CN215438008U - Intelligent garbage can with energy consumption monitoring function - Google Patents

Abstract

The utility model relates to the field of garbage recovery, in particular to an intelligent garbage can with an energy consumption monitoring function, which comprises a monitoring device, a mains supply device and a local power supply device, wherein the monitoring device is connected with the mains supply device; the utility power supply device and the local power supply device are respectively electrically connected with the monitoring device, wherein the local power supply device at least comprises a battery pack, the monitoring device is used for acquiring the available electric quantity of the battery pack, and when the available electric quantity of the battery pack meets the preset condition, the monitoring device is used for switching the local power supply device into the utility power supply device. According to the intelligent garbage can with the energy consumption monitoring function, the monitoring device is used for monitoring the local power supply device, when the electric quantity of the battery pack of the local power supply device, acquired by the monitoring device, meets the preset condition, the monitoring device can switch the current local power supply device to the commercial power supply device, and therefore the power consumption requirement of the intelligent garbage can in a special scene is met.

Description

Intelligent garbage can with energy consumption monitoring function

Technical Field

The utility model relates to the field of garbage recovery, in particular to an intelligent garbage can with an energy consumption monitoring function.

Background

In the field of garbage recycling, more and more intelligent garbage cans adopt electric control functions, including opening and closing of a control can door, display of a control display screen, network transmission or processing of control information and the like.

The intelligent garbage can is usually powered by mains supply. However, the price of the commercial power is relatively high, which undoubtedly increases the economic cost of garbage recycling.

However, only clean energy sources, such as solar energy or wind energy, are used to power the intelligent trash can, in special scenarios, such as: in the dark scene of cloudy day or night light, or the scene of no wind, clean energy's power supply efficiency reduces for intelligent garbage bin exhausts the electric quantity or the power supply is not enough in these special scenes, thereby has lost the automatically controlled function of intelligent garbage bin.

Therefore, how to monitor the energy consumption of the intelligent garbage can and switch the power supply mode under a special scene becomes a technical problem to be solved by the prior art.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems of how to monitor the energy consumption of an intelligent garbage can and switch the electric energy supply mode in a special scene in the prior art, the utility model provides an intelligent garbage can with an energy consumption monitoring function.

According to one aspect of the utility model, an intelligent garbage can with an energy consumption monitoring function is provided, which comprises a monitoring device, a commercial power supply device and a local power supply device;

the utility power supply device local power supply device respectively with monitoring device electric connection, wherein, local power supply device includes the group battery at least, monitoring device is used for acquireing the available electric quantity of group battery, works as when the available electric quantity of group battery satisfies the preset condition, monitoring device is used for with local power supply device switches into utility power supply device.

Further, the local power supply device comprises a solar power supply device and/or a wind power supply device;

the solar power supply device comprises a solar panel, a solar controller and a first battery pack, wherein the solar panel and the first battery pack are respectively and electrically connected with the solar controller;

the wind power supply device comprises a wind power generator, a wind power controller and a second battery pack, and the wind power generator and the second battery pack are respectively and electrically connected with the wind power controller.

Further, the monitoring device at least comprises a coulometer, a microprocessor and a storage unit;

the coulometer is used for obtaining the available electric quantity of the battery pack and sending the available electric quantity to the microprocessor;

the storage unit is internally stored with preset electric quantity, the microprocessor can read the preset electric quantity, and when the available electric quantity is smaller than the preset electric quantity, the microprocessor sends a switching electric signal for switching the local power supply device into the commercial power supply device.

Furthermore, the monitoring device also comprises a power supply switching circuit and a singlechip;

the monitoring device also comprises a power supply switching circuit, an isolation module and a single chip microcomputer;

the isolation module and the single chip microcomputer are respectively arranged on the power supply switching circuit, wherein the single chip microcomputer is electrically connected with the microprocessor through the isolation module, the power supply switching circuit is electrically connected with the commercial power supply device and the local power supply device respectively, the isolation module can receive the switching electric signal and generate a control signal according to the switching electric signal, and the power supply switching circuit controls the power supply switching circuit to switch the local power supply device into the commercial power supply device according to the control signal.

Further, the monitoring device further comprises a watchdog circuit;

the watchdog circuit and the single chip microcomputer are electrically connected, wherein when the power supply switching circuit switches the local power supply device into the commercial power supply device, the watchdog circuit is used for resetting the single chip microcomputer.

