DE20023631U1 - Terminal structure for battery pack, includes alterable number of elastic board formed on receptacle in entry direction of male terminal, for fitting male terminal - Google Patents

Abstract

Receptacle (7) and male terminal (17) are provided to battery pack and enclosure, respectively. Two or more pairs of elastic board (10) that fit male terminal into the receptacle, is formed on the receptacle in entry direction of male terminal. The number of elastic board is alterable.

Description

The The present invention relates to a structure for electrical connections, which in a rechargeable battery part and in an electrical one Device, such as an electrically operated tool or a Battery charger, are provided to make an electrical contact between them, when the battery part is attached to the device.

Various Structures for making an electrical contact between a rechargeable battery part and electrical devices, such as electrically operated tools and battery chargers are well known in the art. In such a mounting structure for Making an electrical contact are plug connections on attached to the battery part, whereas receiving terminals, the with the plug connections can be coupled are mounted on the electrical device. The contact pressure between the appropriate connections a battery part and an electrical device must be in accordance be chosen with the specific operating conditions of the device, by e.g. a heat accumulation and / or jitter at the appropriate terminals due to high voltage, huge Stream and / or by the operation of such electrical devices to prevent vibration caused. Therefore, different receiving terminals with different contact pressures mounted on different types of electrical devices, around for every application a suitable strength to get a contact pressure.

Even though Such a structure of electrical connections is generally acceptable is, this is not free of certain disadvantages and thus leaves room for an improvement. A disadvantage is the increased production costs and the extra time and work for making and assembling different types of reception connections on different devices / devices is required (in order for different Stages of contact pressure or different strengths of a To provide contact pressure). About that There is also the possibility of short circuits, which can occur between the exposed connector terminals on the battery parts of the above structure are provided. Around shorts to prevent it would be for the Pull battery part forward, this with receiving connections too Mistake. If this is the case, however, the connections of the Battery part a contact pressure with a predetermined strength, such that this Providing plug connections with different thicknesses for electrical devices with different operating conditions the only means is to use a range of contact pressures realize. The contact pressure range afforded by this means is generally limited and thus does not reach a required width. Alternatively it is it is possible Plug / receptacle connection combinations with high contact pressure for all connections to cover a range of applications that are different Strengthen require a contact pressure. In this case, however, the connection can between all fitting connections excessively tight be, even for such applications that do not require a very tight connection. One additional Problem with this solution is that the high contact pressure frequently to a shortened Lifetime of the connections leads.

in the In view of the above problems is an important task of the present invention, a simple, reliable structure of electrical connections to create the several different strong contact pressures to Provides.

One Another aspect of the present invention is a simple, reliable structure of electrical connections to create the shorts between connections effectively prevents and reduces manufacturing costs.

The The above object is achieved by the invention, which has a structure of electrical connections for making electrical contact between a battery part and an electrical device by attaching the battery part at the electrical device. The structure includes a Majority of intake ports, which are provided in the battery part, and a plurality of plug terminals, the are provided in the electrical device and designed so they are to the receiving ports can be coupled. Included in this structure each of the receptacle connections at least two pairs of elastic plates, each pair being more elastic Plates is able to hold one of the plug connections between them, when the battery part is attached to the electrical device is. Further, the elastic plate pairs are along each receiving terminal the movement path of the connector terminal arranged when the battery part is attached to the electrical device, such that the number of elastic plate pairs each receptacle connection, each plug connection between them hold, by the length the plug connection along the aforementioned path of movement determined is.

This structure of electrical terminals according to the present invention allows the male terminals to be held between a selected number of pairs of elastic panels, and also allows the selection of any ge suitable strength of a contact pressure at the terminals of a plurality of pressure levels, in accordance with the voltage, current and / or vibration level in a specific application. This effectively prevents heat accumulation and jitter at terminals. Moreover, since the contact pressure at the terminals can be adjusted simply by changing the length of the connector terminals without changing the dimensions and / or the shape of the female terminals, a significant cost reduction can be achieved. In addition, shorts can be effectively prevented because the receiving terminals are not exposed on the outside of the battery part.

One typical battery part reaches the end of its life rather as the electrical device (e.g., the charger or the Tool), with which the battery part is used and must be replaced be because the cells in the battery part after a certain Number of cycles of loading and unloading are destroyed. It follows that connector terminals, which generally a longer one Lifetime as receiving connections should be used on the main device at which the battery part is attached, and the receiving terminals on the Battery part should be attached. Unlike the conventional ones Structures advantageously utilize the above structure of the invention Make this logical arrangement of plug connections on the main device and reception connections on the battery part.

