CN215419630U - Multifunctional device with functions of mobile power supply and flashlight - Google Patents

Multifunctional device with functions of mobile power supply and flashlight Download PDF

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Publication number
CN215419630U
CN215419630U CN202120636501.4U CN202120636501U CN215419630U CN 215419630 U CN215419630 U CN 215419630U CN 202120636501 U CN202120636501 U CN 202120636501U CN 215419630 U CN215419630 U CN 215419630U
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China
Prior art keywords
flashlight
power supply
panel
accommodating groove
energy storage
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Active
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CN202120636501.4U
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Chinese (zh)
Inventor
彭奕雅
张霆
钟火荣
郑宇淳
王大慰
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Shenzhen Wanchen New Energy Co.,Ltd.
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Vantop Technology & Innovation Co ltd
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Priority to CN202120636501.4U priority Critical patent/CN215419630U/en
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Abstract

The utility model relates to a multifunctional device with functions of a mobile power supply and a flashlight, which comprises: the flashlight comprises an energy storage power supply and a flashlight body, wherein an operating area and a hand capacitor accommodating groove located on one side of the operating area are formed in a shell of the energy storage power supply, the flashlight body is provided with a built-in rechargeable battery, the flashlight body is specified in a flashlight accommodating groove in a magnetic adsorption mode, a first charging interface for charging the flashlight body is arranged in the hand capacitor accommodating groove, and a luminous area is arranged on one side surface of the flashlight body, back to the energy storage power supply. When the portable power source function is only needed, the flashlight can be removed from the energy storage power source, and the portable flashlight is only carried with the energy storage power source, so that the weight is reduced, and the portability is improved. When the lighting function of the flashlight is only needed to be used, the flashlight is removed from the energy storage power supply, and the flashlight can be conveniently carried to a use occasion.

Description

Multifunctional device with functions of mobile power supply and flashlight
Technical Field
The utility model relates to the technical field of mobile power supplies, in particular to a multifunctional device with functions of a mobile power supply and a flashlight.
Background
In the portable energy storage product with the illumination function at present, the lamp for realizing illumination purposes is embedded, the angle is not adjustable, and the lamp cannot be detached, and if a lamp part is needed to be used, the whole energy storage product still needs to be held by hand. However, as the capacity of portable energy storage products is increased, the quality of the products is increased, and the portability of the products is reduced. In addition, the power supply mode of the lamp is from a lithium battery of the inverter part. The power supply mode of the product depends on the electric quantity of the whole host, namely, when the lithium battery of the product is not electrified, the lighting function of the lamp cannot be used.
As shown in fig. 1, the flashlight with the mobile power supply function has better portability, but has a single function, which limits the application. The light exit location is usually at the top of the product (right end in the figure) and does not have the atmosphere lamp function. This results in that few people carry such a flashlight alone, since there are many alternative lighting solutions, e.g. a cell phone also has a lighting function. Secondly, the charging mode of the flashlight is charging through a Type-C interface or a Micro-USB interface, and the charging mode has limitations.
In the prior art, the application scenes of the energy storage power supply are limited.
SUMMERY OF THE UTILITY MODEL
Therefore, it is necessary to provide a multifunctional device with the functions of a portable power source and a flashlight, aiming at the problem of inconvenient use of the device with the functions of the portable power source and the flashlight in the prior art.
A multifunctional device with functions of a mobile power supply and a flashlight comprises: the energy storage power supply comprises an outer shell, a battery module is arranged in the outer shell, the outer shell is provided with a front end face, an operation area and a flashlight accommodating groove located on one side of the operation area are arranged on the front end face, a power supply interface is arranged in the operation area, and a first flashlight charging interface electrically connected with the battery module is arranged in the flashlight accommodating groove; the flashlight comprises a rechargeable battery, the flashlight is accommodated in the flashlight accommodating groove, the flashlight is provided with a second manual charging interface electrically connected with the rechargeable battery, the second manual charging interface is electrically connected with the first manual charging interface, and a light emitting area is arranged on the surface of one side of the flashlight, which is back to the energy storage power supply.
