CN115360594A - Intelligent power supply multi-loop output monitoring control device and method - Google Patents

Abstract

The invention discloses an intelligent power supply multi-loop output monitoring control device and method, which relate to the technical field of intelligent power supply multi-loop output monitoring control and aim to solve the problems that the conventional intelligent power supply cannot independently and flexibly adjust the resistance value on a single loop, cannot flexibly adjust the current value on the single loop and is low in use flexibility. The effect of remotely adjusting the resistance of the single loop is achieved.

Description

Intelligent power supply multi-loop output monitoring control device and method

Technical Field

The invention relates to the technical field of intelligent power supply multi-loop output monitoring control, in particular to an intelligent power supply multi-loop output monitoring control device and method.

Background

The intelligent power supply is also called as a remote power supply, and has the characteristics of remote control, centralized management, safety management, expandability and the like, so that the intelligent power supply has wide market demand, can improve the convenience of circuit management, and can realize intelligent management.

The existing intelligent power supply is connected to a nearby network after being installed, the connection with a client side is realized through the network, and a power supply switch is remotely controlled through the client side.

The above prior art solutions have the following drawbacks: the current intelligent power supply cannot independently and flexibly adjust the resistance value on a single loop, cannot flexibly adjust the current value on the single loop, and is not high in use flexibility.

Disclosure of Invention

The invention aims to provide an intelligent power supply multi-loop output monitoring control device and method capable of remotely adjusting the resistance of a single loop.

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

the utility model provides an intelligent power source multiloop output monitoring control device, includes the bottom mounting panel, fixed mounting has electric property socket, electric connection seat, intelligent controller on the upper surface of bottom mounting panel, fixed mounting has a plurality of slide rheostat on one side surface of electric property socket, and is a plurality of jack one-to-one on slide rheostat and the electric connection seat, fixed mounting has the motor on the terminal surface of slide rheostat, the rotation axis one end fixedly connected with lead screw of motor, the lead screw runs through in the threaded hole on the last movable block surface of slide rheostat, electric connection seat, intelligent controller, motor series connection, electric connection seat, slide rheostat, electric connection seat series connection.

By adopting the technical scheme, the client can be used for sending an instruction to the intelligent controller, the intelligent controller is used for controlling the rotation of the motor, the rotation of the motor is used for driving the lead screw to rotate, and the position of the sliding block is adjusted through the rotation of the lead screw, so that the resistance value of the sliding rheostat is adjusted, and the resistance value adjusting operation on different circuits can be flexibly and efficiently realized.

Furthermore, an upper mounting plate is fixedly mounted on the upper surface of the electrical socket, a wireless ammeter, a wireless voltmeter and a remote control relay are fixedly mounted on the upper surface of the upper mounting plate, the remote control relay, the wireless ammeter and the sliding rheostat are connected in series, and the wireless voltmeter is connected to two ends of the sliding rheostat in parallel.

By adopting the technical scheme, the voltage value and the current value in the circuit can be detected by utilizing the radio current meter and the radio voltmeter in real time, and the numerical value is transmitted to the client, so that the monitoring operation can be remotely performed by a worker conveniently.

Furthermore, wireless ampere meter, wireless voltmeter, remote control relay all are provided with a plurality ofly, and wireless ampere meter, wireless voltmeter, remote control relay's quantity and mounted position all with the jack one-to-one on the electrical property socket.

By adopting the technical scheme, monitoring control operation can be carried out on each circuit, and the practicability is high.

Furthermore, the dustcoat has been detained to the up end upper cover of bottom mounting panel, be provided with the mounting hole on one side surface of dustcoat, and the inside fixed mounting of mounting hole has the separator, the end of giving vent to anger of separator communicates with each other with the dustcoat is inside, the air inlet end fixed mounting of separator has radiator fan.

Through adopting above-mentioned technical scheme, can utilize the separator to carry out the separation operation of dust and steam to the air that radiator fan insufflates, then carry out the radiating operation in leading-in dustcoat of air after will handling, can the effectual stability that improves the device work.