According to one Aspect of the present invention, the structure comprises two receiving ports and two plug connections, each of the plug connections is designed so that this is electrically connected to one of two receiving terminals. The two receiving connections are arranged parallel to each other and are at a first selected distance to each other, and the two plug connections are substantially parallel arranged to each other and are in the selected first distance from each other.

According to one Another aspect of the present invention comprises each elastic plate parallel section, which is parallel to the aforementioned movement path extends, and a contact pressure portion, which at an angle to the parallel portion of one end of the parallel portion out of bent, so that this at one point in contact with the paired elastic Plate stretches. Further included each of the plug connections a bar of sufficient length along the aforementioned axis (Trajectory) to at least one of the elastic plate pairs at the aforementioned Point to come in contact, separate the contact pressure sections and over the aforementioned Point to reach out when the battery part to the electric Device is attached.

According to one more Another aspect of the present invention are the parallel ones Sections of each pair of elastic plates from each other by a selected Space sufficiently separated so that at least a portion of the bar be arranged between the corresponding connector plug can. In addition, each pair of elastic plates is arranged such that during the Attachment of the battery part to the electrical device of the connector terminal first is pushed in relation to the electrical device to be in the aforementioned room to penetrate between the parallel sections. after which the plug connection the contact pressure sections at the aforementioned Point separates.

According to one Still another aspect of the present invention includes each elastic plate at least one therein in a substantially parallel direction to the aforesaid Bewergungsweg of the connector terminal formed slot so as to Contact printing section to divide into a plurality of elastic parts.

According to one A feature of the present invention is each contact pressure section divided into two elastic parts with identical width.

In accordance with another feature of the present invention is each Contact pressure section in two elastic parts with different ones Divided into widths. The slot in each elastic plate provides different, natural vibrations on the divided parts of the elastic plate, so a trembling due to e.g. by the operation of the electric tool reduce vibration caused.

According to one more Another feature of the present invention is the bar of each Connector so dimensioned and dimensioned that they two pairs of contact plates of the corresponding receiving connection separates.

According to one more Another feature of the present invention is the bar of each Connector so dimensioned and dimensioned that they only a pair of contact plates of the corresponding female terminal separates.

In accordance with a practical design The present invention has the bar of each male terminal a substantially rectangular shape.

In accordance with another practical embodiment of the present invention be Each pair of contact pressure portions abuts the male terminal with a selected amount of contact pressure when the battery pack is attached to the electrical device.

In an embodiment the electrical device is selected from a group consisting of electrically operated tools and battery chargers.

A embodiment the present invention will be described below with reference to the drawings, in which:

1 a perspective view of the exterior of a battery part 1 according to the present invention;

2 shows how the battery part off 1 attached to an electric tool;

3 a perspective view of the connection structure of the battery part 1 and the electric tool 2 is;

4 a long plug connection of the in 2 shown electric tool, which is connected to a receiving terminal of in 1 shown battery part is coupled;

5 a short plug connection of the electric tool, which is connected to the receiving connection of the in 1 shown battery part is coupled; and

6 an alternative contact pressure section 12 of the receiving port of in 1 shown battery part is.

1 is a perspective view of the exterior of a battery part 1 in accordance with the present invention. The battery part 1 is a substantially box-shaped housing, which is made of a synthetic resin and contains a plurality of rechargeable cells (not shown). In addition, the battery part includes 1 at its top a connection area 2 for attaching the bottom end of an electric tool or a battery charger and a pair of sliding portions 3 , each sliding area 3 has an inverted L-shaped cross-section which is on one side of the terminal region 2 is trained. On too 2 Referring to the battery part 1 to attach to a device, such as an electric tool, the sliding portions 3 along the bottom of a handle 14 of the electric tool pushed by a formed on the bottom of the handle holding portion 15 to be determined. In detail, the battery part 1 first in a direction substantially orthogonal to the longitudinal axis of the handle 14 pushed, with the connection area 2 in the holding section 15 intervenes. The battery part 1 continues to glide up to a couple of stops 4 behind the connection area 2 are formed (in 2 aligned upward), stops when the terminal areas 2 in attack with the respective attacks 16 of the handle 14 come. At the same time, there are three plug connections 17 and 17a at the bottom of the tool handle 14 are formed in respective slots 5 and 5a one in the connection area 2 are formed to make electrical contact with the respective receiving terminals 7 and 7a in the connection area 2 manufacture. Although not shown, the battery charger of the present invention is for use with the battery pack 1 an identical connection structure as that of the above electrical tool, such that the manner of connection of the battery part 1 with the battery charger is identical to the above.

