CN216046990U - Emergency flashlight using magnesium battery - Google Patents

Abstract

The utility model relates to an emergency flashlight using a magnesium battery. The technical scheme is as follows: LED banks spare, reflector and condensing lens are installed to flashlight body shell one end, and the other end is equipped with the inlet opening, the middle part inner chamber of flashlight body shell install high sticky bubble cotton, anodal conductive copper sheet, magnesium battery and negative pole conductive copper sheet in proper order, be equipped with battery compartment lid at the top of flashlight body shell the bottom of flashlight body shell post label paper, be equipped with the switch in one side of flashlight body shell. The beneficial effects are that: the magnesium battery has the characteristic of gradually expanding and thickening when meeting water, so that the thickness of the inner cavity of the main body shell of the flashlight is larger than the thickness of the magnesium battery and the thickness of accessories, and the deformation of the main body shell of the flashlight is avoided; the portable water storage device is simple in structure, attractive and elegant, small in size, convenient to carry and store, free of wet water in use, long in storage period, energy-saving, environment-friendly and relatively low in use cost.

Description

Emergency flashlight using magnesium battery

Technical Field

The utility model relates to a magnesium battery illuminating lamp, in particular to an emergency flashlight using a magnesium battery.

Background

In emergency rescue, the lighting device plays an important role. Especially under the condition that light is not enough at night, the condition that the injury is stranded appears very easily, in case meet danger, then need to ask for help to the rescue team, the illumination lamp is indispensable when the rescue personnel work at night. However, at present, most emergency lighting lamps in the market adopt a conventional rechargeable lithium battery or a disposable dry battery, and the batteries have the problems of short endurance time, short storage time and poor waterproof performance, and particularly under the condition of flood, the conventional rechargeable lithium batteries in the market cannot meet the requirements, are easy to short-circuit and catch fire or even explode, and the situation of no electricity and availability can occur after the disposable dry battery is quickly used up.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provides an emergency flashlight using a magnesium battery, which is attractive in appearance, light in weight, convenient to carry and store, simple to use, stable and reliable in performance and high in brightness.

The utility model provides an emergency flashlight using a magnesium battery, which has the technical scheme that: comprises a flashlight body shell (1), a battery compartment cover (2), a reflector (3), a condenser (4), an LED lamp assembly (5), a switch (6), a conducting wire (7), a positive conducting copper sheet (8), a negative conducting copper sheet (9), high-viscosity foam cotton (10), a magnesium battery (11) and label paper (12), one end of the flashlight body shell (1) is provided with an LED lamp component (5), a reflecting shade (3) and a condenser (4), the other end is provided with a water inlet hole (1.2), the middle inner cavity of the flashlight body shell (1) is sequentially provided with high-viscosity foam (10), a positive electrode conductive copper sheet (8), a magnesium battery (11) and a negative electrode conductive copper sheet (9), the portable flashlight is characterized in that a battery compartment cover (2) is arranged at the top of a main body shell (1) of the portable flashlight, label paper (12) is attached to the bottom of the main body shell (1) of the portable flashlight, and a switch (6) is arranged on one side of the main body shell (1) of the portable flashlight.

Preferably, the LED lamp assembly (5) is installed in the reflector (3), the conducting wire (7) is welded, the switch (6) is connected through the conducting wire (7), and the switch is respectively connected to the positive electrode conducting copper sheet (8) and the negative electrode conducting copper sheet (9) of the magnesium battery (11) through the conducting wires.

Preferably, the two sides of the flashlight body shell (1) are provided with clamping grooves (1.1), and the rear end of the flashlight body shell (1) is provided with a water inlet hole (1.2); the battery compartment cover (2) is provided with two sides with extending buckle tongues (2.1) respectively, and the buckle tongues (2.1) are matched and movably connected with the clamping grooves (1.1) on the two sides of the flashlight body shell (1).

Preferably, above-mentioned LED banks spare (5) include subassembly base (5.1) and LED lamp pearl (5.2), one side surface of subassembly base (5.1) is equipped with a plurality of LED lamp pearls (5.2), and opposite side welding electrically conductive wire (7), and through electrically conductive wire (7) linked switch (6).

Preferably, foretell reflector (3) include reflector base (3.1), the arc cover body (3.2), lamp pearl hole (3.3), reflector buckle (3.4), one side of reflector base (3.1) be equipped with the arc cover body (3.2), the bottom of the arc cover body (3.2) is equipped with a plurality of lamp pearl holes (3.3) for cooperate with a plurality of LED lamp pearls (5.2) of LED banks spare (5) the arc cover body (3.2) bottom be equipped with reflector buckle (3.4).