In the multifunctional device, the flashlight can be removed from the energy storage power supply, and the flashlight can still execute the lighting function after the flashlight is removed from the energy storage power supply because the flashlight is provided with the built-in battery. When only the function of the mobile power supply is needed, the flashlight can be removed from the energy storage power supply, and the energy storage power supply is only carried, so that the weight is reduced, and the portability is improved. When the lighting function of the flashlight is only needed to be used, the flashlight is removed from the energy storage power supply, and the flashlight can be conveniently carried to a use occasion. In addition, one side surface of the flashlight, which is back to the energy storage power supply, is provided with a luminous area, the luminous area is arranged at the end part, and the luminous area of the flashlight is more suitable for being used as an atmosphere lamp after providing a lighting function, so that the application scene of the flashlight is expanded. In addition, the flashlight can be installed on the energy storage power supply to perform the lighting function, and can be charged by the energy storage power supply, so that the lighting use of the flashlight is prolonged, and the lighting function of the flashlight can be conveniently operated in the operation area of the energy storage power supply.
In one embodiment, the flashlight is fixed to the flashlight accommodating groove in a magnetic adsorption mode.
In one embodiment, an avoiding opening communicated with one end of the flashlight accommodating groove is concavely arranged on the front end face.
In one embodiment, the shape of the flashlight accommodating groove is matched with the shape of the flashlight, the flashlight accommodating groove is rectangular, and at least one end of the bottom wall of the flashlight accommodating groove is provided with a groove.
In one embodiment, the flashlight is in a cuboid shape, the light emitting area and the second charging interface are respectively located on two opposite sides of the flashlight in the length direction, a charging and discharging interface is arranged at one end of the flashlight in the length direction, and the charging and discharging interface is connected with the rechargeable battery through a charging circuit.
In one embodiment, the light emitting area is rectangular.
In one embodiment, a first magnetic member with magnetic force is arranged in the housing, the first magnetic member is fixed on the outer wall of the accommodating groove of the hand capacitor, and the flashlight comprises a second magnetic member which is magnetically attracted with the first magnetic member.
In one embodiment, the light emitting region of the portion is covered by a handle that is hingedly attached to the housing, the handle having a first position and a second position relative to the housing, the first position wherein the handle is above the housing and the second position wherein the handle covers at least the light emitting region of the portion.
In one embodiment, the housing comprises a front panel, a middle panel, a rear panel, a left side panel and a right side panel which are detachably spliced to together enclose a receiving space, wherein the left side panel and the right side panel are arranged at intervals, the front panel, the middle panel and the rear panel are all positioned between the left side panel and the right side panel and supported on the left side panel and the right side panel, the front panel, the middle panel and the rear panel are sequentially arranged in the circumferential direction, the front panel forms a bottom wall of the housing, the front panel and the middle panel together form the front end face, the rear panel covers the middle panel to form the top of the housing, and the rear panel also simultaneously forms the rear end face of the housing; the operation area is arranged on the front panel, and the flashlight accommodating groove is arranged on the middle panel.
In one embodiment, a placement groove is formed in the middle panel, a wireless charging module is arranged in the placement groove, and the rear panel covers the wireless charging module.
In one embodiment, the flashlight accommodating groove is detachably mounted on the middle panel.
Drawings
Fig. 1 is a schematic structural diagram of a conventional flashlight with a portable power source function.
Fig. 2 is a schematic structural diagram of a multifunctional device according to an embodiment of the utility model.
Fig. 3 is a schematic structural diagram of an energy storage power source in a multifunctional device according to an embodiment of the utility model.
Fig. 4 and fig. 5 are schematic structural diagrams of the energy storage power supply shown in fig. 3 from different viewing angles when the rear panel is removed.
Fig. 6 and 7 are schematic structural diagrams of the flashlight in the multifunctional device at different viewing angles respectively.
