CN212060984U - Intelligent warehouse energy management system - Google Patents

Abstract

The invention discloses an intelligent warehouse energy management system, which comprises a light supplementing control system, a light supplementing control system and a light supplementing control system, wherein the light supplementing control system is used for controlling and adjusting the light reflecting angle of a light reflecting device to supplement light for a warehouse; the fire monitoring and early warning system is used for carrying out infrared detection on the environment and generating an early warning signal to carry out early warning prompt; and the lighting control system is used for acquiring the illumination brightness in the warehouse and/or detecting the existence state of personnel and controlling the working state of the lighting equipment. The intelligent warehouse energy management system can supplement light for the warehouse when the warehouse is illuminated by the sun in the daytime, reduces the turn-on of electric energy lighting equipment, and achieves the energy-saving effect. Through fire monitoring and early warning, the possible fire can be monitored and judged, the position of the fire can be determined when the fire breaks out, and property loss and casualties are reduced. The illumination device is controlled to work through the illumination brightness and/or the personnel existence state in the warehouse, so that the energy can be saved, and the normal work illumination of workers is not influenced.

Description

Intelligent warehouse energy management system

Technical Field

The invention belongs to the technical field of energy control, and particularly relates to an intelligent warehousing energy management system.

Background

The warehouse is a temporary storage place for products and articles due to the preposition of orders or the preposition of market forecast in the production and circulation processes of the products. The system reflects the activity condition of factory materials in a centralized way, is a transfer station for connecting production, supply and sale, and plays an important auxiliary role in promoting the production and improving the efficiency. Currently, the warehouse has a large gap in energy management.

For the warehouse, a large amount of lighting electricity increases a storage cost for the product, so that reasonable electricity utilization arrangement is indispensable. At present, natural lighting in the warehouse is poor even in the daytime due to unreasonable window opening and other factors, and the working lighting requirement can be met mainly by means of electric energy lighting, so that excessive power consumption is inevitably caused. The commodity circulation warehouse shipment is gone on at night basically now, and the power consumption at night is far more than the daytime, and in the night work, needs a large amount of illumination light in the warehouse, also must keep bright always in the passageway outside the warehouse, just can guarantee that the warehouse operation goes on smoothly, therefore power consumption is very huge.

In addition, due to the fact that goods are stacked in a centralized mode in a warehouse, due to the fact that a fire disaster easily occurs due to the reasons that circuits are aged, the goods are poor in centralized heat dissipation performance and the like, property loss and even casualties are caused, and the warehouse energy consumption monitoring and the fire disaster early warning are also important.

Disclosure of Invention

The invention provides an intelligent warehouse energy management system, which aims at solving the technical problems of high energy consumption and high fire risk caused by lack of scientific energy management of a warehouse in the prior art.

In order to realize the purpose of the invention, the invention is realized by adopting the following technical scheme:

an intelligent warehouse energy management system, comprising:

the light supplementing control system is used for controlling and adjusting the reflecting angle of the reflecting device to supplement light for the warehouse according to current sunlight incident light information, wherein the incident light information at least comprises a solar altitude angle;

the fire monitoring and early warning system is used for carrying out infrared detection on the environment and generating an early warning signal to carry out early warning prompt;

and the lighting control system is used for acquiring the illumination brightness in the warehouse and/or detecting the existence state of personnel and controlling the working state of the lighting equipment.

Further, the light supplement control system includes:

a light reflecting device for reflecting sunlight onto a light reflecting receiving surface;

the power device is used for driving the reflecting device to rotate around the shaft;

and the control device is electrically connected with the power device and is used for controlling the power device to drive the light reflecting device to rotate, and the light reflecting receiving surface is positioned on the lighting window.

Further, the light reflecting device includes:

a bracket disposed outside the light reflection receiving surface;

the reflecting plate is connected to the bracket through a second rotating shaft, the second rotating shaft is arranged along the direction parallel to the reflecting receiving surface, and the upper surface of the reflecting plate is provided with a reflecting film;

the power device comprises a second power device for driving the reflector to rotate around the second rotating shaft.

Further, the bracket is arranged on the outer side of the light reflection receiving surface through a first rotating shaft, and the first rotating shaft is arranged in the vertical direction along the direction parallel to the light reflection receiving surface;

the power device also comprises a first power device which is used for driving the bracket to rotate around the first rotating shaft.

