CN213484588U

CN213484588U - Regulator cubicle data remote transmission communication device

Info

Publication number: CN213484588U
Application number: CN202023061007.4U
Authority: CN
Inventors: 李锡刚
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-17
Filing date: 2020-12-17
Publication date: 2021-06-18
Anticipated expiration: 2030-12-17

Abstract

The electric cabinet data remote transmission communication device comprises an electric cabinet, wherein a controller is arranged in a cabinet body of the electric cabinet, and a WIFI communicator and a GPRS communicator are connected to the controller and used for establishing remote communication with an upper computer so as to transmit parameter data of the electric cabinet to the upper computer; the controller is also connected with a temperature sensor and a radiator which are matched with each other, the temperature sensor is used for detecting temperature parameters in the electric cabinet body, and the radiator is used for reducing the temperature in the electric cabinet body; based on the electrical connection structure of WIFI communicator and GPRS communicator and controller, can be with the regulator cubicle cabinet body parameter data transmission who corresponds to long-range host computer, realize the long-range accurate transmission of data, do not need the staff scene to patrol and examine one by one, saved time and manpower and materials, promoted the detection efficiency of regulator cubicle.

Description

Regulator cubicle data remote transmission communication device

The technical field is as follows:

the utility model relates to a regulator cubicle data remote transmission communication device.

Background art:

the electrical cabinet is a cabinet which is processed by steel materials and used for protecting components from working normally, can be divided into a power electrical cabinet and a lighting electrical cabinet, and is the final-stage equipment of a power supply and distribution system; the electrical cabinet is a general name of a motor control center, and is used in occasions with dispersed loads and less loops; the motor control center is used for occasions with concentrated loads and more loops; they distribute the power of a circuit of a higher level of power distribution equipment to nearby loads, which provide protection, monitoring and control of the loads.

The electric cabinet product also adopts a large-screen liquid crystal touch screen to monitor the electric power quality such as voltage, current, frequency, useful power, useless power, electric energy, harmonic wave and the like in an all-around way. The user is clear at a glance of the operation condition of the machine room power distribution system, so that potential safety hazards can be found as soon as possible, and risks can be avoided as soon as possible; in addition, the user can also select functions such as ATS, EPO, lightning protection, isolation transformer, UPS maintenance switch, commercial power output shunt circuit and the like, so that the safety and stability of the machine room power distribution system are ensured.

In the operation process of the electrical cabinet, the normal and stable operation of the electrical cabinet is ensured by detecting the parameter data of the electrical cabinet in real time; in the existing use environment, the detection is usually carried out in a manual inspection mode, although the running state of the electrical cabinets can be detected, because the number of the electrical cabinets is large, a large amount of time, manpower and material resources are wasted in each inspection, and the detection efficiency is low; moreover, the working strength is high, and workers are easy to fatigue, so that large errors and careless mistakes are easy to occur in the detection process.

The utility model has the following contents:

the embodiment of the utility model provides a regulator cubicle data remote transmission communication device, structural design is reasonable, based on the electrical connection structure of WIFI communicator and GPRS communicator and controller, can be with the regulator cubicle cabinet body parameter data transmission who corresponds to long-range host computer, realize the long-range accurate transmission of data, do not need the staff scene to patrol and examine one by one, saved time and manpower and materials, promoted the detection efficiency of regulator cubicle, solved the problem that exists among the prior art.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be:

the electric cabinet data remote transmission communication device comprises an electric cabinet, wherein a controller is arranged in a cabinet body of the electric cabinet, and a WIFI communicator and a GPRS communicator are connected to the controller and used for establishing remote communication with an upper computer so as to transmit parameter data of the electric cabinet to the upper computer; the controller is also connected with a temperature sensor and a radiator which are matched with each other, the temperature sensor is used for detecting temperature parameters in the electric cabinet body, and the radiator is used for reducing the temperature in the electric cabinet body; the controller is also provided with a voltage stabilizer which is used for providing stable and continuous power supply voltage for the controller; the controller is of a model STM32F072C, 48 pins are arranged on the controller, the controller is connected with the voltage stabilizer through a first pin, crystal oscillators are arranged on a third pin and a fourth pin of the controller, a second capacitor and a third capacitor which are connected in parallel are arranged on the crystal oscillators, and a seventh pin of the controller is grounded through a first capacitor; the controller is connected with the GPRS communicator through a No. twelve pin, a No. thirteen pin and a No. fourteen pin; the controller is connected with the radiator through a twenty-five pin, and the controller is connected with the WIFI communicator through a twenty-nine pin and a thirty-one pin; the controller is connected with the temperature sensor through a thirty-two pin and a thirty-three pin.