The relevant elements in the figures are numbered correspondingly as follows:
100. a multifunctional device;
10. an energy storage power supply;
110. a housing; 101. a front end face; 1011. avoiding the mouth; 102. an operation area; 1021. a power supply interface; 1022. a control switch; 103. a flashlight accommodating groove; 104. heat dissipation holes; 112. a front panel; 113. a middle panel; 1131. a placing groove; 114. a rear panel; 115. a left side plate; 116. a right side plate;
120. a battery module;
130. a first charging interface;
140. a first magnetic member;
150. a handle;
160. a wireless charging module;
20. a flashlight; 210. a rechargeable battery;
220. a second charging interface; 230. a light emitting region; 240. a power switch; 250. a second magnetic member; 260. a charge and discharge interface.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.
In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the utility model and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the utility model.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.
It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.
The preferred embodiments of the present invention will be described below with reference to the accompanying drawings.
Referring to fig. 2, fig. 2 is a schematic structural diagram illustrating a multifunctional device 100 with a portable power source and a flashlight function according to an embodiment of the utility model. As shown in fig. 2 and 3, the multifunction device 100 includes an energy storage power source 10 and a flashlight 20 detachably mounted on the energy storage power source 10. As shown in fig. 3, the energy storage power supply 10 is shown in a configuration in which the flashlight 20 is removed from the energy storage power supply 10. As described in further detail below. The flashlight 20 of the embodiment can be removed from the energy storage power supply 10, when the flashlight 20 is installed on the energy storage power supply 10, illumination can be provided when the energy storage power supply 10 is used in a dark environment, and when the energy storage power supply 10 is not used, the flashlight 20 can be detached to be used as an independent illumination tool, so that the carrying is convenient, and the use range and the use scene are enlarged.
Referring to fig. 2, 3 and 5, the energy storage power supply 10 includes a housing 110, a battery module 120 is disposed in the housing 110, the battery module 120 is used for providing electric energy, the housing 110 is provided with a front end face 101, the front end face 101 is provided with an operation area 102 and a hand capacitor accommodating slot 103 located on one side of the operation area 102, a power supply interface 1021 is disposed in the operation area 102, and a first charging interface 130 electrically connected to the battery module 120 is disposed in the hand capacitor accommodating slot 103. The housing 110 further comprises a rear end face (not numbered) and left and right side faces (not numbered), wherein the rear end face and the left and right side faces are respectively provided with the heat dissipation holes 104, the two sides are respectively provided with the heat dissipation holes 104, air enters the housing 110 from one side and is taken away from heat generated by the energy storage power supply 10 from the other side, and the heat dissipation effect is better. In an example, the first charging interface 130 may be disposed inside the housing 110 and supported and fixed by a bracket, and the first charging interface 130 extends into the hand capacitor accommodating groove 103 from the bottom wall of the hand capacitor accommodating groove 103. The first charging interface 130 can be an elastic contact, so that when the flashlight 20 is placed in the flashlight receiving groove 103, the elastic contact can be in better contact with the second charging interface 220 (shown in fig. 6) of the flashlight 20, and the stability is better. In one example, the operation region 102 is located at a lower portion of the front end surface 101, and the hand capacitor accommodating groove 103 is located above the operation region 102. In an example, the upper portion and the lower portion of operation area 102 are the angle, and the upper portion slope of operation area 102 sets up, and flashlight holding tank 103 sets up in the upper portion of operation area 102 to not only for the illumination of operation area 102 lower part, the place that the light is darker of being convenient for charges the operation for waiting to charge the equipment, the flashlight of slope setting is luminous moreover makes the surrounding environment illuminating effect better. In other examples, the hand capacitor receiving slot 103 may also be located below, to the left, or to the right of the operating region 102.
