CN112969268A

CN112969268A - Smart city electricity-saving energy control system and use method thereof

Info

Publication number: CN112969268A
Application number: CN202110272651.6A
Authority: CN
Inventors: 黄启瑞
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-13
Filing date: 2021-03-13
Publication date: 2021-06-15

Abstract

The invention discloses a power-saving energy control system for a smart city and a using method thereof. The light sensing module is used for sensing the light intensity, when the light intensity is lower than a set value, the light sensing module starts the municipal lighting lamp, so that the municipal lighting lamp is ensured to be in an on state when needed, meanwhile, the power waste caused by early on is prevented, the timer module is started when the timer is used, the municipal lighting lamp is ensured to be in the on state in the peak period of the pedestrian movement, the timer module turns off the municipal lighting lamp until the valley period of the pedestrian movement, the power is saved, when the infrared sensing module senses that pedestrians pass through, the municipal lighting lamp is restarted, and the purpose of saving the power is achieved by temporarily turning off the municipal lighting lamp when no people exist.

Description

Smart city electricity-saving energy control system and use method thereof

Technical Field

The invention relates to the field of power equipment, in particular to a smart city power-saving energy control system and a use method thereof.

Background

The smart city is a city informatization advanced form which fully applies a new generation of information technology to various industries in the city and is based on the innovation of the next generation of knowledge society, realizes the deep integration of informatization, industrialization and urbanization, is beneficial to relieving the large urban diseases, improves the urbanization quality, realizes the fine and dynamic management, improves the urban management effect and improves the quality of life of citizens.

Present wisdom city is when municipal power consumption, a municipal power consumption equipment for illumination generally regularly starts illumination work, and because summer is longer daytime, the time quantum of light deficiency evening is comparatively leaned on the back, the time quantum of light deficiency night daytime in winter comparatively leans on before, open regularly this moment light enough when using summer and lead to electric power extravagant, winter will make the on-time too late, make the illumination not enough, domestic power source has the peak period of a period when using simultaneously, transformer overclocking work in peak period, very easily lead to equipment to damage, lead to the potential safety hazard at last, so need a device to solve above-mentioned problem urgently.

Disclosure of Invention

The invention aims to provide an intelligent city electricity-saving energy control system and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a smart city electricity-saving energy control system comprises a control terminal, a transformer, a mounting plate and a mounting post, wherein an alarm module is connected and arranged at the output end position of the control terminal, a first wireless transmitting module is connected and arranged at the output end position of the control terminal, the transformer is connected and arranged at the output end position of the control terminal, a current sensing module is connected and arranged at the output end position of the transformer, residential electric equipment is connected and arranged at the output end position of the current sensing module, a municipal illuminating lamp is connected and arranged at the output end position of the transformer, a self-checking system is connected and arranged at the input end position of the municipal illuminating lamp, a second wireless receiving module is connected and arranged at the input end position of the control terminal, a light sensing module is connected and arranged at, the output end position of the control terminal is connected with an infrared sensing module, the light sensing module is used for sensing the light intensity when in use, when the light intensity is lower than a set value, the light sensing module starts the municipal lighting lamp so as to ensure that the municipal lighting lamp is in an on state when needed and prevent power waste caused by early on, and when the timer is used, the light sensing module starts, the municipal lighting lamp is ensured to be in an on state when the peak period of the human flow activity is reached, and when the peak period of the human flow activity is reached, the timer module turns off the municipal lighting lamp to save power, when the infrared sensing module senses the passing of a pedestrian, the municipal lighting lamp is restarted so as to achieve the purpose of saving power by temporarily turning off the municipal lighting lamp when no one is available, the first wireless transmitting module is wirelessly connected with a first wireless receiving module, and the output end position of the first wireless receiving module, the output end position of the mobile terminal is connected with a second wireless transmitting module, the output end position of the mobile terminal is connected with a display module, the output end position of the mobile terminal is connected with an input module, the output end position of the mobile terminal is connected with a storage module, a command is input through the input module, then the command is sent through the second wireless transmitting module through the mobile terminal and received by a second wireless receiving module, so that the remote control of the control terminal is facilitated, the control is not limited by places, the operation flow is greatly facilitated, the fixed rings are fixedly arranged at the end positions of the two sides of the mounting plate, the fixed rings are fixedly arranged outside the fixed columns, the upper end position of the mounting plate is fixedly arranged with a support frame, the shell is fixedly arranged at the end position of the inner side of the support frame, and the door, the utility model discloses a support frame, including support frame, casing central point puts and has offered the cavity, the inside right side end position of cavity has seted up the spout, the support frame upper end position is provided with cooling body, casing central point puts and is provided with trigger mechanism, casing central point puts and has offered the cavity, the inside right side end position of cavity has seted up the spout.

