CN116826971A - A smart power management system based on cloud-controlled circuit breakers - Google Patents

Abstract

The application relates to an intelligent electricity management system based on a cloud control circuit breaker, which comprises a multi-region temperature monitoring module, an abnormal preprocessing module, a temperature early warning module and a time recording module, wherein the temperature of the circuit breaker, the environment temperature of the circuit breaker and the temperature of electrical equipment connected with the circuit breaker are monitored in real time through the multi-region temperature monitoring module, so that the possibility factors of the circuit breaker when abnormal temperature or unexpected tripping occurs can be effectively analyzed, the circuit breaker is preprocessed in different operation modes according to the conditions before the accident occurs due to the high temperature, the operation stability of the connected electrical equipment is effectively improved, the occurrence of safety accidents is reduced, and the largest possible first maintenance target can be provided for maintenance personnel through the analysis of the unexpected tripping condition, the fault troubleshooting efficiency is improved, and the operation of equipment lines is timely restored.

Description

Intelligent electricity management system based on cloud control circuit breaker

Technical Field

The application relates to an electricity management system, in particular to an intelligent electricity management system based on a cloud control circuit breaker, which is applied to the technical field of intelligent electricity.

Background

With the development of the industry and information industry in China, electrical equipment and electrical products used by people in production and life are more and more frequent, and fire situations caused by circuit aging, electrical appliance leakage short circuit, electricity overload and the like are more and more serious, so that personal and property safety of people is seriously endangered, and an electrical fire is always in the first place for many years, and huge property loss is caused; particularly, in many large-scale enterprise factories, accurate monitoring and fine management are required to be realized on electricity consumption data and electricity consumption conditions, but the existing intelligent electricity consumption management system has the problems of low intellectualization of monitoring equipment and low monitoring performance.

In order to solve the problems, the specification of Chinese patent No. 202211156185.6 discloses an intelligent electricity management system based on a cloud control circuit breaker, and the intelligent electricity management system is used by combining a highly integrated miniature circuit breaker into a management system and matching with an energy-saving controller to collect and analyze electricity data of electric circuits and equipment, so that the effects of providing remote monitoring, remote control, time management and energy-saving management schemes for users are realized, the users can be helped to realize fine management and accurate operation and maintenance, the intelligent degree of monitoring equipment is greatly improved, and the monitoring performance is effectively improved.

In the above technology, the circuit breaker is used for controlling the opening and closing of the electric equipment and the current of the circuit, but when the circuit breaker itself is abnormal in operation, the circuit breaker itself can be tripped by a light person, and the circuit breaker is damaged by a heavy person, so that the operation of each circuit is affected, and safety accidents are caused.

Content of the application

Aiming at the prior art, the technical problem to be solved by the application is that the circuit breaker for controlling the current opening and closing of the electrical equipment is easy to have temperature abnormality, thereby causing tripping phenomenon or more serious line safety problem.

In order to solve the problems, the application provides an intelligent electricity management system based on a cloud control circuit breaker, which comprises a multi-region temperature monitoring module, an abnormal preprocessing module, a temperature early warning module and a time recording module, wherein the multi-region temperature monitoring module is used for respectively monitoring the temperature of the circuit breaker, the ambient temperature of the circuit breaker and the temperatures of a plurality of electrical equipment connected with the circuit breaker through a plurality of temperature sensors, the abnormal preprocessing module is used for carrying out different modes of safety processing on the circuit breaker with abnormal temperature, the abnormal preprocessing module comprises a cooling processing unit, an active breaking unit and an active closing unit, and the temperature early warning module is used for carrying out high-temperature early warning when the circuit breaker is still in abnormal temperature after being subjected to the safety processing.

