JPH02237438A - Function providing unit - Google Patents

Abstract

PURPOSE:To enable complex operation with low cost and to enable modification of function by constituting a unit having terminals to be connected, respectively, with a battery and a load and provided with compatible function for integrating physical conditions then providing an additional control function or an additional function randomly thereto. CONSTITUTION:An additional unit 5 is provided with terminals A, B to be connected with a battery and terminals C, D to be connected with a load, where the inner circuitry is constituted freely as required. The additional unit 5 has such profile as a printed board 9 mounting parts, wiring and connecting terminals is incorporated in a case 6 and secured through a printed board fixing support 8, and the additional unit 5 can be mounted/dismounted easily in/from the incorporating section of a battery application device 1 provided with device side contact terminals 12. By such arrangement, a battery application device which can realize many functions can be provided with low cost.

Description

【発明の詳細な説明】 Ａ．産業上の利用分野 モーター　電球、電子回路等を負荷とする、電池を使用
した、電池応用装置ｌの機能を任意に変更、追加するＩ
１能１１１加ユニット５に関するものである． Ｂ．，従来の技術 従来の電池応用装置では、第５図のように、単に電池２
と負荷４をスイッチ３で接続して、モーターを回す、電
球を点灯させる等のように、単純な単一機能とするか、
第６図のように任意の機能を得るための専用制御回路１
３を設けていた。[Detailed Description of the Invention] A. Industrial Application Fields Motors: Arbitrary changes or additions to the functions of battery-applied devices using batteries, whose loads include light bulbs, electronic circuits, etc.
This is related to Unit 5, which has 111 functions. B. , Conventional Technology In the conventional battery application device, as shown in FIG.
Connect the load 4 and the switch 3 to perform a simple single function such as turning a motor or lighting a light bulb, or
Dedicated control circuit 1 for obtaining arbitrary functions as shown in Figure 6
3 was set.

Ｃ．発明が解決しようとする問題点 第５図のような場合は実現できる機能が単純で、複雑な
動作はできなかった。また第６図のように任意のｎｌＩ
Ｉ！を得るためには、各装ＩＩ＠に専用回路を設ける必
要がありそのためにコストが上がった．かフ４Ｉ１能を
変更して他の機能をもたせるようにするのは容易でなか
った。C. Problems to be Solved by the Invention In the case shown in FIG. 5, the functions that can be realized are simple and complex operations cannot be performed. Also, as shown in Figure 6, any nlI
I! In order to obtain this, it was necessary to provide a dedicated circuit for each unit II@, which increased the cost. It was not easy to modify the function to provide other functions.