A charging circuit is disposed in the housing 110 to charge the flashlight 20 through the first charging interface 130. An inverter circuit may be further disposed in the housing 110, and may convert the battery module 120 into an ac power output. The battery module 120 includes a battery or a battery pack of a plurality of batteries. The specific type of battery in the battery or battery pack is not limited, and may be a non-rechargeable battery, or may be a rechargeable battery (i.e., a secondary battery). The power supply interface 1021 in the operation area 102 is used for supplying the electric power of the battery module 120 to external electric devices for charging, such as a vehicle-mounted vacuum cleaner, a vehicle-mounted inflator, a blower, etc. The number of the power supply interfaces 1021 is at least one, and the type is not limited, for example, the power supply interfaces include a USB interface, a 12V power supply interface, and the like. The power supply interface 1021 may specifically be a male jack or a female jack. A control switch 1022 may be disposed in the operation area 102 for switching off the charging circuit or the inverter circuit. The operation area 102 may further be provided with an anti-theft warning light, which has a function of flashing light of the SOS light. The operation area 102 may also be provided with a display screen for displaying remaining power or prompting other operations. The shape of flashlight accommodation cavity 103 is specifically, but not limited to, a rectangle. The hand capacitor receiving groove 103 and the housing 110 can be designed in an integrated or split manner. The embodiment provides various interfaces which can be compatible with various devices and provide power for the various devices.
As shown in fig. 6 and 7, the flashlight 20 includes a rechargeable battery 210, i.e., the flashlight 20 itself has a rechargeable battery built in. The flashlight 20 is accommodated in the hand capacitor accommodating groove 103 and is fixed in the hand capacitor accommodating groove 103 through a magnetic attraction manner. The flashlight 20 is provided with a second charging interface 220 electrically connected with the rechargeable battery 210, the second charging interface 220 is electrically connected with the first charging interface 130, a light emitting area 230 is arranged on the surface of the flashlight 20, which is opposite to the energy storage power supply 10, and the light emitting area 230 is electrically connected with the rechargeable battery 210. The second charging interface 220 is used to connect to the first charging interface 130, so that the battery module 120 in the energy storage power source 10 can charge the rechargeable battery 210 in the flashlight 20. The rechargeable battery 210 itself serves as the power source for the light-emitting region 230. By the above means, the flashlight 20 can have a longer illumination time. Further, the flashlight 20 itself is provided with a power switch 240 for controlling the light emitting area 230 to open and close. The power switch 240 and the light emitting area 230 are disposed on the same side of the flashlight 20 for easy operation. The first charging interface 130 is a charging contact, and the second charging interface 220 is a conductive contact, but not limited thereto.
The flashlight 20 is magnetically attached to the hand capacitor receiving slot 103. In a specific arrangement, the flashlight 20 and the energy storage power source 10 may be provided with magnetic members respectively. Or, one of the flashlight 20 and the energy storage power supply 10 is provided with a magnetic member, and the other of the flashlight 20 and the energy storage power supply 10 is provided with a portion capable of being attracted to the magnetic member, for example, the energy storage power supply 10 is provided with a magnetic member, and an iron sheet is arranged in the flashlight 20 or the local surface of the flashlight 20 is made of iron. In one example, as shown in fig. 5 and 6, the first magnetic member 140 is disposed in the housing 110, and the flashlight 20 includes a second magnetic member 250, wherein the second magnetic member 250 can attract the first magnetic member 140. The first magnetic member 140 and the second magnetic member 250 may be both magnets or magnets. The flashlight 20 is fixed through magnetism after being placed in the hand capacitor accommodating groove 103 of the energy storage power supply 10, so that the flashlight 20 is prevented from falling from the hand capacitor accommodating groove 103 when the energy storage power supply 10 is moved, and the magnetic attraction mode is simple and practical. In some embodiments, the two ends of the hand capacitor receiving slot 103 may be provided with magnetic members with opposite polarities, and the corresponding positions of the flashlight 20 are provided with matching magnetic members, so as to automatically identify whether the direction of the flashlight 20 when being placed in the flashlight receiving slot 103 is correct, and if the direction is wrong, the magnetic members repel each other, and then the flashlight 20 can be placed in the hand capacitor receiving slot 103 after adjusting the direction.