The intelligent electricity consumption management system based on the cloud control circuit breaker comprises the following steps:

s1, respectively monitoring the temperature of a circuit breaker, the environment temperature of the circuit breaker and the electric equipment connected with the circuit breaker in real time, and setting a safety value T1 and a dangerous value T2 for the temperature of the circuit breaker, wherein T1 is smaller than T2;

s2, when the temperature of the circuit breaker is monitored to rise to T2, analyzing the environment temperature of the circuit breaker: when the ambient temperature exceeds the safe temperature range, performing step S3, and when the ambient temperature is within the safe temperature range, performing step S4;

s3, cooling the circuit breaker until the temperature of the circuit breaker is reduced to T1, recording cooling duration time through a time recording module, and performing step S4 when the temperature of the circuit breaker is not reduced to T1 within a specified time;

s4, firstly, opening a part of switch opening of the circuit breaker, reducing the load of the circuit breaker, then cooling the circuit breaker, recording the cooling duration time through a time recording module, and re-closing the switch opening when the temperature of the circuit breaker is reduced to T1 and does not rise to T2 after a period of time; when the temperature of the circuit breaker does not drop to T1 within the specified time, the switch total gate on the circuit breaker is disconnected, and high-temperature early warning is carried out.

The intelligent electricity consumption management system based on the cloud control circuit breaker comprises the following steps:

w1, intercepting temperature change data of the circuit breaker and temperature change data of electrical equipment connected with the tripped switch in a time period t before tripping when the circuit breaker is tripped accidentally by switching off a certain switch in the using process, and analyzing the temperature change data;

w2, when the condition that the temperature data of the circuit breaker rises to T2 does not occur, prompting: the probability of tripping caused by faults of the electrical equipment is high, and a first inspection target is provided for maintenance personnel;

w3, when the temperature data of the circuit breaker rises to T2 and the temperature data of the electrical equipment is not abnormal, prompting: the probability of tripping caused by faults of the circuit breaker is high, and a first inspection target is provided for maintenance personnel;

w4, when the temperature data of the circuit breaker rises to T2, and meanwhile, the temperature data of the electrical equipment is abnormal, prompting: the probability of tripping caused by faults of the electrical equipment and the circuit breaker is high, and an maintainer can automatically select one of the equipment and the circuit breaker to check according to actual conditions.

As a further supplement of the application, the intelligent electricity management system based on the cloud control circuit breaker further comprises a temperature database, wherein the temperature database comprises circuit breaker temperature monitoring data, environment temperature monitoring data of the circuit breaker and electrical equipment temperature monitoring data connected with the circuit breaker.

As still another improvement of the present application, the circuit breaker includes a circuit breaker body on which a main gate body and a plurality of opening gate bodies are mounted, and the main gate body and the opening gate bodies are linearly distributed, the plurality of opening gate bodies are respectively used for switching currents of a plurality of electric devices, and the main gate body is used for switching currents of a plurality of electric devices at the same time.

In addition to the improvement of the application, the outer end of the breaker body is connected with a pair of supporting plates which are respectively positioned at the upper side and the lower side of the opening body, the lower end of the supporting plate positioned at the upper side of the opening body is fixedly connected with a plurality of main electric push rods, and the upper end of the supporting plate positioned at the lower side of the opening body is fixedly connected with a plurality of auxiliary electric push rods.

As a further improvement supplement of the application, the sum of the numbers of the total gate bodies and the opening gate bodies is the same as the number of the main electric pushing rods and the number of the auxiliary electric pushing rods, and the total gate bodies and the opening gate bodies are in one-to-one correspondence with the plurality of the main electric pushing rods and in one-to-one correspondence with the plurality of the auxiliary electric pushing rods.

As a further improvement of the application, the main electric push rod is electrically connected with the active brake breaking unit, and the auxiliary electric push rod is electrically connected with the active brake closing unit.

In addition to the further improvement of the application, the pair of side ends of the supporting plate are fixedly connected with the perforated mounting plates, the outer end of the breaker body is provided with a plurality of mounting holes which are in one-to-one correspondence with the perforated mounting plates, and bolts are connected between the perforated mounting plates and the mounting holes in a threaded manner.

As a supplement to still another improvement of the present application, the cooling processing unit performs cooling processing on the circuit breaker by controlling an air-cooling device mounted on the circuit breaker.