Furthermore, an ultraviolet-proof film is arranged on the lighting window.

Furthermore, a diffuse reflection film is arranged on the lighting window.

Further, the fire monitoring and early warning system comprises:

a thermal imager for acquiring infrared images in an environment;

the image processing equipment receives the infrared image, processes and analyzes the infrared image and generates fire early warning information;

and the alarm information output equipment is used for carrying out sound-light alarm according to the fire early warning information.

Further, the fire monitoring and early warning system further comprises:

and the current detection module is used for acquiring a current signal in the power circuit and sending the current signal to the alarm information output equipment, and the current signal can trigger the alarm information output equipment to alarm.

Further, the lighting control system includes:

the illuminometer is used for detecting the light supplement illumination of the light supplement control system;

and the lighting equipment control module is used for receiving the supplementary lighting illumination sent by the illuminometer and generating a control signal to control the brightness of the lighting equipment.

Further, the lighting control system further includes:

the human body detection modules are provided with a plurality of human body detection modules, are used for detecting the existence state of a human body and send the human body detection modules to the lighting equipment control module;

the lighting equipment is divided into a plurality of groups, each group is correspondingly provided with at least one human body detection module, and the lighting equipment control module controls the working state of the lighting equipment of the group according to the detection signals of the human body detection modules of the groups.

Compared with the prior art, the invention has the advantages and positive effects that: the intelligent warehouse energy management system can supplement light for the warehouse when the warehouse is illuminated by the sun in the daytime, reduces the turn-on of electric energy lighting equipment, and achieves the energy-saving effect. Through fire monitoring and early warning, the possible fire can be monitored and judged, the position of the fire can be determined when the fire breaks out, and property loss and casualties are reduced. The illumination device is controlled to work through the illumination brightness and/or the personnel existence state in the warehouse, so that the energy can be saved, and the normal work illumination of workers is not influenced.

Other features and advantages of the present invention will become more apparent from the following detailed description of the invention when taken in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic diagram of an embodiment of an intelligent warehouse energy management system provided by the invention;

fig. 2 is a schematic structural diagram of an intelligent warehousing light supplement control system according to an embodiment;

fig. 3 is a schematic light reflection diagram of an intelligent warehousing light supplement control system according to an embodiment;

fig. 4 is a schematic partial structure diagram of an intelligent warehousing light supplement control system according to an embodiment;

fig. 5 is a reflection light path diagram of the intelligent warehousing light supplement control system in a vertical plane according to the first embodiment;

fig. 6 is a reflection light path diagram of the light supplement control system for smart storage at a horizontal plane in the first embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and examples.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example one

Aiming at the technical problems that the blank of the existing warehouse in the aspect of energy management leads to a large amount of energy waste and increases the product logistics cost, the embodiment provides an intelligent warehouse energy management system, as shown in fig. 1, comprising:

the light supplementing control system is used for controlling and adjusting the reflecting angle of the reflecting device to supplement light for the warehouse according to current sunlight incident light information, wherein the incident light information at least comprises a solar altitude angle;

the warehouse is generally provided with the daylighting window for daylighting, ventilation and the like in the daytime, but the position of the daylighting window is generally fixed, and the incident angle of sunlight is different in different seasons and different times of the same day, so that the daylighting window is not always incident with sunlight, and the daylighting efficiency is low. Through setting up light filling control system in this scheme, can both be for the illumination of warehouse light filling when having solar illumination daytime, reduce opening of electric energy lighting apparatus, realize energy-conserving effect.

And the fire monitoring and early warning system is used for carrying out infrared detection on the environment and generating an early warning signal to carry out early warning prompt.

The warehouse is because the goods is concentrated and is stacked because reasons such as circuit ageing, goods are concentrated thermal diffusivity poor, the conflagration that takes place easily, and the temperature is an important factor who takes place the burning, consequently, through carrying out infrared detection to the environment in this scheme, can release a large amount of infrared radiation energy during high temperature, and it does not rely on visible light, can carry out all-weather control daytime and night. When the detection temperature exceeds a certain value, early warning prompt can be carried out, a possible fire can be judged in advance through the temperature before the fire occurs, early warning prompt is carried out in time, the real fire behavior is stopped, and property loss and casualties are avoided. Meanwhile, a large amount of processing time is strived for the processing of workers.