Ｄ，問題点を解決するための手段と作用ｔ源電圧、消費
Ｎ流、出カ電圧、出力ｉ！流の各電気的条件を規定した
、電池２に接続する端子２点（Ａ．　　Ｂ）と負荷に接
続する端子２点（Ｃ．　　Ｄ）計４点の人出力端子をも
ち、かつその形吠、取り付け方法等物理的条件を統一し
て互換性を有する機能付加ユニット５を構成し、これに
任意の負荷制御機能、または負荷とは独立した付加機能
をもたせる．これを第１図のように電池２とスイッチ３
と負荷４で構成する電池応用装置１に実装することによ
り任意の機能をもたせることが可能になる。またこの機
能付加ユニット５に対応した電池応用装置ｌであれば、
機能付加ユニット５を変えるだけで、さまざまな機能を
もたせることが可能になる．かつ、Ｗｌ気的条件が合え
ば負荷の種類を問わないため、例えば電流を間欠的に通
電させる機能をもった機能付加ユニット５であれば、電
球に用いれば点滅を繰り返すものとなり、モーターに用
いれば回転、停止を繰り返すものが実現することができ
るというように、同一の機能付加ユニットを種類の異な
る電池応用Ｈ置に用いることにより、異なる効果を出す
ことが可能になる．Ｅ．実施例 第１図に機能付加ユニット５と電池２、スイッチ３、負
荷４とで構成した電池応用装［ｔ１とを接続したー実施
例の回路図、第２図に機能付加ユニットの実施例外形図
、第３図に電池応用装置側実装部実施例形状、第４図に
組立実施例を示す．機能付加ユニット５は電池につなが
る端子Ａ．　　Ｂ．負荷につながる端子Ｃ．　　Ｄを持
ち、内部回路は必要に応じて自由に構成するようにした
ものである．その外形は部品、配線および接続端子を登
載したプリント板９をケース６に朝み込み、プリンｉ・
板取り付け支柱８で固定したもので、装置側接触端子１
２を設けた電池応用装置１の組み込み部に容易に着脱で
きるものとする。モーター　電球等を負荷４とするよう
な一般の■λ具、懐中電灯等に用いられる第５図の回路
に同等な回路を、機能何加ユニットを使用して実現する
場合の回路を第７　１ＭＪに示す．また第８図は付加機
能回路１４を設けて、負荷４とは無関係の新たな機能を
追加する場合の回路例を示す。第９図に電源を必要とす
る制御回路１５により電流制御部ｌ６を制御し、負荷電
流を制御して各種機能を実現する場合の回路例を示す．
フリッカ機能、時限要素、Ｍ．流可変機能等、公知の多
くの回路が利用できる．同様に、第１０図は制御回路１
５とｉｌｔ流方向制御部１７により、負荷ｔＩｉ流の方
向を変える場合の例を示す．これにより、モーターの正
転、逆転制御等が可能になる。D. Means and action for solving the problem t Source voltage, consumption N current, output voltage, output i! It has a total of 4 human output terminals, 2 terminals connected to the battery 2 (A.B) and 2 terminals connected to the load (C.D), which specify the electrical conditions of the current. A compatible functional addition unit 5 is constructed by unifying the physical conditions such as the mounting method, and is provided with an arbitrary load control function or an additional function independent of the load. Connect this to battery 2 and switch 3 as shown in Figure 1.
By implementing the battery application device 1 consisting of the load 4 and the load 4, it becomes possible to provide an arbitrary function. In addition, if the battery application device l is compatible with this function addition unit 5,
By simply changing the function addition unit 5, various functions can be added. In addition, the type of load does not matter as long as the WL conditions are met, so for example, if the function addition unit 5 has the function of passing current intermittently, it will blink repeatedly if used in a light bulb, but it will not work if used in a motor. By using the same functional unit for different types of battery applications, it is possible to produce different effects, such as a device that repeatedly rotates and stops. E. Embodiment FIG. 1 shows a circuit diagram of an embodiment of a battery application system (connected to t1) consisting of a function addition unit 5, a battery 2, a switch 3, and a load 4, and FIG. 2 shows an example of the implementation of the function addition unit. Figure 3 shows the shape of the mounting part on the battery application device side, and Figure 4 shows the assembly example. The function addition unit 5 has a terminal A. connected to the battery. B. Terminal C connected to load. D, and the internal circuit can be freely configured as required. The external shape is that the printed board 9 on which parts, wiring and connection terminals are mounted is inserted into the case 6.
It is fixed with a plate mounting support 8, and the device side contact terminal 1
2 can be easily attached to and detached from the built-in part of the battery application device 1 provided with the battery application device 1. The circuit equivalent to the circuit shown in Figure 5 used in general ■λ appliances, flashlights, etc., where the load 4 is a motor light bulb, etc., is realized using a multifunctional unit. It is shown in FIG. 8 shows an example of a circuit in which an additional function circuit 14 is provided to add a new function unrelated to the load 4. FIG. 9 shows an example of a circuit in which the current control unit 16 is controlled by the control circuit 15 which requires a power supply, and various functions are realized by controlling the load current.
Flicker function, timed element, M. Many known circuits such as flow variable function can be used. Similarly, FIG. 10 shows the control circuit 1
An example in which the direction of the load tIi flow is changed using the flow direction control section 17 and the flow direction control section 17 will be shown. This makes it possible to control the motor for forward rotation, reverse rotation, etc.