In summary, in the intelligent electricity management system based on the cloud control circuit breaker, through the temperature monitoring of the circuit breaker, the environment temperature where the circuit breaker is located, the temperature monitoring of multiple areas such as the electrical equipment and the like, the possibility factors when the circuit breaker is abnormal in temperature or accidentally tripped can be effectively analyzed, the pretreatment of different operation modes is carried out on the circuit breaker according to the conditions before the circuit breaker generates accidents due to high temperature, the operation stability of the connected electrical equipment is effectively improved, the occurrence of safety accidents is reduced, and the most probable leading maintenance target can be provided for maintenance staff through the analysis of the accidental tripping conditions, the fault detection efficiency is improved, and the equipment line operation is timely restored.

Drawings

FIG. 1 is a system diagram of embodiment 1 of the present application;

FIG. 2 is a flowchart I of embodiment 1 of the present application;

FIG. 3 is a second flowchart of embodiment 1 of the present application;

fig. 4 is a perspective view of a circuit breaker according to embodiment 2 of the present application;

FIG. 5 is a perspective view of a part of the opening body according to embodiment 2 of the present application;

fig. 6 is a schematic diagram showing a front structure of a circuit breaker according to embodiment 2 of the present application;

fig. 7 is a schematic diagram of a partial side structure of a circuit breaker according to embodiment 2 of the present application;

fig. 8 is a schematic diagram showing a partial side structure of a circuit breaker according to embodiment 2 of the present application;

fig. 9 is a schematic diagram of a partial side structure of a circuit breaker according to embodiment 2 of the present application;

fig. 10 is a schematic diagram showing a partial side structure of a circuit breaker according to embodiment 2 of the present application.

The reference numerals in the figures illustrate:

1 breaker body, 2 total brake body, 3 brake body, 4 backup pad, 5 main electric putter, 6 vice electric putter, 7 foraminiferous mounting panels.

Detailed Description

2 embodiments of the present application will be described in detail with reference to the accompanying drawings.

Embodiment 1:

the application provides an intelligent electricity management system based on a cloud control circuit breaker, which comprises a multi-region temperature monitoring module, an abnormal preprocessing module, a temperature early warning module and a time recording module, wherein the multi-region temperature monitoring module is used for respectively monitoring the temperature of the circuit breaker, the ambient temperature of the circuit breaker and the temperatures of a plurality of electrical devices connected with the circuit breaker in real time through a plurality of temperature sensors, the abnormal preprocessing module is used for carrying out different modes of safety processing on the circuit breaker with abnormal temperature, and the abnormal preprocessing module comprises a cooling processing unit, an active breaking unit and an active closing unit, and the temperature early warning module is used for carrying out high-temperature early warning when the circuit breaker is still in abnormal temperature after being subjected to the safety processing.

An intelligent electricity management system based on a cloud control circuit breaker is combined with fig. 2, and the management method comprises the following steps:

s1, respectively monitoring the temperature of a circuit breaker, the environment temperature of the circuit breaker and the electric equipment connected with the circuit breaker in real time, and setting a safety value T1 and a dangerous value T2 for the temperature of the circuit breaker, wherein T1 is smaller than T2;

because the environment temperature has a great influence on the operation of the circuit breaker, when the environment temperature is too high, high-temperature air can transfer heat to the circuit breaker to influence the self heat dissipation effect of the circuit breaker, so that the temperature monitoring of the surrounding environment of the circuit breaker is necessary, and the reason of the abnormal temperature of the circuit breaker can be assisted to be analyzed;

s2, when the temperature of the circuit breaker is monitored to rise to T2, analyzing the environment temperature of the circuit breaker: when the ambient temperature exceeds the safe temperature range, performing step S3, and when the ambient temperature is within the safe temperature range, performing step S4;

s3, cooling the circuit breaker until the temperature of the circuit breaker is reduced to T1, recording cooling duration time through a time recording module, and performing step S4 when the temperature of the circuit breaker is not reduced to T1 within a specified time;

in step S3, since the ambient temperature exceeds the safe temperature range (i.e. the ambient temperature is higher), it is determined that the temperature of the circuit breaker is affected by the ambient temperature in a very high possibility, in this case, the circuit breaker is cooled to restore the safe value (supplementary explanation is that the cooling processing unit can control the air cooling device installed on the circuit breaker to cool the circuit breaker, which is one cooling mode, and a person skilled in the art can adopt other more suitable cooling modes according to the actual installation situation of the circuit breaker), when the temperature of the circuit breaker does not fall to T1 within the specified time, it is indicated that the circuit breaker is possibly affected by the ambient temperature, and also has a factor with a large load, and then step S4 is performed;