Regarding 3 Includes each receptacle connection 7 a base plate 8th parallel to the slots 5 and 5a on a carrier plate 6 of the connection area 2 is attached, a guide plate 9 , which is at one end with the rear end of the base plate 8th is coupled and abuts at the other end to one of the rechargeable cells, a plurality of paired elastic plates 10 attached to the long sides of the base plate 8th are essentially up high: In this. Embodiment, the two are on receiving connections 7 on both sides of the carrier plate 6 are formed, the positive and negative connection for charging and discharging the cells. As illustrated, each port includes 7 two pairs of elastic plates 10 where each pair is above the base plate 8th is arranged symmetrically. The connection 7a which is a pair of elastic plates 10 but no guide plate 9 is provided for transmitting signals indicative of a detected cell temperature. Every elastic plate 10 has a parallel section - 11 , which in the assembled state parallel to its counterpart of the paired elastic plate 10 is aligned. In every elastic plate 10 is also a contact pressure section 12 present, which from one end of the parallel section 11 made of bent, such that this back in contact with its counterpart of the paired elastic plate 10 extends. The contact pressure section 12 is bent back at the contact point such that a narrow gap between the free ends of the paired pressure sections 12 is formed. Every contact pressure section 12 is through a slot 13 that in the section 12 formed from its free end from the side, partially divided into two equal vertical widths.

Still referring to 3 includes the handle 14 a connection block 18 , which the right-angled plug connections 17 with the same distance to each other as the top 5 carries, so that the connections 17 in the slots 5 can penetrate if the battery part 1 on the handle 14 is attached. It should be noted that the length of the plug connections 17 along the direction of entry is determined by the required contact pressure. In particular, if a relatively high voltage or current is needed, or if it is likely that the electric tool will be subjected to extreme vibration, a large contact pressure is generally necessary. For this purpose, long plug connections 17 used, which extends over the rear ends of the rear elastic plates 10 extend out when the battery part 1 is used. Conversely, if a relatively low voltage or current is needed, or if the electric tool is not subjected to extreme vibration, generally a large contact pressure is not required, so shorter plug connections 17 which are only behind the back ends of the front elastic plates 10 extend, but not the rear plates 10 reach when the battery part 1 is used. Since the recording connection 7a for data transmission only a pair of elastic plates 10 includes, is the corresponding plug connection 17a that on the connection block 18 is supported, trained accordingly short.

According to the terminal structure thus constructed, the plug terminals occur 17 in the slots 5 when the battery part 1 in connection with the bottom of the handle 14 of the electric tool slides. Because the plug connections 17 are formed relatively long in this embodiment, the connections occur 17 in the gap between the respective front pairs of elastic plates 10 when the battery part 1 slidably sliding and then sliding the respective pairs of contact pressure sections 12 on. The plug connections 17 continue to move backwards, entering the gap between the respective rear pairs of elastic plates 10 and push the respective pairs of contact pressure sections 12 up to their rearmost parking position. As in 4 is shown, when the battery part 1 on the handle 14 put in place, each plug connection 17 with large contact pressure at two points between two pairs of elastic plates 10 held in electrical contact with the receiving terminal 7 manufacture. This effectively prevents heat build-up and jitter at the points where the terminals are 7 and 17 are connected.

Regarding 5 kick when short connections 17a be used, then with manual attachment of the battery part 1 on the handle 14 the connections 17 into the gap between the respective front pairs of elastic plates 10 and then push the respective pairs of contact pressure sections 12 on. If the battery part 1 on the handle 14 is put in place, each plug connection 17 only through a pair of elastic plates 10 held in electrical contact with the receiving terminal 7 manufacture.

As can be seen from the above description, the battery part is 1 with recording connections 7 each provided with several pairs of elastic plates 10 while the charger and the electrical tool each have plug connections 17 and 17a which have a length suitable for specific applications. The arrangement allows selection of the correct amount of contact pressure for the voltage or current used, thereby effectively preventing heat accumulation and jitter at mating terminals. In addition, the selection of a correct level of contact pressure can be made simply by selecting the length of the male terminals, without the need to provide differently shaped female terminals. This offers an additional advantage in reducing manufacturing costs. In addition, because the receiving ports 7 and 7a on the battery part 1 are not exposed, even short circuits are effectively prevented.