The model of the voltage stabilizer is LM317, 3 pins are arranged on the voltage stabilizer, and a pin III of the voltage stabilizer is connected with a pin I of the controller; and a ninth capacitor and a tenth resistor are arranged between the first pin and the second pin of the voltage stabilizer, and a tenth capacitor and an eleventh resistor are arranged between the second pin and the third pin of the voltage stabilizer.

The GPRS communicator is in a SIM800C model, 42 pins are arranged on the GPRS communicator, the GPRS communicator is connected with a No. twelve pin of a controller through a No. one pin and a third resistor, the GPRS communicator is connected with a No. thirteen pin of the controller through a No. two pin and a fourth resistor, and the GPRS communicator is connected with a No. fourteen pin of the controller through a No. six pin and a fifth resistor; a sixth resistor and a seventh resistor which are connected in parallel are arranged between the second pin and the sixth pin of the GPRS communicator; the GPRS communicator is connected with an SIM card through a pin fifteen, a pin sixteen, a pin seventeen and a pin eighteen, a fourth capacitor, a fifth capacitor and a sixth capacitor are respectively arranged on the pin fifteen, the pin sixteen and the pin seventeen of the GPRS communicator, and a seventh capacitor is connected on the pin eighteen of the GPRS communicator.

The temperature sensor is SHT20 in model, 4 pins are arranged on the temperature sensor, the temperature sensor is correspondingly connected with thirty-two pins and thirty-three pins of the controller through a second pin and a third pin, a first pin of the temperature sensor is connected with a 3.3V power supply, and a fourth pin of the temperature sensor is grounded; a first resistor and a second resistor which are connected in parallel are arranged between a pin II and a pin III of the temperature sensor, and a 3.3V power supply is connected.

The type of the radiator is TC4427, 8 pins are arranged on the radiator, a fourth pin of the radiator is connected with a twenty-fifth pin of the controller, and a sixth pin of the radiator is connected with a seventh capacitor and an eighth capacitor which are connected in parallel; the fifth pin of the radiator is connected with an MOS (metal oxide semiconductor) tube through a twelfth resistor and a thirteenth resistor which are connected in parallel, the drain electrode of the MOS tube is connected with a cooling fan, and the MOS tube is used for driving the cooling fan to move and cool.

The type of the WIFI communicator is ESP8266, 8 pins are arranged on the WIFI communicator, a fourth pin of the WIFI communicator is connected with a twenty-ninth pin of the controller, and an eighth pin of the WIFI communicator is connected with a thirty-first pin of the controller.

By adopting the structure, the utility model connects different types of electric elements through the controller, and performs remote communication transmission of data under the integrated control action of the controller; remote communication is established through the WIFI communicator and the GPRS communicator and the upper computer, and selection can be performed according to actual requirements and application scenes; the voltage stabilizer provides stable and continuous power supply voltage for the controller to ensure the normal operation of the controller; the temperature sensor is matched with the radiator to ensure that the temperature in the electric cabinet body is in a proper range, the phenomenon that the electric elements are burnt due to overhigh temperature rise can be avoided, and the electric cabinet has the advantages of time saving, labor saving, accuracy, practicability, simplicity, convenience and high efficiency.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a control schematic diagram of the present invention

Fig. 3 is an electrical schematic diagram of the controller of the present invention.

Fig. 4 is an electrical schematic diagram of the voltage regulator of the present invention.

Fig. 5 is the utility model discloses the electric schematic diagram of WIFI communicator.

Fig. 6 is an electrical schematic diagram of the GPRS communicator of the present invention.

Fig. 7 is an electrical schematic diagram of the temperature sensor of the present invention.

Fig. 8 is an electrical schematic diagram of the heat sink of the present invention.

The specific implementation mode is as follows:

in order to clearly illustrate the technical features of the present invention, the present invention is explained in detail by the following embodiments in combination with the accompanying drawings.

