DE102007057971A1 - Device for holding one or multiple batteries, has battery holder provided with one or multiple snap hooks for quick assembly and detaching snap connection, and inserting spring contacts produce force-fit connection by spring force - Google Patents

Abstract

The device has a battery holder (2) provided with one or multiple snap hooks (5) for a quick assembly and detaching snap connection. The inserting spring contacts (3,4) produce a force-fit connection by spring force, between batteries (1) and contacts of a card to be supplied with electrical power. The batteries are against falling out that are enclosed from five sides by the battery holder and secured.

Description

The The invention relates to a battery holder containing one or more batteries or rechargeable batteries by a positive connection with a stocked PCB, in the following text card called, secures and by inserted, resilient contact plates a frictional electrical Connecting to the card.

battery holder be in various devices, be it for industrial or private use, for holding one or more several batteries or rechargeable batteries used where electrical Energy to induce certain functions is required. This can be for example the Holding the power supply of a children's toy, a remote control for one TV or other technical equipment.

conventional Battery holders have the disadvantage, among other things, that the electrical Connection and mechanical fastening of battery holders always additional Require components and assembly work. The attachment of conventional battery holder limited yourself as well on some holes, about to attach the battery holder with screws or rivets got to. These holes are usually poorly accessible and for very small screws designed, resulting in the attachment of the battery holder a lot of tact requires u. so that time u. Money costs. To batteries in case of shocks and bumps against Falling out to secure, are also additional fixtures needed.

The Invention is based on that in the battery holder resilient contact plates are inserted in the form of leaf springs, which are directly connected to corresponding contacts, in the form of contact fields or the like, contact a card, making it a non-positive connection between the contact springs and the card comes. With a battery holder The present invention thus incurs no further costs for additionally required components. In addition, will Saved further assembly work and assembly errors avoided.

Of the Battery holder of the present invention is for easy plug-in mounting constructed. At least two on the battery holder asymmetrical arranged webs are in the assembly in designated holes in introduced the card. For mechanical interferences in X- and Y-direction serve these webs of power in one of these both directions and ensure Furthermore always a location-oriented assembly. The battery holder snaps with at least one snap hook directly behind the card or in a housing so that it comes to a positive connection. Of the or the snap hooks secure the battery holder in the Z direction.

Of the Battery holder of the present invention secures the battery without additional Components and without further assembly work. The battery becomes five-sided secured by the battery holder in position and on one side of the map.

Of the Battery holder of the present invention, the back of the battery holder when used in a housing at the same time as a housing closure use, so that no further cover for securing the batteries is needed.

To the Quick change of batteries will snap the connection Finger power solved, by the resilient snap hook or in the elastic region Be deformed, so that the undercut of the snap hooks not hook more behind the card or housing and the battery holder taken in the Z direction.

Description of the versions:

The battery ( 1 ), as in 1 shown in the battery holder ( 2 ) of the polarity according to, between the in the battery holder ( 2 ) inserted contact springs ( 3 u. 4 ) of the battery holder ( 2 ). The poles of the battery ( 1 ) contact the contact springs ( 3 u. 4 ) and establish a non-positive connection. The battery holder ( 2 ) in 1 and 2 is on the card page with snap hooks ( 5 ) and bridges ( 6 ) fitted. The cylindrical, asymmetrical webs ( 6 ) on the card side of the battery holder ( 2 ) and in the map ( 7 ) receiving bores ( 8th ) for the battery holder webs ( 6 ) require and ensure a location-oriented mounting on the card ( 7 ). The snap hooks ( 5 ) of the battery holder ( 2 ) are provided by cutouts ( 9 ) in the map ( 7 ) carried out. The distance between the outer edges of the cutouts ( 9 ) in the map ( 7 ) is smaller than the distance of the snap hook noses ( 10 ), as in 3 can be seen. An inlet chamfer ( 11 ), whose distance at the snap hook ( 5 ) is again smaller than the distance of the outer edges of the cutouts ( 12 ), presses the snap hook ( 5 ) when loading the battery holder ( 2 ) on the map ( 7 ) together. The snap hooks ( 5 ) are deformed in the elastic region. On the back of the card ( 7 ) the snap hooks ( 5 ) back, leaving her with her undercut at the back behind the card ( 7 ) and the battery holder ( 2 ) without further components u. Work safely on the map ( 7 ) is mounted. The from the battery holder ( 2 ) outstanding contact springs ( 3 ) contact the on the map ( 7 ) prepared contacts ( 13 ). Due to the geometry of the contact springs ( 3 ) is for a non-positive, durable, safe Power supply of the card ( 7 ) taken care of. Five sides of the battery holder ( 14 - 18 ) hold the battery ( 1 ) or the batteries in their position. The fuse of the battery on the open sixth side is protected by the card ( 7 ), so that by mechanical interference, such. B. vibrations o. Shocks, the batteries ( 1 ) the contact not by falling out of the battery holder ( 2 ) can lose. To release the connection for a battery change the resilient snap hook ( 5 ) compressed in the elastic region with light finger pressure, so that the undercuts ( 10 ) the snap hook is no longer behind the map ( 7 ) and the connection to the card is released.

