CN215174282U - Mobile lighting equipment - Google Patents

Abstract

The present disclosure relates to a mobile lighting device comprising: a mobile lighting device body, the mobile lighting device body comprising: a first illumination light source; the light sensing module is used for detecting the ambient brightness of the external environment where the mobile lighting equipment is located; the human body induction module is used for detecting whether a human body exists in a space meeting a preset position relation with the mobile lighting equipment body; the controller is respectively connected with the light sensor, the human body sensor and the first lighting light source and used for controlling the first lighting light source to emit light when the ambient brightness detected by the light sensor is lower than a preset threshold value and the human body sensor detects a human body in a space meeting a preset position relation with the lighting equipment. The embodiment increases the functions of the mobile lighting device, and improves the use convenience and the use experience of the user.

Description

Mobile lighting equipment

Technical Field

The present disclosure relates to the field of terminal equipment, and in particular, to a mobile lighting device.

Background

Day and night exist in daily application scenes, the light brightness in day is high, and the light requirements of most application scenes can be met through sunlight. At night, namely after the sun falls, the illumination intensity of the sunlight is lower than a certain threshold value, and if no other light-emitting device illuminates, the external environment is dark. In the daytime, in a special environment, that is, in an environment where sunlight cannot be irradiated or when the light brightness is lower than a certain threshold, the illumination is also required by the light-emitting device, such as a basement, an underground coal mine and the like.

The application of the lighting device in daily life is more and more extensive, and in the space needing illumination, the lighting device can be utilized to emit light through the lighting device, so that the space with the light brightness lower than a certain threshold value is illuminated.

SUMMERY OF THE UTILITY MODEL

The present disclosure provides a mobile lighting device.

In a first aspect of the embodiments of the present disclosure, a mobile lighting device is provided, including: a mobile lighting device body, the mobile lighting device body comprising: a first illumination light source; the light sensing module is used for detecting the ambient brightness of the external environment where the mobile lighting equipment is located; the human body induction module is used for detecting whether a human body exists in a space meeting a preset position relation with the mobile lighting equipment body; the controller is respectively connected with the light sensor, the human body sensor and the first lighting light source and used for controlling the first lighting light source to emit light when the ambient brightness detected by the light sensor is lower than a preset threshold value and the human body sensor detects a human body in a space meeting a preset position relation with the lighting equipment.

In one embodiment, the controller is further configured to generate a first control signal for controlling the human body sensing module to start detecting whether a human body exists in the space when the ambient brightness detected by the light sensing module gradually decreases and is lower than the preset threshold; the human body induction module starts to detect whether a human body exists in the space or not according to the first control signal; the controller is further configured to generate a second control signal for controlling the human body sensing module to stop detecting whether a human body is in the space or not when the ambient brightness detected by the light sensing module gradually increases and is higher than the preset threshold; and the human body induction module stops detecting whether a human body exists in the space or not according to the second control signal.

In one embodiment, the mobile lighting device body further comprises: and the display module is connected with the controller and at least used for displaying the time information.

In one embodiment, the display module is a reflective liquid crystal display module; the mobile lighting device body further comprises: the second illumination light source is arranged adjacent to the display module, connected with the controller and used for providing illumination for the display module after the first illumination light source emits light, so that the display module can reflect the illumination and then display the time information; the controller is further used for controlling the second illumination light source to emit light after the first illumination light source is controlled to emit light.

In one embodiment, the mobile lighting device body further comprises: the charging module comprises a charging interface and a charging circuit; the battery module is connected with the charging interface through the charging circuit, is connected with the first illumination light source and is used for providing electric energy required by illumination for the first illumination light source; the discharge module is provided with a discharge interface and a discharge circuit; the discharging interface is connected with the battery module through the discharging circuit, and releases electric energy stored by the battery module to a powered device after the discharging interface is connected with the powered device.

In one embodiment, the mobile lighting device further comprises: the charging base charges the battery module when the relative position between the charging base and the mobile lighting equipment body is a preset position; wherein, the base that charges includes: and the plug is positioned on the charging base and used for connecting the charging base with the charging socket.

In one embodiment, the charging base further comprises: a first charging contact electrically connected with the plug; the mobile lighting equipment body is provided with a second charging contact and is electrically connected with the charging interface; the preset positions are as follows: a position where the first charging contact and the second charging contact are in contact.

