CN114784976A - Intelligent extension socket for formulating power utilization plan based on cloud computing - Google Patents

Abstract

The invention discloses an intelligent power strip making a power utilization plan based on cloud computing, and relates to the field of power strip, wherein the intelligent power strip comprises a mobile cloud module, a mobile cloud module and a power utilization module, wherein the mobile cloud module is used for displaying power utilization information of each electric appliance; and an electricity charge and quantity counting module. According to the invention, the current and voltage input stability condition of each electric appliance can be monitored through the current and voltage monitoring module, whether safety hazards such as electric leakage, short circuit, ungrounded and the like exist in the household circuit is detected through the current and voltage input stability condition, the daily, weekly and monthly power consumption of each electric appliance can be ranked through the electric appliance power utilization ranking unit, the monthly power consumption information of each electric appliance and the monthly power consumption information of electric appliances of the same type of users in the same city can be compared and ranked through the power utilization ranking unit, so that the aging condition of the electric appliances can be judged, the standby and shutdown time periods can be set according to the service condition of each electric appliance through the energy-saving unit, and the electric quantity is saved.

Description

Intelligent extension socket for formulating power utilization plan based on cloud computing

Technical Field

The invention relates to the technical field of extension socket, in particular to an intelligent extension socket for making a power utilization plan based on cloud computing.

Background

The socket is a multi-position socket with wires, also called a patch board or a socket, a scholar wire lengthening assembly or an extension line socket. A strip refers to a multi-position receptacle that has a power cord and a plug and that can be moved. Can connect more than one power plug, both save space and saved the circuit, current row inserts only has the function of circular telegram, can not monitor the power consumption condition and the power consumption of electrical apparatus when using, also can not carry out intelligent control to electrical apparatus to cause the waste of electric quantity, for this reason we have proposed an intelligence row based on cloud calculates makes the power consumption plan and inserts.

Disclosure of Invention

An object of the application is to provide an intelligent power strip based on cloud computing makes power consumption plan to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above purpose, the present application provides the following technical solutions: the intelligent extension socket for making the power utilization plan based on cloud computing comprises a mobile cloud module, a mobile cloud module and a power distribution module, wherein the mobile cloud module is used for displaying power utilization information of each electric appliance; the electric charge and electric quantity statistics module is used for counting the daily, weekly and monthly electric quantity and the electric charge condition of each electric appliance; the current and voltage monitoring module is used for monitoring the current and voltage input stability condition of each electrical appliance; the power-on and power-off module is used for powering on and off each electric appliance; the electric appliance connection module is used for connecting each electric appliance, the electric charge quantity counting module is connected with the mobile cloud end module, the electric charge quantity counting module is connected with the current and voltage monitoring module, the current and voltage monitoring module is connected with the on-off module, the on-off module is connected with the electric appliance connection module, the current and voltage monitoring module is connected with the mobile cloud end module, and the mobile cloud end module is connected with the on-off module.

Preferably, the mobile cloud end module includes electric appliance power consumption ranking unit and power consumption ranking unit, electric appliance power consumption ranking unit with the power consumption ranking unit is connected, the electricity rate electric quantity statistics module with the electric appliance power consumption ranking unit is connected, the electric appliance power consumption ranking unit is used for ranking the day, week and month power consumption of each electric appliance, the power consumption ranking unit is used for comparing and ranking the monthly power consumption information of each electric appliance and the same model electric appliances of the same city user.

Preferably, the mobile cloud module comprises an electric appliance data operation unit and an energy-saving unit, the electric appliance data operation unit is connected with the energy-saving unit, the electric charge and electric quantity statistics module is connected with the electric appliance data operation unit, the electric appliance data operation unit is used for performing data operation on the electricity utilization time and the electricity consumption quantity of each electric appliance every day and giving the maximum electricity utilization time and the maximum electricity consumption quantity of each corresponding electric appliance every day, the energy-saving unit is used for setting standby and shutdown time intervals according to the service conditions of each electric appliance, and the energy-saving unit is connected with the power on/off module.

Preferably, the mobile cloud module comprises a power-off selection unit, the power-off selection unit is used for pushing abnormal power utilization conditions of each electric appliance to a user, the user can select whether to power off according to pushing, the power-off selection unit is connected with the power-on and power-off module, and the current and voltage monitoring module is connected with the power-off selection unit.