Furthermore, a collecting bottle is installed at the discharge end of the separated object of the separator through threads.

Through adopting above-mentioned technical scheme, can utilize the receiving flask to collect the dust and the steam of separation, be convenient for concentrate the clearance operation.

Furthermore, a plurality of mounting holes are formed in the lower surface of the bottom mounting plate, an infrared temperature detector is mounted in the mounting holes in a buckled mode, and the infrared temperature detector corresponds to the slide rheostat in position.

By adopting the technical scheme, the temperature value in the accurate detection circuit of the infrared temperature detector can be utilized, so that the device has a temperature detection structure.

Further, fixed mounting has a plurality of temperature alarm on the lower surface of bottom mounting panel, fixed mounting has a plurality of relays on the upper surface of bottom mounting panel, relay and slide rheostat series connection, temperature alarm and infrared temperature detector electric connection, temperature alarm and the control end electric connection of relay.

By adopting the technical scheme, the temperature alarm can be used for receiving data on the infrared temperature detector, when the data exceed a set value, the temperature alarm gives an alarm and simultaneously energizes the relay control end, so that the relay is disconnected, the circuit is broken, and the circuit overheating protection is realized.

Further, fixed mounting has a plurality of hand switches in the mounting hole on the dustcoat side surface, hand switch and motor electric connection, install a plurality of switches on the lower surface of bottom mounting panel, switch and electrical property socket series connection, fixed mounting has two bottom sprag framves on the lower surface of bottom mounting panel.

By adopting the technical scheme, the rotation of the motor can be manually controlled by using the manual switch, so that the operation of manually adjusting the resistance value in the circuit is realized, meanwhile, the circuit can be manually cut off by using the switch, and the operation convenience and the practicability of the device are further improved.

Further, the method comprises the following steps:

a1: firstly, the device is installed at a designated position through a bottom support frame, then one end of an electric connection seat is connected with an external power supply, then external electric equipment can be inserted into an electric socket, then a corresponding switch is turned on, normal power supply can be carried out at the moment, and in the power supply process, the current and voltage values in an output circuit can be checked by utilizing a wireless ammeter and a wireless voltmeter;

a2: the wireless ammeter and the wireless voltmeter have a data remote transmission function, so that the wireless ammeter and the wireless voltmeter can be remotely checked through a mobile client, when the current and voltage are abnormal, an instruction can be sent to the intelligent controller, the intelligent controller controls the motor to rotate, the rotation of the motor drives the screw rod to rotate, the movable block on the sliding rheostat is adjusted, the resistance value on an electric loop can be conveniently and independently adjusted, and the current regulation and control operation is realized;

a3: when a remote circuit is required to be cut off, the remote control relay can be directly sent with an instruction, and the remote control relay is connected in series in a loop of the intelligent power supply, so that the circuit can be cut off independently, and the remote circuit breaking operation is realized.

A4: at whole monitor control's in-process, because hand switch and motor series connection, consequently, can be through the rotation of the independent operation motor of hand switch, and then adjust the resistance value in the independent electric loop, simultaneously at the in-process of monitoring, infrared temperature detector can real-timely detect the temperature of slide rheostat, and transmit the data that detect to temperature alarm, when the temperature data that temperature alarm received surpassed the setting value, temperature alarm sends alarm information, supply power to the control end of relay simultaneously, after the relay received the signal of telecommunication, the emergence is opened circuit, can cut off independent electric loop circuit this moment, realize the overheat protection operation.

A5: and the cooling fan arranged outside the outer cover can continuously guide the outside air into the separator in the whole monitoring and controlling process, and the outside air is separated from dust and water vapor in the air by the separator and then guided into the outer cover, and finally discharged from the heat dissipation holes on the outer surface of the other side of the outer cover, so that the efficient heat dissipation operation is effectively realized, and the separated product falls into the collecting bottle.