As shown in fig. 1 to 8, the electrical cabinet data remote transmission communication device includes an electrical cabinet, a controller is arranged in a cabinet body of the electrical cabinet, and a WIFI communicator and a GPRS communicator are connected to the controller and are used for establishing remote communication with an upper computer to transmit parameter data of the electrical cabinet to the upper computer; the controller is also connected with a temperature sensor and a radiator which are matched with each other, the temperature sensor is used for detecting temperature parameters in the electric cabinet body, and the radiator is used for reducing the temperature in the electric cabinet body; the controller is also provided with a voltage stabilizer which is used for providing stable and continuous power supply voltage for the controller; the controller is of a model STM32F072C, 48 pins are arranged on the controller, the controller is connected with the voltage stabilizer through a first pin, crystal oscillators are arranged on a third pin and a fourth pin of the controller, a second capacitor and a third capacitor which are connected in parallel are arranged on the crystal oscillators, and a seventh pin of the controller is grounded through a first capacitor; the controller is connected with the GPRS communicator through a No. twelve pin, a No. thirteen pin and a No. fourteen pin; the controller is connected with the radiator through a twenty-five pin, and the controller is connected with the WIFI communicator through a twenty-nine pin and a thirty-one pin; the controller is connected with the temperature sensor through a thirty-two pin and a thirty-three pin.

The GPRS communicator is in a SI800C model, 42 pins are arranged on the GPRS communicator, the GPRS communicator is connected with a No. twelve pin of a controller through a No. one pin and a third resistor, the GPRS communicator is connected with a No. thirteen pin of the controller through a No. two pin and a fourth resistor, and the GPRS communicator is connected with a No. fourteen pin of the controller through a No. six pin and a fifth resistor; a sixth resistor and a seventh resistor which are connected in parallel are arranged between the second pin and the sixth pin of the GPRS communicator; the GPRS communicator is connected with an SIM card through a pin fifteen, a pin sixteen, a pin seventeen and a pin eighteen, a fourth capacitor, a fifth capacitor and a sixth capacitor are respectively arranged on the pin fifteen, the pin sixteen and the pin seventeen of the GPRS communicator, and a seventh capacitor is connected on the pin eighteen of the GPRS communicator.

The embodiment of the utility model provides an in regulator cubicle data remote transmission communication device's theory of operation does: the electrical connection structure based on the WIFI communicator, the GPRS communicator and the controller can transmit corresponding electrical cabinet body parameter data to a remote upper computer, remote accurate transmission of the data is achieved, a worker does not need to patrol one by one on the site, time and manpower and material resources are saved, the detection efficiency of the electrical cabinet is improved, and the electrical cabinet can be suitable for electrical cabinets of different models.

In the whole scheme, a controller is connected with a voltage stabilizer through a first pin, crystal oscillators are arranged on a third pin and a fourth pin of the controller, a second capacitor and a third capacitor which are connected in parallel are arranged on the crystal oscillators, and a seventh pin of the controller is grounded through a first capacitor; the controller is connected with the GPRS communicator through a No. twelve pin, a No. thirteen pin and a No. fourteen pin; the controller is connected with the radiator through a twenty-five pin, and is connected with the WIFI communicator through a twenty-nine pin and a thirty-one pin; the controller is connected with the temperature sensor through thirty-two pins and thirty-three pins.

After the circuit connection is finished, the voltage stabilizer is switched on, and the whole communication device enters a working state under the integrated control of the controller; the remote communication device comprises a WIFI communication device and a GPRS communication device, and can be selected according to actual application scenes so as to ensure that the parameter data of the electrical cabinet are remotely transmitted to the upper computer.

Still be equipped with matched with temperature sensor and radiator on the controller, temperature sensor detects the internal temperature parameter of regulator cubicle cabinet to guarantee controller normal operating, guarantee that the internal temperature of regulator cubicle cabinet is in suitable scope, can not appear the temperature rise too high and burn out electric elements.

The radiator is provided with the MOS tube to drive the radiating fan, so that the response speed is high, the temperature can be timely reduced, and the phenomenon of overhigh temperature rise is prevented.

To sum up, the embodiment of the utility model provides an electrical cabinet data remote transmission communication device is based on the electrical connection structure of WIFI communicator and GPRS communicator and controller, can be with the regulator cubicle cabinet body parameter data transmission who corresponds to long-range host computer, realizes the long-range accurate transmission of data, does not need the staff scene to patrol and examine one by one, has saved time and manpower and materials, has promoted the detection efficiency of regulator cubicle, can be applicable to the regulator cubicle of different models to guarantee that the staff can accurately acquire the parameter data of different grade type regulator cubicle.