And the lighting control system is used for acquiring the illumination brightness in the warehouse and/or detecting the existence state of personnel and controlling the working state of the lighting equipment.

The operation requirement of the warehouse requires enough brightness, and people operate the warehouse for basically 24 hours, so that the illumination energy consumption is an important consumption of the warehouse. The working state of the lighting device comprises the control of the on or off state and the control and adjustment of the light brightness.

As shown in fig. 2 and 3, the sunlight reflecting device comprises a light reflecting device 11, a power device 12 and a control device 13, wherein the light reflecting device 11 is used for reflecting sunlight onto a light reflecting receiving surface 20; the power device 12 is used for driving the reflecting device 11 to rotate around the shaft; the control device 13 is used for generating a control signal to control the output action of the power device.

Sunlight is incident on the earth surface, and the altitude and azimuth of the sun are changed at all times due to the rotation and revolution of the earth, so that the incident angle of the sunlight is also changed. For warehousing, once set up, the position and size of the daylighting windows are determined accordingly and cannot be changed easily. When the incident angle of sunshine changes, appear many moments easily because illumination angle reason can't have sufficient sunlight to penetrate into the storage, consequently need open electric power lighting device when natural lighting is not enough to satisfy normal work illumination needs, lead to extravagant electric energy.

Based on this, the intelligent storage light filling control system that can reflect sunlight that this scheme provided, it can reflect the sunlight to the daylighting window of storage, and then jets into in the storage for its light filling, can reduce electric energy lighting device's opening. In order to adapt to the light incident angle that changes constantly, send control signal to power device 12 through setting up controlling means 13 in this scheme, power device 12 is used for driving reflecting device 11 and rotates, and then can follow the change of light, adjustment reflecting device 11, make it can reflect the sunlight to reflection of light receiving face 20 all the time, the daylighting window should be on reflection of light receiving face 20, and then can reflect light to the storage through the daylighting window all the time, for the storage light filling, only rely on the limited problem of receiving direct projection has been avoided. The sunlight can be fully utilized for lighting in the warehouse, and the electric energy is saved.

In this embodiment, the method for controlling the operation of the power unit 12 by the control unit 13 is: the method comprises the steps of obtaining current sunlight incident light information including an incident angle, determining a light reflecting path, determining a unique light reflecting surface according to the incident light information and the light reflecting path, and adjusting a light reflecting plane of a light reflecting device 11 to the light reflecting surface.

As shown in fig. 4, no matter how the incident angle of the sunlight changes, the position of the light collecting window is unchanged, so that the position of the light reflecting receiving surface 20 is unchanged, the position of the light reflecting receiving surface 20 can be determined according to the position of the light collecting window, the corresponding light reflecting path can be determined, the light reflecting surface can be determined by acquiring incident light information of the sunlight and according to the optical reflection principle, the light reflecting surface is the light reflecting plane of the light reflecting device 11, and then the light reflecting plane of the light reflecting device 11 can be adjusted to the light reflecting surface obtained by calculation through the control device 13 so as to adapt to the current incident angle of the sunlight, thereby achieving the purpose of supplementing light for warehousing.

As a preferred embodiment, as shown in fig. 2 and 3, the light reflecting device 11 includes a bracket 111 and a light reflecting plate 112, the bracket 111 is disposed outside the light reflecting receiving surface 20 via a first rotating shaft 114, and the first rotating shaft 114 is disposed in a vertical direction parallel to the light reflecting receiving surface 20. Wherein, the outer side of the light reflection receiving surface 20 refers to a side of the light reflection receiving surface away from the lighting window.

The reflector 112 is connected to the bracket 111 through a second rotating shaft 113, the second rotating shaft 113 is arranged along a direction parallel to the light-reflecting receiving surface 20, and the upper surface of the reflector 113 is provided with a reflective film (not shown in the figure); the power device 12 includes a second power device 121 for driving the reflection plate 112 to rotate around the second rotation axis 113. The second power unit 121 is provided on the support 111 together with the reflection plate 112. In astronomical terms, the angle of incidence of the sun is expressed as the solar altitude, i.e. the angle of incidence of a ray of light from the horizontal. As shown in the figure, the incident light L1 is reflected by the reflective plate 112, and the reflected light L2 is emitted toward the light receiving surface 20.