Preferably, the self-checking system comprises a third wireless transmitting module, a control box, a timing module, a battery module, a current stabilizer, a solar panel, a current limiting module and a current detecting module, the second wireless receiving module is provided with the third wireless transmitting module in a wireless connection way, the input end of the third wireless transmitting module is provided with the control box in a position connection way, the output end of the control box is provided with the battery module in a position connection way, the input end of the control box is provided with the timing module in a position connection way, the output end of the control box is provided with the current limiting module in a position connection way, the input end of the battery module is provided with the current stabilizer in a position connection way, the input end of the current stabilizer is provided with the solar panel in a position connection way, the current limiting module is electrically connected with the municipal, the current detection module is electrically connected with the control box, when in use, the solar panel converts solar energy into electric energy, the electric energy is stored in the internal position of the battery module after being stabilized by the current stabilizer, so that the municipal power supply is not needed for power supply, the power is saved, meanwhile, the timing module starts the battery module through the control box at regular time to ensure that the circuit is communicated, current flows into the municipal illuminating lamp through the current limiting module, the municipal illuminating lamp cannot be lightened by the current, if the municipal illuminating lamp is in a normal state, the current flows into the current detection module to be detected, if the municipal illuminating lamp is in a damaged state, the current detection module cannot detect the current when the municipal illuminating lamp is disconnected, information is fed back to the internal part of the control box, and meanwhile, the information is transmitted by the third wireless transmission module, is received by the second wireless receiving module and transmitted, make things convenient for municipal lighting's timely maintenance work to need not the operating condition of artifical detection municipal lighting.

Preferably, the cooling mechanism comprises a collecting box, a filter plate, a limiting block, a temperature control switch, an injection pipe, a storage battery, a cooling groove, a motor, a rotating shaft, a movable shaft, a through hole and a hole groove, the cooling groove is arranged at the two side ends inside the shell, the collecting box is fixedly arranged at the upper end of the supporting frame, the limiting block is fixedly arranged at the two side ends inside the collecting box, the filter plate is movably arranged at the upper end of the limiting block, the temperature control switch is fixedly arranged at the left side end of the collecting box, the injection pipe is vertically and fixedly inserted at the central position of the lower end of the collecting box, the lower end of the injection pipe is communicated with the cooling groove, the motor is fixedly arranged at the left side end of the shell, the timer is fixedly arranged at the inner, the motor drives the rotating shaft to rotate, a movable shaft is fixedly arranged at the right side end position of the rotating shaft, the movable shaft movably penetrates into the inner position of the injection pipe, hole grooves are formed in the upper end position and the lower end position of the injection pipe, a through hole is formed in the center position of the movable shaft, rainwater is collected and stored in the inner position of the collecting box after being filtered by the filter plate, the hole grooves and the through hole are in a staggered state at the moment, the temperature control switch starts the motor when the temperature detected by the temperature control switch exceeds a threshold value, the timer starts to limit the starting time of the motor, the movable shaft is in an initial position after the motor is started to time the timer, the rotating shaft is driven to rotate when the motor is started, so that the movable shaft rotates, when the movable shaft rotates to the position where the hole grooves and the through hole grooves are aligned, the, prevent that high temperature weather transformer from overheated, rotate simultaneously behind the time-recorder timing time if temperature detect switch detects the temperature and surpasss threshold then the motor restarts, so relapse.

Preferably, the triggering mechanism comprises a screw rod, an operating block, a movable plate, an electromagnet, a conductive plate, a spring and a conductive rod, the screw rod is movably inserted and arranged at the position of the left side end inside the cavity, the screw rod rotates around the self central shaft, the position of the outer side end of the screw rod is fixedly arranged around the fixed mounting, the operating block extends to the outer side of the shell, the position of the outer side end of the operating block is provided with anti-skid grains around the screw rod, the threads at the upper side and the lower side of the screw rod are oppositely arranged, the movable plate is sleeved at the positions of the outer sides of the upper end and the lower end of the screw rod, the movable clamp at the position of the right side end of the movable plate is arranged at the inner position of the chute, the conductive rod is fixedly arranged at the, the lower extreme the fly leaf upper end position fixed mounting is provided with the electro-magnet, electro-magnet upper end position fixed mounting is provided with the contact, current induction module and electro-magnet electric connection install the transformer in the inside upper and lower both ends position of casing when using, later rotate the operation piece for the screw rod rotates, drive the fly leaf and remove and extend to the upper end inside the transformer, the lower extreme conducting rod extends to the lower extreme inside the transformer, when current induction module response electric power is too big, explain in the peak period of power consumption, current induction module starts the electro-magnet this moment, make the absorption current conducting plate remove downwards and hug closely in the electro-magnet upper end position, make the spring stretched, thereby make the conducting rod intercommunication, make upper and lower transformer parallelly connected, thereby alleviate the working strength of single transformer, guarantee the normal operating of transformer.

Preferably, the light sensing module, the timing module, the infrared sensing module and the municipal lighting lamp are electrically connected.

Preferably, the second wireless transmitting module is wirelessly connected with the second wireless receiving module.

