DE202013103736U1 - head headlights - Google Patents

Abstract

A headlamp comprising: a headband (3) and a lamp (2) mounted on the headband (3) in which a pluggable battery holder (1) is disposed having at least two battery receiving chambers in each of which a battery is to be installed; a positive conductive plate (7) and a negative conductive plate (10) are arranged, wherein at least one of the positive conductive plate (7) and the negative conductive plate (10) is a conductive plate having a spring contact, characterized in that the positive output (8) and the negative output (9) of the battery holder (1) are arranged at the same end; that all the positive conductive plates (7) at one end of the battery holder (1) and all the negative conductive plates (10) at the other end of the battery holder (1) are located; and that the positive and negative conductive plates in an adjacent battery receiving chamber end to end by a conductive element form a series circuit.

Description

Technical area

The utility model relates to a headlight, especially a headlight provided with a battery holder.

State of the art

Headlamp is an essential and indispensable outdoor activity equipment, e.g. Night walks, camping and equipment maintenance at night etc. require the use of a headlight. Headlights in the prior art are mostly powered by batteries, such as AAA batteries or 18650 columnar lithium batteries. The batteries realize power supply mostly to three in series connection. The three batteries are either inserted directly into a battery chamber of a lamp, or first in a battery holder (also called a battery box) installed, which is then installed in the battery compartment of the lamp. Compared with the structure for directly installing the batteries in the battery chamber, the structure having a battery holder as a transfer station is more favorable because the user can directly replace the battery-mounted battery holder even if the headlight is worn on the user's head, or First remove the battery holder on the headlamp, then install the battery in it and then insert it back into the headlamp without removing the headlamp. However, the structure of the prior art battery holder used in the headlamp has the following defects: 1. The positive and negative electrodes of the battery holder are located at both ends of the battery holder, causing the user to properly insert the battery holder into the battery chamber of the headlamp can use, if he insert the electrodes in the right direction, which is relatively cumbersome; and 2. the battery electrodes in the battery holder are in a reverse direction, and therefore an arrangement in alternating orientation is mostly used for the battery electrodes in the battery holder, that is, one battery is installed forward and then an adjacent one in reverse to the series connection the battery, but the user easily makes mistakes when installing batteries in the battery holder.

Presentation of the invention

The technical problem to be solved by the utility model is to provide a headlight with a battery holder that allows quick installation of batteries and avoids incorrect installation.

In order to solve the above technical problem, the technical solution of the utility model proposes as follows: Headgear comprising: a headband and a head-mounted lamp in which a plug-in battery holder is arranged, in which at least two battery receiving chambers are arranged each of which is to be installed with a battery and a positive conductive plate and a negative conductive plate, at least one of the positive conductive plate and the negative conductive plate being a conductive plate having a spring contact; wherein the positive output and the negative output of the battery holder are arranged at the same end; wherein all positive conductive plates are at one end of the battery holder and all negative conductive plates are at the other end of the battery holder; and wherein the positive and negative conductive plates in an adjacent battery receiving chamber end to end by a conductive element form a series circuit.

With the above structure, the utility model has the following advantages: the positive output and the negative output of the battery holder are arranged at the same end; all the positive conductive plates are at one end of the battery holder and all the negative conductive plates are at the other end of the battery holder; and the positive and negative conductive plates in an adjacent battery receiving chamber form a series circuit end to end by a conductive element. When the user installs the battery holder, he only has to insert and fix one end of the battery holder in the battery compartment of the lamp because the positive output and the negative output are located at the same end; as long as the end at which the anode and the cathode are placed in the battery chamber, it is enough while the other end may be outside the battery chamber, so that the user does not easily make mistakes when inserting the battery holder. In addition, when installing the batteries in the battery holder, the user can install all the batteries in the same direction without considering whether the directions of the batteries should be alternately reversed, and the reason for this is that the conductive plates in the battery receiving chamber of the battery holder in oriented in the same direction. In summary, the utility model provides a headlight with a battery holder that allows for quick installation of batteries and avoids incorrect installation.

In a further development of the battery holder is provided with three battery receiving chambers, which are formed by connecting three stop columns between a main electrode and a hand-held terminal, wherein the three stop columns at an equal distance from each other in a Circumferential direction of the battery holder are arranged, and between each two adjacent stopper columns a battery is clamped; wherein all the positive conductive plates in each battery accommodating chamber are disposed on the inner end surface of the main electrode; wherein all the negative conductive plates in each battery accommodating chamber are disposed on the inner end surface of the hand-held terminal; and wherein the positive output and the negative output of the battery holder are both disposed on the outer end surface of the main electrode, and an insulating member is disposed between the positive output and the negative output. The three receiving chambers are arranged at an equal distance from each other in a circumferential direction of the battery holder in which the spatial arrangement is more compact and each two of the outer surfaces of the three batteries are in contact with each other, so that only some battery is strongly pressed to remove the batteries, and the other two batteries are therefore pressed outside the battery receiving chamber. That is why it is very cheap and quick to remove the batteries.

