sockets through cables, the upper end of the rain gauge is electrically connected with a plug at the upper end of the insulating support plate, the other end of the rain gauge is electrically connected with the pulse circuit, and the pulse circuit is electrically connected with the central processing circuit.

Preferably, the information processing module is composed of a central control circuit, a USB data interface and a memory, and the central control circuit is electrically connected to the memory.

Preferably, the power supply module is by the lithium cell group, a power supply circuit, solar panel output port and charge controller constitute, wherein charge controller adopts MPPT solar charge controller, MPPT solar charge controller electric connection solar panel output port, solar cell panel is connected to the rear end of this solar panel output port, and solar cell panel adopts W PET solar panel, the upper end electric connection lithium cell group of solar panel output port, the one end electric connection central control circuit of this lithium cell group, and the other end electric connection power supply circuit of lithium cell group, this power supply circuit's the other end upwards extends and electric connection plug.

Preferably, the wireless transmission module is composed of an antenna, a wireless communication device and a remote monitoring device, wherein one end of the antenna is electrically connected with the central control circuit, the other end of the antenna is electrically connected with the wireless communication device, and the wireless communication device is connected with the remote monitoring terminal in a G full-network communication information transmission mode.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, all the operation modules are integrally designed and fixedly clamped on the insulating support plate, so that parts such as a case, a remote measuring terminal, a communication terminal, a solar charging controller, a lithium battery pack, a rain gauge and the like are all arranged in the terminal, the structural connection is more compact, the shell volume is reduced, and the space utilization efficiency is increased;

2. according to the invention, the solar panel is arranged on the rear end face of the shell, and the solar panel is connected into the circuit through the output port of the solar panel, so that the integrated design of the solar panel and the equipment shell is realized, and the power supply of the terminal is more stable and reliable;

3. according to the invention, by arranging the connection of the terminal and the sensor interface, when the integrated rainfall telemetering terminal breaks down, a field manager directly removes the fault machine, installs the standby integrated rainfall telemetering terminal, and then installs the standby integrated rainfall telemetering terminal on the insulating support plate, so that the fault machine is directly sent back to a manufacturer for repair.

Drawings

FIG. 1 is a schematic view of the mounting structure of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a side view of a three-dimensional structure of the present invention;

FIG. 4 is a schematic circuit diagram of an insulating support plate mounting module of the present invention;

FIG. 5 is a seven-core sensor interface pin definition table of the present invention;

FIG. 6 is a table of five-core configuration interface pin definitions in accordance with the present invention;

fig. 7 is a schematic perspective view of an insulating support plate according to the present invention.

In the figure: the intelligent rain gauge comprises a waterproof sealing shell 1, a mounting hole 2, a seven-core sensor interface 3, a baffle 4, a solar cell panel 5, a USB data interface 6, a five-core configuration interface 7, a sealing end cover 8, an ear seat 9, an insulating support plate 10, a socket 11, a cable 12, a plug 13, a solar cell panel output port 14, a charging controller 15, a power supply circuit 16, a rain gauge 17, wireless communication 18, an antenna 19, a memory 20, a pulse circuit 21, a lithium cell pack 22, a central control circuit 23 and a mounting groove 24.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution:

an SFR-I4H-S type micro-power consumption integrated rainfall telemetering terminal comprises a waterproof sealing shell 1, wherein the left end of the upper end face of the waterproof sealing shell 1 is provided with a seven-core sensor interface 3 and a five-core configuration interface 7, the front end face of the waterproof sealing shell 1 is provided with a sealing end cover 8, the sealing end cover 8 is fixedly, hermetically connected with the front end face of the waterproof sealing shell 1 through screws in mounting holes 2, the lower end of the right end face of the waterproof sealing shell 1 is provided with a USB data interface 6, the rear end face of the waterproof sealing shell 1 is fixedly provided with a baffle 4, the upper end of the baffle 4 is higher than the upper end face of the waterproof sealing shell 1, the rear end face of the baffle 4 is provided with a plurality of solar panels 5 which are distributed in a matrix, an insulating support plate 10 is arranged inside the waterproof sealing shell 1, the left end of the upper end face of the insulating support plate 10 is provided with a plug 13, the left end and right end of the insulating support plate 10 are provided with lug seats 9 which are symmetrical with each other, this ear seat 9 passes through screw fixed mounting at the inner chamber rear end face of waterproof sealing shell 1, and the preceding terminal surface of insulating support plate 10 is provided with a plurality of mounting grooves 24, and this mounting groove 24 is inside to be provided with the circuit board.