Preferably, the transformer is fixedly arranged inside the shell.

Preferably, a handle is fixedly arranged at the front end of the door panel.

A use method of a smart city electricity-saving energy control system specifically comprises the following steps:

the first step is as follows: when the transformer is used, the transformer is arranged at the upper end and the lower end in the shell, then the operation block is rotated to enable the screw rod to rotate, the movable plate is driven to move until the upper end conducting rod extends into the upper end transformer, the lower end conducting rod extends into the lower end transformer, when the current induction module induces overlarge power, the situation is in a power utilization peak period, at the moment, the current induction module starts the electromagnet, the adsorption conducting plate moves downwards to be attached to the upper end of the electromagnet, the spring is stretched, the conducting rods are communicated, the upper transformer and the lower transformer are connected in parallel, the working strength of a single transformer is reduced, and the normal operation of the transformer is ensured;

the second step is that: when the device is used, the light sensing module is used for sensing the light intensity, when the light intensity is lower than a set value, the light sensing module starts the municipal lighting lamp, so that the municipal lighting lamp is ensured to be in an on state when needed, meanwhile, the power waste caused by early on is prevented, in addition, the time counting module is started when the time counting module is used, the municipal lighting lamp is ensured to be in the on state in the peak period of the people movement, until the valley period of the people movement, the time counting module closes the municipal lighting lamp for power saving, when the infrared sensing module senses that pedestrians pass through, the municipal lighting lamp is restarted, and therefore, the purpose of saving the power by temporarily closing the municipal lighting lamp when no people exist is;

the third step: when the device is used, the solar panel converts solar energy into electric energy, the electric energy is stabilized by the current stabilizer and then is stored in the internal position of the battery module, so that a municipal power supply is not needed for supplying power, the power is saved, meanwhile, the timing module starts the battery module by the control box at regular time to enable the circuit to be communicated, current flows into the municipal illuminating lamp by the current limiting module, the municipal illuminating lamp cannot be lightened by the current, if the municipal illuminating lamp is in a normal state, the current flows into the current detecting module to be detected, if the municipal illuminating lamp is in a damaged state, the current is broken, the current cannot be detected by the current detecting module, information is fed back to the inside of the control box, and meanwhile, the information is transmitted by the third wireless transmitting module, is received by the second wireless receiving module and is transmitted to the control terminal and starts the, the working state of the municipal lighting lamp does not need to be manually detected;

the fourth step: the rainwater passes through the filter and filters the back collection and stores in collecting box internal portion position, hole groove and perforation are dislocation state this moment, when temperature detect switch detects the temperature and surpasses the threshold value, temperature detect switch starter motor this moment, the time-recorder starts the start-up time of restriction motor simultaneously, guarantee that the motor starts the loose axle to be in initial position behind the time-recorder timekeeping time, drive the pivot rotation when the motor starts simultaneously, thereby make the loose axle rotate, the loose axle rotates when aligning the position to hole groove and perforation, the inside water source of collecting box flows down through the intercommunication position and pours into to the inside position of cooling bath and carry out cooling work this moment, prevent that high temperature weather transformer is overheated, rotate simultaneously behind the time-recorder timekeeping time if temperature detect the temperature and surpass the threshold value then the.

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

1. the light sensing module is used for sensing the light intensity, when the light intensity is lower than a set value, the light sensing module starts the municipal lighting lamp, so that the municipal lighting lamp is ensured to be in an on state when needed, meanwhile, the power waste caused by early on is prevented, the timer module is started when the timer is used, the municipal lighting lamp is ensured to be in the on state in the peak period of the pedestrian movement, the timer module turns off the municipal lighting lamp until the valley period of the pedestrian movement, the power is saved, when the infrared sensing module senses that pedestrians pass through, the municipal lighting lamp is restarted, and the purpose of saving the power is achieved by temporarily turning off the municipal lighting lamp when no one is in use;

2. when the current induction module induces overlarge power, the power utilization peak period is indicated, and the current induction module starts the electromagnet, so that the adsorption conductive plate moves downwards to be tightly attached to the upper end of the electromagnet, the spring is stretched, the conductive rods are communicated, the upper transformer and the lower transformer are connected in parallel, the working strength of a single transformer is reduced, and the normal operation of the transformer is ensured;

3. the timing module starts the battery module through the control box at regular time to enable the circuit to be communicated, current flows into the municipal lighting lamp through the current limiting module, the municipal lighting lamp cannot be lightened by the current, if the municipal lighting lamp is in a normal state, the current flows into the current detection module to be detected, if the municipal lighting lamp is in a damaged state, the current cannot be detected by the current detection module when the municipal lighting lamp is in a broken state, information is fed back to the inside of the control box, meanwhile, the information is transmitted by the third wireless transmitting module, is received by the second wireless receiving module and transmitted to the control terminal, and starts the corresponding alarm module to give an alarm, so that the municipal lighting lamp can be maintained in time conveniently, and the working state of the municipal lighting lamp does.