The flashlight 20 is sized to fit within the flashlight receiving cavity 103. Preferably, the shape and size of the flashlight 20 are matched with the shape and size of the hand capacitor accommodating groove 103, so that the flashlight 20 just fills the hand capacitor accommodating groove 103 after being placed in the hand capacitor accommodating groove 103, and the height of the flashlight 20 protruding from the front end surface 101 is small. When the flashlight 20 is mounted in the flashlight receiving cavity 103 of the energy storage power source 10, the multifunctional device 100 occupies a small space and has a compact appearance.
In the multifunctional device 100, the flashlight 20 can be removed from the energy storage power source 10, and the flashlight 20 can still perform the illumination function after the flashlight 20 is removed from the energy storage power source 10 because the flashlight 20 has a built-in battery. When only the portable power source function is needed, the flashlight 20 can be removed from the energy storage power source 10, and only the energy storage power source 10 is carried, so that the weight is reduced, and the portability is improved. When only the lighting function of the flashlight 20 is needed, the flashlight 20 can be conveniently carried to the use location by removing the flashlight 20 from the energy storage power source 10. In addition, the light emitting region 230 is disposed on the surface of the flashlight 20 opposite to the energy storage power source 10, which is different from the prior art that the flashlight emits light from the top, and the light emitting region 230 of the present embodiment is disposed on the surface of the flashlight 20, so as to provide the lighting function, and be more suitable for being used as an atmosphere lamp, thereby expanding the application scenarios of the flashlight 20. And the illumination area is larger, and the illumination effect is better.
In addition, the flashlight 20 may be mounted on the energy storage power source 10 to perform the illumination function and may be charged by the energy storage power source 10, which prolongs the illumination use of the flashlight 20, and the flashlight 20 may also be conveniently operated on the energy storage power source 10. Specifically, the flashlight 20 has a light emitting region 230 on a surface facing away from the energy storage power source 10, and the light emitting region 230 can emit light in a direction away from the energy storage power source 10, so as to facilitate operation in the operation region 102. For example, when the vehicle inflator is connected to the operation area 102, the light emitting area 230 provides an illumination function to enable the operation area 102 to be clearly seen, thereby facilitating the connection operation of the connector by the user.
To facilitate removal of the flashlight 20 from the hand capacitor receiving slot 103, as shown in fig. 3, in one embodiment, an escape opening 1011 is recessed in the front end surface 101 and communicates with one end of the hand capacitor receiving slot 103. The specific shape of the avoiding opening 1011 is a semi-circle, but other shapes are also possible, such as a rectangle, a triangle, etc. The escape opening 1011 facilitates removal of the flashlight 20 from the hand capacitor receiving slot 103. Specifically, when the flashlight 20 needs to be taken out of the hand capacitor accommodating slot 103, a finger can be pulled out of the avoiding opening 1011 to buckle one end of the flashlight 20, so as to conveniently take out the flashlight 20.
To facilitate removal of the flashlight 20 from the flashlight receiving cavity 103, in another embodiment, at least one end of the bottom wall of the flashlight receiving cavity 103 is recessed. In an example, the shape of the flashlight accommodating groove 103 is matched with the shape of the flashlight 20, the hand capacitor accommodating groove 103 is rectangular, more specifically, rectangular, and one end or both ends of the bottom wall of the hand capacitor accommodating groove 103 are provided with grooves in the length direction of the hand capacitor accommodating groove 103. Thus, when the flashlight 20 is received in the hand capacitor receiving cavity 103, an escape area (i.e., the aforementioned recess) is provided below one end of the flashlight 20 to facilitate removal of the flashlight 20 from the hand capacitor receiving cavity 103. When the flashlight 20 needs to be taken out of the hand capacitor accommodating groove 103, one end of the flashlight 20 is pressed. The other end of the flashlight 20 will tilt upward, thereby facilitating removal of the flashlight 20.