Through adopting above-mentioned technical scheme, can be so that whole steel sheet column is strutted and is built convenient and fast, can in time get rid of the water that outside soil oozed in daily use simultaneously, also can excrete the inboard ponding of foundation ditch after rainwater weather, also improved the protecting effect when having improved the practicality.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the sliding rheostat is installed on each independent circuit, so that the resistance value in each circuit can be flexibly adjusted through the sliding rheostat, the current and voltage condition in each circuit can be adjusted, the motor can be used for driving the lead screw to rotate, the position of the sliding block on the sliding rheostat is adjusted through the rotating lead screw, the rotation of the motor is remotely controlled through the intelligent controller, the remote resistance value adjusting operation can be effectively realized, and the operation is convenient and flexible;

2. by setting the wireless ammeter and the wireless voltmeter, the current value and the voltage value on the electric circuit can be remotely transmitted to the client by using the wireless ammeter and the wireless voltmeter, so that the remote monitoring operation of the current value and the voltage value is effectively realized;

3. the separator is fixedly connected to the side surface of the outer cover, the cooling fan is installed at the air inlet end of the separator, external air can be guided into the separator by the cooling fan, the air is rotated by the separator, water vapor and dust are separated, the separated air is blown into the outer cover, and then elements in the outer cover are subjected to cooling treatment, so that the device has an efficient cooling structure;

4. through setting up infrared temperature detector, temperature alarm, relay, can utilize the real-time temperature that detects slide rheostat of infrared temperature detector, when slide rheostat's temperature was too high, explain to be in overload state on this electric circuit, during infrared temperature detector transmits the temperature data that detects to temperature alarm, temperature alarm circular telegram was reported to the police this moment, and meanwhile the control end circular telegram of relay, the relay disconnection, and then carries out the processing of opening a circuit to this electric circuit, can nimble effectual realization circuit overheat protection operation.

Drawings

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

FIG. 2 is a rear view of the three-dimensional structure of the present invention;

fig. 3 is a bottom schematic view of the three-dimensional structure of the present invention.

In the figure, 1, a bottom mounting plate; 2. an electrical socket; 3. an upper mounting plate; 4. a wireless ammeter; 5. a wireless voltmeter; 6. a remote control relay; 7. a slide rheostat; 8. a housing; 9. a separator; 10. a heat-dissipating fan; 11. a bottom support frame; 12. a screw rod; 13. a motor; 14. an electrical connection seat; 15. an intelligent controller; 16. a relay; 17. a temperature alarm; 18. a collection bottle; 19. a manual switch; 20. an infrared temperature detector; 21. and (6) switching.

Detailed Description

The present invention will be described in further detail below.

Referring to fig. 1 and 2, an intelligent power supply multi-loop output monitoring control device includes a bottom mounting plate 1, an electrical socket 2, an electrical connection seat 14, and an intelligent controller 15 are fixedly mounted on an upper surface of the bottom mounting plate 1, a plurality of sliding varistors 7 are fixedly mounted on an outer surface of one side of the electrical socket 2, the plurality of sliding varistors 7 correspond to insertion holes on the electrical connection seat 14 one by one, a motor 13 is fixedly mounted on an end surface of the sliding rheostors 7, a lead screw 12 is fixedly connected to one end of a rotating shaft of the motor 13, the lead screw 12 penetrates through a threaded hole on an outer surface of a moving block on the sliding rheostors 7, the electrical connection seat 14, the intelligent controller 15, and the motor 13 are connected in series, the electrical connection seat 14, the sliding rheostors 7, and the electrical socket 2 are connected in series, wherein the sliding rheostors 7 are mounted on each independent electrical loop, so that a resistance value in each electrical loop can be flexibly adjusted through the sliding rheostors 7, thereby adjusting a current and voltage condition in each electrical loop can be adjusted, the motor 13 can be driven to rotate by the motor 13, a slider position on the sliding rheostors 7 can be adjusted by the rotating lead screw 12, the intelligent controller 15 can be remotely controlled, thereby achieving effective remote operation, and the remote operation of the motor 13 can be conveniently and conveniently operated.