when the ambient temperature is within the safe temperature range, the circuit breaker temperature abnormality is not influenced by the ambient temperature, and the high probability is that the circuit breaker temperature abnormality accords with a large factor, so that the step S4 is directly carried out;

s4, firstly, opening a part of switch opening of the circuit breaker, reducing the load of the circuit breaker, then cooling the circuit breaker, recording the cooling duration time through a time recording module, and re-closing the switch opening when the temperature of the circuit breaker is reduced to T1 and does not rise to T2 after a period of time; when the temperature of the circuit breaker does not drop to T1 within the specified time, the switch total gate on the circuit breaker is disconnected, and high-temperature early warning is carried out.

Supplementary explanation: the electrical equipment connected with the disconnected switch brake in the step S4 belongs to the electrical equipment which can interrupt current, is not easy to cause equipment failure and does not obviously influence the normal operation of other lines, and the switch brake disconnected in the step S4 can be preset according to the actual line connection condition by a person skilled in the art.

Through the management mode of the circuit breaker with abnormal temperature, the circuit breaker with abnormal temperature can be subjected to the pre-condition dividing treatment before the circuit breaker generates accidents due to high temperature, so that the operating temperature of the circuit breaker is effectively reduced, meanwhile, the circuit breaker is not easy to trip accidentally or even cause fire accidents due to the temperature faults of the circuit breaker, the operating stability of the connected electrical equipment is effectively improved, and the occurrence of safety accidents is reduced.

An intelligent electricity management system based on a cloud control circuit breaker, and in combination with fig. 3, the management method further comprises the following steps:

w1, intercepting temperature change data of the circuit breaker and temperature change data of electrical equipment connected with the tripped switch in a time period t before tripping when the circuit breaker is tripped accidentally by switching off a certain switch in the using process, and analyzing the temperature change data;

w2, when the condition that the temperature data of the circuit breaker rises to T2 does not occur, prompting: the probability of tripping caused by faults of the electrical equipment is high, and a first inspection target is provided for maintenance personnel;

w3, when the temperature data of the circuit breaker rises to T2 and the temperature data of the electrical equipment is not abnormal, prompting: the probability of tripping caused by faults of the circuit breaker is high, and a first inspection target is provided for maintenance personnel;

w4, when the temperature data of the circuit breaker rises to T2, and meanwhile, the temperature data of the electrical equipment is abnormal, prompting: the probability of tripping caused by faults of the electrical equipment and the circuit breaker is high, and an maintainer can automatically select one of the equipment and the circuit breaker to check according to actual conditions.

Through the management mode of the tripping condition of the circuit breaker, the possible factor of accidental tripping of the circuit breaker is effectively analyzed according to different actual conditions, so that a leading maintenance target with the highest possibility is provided for maintenance staff, the fault detection efficiency is improved, and the equipment line operation is timely restored.

Above-mentioned wisdom electricity management system based on cloud accuse circuit breaker still includes temperature database, and temperature database includes circuit breaker temperature monitoring data, the ambient temperature monitoring data at circuit breaker place and the electrical equipment temperature monitoring data who is connected with the circuit breaker, conveniently draws the analysis to each item data when needs.

Embodiment 2:

the present embodiment discloses a specific structure of a circuit breaker based on embodiment 1, and specifically includes: referring to fig. 4 and 6, the circuit breaker includes a circuit breaker body 1, a main gate body 2 and a plurality of opening bodies 3 are mounted on the circuit breaker body 1, the main gate body 2 and the opening bodies 3 are distributed in a linear shape, the plurality of opening bodies 3 are respectively used for switching currents of a plurality of electrical devices, the main gate body 2 is used for switching currents of the plurality of electrical devices at the same time, and when the main gate body 2 is disconnected, the plurality of electrical devices connected with the circuit breaker body 1 disconnect line currents at the same time.