There Cells may be destroyed and the end of their life after passage of many cycles of charge and discharge is for the connections of the electrical tool and the charger desirable, longer life to have. plug connectors generally have a longer one Life as receptacle connections, because of their thickness and hardness chosen free can be. Accordingly, the Arrangement of the above embodiment, in which receptacle connections on the battery part and plug connections on the charger and the Tool are mounted, the more logical and better combination in the Regarding the life of the two types of connectors.

In the above embodiment, two pairs of elastic or compliant plates 10 in each receptacle connection 7 used. However, according to the present invention, three or more pairs of elastic plates are also considered 10 in every connection 7 provide and / or plug connections 17 of different length to fit the many pairs of receiving terminals so as to realize a wide range of contact pressure strengths from which can be selected. Moreover, according to the above embodiment, in which the in each elastic plate 10 trained slot 13 the plate sideways in divided into two equal and vertical widths, other types of division possible to meet specific applications. For example, as in 6 is shown, the slot may be formed in a higher plane to a narrower upper part 12b and a wider lower part 12a creating different natural vibration capabilities for the upper and lower parts to reduce jitter due to, for example, vibration generated by operation of the tool. This arrangement is particularly effective in minimizing or eliminating jitter due to unwanted vibration caused by the operation of the tool. It should be noted, however, that the front and rear pairs of elastic plates 10 do not need to have slots in the same plane; For example, horizontal slots can be in the elastic panels 10 the front pair may be arranged in a higher plane than in the plates of the rear pair or vice versa. In addition, not all couples must have elastic plates 10 be divided into two identical vertical widths; the front pairs and the rear pairs may be divided into two different widths.

According to the above embodiment, the battery part becomes 1 attached to the electric tool and the battery charger by pushing it along an outer surface of the tool or charger in a direction parallel to the surface of the battery part. It should be noted that the invention is applicable to other structures for attaching the battery pack to the tool or charger. For example, the structure of electrical terminals according to the invention is applicable to an arrangement in which a portion of a battery part is inserted into the electric tool and the charger.

Claims (25)