In a development, the insulating part is a conductive rod which penetrates the stop column, so that the battery receiving chambers form a series connection. The conductive rod has better stability than wires.

In a further development, the insulating part is an insulating ring, wherein within the insulating ring is the positive output, outside of the insulating ring is the negative output, and the insulating ring protrudes above the plane in which the positive output and the negative output are located. This structure can prevent short circuit from being caused by a vertical position of the battery holder and an orientation downward of the electrode outputs; and if the insulating ring is not outstanding, a short circuit often occurs when the battery holder is placed vertically on a conductor, damaging the batteries.

In a further development, the outer ring of the negative output is provided with a negative ring enclosing the spacer ring, which also projects beyond the plane in which the positive outlet and the negative outlet are located, and in the same height with the insulating ring. With the support of the spacer ring and the insulating ring, not only is the battery holder more stable in a vertical position, but also a short circuit is to be avoided, and it is also favorable for connection with a corresponding socket.

In a further development, the hand-held terminal is provided with an anti-slip ring, which is connected to the outer ring of the inner surface of the hand-held terminal and on the outer surface of a non-slip pattern is provided. This structure prevents the handheld terminal from slipping during rotation.

In a development, the negative conductive plate is a C-shaped elastic conductive plate in which the C-shaped elastic plate has a simple structure and is favorable for replacement and maintenance.

In a further development, the distance between any two of the three stop columns at the end near the positive outlet is narrower than the diameter of the battery to be installed, and the distance at the end near the negative outlet is wider than the diameter of the battery to be installed. This structure further restricts the user's direction of insertion of the batteries, that is, only the end of the cathode is first inserted so that the cathode of the battery abuts the negative conductive plate in the battery receiving chamber, and then the negative conductive plate pressed down so that the end of the anode of the battery makes a small distance downwards and then installed inwards, after the distance narrower than the diameter of the battery is bypassed. If the user contacts the positive conductive plate of the battery with the negative conductive plate, the battery would not be firmly installed because the end surface of the anode would be small and would not make good contact with the negative conductive plate. In summary, when installing a battery, the user can install it correctly only when the battery is installed in the correct direction, and even in bad lighting environment, the battery must be installed correctly as long as the battery is inserted smoothly into the battery receiving chamber. Obviously, the structure further improves the installation accuracy of the batteries.

Description of the drawings

1 is a structural representation of the headlight according to the utility model.

2 is a structural view of the battery holder in the headlight according to the utility model.

3 is a structural representation in a viewing angle other than the one in 2 ,

4 is a side view of 2 ,

5 is a view from the left of 4 ,

6 is a view from the right of the 4 ,

As shown in the figures: 1 , Battery Holder; 2 , Lamp; 3 , Headband; 4 , Main electrode; 5 , Stop column; 6 , Hand-held terminal; 7 , positive conductive plate; 8th , positive output; 9 , negative output; 10 , negative conductive plate; 11 , groove; 12 , insulating ring; 13 , Spacer ring; 14 , Gleitschutzring.

Detailed description of the embodiments

In the following, the utility model will be described in detail with reference to the figures.

As in 1 to 6 shown, the headlight includes a headband 3 and one on the headband 3 mounted light 2 in which a pluggable battery holder 1 is arranged, in which at least two battery receiving chambers are arranged, in each of which a battery is to be installed and a positive conductive plate 7 and a negative conductive plate 10 are arranged, wherein at least one of the positive conductive plate 7 and the negative conductive plate 10 a conductive plate having a spring contact; the positive outcome 8th and the negative outcome 9 of the battery holder 1 are arranged at the same end; where all positive conductive plates 7 at one end of the battery holder 1 and all negative conductive plates 10 at the other end of the battery holder 1 lie; and wherein the positive and negative conductive plates in an adjacent battery receiving chamber end to end by a conductive element form a series circuit. The battery holder 1 is equipped with three battery receiving chambers, by connecting three stop columns 5 between a main electrode 4 and a hand-held terminal 6 are formed, with the three stop columns 5 are arranged at an equal distance from each other in a circumferential direction of the battery holder, and between each two adjacent stopper columns 5 to clamp a battery; where all positive conductive plates 7 in each battery accommodating chamber on the inner end surface of the main electrode 4 are arranged; wherein all the negative conductive plates in each battery receiving chamber on the inner end surface of the hand-held terminal 6 are arranged; and where the positive output 8th and the negative outcome 9 of the battery holder 1 both on the outer end surface of the main electrode 4 are arranged, and between the positive output 8th and the negative output 9 an insulating part is arranged. The insulating part is a conductive rod, which is the stop column 5 penetrates so that the battery receiving chambers form a series connection. The insulating part is an insulating ring 12 , inside the insulating ring 12 is the positive outcome 8th , outside the insulating ring 12 is the negative outcome 9 , and the insulating ring 12 juts out over the plane in which the positive outcome 8th and the negative outcome 9 are located. The outer ring of the negative output 9 is with one the negative exit 9 enclosing spacer ring 13 which also protrudes above the plane in which the positive exit 8th and the negative outcome 9 and at the same height with the insulating ring 12 is. The hand terminal 6 is with a slip ring 14 provided with the outer ring of the inner surface of the hand-held terminal 6 is connected and on the outer surface of a non-slip pattern is provided. The negative conductive plate 10 is a C-shaped elastic conductive plate. The distance between every two of the three stop columns 5 at the end near (about 1 cm) the positive exit 8th is narrower than the diameter of the battery to be installed, and the distance at the end near the negative output 9 is wider than the diameter of the battery to be installed. It should be understood that only the distance between any two of the three stop columns 5 at the end near (about 1 cm) the positive exit 8th narrower than the diameter of the battery to be installed, which aims to avoid the installation of batteries through this end. In addition to the conductive rod, the conductive member may be made of other materials such as wires, and in terms of series connection, it is common knowledge of those skilled in the art of battery holders, and therefore will not be described in detail. In addition, the handheld terminal 6 directly on the battery compartment of the luminaire 2 be connected, preferably screwed, that is, the annular inner wall of the handheld terminal 6 is provided with an internal thread, and an external thread is provided on the end of the battery chamber, the two are screwed to the battery holder in the battery chamber of the lamp 2 of the headlight. Moreover, a structure like the groove 11 on the outer end surface of the handheld terminal 6 be arranged, and through this structure, the handheld terminal 6 be screwed on by a screwdriver in the groove 11 is plugged in when the handheld terminal 6 with the light 2 is too firmly connected.