Referring to fig. 1 and 2, an upper mounting plate 3 is fixedly mounted on the upper surface of an electrical socket 2, a radio ammeter 4, a radio voltmeter 5 and a remote control relay 6 are fixedly mounted on the upper surface of the upper mounting plate 3, the remote control relay 6, the radio ammeter 4 and the slide rheostat 7 are connected in series, the radio voltmeter 5 is connected in parallel at two ends of the slide rheostat 7, the radio ammeter 4, the radio voltmeter 5 and the remote control relay 6 are provided in plurality, and the number and the mounting positions of the radio ammeter 4, the radio voltmeter 5 and the remote control relay 6 correspond to the jacks on the electrical socket 2 one by one, so that the current value and the voltage value on the electrical circuit can be remotely transmitted to a client by using the radio ammeter 4 and the radio voltmeter 5, and the monitoring operation of the remote current value and the remote voltage value is effectively realized.

Referring to fig. 1, an outer cover 8 covers the upper end surface of a bottom mounting plate 1, a mounting hole is formed in the outer surface of one side of the outer cover 8, a separator 9 is fixedly mounted inside the mounting hole, an air outlet end of the separator 9 is communicated with the inside of the outer cover 8, a heat radiation fan 10 is fixedly mounted at an air inlet end of the separator 9, a collecting bottle 18 is mounted at a discharge end of a separated object of the separator 9 through threads, the separator 9 is fixedly connected to the side surface of the outer cover 8, the heat radiation fan 10 is mounted at the air inlet end of the separator 9, external air can be guided into the separator 9 by the heat radiation fan 10, the air is subjected to rotation treatment through the separator 9, water vapor and dust are separated, the separated air is blown into the inside of the outer cover 8, and then heat radiation treatment is performed on elements inside the outer cover 8, so that the device has an efficient heat radiation structure.

Referring to fig. 3, a plurality of mounting holes are formed in the lower surface of the bottom mounting plate 1, an infrared temperature detector 20 is installed in the mounting holes in a buckled mode, the infrared temperature detector 20 corresponds to the slide rheostat 7 in position, a plurality of temperature alarms 17 are fixedly installed on the lower surface of the bottom mounting plate 1, a plurality of relays 16 are fixedly installed on the upper surface of the bottom mounting plate 1, the relays 16 are connected with the slide rheostat 7 in series, the temperature alarms 17 are electrically connected with the infrared temperature detector 20, and the temperature alarms 17 are electrically connected with the control end of the relays 16, wherein the infrared temperature detector 20, the temperature alarms 17 and the relays 16 are arranged to detect the temperature of the slide rheostat 7 in real time, when the temperature of the slide rheostat 7 is too high, the electric circuit is in an overload state, the infrared temperature detectors 20 transmit detected temperature data to the temperature alarms, meanwhile, the control end of the relays 16 is powered on, the relays 16 are powered off, and then the electric circuit is subjected to circuit breaking processing, and circuit overheat protection operation can be flexibly and effectively achieved.

Referring to fig. 3, a plurality of manual switches 19 are fixedly mounted in the mounting holes on the side surface of the outer cover 8, the manual switches 19 are electrically connected with the motor 13, a plurality of switches 21 are mounted on the lower surface of the bottom mounting plate 1, the switches 21 are connected with the electrical socket 2 in series, two bottom supporting frames 11 are fixedly mounted on the lower surface of the bottom mounting plate 1, the motor 13 can be manually adjusted to rotate independently through the manual switches 19, the resistance value in the circuit can be adjusted, meanwhile, the circuit can be manually cut off through the switches 21, and the practicability is higher.