Drawings

FIG. 1 is a schematic diagram of an overall structure of a smart city energy-saving control system according to the present invention;

FIG. 2 is a schematic diagram of a self-checking system in the smart city power-saving energy control system according to the present invention;

FIG. 3 is a schematic diagram illustrating the installation of a transformer in the energy-saving control system of a smart city according to the present invention;

FIG. 4 is a schematic view of a cooling mechanism in the smart city power-saving energy control system according to the present invention;

FIG. 5 is a right sectional view of an injection pipe in the smart city power saving energy control system according to the present invention;

FIG. 6 is a schematic structural diagram of A1 shown in FIG. 4 according to the present invention;

fig. 7 is a schematic structural diagram of a2 shown in fig. 4 according to the present invention.

In the figure: 1. a control terminal; 2. a transformer; 3. a light sensing module; 4. a timing module; 5. an infrared sensing module; 6. a self-checking system; 7. municipal lighting lamps; 8. residential electricity utilization equipment; 9. a current sensing module; 10. an alarm module; 11. a first wireless transmission module; 12. a second wireless receiving module; 13. a first wireless receiving module; 14. a second wireless transmission module; 15. a mobile terminal; 16. a storage module; 17. a display module; 18. an input module; 19. a third wireless transmission module; 20. a control box; 21. a timing module; 22. a battery module; 23. a current stabilizer; 24. a solar panel; 25. a current limiting module; 26. a trigger mechanism; 27. a current detection module; 28. mounting a plate; 29. a support frame; 30. a housing; 31. a fixing ring; 32. mounting a column; 33. a collection box; 34. a temperature control switch; 35. a storage battery; 36. a filter plate; 37. a limiting block; 38. a motor; 39. an injection pipe; 40. a cooling tank; 41. a rotating shaft; 42. a movable shaft; 43. a hole groove; 44. perforating; 45. a screw; 46. an operation block; 47. a movable plate; 48. an electromagnet; 49. a conductive rod; 50. a conductive plate; 51. a spring; 52. a cavity; 53. a chute; 54. a door panel; 55. a handle; 56. and a cooling mechanism.

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. 1-7, the present invention provides a technical solution: a smart city electricity-saving energy control system comprises a control terminal 1, a transformer 2, a mounting plate 28 and a mounting post 32, wherein an alarm module 10 is connected and arranged at the output end of the control terminal 1, a first wireless emission module 11 is connected and arranged at the output end of the control terminal 1, the transformer 2 is connected and arranged at the output end of the control terminal 1, a current induction module 9 is connected and arranged at the output end of the transformer 2, a resident electric device 8 is connected and arranged at the output end of the current induction module 9, a municipal lighting lamp 7 is connected and arranged at the output end of the transformer 2, a self-detection system 6 is connected and arranged at the input end of the municipal lighting lamp 7, a second wireless receiving module 12 is connected and arranged at the input end of the control terminal 1, a light induction module 3 is connected and arranged, the output end of the control terminal 1 is connected with a timing module 4, the output end of the control terminal 1 is connected with an infrared sensing module 5, the light sensing module 3, the timing module 4 and the infrared sensing module 5 are electrically connected with a municipal lighting lamp 7, the light sensing module 3 is used for sensing the light intensity when the control terminal is used, when the light intensity is lower than a set value, the light sensing module 3 starts the municipal lighting lamp 7 so as to ensure that the municipal lighting lamp 7 is in an on state when needed and prevent the electric power waste caused by the early on, and the module 4 is started when the control terminal is used, so that the municipal lighting lamp 7 is in an on state when the pedestrian moves in a peak period, until the pedestrian moves in a valley period, the timing module 4 turns off the municipal lighting lamp 7 to save the power supply, and when the infrared sensing module 5 senses the pedestrian to pass through, the municipal, therefore, the purpose of saving power is achieved by temporarily turning off the municipal lighting lamp 7 when no person is in use, the first wireless transmitting module 11 is provided with a first wireless receiving module 13 in a wireless connection mode, the output end position of the first wireless receiving module 13 is provided with a mobile terminal 15 in a connection mode, the output end position of the mobile terminal 15 is provided with a second wireless transmitting module 14 in a connection mode, the second wireless transmitting module 14 is in a wireless connection mode with a second wireless receiving module 12, the output end position of the mobile terminal 15 is provided with a display module 17 in a connection mode, the output end position of the mobile terminal 15 is provided with an input module 18 in a connection mode, the output end position of the mobile terminal 15 is provided with a storage module 16 in a connection mode, commands are input through the input module 18, then the commands are sent through the second wireless transmitting module 14 through the mobile terminal 15 and received by the second wireless, and control is not restricted by the place, very big the operation flow of having made things convenient for, mounting panel 28 both sides position fixed mounting is provided with solid fixed ring 31, gu fixed ring 31 fixed mounting sets up in the fixed column 32 outside, mounting panel 28 upper end position fixed mounting is provided with support frame 29, the inboard side position fixed mounting of support frame 29 sets up and is provided with casing 30, transformer 2 fixed mounting sets up inside casing 30, transformer 2 front end movable mounting is provided with door plant 54, door plant 54 front end position fixed mounting is provided with handle 55, support frame 29 upper end position is provided with cooling mechanism 56, casing 30 central point puts and is provided with trigger mechanism 26, casing 30 central point puts and has seted up cavity 52, spout 53 has been seted up to the inside right side end position of cavity 52.