In one embodiment, the charging base further comprises: the first wireless charging coil is used for transmitting a wireless charging signal; the module of charging still includes: and the second wireless charging coil is electrically connected with the charging circuit through the charging circuit and used for receiving the wireless charging signal.

In one embodiment, the mobile lighting device body further comprises: the fixing module is used for fixing the mobile lighting equipment at a target position after the mobile lighting equipment is separated from the charging base; wherein, fixed module includes sucking disc or magnet.

In one embodiment, the mobile lighting device body further comprises: a second illumination light source having an illumination distance greater than an illumination distance of the first illumination light source, and/or having a luminance greater than a luminance of the first illumination light source.

In one embodiment, the mobile lighting device body further comprises: and the switch is connected with the second illumination light source and is used for controlling whether the second illumination light source emits light or not.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:

the mobile lighting device body in the embodiment of the present disclosure includes a mobile lighting device body, and the mobile lighting device body includes: a first illumination source, which can emit light, for providing illumination; the light sensing module is used for detecting the ambient brightness of the external environment where the mobile lighting equipment is located; the human body induction module is used for detecting whether a human body exists in a space meeting a preset position relation with the lighting equipment; the controller is respectively connected with the light sensor, the human body sensor and the first lighting light source and used for controlling the first lighting light source to emit light when the ambient brightness detected by the light sensor is lower than a preset threshold value and a human body exists in a space meeting a preset position relation between the human body sensor and the lighting equipment.

The mobile lighting equipment body can realize the light emitting control of the first lighting light source according to whether a human body exists in the space of the environment brightness and a certain position relation. It needs illumination to increase ambient brightness to explain at ambient brightness to be less than predetermineeing the threshold value, and simultaneously, when having the human body in the space that satisfies the predetermined position relation with lighting apparatus, explain that the user probably needs illumination under this environment, control first lighting source and give out light this moment, can reduce like this and need lighting apparatus to throw light on and control the luminous extravagant condition of the electric energy that leads to of first lighting source and take place at no user, the automatic control performance of mobile lighting apparatus body has been improved, user's convenience in use and experience have been improved, the function of lighting apparatus body has been increased, user's use experience has been improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic structural diagram illustrating a mobile lighting device body according to an exemplary embodiment;

fig. 2 is a schematic diagram illustrating electrical connections in a mobile lighting device body according to an exemplary embodiment;

FIG. 3 is a schematic diagram illustrating another electrical connection relationship of a mobile lighting device body according to an exemplary embodiment;

FIG. 4 is a schematic diagram illustrating a charging dock according to an exemplary embodiment;

fig. 5 is a schematic diagram illustrating a charging base charging a body of a mobile lighting device according to an exemplary embodiment;

fig. 6 is a schematic diagram illustrating separation of a charging dock and a mobile lighting device body according to an exemplary embodiment.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of devices consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The embodiment of the present disclosure provides a mobile lighting device, which includes a mobile lighting device body 1.

Referring to fig. 1, a schematic structural diagram of a mobile lighting device body provided in an embodiment of the present disclosure is shown. The mobile lighting device body 1 comprises:

a first illumination light source 101.

The light sensing module 102 is configured to detect an ambient brightness of an external environment where the mobile lighting device is located.

And the human body induction module 103 is used for detecting whether a human body exists in a space meeting a preset position relation with the mobile lighting equipment body.

The controller 104 (refer to fig. 2, not shown in fig. 1) is connected to the light sensing module 102, the human body sensing module 103, and the first illumination light source 101, respectively, and is configured to control the first illumination light source 101 to emit light when the ambient brightness detected by the light sensing module 102 is lower than a preset threshold and the human body sensing module 103 detects a human body in a space satisfying a preset positional relationship with the mobile illumination device body 1. Fig. 2 is a schematic view of electrical connection in the mobile lighting device body 1.

The mobile lighting device is a mobile lighting device, such as a portable lighting device, and may be a mobile device having a lighting source, such as a flashlight or a desk lamp.

In this embodiment, the shape of the mobile lighting device body 1 is not limited, and may be a cylinder, such as a cylindrical flashlight, or the like, or a rectangular parallelepiped, or may be another shape.

