RU2313171C1 - Off-line renewable current supply - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: proposed current supply has housing accommodating current-generating section incorporating solenoid and movable magnet, electronic facilities with electric charge storage, electric drive circuits, and means for load connection/disconnection; external size of solenoid exceeds its internal size by 1.5 to 2.5 times. Movable magnet is mounted between end limiting members for shuttle movement over duct within solenoid when housing is acted upon. At least part of electronic facilities, including electric charge storage, are disposed in unit separated from housing together with load connection/disconnection means. Mentioned separate unit has easily separable means for attaching unit to housing and flexible cable connection between them. Reel assembly is disposed on housing periphery for cable winding and unwinding.

EFFECT: improved performance characteristics, enhanced efficiency, enlarged functional capabilities.

15 cl, 2 dwg

Description

The invention relates to the generation of electrical energy, and more specifically, to a device for autonomous renewable current sources, more specifically, to linear low-power electric generators with a movable magnet inside the solenoid, driven by external action on the body of the current source.

Known autonomous renewable current source, comprising a housing; a current generating part with a solenoid and a movable magnet installed with the possibility of shuttle movement along the channel inside the solenoid, between the end restrictive elements, when exposed to the housing; electronic means with an electric charge storage device; electrical wire circuits; means of connecting / disconnecting the load: see US patent No. 5347186, figa.

The specified device is an analogue and prototype of the invention. A well-known self-contained renewable current source includes an elongated body, on one side of which a solenoid is placed (more precisely, a solenoid row of four inductive coils), and on the other, opposite side of the body, electronic means are placed together with means for connecting / disconnecting the load (electricity consumers). This prototype device has a large axial dimension and, accordingly, a large mass, and therefore it is inconvenient to use, it is difficult to carry it on the body (on clothes) and hold it in your hand. When connected to a current source of widely used consumers of electricity, such as, for example, portable radios or players, connecting wires create additional inconvenience to the user.

These operational disadvantages of the known current source are exacerbated by its low efficiency: when handling a bulky device, it is difficult to ensure a high speed of passage of the magnet through the solenoid and a high frequency of generated electrical pulses; It takes a long time to charge the current source. An additional reason for the low efficiency of the prototype device is the small thickness of its solenoid: the external size (in this case, the external diameter) exceeds the internal one by only 1.4 times. Ultimately, the well-known stand-alone renewable current source is a bulky, heavy, inconvenient to use and ineffective device, which, due to these shortcomings, has not found application.

The invention solves the technical problem of comprehensive improvement of an autonomous renewable current source, namely, improving operational characteristics along with increasing efficiency, in order to provide the specified device with the possibility of widespread use.

The stated technical problem is solved in that in an autonomous renewable current source, including a housing; a current generating part with a solenoid and a movable magnet installed with the possibility of shuttle movement along the channel inside the solenoid, between the end restrictive elements, when exposed to the housing; electronic means with an electric charge storage device; electrical wire circuits; means for connecting / disconnecting the load, according to the invention, the external size of the solenoid exceeds the internal one by 1.5-2.5 times; at least a portion of the electronic means, including the electric charge storage device, are mounted together with load connection / disconnection means in a unit detachable from the housing with the presence of quick-disconnect means for fastening the unit to the housing and flexible cable connection between them, with a bobbin winding device located on the periphery of the housing and cable unwinding.

In particular cases of the invention:

- the elements of the current generating part are characterized by a section of a rectangular, preferably square, shape;

- the relative sizes of the elements of the current generating part are in the following ranges: the length of the magnet is (0.75 ÷ 1.25) of its thickness, the axial size of the solenoid is (0.75 ÷ 1.25) the lengths of the magnet, and the distance from the solenoid to the end limit element is (0.75 ÷ 1.5) magnet lengths;

- the solenoid is made of copper wire with a diameter of 0.15 to 0.5 mm, wound in an amount of from 2000 to 5000 turns;

- the end restrictive element is an elastic non-metallic disk;

- the end restrictive element is an elastic diaphragm;

- the end restrictive element is a spring;

- the end restrictive element is a magnet facing the movable magnet of the same name pole;

- the end restrictive element is directly the end surface of the channel;

- the end restrictive element is the hull;

- the accumulator of electric charge is a battery;

- the accumulator of electric charge is an ionistor;

- an electricity consumer is built into the unit, for example an LED flashlight;

- the housing is equipped with means of retention on the body of a person and / or animal;

- the unit is equipped with means of retention on the body of a person and / or animal.