Furthermore, the device also comprises a box body, a box door and an electromagnetic assembly;

the box body is provided with a box opening, the box door can movably cover the box opening, the box door has an opening state and a closing state relative to the box opening, and the electromagnetic assembly is used for controlling the box door to be switched between the opening state and the closing state.

Further, the device also comprises a control mechanism;

the electromagnetic assembly is electrically connected with the control mechanism, the control mechanism is electrically connected with the monitoring device, the control mechanism is used for controlling the electromagnetic assembly to be powered on or powered off, when the electromagnetic assembly is in a powered-on state, the box door is in an open state, and when the electromagnetic assembly is in a powered-off state, the box door is in a closed state.

Further, the electromagnetic assembly comprises an electromagnetic push rod and a spiral spring;

the electromagnetic push rod is provided with a movable end and a fixed end, the movable end is connected with the box door, and the fixed end is connected with the box body;

one end of the spiral spring is connected to the box door, the other end of the spiral spring is connected to the fixed end, when the electromagnetic push rod is powered on, the movable end is far away from the fixed end, the spiral spring is in a stretching state, and when the electromagnetic push rod is powered off, the spiral spring is driven in a contracting state, and the movable end is close to the fixed end.

Further, the device also comprises a weighing assembly, wherein the weighing assembly comprises a treading part and a weighing sensor;

the treading part is arranged outside the box body, and the weighing sensor is arranged on the treading part;

the weighing sensor with control mechanism electric connection, when trampling the part and bearing the weight of the thing, weighing sensor can send weight information.

Further, the treading part comprises a base, a pedal and a spring;

the spring is arranged between the base and the pedal, when a heavy object is loaded on the pedal, the pedal is tightly attached to the base, the spring is compressed, and when the heavy object is lost on the pedal, the spring drives the pedal to be separated from the base;

the weighing sensor is arranged between the pedal and the base, and the weighing sensor and the spring are separated from each other.

According to the intelligent garbage can with the energy consumption monitoring function, the monitoring device is used for monitoring the local power supply device, when the electric quantity of the battery pack of the local power supply device, acquired by the monitoring device, meets the preset condition, the monitoring device can switch the current local power supply device to the commercial power supply device, and therefore the power consumption requirement of the intelligent garbage can in a special scene is met.

Drawings

Fig. 1 is an electrical connection diagram of an intelligent trash bin with an energy consumption monitoring function according to embodiment 1 of the present invention;

fig. 2 is an electrical connection diagram of a solar power supply device according to embodiment 1 of the present invention;

fig. 3 is an electrical connection diagram of the wind power supply apparatus provided in embodiment 1 of the present invention;

fig. 4 is an electrical connection diagram of the intelligent trash bin with energy consumption monitoring function according to embodiment 1 of the present invention;

fig. 5 is a schematic structural diagram of an intelligent trash bin with an energy consumption monitoring function according to embodiment 1 of the present invention;

FIG. 6 is a schematic structural diagram of an electromagnetic assembly provided in embodiment 1 of the present invention;

fig. 7 is a schematic structural diagram of a weighing assembly provided in embodiment 1 of the present invention.

Detailed Description

Example 1:

in this embodiment, referring to fig. 1, an intelligent garbage can with an energy consumption monitoring function is provided, which includes a monitoring device 1, a commercial power supply device 2, and a local power supply device 3;

the utility power supply device 2 and the local power supply device 3 are electrically connected to the monitoring device 1, wherein the local power supply device 3 at least comprises a battery pack, the monitoring device 1 is used for acquiring the available electric quantity of the battery pack, and when the available electric quantity of the battery pack meets a preset condition, the monitoring device 1 is used for switching the local power supply device 3 to the utility power supply device 2.

The monitoring device 1 is electrically connected with the commercial power supply device 2 and the local power supply device 3 respectively; when the intelligent garbage can with the energy consumption monitoring function provided by the utility model is actually used, the local power supply device 3 is preferentially selected.

In particular, with reference to fig. 2 or 3, the local power supply 3 comprises a solar power supply 31 and/or a wind power supply 32;

the solar power supply device 31 comprises a solar panel 311, a solar controller 312 and a first battery set 313, wherein the solar panel 311 and the first battery set are respectively electrically connected with the solar controller 312;

the wind power supply device 32 includes a wind power generator 321, a wind power controller 322 and a second battery pack 323, and the wind power generator 321 and the second battery pack are electrically connected to the wind power controller 322 respectively.