The first illumination light source 101 may be a light source that can emit light, such as an LED lamp, an incandescent lamp, a fluorescent lamp, and a tungsten halogen lamp, and the kind of the light source is not limited herein.

The light emission luminance of the first illumination light source 101 may be determined according to an actual usage environment, the illumination luminance required for different usage environments may be different, and the light emission luminance may be determined by power or the like. For example, in a bedroom at midnight, a human body needs to go to a toilet, and the like, when the human body sensing module 103 detects that the human body is in the space satisfying the preset positional relationship, the controller 104 controls the first illumination light source 101 to emit light. In this case, since the brightness of the surroundings is low, the human body does not need to be illuminated with strong brightness at this time, for example, the first illumination light source 101 may be an LED light source with a power of 1 watt.

For another example, in the outdoor environment where the ambient brightness is lower than the preset threshold, since the outdoor space is large, and the required brightness is also large, when the human body sensing module 103 detects a human body in the space satisfying the preset positional relationship with the mobile lighting device body 1, the controller 104 controls the first lighting source 101 to emit light. In this scenario, the first illumination source 101 may be an LED lamp with a power of 20 watts.

The position of the first illumination light source 101 on the mobile illumination apparatus body 1 is not limited, and in this embodiment, the mobile illumination apparatus body 1 is a cylindrical body, and the first illumination light source 101 is located on the side of the mobile illumination apparatus body 1. The area occupied by the first illumination light source 101 is not limited.

The light sensing module 102 can sense the ambient brightness of the environment, generate a first sensing electrical signal, and send the first sensing electrical signal to the controller 104. The electrical signals corresponding to different ambient brightness are different, and the controller 104 may determine whether the ambient brightness of the current environment is lower than a preset threshold according to the first sensing electrical signal. The preset threshold may be determined according to an actual usage scenario.

The light sensing module 102 includes, but is not limited to, a light sensor, etc., and the specific structure and model are not limited herein.

The human body sensing module 103 may detect whether a human body exists or passes through a space with a preset positional relationship, and may generate a corresponding electrical signal when detecting that the human body exists or passes through, where the electrical signal is used as a second sensing electrical signal, and send the second sensing electrical signal to the controller 104.

The human body sensing module 103 includes, but is not limited to, a thermal infrared human body sensor, and the like, and the specific structure, model, and the like are not limited herein, and components capable of implementing the human body detection function are within the scope of the embodiment.

The positions of the light sensing module 102 and the human body sensing module 103 are not limited, and in this embodiment, the light sensing module 102 and the human body sensing module 103 are located on the same side of the mobile lighting device body 1 as the first lighting source 101, or are disposed adjacent to the first lighting source 101.

The space satisfying the preset position relationship with the mobile lighting device body 1 may be the space where the mobile lighting device body 1 is located, and the human body sensing module 103 can detect a human body when a human body is in the space. For example, a room in which the mobile lighting device body 1 is located, or an outdoor space in which the mobile lighting device body 1 is located, or the like.

The controller 104 may be any controller with a control function, such as a Micro Control Unit (MCU), and the specific model is not limited. The controller 104 can control the first illumination light source 101 to emit light when the ambient brightness detected by the light sensing module 102 is lower than the preset threshold and the human body sensing module 103 detects a human body in the space satisfying the preset position relationship with the mobile illumination device body 1 according to the first sensing electric signal sent by the light sensing module 102 and the second sensing electric signal sent by the human body sensing module 103.

The mobile lighting equipment body is provided with the light sensing module 102 and the human body sensing module 103, and light emitting control of the first lighting light source can be achieved according to whether a human body exists in the space with the ambient brightness and a certain position relation of the environment. The ambient brightness is lower than the preset threshold value to indicate that the ambient brightness needs to be increased through illumination, and meanwhile, when a human body exists in a space meeting the preset position relation with the lighting equipment, the user is indicated to possibly need illumination in the environment, the first lighting source is controlled to emit light at the moment, so that the situation that the electricity is wasted due to the fact that the lighting equipment is not needed by the user to illuminate and the first lighting source is controlled to emit light can be reduced, the automatic control performance of the mobile lighting equipment body is improved, and the use convenience and the experience of the user are improved.