Referring to FIG. 4: the circuit board is set to be a circuit board with a low-power consumption telemetering terminal, and the circuit board comprises an information processing module, an information acquisition module, a power supply module and a wireless transmission module.

The information acquisition module is composed of a sensor, a rain gauge 17 and a pulse circuit 21, wherein the sensor is electrically connected with the seven-core sensor interface 3 and the five-core configuration interface 7, the lower ends of the seven-core sensor interface 3 and the five-core configuration interface 7 are provided with a socket 11, the seven-core sensor interface 3 and the five-core configuration interface 7 are electrically connected with the socket 11 through a cable 12, the pin definitions of the seven-core sensor interface 3 and the five-core configuration interface 7 are shown in fig. 5 and 6, the upper end of the rain gauge 17 is electrically connected with a plug 13 at the upper end of the insulating support plate 10, the other end of the rain gauge 17 is electrically connected with the pulse circuit 21, and the pulse circuit 21 is electrically connected with the central processing circuit 23.

The information processing module is composed of a central control circuit 23, a USB data interface 6 and a storage 20, wherein the central control circuit 23 is electrically connected with the storage 20, and the storage 20 adopts circulating storage to ensure that power-off data are not lost.

The power supply module is by lithium cell group 22, power supply circuit 16, solar panel output port 14 and charge controller 15 constitute, wherein charge controller 15 adopts MPPT solar charge controller, MPPT solar charge controller electric connection solar panel output port 14, solar cell panel 5 is connected to this solar panel output port 14's rear end, and solar cell panel 5 adopts 5W PET solar panel, solar panel output port 14's upper end electric connection lithium cell group 22, this lithium cell group 22's one end electric connection central control circuit 23, and lithium cell group 22's other end electric connection power supply circuit 16, this power supply circuit 16's the other end upwards extends and electric connection plug 13.

The wireless transmission module is composed of an antenna 19, a wireless communication 18 and a remote monitoring device, wherein one end of the antenna 19 is electrically connected with the central control circuit 23, the other end of the antenna 19 is electrically connected with the wireless communication 18, and the wireless communication 18 is connected with the remote monitoring terminal in a 4G full-network communication information transmission mode.

The working principle is as follows: firstly, each circuit detection module is inserted into the inner cavity of the front end surface of the insulating support plate 10 through the installation groove 24 according to the schematic diagram shown in fig. 4, then the ear seat 9 is matched with the waterproof sealing shell 1 to realize that the insulating support plate 10 is fixedly arranged in the inner cavity of the waterproof sealing shell 1, at this time, the plug 13 at the upper end of the insulating support plate 10 is electrically connected with the socket 11, thereby realizing the communication between the internal parts of the insulating support plate 10 and the sensor, then the sealing end cover 8 is arranged on the front end surface of the waterproof sealing shell 1 through the mounting hole 2, at the moment, the rear end surface of the sealing end cover 8 is tightly attached to the front end surface of the insulating support plate 10, furthermore, all parts are fixed in the mounting groove 24, so that the purpose of convenient mounting is achieved, and meanwhile, all parts are mounted on one insulating support plate 10, so that the structural connection is more compact, the size of the shell is reduced, and the space utilization efficiency is increased;

the rear end face of the waterproof sealing shell 1 is fixedly connected with the solar cell panel 5 through the baffle 4, the solar cell panel 5 is connected into a circuit through the solar cell panel output port 14, and then the integrated design of the solar cell panel 5 and the equipment shell is realized, so that the power supply of the terminal is more stable and reliable;