Preferably, foretell condensing lens (4) include condensing lens base (4.1), condensing lens (4.2), side buckle (4.3), condensing lens base (4.1) is the rectangle structure, is equipped with a plurality of condensing lens (4.2) at the middle part of condensing lens base (4.1), and the position is corresponding with a plurality of LED lamp pearls (5.2) respectively, the both sides of condensing lens base (4.1) are equipped with side buckle (4.3) respectively.

Preferably, the sum of the thicknesses of the high-viscosity foam (10), the positive electrode conductive copper sheet (8), the magnesium battery (11) and the negative electrode conductive copper sheet (9) in the inner cavity of the flashlight body shell (1) is less than the thickness of the inner cavity of the flashlight body shell (1).

The utility model has the beneficial effects that: because the magnesium battery adopted by the utility model has the characteristic of gradually expanding and thickening when meeting water in the using process, the thickness of the inner cavity of the main body shell of the flashlight is larger than the thickness of the magnesium battery and accessories, so that the deformation of the main body shell of the flashlight is avoided; in addition, the magnesium battery is arranged in the battery bin with the positive electrode facing downwards so as to be attached to the positive electrode conductive copper sheet on the high-viscosity foam to enable the positive electrode conductive copper sheet to be in close contact with the high-viscosity foam, and therefore the purpose of conduction is achieved; because the cathode of the magnesium battery is sticky conductive adhesive, the cathode conductive copper sheet can be adhered to the cathode conductive copper sheet, so that the purpose of close contact and stable conduction is achieved; in a word, the portable solar water heater has the advantages of simple structure, attractive appearance, small volume, light weight, convenience in carrying and storage, no need of wet water in use, simplicity in use, stable and reliable performance, long endurance energy, longer storage period, energy conservation, environmental friendliness and relatively low use cost.

Drawings

FIG. 1 is a schematic view of a fan-out configuration of the present invention;

FIG. 2 is a schematic view of the structure of the main body case of the flashlight;

FIG. 3 is a side view of the flashlight body housing;

FIG. 4 is a perspective view of a battery compartment cover;

FIG. 5 is a top view of the battery compartment cover;

FIG. 6 is a side view of the battery compartment cover;

FIG. 7 is a perspective view of a reflector;

FIG. 8 is a top view of the reflector;

FIG. 9 is a schematic front view of a reflector;

FIG. 10 is a right side view of the reflector;

FIG. 11 is a schematic perspective view of a condenser lens;

FIG. 12 is a schematic front view of a condenser lens;

FIG. 13 is a right side view of the collection optic;

FIG. 14 is a perspective view of an LED lamp assembly;

in the upper diagram: a main body shell 1 of the flashlight, a battery compartment cover 2, a reflecting shade 3, a condenser 4, an LED lamp assembly 5, a switch 6, a conducting wire 7, a positive conducting copper sheet 8, a negative conducting copper sheet 9, high-viscosity foam 10, a magnesium battery 11 and label paper 12,

draw-in groove 1.1, inlet opening 1.2 detain tongue 2.1, side buckle 2.2, back buckle 2.3, reflector base 3.1, the arc cover body 3.2, lamp pearl hole 3.3, reflector buckle 3.4, condensing lens base 4.1, condensing lens 4.2, side buckle 4.3.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Embodiment 1, referring to fig. 1, the emergency flashlight using a magnesium battery provided by the utility model comprises a flashlight body shell 1, a battery compartment cover 2, a reflector 3, a condenser 4, an LED lamp assembly 5, a switch 6, a conducting wire 7, a positive electrode conductive copper sheet 8, a negative electrode conductive copper sheet 9, high-viscosity foam 10, a magnesium battery 11 and label paper 12, wherein the LED lamp assembly 5, the reflector 3 and the condenser 4 are installed at one end of the flashlight body shell 1, a water inlet hole 1.2 is formed in the other end of the flashlight body shell, the high-viscosity foam 10, the positive electrode conductive copper sheet 8, the magnesium battery 11 and the negative electrode conductive copper sheet 9 are sequentially installed in an inner cavity in the middle of the flashlight body shell 1, the battery compartment cover 2 is arranged at the top of the flashlight body shell 1, the label paper 12 is attached to the bottom of the flashlight body shell 1, and the switch 6 is arranged on one side of the flashlight body shell 1.

The LED lamp assembly 5 is installed in the reflector 3, the conducting wire 7 is welded, the switch 6 is connected through the conducting wire 7, and the switch is respectively connected to the positive conductive copper sheet 8 and the negative conductive copper sheet 9 of the magnesium battery 11 through the conducting wires.