Preferably, electrical apparatus linking module includes a plurality of boxes of inserting, every insert in the box and all install the picture peg, four through four buffer gear the buffer gear is the rectangle setting, two slots and three slots have been seted up to the lateral part of picture peg, two slots are located the top of three slots, the lateral part of picture peg has been seted up and has been pushed away the drawing hole, sliding mounting has anti-disengaging mechanism in the pushing and pulling hole, anti-disengaging mechanism is used for preventing that electrical apparatus attach fitting from droing, anti-disengaging mechanism's lateral part pass through fixed establishment with one side inside fit installation of inserting the box, anti-disengaging mechanism's top pass through spring stop gear with the lateral part of picture peg is connected.

Preferably, buffer gear including install in the sliding sleeve of picture peg lateral part, slidable mounting has the traveller in the sliding sleeve, the one end of traveller extends to outside the sliding sleeve and with insert one side inner wall connection of box, the anticreep hole has been seted up on one side inner wall of sliding sleeve, the anticreep piece is installed to the lateral part of traveller, the one end of anticreep piece extends to outside the anticreep hole, the anticreep piece is located anticreep hole intermediate position.

Preferably, the anti-disengaging mechanism comprises a push-pull column which is slidably mounted in the push-pull hole, a rectangular hole is formed in one end of the push-pull column, a telescopic rod is slidably mounted in the rectangular hole, one end of the telescopic rod extends out of the plug box and is connected with an anti-disengaging plate, a connecting line slot is formed in the lateral portion of the anti-disengaging plate and corresponds to the two slots, the anti-disengaging plate corresponds to the two slots and the three slots, a stop block is mounted in the plug box by extending the other end of the telescopic rod, the lateral portion of the push-pull column is connected with the fixing mechanism, and the top of the push-pull column is connected with the spring limiting mechanism.

Preferably, the fixing mechanism comprises two insertion rods arranged on the side parts of the push-pull columns, two insertion sleeves are arranged on the inner wall of one side of the insertion box, and one ends of the two insertion rods extend into the two insertion sleeves respectively.

Preferably, spring stop gear including install in the lower rotation block at push-and-pull capital portion, the fixed block is installed to the lateral part of picture peg, the slide opening has been seted up at the top of fixed block, slidable mounting has the slide bar in the slide opening, the rotation block is installed to the bottom of slide bar, go up the rotation block with the lateral part that the lower rotation block is close to each other has all been seted up and has been rotated the groove, two rotate the inslot internal rotation and install the dwang, the both sides portion of dwang is two respectively the both sides inner wall that rotates the groove contacts, fixed spring has been cup jointed on the slide bar, fixed spring's top, bottom respectively with the fixed block go up the lateral part that the rotation block is close to each other and connect.

Preferably, a wire hole is formed in the inner wall of one side of the plug box.

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

1. according to the invention, the electricity consumption information of each electric appliance can be displayed through the mobile cloud module, the daily, weekly and monthly electricity consumption and the electricity charge condition of each electric appliance can be counted through the electricity charge and quantity counting module, the current and voltage input stability condition of each electric appliance can be monitored through the current and voltage monitoring module, and whether potential safety hazards such as electric leakage, short circuit and ungrounded phenomenon exist in a household circuit or not is detected through the current and voltage input stability condition.

2. In the invention, the electricity ranking unit of the electric appliances can rank the daily, weekly and monthly electricity consumption of each electric appliance, the monthly power consumption information of each electric appliance can be compared and rated with the monthly power consumption information of electric appliances of the same model of users in the same city through the power utilization rating unit, thereby judging the aging condition of the electric appliances, setting the standby time interval and the shutdown time interval according to the use condition of each electric appliance through the energy-saving unit, when in specific use, household normally-powered equipment such as an air conditioner, a washing machine, a water dispenser, a television and the like can set the daily power-on and power-off time period through the energy-saving unit, so as to save standby power consumption, and also can carry out linkage control through the energy-saving unit, for example, the air conditioner is automatically started in the minutes before the house arrives, meanwhile, other devices are linked to be powered on, abnormal electricity utilization conditions of the electrical appliances can be pushed to a user through the power-off selection unit, and the user can select whether to be powered off or not according to pushing.