In another embodiment, the controller 104 may be further configured to generate a first control signal for controlling the human body sensing module 103 to start detecting whether there is a human body in the space according to the environment brightness detected by the light sensing module 102 gradually decreasing and being lower than a preset threshold; the human body sensing module 103 starts to detect whether a human body is in the space according to the first control signal.

In this embodiment, the controller 104 may control the human body sensing module 103 to start detecting whether there is a human body in the space satisfying the predetermined positional relationship with the mobile lighting device body 1 according to the ambient brightness detected by the light sensing module 102. Specifically, the first control signal may be generated when the ambient brightness detected by the light sensing module 102 is gradually decreased and is lower than a preset threshold according to the change condition of the ambient brightness detected by the light sensing module 102. Then, the human body induction module 103 is controlled by the first control signal to start detecting whether a human body exists in the space, that is, the human body induction module 103 starts detecting whether a human body exists in the space according to the first control signal.

That is, the ambient brightness detected by the light sensing module 102 is used as a precondition for the start and stop of the human body sensing module 103, so that the problem of electric energy waste caused by the fact that the human body sensing module 103 is always in a detection state is reduced.

The application scenario in this embodiment may include: during the course of the day to night change. In this process, the light sensing module 102 is always in the detecting state, and the human body sensing module 103 starts to detect according to the first control signal instead of being always in the detecting state. Therefore, when the ambient brightness is greater than the preset threshold value, the human body sensing module 103 stops detecting, the consumption of electric energy is reduced, and resources are saved.

In another embodiment, the controller 104 may be further configured to generate a second control signal for controlling the human body sensing module 103 to stop detecting whether there is a human body in the space when the ambient brightness detected by the light sensing module 102 gradually increases and is higher than a preset threshold; the human body sensing module 103 stops detecting whether a human body exists in the space according to the second control signal.

In this embodiment, the controller 104 may also control the human body sensing module 103 to stop detecting whether there is a human body in the space satisfying the predetermined positional relationship with the mobile lighting device body 1 according to the ambient brightness detected by the light sensing module 102. Specifically, the second control signal may be generated when the ambient brightness detected by the light sensing module 102 is gradually increased and is higher than the preset threshold according to the change condition of the ambient brightness detected by the light sensing module 102. Then, the human body induction module 103 is controlled by the second control signal to start to stop detecting whether a human body exists in the space, that is, the human body induction module 103 stops detecting whether a human body exists in the space according to the second control signal.

The application scenario in this embodiment may include: the course of the change from night to day. In this process, the light sensing module 102 is always in the detecting state, and the human body sensing module 103 starts to detect according to the second control signal instead of being always in the detecting state. Therefore, when the ambient brightness is smaller than the preset threshold, the human body induction module 103 is in a detection state, and when the ambient brightness is larger than the preset threshold, the first illumination light source 101 is not needed to emit light, the human body induction module 103 stops detecting, the consumption of electric energy can be reduced, and resources are saved.

In another embodiment, referring to fig. 1, the mobile lighting device body 1 further includes:

the display module 105 is connected to the controller 104 (see fig. 2 for connection), and at least displays the time information. The controller 104 can control the display module 105 to display at least the time information.

Display module assembly 105 can be any kind of module that has the display function, such as display and show, and this display module assembly 105 can show time information at least, has increased the function of mobile lighting device body 1, has also provided user's use experience.

In another embodiment, the display module 105 can also display weather information, temperature information, humidity information, and the like, which is not limited herein.

In another embodiment, the display module 105 is a reflective liquid crystal display module. The reflective liquid crystal display module does not actively emit light, a light source is required to be externally connected, time information and the like in the display module 105 can be displayed by reflecting the light source provided by the outside, and the reflective liquid crystal display module can realize clear display by virtue of other light sources in the daytime or under the condition of other light sources, so that the reflective liquid crystal display module has the characteristic of low energy consumption compared with a display which completely depends on backlight.

The mobile lighting device body 1 further includes:

the second illumination source (not shown) is disposed adjacent to the display module 105, and is electrically connected to the controller 104, and is configured to provide illumination for the display module 105 after the first illumination source 101 emits light, so that the display module 105 reflects the illumination to display time information.