The solar power supply device 31 can supply electric energy to the intelligent garbage can with the energy consumption monitoring function of the embodiment by converting solar energy into electric energy in a scene with sufficient sunlight.

The solar power supply device 31 performs processing through the solar controller 312, stores the processed electric energy in the first battery set 313, and supplies power to the intelligent garbage can.

And, the wind energy power supply device 32 may provide the intelligent garbage can with the energy consumption monitoring function of the present embodiment with electric energy by converting wind energy into electric energy in a scene where wind power is sufficient.

The wind energy power supply device 32 is processed by the wind energy controller, stores the processed electric energy in the second battery pack 323, and then supplies power to the intelligent garbage can.

In special scenarios, for example: in the insufficient sunshine scenes such as cloudy day or night, when monitoring device 1 monitors that the electric quantity of the battery pack satisfies the preset conditions, the preset conditions are as follows: the electric quantity of group battery is less than 10%, and at this moment, monitoring device 1 can switch over current local power supply unit 3 to commercial power supply unit 2, utilizes commercial power supply unit 2 to supply power to the intelligent dustbin of this embodiment. On the contrary, when the battery capacity of the battery pack is greater than 50%, the monitoring device 1 may switch the commercial power supply device 2 to the local power supply device 3.

The specific control components for switching the local power supply 3 and the mains power supply 2 may be a controller in the prior art, such as: a dual power transfer switch, which is common knowledge to those skilled in the art, will not be described herein.

Adopt monitoring device 1 to monitor local power supply unit 3, when the electric quantity of the local power supply unit 3's that monitoring device 1 obtained battery pack satisfied the preset condition, monitoring device 1 can switch over current local power supply unit 3 to commercial power supply unit 2 to satisfy the power consumption demand of intelligent dustbin in special scene.

Therefore, the intelligent garbage can with the energy consumption monitoring function of the embodiment solves the technical problems that how to monitor the energy consumption of the intelligent garbage can and switch the power supply mode in a special scene in the prior art.

Further, referring to fig. 1, the monitoring device 1 includes at least a coulometer 101, a microprocessor 102, and a storage unit 103;

the coulometer 101 is used for obtaining the available electric quantity of the battery pack and sending the available electric quantity to the microprocessor 102;

the storage unit 103 stores a preset electric quantity, and the microprocessor 102 can read the preset electric quantity, wherein when the available electric quantity is smaller than the preset electric quantity, the microprocessor 102 sends a switching electric signal for switching the local power supply device 3 to the utility power supply device 2.

The coulometer 101 is electrically connected with the battery pack, and the coulometer 101 is used for acquiring the current electric quantity of the battery pack; coulomb meter 101 is well known to those skilled in the art and will not be described herein.

The storage unit 103 is used for storing preset power, such as: the lower limit of the preset amount of electricity is 1 ampere/hour, or the upper limit of the preset amount of electricity is 5 amperes/hour.

The microprocessor 102 is configured to receive and calculate a current electric quantity of the current battery pack, and when the current electric quantity is smaller than a preset electric quantity, the microprocessor 102 may send a switching electrical signal to control switching between the local power supply device 3 and the commercial power supply device 2.

The coulometer 101 is adopted to obtain the electric quantity of the battery pack, and the coulometer has the advantages of simple structure, convenient and reliable use, easy realization and low economic cost.

Further, referring to fig. 1, the monitoring device 1 further includes a power switching circuit 104, an isolation module 105, and a single chip 106;

the isolation module 105 and the single chip 106 are respectively disposed on the power switching circuit 104, wherein the single chip 106 is electrically connected to the microprocessor 102 through the isolation module 105, the power switching circuit 104 is electrically connected to the commercial power supply device 2 and the local power supply device 3, the isolation module 105 can receive the switching electrical signal and generate a control signal according to the switching electrical signal, and the power switching circuit 104 controls the power switching circuit 104 to switch the local power supply device 3 to the commercial power supply device 2 according to the control signal.

In order to avoid the interference of the whole circuit of the intelligent garbage can with the energy consumption monitoring function in the embodiment, an isolation module 105 should be arranged on the power switching circuit 104. Specifically, an electrical connection in an isolated form should be formed between the single chip 106 and the aforementioned microprocessor 102 through the isolation module 105, when a switching electrical signal sent by the microprocessor 102 is sent to the isolation module 105, the isolation module 105 can sense the switching electrical signal and generate a control signal having the same action as the switching electrical signal, and the control signal and the switching electrical signal are isolated from each other through the isolation module 105. The single chip 106 receives the control signal and controls the power switching circuit 104 according to the control signal.

