WO2012079190A1 - Flashlight power supply - Google Patents

Abstract

A flashlight power supply includes a shell (1), a mobile phone battery (2) and a charger (3). The mobile phone battery and the charger are provided in the shell. The charger includes a plug (33), a charge circuit (34) and two metal contact strips (35) which the relative position can be adjust. The plug is connected with the input port of the charge circuit. The two metal contact strips are connect with the out port of the charge circuit, and connected to the positive and negative of the mobile phone charger respectively. The flashlight power supply can reduce resource waste and use cost.

Description

 Flashlight power supply

 The utility model relates to a flashlight power source suitable for a flashlight.

Background technique

 As a portable communication tool, mobile phones are now quite popular. Since the batteries used in different models of mobile phones are generally different, that is, a certain type of mobile phone battery is only suitable for one or a few types of mobile phones. Therefore, the mobile phone is damaged and updated, resulting in a large number of idle mobile phone batteries. , causing waste of resources, and once the mobile phone battery is discarded, it will seriously pollute the environment.

 In addition, most flashlights currently use dry batteries as the power source. Since the dry batteries are used once and are discarded after being exhausted, they will also seriously pollute the environment.

Summary of the invention

 The technical problem to be solved by the utility model is to provide a flashlight power supply, which is modified by using a mobile phone battery to achieve the purpose of fully utilizing idle resources and reducing environmental pollution. The technical solutions adopted are as follows:

 A flashlight power supply, comprising a casing, a mobile phone battery and a charger, the mobile phone battery and the charger are disposed in the casing; the charger comprises a plug, a charging circuit and two metal contacts adjustable in relative position, the plug is connected to the charging circuit Input port, two metal contacts are connected to the output port of the charging circuit; two metal contacts are respectively in contact with the positive and negative terminals of the mobile phone battery.

This charger with two metal contacts that are relatively positionally adjustable, commonly referred to as a universal charger, is commercially available. The specific structure is that the charger further includes a base and a clamp, the clamp and the plug are mounted on the base, and the charging circuit is disposed in the base. The rear ends of the two metal contacts can be rotatably mounted on the clamp, The front ends of the metal contacts are respectively in contact with the positive and negative electrodes of the mobile phone battery; the front end of the metal contacts generally has a forwardly extending contact and a downwardly extending contact. By turning one or two metal contacts, the distance between the front ends of the two metal contacts can be changed to match the positive polarity of the mobile phone battery used. The distance between the negative electrodes is matched, and then the mobile phone battery is fixed by the clamp, so that the two metal contacts are in close contact with the positive and negative poles of the mobile phone battery respectively; when the positive and negative electrodes are arranged on the side of the mobile phone battery, two forwards are available. Extended contacts; When the positive and negative terminals are placed on the upper surface of the mobile phone battery, two downwardly extending contacts are available, so most mobile phone batteries can be charged with this charger, that is, most mobile phone batteries Can be used for this flashlight power supply.

 The positive and negative electrodes of the above flashlight power source can be taken out from the positive and negative electrodes of the mobile phone battery, or can be taken out from two metal contacts.

 When the flashlight power supply is assembled into a flashlight, a switch and a light-emitting device are arranged on the casing, and the mobile phone battery, the switch and the light-emitting device are connected in series, or the mobile phone battery, a metal contact, a switch, a light-emitting device and another metal contact are connected in series. Into a loop. The above light emitting device may be a bulb or a light emitting diode. When you need to charge the mobile phone battery, turn off the switch, and connect the plug to the external power supply. When you need to use the flashlight to illuminate, close the switch, and the mobile phone battery supplies power to the light-emitting device to make the light-emitting device emit light.

 The utility model is transformed from the idle mobile phone battery, which can fully utilize idle resources, reduce resource waste, and reduce environmental pollution caused by mobile phone batteries; the mobile phone battery can be recharged after being exhausted, and the use cost is low; As a power source for the flashlight, it reduces the cost of dry batteries and reduces environmental pollution caused by dry batteries.

DRAWINGS

 1 is a schematic structural view of a preferred embodiment of the present invention;

 Figure 2 is a bottom view of the jig and the two metal contacts of Figure 1;

 Fig. 3 is a circuit diagram of the flashlight power supply of Fig. 1 and a flashlight using the flashlight power supply.

detailed description

 As shown in Fig. 1, the flashlight power supply includes a casing 1, a mobile phone battery 2, and a charger 3, and the mobile phone battery 2 and the charger 3 are disposed in the casing 1.