The outer end of the breaker body 1 is connected with a pair of backup pads 4, a pair of backup pads 4 are located the upper and lower both sides of separating brake body 3 respectively, the lower extreme fixedly connected with a plurality of main electric putter 5 of backup pad 4 that is located separating brake body 3 upside, the upper end fixedly connected with a plurality of auxiliary electric putter 6 of backup pad 4 that is located separating brake body 3 downside, the sum of total brake body 2 and separating brake body 3 numbers is the same with the number of main electric putter 5 and the number three of auxiliary electric putter 6, total brake body 2 and separating brake body 3 two and a plurality of main electric putter 5 one-to-one to the same one-to-one with a plurality of auxiliary electric putter 6, main electric putter 5 and initiative brake breaking unit electric connection, auxiliary electric putter 6 and initiative combined floodgate unit electric connection.

As shown in fig. 4 and 7, under normal conditions, the main brake body 2 and the opening brake body 3 are in an upward normal closing state, and neither the main electric push rod 5 nor the auxiliary electric push rod 6 is in contact with the main electric push rod and the auxiliary electric push rod; as shown in fig. 5 and 8, when the operation of opening the switch on a part of the circuit breaker in step S4 is performed, that is, when a part of the opening body 3 in the present embodiment is opened, the main electric push rod 5 corresponding to the upper side of the opening body 3 is started by the active opening unit, the opening body 3 is rapidly pushed downward by the extension of the main electric push rod 5, so that the opening of the opening body 3 is realized, and after the opening is completed, the main electric push rod 5 is restored to the contracted state;

on the contrary, when the operation of switching on and off again in step S4 is needed, as shown in fig. 9, the auxiliary electric push rod 6 corresponding to the lower side of the switching-on body 3 is started by the active switching-on unit, the switching-on body 3 is quickly pushed upwards by the extension of the auxiliary electric push rod 6, and the switching-on of the switching-on body 3 is realized, and after the switching-on is completed, the auxiliary electric push rod 6 immediately retracts, as shown in fig. 10, so that the subsequent active switching-off condition of the switching-on body 3 is not affected.

As shown in fig. 4, the pair of side ends of the support plate 4 are fixedly connected with the perforated mounting plates 7, the outer end of the breaker body 1 is provided with a plurality of mounting holes corresponding to the perforated mounting plates 7 one by one, bolts are connected between the perforated mounting plates 7 and the mounting holes in a threaded manner, and the detachable connection of the pair of support plates 4 on the breaker body 1 is realized in a bolt connection manner, namely, when the need arises, the installation of the pair of support plates 4 is carried out, and when the need arises, the breaker body 1 can be used normally.

The present application is not limited to the above-described embodiments, which are adopted in connection with the actual demands, and various changes made by the person skilled in the art without departing from the spirit of the present application are still within the scope of the present application.

Claims (10)

1. Intelligent electricity management system based on cloud control circuit breaker, its characterized in that: including multizone temperature monitoring module, unusual preprocessing module, temperature early warning module and time recording module, multizone temperature monitoring module carries out real-time supervision through a plurality of temperature sensor to circuit breaker temperature, the ambient temperature at circuit breaker place and a plurality of electrical equipment temperatures of being connected with the circuit breaker respectively, unusual preprocessing module is used for carrying out the safety processing of different modes to the circuit breaker that has the temperature abnormality, unusual preprocessing module includes cooling processing unit, initiative brake breaking unit and initiative closing unit, temperature early warning module is used for still being in the high temperature early warning when the temperature abnormality after the circuit breaker is handled safely.

2. The intelligent electricity management system based on the cloud control circuit breaker according to claim 1, wherein: the management method comprises the following steps:

s1, respectively monitoring the temperature of a circuit breaker, the environment temperature of the circuit breaker and the electric equipment connected with the circuit breaker in real time, and setting a safety value T1 and a dangerous value T2 for the temperature of the circuit breaker, wherein T1 is smaller than T2;

s2, when the temperature of the circuit breaker is monitored to rise to T2, analyzing the environment temperature of the circuit breaker: when the ambient temperature exceeds the safe temperature range, performing step S3, and when the ambient temperature is within the safe temperature range, performing step S4;

s3, cooling the circuit breaker until the temperature of the circuit breaker is reduced to T1, recording cooling duration time through a time recording module, and performing step S4 when the temperature of the circuit breaker is not reduced to T1 within a specified time;

s4, firstly, opening a part of switch opening of the circuit breaker, reducing the load of the circuit breaker, then cooling the circuit breaker, recording the cooling duration time through a time recording module, and re-closing the switch opening when the temperature of the circuit breaker is reduced to T1 and does not rise to T2 after a period of time; when the temperature of the circuit breaker does not drop to T1 within the specified time, the switch total gate on the circuit breaker is disconnected, and high-temperature early warning is carried out.