Above the utility model and its embodiments will be described. However, the description is not limitative, and the embodiment shown in the figures is only one of the embodiments of the utility model, and therefore the actual structure is not limited thereto. All in all, it is within the scope of this utility model, when the skilled worker with reference to the utility model similar structures and embodiments as this technical solution receives, without inventive step and without departing from the inventive concept of this utility model.

Claims (8)

Headlamp comprising: a headband ( 3 ) and one on the headband ( 3 ) mounted light ( 2 ), in which a plug-in battery holder ( 1 ) is arranged, in which at least two Battery receiving chambers are arranged, in each of which a battery is to be installed and a positive conductive plate ( 7 ) and a negative conductive plate ( 10 ) are arranged, wherein at least one of the positive conductive plate ( 7 ) and the negative conductive plate ( 10 ) is a conductive plate with a spring contact, characterized in that the positive output ( 8th ) and the negative output ( 9 ) of the battery holder ( 1 ) are arranged at the same end; that all positive conductive plates ( 7 ) at one end of the battery holder ( 1 ) and all negative conductive plates ( 10 ) at the other end of the battery holder ( 1 ) lie; and that the positive and negative conductive plates in an adjacent battery receiving chamber end to end by a conductive element form a series circuit. The headlight according to claim 1, characterized in that the battery holder ( 1 ) is provided with three battery receiving chambers which are connected by connecting three stop columns ( 5 ) between a main electrode ( 4 ) and a hand-held terminal ( 6 ) are formed, wherein the three stop columns ( 5 ) are arranged at an equal distance from one another in a circumferential direction of the battery holder, and between in each case two adjacent stop columns ( 5 ) is to clamp a battery; where all positive conductive plates ( 7 ) in each battery accommodating chamber on the inner end face of the main electrode ( 4 ) are arranged; wherein all negative conductive plates in each battery receiving chamber on the inner end surface of the hand-held terminal ( 6 ) are arranged; and where the positive output ( 8th ) and the negative output ( 9 ) of the battery holder ( 1 ) both on the outer end surface of the main electrode ( 4 ) and between the positive output ( 8th ) and the negative output ( 9 ) An insulating part is arranged. The headlight according to claim 2, characterized in that the insulating part is a conductive rod, the stop column ( 5 ) penetrates so that the battery receiving chambers form a series connection. The headlight according to claim 2, characterized in that the insulating part is an insulating ring ( 12 ), within the insulating ring ( 12 ) the positive output ( 8th ), outside the insulating ring ( 12 ) the negative output ( 9 ), and the insulating ring ( 12 ) above the plane where the positive exit ( 8th ) and the negative output ( 9 ) are located. The headlight according to claim 4, characterized in that the outer ring of the negative output ( 9 ) with a negative output ( 9 ) enclosing spacer ring ( 13 ), which also protrudes above the plane in which the positive output ( 8th ) and the negative output ( 9 ), and at the same height with the insulating ring ( 12 ). The headlight according to claim 2, characterized in that the hand-held terminal ( 6 ) with an anti-slip ring ( 14 ) provided with the outer ring of the inner surface of the hand-held terminal ( 6 ) is connected and on the outer surface of a non-slip pattern is provided. The headlight according to claim 1, characterized in that the negative conductive plate ( 10 ) is a C-shaped elastic conductive plate. The headlight according to claim 2, characterized in that the distance between each two of the three stop columns ( 5 ) at the end near the positive exit ( 8th ) is narrower than the diameter of the battery to be installed, and the distance at the end near the negative output ( 9 ) wider than the diameter of the battery to be installed.

Images