In order to enrich the application scenarios of the flashlight 20, in an embodiment, as shown in fig. 6 and 7, the flashlight 20 is rectangular, the light emitting region 230 and the second charging interface 220 are located on two opposite sides of the flashlight 20 in the length direction, one end of the flashlight 20 in the length direction is provided with a charging and discharging interface 260, and the charging and discharging interface 260 is connected to the rechargeable battery 210 through a charging circuit. By the above means, after the flashlight 20 is installed in the hand capacitor accommodating slot 103, the second charging interface 220 is hidden and protected towards the inside of the hand capacitor accommodating slot 103, and the light emitting region 230 is towards the outside of the hand capacitor accommodating slot 103 so as to provide an illumination function conveniently; when the flashlight 20 is taken out of the hand capacitor storage slot 103, the charge-discharge interface 260 can be used for supplying power to an external device such as a mobile phone, so that the flashlight 20 also has the function of a charger.
In one embodiment, as shown in fig. 7, the light emitting region 230 is rectangular. Unlike the circular light emitting and top-mounted flashlight 20 of the prior art, in the present embodiment, the rectangular light emitting region 230 is used as a planar light source to emit light when emitting light, which is more suitable for being used as an atmosphere lamp besides having a lighting function.
Referring to fig. 5 and 6, in order to reliably attach and fix flashlight 20 in flashlight accommodating cavity 103, in an embodiment, first magnetic member 140 having magnetic force is disposed in housing 110, first magnetic member 140 is fixed to an outer wall of flashlight accommodating cavity 103, and flashlight 20 includes second magnetic member 250 having magnetic force. The first magnetic member 140 and the second magnetic member 250 may be both magnets or magnets. The second magnetic member 250 and the first magnetic member 140 are located correspondingly, that is, when the flashlight 20 is installed in the capacitance receiving slot 103, the second magnetic member 250 and the first magnetic member 140 are located in the magnetic field range of each other, and preferably, the second magnetic member 250 is just opposite to the first magnetic member 140. By providing the first and second magnetic members 140 and 250 having magnetic forces, respectively, the flashlight 20 can be reliably fixed in the flashlight receiving groove 103.
To facilitate carrying the multi-function device 100 or the energy storage power source 10 of the above-described embodiments, as shown in fig. 2, in one embodiment, the energy storage power source 10 further includes a handle 150 hinged to the housing 110.
In this embodiment, the handle 150 can rotate relative to the housing 110, and the handle 150 rotates to be above the housing 110 when in use, as shown in fig. 2, so as to facilitate holding. When the energy storage power supply 10 is stored, the handle 150 can be rotated to the front end face 101 of the housing 110 and is supported on the front end, and at the moment, the handle 150 is in a storage state, so that the volume occupied by the energy storage power supply 10 when the energy storage power supply 10 is stored can be reduced.
The first position of the handle 150 when the handle 150 is located above the housing 110 and the second position when the handle 150 is located in the storage state are defined. Further, in one embodiment, in the second position, the handle 150 covers at least the light emitting region 230 of the portion. That is, the handle 150 is located on the side of the light-emitting region 230 away from the flashlight accommodating cavity 103 and just covers the light-emitting region 230, so as to prevent the light-emitting region 230 from being exposed, and protect the light-emitting region 230. Preferably, in the second position, the handle 150 completely covers the light emitting region 230. Further, in the second position, the handle 150 completely covers the flashlight 20, protecting the entire flashlight 20.
To facilitate assembly of the stored energy power supply 10, the housing 110 is formed from multiple pieces that are joined together. In one embodiment, as shown in fig. 2 to 5, the housing 110 includes a front panel 112, a middle panel 113, a rear panel 114, a left side panel 115 and a right side panel 116, which together enclose a receiving space, and the battery module 120 and related circuits are located in the receiving space.