Referring to fig. 2-3, the flashlight body shell 1 of the utility model is provided with clamping grooves 1.1 at two sides, and the flashlight body shell 1 is provided with a water inlet hole 1.2 at the rear end thereof for allowing water to enter the inner cavity of the flashlight body shell 1 to react with the magnesium battery, thereby generating current to light the LED lamp beads.

Referring to fig. 4-6, two sides of the battery compartment cover 2 of the utility model are respectively provided with a protruding buckle tongue 2.1, and the buckle tongue 2.1 is matched and movably connected with the clamping grooves 1.1 at two sides of the flashlight body shell 1; the rear end of the battery compartment cover 2 is also provided with a rear buckle 2.3, and two sides of the battery compartment cover 2 are provided with side buckles 2.2.

Referring to fig. 14, the LED lamp assembly 5 includes an assembly base 5.1 and LED lamp beads 5.2, a plurality of LED lamp beads 5.2 are disposed on a surface of one side of the assembly base 5.1, and a conductive wire 7 is welded to the other side of the assembly base and connected to a switch 6 through the conductive wire 7.

Referring to fig. 7-10, the reflector 3 of the present invention includes a reflector base 3.1, an arc-shaped cover 3.2, lamp bead holes 3.3, and a reflector buckle 3.4, wherein one side of the reflector base 3.1 is provided with the arc-shaped cover 3.2, the bottom of the arc-shaped cover 3.2 is provided with a plurality of lamp bead holes 3.3 for matching with a plurality of LED lamp beads 5.2 of an LED lamp assembly 5, and the bottom of the arc-shaped cover 3.2 is provided with the reflector buckle 3.4.

Referring to fig. 11-13, the condenser 4 of the present invention includes a condenser base 4.1, condenser lenses 4.2, and side fasteners 4.3, wherein the condenser base 4.1 is a rectangular structure, a plurality of condenser lenses 4.2 are disposed in the middle of the condenser base 4.1, the positions of the condenser lenses correspond to the plurality of LED lamp beads 5.2, and the sides of the condenser base 4.1 are respectively provided with the side fasteners 4.3.

Preferably, the sum of the thicknesses of the high-viscosity foam 10, the positive conductive copper sheet 8, the magnesium battery 11 and the negative conductive copper sheet 9 in the inner cavity of the main body shell 1 of the flashlight is less than the thickness of the inner cavity of the main body shell 1 of the flashlight.

In the present invention, since the magnesium battery 11 has a characteristic of gradually expanding and thickening during use, it is impossible to mount a connection circuit in the same manner as in a general battery. The specific method is that the magnesium battery 11 is arranged in the battery compartment with the positive electrode facing downwards so as to be attached to the positive electrode conductive copper sheet 8 on the high-viscosity foam 10 to be in close contact with the high-viscosity foam, thereby achieving the purpose of conduction. Because the cathode of the magnesium battery 11 is sticky conductive adhesive, the cathode conductive copper sheet 9 can be adhered to the cathode conductive copper sheet, so that the purpose of close contact and stable conduction is achieved.

Embodiment 2, the emergency flashlight using the magnesium battery provided by the utility model comprises a flashlight body shell 1, a battery compartment cover 2, a reflector 3, a condenser 4, an LED lamp assembly 5, a switch 6, a conductive wire 7, a positive conductive copper sheet 8, a negative conductive copper sheet 9, high-viscosity foam 10, a magnesium battery 11, and label paper 12,

the portable flashlight comprises a portable flashlight body shell 1, a battery compartment cover 2, a reflector 3, a condenser 4, an LED lamp assembly 5, a switch 6, a conducting wire 7, an anode conducting copper sheet 8, a cathode conducting copper sheet 9, high-viscosity foam 10, a magnesium battery 11 and label paper 12, wherein the LED lamp assembly 5, the reflector 3 and the condenser 4 are installed at one end of the portable flashlight body shell 1, a water inlet hole 1.2 is formed in the other end of the portable flashlight body shell, the high-viscosity foam 10, the anode conducting copper sheet 8, the magnesium battery 11 and the cathode conducting copper sheet 9 are sequentially installed in a middle inner cavity of the portable flashlight body shell 1, the battery compartment cover 2 is arranged at the top of the portable flashlight body shell 1, the label paper 12 is attached to the bottom of the portable flashlight body shell 1, and the switch 6 is arranged on one side of the portable flashlight body shell 1.

The LED lamp assembly 5 is installed in the reflector 3, the conducting wire 7 is welded, the switch 6 is connected through the conducting wire 7, and the switch is respectively connected to the positive conductive copper sheet 8 and the negative conductive copper sheet 9 of the magnesium battery 11 through the conducting wires.