3. When the plug box is used, the plug box is arranged at a designated position, the electrical appliance with the two plugs and the three plugs can be connected through the arrangement of the two slots and the three slots, the positions of the plug boards are fixed when the two plugs and the three plugs are inserted through the arrangement of the fixing mechanism, so that the two plugs and the three plugs can be conveniently inserted, after the plugs of the electrical appliance are inserted into the two slots and the three slots, the anti-falling plates can be dragged to drive the anti-falling plates to block the three plugs and the two plugs, and the three plugs and the two plugs are prevented from being separated in the using process.

4. When the anti-dropping device is used, if a connecting line of an electric appliance is accidentally pulled or the three-plug and the two-plug of the electric appliance are impacted, the plugboard can move back and forth, the plugboard moves to drive the four sliding sleeves to move, the four sliding sleeves move to drive the four buffer springs to deform so as to buffer, the connecting line is prevented from being broken or the three-plug and the two-plug of the electric appliance are prevented from being damaged by being hit, and meanwhile, the anti-dropping block slides in the anti-dropping hole so as to avoid the sliding sleeves from being separated from the sliding column, and the anti-dropping device is convenient to use.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a system diagram of an intelligent power strip for making a power utilization plan based on cloud computing in an embodiment of the present application;

fig. 2 is a system diagram of a mobile cloud module according to an embodiment of the present disclosure;

FIG. 3 is a perspective view of an electrical connection module according to an embodiment of the present application;

fig. 4 is a first perspective view of the electrical connection module in the embodiment of the present application after being cut open;

fig. 5 is a second perspective view of the electrical connection module in the embodiment of the present application after being cut open;

fig. 6 is a third perspective view of the electrical connection module in the embodiment of the present application after being cut open;

fig. 7 is an enlarged view of a portion a in fig. 5.

In the figure: 1. inserting a box; 2. inserting plates; 3. two slots; 4. three slots; 5. an anti-falling plate; 6. a connecting wire slot; 7. a sliding sleeve; 8. a traveler; 9. a buffer spring; 10. a fixed block; 11. a slide bar; 12. an upper rotating block; 13. a lower rotation block; 14. a fixed spring; 15. rotating the rod; 16. pushing and pulling the hole; 17. pushing and pulling the column; 18. a telescopic rod; 19. a stopper; 20. inserting a rod; 21. inserting a sleeve; 22. anti-drop holes; 23. an anti-drop block; 24. a wire hole.

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.

The embodiment is as follows: referring to fig. 1-2, the intelligent socket for making a power utilization plan based on cloud computing includes a mobile cloud module, where the mobile cloud module is used to display power utilization information of each electrical appliance; the electricity charge and electricity quantity counting module is used for counting the daily, weekly and monthly electricity consumption and electricity charge conditions of each electric appliance; the current and voltage monitoring module is used for monitoring the current and voltage input stability condition of each electric appliance; the power-on module is used for powering on and powering off each electric appliance; the electric appliance connection module is used for connecting each electric appliance, the electric charge quantity counting module is connected with the mobile cloud end module, the electric charge quantity counting module is connected with the current and voltage monitoring module, the current and voltage monitoring module is connected with the on-off module, the on-off module is connected with the electric appliance connection module, the current and voltage monitoring module is connected with the mobile cloud end module, and the mobile cloud end module is connected with the on-off module.

By means of the structure: can show each electrical apparatus power consumption information through removing high in the clouds module, can make statistics of the day of each electrical apparatus through charges of electricity quantity statistical module, week, the month power consumption and the charges of electricity condition, the current-voltage input steady condition that can monitor each electrical apparatus through current-voltage monitoring module, whether there is the electric leakage in the circuit of detecting family through the current-voltage input steady condition, the short circuit, potential safety hazards such as not ground connection, if the refrigerator storing is too much or the refrigerator door is not closed can lead to power consumption to increase, thereby monitor.