The left side plate 115 and the right side plate 116 are arranged at intervals and respectively form the left side and the right side of the shell 110, the front panel 112, the middle panel 113 and the rear panel 114 are all positioned between the left side and the right side plate 116, and the front panel 112, the middle panel 113 and the rear panel 114 are sequentially arranged in the circumferential direction. Wherein the front panel 112 forms a bottom wall of the housing 110, and the front panel 112 and the middle panel 113 together form the front end face 101. Referring to fig. 3 and 4, fig. 3 illustrates the rear panel 114 covering the middle panel 113 to form the top of the housing 110, and fig. 4 illustrates the rear panel 114 forming the rear surface of the housing 110, after the rear panel 114 is removed from the middle panel 113. In this embodiment, the operation area 102 is disposed on the front panel 112; the hand capacitor accommodating groove 103 is disposed on the middle panel 113, and the hand capacitor accommodating groove 103 and the middle panel 113 may be designed as an integral or split type. When the shell 110 is specifically arranged, the front panel 112, the middle panel 113 and the rear panel 114 are all supported on the left side plate 115 and the right side plate 116, and besides being butted with each other, the front panel 112, the middle panel 113 and the rear panel 114 can be connected in a buckling mode, so that the stability of the shell can be improved. The panels can be overlapped together during splicing, and a sealing structure can be arranged between the adjacent panels, so that the energy storage power supply 10 has a good waterproof function.
In the above embodiment, the housing 110 is formed by splicing, and various components inside the housing 110 are easily arranged. For example, the rear panel 114 may be assembled after the battery module 120, the first magnetic member 140, and the like are mounted in the receiving space without assembling the rear panel 114. In addition, the housing 110 is formed by splicing a plurality of panels, and when one of the panels is accidentally damaged, only one of the panels can be replaced. And, one of the panels may be replaced as needed to change the structural layout of the housing 110. For example, the front panel 112 may be replaced, so as to change the layout of the power supply interface 1021 on the front panel 112, and expand the application scenarios of the energy storage power supply 10.
Further, in order to expand the application range of the energy storage power supply 10, as shown in fig. 3 and 4, in an embodiment, the rear panel 114 is bent near the upper end. The middle panel 113 is provided with a placement groove 1131, the wireless charging module 160 is arranged in the placement groove 1131, and the upper end part of the rear panel 114 covers the wireless charging module 160. The wireless charging module 160 is electrically connected to the battery module 120 for wirelessly charging an external device, such as a mobile phone, thereby enriching the functions of the energy storage power supply 10.
In this embodiment, the rear panel 114 is used to cover the wireless charging module 160, on one hand, the rear panel 114 can protect the wireless charging module 160, and on the other hand, the upper end portion of the rear panel 114 can be used as a placement area for external devices, so as to prevent the external devices from being directly placed on the wireless charging module 160 to crush the wireless charging module 160. Also, the protective structure of the wireless charging module 160 can be formed at the same time as the case 110 is assembled.
Further, in order to increase the convenience of the multifunctional device 100, in one embodiment, the capacitance receiving slot 103 is detachably mounted on the middle panel 113. In specific implementation, the middle panel 113 may be opened with a notch, and the hand capacitor accommodating slot 103 is fixed in the notch of the middle panel 113. In this way, the hand capacitor receiving slots 103 of different sizes can be replaced as needed to better fit different sizes of flashlights 20.
The multifunctional apparatus 100 of the above embodiment of the present invention, the combination manner and the charging manner of the flashlight 20 and the energy storage power source 10 are different from those of the prior art, and the energy storage power source 10 and the flashlight 20 have more usage scenarios.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A multifunctional device with portable power source and flashlight functions, characterized in that includes:
the energy storage power supply comprises an outer shell, a battery module is arranged in the outer shell, the outer shell is provided with a front end face, an operation area and a flashlight accommodating groove located on one side of the operation area are arranged on the front end face, a power supply interface is arranged in the operation area, and a first flashlight charging interface electrically connected with the battery module is arranged in the flashlight accommodating groove;
the flashlight comprises a rechargeable battery, the flashlight is accommodated in the flashlight accommodating groove, the flashlight is provided with a second manual charging interface electrically connected with the rechargeable battery, the second manual charging interface is electrically connected with the first manual charging interface, and a light emitting area is arranged on the surface of one side of the flashlight, which is back to the energy storage power supply.