4 - 7 put a battery holder ( 19 u. 20 ), for the snap connection one or more resilient snap hooks ( 21 ) as well as rigid hooks ( 22 u. 23 ), depending on the version inside ( 23 ) or to the outside ( 22 ) be able to show. The rigid hooks ( 22 u. 23 ) are either by prefabricated outbreaks ( 26 ) in the map ( 24 u. 25 ) ( 6 and 7 ), or they will be right at the edge of the map ( 27 hooked). The rigid hooks ( 22 u. 23 ) require a rotational movement for mounting the battery holder ( 19 ), because only the rigid hooks ( 22 u. 23 ) must be hooked before the resilient snap hook or hooks ( 21 ) behind the map ( 24 u. 25 ) and make a secure connection.

Is a fuse of the battery ( 28 ) by the battery holder and a card is not desired a battery holder ( 29 ) as in 8th and 9 illustrated in which the one or more snap hooks ( 30 ) and the asymmetric webs ( 31 ) on the closed side of the battery holder ( 29 ) are arranged. The in the battery holder ( 29 ) inserted spring contacts ( 32 ) are removed from the holder ( 29 ) led out accordingly, so that after snapping the battery holder ( 29 ) on the map ( 33 ) the spring contacts ( 32 ) with the contacts ( 34 ) the map ( 33 ) ensure the power supply via a non-positive connection. As in 10 and 11 represented in this assembly variant, the possibility of asymmetrically arranged webs ( 35 ) from the bottom of the battery holder ( 36 ), so that between battery holder ( 36 ) and map ( 37 ) a distance equal to the stepped webs ( 35 ) arises. Between battery holder ( 36 ) and map ( 37 ) can be placed under the surface of the battery holder on the card ( 37 ) an additional component assembly done. The contact springs ( 38 ) are in this form of battery holder ( 36 ) extended by the resulting distance, so that a frictional connection between the terminals ( 39 ) of the card and the contact springs ( 38 ) of the battery holder.

In 12 and 13 is a battery holder ( 40 ), in which a plug-in mounting directly on a card is not possible or not desirable. The snap connection of the battery holder ( 40 ) takes place with a housing ( 41 ), in which a card ( 42 ) and the battery holder ( 40 ) are integrated. The in the battery holder ( 40 ) inserted contact springs ( 43 ) are the battery holder ( 40 ) and the distance to the map ( 42 ), so that the power supply of the card ( 42 ) via a non-positive connection of the contact springs ( 43 ) of the battery holder and the contacts ( 44 ) the map ( 42 ) he follows. The falling out of the batteries ( 45 ) is in 12 and 13 through the battery holder ( 40 ) and the map ( 42 ) prevented. The batteries ( 45 ) from five sides of the battery holder ( 40 ) in their position and one-sided from the map ( 42 ). The battery holder ( 40 ) is the housing ( 41 ). A one-sided in this example snap hook ( 46 ) serves to absorb power in the Z direction and as an assembly aid for position-oriented mounting of the battery holder ( 40 ). On the snap hook ( 46 ) opposite end of the battery holder ( 40 ) are rigid webs ( 47 ), which first during assembly in corresponding housing outbreaks ( 48 ). Alternatively, the battery holder ( 40 ) on the snap hook ( 46 ) opposite end of the battery holder ( 40 ) be connected via a hinge or similar joint with the housing. This type of connection will result in loss or misplacement of the battery holder ( 40 ) when changing the battery. The snapping in of the snap-action hook ( 46 ) requires a rotational movement of the battery holder ( 40 ) during installation. The power consumption in the X and Y direction is ensured by the fit battery holder outer contour to the housing cutout.