The control system of the control device 13 for controlling the second power device 121 to rotate around the second rotating shaft 113 includes:

as shown in fig. 4, a current solar altitude h is obtained; the current solar altitude h is the angle between the incident light L1 and the horizontal plane L0.

Finding out the bisector L3 between the incident light L1 and the reflected light L2, wherein the bisector L3 is the normal of the reflector 112 according to the light reflection principle, and therefore, the target position of the reflector 112 can be determined according to the normal.

Calculating the angle β between the target position of the reflector 112 and the horizontal plane L0:

because the height position of the lighting window is determined, the included angle alpha between the reflected light L2 and the horizontal plane can be determined, and the included angle between the incident light L1 and the reflected light L2 is 180-alpha-h;

the included angle between L1 and L3 is

The included angle between the L3 and the reflector 112 is 90 °, and when the included angle between the L1 and the reflected light L2 and the solar altitude h have been calculated, the included angle between the reflector 112 and the horizontal plane is calculated

After the conversion, the raw material is processed,

because the initial position or the current position of the reflector 112 is determined, the control device calculates the angle of the reflector 112 to be rotated when the reflector 112 moves to the target position, and the included angle between the light emitting surface and the horizontal plane is beta by controlling the reflector 112 to rotate.

The calculation method of the solar altitude h in the embodiment is as follows:

acquiring a current declination angle;

declination angle is the angle between the equatorial plane of the earth and the line connecting the sun and the center of the earth. Can be determined according to the formula:

and (4) calculating. Wherein M is the number of days from spring festival.

Calculating the current solar altitude angle h according to the current declination angle:

h＝90°+-φ；

wherein phi is the latitude of the direct angle of the sun.

The orientation of the sun is also related to the intensity of the radiation, and due to the rotation of the earth, the sun rises slowly from the east and falls slowly to the west after rising to the maximum. The intensity of radiation is greatest when the sun is directly shining. Therefore, the power device 12 of the present embodiment further includes a first power device 122 for rotating the bracket 111 about the first rotating shaft 114. The first rotating shaft 114 is disposed in parallel to the light reflection receiving surface 20 in the vertical direction; by obtaining the azimuth angle of the sun, as shown in fig. 6, the angle for driving the bracket 111 to rotate around the first rotating shaft 114 is calculated, and then the reflector 112 rotates around the first rotating shaft 114 along with the bracket 111, so that the reflector 112 faces the sun, the component of the incident light in the normal direction of the reflector 112 is the largest, and more energy can be converged on the reflector 112.

The azimuth angle of the sun is the angle of the incident light from the true south on the horizontal plane. As shown in fig. 6, an azimuth angle γ of the sun is obtained, and the first power device 122 is controlled to rotate around the first rotating shaft 114 according to γ, so that an included angle between the reflecting plane and the horizontal plane is consistent with an included angle θ between the reflecting plane and the horizontal plane, where θ is 90 ° - γ. At this time, the reflector 112 faces the sun, and the maximum irradiance can be obtained, and accordingly the energy reflected to the light-receiving surface 20 is the most, and the intensity of the reflected light is stronger.

The calculation method of the solar azimuth angle gamma comprises the following steps:

the height of a lighting window of a general warehouse is high, and if one light reflecting device 11 is arranged, the area of a light reflecting receiving surface is small, so that the lighting window cannot be fully utilized. In this embodiment, it is preferable that the light reflecting device 11 has a plurality of light reflecting devices 11, and the plurality of light reflecting devices 11 are arranged along the vertical direction, and a gap is provided between two adjacent light reflecting devices 11. The plurality of light reflecting devices 11 can reflect light from the lighting windows on different height surfaces respectively, increase the area of the light reflecting cross section and improve the brightness of the reflected light.

