RU2597203C1 - Power supply device of electronic devices - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to electrical engineering. Power supply device includes housing (1), in which there is at least one chemical current source (2), which can be made in the form of a battery, leads (3) of different polarity of which are connected with placed on the side surface of housing (1) corresponding lead contacts (4), (5) forming at least two pairs of such contacts of different polarity. Herewith on each of end faces of housing (1) there can be placed at least one pair of additional lead contacts (6), (7) of different polarity. Location and topology of lead contacts (4), (5) and additional lead contacts (6), (7) are selected to allow their electric contact with appropriate receiving contacts of the electronic device at installation of the device into the power supply compartment regardless of the orientation of the device relative to the receiving contacts. Each of the lead contacts (4), (5) is made in the form of a strip embracing at least part of the side surface of housing (1) and forming a figure, the longitudinal axis of which is oriented along the longitudinal axis of housing (1), herewith lead contacts (4), (5) of the same polarity of different pairs are located at an equal distance from the central plane perpendicular to the longitudinal axis of housing (1).

EFFECT: such design of the device ensures increased reliability of electric contact of the lead contacts with the receiving contacts regardless of the orientation of the device in the power supply section, which is the technical result of the invention.

12 cl, 5 dwg

Description

The invention relates to the field of electrical engineering and can be used in power devices of electronic devices based on chemical current sources.

Known power supply devices containing located along one axis and electrically connected in series with chemical current sources, mainly cylindrical in shape, are located in an elongated housing, on one of the end faces of which an output contact of one polarity is fixed, and on the other face is an output contact of another polarity, electrically connected with the corresponding terminals of the first and last chemical current source (e.g. EP 0768724 A2, 1997).

Such devices have low operational reliability, since in the case of their incorrect orientation when installing an electronic device in the power compartment (reversing the polarity), both the device itself and the electronic device may fail.

A power supply device is known in which the power supply device cannot be erroneously connected (in the wrong polarity) to the receiving contacts by making output contacts in the form of bourns, one of which is different in shape from another having a different polarity (WO 2001/67529 A1, 2001). However, this does not eliminate the possibility of at least short-term contacting of the output contacts with the receiving contacts in case of incorrect orientation of the device when it is installed in the power compartment.

A power supply device is also known, comprising at least one chemical current source with a holder in which a radial groove is formed, which reduces the likelihood of improperly installing the power supply device in the power supply compartment of the electronic device (WO 2011/062878 A3, 2011). However, this complicates and increases the cost of the power supply device and reduces its versatility.

Known power supply devices do not have high functionality, as they are designed to be installed in the power compartments of any one structural type.

Of the known devices, the closest to the claimed one is a power supply device for electronic devices, comprising a housing having a side surface and two end faces and at least one chemical current source located in it, the terminals of different polarity of which are connected to the corresponding output contacts, which are located at least at least two pairs of output contacts of different polarity, the topology (location, area and shape) of which is selected from the condition of ensuring the possibility of their electrical first contact with the corresponding receiving contacts of the electronic device when installed in the power supply device power electronic device compartment regardless of the orientation of the power supply device (RU 22589 U1, 2002). In this device, pairs of output contacts are fixed on the end faces of the housing, while the output contacts of one polarity are located opposite one another. The location, area and shape of the output contacts on opposite end faces of the housing are selected from the condition of non-intersection of the rotation patterns formed by the paths of the output contacts of different polarity with an arbitrary rotation of the housing around its longitudinal axis. This increases the operational reliability of such a device, allowing it to be installed in the power compartment regardless of the orientation of the end faces of its housing relative to the receiving contacts. In this case, it is possible to duplicate the electrical contacting of the output contacts with the corresponding receiving contacts of the electronic device.

However, its functionality is limited. The device, ensuring its high operational reliability, can only be used in power compartments with end placement of receiving contacts.

The problem solved by the invention is to create a power supply device for electronic devices, devoid of the disadvantages of the prototype. The technical result provided by the invention is to expand the functionality of the device due to the possibility of its use for powering electronic devices with almost any location of the receiving contacts, while ensuring reliable electrical contact of the output contacts with the receiving contacts, regardless of the orientation of the device in the power compartment.