For example, if the brightness of the environment where the mobile lighting device body 1 is located is higher than the preset threshold value in the daytime, the time information can be displayed by sunlight. When the ambient brightness of the mobile lighting device body 1 is lower than the preset threshold value at night, the lighting device is required to emit light, and illumination is provided for the display module 105.

The controller 104 is further configured to control the second illumination light source to emit light after controlling the first illumination light source 101 to emit light.

In this embodiment, after controlling the first illumination light source 101 to emit light, the controller 105 indicates that the brightness of the environment where the mobile illumination device body 1 is located is low, and needs to be illuminated to increase the brightness of the environment. In this case, in order to better display the content in the display module 105, the second illumination light source provides illumination for the display module 105, and the illumination can be used for the display module 105 to display time information and the like. After the second lighting device emits light, the display module 105 may reflect light of the second lighting device, and the human body may obtain content in the display module 105.

In another embodiment, referring to fig. 3, an electrical connection relationship of another mobile lighting device body 1 is schematically illustrated. The mobile lighting device body 1 further comprises:

the charging module 106 includes a charging interface 1061 and a charging circuit 1062.

The battery module 107 is connected to the charging interface 1601 through the charging circuit 1062, and is connected to the first illumination light source 101, and is configured to provide the first illumination light source 101 with electric energy required for illumination. Specifically, the battery module 107 may be connected to the controller 104 and the first illumination light source 101, and the controller controls whether the first illumination light source 101 emits light.

The discharging module 108 has a discharging interface 1081 and a discharging circuit 1082.

The discharge interface 1081 is connected to the battery module 107 through a discharge circuit 1082, and releases the electric energy stored in the battery module 107 to the power receiving device after being connected to the power receiving device.

The mobile lighting device body 1 charges the battery module 107 through the charging module 106, and specifically, may be connected to a charger through the charging interface 1061, and the charging circuit 1062 is electrically connected to the charging interface 1061 and the battery module 107, that is, the battery module 107 is connected to the charging interface 1601 through the charging circuit 1062. The specific structures of the charging interface 1061 and the charging circuit 1062 are not limited, for example, the charging interface 1061 may be a Micro USB interface, the charging circuit 1062 may be a charging circuit adapted to the battery module 107, and the battery module 107 may be a lithium battery pack.

The battery module 107 may also be electrically connected to the first illumination light source 101, and is configured to supply power to the first illumination light source 101, so that the first illumination light source 101 emits light.

The mobile lighting device body 1 charges the powered device through the discharging module 108, that is, the mobile lighting device body 1 serves as a power source and provides power for other power consuming devices when the battery module 107 has power. The discharge interface 1081 is electrically connected to the battery module 107 through a discharge circuit 1082, and the discharge interface 1081 releases the electric energy stored in the battery module 107 to the powered device after being connected to the powered device.

The discharge interface 1081 and the discharge circuit 1082 are not limited here, and the discharge interface 1081 may be a USB interface (see fig. 1), and the discharge circuit 1082 may be a discharge circuit that is compatible with a power-receiving device, such as a general-purpose discharge circuit, and converts the electric energy of the battery module 107 into a voltage and/or a current that is compatible with a device such as a mobile phone. The discharge circuit can also comprise a voltage transformation circuit for voltage conversion. The battery module can further comprise a unidirectional conduction tube, for example, a diode or other components with unidirectional conductivity, so that the current is prevented from reversely flowing to the battery module when the power receiving equipment is charged.

After the mobile lighting equipment body 1 has the discharging function, the mobile lighting equipment body 1 can be charged for other powered equipment when the powered equipment needs to be charged, so that the usability of the mobile lighting equipment body 1 is improved, the use functions and the use scenes of the mobile lighting equipment body 1 are increased, and the use experience of a user is improved.

In another embodiment, the mobile lighting device body 1 may further include a charging indicator light and a discharging indicator light, the charging indicator light is connected to the charging circuit, and the charging indicator light is turned on when the battery module is charged by the charging module. The discharge indicator lamp is connected with the discharge module, and when discharging, when charging the powered device promptly, the discharge indicator lamp lights. The charge indicator lamp is different from the discharge indicator lamp, and for example, the charge indicator lamp is red when turned on and the discharge indicator lamp is green when turned on.