The above-mentioned specific embodiments can not be regarded as the restriction to the scope of protection of the utility model, to technical personnel in this technical field, it is right the utility model discloses any replacement improvement or transform that embodiment made all fall within the scope of protection of the utility model.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims

1. Regulator cubicle data remote transmission communication device, its characterized in that: the electric cabinet comprises an electric cabinet, wherein a controller is arranged in a cabinet body of the electric cabinet, and a WIFI communicator and a GPRS communicator are connected to the controller and are used for establishing remote communication with an upper computer so as to transmit parameter data of the electric cabinet to the upper computer; the controller is also connected with a temperature sensor and a radiator which are matched with each other, the temperature sensor is used for detecting temperature parameters in the electric cabinet body, and the radiator is used for reducing the temperature in the electric cabinet body; the controller is also provided with a voltage stabilizer which is used for providing stable and continuous power supply voltage for the controller; the controller is of a model STM32F072C, 48 pins are arranged on the controller, the controller is connected with the voltage stabilizer through a first pin, crystal oscillators are arranged on a third pin and a fourth pin of the controller, a second capacitor and a third capacitor which are connected in parallel are arranged on the crystal oscillators, and a seventh pin of the controller is grounded through a first capacitor; the controller is connected with the GPRS communicator through a No. twelve pin, a No. thirteen pin and a No. fourteen pin; the controller is connected with the radiator through a twenty-five pin, and the controller is connected with the WIFI communicator through a twenty-nine pin and a thirty-one pin; the controller is connected with the temperature sensor through a thirty-two pin and a thirty-three pin.

2. The electrical cabinet data remote transmission communication device according to claim 1, wherein: the model of the voltage stabilizer is LM317, 3 pins are arranged on the voltage stabilizer, and a pin III of the voltage stabilizer is connected with a pin I of the controller; and a ninth capacitor and a tenth resistor are arranged between the first pin and the second pin of the voltage stabilizer, and a tenth capacitor and an eleventh resistor are arranged between the second pin and the third pin of the voltage stabilizer.

3. The electrical cabinet data remote transmission communication device according to claim 1, wherein: the GPRS communicator is in a SIM800C model, 42 pins are arranged on the GPRS communicator, the GPRS communicator is connected with a No. twelve pin of a controller through a No. one pin and a third resistor, the GPRS communicator is connected with a No. thirteen pin of the controller through a No. two pin and a fourth resistor, and the GPRS communicator is connected with a No. fourteen pin of the controller through a No. six pin and a fifth resistor; a sixth resistor and a seventh resistor which are connected in parallel are arranged between the second pin and the sixth pin of the GPRS communicator; the GPRS communicator is connected with an SIM card through a pin fifteen, a pin sixteen, a pin seventeen and a pin eighteen, a fourth capacitor, a fifth capacitor and a sixth capacitor are respectively arranged on the pin fifteen, the pin sixteen and the pin seventeen of the GPRS communicator, and a seventh capacitor is connected on the pin eighteen of the GPRS communicator.

4. The electrical cabinet data remote transmission communication device according to claim 1, wherein: the temperature sensor is SHT20 in model, 4 pins are arranged on the temperature sensor, the temperature sensor is correspondingly connected with thirty-two pins and thirty-three pins of the controller through a second pin and a third pin, a first pin of the temperature sensor is connected with a 3.3V power supply, and a fourth pin of the temperature sensor is grounded; a first resistor and a second resistor which are connected in parallel are arranged between a pin II and a pin III of the temperature sensor, and a 3.3V power supply is connected.

5. The electrical cabinet data remote transmission communication device according to claim 1, wherein: the type of the radiator is TC4427, 8 pins are arranged on the radiator, a fourth pin of the radiator is connected with a twenty-fifth pin of the controller, and a sixth pin of the radiator is connected with a seventh capacitor and an eighth capacitor which are connected in parallel; the fifth pin of the radiator is connected with an MOS (metal oxide semiconductor) tube through a twelfth resistor and a thirteenth resistor which are connected in parallel, the drain electrode of the MOS tube is connected with a cooling fan, and the MOS tube is used for driving the cooling fan to move and cool.

6. The electrical cabinet data remote transmission communication device according to claim 1, wherein: the type of the WIFI communicator is ESP8266, 8 pins are arranged on the WIFI communicator, a fourth pin of the WIFI communicator is connected with a twenty-ninth pin of the controller, and an eighth pin of the WIFI communicator is connected with a thirty-first pin of the controller.