As shown in fig. 2, the supporting arms 111a of the brackets 111 extend outward (i.e., extend in a direction away from the light-receiving surface 20) along a direction perpendicular to the second rotating shaft 113 on a horizontal plane, the lengths of the supporting arms 111a of the plurality of brackets sequentially increase from top to bottom, the distances between the light-reflecting plates 112 of the plurality of light-reflecting devices 11 and the light-receiving surface sequentially increase from top to bottom, and the projections of the plurality of light-reflecting plates 112 on a vertical plane do not overlap with each other, so as to prevent the light-blocking phenomenon from occurring between the plurality of light-reflecting plates 112, and the lengths of the supporting arms 111a of the plurality of brackets sequentially increase from top to bottom, so that the light-reflecting plate 112 located above can be.

The first power device 122 and the second power device 121 may be implemented by stepping motors, respectively, a power output shaft of the first power device 122 and the first rotating shaft 114, and a power output shaft of the second power device 121 and the first rotating shaft 114 may be connected by gear engagement, and the control device 13 controls the number of steps of the stepping motors to rotate the light reflecting device 12 or the support 11.

The directly captured sunlight generally contains ultraviolet rays, which can cause great harm to the health of warehouse staff. In view of this, the present solution provides an ultraviolet ray prevention film on the lighting window. The ultraviolet-proof film can filter and absorb ultraviolet rays, and the safety of workers is guaranteed.

In order to improve the uniformity and softness of reflected light entering the warehouse, the light collecting window is provided with a diffuse reflection film, and the reflected light is reflected by the diffuse reflection film and then uniformly reflected into the warehouse.

As shown in fig. 1, the fire monitoring and early warning system further includes:

the system comprises a thermal imager, image processing equipment and alarm information output equipment, wherein the thermal imager is used for acquiring infrared images in the environment; the image processing equipment is used for receiving the infrared image sent by the thermal imager, processing and analyzing the infrared image and generating fire early warning information; and the alarm information output equipment is used for receiving the fire early warning information sent by the image processing equipment and carrying out sound-light alarm according to the fire early warning information. The specific mode can be through bee calling organ, warning light etc.. The infrared image can be output through the display, and the abnormal early warning area can be seen in the image, so that the worker can conveniently lock the position to process.

If the circuit is short-circuited due to circuit aging, overlarge load and the like, instantaneous large current can be generated to excite electric sparks, the electric sparks are easy to ignite surrounding objects, and great potential safety hazards exist. Once the object is ignited and a sustained fire is established, indicating that a fire has occurred, reorganization personnel may be quite passive in fighting. In order to prevent the occurrence of the condition of missing alarm and improve the detection and early warning accuracy of the system, the fire monitoring and early warning system of the embodiment further comprises a current detection module, wherein the current detection module is used for collecting a current signal in the power circuit and sending the current signal to the alarm information output equipment, and the current signal can trigger the alarm information output equipment to alarm. The current detection module can be realized by adopting an existing current detection sensor or a current detection circuit.

In the embodiment, the supplementary lighting control system is described in detail in the foregoing content, sunlight can be reflected into the warehouse without being limited by an incident angle, and then another problem occurs, after the supplementary lighting comes in, since the outdoor solar irradiation intensity is greatly influenced by natural factors, how to control the lighting equipment in the warehouse to work, and the required working brightness in the warehouse can be met while energy consumption is saved, therefore, as shown in fig. 1, the lighting control system further includes an illuminometer and a lighting equipment control module, and the illuminometer is used for detecting the supplementary lighting illumination of the supplementary lighting control system; the lighting device control module receives the supplementary lighting illumination sent by the illuminometer and generates a control signal to control the brightness of the lighting device. Specifically, the illuminometer is arranged on the reflection receiving surface or the lighting window, the brightness of the lighting equipment is adjusted according to the illuminance of the light supplement, stepless adjustment is achieved, namely when the illuminance of the light supplement is high, the brightness of the lighting equipment is adjusted to be low, when the illuminance of the light supplement is low, the brightness of the lighting equipment is correspondingly increased, light provided by the light supplement and the lighting equipment also meets the operation requirement of workers, and meanwhile the most comfortable brightness of human physiology is achieved without wasting electric energy.