In another embodiment, the mobile lighting device further includes a charging base 2, and referring to fig. 4, a schematic structural diagram of the charging base is shown. When the relative position between the charging base 2 and the mobile lighting device body 1 is a preset position, the battery module 107 in the mobile lighting device body 1 is charged. The charging base 2 includes: and the plug 201 is positioned on the charging base and used for connecting the charging base 2 with a charging socket.

Charging base 2 can regard as the load-bearing platform of mobile lighting device body 1, can place mobile lighting device body 1, can fix mobile lighting device body 1 on charging base 2 through modes such as magnetism or buckle, and then can charge for mobile lighting device body 1. The plug 201 is located on the charging base 2, so that connecting lines between the plug 201 and the charging base 2 can be reduced, the use convenience is improved, the manufacturing cost and the manufacturing time are saved, and resources are saved.

The preset position may be a position where the charging base 2 can charge the mobile lighting device body 1, and the preset positions of the charging base 2 with different structures relative to the mobile lighting device body 1 may be different.

The structure of the charging base 2 may be other than the structure shown in fig. 4 as long as the mobile lighting device body 1 can be charged and the plug 201 is directly located on the charging base 2.

In another embodiment, referring to fig. 4, the charging base further comprises:

the first charging contact 202 is electrically connected to the plug 201.

The mobile lighting device body 1 has a second charging contact (not shown) electrically connected to the charging interface 1061.

The plug 201 can be plugged into a charging socket, the first charging contact 202 transmits the electric energy to the first charging contact 202, and when the charging base 2 charges the mobile lighting device body 1, the first charging contact 202 contacts with the second charging contact to transmit the electric energy to the second charging contact, so as to charge the battery module 107.

Other components, such as a transformer and processing circuitry, may also be included in the charging dock 2, located between the plug 201 and the first charging contact 202, to process the voltage received by the plug 201, etc.

In this embodiment, the preset positions are: the first charging contact 201 and the second charging contact are in contact.

Referring to fig. 5, a schematic diagram of a charging base charging a mobile lighting device body is shown. Fig. 5 shows the relative positions of the charging base 2 and the mobile lighting device body 1, which are the preset positions, when the charging base 2 charges the mobile lighting device body 1, and at this time, the first charging contact 201 is in contact with the second charging contact.

Referring to fig. 6, a schematic diagram of the separation of the charging base and the mobile lighting device body is shown, the mobile lighting device body 1 can be separated from the charging base 2, can be separated from the charging base 2 when charging is not needed, and can be located at a corresponding position according to use needs.

In another embodiment, the charging base further comprises: the first wireless charging coil is used for transmitting a wireless charging signal;

the charging module 106 further includes: the second wireless charging coil is electrically connected to the charging circuit 1062 through the charging circuit 1062, and is configured to receive the wireless charging signal, and then charge the battery module 107 through the charging circuit 1062.

Can realize wirelessly charging to battery module in the mobile lighting device body 1 through first wireless charging coil and the wireless charging coil of second, need not to place mobile lighting device body 1 on charging base 2 when charging, can within the wireless within range that charges, improved the convenience of charging, and then improved user's use and experienced.

In another embodiment, the mobile lighting device body 1 further comprises:

a fixing module (not shown) for fixing the mobile lighting device at a target position after the mobile lighting device is separated from the charging base; wherein, the fixed module comprises a sucker or a magnet.

The fixing module such as the sucker or the magnet can fix the mobile lighting device body 1 at a required target position after the mobile lighting device body 1 is separated from the charging base 2, so that the use convenience of the mobile lighting device body 1 is improved.

The fixed module can also be the fixed module of block structure, and this block structure includes cardboard or cutting ferrule etc. has cardboard or cutting ferrule etc. in the mobile lighting equipment body 1 promptly, and this cardboard or cutting ferrule etc. can be used for fixing mobile lighting equipment body 1 and target location block in the target location. The structure and shape of the card board or the card sleeve can be any structure and shape capable of fixing the mobile lighting device body 1 at the target position, for example, the card board or the card sleeve can be matched with the target position and can fix the mobile lighting device body 1 at the target position.

The space that the block structure occupy is less, can not influence the volume of removing lighting apparatus body 1, simultaneously, also is convenient for fix and remove lighting apparatus body 1.