The difference from the embodiment 1 is that: the LED lamp assembly 5 is manufactured by welding and fixing 3 LED lamp beads on a circuit board, connecting and welding the LED lamp beads in a series mode, and finally welding the LED lamp beads on a positive electrode and a negative electrode respectively on a conducting wire 7 to introduce current.

According to the LED lamp control circuit, the LED lamp assembly 5 is used as a load, the switch 6 is used as a control element, the magnesium battery 11 is used as a power supply, and the LED lamp control circuit is connected through the conducting wire 7, so that a simple circuit system is formed, excessive electronic elements are not needed, the relative failure rate is low, and the performance stability of the LED lamp control circuit can be guaranteed.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solution described above. Therefore, any simple modifications or equivalent changes made according to the technical solution of the present invention shall fall within the scope of the present invention as claimed.

Claims (7)

1. An emergency flashlight using a magnesium battery is characterized in that: comprises a flashlight body shell (1), a battery compartment cover (2), a reflector (3), a condenser (4), an LED lamp assembly (5), a switch (6), a conducting wire (7), a positive conducting copper sheet (8), a negative conducting copper sheet (9), high-viscosity foam cotton (10), a magnesium battery (11) and label paper (12), one end of the flashlight body shell (1) is provided with an LED lamp component (5), a reflecting shade (3) and a condenser (4), the other end is provided with a water inlet hole (1.2), the middle inner cavity of the flashlight body shell (1) is sequentially provided with high-viscosity foam (10), a positive electrode conductive copper sheet (8), a magnesium battery (11) and a negative electrode conductive copper sheet (9), the portable flashlight is characterized in that a battery compartment cover (2) is arranged at the top of a main body shell (1) of the portable flashlight, label paper (12) is attached to the bottom of the main body shell (1) of the portable flashlight, and a switch (6) is arranged on one side of the main body shell (1) of the portable flashlight.

2. The emergency flashlight of claim 1, wherein the emergency flashlight comprises a magnesium battery, and further comprises: the LED lamp assembly (5) is installed in the reflecting cover (3), the conducting wire (7) is welded, the LED lamp assembly is connected with the switch (6) through the conducting wire (7), and the switch is respectively connected with the positive electrode conducting copper sheet (8) and the negative electrode conducting copper sheet (9) of the magnesium battery (11) through the conducting wires.

3. The emergency flashlight of claim 1, wherein the emergency flashlight comprises a magnesium battery, and further comprises: clamping grooves (1.1) are formed in two sides of the flashlight body shell (1), and a water inlet hole (1.2) is formed in the rear end of the flashlight body shell (1); the battery compartment cover (2) is provided with two sides with extending buckle tongues (2.1) respectively, and the buckle tongues (2.1) are matched and movably connected with the clamping grooves (1.1) on the two sides of the flashlight body shell (1).

4. The emergency flashlight of claim 2, wherein the emergency flashlight comprises a magnesium battery, and further comprises: LED banks spare (5) including subassembly base (5.1) and LED lamp pearl (5.2), a side surface of subassembly base (5.1) is equipped with a plurality of LED lamp pearls (5.2), opposite side welding conductor wire (7), and through conductor wire (7) linked switch (6).

5. The emergency flashlight of claim 4, wherein the emergency flashlight comprises a magnesium battery, and further comprises: the LED lamp is characterized in that the reflector (3) comprises a reflector base (3.1), an arc-shaped cover body (3.2), lamp bead holes (3.3) and a reflector buckle (3.4), the arc-shaped cover body (3.2) is arranged on one side of the reflector base (3.1), a plurality of lamp bead holes (3.3) are formed in the bottom of the arc-shaped cover body (3.2) and used for being matched with a plurality of LED lamp beads (5.2) of the LED lamp assembly (5), and the reflector buckle (3.4) is arranged at the bottom of the arc-shaped cover body (3.2).

6. The emergency flashlight of claim 5, wherein the emergency flashlight comprises a magnesium battery, and further comprises: condensing lens (4) include condensing lens base (4.1), condensing lens (4.2), side buckle (4.3), condensing lens base (4.1) is the rectangle structure, is equipped with a plurality of condensing lens (4.2) at the middle part of condensing lens base (4.1), and the position is corresponding with a plurality of LED lamp pearls (5.2) respectively, the both sides of condensing lens base (4.1) are equipped with side buckle (4.3) respectively.

7. The emergency flashlight of claim 1, wherein the emergency flashlight comprises a magnesium battery, and further comprises: the thickness sum of the high-viscosity foam (10), the positive electrode conductive copper sheet (8), the magnesium battery (11) and the negative electrode conductive copper sheet (9) in the inner cavity of the flashlight body shell (1) is smaller than the thickness of the inner cavity of the flashlight body shell (1).

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