The self-checking system 6 comprises a third wireless transmitting module 19, a control box 20, a timing module 21, a battery module 22, a current stabilizer 23, a solar cell panel 24, a current limiting module 25 and a current detecting module 27, the second wireless receiving module 12 is provided with the third wireless transmitting module 19 in a wireless connection manner, the input end of the third wireless transmitting module 19 is provided with the control box 20 in a position connection manner, the output end of the control box 20 is provided with the battery module 22 in a position connection manner, the input end of the control box 20 is provided with the timing module 21 in a position connection manner, the output end of the control box 20 is provided with the current limiting module 25 in a position connection manner, the input end of the battery module 22 is provided with the current stabilizer 23 in a position connection manner, the input end of the current stabilizer 23 is provided with the solar cell panel 24 in a position connection manner, the current limiting module 25 is electrically connected with the municipal, the current detection module 27 is electrically connected with the control box 20, when in use, the solar panel converts solar energy into electric energy, the electric energy is stabilized by the current stabilizer 23 and then stored in the internal position of the battery module 22, so that the municipal power supply is not needed, the power is saved, meanwhile, the timing module 21 starts the battery module 22 by the control box 20 at regular time to enable the circuit to be connected, current flows into the municipal lighting lamp 7 through the current limiting module 25, the municipal lighting lamp 7 cannot be lightened by the current, if the municipal lighting lamp 7 is in a normal state, the current flows into the current detection module 27 to be detected, if the municipal lighting lamp 7 is in a damaged state, the current detection module 27 cannot detect the current when the circuit is broken, information is fed back to the internal part of the control box 20, and simultaneously the information is transmitted by the third wireless transmission module 19, is received by the second wireless receiving module 12 and transmitted to the control terminal 1, and the, make things convenient for municipal lighting lamp 7's timely maintenance work to need not the operating condition of artifical detection municipal lighting lamp 7.

The cooling mechanism 56 comprises a collection box 33, a filter plate 36, a limit block 37, a temperature control switch 34, an injection pipe 39, a storage battery 35, a cooling groove 40, a motor 38, a rotating shaft 41, a movable shaft 42, a perforation 44 and a hole groove 43, the cooling groove 40 is arranged at two side end positions inside the shell 30, the collection box 33 is fixedly arranged at the upper end position of the support frame 29, the limit block 37 is fixedly arranged at two side end positions inside the collection box 33, the filter plate 36 is movably arranged at the upper end position of the limit block 37, the temperature control switch 34 is fixedly arranged at the left side end position of the collection box 33, the injection pipe 39 is vertically and fixedly inserted at the center position of the lower end of the collection box 33, the lower end position of the injection pipe 39 is communicated with the cooling groove 40, the motor 38 is fixedly arranged at the left side position of, a rotating shaft 41 is fixedly arranged at the position of the right side output end of the motor 38, the motor 38 drives the rotating shaft 41 to rotate, a movable shaft 42 is fixedly arranged at the position of the right side end of the rotating shaft 41, the movable shaft 42 movably penetrates into the inner position of the injection pipe 39, hole grooves 43 are respectively arranged at the upper end position and the lower end position of the inner part of the injection pipe 39, a perforation 44 is arranged at the central position of the movable shaft 42, rainwater is collected and stored at the inner position of the collecting box 33 after being filtered by the filter plate 36, at the moment, the hole grooves 43 and the perforation 44 are in a staggered state, the temperature control switch 34 starts the motor 38 until the temperature detected by the temperature control switch 34 exceeds a threshold value, the timer is started to limit the starting time of the motor 38, the movable shaft 42 is in the initial position after the motor 38 is started to the timer, and the, when the movable shaft 42 rotates to the position where the hole groove 43 and the through hole 44 are aligned, at this time, the water source in the collection box 33 flows down through the communication position and is injected into the cooling groove 40 to cool down, so as to prevent the high-temperature weather transformer 2 from overheating, and after the timer is rotated for timing time, if the temperature detected by the temperature control switch 34 exceeds the threshold, the motor 38 is started again, and the operation is repeated.