In another embodiment, referring to fig. 6, the mobile lighting device body further includes:

a second illumination light source 109, the illumination distance of the second illumination light source 109 being larger than the illumination distance of the first illumination light source 101, and/or the brightness of the second illumination light source 109 being larger than the brightness of the first illumination light source 101.

When the mobile lighting device body 1 is a cylindrical device, the second lighting source 109 is located at one end of the mobile lighting device body 1, for example, when the mobile lighting device body 1 is a flashlight, the second lighting source 109 is located at one end of the flashlight and is used for illuminating a remote position.

The second illumination light source 109 may be a light source that can emit light, such as an LED lamp, an incandescent lamp, a fluorescent lamp, and a tungsten halogen lamp.

Referring to fig. 1, the mobile lighting device further includes: and a switch 110 connected to the second illumination light source 109 and the battery module 107, not shown, for controlling whether the second illumination light source 109 emits light. The switch 110 may also control the brightness of the light emitted by the second illumination source 109, and adjust the brightness of the light emitted by the second illumination source 109, for example, three brightness adjustments of the first brightness, the second brightness, and the third brightness.

In another embodiment, the switch 110 is further connected to the first illumination source 101 and the controller 104, for controlling the first illumination source 101 to be turned off after the controller controls the first illumination source 101 to emit light. The switch 110 controls the first illumination light source 101 to be turned off in a different manner from the second illumination light source 109.

In another embodiment, referring to fig. 1 to 6, the mobile lighting device includes a mobile lighting device body 1 and a charging base 2. The mobile lighting device body 1 and the charging base 2 are connected by means of a buckle or a magnetic attraction, wherein the mobile lighting device body 1 comprises a discharging interface 1081, a switch 110, a display module 105, a first lighting source 101, a light induction module 102, a human body induction module 103, a third lighting source 109, a battery module 107, a controller and the like. The charging base 2 includes a plug 201 and a charging contact 202, and may further include other components such as a charging circuit.

In this embodiment, the mobile lighting device body 1 is a flashlight, the battery module 107 is a rechargeable battery, and the working principle of the mobile lighting device when the mobile lighting device body 1 and the charging base 2 are connected is as follows: the charging base 2 is inserted into a wall socket, the flashlight is placed on the charging base, and the rechargeable battery in the flashlight is charged until the flashlight is fully charged. The first illumination source 101 is normally operated at this time, the first illumination source 101 can be divided into manual control and automatic control, and the switch 110 on the flashlight can realize manual control to turn on and off the first illumination source 101. Meanwhile, the flashlight is provided with the light sensing module 102 and the human body sensing module 103, and the first illumination light source 101 can be automatically turned on and off through the light sensing module 102, the human body sensing module 103 and the controller 104. The specific principle is as follows: when the brightness of the environment reaches a set value, the human body induction module 103 starts to work, the first illumination light source 101 is turned on by triggering the human body inductor, meanwhile, the second illumination light source emits light, and the first illumination light source 101 is automatically turned off after a period of time. The third illumination source 109 on the flashlight can be turned on and off and adjusted in brightness through the switch 110, and the flashlight can be used as a power source to charge other devices through the discharge interface 1081.

The flashlight and the charging base in the device can be separated for use, and the flashlight can be placed at any position to realize the functions by itself or through a fixing device in a separated state. The working principle at this time is as follows: the first illumination source 101 is normally operated at this time, the first illumination source 101 can be divided into manual control and automatic control, and the switch 110 on the flashlight can realize manual control to turn on and off the first illumination source 101. Meanwhile, the flashlight is provided with the light sensing module 102 and the human body sensing module 103, and the first illumination light source 101 can be automatically turned on and off through the light sensing module 102, the human body sensing module 103 and the controller 104. The specific principle is as follows: when the brightness of the environment reaches a set value, the human body induction module 103 starts to work, the first illumination light source 101 is turned on by triggering the human body inductor, meanwhile, the second illumination light source emits light, and the first illumination light source 101 is automatically turned off after a period of time. The third illumination source 109 on the flashlight can be turned on and off and adjusted in brightness through the switch 110, and the flashlight can be used as a power source to charge other devices through the discharge interface 1081.