3. The intelligent electricity management system based on the cloud control circuit breaker according to claim 1, wherein: the management method further comprises the following steps:

w1, intercepting temperature change data of the circuit breaker and temperature change data of electrical equipment connected with the tripped switch in a time period t before tripping when the circuit breaker is tripped accidentally by switching off a certain switch in the using process, and analyzing the temperature change data;

w2, when the condition that the temperature data of the circuit breaker rises to T2 does not occur, prompting: the probability of tripping caused by faults of the electrical equipment is high, and a first inspection target is provided for maintenance personnel;

w3, when the temperature data of the circuit breaker rises to T2 and the temperature data of the electrical equipment is not abnormal, prompting: the probability of tripping caused by faults of the circuit breaker is high, and a first inspection target is provided for maintenance personnel;

w4, when the temperature data of the circuit breaker rises to T2, and meanwhile, the temperature data of the electrical equipment is abnormal, prompting: the probability of tripping caused by faults of the electrical equipment and the circuit breaker is high, and an maintainer can automatically select one of the equipment and the circuit breaker to check according to actual conditions.

4. The intelligent electricity management system based on the cloud control circuit breaker according to claim 1, wherein: the temperature database comprises circuit breaker temperature monitoring data, environment temperature monitoring data of the circuit breaker and electrical equipment temperature monitoring data connected with the circuit breaker.

5. The intelligent electricity management system based on the cloud control circuit breaker according to claim 1, wherein: the circuit breaker comprises a circuit breaker body (1), wherein a main brake body (2) and a plurality of brake separating bodies (3) are arranged on the circuit breaker body (1), the main brake body (2) and the brake separating bodies (3) are distributed in a linear shape, the brake separating bodies (3) are respectively used for switching currents of a plurality of electrical equipment, and the main brake body (2) is used for switching currents of the plurality of electrical equipment simultaneously.

6. The intelligent electricity management system based on the cloud control circuit breaker according to claim 5, wherein: the circuit breaker is characterized in that a pair of support plates (4) are connected to the outer end of the circuit breaker body (1), the support plates (4) are respectively located on the upper side and the lower side of the opening body (3), the lower ends of the support plates (4) located on the upper side of the opening body (3) are fixedly connected with a plurality of main electric push rods (5), and the upper ends of the support plates (4) located on the lower side of the opening body (3) are fixedly connected with a plurality of auxiliary electric push rods (6).

7. The intelligent electricity management system based on the cloud control circuit breaker as claimed in claim 6, wherein: the total number of the total gate bodies (2) and the opening gate bodies (3) is the same as the number of the main electric pushing rods (5) and the number of the auxiliary electric pushing rods (6), and the total gate bodies (2) and the opening gate bodies (3) are in one-to-one correspondence with the plurality of the main electric pushing rods (5) and in one-to-one correspondence with the plurality of the auxiliary electric pushing rods (6).

8. The intelligent electricity management system based on the cloud control circuit breaker as claimed in claim 6, wherein: the main electric push rod (5) is electrically connected with the active brake breaking unit, and the auxiliary electric push rod (6) is electrically connected with the active brake closing unit.

9. The intelligent electricity management system based on the cloud control circuit breaker as claimed in claim 6, wherein: the circuit breaker is characterized in that a pair of side ends of the supporting plate (4) are fixedly connected with a perforated mounting plate (7), a plurality of mounting holes corresponding to the perforated mounting plate (7) one by one are formed in the outer end of the circuit breaker body (1), and bolts are connected between the perforated mounting plate (7) and the mounting holes in a threaded mode.

10. The intelligent electricity management system based on the cloud control circuit breaker according to claim 1, wherein: the cooling processing unit is used for cooling the circuit breaker by controlling air cooling equipment arranged on the circuit breaker.