As shown in fig. 2, the mobile cloud module comprises an electric appliance power utilization ranking unit and a power utilization ranking unit, the electric appliance power utilization ranking unit is connected with the power utilization ranking unit, the power consumption counting module is connected with the electric appliance power utilization ranking unit, the electric appliance power utilization ranking unit is used for ranking the daily, weekly and monthly power consumption of each electric appliance, and the power utilization ranking unit is used for comparing and ranking the monthly power consumption information of each electric appliance and the monthly power consumption information of electric appliances of the same type of users in the same city. The electricity ranking unit for the electric appliances can rank the daily, weekly and monthly electricity consumption of each electric appliance, and the electricity ranking unit can compare and rank the monthly electricity consumption information of each electric appliance with the monthly electricity consumption information of electric appliances of the same type and the same city users, so that the aging condition of the electric appliances is judged.

As shown in fig. 2, the mobile cloud module includes an electrical data operation unit and an energy saving unit, the electrical data operation unit is connected with the energy saving unit, the electricity fee and electricity quantity statistics module is connected with the electrical data operation unit, the electrical data operation unit is used for performing data operation on electricity consumption time and electricity consumption quantity of each electrical appliance every day and providing maximum electricity consumption time and electricity consumption quantity of the corresponding electrical appliance every day, the energy saving unit is used for setting standby and shutdown time periods according to use conditions of each electrical appliance, and the energy saving unit is connected with the power on/off module. The energy-saving control system has the advantages that data operation can be carried out on the electricity utilization time and the electricity consumption of each electric appliance every day through the electric appliance data operation unit, the maximum electricity utilization time and the maximum electricity consumption of the corresponding electric appliance every day are given, the standby time and the shutdown time can be set according to the service condition of each electric appliance through the energy-saving unit, when the energy-saving control system is used specifically, the daily power-on and power-off time can be set through the energy-saving unit by household normally-powered equipment such as an air conditioner, a washing machine, a water dispenser and a television, so that the standby power consumption is saved, linkage control can also be carried out through the energy-saving unit, if the air conditioner is automatically started in 10 minutes before home, and other equipment is linked to be powered on.

As shown in fig. 2, the mobile cloud module includes a power-off selection unit, the power-off selection unit is used for pushing abnormal power consumption conditions of each electrical appliance to a user, the user can select whether to power off according to pushing, the power-off selection unit is connected with the power-on/off module, and the current and voltage monitoring module is connected with the power-off selection unit. The abnormal electricity utilization condition of each electric appliance can be pushed to a user through the power-off selection unit, and the user can select whether to power off according to pushing.

As shown in fig. 3-7, the electrical connection module includes a plurality of plug-in boxes 1, each plug-in box 1 is internally provided with a plug board 2 through four buffer mechanisms, the four buffer mechanisms are arranged in a rectangular shape, the side portion of the plug board 2 is provided with two slots 3 and three slots 4, the two slots 3 are located above the three slots 4, the side portion of the plug board 2 is provided with a push-pull hole 16, an anti-falling mechanism is arranged in the push-pull hole 16 in a sliding manner, the anti-falling mechanism is used for preventing the electrical connection joint from falling off, the side portion of the anti-falling mechanism is arranged in an internal matching manner with one side of the plug-in box 1 through a fixing mechanism, and the top of the anti-falling mechanism is connected with the side portion of the plug board 2 through a spring limiting mechanism. When the plug box is used, the plug box 1 is installed at a designated position, the electrical appliances of the two plugs and the three plugs can be connected through the arrangement of the two slots 3 and the three slots 4, and the positions of the plug boards 2 are fixed when the two plugs and the three plugs are inserted through the arrangement of the fixing mechanism, so that the two plugs and the three plugs can be inserted conveniently.

As shown in fig. 3, fig. 4 and fig. 6, buffer gear is including installing in the sliding sleeve 7 of 2 lateral parts of picture peg, slidable mounting has the traveller 8 in the sliding sleeve 7, the one end of traveller 8 extends to outside the sliding sleeve 7 and with one side inner wall connection of inserting box 1, anti-disengaging hole 22 has been seted up on one side inner wall of sliding sleeve 7, anticreep piece 23 is installed to the lateral part of traveller 8, the one end of anticreep piece 23 extends outside anticreep hole 22, anticreep piece 23 is located anticreep hole 22 intermediate position. When using, if unexpected pulling electrical apparatus's connecting wire or three plugs and two plugs that strike electrical apparatus, then can make 2 round trip movement of picture peg, picture peg 2 removes and drives four sliding sleeve 7 and remove, four sliding sleeve 7 remove and drive four buffer spring 9 and take place deformation, thereby cushion, prevent that the connecting wire from breaking or three plugs and two plugs of electrical apparatus are hit badly, anticreep piece 23 slides in anticreep hole 22 simultaneously, thereby avoid sliding sleeve 7 and traveller 8 to break away from, convenient to use.