This mobile lighting device body 1 can act as emergent treasured that charges, can have the human body automatic luminescence according to ambient brightness and under the mobile lighting device body 1 and the base break away from the state, can also fix in any position through magnetism or paste simultaneously. The time can be displayed through the display module, the time can be displayed through the display module at night, and devices such as a mobile phone and the like with strong light to stimulate eyes do not need to be opened; compared with wired mobile lighting equipment, the device has better use experience, realizes the lighting function by directly inserting the product into the wall socket, does not need an external power line, and is attractive and saves space.

It should be noted that "first" and "second" in the embodiments of the present disclosure are merely for convenience of description and distinction, and have no other specific meaning.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This disclosure is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (11)

1. A mobile lighting device, comprising: a mobile lighting device body, the mobile lighting device body comprising:

a first illumination light source;

the light sensing module is used for detecting the ambient brightness of the external environment where the mobile lighting equipment is located;

the human body induction module is used for detecting whether a human body exists in a space meeting a preset position relation with the mobile lighting equipment body;

the controller is respectively connected with the light sensor, the human body sensor and the first lighting light source and used for controlling the first lighting light source to emit light when the ambient brightness detected by the light sensor is lower than a preset threshold value and the human body sensor detects a human body in a space meeting a preset position relation with the lighting equipment.

2. Mobile lighting device as defined in claim 1,

the controller is further configured to generate a first control signal for controlling the human body sensing module to start detecting whether a human body is in the space when the ambient brightness detected by the light sensing module gradually decreases and is lower than the preset threshold; the human body induction module starts to detect whether a human body exists in the space or not according to the first control signal;

the controller is further configured to generate a second control signal for controlling the human body sensing module to stop detecting whether a human body is in the space or not when the ambient brightness detected by the light sensing module gradually increases and is higher than the preset threshold; and the human body induction module stops detecting whether a human body exists in the space or not according to the second control signal.

3. The mobile lighting device of claim 1, wherein the mobile lighting device body further comprises:

and the display module is connected with the controller and at least used for displaying the time information.

4. The mobile lighting apparatus of claim 3, wherein the display module is a reflective liquid crystal display module;

the mobile lighting device body further comprises:

the second illumination light source is arranged adjacent to the display module, connected with the controller and used for providing illumination for the display module after the first illumination light source emits light, so that the display module can reflect the illumination and then display the time information;

the controller is further used for controlling the second illumination light source to emit light after the first illumination light source is controlled to emit light.

5. The mobile lighting device of claim 1, wherein the mobile lighting device body further comprises:

the charging module comprises a charging interface and a charging circuit;

the battery module is connected with the charging interface through the charging circuit, is connected with the first illumination light source and is used for providing electric energy required by illumination for the first illumination light source;

the discharge module is provided with a discharge interface and a discharge circuit;

the discharging interface is connected with the battery module through the discharging circuit, and releases electric energy stored by the battery module to a powered device after the discharging interface is connected with the powered device.

6. The mobile lighting device of claim 5, further comprising: the charging base charges the battery module when the relative position between the charging base and the mobile lighting equipment body is a preset position; wherein, the base that charges includes: and the plug is positioned on the charging base and used for connecting the charging base with the charging socket.

7. The mobile lighting device, as set forth in claim 6, wherein the charging base further comprises:

a first charging contact electrically connected with the plug;

the mobile lighting equipment body is provided with a second charging contact and is electrically connected with the charging interface;

the preset positions are as follows: a position where the first charging contact and the second charging contact are in contact.

8. The mobile lighting device, as set forth in claim 6, wherein the charging base further comprises:

the first wireless charging coil is used for transmitting a wireless charging signal;

the module of charging still includes:

and the second wireless charging coil is electrically connected with the charging circuit through the charging circuit and used for receiving the wireless charging signal.

9. The mobile lighting device of claim 6, wherein the mobile lighting device body further comprises:

the fixing module is used for fixing the mobile lighting equipment at a target position after the mobile lighting equipment is separated from the charging base; wherein, fixed module includes sucking disc or magnet.

10. The mobile lighting device of claim 1, wherein the mobile lighting device body further comprises:

a second illumination light source having an illumination distance greater than an illumination distance of the first illumination light source, and/or having a luminance greater than a luminance of the first illumination light source.

11. The mobile lighting device of claim 10, wherein the mobile lighting device body further comprises: and the switch is connected with the second illumination light source and is used for controlling whether the second illumination light source emits light or not.

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