The working principle is as follows: firstly, the device is installed at a designated position through a bottom support frame 11, then one end of an electric connection seat 14 is connected with an external power supply, then an external electric device can be inserted on an electric socket 2, then a corresponding switch 21 is opened, normal power supply can be carried out at the moment, in the power supply process, a current value and a voltage value in an output electric circuit can be checked by using a radio ammeter 4 and a radio voltmeter 5, because the radio ammeter 4 and the radio voltmeter 5 have a data remote transmission function, remote checking can be carried out through a mobile client, when the current voltage is abnormal, an instruction can be sent to an intelligent controller 15, the intelligent controller 15 controls the motor 13 to rotate, the rotation of the motor 13 drives a lead screw 12 to rotate, so that a movable block on a slide rheostat 7 is adjusted, the resistance value on an electric circuit is adjusted independently, so as to realize current regulation and control operation, when the remote circuit is required to be cut off, the instruction can be sent directly to the remote control relay 6, because the remote control relay 6 is connected in series in the circuit of the intelligent power supply, therefore, the circuit can be cut off independently, the circuit can be cut off, the circuit, the remote cut off operation can be independently, when the temperature of the remote control relay 19, the temperature monitoring relay 17 is received, and the temperature of the remote control relay 17, when the temperature monitoring alarm 17 is detected, the temperature alarm 17, the temperature monitoring alarm 17 is detected, and the temperature monitoring alarm device is detected in the infrared alarm, and the infrared alarm device is detected simultaneously, the circuit break occurs, independent electric loop circuit can be cut off at this moment, realize the overheat protection operation, and set up 8 outside radiator fan 10 of dustcoat can be in whole monitoring control in-process continuous with the inside of the leading-in separator 9 of outside air, through separator 9 to in the air behind the separation of dust and steam, the inside of leading-in dustcoat 8 again, the louvre of last 8 opposite side surfaces of following of dustcoat discharges, the high-efficient heat dissipation operation of effectual realization, and the result after the separation then falls into the inside of collecting bottle 18.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (9)

1. The utility model provides an intelligent power supply multiloop output monitoring control device, includes bottom mounting panel (1), its characterized in that: fixed mounting has electric property socket (2), electric connection seat (14), intelligent controller (15) on the upper surface of bottom mounting panel (1), fixed mounting has a plurality of slide rheostat (7) on the surface of one side of electric property socket (2), and is a plurality of jack one-to-one on slide rheostat (7) and electric connection seat (14), fixed mounting has motor (13) on the terminal surface of slide rheostat (7), rotation axis one end fixedly connected with lead screw (12) of motor (13), lead screw (12) run through in the screw hole on the sliding rheostat (7) shift block surface, electric connection seat (14), intelligent controller (15), motor (13) series connection, electric connection seat (14), slide rheostat (7), electric connection seat (2) series connection.

2. The intelligent power supply multi-loop output monitoring control device as claimed in claim 1, wherein: the utility model discloses an electric property socket, including electric property socket (2), last mounting panel (3) of fixed mounting on the upper surface of electric property socket (2), fixed mounting has wireless ammeter (4), wireless voltmeter (5), remote control relay (6) on the upper surface of going up mounting panel (3), remote control relay (6), wireless ammeter (4), slide rheostat (7) series connection, wireless voltmeter (5) connect in parallel at the both ends of slide rheostat (7).

3. The intelligent power supply multi-loop output monitoring control device as claimed in claim 2, wherein: the wireless ammeter (4), the wireless voltmeter (5) and the remote control relay (6) are all provided with a plurality of, and the number and the installation position of the wireless ammeter (4), the wireless voltmeter (5) and the remote control relay (6) are all in one-to-one correspondence with the jacks on the electrical socket (2).

4. The intelligent power supply multi-loop output monitoring control device as claimed in claim 1, wherein: dustcoat (8) have been covered on the up end of bottom mounting panel (1), be provided with the mounting hole on one side surface of dustcoat (8), and the inside fixed mounting of mounting hole has separator (9), the end of giving vent to anger of separator (9) communicates with each other with dustcoat (8) are inside, the air inlet end fixed mounting of separator (9) has radiator fan (10).