また、その他の応用例として、機能付加ユニット５に音
声発生回路を設ける、センサーを設け外界の条件に応じ
て負荷の動作を制御する等、無限ともいえる応用が考え
られる。Furthermore, as other application examples, an almost infinite number of applications can be considered, such as providing a sound generation circuit in the function addition unit 5, providing a sensor and controlling the operation of a load according to external conditions.

なお、以上の説明は電源を電池として説明しているが、
交流電源、その他のあらゆる電源にも本発明は適用でき
る。Note that the above explanation assumes that the power source is a battery, but
The present invention is also applicable to AC power sources and all other power sources.

Ｆ．発明の効果 共通化し互喚性をもった機能付加ユニットを用いること
により、多くのを機能が実現可能な電池応用Ｈ置を安価
に実現できる。F. By sharing the effects of the invention and using functional addition units that are mutually compatible, a battery application H system that can implement many functions can be realized at low cost.

【図面の簡単な説明】[Brief explanation of drawings]

第１図は機能付加ユニットを使用したー実施例の回路図
、第２図は機能付加ユニット実施例外形図、第３図は機
能付加ユニット受け側である電池応用装置側実施例形状
、第４図は組立実施例を示す．第６図は従来の電池応用
装置回路例、第６図は専用制御回路ｌ３をもった従来の
電池応用装置回路・例、第７図は機能付加ユニット５を
使用して、第５図の従来の電池応用装置回路と同等の回
路とする場合の回路図、第８図は付加機能回路ｌ４によ
り負荷と独立した機能を持たせる場合の回路図、第９図
は制御回路ｌ６と電流制御部１６により負荷４の電流を
任意に制御する場合の実施例回路図、第１０図は制御回
路ｌ５と電流方向制御部ｌ７ｉこより負荷の１！流方向
を切り替える回路例を示す。 ｌ　電池応用装置、２　電池、３　スイッチ、４　負荷
、５　機能付加ユニット、６ケース、７　取り付けフッ
ク、 ８　プリント板取り付け支柱、 ９　プリント板、　１０　擾触端子、 １１　取り付けフックかん合穴、Figure 1 is a circuit diagram of an embodiment using a function addition unit, Figure 2 is a diagram of an example of the implementation of the function addition unit, Figure 3 is an example configuration of the battery application device that receives the function addition unit, and Figure 4 The figure shows an assembly example. 6 is an example of a conventional battery application device circuit, FIG. 6 is an example of a conventional battery application device circuit with a dedicated control circuit l3, and FIG. 8 is a circuit diagram of a circuit equivalent to the battery application device circuit of 1. FIG. 8 is a circuit diagram of a case where an additional function circuit 14 provides a function independent of the load. 9 is a circuit diagram of a control circuit 16 and a current control unit 16. FIG. 10 is a circuit diagram of an embodiment in which the current of the load 4 is arbitrarily controlled by the control circuit l5 and the current direction control unit l7i. An example of a circuit for switching the flow direction is shown. l Battery application device, 2 battery, 3 switch, 4 load, 5 function addition unit, 6 case, 7 mounting hook, 8 printed board mounting support, 9 printed board, 10 contact terminal, 11 mounting hook mating hole,

Claims (1)

【特許請求の範囲】[Claims] 電源２とスイッチ３と負荷４で構成する電池応用装置１
の機能付加ユニット実装部に、任意の負荷制御機能また
は負荷と無関係な独立した任意の機能と、電源に接続す
る端子２点と、負荷に接続する端子２点、計４点の入出
力端子をもち、かつその形状、取り付け方法等物理的条
件を共通化した機能付加ユニット５を着脱可能に構成し
、機能付加ユニットを交換することにより、電池応用装
置１の機能を任意に変更、追加ができるようにした機能
付加ユニット。Battery application device 1 consisting of power supply 2, switch 3 and load 4
The function addition unit mounting section has a total of 4 input/output terminals, including any load control function or any independent function unrelated to the load, 2 terminals connected to the power supply, and 2 terminals connected to the load. The function addition unit 5, which has common physical conditions such as a rice cake and its shape and attachment method, is configured to be removable, and by replacing the function addition unit, the functions of the battery application device 1 can be changed or added as desired. A functional addition unit.