14 and 15 put a battery holder ( 49 ) in a housing ( 50 ), in which the falling out of the battery ( 51 ) over the five sides of the battery holder ( 49 ) and in the housing ( 50 ) incorporated battery fuses ( 52 ) on which the battery ( 51 ) rests directly, is prevented. The contact springs ( 53 ) are the battery holder ( 49 ) and the distance to the map ( 54 ), so that the power supply of the card ( 54 ) via a non-positive connection in the battery holder ( 49 ) inserted contact springs ( 53 ) of the battery holder ( 49 ) and the contacts ( 55 ) the map ( 54 ) he follows. The battery holder ( 49 ) is the housing ( 50 ). A one-sided in this example snap hook ( 56 ) serves to absorb power in the Z direction and as an assembly aid for position-oriented mounting of the battery holder ( 49 ). On the snap hook ( 56 ) opposite end of the battery holder ( 49 ) are rigid webs ( 57 ), which first during assembly in corresponding housing outbreaks ( 58 ). Alternatively, the battery holder ( 40 ) on the snap hook ( 46 ) opposite Front side of the battery holder ( 40 ) be connected via a hinge or similar joint with the housing. This type of connection will result in loss or misplacement of the battery holder ( 40 ) when changing the battery. The snapping in of the snap-action hook ( 56 ) requires a rotational movement of the battery holder ( 49 ) during installation. The power in the X and Y direction is done by a fit of the battery holder contour to the housing cutout, or by the hinge connection. 16 and 17 put a battery holder ( 59 ), in which the snap connection with a housing ( 60 ) and a battery fuse through the battery holder ( 59 ) is not desired. The spring contacts ( 61 ) are removed from the battery holder ( 59 ) led out accordingly, so that after the success of the snap connection, the spring contacts ( 61 ) with the contacts ( 62 ) the map ( 63 ) ensure the power supply via a springy, non-positive connection. A one-sided in this example snap hook ( 64 ) serves to absorb power in the Z direction and as an aid to the position-oriented mounting of the battery holder ( 59 ). On the snap hook ( 64 ) opposite end of the battery holder ( 59 ) are rigid webs ( 65 ), which in the assembly first in corresponding housing outbreaks ( 66 ). Alternatively, the battery holder ( 40 ) on the snap hook ( 46 ) opposite end of the battery holder ( 40 ) be connected via a hinge or similar joint with the housing. This type of connection will result in loss or misplacement of the battery holder ( 40 ) when changing the battery. The snapping in of the snap-action hook ( 64 ) requires a rotational movement of the battery holder ( 59 ) during installation. The power in the X and Y direction is done by a fit of the battery holder contour to the housing cutout, or by the hinge connection.

Claims (8)

Device for holding one or more batteries ( 1 - 7 ), characterized in that the battery holder is provided with one or more snap hooks for a quick-mount and detachable snap connection and with inserted spring contacts which generate a frictional connection between the batteries and the contacts of the card to be supplied with electrical energy card by spring force. The batteries are secured against falling out by being enclosed and secured from five sides by the battery holder and by securing the open side of the battery holder after mounting the battery holder on the card. Device according to Claim 1 ( 1 - 11 ), characterized in that the one or more snap hooks of the battery hold enters into or form a positive connection with the card, in which the one or more snap hooks hook behind the card. The snap hook (s) absorb the force in the direction of the Z axis and serve for quick assembly and disassembly without the need for further tools and components such as screws, rivets or the like. Device according to Claim 1 ( 1 - 17 ), characterized in that the inserted into the battery holder spring contacts in the assembled state of the battery holder, the electrical connection by a frictional contact, caused by the bias of the spring contacts, with the or the batteries and the contacts of the card to be supplied electrically. Device according to Claim 1 ( 12 - 17 ), characterized in that the battery holder is equipped with one or more snap hooks with which the battery holder snaps into plastic o. Metal housings. The one or more snap hooks of the battery holder form a positive connection with the housing, in which the hook or hooks hook behind a housing edge. Device according to claims 1, 2 and 3 ( 1 - 7 . 12 u. 13 ), characterized in that the battery holder with snap hooks on the open side of the battery holder in the assembled state secures the battery from falling out by the battery or batteries are enclosed and secured on five sides by the battery holder and the sixth side of the card. Device according to claims 1, 3 and 4 ( 14 u. 15 ), characterized in that the battery holder with snap hooks on the open side of the battery holder in the assembled state, the battery against falling out by the battery or batteries are enclosed and secured on five sides of the battery holder and the sixth side of a housing wall or a housing web. Device according to Claim 1 ( 8th - 11 . 16 u. 17 ), characterized in that the inserted into the battery holder spring contacts are led out at a battery holder with snap hooks on a closed side of the battery holder to the snap hook side of the battery holder to produce a frictional, electrical connection with the contacts of the card. Dismantling the battery holder to remove the battery or batteries is not required. Device according to Claim 1 ( 1 - 11 ), characterized in that when mounting rigid, eccentrically arranged domes and webs of the Battery holder are passed through the exact PCB holes on the card, which secure the battery holder against mechanical interference such as vibration and shock in the direction of the X and Y axis and also specify a defined orientation mounting position of the battery holder. Domes resting on the card can be variable in height.