2. The multifunctional device with the functions of a mobile power supply and a flashlight of claim 1, wherein the flashlight is fixed in the flashlight accommodating groove in a magnetic adsorption manner.
3. The multifunctional device with the functions of a mobile power supply and a flashlight of claim 1, wherein an evasion port communicated with one end of the flashlight accommodating groove is concavely arranged on the front end surface.
4. The multifunctional device with the functions of a mobile power supply and a flashlight of claim 1, wherein the flashlight accommodating groove is shaped to match with the shape of the flashlight, the flashlight accommodating groove is rectangular, and at least one end of the bottom wall of the flashlight accommodating groove is provided with a groove.
5. The multifunctional device with the functions of the mobile power supply and the flashlight of claim 1, wherein the flashlight is rectangular, the light emitting area and the second charging interface are respectively located on two opposite sides of the flashlight in the length direction, a charging and discharging interface is arranged at one end of the flashlight in the length direction, and the charging and discharging interface is connected with the rechargeable battery through a charging circuit.
6. The multifunctional device with the functions of a mobile power supply and a flashlight of claim 2, wherein a first magnetic member with magnetic force is arranged in the housing, the first magnetic member is fixed on the outer wall of the hand capacitor accommodating groove, and the flashlight comprises a second magnetic member magnetically attracted with the first magnetic member.
7. The multi-function device with a mobile power supply and flashlight function of claim 1, further comprising a handle hingedly attached to said housing, said handle having a first position and a second position relative to said housing, said first position wherein said handle is above said housing and said second position wherein said handle covers at least said light emitting area of said portion.
8. The multifunctional device with the functions of a mobile power supply and a flashlight as claimed in claim 1, wherein the housing comprises a front panel, a middle panel, a rear panel, a left side panel and a right side panel, which are detachably connected to form a containing space together, wherein the left side panel and the right side panel are arranged at intervals, the front panel, the middle panel and the rear panel are all located between the left side panel and the right side panel and supported on the left side panel and the right side panel, the front panel, the middle panel and the rear panel are arranged in sequence in a circumferential direction, the front panel forms a bottom wall of the housing, the front panel and the middle panel together form the front end face, the rear panel covers the middle panel to form a top of the housing, and the rear panel also forms a rear end face of the housing; the operation area is arranged on the front panel, and the flashlight accommodating groove is arranged on the middle panel.
9. The multifunctional device with the functions of a mobile power supply and a flashlight of claim 8, wherein a placement groove is formed in the middle panel, a wireless charging module is arranged in the placement groove, and the rear panel covers the wireless charging module.
10. The multifunctional device with a portable power source and a flashlight function as claimed in claim 8, wherein said flashlight receiving groove is detachably mounted to said middle panel.
CN202120636501.4U 2021-03-29 2021-03-29 Multifunctional device with functions of mobile power supply and flashlight Active CN215419630U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202120636501.4U CN215419630U (en) 2021-03-29 2021-03-29 Multifunctional device with functions of mobile power supply and flashlight

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202120636501.4U CN215419630U (en) 2021-03-29 2021-03-29 Multifunctional device with functions of mobile power supply and flashlight

Publications (1)

Publication Number Publication Date
CN215419630U true CN215419630U (en) 2022-01-04

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202120636501.4U Active CN215419630U (en) 2021-03-29 2021-03-29 Multifunctional device with functions of mobile power supply and flashlight

Country Status (1)

Country Link
CN (1) CN215419630U (en)

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