through the cooperation that sets up plug 13 and fixed socket 11 in the upper end at insulating support plate 10, realize insulating support plate 10 and socket 11's convenient high-speed joint, convenient to detach simultaneously, when integration rainfall telemetering measurement terminal breaks down, on-the-spot managers is through opening end cover 8 and taking off the screw on the ear seat 9, the realization is dismantled the fault machine, simultaneously with reserve integration rainfall telemetering measurement terminal, install on insulating support plate 10, again with insulating support plate 10 fixed mounting in waterproof sealing shell 1's inside, and the fault machine directly sends back the producer and repairs, the efficiency of the quick convenient maintenance has improved the detection and maintenance simultaneously.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. An SFR-I4H-S type micro-power consumption integrated rainfall telemetering terminal comprises a waterproof sealing shell (1), and is characterized in that: the left end of the upper end face of the waterproof sealing shell (1) is provided with a seven-core sensor interface (3) and a five-core configuration interface (7), the front end face of the waterproof sealing shell (1) is provided with a sealing end cover (8), the sealing end cover (8) is fixedly and hermetically connected with the front end face of the waterproof sealing shell (1) through screws in the mounting holes (2), the lower end of the right end face of the waterproof sealing shell (1) is provided with a USB data interface (6), the rear end face of the waterproof sealing shell (1) is fixedly provided with a baffle (4), the upper end of the baffle (4) is higher than the upper end face of the waterproof sealing shell (1), the rear end face of the baffle (4) is provided with a plurality of solar cell panels (5) distributed in a matrix, an insulating support plate (10) is arranged inside the waterproof sealing shell (1), and the left end of the upper end face of the insulating support plate (10) is provided with a plug (13), the left end and the right end of an insulating support plate (10) are provided with lug seats (9) which are mutually symmetrical, the lug seats (9) are fixedly arranged on the rear end face of an inner cavity of a waterproof sealing shell (1) through screws, the front end face of the insulating support plate (10) is provided with a plurality of mounting grooves (24), a circuit board is arranged in the mounting grooves (24), the circuit board adopts a circuit board with a low-power consumption remote measuring terminal, the circuit board comprises an information processing module, an information acquisition module, a power supply module and a wireless transmission module, the information acquisition module consists of a sensor, a rain gauge (17) and a pulse circuit (21), wherein the sensor is electrically connected with a seven-core sensor interface (3) and a five-core configuration interface (7), the lower ends of the seven-core sensor interface (3) and the five-core configuration interface (7) are provided with sockets (11), and the seven-core sensor interface (3) and the five-core configuration interface (7) are electrically connected with the sockets (11) through cables (12), the upper end of a rain gauge (17) is electrically connected with a plug (13) at the upper end of an insulating support plate (10), the other end of the rain gauge (17) is electrically connected with a pulse circuit (21), the pulse circuit (21) is electrically connected with a central control circuit (23), the power supply module is composed of a lithium battery pack (22), a power supply circuit (16), a solar panel output port (14) and a charging controller (15), wherein the charging controller (15) adopts an MPPT solar charging controller, the MPPT solar charging controller is electrically connected with the solar panel output port (14), the rear end of the solar panel output port (14) is connected with a solar panel (5), the solar panel (5) adopts a 5W-PET solar panel, the upper end of the solar panel output port (14) is electrically connected with the lithium battery pack (22), one end of the lithium battery pack (22) is electrically connected with the central control circuit (23), and the other end of the lithium battery pack (22) is electrically connected with the power supply circuit (16), and the other end of the power supply circuit (16) extends upwards and is electrically connected with the plug (13).

2. The SFR-I4H-S type micropower consumption integrated rainfall telemetry terminal of claim 1, wherein: the information processing module consists of a central control circuit (23), a USB data interface (6) and a storage (20), and the central control circuit (23) is electrically connected with the storage (20).

3. The SFR-I4H-S type micropower consumption integrated rainfall telemetry terminal of claim 1, wherein: the wireless transmission module is composed of an antenna (19), wireless communication (18) and a remote monitoring device, wherein one end of the antenna (19) is electrically connected with the central control circuit (23), the other end of the antenna (19) is electrically connected with the wireless communication (18), and the wireless communication (18) is connected with the remote monitoring terminal in a 4G full-network communication information transmission mode.

Images