As shown in fig. 7, the anti-disengaging mechanism includes a push-pull column 17 slidably mounted in a push-pull hole 16, a rectangular hole is opened at one end of the push-pull column 17, a telescopic rod 18 is slidably mounted in the rectangular hole, one end of the telescopic rod 18 extends out of the insertion box 1 and is connected with an anti-disengaging plate 5, a connecting wire slot 6 is opened at a lateral portion of the anti-disengaging plate 5, the connecting wire slot 6 corresponds to positions of the two slots 3, the anti-disengaging plate 5 corresponds to positions of the two slots 3 and the three slots 4, the other end of the telescopic rod 18 extends into the insertion box 1 and is provided with a stop dog 19, the lateral portion of the push-pull column 17 is connected with the fixing mechanism, and the top of the push-pull column 17 is connected with the spring limiting mechanism. After the plug of the electric appliance is inserted into the second slot 3 and the third slot 4, the anti-falling plate 5 can be dragged to block the third plug and the second plug, so that the third plug and the second plug are prevented from being separated in the using process.

As shown in fig. 7, the fixing mechanism includes two insertion rods 20 mounted on the side portions of the push-pull column 17, two insertion sleeves 21 are mounted on the inner wall of one side of the insertion box 1, and one ends of the two insertion rods 20 extend into the two insertion sleeves 21, respectively. The arrangement of the insert rod 20 and the insert sleeve 21 ensures that the position of the insert board 2 is fixed when the two-plug and the three-plug are inserted.

As shown in fig. 7, spring stop gear is including installing in the lower turning block 13 at push-and-pull post 17 top, fixed block 10 is installed to picture peg 2's lateral part, the slide opening has been seted up at the top of fixed block 10, slidable mounting has slide bar 11 in the slide opening, last turning block 12 is installed to slide bar 11's bottom, the rotation groove has all been seted up to the lateral part that last turning block 12 and lower turning block 13 are close to each other, dwang 15 is installed to two rotation inslot rotations, the both sides inner wall in two rotation grooves is respectively distinguished in the both sides portion of dwang 15 contacts, fixed spring 14 has been cup jointed on the slide bar 11, fixed spring 14's top, the bottom respectively with fixed block 10, the lateral part that last turning block 12 is close to each other is connected. When the anti-falling plate 5 is dragged to drive the telescopic rod 18 to slide in the sliding hole, the telescopic rod 18 slides to drive the stop block 19 to move, when the stop block 19 is contacted with the end part of the push-pull column 17, the anti-falling plate 5 corresponds to the side part of the three plugs, and the connecting wire slot 6 corresponds to the connecting wire of the two plugs, the push-pull column 17 is pushed to drive the anti-falling plate 5 to move, the push-pull column 17 moves to drive the two insertion rods 20 to respectively move out of the two insertion sleeves 21, meanwhile, the push-pull column 17 moves to drive the lower rotating block 13 to move, the lower rotating block 13 is separated from the inner wall of one side of the push-pull hole 16, the lower rotating block 13 moves to drive the rotating rod 15 to rotate, the rotating rod 15 rotates to drive the upper rotating block 12 to move, the upper rotating block 12 moves to deform the fixing spring 14, when the lower rotating block 13 is positioned under the upper rotating block 12, the fixing spring 14 deforms maximally, and then, after the lower rotating block 13 continues to move, the lower rotating block 13 is enabled to move rapidly under the action force of the fixed spring 14 until the lower rotating block is contacted with the inner wall of the other side of the push-pull hole 16, so that the limit is carried out back and forth, and the rapid switching is facilitated.

As shown in fig. 6, a wire hole 24 is formed on one side inner wall of the insert box 1. Wiring can be routed through the wire holes 24.