The charger 3 includes a base 31, a clamp 32, a plug 33, a charging circuit 34 and two metal contacts 35; the clamp 32 and the plug 33 are both mounted on the base 31, and the charging circuit 34 is disposed in the base 31; The rear ends 351 of the metal contacts 35 are rotatably mounted on On the clamp 32, the front ends of the metal contacts 35 are respectively in contact with the positive and negative electrodes of the mobile phone battery 2, and the front end of the metal contact 35 has a forwardly extending contact 352 and a downwardly extending contact 353, which is rotated by a metal touch. The sheet 35 can adjust the relative positions of the front ends of the two metal contacts 35 (ie, the relative positions between the two contacts 352 or between the two contacts 353); in order to facilitate the adjustment of the position of the metal contacts 35, the clamp 32 is provided There are two shifting forks 36. The two shifting forks 36 are in one-to-one correspondence with the two metal contacts 35. The rear end of the shifting fork 36 is rotatably mounted on the clamp 32 and its rotating shaft coincides with the rotating shaft of the metal contact piece 35. The shifting fork 36 The front end is inserted into the through hole 354 provided on the metal contact 35; referring to FIG. 3, the plug 33 is connected to the input port of the charging circuit 34, and the two metal contacts 35 are connected to the output port of the charging circuit 34; the clamp 32 is used for the mobile phone battery 2 fixed. Chargers of this construction are commonly referred to as universal chargers and are commercially available, and their structure will not be described in further detail herein.

 The positive and negative poles of the flashlight power supply are taken from two metal contacts 35 (also from the positive and negative terminals of the mobile phone battery 2).

 As shown in FIG. 3, when the flashlight power supply is assembled into a flashlight, the switch 4 and the light-emitting device 5 are disposed on the casing 1, the mobile phone battery 2, a metal contact 35, the switch 4, the light-emitting device 5, and another metal contact. 35 is connected in series to form a loop. The light emitting device 5 is a light emitting diode. Referring to Fig. 1, a through hole 6 is provided in the casing 1, and a light emitting device 5 can be mounted in the through hole 6. The switch 4 can be provided on the outer surface of the housing.

 When making the above flashlight power supply, according to the distance between the positive and negative poles of the mobile phone battery 2, one or two metal contacts 35 are rotated by the dial 36, so that the distance between the front ends of the two metal contacts 35 and the positive electrode of the mobile phone battery 2 used. The distance between the negative electrode and the negative electrode are matched, and the mobile phone battery 2 is fixed by the clamp 32, so that the front ends of the two metal contacts 35 are in close contact with the positive and negative electrodes of the mobile phone battery 2 respectively; when the positive and negative electrodes are disposed on the mobile phone battery 2 On the side, two forwardly extending contacts 352 can be respectively used to contact the positive and negative electrodes of the mobile phone battery 2; when the positive and negative electrodes are provided on the upper surface of the mobile phone battery 2, two downwardly extending contacts 353 can be used respectively with the mobile phone The positive electrode and the negative electrode of the battery 2 are in contact.

 When the mobile phone battery 2 needs to be charged, the switch 4 is disconnected, and the plug 33 is connected to an external power source; when the flashlight is required to be illuminated, the switch 4 is closed, and the mobile phone battery 2 supplies power to the light-emitting device 5 to cause the light-emitting device 5 to emit light.

Claims

 Claim

A flashlight power supply, comprising a casing, a mobile phone battery and a charger, wherein the mobile phone battery and the charger are disposed in the casing; the charger comprises a plug, a charging circuit and two metal contacts with adjustable relative positions, the plug connection The input port of the charging circuit, two metal contacts are connected to the output port of the charging circuit; the two metal contacts are respectively in contact with the positive and negative electrodes of the mobile phone battery.

 The flashlight power supply according to claim 1, wherein: the positive and negative electrodes of the flashlight power source are taken out from the positive and negative electrodes of the mobile phone battery.

 3. A flashlight power supply according to claim 1 wherein: the positive and negative poles of said flashlight power source are drawn from two metal contacts.