Further, referring to fig. 1, the monitoring apparatus 1 further includes a watchdog circuit 107;

the watchdog circuit 107 is electrically connected to the single chip 106, wherein when the power switching circuit 104 switches the local power supply device 3 to the commercial power supply device 2, the watchdog circuit 107 is configured to reset the single chip 106.

When the local power supply device 3 is switched to the commercial power supply device 2 by the power switching circuit 104, the single chip 106 receives electromagnetic interference generated by the commercial power supply device 2 during switching, which may cause data confusion of registers and memories in the single chip 106, resulting in a program pointer error, a program area missing, a wrong program instruction fetched, and the like, which may fall into a dead loop, normal operation of the program is interrupted, and a system controlled by the single chip 106 cannot continue to operate normally, resulting in a dead state of the whole system.

In order to solve the problem, the watchdog circuit 107 may be used to reset the single chip 106, so that when the power switching circuit 104 switches the local power supply apparatus 3 to the commercial power supply apparatus 2, if the single chip 106 has the error, the single chip 106 may be restarted, so that the entire system is recovered.

Further, referring to fig. 4, 5 or 6, the intelligent garbage can with energy consumption monitoring function in the present embodiment further includes a can body 4, a can door 5 and an electromagnetic assembly 6;

the box body 4 is provided with a box opening, the box door 5 can movably cover the box opening, the box door 5 has an opening state and a closing state relative to the box opening, and the electromagnetic assembly 6 is used for controlling the box door 5 to be switched between the opening state and the closing state.

Further, referring to fig. 4, a control mechanism 7 is also included;

electromagnetic component 6 and control mechanism 7 electric connection, control mechanism and monitoring device electric connection, wherein, control mechanism 7 is used for controlling 6 circular telegrams of electromagnetic component or outage, and when electromagnetic component 6 was in the on state, chamber door 5 was the open mode, and when electromagnetic component 6 was in the outage state, chamber door 5 was the closed mode.

The control mechanism 7 is electrically connected with the electromagnetic assembly 6, and the control mechanism 7 is used for controlling the on-off of the electromagnetic assembly 6. The control mechanism 7 can adopt a controller in the prior art, such as a PLC or a single chip microcomputer, which is common knowledge of those skilled in the art and will not be described herein.

The control mechanism 7 is electrically connected to the monitoring device 1, and the control mechanism 7 is configured to obtain a current state of the monitoring device 1, for example: if the monitoring device 1 switches the current power supply to the local power supply device 3, the monitoring device 1 may send a first status signal to the control mechanism, and if the monitoring device 1 switches the current power supply to the utility power supply device 2, the monitoring device may send a second status signal to the control mechanism.

The electromagnetic assembly 6 can have at least a function of linear motion, that is, when the electromagnetic assembly 6 is energized, the electromagnetic assembly 6 can drive the door 5 to open relative to the opening of the cabinet 4 along a linear direction. In addition, the electromagnetic assembly 6 may further include an auxiliary component such as a link mechanism or a gear mechanism on the basis of the existing linear motion function of the electromagnetic assembly 6, so as to increase the distance or angle at which the electromagnetic assembly 6 drives the door 5, that is, the path along which the electromagnetic assembly 6 drives the door 5 may be changed from linear driving to curved driving or rotational driving with the auxiliary component such as the link mechanism or the gear mechanism. The electromagnetic assembly 6 can adopt an electromagnetic device in the prior art, as long as the electromagnetic assembly is applicable to the intelligent garbage can of the embodiment and can push the box door 5 at least along the linear direction. Adopt the opening or closing of chamber door 5 on this embodiment for the case mouth on the box 4 of electromagnetic component 6 control, on the one hand, electromagnetic component 6's structure is fairly simple, and the volume ratio is smaller, relatively is fit for using on rubbish recovery units such as dustbin, and on the other hand, electromagnetic component 6's action speed is comparatively fast, can reduce the opening time of chamber door 5 for the case mouth of box 4, and then reduces the time that the user waited for the case mouth to open.