5. The intelligent power supply multi-loop output monitoring control device as claimed in claim 4, wherein: and a collecting bottle (18) is arranged at the separator discharging end of the separator (9) in a threaded manner.

6. The intelligent power supply multi-loop output monitoring control device as claimed in claim 1, wherein: the lower surface of the bottom mounting plate (1) is provided with a plurality of mounting holes, the infrared temperature detector (20) is mounted in the mounting holes in a buckled mode, and the infrared temperature detector (20) corresponds to the slide rheostat (7) in position.

7. The intelligent power supply multi-loop output monitoring and controlling device as claimed in claim 6, wherein: fixed mounting has a plurality of temperature alarm (17) on the lower surface of bottom mounting panel (1), fixed mounting has a plurality of relays (16) on the upper surface of bottom mounting panel (1), relay (16) and slide rheostat (7) series connection, temperature alarm (17) and infrared temperature detector (20) electric connection, temperature alarm (17) and the control end electric connection of relay (16).

8. The intelligent power supply multi-loop output monitoring control device as claimed in claim 4, wherein: fixed mounting has a plurality of hand switch (19) in the mounting hole on dustcoat (8) side surface, hand switch (19) and motor (13) electric connection, install a plurality of switches (21) on the lower surface of bottom mounting panel (1), switch (21) and electric property socket (2) series connection, fixed mounting has two bottom sprag frame (11) on the lower surface of bottom mounting panel (1).

9. A monitoring method of an intelligent power supply multi-loop output monitoring control device as claimed in any one of claims 1-8, characterized in that: the method comprises the following steps:

a1: firstly, the device is installed at a specified position through a bottom support frame (11), then one end of an electric connection seat (14) is connected with an external power supply, then external electric equipment can be inserted into an electric socket (2), then a corresponding switch (21) is turned on, normal power supply can be carried out at the moment, and in the power supply process, the current and voltage values in an output circuit can be checked by using a radio ammeter (4) and a radio voltmeter (5);

a2: the wireless ammeter (4) and the wireless voltmeter (5) have a data remote transmission function, so that the wireless ammeter can be remotely checked through a mobile client, when the current and voltage are abnormal, an instruction can be sent to the intelligent controller (15), the intelligent controller (15) controls the motor (13) to rotate, the rotation of the motor (13) drives the screw rod (12) to rotate, and therefore the movable block on the sliding rheostat (7) is adjusted, the resistance value on an electric loop can be conveniently and independently adjusted, and the current regulation and control operation is achieved;

a3: when the circuit needs to be remotely cut off, the instruction can be directly sent to the remote control relay (6), and the remote control relay (6) is connected in series in a loop of the intelligent power supply, so that the circuit can be cut off independently, and the remote circuit breaking operation is realized;

a4: in the whole monitoring and controlling process, the manual switch (19) is connected with the motor (13) in series, so that the motor (13) can be independently operated through the manual switch (19) to rotate, the resistance value in an independent electric loop is further adjusted, meanwhile, in the monitoring process, the infrared temperature detector (20) can detect the temperature of the slide rheostat (7) in real time and transmit the detected data to the temperature alarm (17), when the temperature data received by the temperature alarm (17) exceeds a set value, the temperature alarm (17) sends alarm information and supplies power to the control end of the relay (16), the relay (16) is broken after receiving an electric signal, and at the moment, the independent electric loop circuit can be cut off, and the overheat protection operation is realized;

a5: and set up in the outside radiator fan (10) of dustcoat (8) can be in whole monitoring control in-process continuous with the inside of leading-in separator (9) of outside air, through separator (9) to the separation back of dust and steam in the air, the inside of leading-in dustcoat (8) again, discharge from the louvre on dustcoat (8) opposite side surface at last, the high-efficient heat dissipation operation of effectual realization, and the product after the separation then falls into the inside of collecting bottle (18).

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