The trigger mechanism 26 comprises a screw 45, an operating block 46, a movable plate 47, an electromagnet 48, a conductive plate 50, a spring 51 and a conductive rod 49, the screw 45 is movably inserted and arranged at the position of the left end inside the cavity 52, the screw 45 rotates around the center axis of the self, the operating block 46 is arranged at the position of the outer end of the center of the screw 45 in a surrounding and fixed manner, the operating block 46 extends to the outer side of the shell 30, the position of the outer end of the operating block 46 is provided with anti-slip threads in a surrounding manner, the threads at the upper side and the lower side of the screw 45 are oppositely arranged, the movable plate 47 is sleeved and arranged at the positions of the outer sides at the upper end and the lower end of the screw 45, the movable clamp at the position of the right end of the movable plate 47 is arranged at the inner position of the sliding groove 53, the conductive rod, the conductive plate 50 is a magnetic metal plate, the lower end of the conductive plate 50 is fixedly provided with an electromagnet 48 at the upper end position of the movable plate 47, the upper end position of the electromagnet 48 is fixedly provided with a contact, the current sensing module 9 is electrically connected with the electromagnet 48, when the transformer 2 is installed at the upper end position and the lower end position in the shell 30 in use, then the operation block 46 is rotated, the screw rod 45 is rotated to drive the movable plate 47 to move until the upper end conductive rod 49 extends to the upper end transformer 2, the lower end conductive rod 49 extends to the lower end transformer 2, when the current sensing module 9 senses excessive power, the power consumption peak is indicated, at the moment, the current sensing module 9 starts the electromagnet 48, the adsorption conductive plate 50 moves downwards to be tightly attached to the upper end position of the electromagnet 48, the spring 51 is stretched, the conductive rods 49 are communicated, and the upper transformer 2, thereby reducing the working strength of the single transformer 2 and ensuring the normal operation of the transformer 2.

the first step is as follows: when the transformer 2 is used, the transformer 2 is arranged at the upper end position and the lower end position in the shell 30, then the operation block 46 is rotated, the screw rod 45 is rotated, the movable plate 47 is driven to move until the upper end conductive rod 49 extends into the upper end transformer 2, the lower end conductive rod 49 extends into the lower end transformer 2, when the current induction module 9 induces overlarge power, the situation is in a power utilization peak period, at the moment, the current induction module 9 starts the electromagnet 48, the adsorption conductive plate 50 moves downwards to be attached to the upper end position of the electromagnet 48, the spring 51 is stretched, the conductive rods 49 are communicated, the upper transformer 2 and the lower transformer 2 are connected in parallel, the working intensity of a single transformer 2 is reduced, and the normal operation of the transformer 2 is;

the second step is that: when the device is used, the light sensing module 3 is used for sensing the light intensity, when the light intensity is lower than a set value, the light sensing module 3 starts the municipal lighting lamp 7, so that the municipal lighting lamp 7 is ensured to be in an on state when needed, meanwhile, the power waste caused by early on is prevented, in addition, when the device is used, the time counting module 4 is started, the municipal lighting lamp 7 is ensured to be in the on state in the peak period of the people movement, until the valley period of the people movement, the time counting module 4 turns off the municipal lighting lamp 7 to save the power, when the infrared sensing module 5 senses that pedestrians pass, the municipal lighting lamp 7 is restarted, so that the purpose of saving the power is achieved by temporarily turning off the municipal lighting lamp 7 when;

the third step: when the device is used, the solar panel converts solar energy into electric energy, the electric energy is stabilized by the current stabilizer 23 and then is stored in the internal position of the battery module 22, so that a municipal power supply is not needed for supplying power, the power is saved, meanwhile, the timing module 21 starts the battery module 22 by the control box 20 at regular time to enable the circuit to be communicated, current flows into the municipal illuminating lamp 7 through the current limiting module 25, the municipal illuminating lamp 7 cannot be lightened by the current, if the municipal illuminating lamp 7 is in a normal state, the current flows into the current detecting module 27 to be detected, if the municipal illuminating lamp 7 is in a damaged state, the current detecting module 27 is disconnected, the current cannot be detected, information is fed back to the inside of the control box 20, and meanwhile, the information is transmitted by the third wireless transmitting module 19, received by the second wireless receiving module 12 and transmitted to the control terminal 1 and, the municipal lighting lamp 7 can be maintained in time conveniently, and the working state of the municipal lighting lamp 7 does not need to be detected manually;

the fourth step: rainwater is collected after filtering through filter 36 and is stored in collecting box 33 internal site, hole groove 43 is dislocation state with perforation 44 this moment, until when temperature detect switch 34 detects the temperature and surpasses the threshold value, temperature detect switch 34 starter motor 38 this moment, the timer starts the start-up time of restriction motor 38 simultaneously, it is at initial position to guarantee that motor 38 starts movable shaft 42 after the timer timing time, simultaneously drive pivot 41 and rotate when motor 38 starts, thereby make movable shaft 42 rotate, when movable shaft 42 rotates to hole groove 43 and perforation 44 alignment position, the inside water source of collecting box 33 flows down through the intercommunication position and pours into to the cooling bath 40 internal site and carry out cooling work this moment, prevent high temperature weather transformer 2 overheated, if temperature detect switch 34 after rotating the timer timing time surpasss the threshold value then motor 38 restarts simultaneously, so relapse.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