The working principle is as follows:

when the plug box is used, the plug box 1 is arranged at a designated position, the wire can be connected through the wire holes 24, the electrical appliances of the second plug and the third plug can be connected through the arrangement of the second slot 3 and the third slot 4, and the positions of the plug boards 2 are fixed when the second plug and the third plug are inserted through the arrangement of the plug rods 20 and the plug sleeves 21, so that the second plug and the third plug can be conveniently inserted;

after the plug of the electric appliance is inserted into the two slots 3 and the three slots 4, the anti-dropping plate 5 is dragged to drive the telescopic rod 18 to slide in the sliding hole, the telescopic rod 18 slides to drive the stopper 19 to move, when the stopper 19 contacts with the end part of the push-pull column 17, the anti-dropping plate 5 corresponds to the side part of the three plug, and the connecting wire slot 6 corresponds to the connecting wire of the two plugs, at this time, the anti-dropping plate 5 is pushed to drive the push-pull column 17 to move, the push-pull column 17 moves to drive the two inserting rods 20 to respectively move out of the two inserting sleeves 21, at the same time, the push-pull column 17 moves to drive the lower rotating block 13 to move, the lower rotating block 13 is separated from one side inner wall of the push-pull hole 16, the lower rotating block 13 moves to drive the rotating rod 15 to rotate, the rotating rod 15 rotates to drive the upper rotating block 12 to move, the upper rotating block 12 moves to deform the fixing spring 14, when the lower rotating block 13 is positioned right below the upper rotating block 12, at this time, the fixing spring 14 generates the maximum deformation, at the moment, after the lower rotating block 13 continues to move, the lower rotating block 13 is enabled to rapidly move under the action of the fixed spring 14 until the lower rotating block is contacted with the inner wall of the other side of the push-pull hole 16, and at the moment, the anti-disengaging plate 5 blocks the three-plug and the two-plug, so that the three-plug and the two-plug are prevented from disengaging in the using process;

when using, if unexpected pulling electrical apparatus's connecting wire or striking three plugs and two plugs to electrical apparatus, then can make picture peg 2 round trip movement, picture peg 2 removes and drives four sliding sleeves 7 and remove, four sliding sleeves 7 remove and drive four buffer spring 9 and take place deformation, thereby cushion, prevent that the connecting wire from breaking or the three plugs and two plugs of electrical apparatus are bumped, anticreep piece 23 slides in anticreep hole 22 simultaneously, thereby avoid sliding sleeve 7 and traveller 8 to break away from, convenient to use.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still make modifications to the technical solutions described in the foregoing embodiments, or make equivalent substitutions for some technical features, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an intelligent row inserts based on power consumption plan is made in cloud computing which characterized in that: the system comprises a mobile cloud module, a server and a control module, wherein the mobile cloud module is used for displaying the electricity utilization information of each electric appliance; the electric charge and electric quantity statistical module is used for counting daily, weekly and monthly electric quantities and electric charge conditions of each electric appliance; the current and voltage monitoring module is used for monitoring the current and voltage input stability condition of each electrical appliance; the power-on and power-off module is used for powering on and off each electric appliance; the electric appliance connection module is used for connecting each electric appliance, the electric charge quantity counting module is connected with the mobile cloud end module, the electric charge quantity counting module is connected with the current and voltage monitoring module, the current and voltage monitoring module is connected with the on-off module, the on-off module is connected with the electric appliance connection module, the current and voltage monitoring module is connected with the mobile cloud end module, and the mobile cloud end module is connected with the on-off module.

2. The intelligent power strip based on cloud computing power utilization plan of claim 1, wherein: the mobile cloud module comprises an electric appliance power utilization ranking unit and a power utilization ranking unit, the electric appliance power utilization ranking unit is connected with the power utilization ranking unit, the power consumption counting module is connected with the electric appliance power utilization ranking unit, the electric appliance power utilization ranking unit is used for ranking daily, weekly and monthly power consumption of each electric appliance, and the power utilization ranking unit is used for comparing and ranking monthly power consumption information of each electric appliance and electric appliances of the same model of a city user.

3. The intelligent power strip based on cloud computing power utilization plan of claim 1, wherein: the mobile cloud module comprises an electric appliance data operation unit and an energy-saving unit, the electric appliance data operation unit is connected with the energy-saving unit, the electric charge and electric quantity counting module is connected with the electric appliance data operation unit, the electric appliance data operation unit is used for carrying out data operation on the electricity utilization time and the electricity consumption quantity of each electric appliance every day and giving the maximum electricity utilization time and the electricity consumption quantity of the corresponding electric appliance every day, the energy-saving unit is used for setting standby and shutdown time intervals according to the use condition of each electric appliance, and the energy-saving unit is connected with the power on-off module.