This is achieved by the fact that in the power supply device of electronic devices, comprising a housing having a side surface and two end faces and at least one chemical current source located therein, the terminals of different polarity of which are connected to the corresponding output contacts arranged on the housing, forming at least two pairs of output contacts of different polarity, the location and topology of which are selected from the condition of ensuring the possibility of their electrical contact with the corresponding receiving contacts when installing the power supply device in the power supply compartment of the electronic device, regardless of the orientation of the power supply device, each of the output contacts is made in the form of a strip covering at least part of the side surface of the housing and forming a figure whose longitudinal axis is oriented along the longitudinal axis of the housing, output contacts of the same polarity of different pairs are located at the same distance from the central plane perpendicular to the longitudinal axis of the housing. Strips of output contacts can be made continuous, covering the side surface of the housing around its entire perimeter. The longitudinal axis of the figures formed by the strips of output contacts may coincide with the longitudinal axis of the housing. At least one pair of additional output contacts of different polarity connected to the corresponding terminals of a chemical current source can be placed on each of the end faces of the case, while additional output contacts of one polarity on one of the end faces of the case are located opposite the corresponding additional output contacts of a different polarity its other end face. The topology of additional output contacts can be selected from the condition of non-intersection of rotation patterns formed by the motion paths of additional output contacts of different polarity located on the same end face of the case with an arbitrary rotation of the case around its longitudinal axis. The output contacts of the same polarity can be located at the end faces of the housing and combined with the corresponding additional output contacts located at the edges of the end faces of the housing. Chemical current sources can each be made in the form of a battery. In this case, the power supply device can be equipped with a detachable connector located on the housing with an external charge unit. The charge unit can also be placed inside the housing, while the device is equipped with a detachable connector located on the housing with an external electrical network. The control and charge-discharge control unit connected to the battery can be placed in the housing, which is configured to connect to the charge unit. A memory unit about charge-discharge modes associated with a charge-discharge control control unit may be placed in the housing. An indication unit connected to a charge-discharge control control unit may also be placed in the housing and connected to an indication element located on the outside of the housing.

The specified technical result is provided by the totality of essential features.

In FIG. 1 shows a General view of a design variant of the device with two pairs of ring output contacts on the side surface of the housing. In FIG. Figure 2 shows a sectional view of a device with two pairs of output contacts and with four series-connected current sources placed in the housing. In FIG. 3 shows a general view of an embodiment of the device with the placement of output contacts on the side surface of the housing and on its end faces, and in FIG. 4 is a view from the end of the case. In FIG. 5 shows a structural block diagram of a device with integrated electronic units.

The power supply device of electronic devices contains a housing 1 having a side surface and two end faces, while the housing 1 is made predominantly elongated, it can be made cylindrical in the form of a rectangular parallelepiped, as well as any other shape, for example round. Its end faces are mainly made flat, parallel to one another and perpendicular to its longitudinal axis or inclined to it, or made of a different shape, for example, rounded. At least one chemical current source 2 is placed in the housing 1. Chemical current sources 2 are mainly arranged sequentially along the longitudinal axis of the housing 1 (Fig. 2), but can be placed in another way, for example around the longitudinal axis of the housing 1, inclined to its longitudinal axis, and also be grouped into several batteries. The findings 3 of different polarity of the chemical current sources 2 are connected to the corresponding output contacts 4 and 5, which are located on the housing 1, which form at least two pairs of such contacts. Their location and topology are selected from the condition of ensuring the possibility of their electrical contact with the corresponding receiving contacts of the electronic device when installing the device in the power compartment, regardless of the orientation of the device (receiving contacts are not shown in the drawings). Each of the output contacts 4 is made in the form of a strip, covering at least part of the side surface of the housing 1 and forming a figure, the longitudinal axis of which is oriented along, and in a particular case, coincides with the longitudinal axis of the housing 1 (Fig. 1-4). The strips of the output contacts 4, 5 are made, for example, in the form of a metal film. They can be made in the particular case of continuous, covering the lateral surface of the housing 1, along its entire perimeter (Fig. 4). Unipolar output contacts 4, 5 of different pairs are located at the same distance from the central plane perpendicular to the longitudinal axis of the housing 1. At least one pair of additional output contacts 6, 7 of different polarity can be placed on each end face of the housing 1 (Fig. 3) connected to the corresponding terminals 3 of the chemical current source 2. These output contacts 6, 7 can be made in the form of a metal film, some of them can be made in the form of curly bourns or bulk metal pads, including spring loaded. Moreover, additional output contacts 6, 7 of one polarity on one of the end faces of the housing 1 are located opposite the corresponding additional output contacts of a different polarity on its other end face. The topology of the additional output contacts 6, 7 of different polarity is selected mainly from the condition of non-intersection of the rotation patterns formed by the paths of the additional output contacts 6, 7 of different polarity located on the same end face of the housing 1, with an arbitrary rotation of the housing 1 around its longitudinal axis. A constructive variant of the device is possible in which the output contacts of the same polarity 4 or 5 are located on the side surface of the housing at its end faces and are combined with the corresponding additional leads 6 or 7 located at the edges of the end faces of the housing 1 (not shown in the drawings). The housing 1 is made mainly of dielectric material, but can also be made of metal, while it is equipped with dielectric gaskets isolating it from the output contacts 4-7 (not shown in the drawings). When several chemical current sources 2 are placed in the housing 1, the conclusions 3 from each of them can be additionally brought out by means of electrical conductors to the surface of the housing 1, mainly to one of its end faces, with the formation of a block of control output contacts (not shown in the drawings). Chemical current sources 2 in the device are preferably each made in the form of a battery. In this case, the device can be equipped with a detachable connector 8 located on the housing 1 with an external charge unit. The charge unit 9 can also be placed inside the housing 1. In the housing 1 can be placed connected to a chemical current source (rechargeable batteries or several rechargeable batteries) 2 control and charge-discharge control unit 10, made with the possibility of connecting to an external or internal unit 9 charge (Fig. 5). It can also accommodate a charge-discharge memory unit 11 and an indication unit 12 connected to the charge-discharge control and monitoring unit 10 and an indication unit 12 connected to an indication element located on the outside of the housing 1, for example, an LED, a light-emitting matrix and / or a sound-emitting element (not shown in the drawings). The corresponding conclusions of the electronic blocks 10-12 are mainly derived by means of electrical conductors to the outer surface of the housing 1 (not shown in the drawings) for the possibility of connecting external measuring devices.