1. The utility model provides a wisdom city energy control system that economizes on electricity, includes control terminal (1), transformer (2), mounting panel (28) and erection column (32), its characterized in that: the control terminal (1) output end position connection is provided with an alarm module (10), the control terminal (1) output end position connection is provided with a first wireless transmitting module (11), the control terminal (1) output end position connection is provided with a transformer (2), the transformer (2) output end position connection is provided with a current sensing module (9), the current sensing module (9) output end position connection is provided with a resident electric device (8), the transformer (2) output end position connection is provided with a municipal lighting lamp (7), the municipal lighting lamp (7) input end position connection is provided with a self-checking system (6), the control terminal (1) input end position connection is provided with a second wireless receiving module (12), the control terminal (1) output end position connection is provided with a light sensing module (3), the control terminal (1) is provided with a timing module (4) in an output end position connection mode, an infrared sensing module (5) is arranged in an output end position connection mode of the control terminal (1), a first wireless transmitting module (11) is provided with a first wireless receiving module (13) in a wireless connection mode, a mobile terminal (15) is arranged in an output end position connection mode of the first wireless receiving module (13), a second wireless transmitting module (14) is arranged in an output end position connection mode of the mobile terminal (15), a display module (17) is arranged in an output end position connection mode of the mobile terminal (15), an input module (18) is arranged in an output end position connection mode of the mobile terminal (15), a storage module (16) is arranged in an output end position connection mode of the mobile terminal (15), and fixing rings (31) are arranged in two side end, fixed ring (31) fixed mounting sets up in fixed column (32) outside, mounting panel (28) upper end position fixed mounting is provided with support frame (29), support frame (29) inboard end position fixed mounting sets up and is provided with casing (30), transformer (2) front end position movable mounting is provided with door plant (54), support frame (29) upper end position is provided with cooling body (56), casing (30) central point puts and is provided with trigger mechanism (26), casing (30) central point puts and has seted up cavity (52), spout (53) have been seted up to the inside right side end position of cavity (52).

2. The system of claim 1, wherein the smart city power saving energy control system comprises: the self-checking system (6) comprises a third wireless transmitting module (19), a control box (20), a timing module (21), a battery module (22), a current stabilizer (23), a solar panel (24), a current limiting module (25) and a current detection module (27), the second wireless receiving module (12) is wirelessly connected and provided with the third wireless transmitting module (19), the input end of the third wireless transmitting module (19) is connected and provided with the control box (20), the output end of the control box (20) is connected and provided with the battery module (22), the input end of the control box (20) is connected and provided with the timing module (21), the output end of the control box (20) is connected and provided with the current limiting module (25), the input end of the battery module (22) is connected and provided with the current stabilizer (23), the input end of the current stabilizer (23) is connected and provided with the solar panel (24), current limit module (25) and municipal lighting lamp (7) electric connection, municipal lighting lamp (7) output end position is connected and is provided with current detection module (27), current detection module (27) and control box (20) electric connection.

3. The system of claim 1, wherein the smart city power saving energy control system comprises: the cooling mechanism (56) comprises a collecting box (33), a filter plate (36), a limiting block (37), a temperature control switch (34), an injection pipe (39), a storage battery (35), a cooling groove (40), a motor (38), a rotating shaft (41), a movable shaft (42), a perforation (44) and a hole groove (43), wherein the cooling groove (40) is formed in the two side end positions in the shell (30), the collecting box (33) is fixedly arranged at the upper end position of the supporting frame (29), the limiting block (37) is fixedly arranged at the two side end positions in the collecting box (33), the filter plate (36) is movably arranged at the upper end position of the limiting block (37), the temperature control switch (34) is fixedly arranged at the left end position of the collecting box (33), the injection pipe (39) is vertically and fixedly penetrated in the central position of the lower end of the collecting box (33), and the lower end position of the injection, casing (30) upper end left side position fixed mounting is provided with motor (38), motor (38) inside position fixed mounting is provided with the time-recorder, motor (38) right side output end position fixed mounting is provided with pivot (41), pivot (41) right side position fixed mounting is provided with loose axle (42), loose axle (42) activity penetrates injection tube (39) inside position, both sides position all seted up hole groove (43) about injection tube (39) inside, punch hole (44) have been seted up to loose axle (42) central point.