4. The intelligent power strip based on cloud computing power utilization plan of claim 1, wherein: the mobile cloud module comprises a power-off selection unit, the power-off selection unit is used for pushing abnormal power utilization conditions of each electric appliance to a user, the user can select whether to power off or not according to pushing, the power-off selection unit is connected with the power-on and power-off module, and the current and voltage monitoring module is connected with the power-off selection unit.

5. The cloud computing-based intelligent power distribution and distribution system for making a power utilization plan according to claim 1, wherein: electric appliance connection module includes a plurality of box (1), every insert and all install picture peg (2), four through four buffer gear in box (1) insert buffer gear is the rectangle setting, two slots (3) and three slots (4) have been seted up to the lateral part of picture peg (2), two slots (3) are located the top of three slots (4), the lateral part of picture peg (2) has been seted up and has been pushed away draw hole (16), it has anti-disengaging mechanism to push away interior slidable mounting in drawing hole (16), anti-disengaging mechanism is used for preventing that electrical apparatus joint from droing, anti-disengaging mechanism's lateral part pass through fixed establishment with insert one side inside fit installation of box (1), anti-disengaging mechanism's top pass through spring stop gear with the lateral part of picture peg (2) is connected.

6. The cloud computing-based intelligent power distribution and distribution system for making a power utilization plan according to claim 5, wherein: buffer gear including install in sliding sleeve (7) of picture peg (2) lateral part, sliding sleeve (7) slidable mounting has traveller (8), the one end of traveller (8) extends to outside sliding sleeve (7) and with insert one side inner wall connection of box (1), anticreep hole (22) have been seted up on one side inner wall of sliding sleeve (7), anticreep piece (23) are installed to the lateral part of traveller (8), the one end of anticreep piece (23) extends to outside anticreep hole (22), anticreep piece (23) are located anticreep hole (22) intermediate position.

7. The cloud computing-based intelligent power distribution and distribution system for making a power utilization plan according to claim 5, wherein: the anti-falling mechanism comprises a push-pull column (17) which is arranged in the push-pull hole (16) in a sliding way, one end of the push-pull column (17) is provided with a rectangular hole, a telescopic rod (18) is arranged in the rectangular hole in a sliding way, one end of the telescopic rod (18) extends out of the inserting box (1) and is connected with an anti-dropping plate (5), the side part of the anti-drop plate (5) is provided with a connecting wire slot (6), the connecting wire slot (6) corresponds to the two slots (3), the anti-drop plate (5) corresponds to the two slots (3) and the three slots (4), the other end of the telescopic rod (18) extends into the inserting box (1) and is provided with a stop block (19), the side part of the push-pull column (17) is connected with the fixing mechanism, and the top part of the push-pull column (17) is connected with the spring limiting mechanism.

8. The cloud computing-based intelligent power distribution and distribution system for making a power utilization plan according to claim 7, wherein: the fixing mechanism comprises two insert rods (20) arranged on the side portions of the push-pull columns (17), two insert sleeves (21) are arranged on the inner wall of one side of the insert box (1), and one ends of the two insert rods (20) extend into the two insert sleeves (21) respectively.

9. The cloud computing-based intelligent power distribution and distribution system for making a power utilization plan according to claim 7, wherein: spring stop gear including install in push-and-pull post (17) lower rotation block (13) at top, fixed block (10) are installed to the lateral part of picture peg (2), the draw runner has been seted up at the top of fixed block (10), slidable mounting has slide bar (11) in the draw runner, rotation block (12) are installed to the bottom of slide bar (11), go up rotation block (12) with the lateral part that rotation block (13) are close to each other down has all been seted up and has been rotated the groove, two it installs dwang (15) to rotate the inslot internal rotation, the both sides portion of dwang (15) is two respectively the both sides inner wall that rotates the groove contacts, fixed spring (14) have been cup jointed on slide bar (11), top, the bottom of fixed spring (14) respectively with fixed block (10), it connects to go up rotation block (12) lateral part that is close to each other.

10. The cloud computing-based intelligent power distribution and distribution system for making a power utilization plan according to claim 5, wherein: a wire hole (24) is formed in the inner wall of one side of the plug box (1).

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