When installing the power supply device in the power compartments of electronic devices of various designs intended for them, there is no need to pay attention to its orientation with respect to the receiving contacts, which ensures its wide functionality. At the same time, it is unprincipled which side of the side face or which side of the end faces the device is installed in the power supply compartment. This is especially important in extreme conditions, such as in the dark or unexpected extreme situations. The device can be installed in power compartments with either a longitudinal arrangement of receiving contacts or an end one, with a guarantee of matching polarity of output contacts 4-7 and corresponding receiving contacts, regardless of the orientation of the device during installation. The operational reliability of the device can be further enhanced due to the provided possibility of duplication of output contacts 4-7. The charge of chemical current sources 2, made in the form of batteries, is carried out, for example, by means of a charge side 9 located in the housing 1. The presence of a display unit 12 with an indication element allows timely measures to be taken to replenish the electrical capacitance of the device. The design of the device allows for internal control and external indication of the charge-discharge process, as well as control of its parameters during its operation by means of electronic units 10-12. This further enhances its functionality.

The power supply device, made in accordance with the invention, has wide functionality, allowing it to be installed in the various power supply compartments of electronic devices intended for it, with high operational reliability, without paying attention to its orientation with respect to the receiving contacts.

Claims (12)

1. A power supply device for electronic devices, comprising a housing having a side surface and two end faces and at least one chemical current source disposed therein, the terminals of different polarity of which are connected to corresponding output contacts located on the housing, forming at least two pairs of output contacts of different polarity, the location and topology of which are selected from the condition of ensuring the possibility of their electrical contact with the corresponding receiving contacts of the electronic device when installing the power device in the power compartment of the electronic device, regardless of the orientation of the power device, characterized in that each of the output contacts is made in the form of a strip covering at least part of the side surface of the housing and forming a figure whose longitudinal axis is oriented along the longitudinal axis of the housing, this output contacts of the same polarity of different pairs are located at the same distance from the Central plane perpendicular to the longitudinal axis of the housing. 2. The power supply device according to claim 1, characterized in that the strips of output contacts are made continuous, covering the side surface of the housing along its entire perimeter. 3. The power supply device according to claim 1, characterized in that the longitudinal axis of the figures formed by the strips of the output contacts coincides with the longitudinal axis of the housing. 4. The power supply device according to claim 1, characterized in that at least one pair of additional output contacts of different polarity connected to the corresponding terminals of the chemical current source is placed on each end face of the housing,
additional output contacts of one polarity on one of the end faces of the housing are located opposite the corresponding additional output contacts of another polarity on its other end face. 5. The power supply device according to claim 4, characterized in that the topology of the additional output contacts is selected from the condition of non-intersection of the rotation patterns formed by the motion paths of the additional output contacts of different polarity located on the same end face of the case, with an arbitrary rotation of the case around its longitudinal axis. 6. The power supply device according to claim 4, characterized in that the output contacts of the same polarity are located at the end faces of the housing and are combined with the corresponding additional output contacts located at the edges of the end faces of the housing. 7. The power supply device according to claim 1, characterized in that the chemical current sources are each made in the form of a battery. 8. The power supply device according to claim 7, characterized in that it is provided with a detachable connector located on the housing with an external charge unit. 9. The power supply device according to claim 7, characterized in that the charge unit is located inside the housing, while the device is equipped with a detachable connector located on the housing with an external electrical network. 10. The power supply device according to claim 7, characterized in that the control and charge-discharge control unit connected to the battery is located in the housing and is configured to be connected to the charge unit. 11. The power supply device according to p. 10, characterized in that the housing contains a memory unit for charge-discharge modes connected to the charge-discharge control control unit. 12. The power supply device according to claim 10, characterized in that the display unit connected to the charge-discharge control control unit is connected to the indication element located on the outside of the case.

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