4. The system of claim 1, wherein the smart city power saving energy control system comprises: the trigger mechanism (26) comprises a screw rod (45), an operation block (46), a movable plate (47), an electromagnet (48), a conductive plate (50), a spring (51) and a conductive rod (49), the screw rod (45) is movably arranged at the position of the left side end inside the cavity (52) in an inserting mode, the operation block (46) is arranged at the position of the outer side end of the center of the screw rod (45) in a surrounding mode in a fixed installation mode, the operation block (46) extends to the outer side of the shell (30), the position of the outer side end of the operation block (46) in the surrounding mode is provided with anti-slip threads, the threads on the upper side and the lower side of the screw rod (45) are oppositely arranged, the movable plate (47) is arranged at the outer side positions of the upper end and the lower end of the screw rod (45) in a sleeved mode, the movable clamping joint at the, upper end fly leaf (47) lower extreme position fixed mounting is provided with spring (51), spring (51) lower extreme position fixed mounting is provided with current conducting plate (50), current conducting plate (50) are the magnetic metal board, the lower extreme fly leaf (47) upper end position fixed mounting is provided with electro-magnet (48), electro-magnet (48) upper end position fixed mounting is provided with the contact, current induction module (9) and electro-magnet (48) electric connection.

5. The system of claim 1, wherein the smart city power saving energy control system comprises: light response module (3), timing module (4), infrared ray response module (5) and municipal lighting lamp (7) electric connection.

6. The system of claim 1, wherein the smart city power saving energy control system comprises: the second wireless transmitting module (14) is wirelessly connected with the second wireless receiving module (12).

7. The system of claim 1, wherein the smart city power saving energy control system comprises: the transformer (2) is fixedly arranged in the shell (30).

8. The system of claim 1, wherein the smart city power saving energy control system comprises: a handle (55) is fixedly arranged at the front end of the door panel (54).

9. The method of claim 1, wherein the smart city power saving control system comprises: the method specifically comprises the following steps:

the first step is as follows: when the transformer is used, the transformer (2) is arranged at the upper end position and the lower end position in the shell (30), then the operation block (46) is rotated, the screw rod (45) is rotated to drive the movable plate (47) to move until the upper end conductive rod (49) extends to the upper end transformer (2), the lower end conductive rod (49) extends to the lower end transformer (2), when the current induction module (9) induces overlarge power, the power utilization peak period is indicated, at the moment, the current induction module (9) starts the electromagnet (48), the adsorption conductive plate (50) moves downwards to cling to the upper end position of the electromagnet (48), the spring (51) is stretched, the conductive rods (49) are communicated, the upper transformer (2) and the lower transformer (2) are connected in parallel, the working intensity of a single transformer (2) is reduced, and the normal operation of the transformer (2) is ensured;

the second step is that: when the intelligent household lighting lamp is used, the light sensing module (3) is used for sensing the light intensity, when the light intensity is lower than a set value, the light sensing module (3) starts the municipal lighting lamp (7), so that the municipal lighting lamp (7) is ensured to be in an on state when needed, meanwhile, the power waste caused by early on is prevented, in addition, the time counting module (4) is started when the intelligent household lighting lamp is used, the municipal lighting lamp (7) is ensured to be in an on state in the peak period of the people flow activity, until the valley period of the people flow activity, the municipal lighting lamp (7) is closed by the timing module (4), the power is saved, when the infrared sensing module (5) senses the passing of pedestrians, the municipal lighting lamp (7) is restarted, and the purpose of saving the power is achieved by temporarily;

the third step: when the intelligent solar energy water heater is used, solar panels convert solar energy into electric energy, the electric energy is stored in the internal position of the battery module (22) after being stabilized by the current stabilizer (23), municipal power supply is not needed, the power is saved, meanwhile, the timing module (21) starts the battery module (22) through the control box (20) at regular time, circuits are communicated, current flows into the municipal illuminating lamp (7) through the current limiting module (25), the municipal illuminating lamp (7) cannot be lightened by the current, if the municipal illuminating lamp (7) is in a normal state, the current flows into the current detection module (27) to be detected, if the municipal illuminating lamp (7) is in a damaged state, the current detection module (27) cannot detect the current when the circuit is broken, information is fed back to the inside of the control box (20), and is transmitted by the third wireless transmitting module (19), and is received by the second wireless receiving module (12) and transmitted to the control terminal (1) and corresponding alarm module (1) is started 10) The alarm is given, so that the municipal lighting lamp (7) can be maintained in time conveniently, and the working state of the municipal lighting lamp (7) does not need to be detected manually;

the fourth step: rainwater is collected after being filtered by a filter plate (36) and is stored in the inner position of a collecting box (33), at the moment, a hole groove (43) and a perforation (44) are in a dislocation state, until a temperature control switch (34) detects that the temperature exceeds a threshold value, the temperature control switch (34) starts a motor (38) at the moment, and a timer starts the starting time of limiting the motor (38), so that a movable shaft (42) is at an initial position after the motor (38) is started to the timer for timing time, and simultaneously the motor (38) drives a rotating shaft (41) to rotate when being started, so that the movable shaft (42) rotates to the alignment position of the hole groove (43) and the perforation (44), at the moment, a water source in the collecting box (33) flows down through the communication position to be injected into the inner position of a cooling groove (40) for cooling work, the high-temperature weather transformer (2) is prevented from overheating, and meanwhile, after the timer is rotated for timing time, if the temperature control switch (34) detects that the temperature exceeds This is repeated.