Further, referring to fig. 6, the electromagnetic assembly 6 includes an electromagnetic push rod 601 and a coil spring 602;

the electromagnetic push rod 601 is provided with a movable end and a fixed end, the movable end is connected with the box door 5, and the fixed end is connected with the box body 4;

one end of the coil spring 602 is connected to the door 5, the other end of the coil spring 602 is connected to the fixed end, when the electromagnetic push rod 601 is powered on, the movable end is far away from the fixed end, the coil spring 602 is in a stretching state, and when the electromagnetic push rod 601 is powered off, the movable end of the coil spring 602 in a contracting state is driven to be close to the fixed end.

The electromagnetic push rod 601 can be directly applied to the intelligent garbage bin based on the G communication module in this embodiment, and is used for directly driving the opening or closing of the bin door 5, or the aforementioned link mechanism or gear mechanism may be additionally provided, and the electromagnetic push rod 601 cooperates with the link mechanism or gear mechanism to drive the opening or closing of the bin door 5.

The electromagnetic push rod 601 comprises a movable iron core and a static iron core, wherein the movable iron core is provided with a push rod; when quiet iron core circular telegram, quiet iron core produces first magnetic field, and moves the iron core and have the second magnetic field, and first magnetic field and second magnetic field are the same grade state of repelling each other to quiet iron core promotes to move the iron core, and then moves iron core drive push rod along the motion of rectilinear direction.

The electromagnetic push rod 601 is used for controlling the opening and closing of the box door 5, and two using modes are provided. The first mode is to open the door 5 when the electromagnetic push rod 601 is in the power-on state, and the second mode is to close the door 5 when the electromagnetic push rod 601 is in the power-on state. In this embodiment, the first usage mode is adopted.

Further, referring to fig. 5 or fig. 7, the weighing apparatus further includes a weighing assembly 8, wherein the weighing assembly 8 includes a treading part 81 and a weighing sensor 82;

the stepping part 81 is arranged outside the box body 4, and the weighing sensor 82 is arranged on the stepping part 81;

load cell 82 and control mechanism 7 electric connection, when stepping on and carrying the heavy object on the part 81, load cell 82 can send weight information.

When the user stands on the weighing module 8, i.e., stands on the stepping member 81, the weighing sensor 82 on the stepping member 81 can generate weight information and transmit the weight information to a remote server. A network module can be arranged on the intelligent garbage can in the embodiment, and the weight information is sent to a remote server through the network module.

Preferably, when the weight information of the weighing assembly 8 is changed, the changed weight information is transmitted to a remote server.

The remote server can obtain the weight of the garbage actually thrown by the user according to the change of the weight information. For example: when a user puts garbage on the weighing component 8, the weight information obtained by the weighing component 8 is A, after the user puts garbage and before the user leaves the weighing component, the weight information obtained by the weighing component is B (the weight of the user), the network module respectively sends the weight information A and the weight information B to a remote server, and the server can know the weight information of the garbage put by the user only by obtaining the difference value of the weight information A and the weight information B.

Specifically, referring to fig. 7, the step part 81 includes a base 83, a step 84, and a spring 85;

a spring 85 is arranged between the base 83 and the pedal 84, wherein when a heavy object is loaded on the pedal 84, the pedal 84 is clung to the base 83, the spring 85 is compressed, and when the heavy object is lost on the pedal 84, the spring 85 drives the pedal 84 to be separated from the base 83;

the load cell 82 is disposed between the step 84 and the base 83, and the load cell and the spring 85 are separated from each other.

When the user stands on the pedal 84, the pedal 84 moves toward the base 83, the pedal 84 and the base 83 approach each other, and the spring 85 is compressed; in contrast, when the user leaves the step 84, the elastic force of the spring 85 pushes the step 84, so that the step 84 and the base 83 are separated.

When the pedal 84 moves towards the base 83, the distance between the pedal 84 and the base 83 is reduced, so that the pedal 84 and the base 83 jointly press the load cell 82, the load cell 82 is deformed, and the weight information output by the load cell 82 changes from zero to the weight of the user. Conversely, when the user leaves the step 84, the spacing between the step 84 and the base 83 increases and the load cell 82 changes from the user's weight to zero. The load cell 82 may be implemented using a prior art load cell 82 component, so long as the span of the load cell 82 component is suitable for the user's weight.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and all equivalent structural changes made by using the contents of the present specification and the drawings, or any other related technical fields, are included in the scope of the present invention.

Claims (10)

1. An intelligent garbage can with an energy consumption monitoring function is characterized by comprising a monitoring device, a mains supply device and a local power supply device;

the utility power supply device local power supply device respectively with monitoring device electric connection, wherein, local power supply device includes the group battery at least, monitoring device is used for acquireing the available electric quantity of group battery, works as when the available electric quantity of group battery satisfies the preset condition, monitoring device is used for with local power supply device switches into utility power supply device.