Structure of electrical connections for manufacturing an electrical contact between a battery part and a electrical device by attaching the battery part to the electrical device, having a plurality of receiving terminals, the are provided in the battery part, and a plurality of plug terminals, the are provided in the electrical device and designed so they are to the receiving ports can be coupled in which each of the female terminals at least two pairs of elastic Includes plates, wherein each pair of elastic plates is capable of one of plug connectors to keep between them when the battery part is connected to the electrical Device is attached, wherein the elastic plate pairs each Receptacle connection along the path of movement of the connector are arranged when the battery part to the electrical device is attached, such that the Number of elastic plate pairs of each receiving port, the each plug connection between to keep up, through the length the connector is determined along the path of movement. Structure according to claim 1, having two receiving terminals and two plug connections, each of the plug connections is designed so that this be electrically connected to one of the two receiving terminals can, and in which the two receiving terminals arranged parallel to each other are and by a first chosen Distance are separated from each other and the two connector terminals substantially are arranged parallel to each other and selected by the first Distance apart. Structure according to claim 1, in which each elastic Plate a parallel section that is parallel to the path of movement extends and a contact pressure section, which is at an angle to the parallel section of one end of the parallel section out of bent, comprises so that this in contact with the paired elastic plate extends at a point in contact, and in which each of the male terminals one Strip with a sufficient length along the axis, in contact with at least one of the elastic plate pairs to get to the point, disconnect the contact pressure sections and over extend beyond the point when the battery part at the electrical Device is attached. Structure according to claim 3, in which the parallel ones Sections of each elastic plate pair through a selected space are separated from each other, which is sufficient to at least a part to arrange the strip of the corresponding plug connection in between and in which each pair of elastic plates are arranged is that during a Attachment of the battery part to the electrical device of Plug connection first is pushed relative to the electrical device to in the Space between the parallel sections, after which the Plug connection the contact pressure sections separates at the point. Structure according to one of claims 1 to 3, in which each elastic plate at least one in substantially parallel Direction to the trajectory of the connector terminal trained Slot includes, so as to make the contact pressure section into a plurality of elastic Divide parts. A structure according to claim 5, wherein each contact pressure section is formed into two elastic parts identical width is divided. A structure according to claim 5, wherein each contact pressure portion divided into two elastic parts with different widths is. A structure according to claim 3, in which the strip Each connector is sized and dimensioned so that this two pairs of contact plates of the corresponding receiving connection separates. A structure according to claim 3, in which the strip Each connector is sized and dimensioned so that this only a pair of contact plates of the corresponding receiving connection separates. A structure according to claim 3, in which the strip Each plug connection is a substantially rectangular shape Has. The structure of claim 1, wherein each pair from contact pressure sections to a selected level of contact pressure exerts the plug connection when the battery part is attached to the electrical device. Structure according to claim 1, in which the electrical Device selected is a group consisting of electrically operated tools and battery chargers. Battery part, with a connection area ( 2 ) to electrical connections and at least one sliding area ( 3 ) for mechanically connecting the battery part ( 1 ) with an electrical device such as an electric tool or a battery charger, which are formed on one side of the battery part, wherein the at least one sliding region ( 3 ) is adapted, by a sliding relative movement of the battery part ( 1 ) relative to the electrical device with a corresponding holding portion ( 15 ) of the electric device, the direction of the sliding relative movement of the battery part (FIG. 1 ) relative to the electrical device when the sliding region is engaged ( 3 ) with the holding section ( 15 ) defines a connection direction, the connection area ( 2 ) at least one pole-receiving terminal ( 7 ), which is adapted, by the sliding relative movement with a corresponding connector ( 17 ) of the electrical device, the at least one pole-receiving terminal ( 7 ) at least two pairs of elastic plates ( 10 ), the elastic plates ( 10 ) of a pair facing each other perpendicular to the direction of connection, and the at least two pairs of elastic plates ( 10 ) of the at least one pole-receiving terminal in the connecting direction are arranged one behind the other, so that by the length of the corresponding connector terminal ( 17 ) the number of pairs of elastic plates ( 10 ), which come into contact with the corresponding plug connection, can be determined. Battery part according to Claim 13, in which two of the sliding regions ( 3 ) are provided, which are arranged parallel to each other and to the connection direction. A battery pack according to claim 13 or 14, wherein at least two of said pole-receiving terminals (14) 7 ) are provided, which are arranged parallel to each other and to the connecting direction and adapted to, with two corresponding plug connections ( 17 ) of the electrical device. Battery part according to one of Claims 13 to 15, in which at least one signal connection region ( 7a ) comprising at least one pair of elastic panels ( 10 ) is provided. Battery part according to one of claims 13 to 16, in which the elastic plates ( 10 ) each have a parallel section ( 11 ) parallel to the corresponding parallel portion of the opposed elastic plate (Fig. 10 ) of the same pair, and a contact pressure section ( 12 ) extending from the parallel section ( 11 ) in the connecting direction. A battery part according to claim 17, wherein said contact pressure portion (Fig. 12 ) from one end of the parallel section ( 11 ) of the associated elastic plate ( 10 ) is bent in such a way that it only comes into contact with its corresponding counterpart from the same pair of elastic plates ( 10 ) comes and then runs away from this. Battery part according to claim 17 or 18, wherein the distance between the contact pressure sections ( 12 ) of a pair of parallel plates perpendicular to the connecting direction is smaller than the distance of the corresponding parallel portions (FIG. 11 ) of the same pair of elastic plates ( 10 ). Battery part according to one of Claims 15 to 19, in which the pole connection regions ( 7 ) between the two sliding areas ( 3 ) are arranged. Battery part according to Claim 20, in which the signal connection region ( 7a ) between two pole connection areas ( 7 ) is arranged. Battery part according to one of claims 13 to 21, in which at least one stop ( 4 ) is provided, which is adapted to come with at least one corresponding stop of the electrical device to stop the relative movement in abutment. A battery part according to any one of claims 17 to 22, wherein the contact pressure portion (Fig. 12 ) an elastic plate ( 10 ) at least one slit formed therein parallel to the connecting direction ( 13 ), the contact pressure section ( 12 ) divided into a plurality of elastic parts. A battery part according to claim 23, wherein said contact pressure portion (Fig. 12 ) is divided into two elastic parts with identical width. A battery part according to claim 23, wherein said contact pressure portion (Fig. 12 ) is divided into two elastic parts with different widths.