The commodity circulation warehouse shipment goods delivery is gone on at night basically, and the power consumption at night is far more than the daytime, and in the night operation, does not have the light filling in the warehouse, need open all lighting apparatus in order to satisfy the work demand, and the energy consumption is also very huge. Some areas may be unmanned, the lighting equipment which does not need to be lighted is generally turned off manually at present, and in some cases, workers need to shuttle among the areas for operation, frequent manual control is not practical, and the operation is required to be turned on completely, so that energy consumption is wasted. Based on this, the lighting control system of the present invention further includes: the human body detection modules are provided with a plurality of human body detection modules, are used for detecting the existence state of a human body and send the human body detection modules to the lighting equipment control module; the lighting equipment is divided into a plurality of groups according to areas, each group corresponds to at least one human body detection module, and the lighting equipment control module controls the working state of the lighting equipment of the group according to the detection signals of the human body detection modules of the groups. That is, according to whether a worker in the area determines whether to turn on the lighting device, when no person is present, all or part of the lighting devices in the area can be turned off to save energy consumption.

The logistics warehouse is operated at night, and lighting light is guaranteed even if no-man operation area exists, so that most lighting equipment is turned off when no one is in operation, and the lighting brightness meets the brightness required by basic monitoring. If the place without lighting needs to be lighted, all lighting devices can be turned off, and the lighting devices can be selected according to actual needs.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. An intelligent warehouse energy management system, comprising:

the light supplementing control system is used for controlling and adjusting the reflecting angle of the reflecting device to supplement light for the warehouse according to current sunlight incident light information, wherein the incident light information at least comprises a solar altitude angle;

the fire monitoring and early warning system is used for carrying out infrared detection on the environment and generating an early warning signal to carry out early warning prompt;

and the lighting control system is used for acquiring the illumination brightness in the warehouse and/or detecting the existence state of personnel and controlling the working state of the lighting equipment.

2. The intelligent warehouse energy management system of claim 1, wherein the light supplement control system comprises:

a light reflecting device for reflecting sunlight onto a light reflecting receiving surface;

the power device is used for driving the reflecting device to rotate around the shaft;

and the control device is electrically connected with the power device and is used for controlling the power device to drive the light reflecting device to rotate, and the light reflecting receiving surface is positioned on the lighting window.

3. The intelligent warehouse energy management system of claim 2 wherein the light reflecting device comprises:

a bracket disposed outside the light reflection receiving surface;

the reflecting plate is connected to the bracket through a second rotating shaft, the second rotating shaft is arranged along the direction parallel to the reflecting receiving surface, and the upper surface of the reflecting plate is provided with a reflecting film;

the power device comprises a second power device for driving the reflector to rotate around the second rotating shaft.

4. The intelligent warehouse energy management system of claim 3 wherein the rack is disposed outside the light reflecting receiving surface by a first rotating shaft, the first rotating shaft being disposed parallel to the light reflecting receiving surface in a vertical direction;

the power device also comprises a first power device which is used for driving the bracket to rotate around the first rotating shaft.

5. The intelligent warehouse energy management system of claim 2 wherein the daylight window is provided with an ultraviolet resistant film.

6. The intelligent warehouse energy management system of claim 2 wherein the daylight window is provided with a diffuse reflective film.

7. The intelligent warehouse energy management system of any one of claims 1 to 6 wherein the fire monitoring and warning system comprises:

a thermal imager for acquiring infrared images in an environment;

the image processing equipment is used for receiving the infrared image, processing and analyzing the infrared image and generating fire early warning information;

and the alarm information output equipment is used for performing sound-light alarm according to the early warning information.

8. The intelligent warehouse energy management system of claim 7 wherein the fire monitoring and warning system further comprises:

and the current detection module is used for acquiring a current signal in the power circuit and sending the current signal to the alarm information output equipment, and the current signal can trigger the alarm information output equipment to alarm.

9. The intelligent warehouse energy management system of any one of claims 1 to 6 wherein the lighting control system comprises:

the illuminometer is used for detecting the light supplement illumination of the light supplement control system;

and the lighting equipment control module is used for receiving the supplementary lighting illumination sent by the illuminometer and generating a control signal to control the brightness of the lighting equipment.

10. The intelligent warehouse energy management system of claim 9 wherein the lighting control system further comprises:

the human body detection modules are provided with a plurality of human body detection modules, are used for detecting the existence state of a human body and send the human body detection modules to the lighting equipment control module;

the lighting equipment is divided into a plurality of groups, each group is correspondingly provided with at least one human body detection module, and the lighting equipment control module controls the working state of the lighting equipment of the group according to the detection signals of the human body detection modules of the groups.

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