2. The intelligent garbage can with energy consumption monitoring function according to claim 1, wherein the local power supply device comprises a solar power supply device and/or a wind power supply device;

the solar power supply device comprises a solar panel, a solar controller and a first battery pack, wherein the solar panel and the first battery pack are respectively and electrically connected with the solar controller;

the wind power supply device comprises a wind power generator, a wind power controller and a second battery pack, and the wind power generator and the second battery pack are respectively and electrically connected with the wind power controller.

3. The intelligent garbage can with energy consumption monitoring function according to claim 1, wherein the monitoring device at least comprises a coulomb counter, a microprocessor and a storage unit;

the coulometer is used for obtaining the available electric quantity of the battery pack and sending the available electric quantity to the microprocessor;

the storage unit is internally stored with preset electric quantity, the microprocessor can read the preset electric quantity, and when the available electric quantity is smaller than the preset electric quantity, the microprocessor sends a switching electric signal for switching the local power supply device into the commercial power supply device.

4. The intelligent garbage can with energy consumption monitoring function according to claim 3, wherein the monitoring device further comprises a power supply switching circuit and a single chip microcomputer;

the monitoring device also comprises a power supply switching circuit, an isolation module and a single chip microcomputer;

the isolation module and the single chip microcomputer are respectively arranged on the power supply switching circuit, wherein the single chip microcomputer is electrically connected with the microprocessor through the isolation module, the power supply switching circuit is electrically connected with the commercial power supply device and the local power supply device respectively, the isolation module can receive the switching electric signal and generate a control signal according to the switching electric signal, and the power supply switching circuit controls the power supply switching circuit to switch the local power supply device into the commercial power supply device according to the control signal.

5. The intelligent garbage can with energy consumption monitoring function according to claim 4, wherein the monitoring device further comprises a watchdog circuit;

the watchdog circuit and the single chip microcomputer are electrically connected, wherein when the power supply switching circuit switches the local power supply device into the commercial power supply device, the watchdog circuit is used for resetting the single chip microcomputer.

6. The intelligent garbage can with the energy consumption monitoring function according to any one of claims 1 to 5, further comprising a can body, a can door and an electromagnetic assembly;

the box body is provided with a box opening, the box door can movably cover the box opening, the box door has an opening state and a closing state relative to the box opening, and the electromagnetic assembly is used for controlling the box door to be switched between the opening state and the closing state.

7. The intelligent garbage can with energy consumption monitoring function according to claim 6, further comprising a control mechanism;

the electromagnetic assembly is electrically connected with the control mechanism, the control mechanism is electrically connected with the monitoring device, the control mechanism is used for controlling the electromagnetic assembly to be powered on or powered off, when the electromagnetic assembly is in a powered-on state, the box door is in an open state, and when the electromagnetic assembly is in a powered-off state, the box door is in a closed state.

8. The intelligent garbage can with energy consumption monitoring function according to claim 7, wherein the electromagnetic assembly comprises an electromagnetic push rod and a coil spring;

the electromagnetic push rod is provided with a movable end and a fixed end, the movable end is connected with the box door, and the fixed end is connected with the box body;

one end of the spiral spring is connected to the box door, the other end of the spiral spring is connected to the fixed end, when the electromagnetic push rod is powered on, the movable end is far away from the fixed end, the spiral spring is in a stretching state, and when the electromagnetic push rod is powered off, the spiral spring is driven in a contracting state, and the movable end is close to the fixed end.

9. The intelligent garbage can with energy consumption monitoring function according to claim 7, further comprising a weighing assembly, wherein the weighing assembly comprises a treading part and a weighing sensor;

the treading part is arranged outside the box body, and the weighing sensor is arranged on the treading part;

the weighing sensor with control mechanism electric connection, when trampling the part and bearing the weight of the thing, weighing sensor can send weight information.

10. The intelligent bin with energy consumption monitoring function according to claim 9, wherein the treading member comprises a base, a treadle and a spring;

the spring is arranged between the base and the pedal, when a heavy object is loaded on the pedal, the pedal is tightly attached to the base, the spring is compressed, and when the heavy object is lost on the pedal, the spring drives the pedal to be separated from the base;

the weighing sensor is arranged between the pedal and the base, and the weighing sensor and the spring are separated from each other.

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