When carrying out the invention, a technical result is expected that coincides with the essence of the problem being solved.

The invention is illustrated by the drawings:

- figure 1 represents a schematic proposed autonomous renewable current source;

- figure 2 is an electronic circuit of the proposed autonomous renewable current source.

1 shows an autonomous renewable current source according to the invention. The housing of this device, made in the form of a body of revolution, contains an end sleeve 1 and a middle sleeve 2 connected by a union nut 3. A cylindrical tube 4 is installed along the axis along the axis with a round solenoid covering it in the middle part 5. A magnet 6 is placed inside the tube with a gap so that it has the ability to shuttle along the tubular channel between the elastic non-metallic gaskets (disks) 7 and 8 located at its ends. Outside of the sleeve 2, a coil 9 surrounding it is mounted with the possibility of rotation by hand in round the longitudinal axis of the housing. Together, these two parts form a bobbin device for cable 10 related to the electrical conductive circuits of the current source. The bobbin device fits well into the housing dimension, since, according to the invention, the external size (diameter) of the solenoid exceeds the internal one by 1.5–2.5 times. The assembly of the above elements into a single unit is carried out by means of a threaded sleeve 11 (which in a particular design is part of the housing).

One end of the cable 10 is connected to mounted on the periphery of the housing electronic means 12A, and the other end of the cable is passed outside the housing through a longitudinal groove 9A in the coil 9. Thus, it is possible to wind the cable on part 2 and unwind it. At the other end of the cable, there is a unit 13 in which electronic means 12B are mounted, including an electric charge storage device, as well as means for connecting / disconnecting a load (that is, for supplying a consumer device). In addition, an LED 14 with a focusing lens 15, which together represent a portable flashlight, is integrated in the indicated unit; it is equipped with a switch 16.

Quick disconnect means are provided for attaching the unit to the housing.

They include a flexible bendable plate 17 fixed to the block, which is inserted into the corresponding slot 11A in the housing sleeve. In figure 1, this slot of width W has a rectangular section and is directed perpendicular to the plane of the drawing. The plate 17, the width of which is less than the value of W, is shown in figure 1 in a lateral position, so that for assembly with the housing, the block must be rotated around the axis by 90 °, after which the plate is bent over the free end and inserted into the aforementioned slot. In the assembled state, the housing surface 11B is securely pressed by the plate 17 to the block surface 13A. In this case, the end of the plate protrudes outward from the slot, so that the plate can again be bent and the unit can easily be separated from the housing. The plate can also be used to hold the block on the body of a person, animal or other object. The housing can be fixed to the object by means of a tape (cord) threaded through the slot 11A.

Figure 2 presents the electronic circuit of an autonomous renewable current source, shown in figure 1. The solenoid 5 is connected to the inputs of a four-diode bridge rectifier 18, and its outputs are connected by electric circuits 19 and 20 to an electric charge storage device 21; in a specific circuit, this is a battery. A pair of detachable contacts 22 is connected to it for the possibility of connecting an external load: a charger, a portable radio, a signal beacon, and another consumer of electrical energy. The circuit also contains electric circuits with the aforementioned LED 14 and a switch 16. According to FIG. 1, the electronic circuit is structurally divided into two parts connected by a cable 10, which is functionally part of the circuits 19, 20.

The proposed standalone renewable current source works in the same way as a well-known similar device. The shuttle movement of the magnet 6 relative to the solenoid 5, necessary to obtain electric impulses, is carried out by force acting on the device body: manual shaking, vibrations when walking (running) or vibration when the vehicle is moving. In this case, the end gaskets 7 and 8 dampen the shock loads on the structure and facilitate the return movement of the magnet in the direction of the solenoid. The AC pulses generated in it are rectified by the bridge 18 and then spent directly on the load and / or accumulated in the battery 21 for subsequent consumption.

The above specific technical solutions do not exhaust the essence of the invention. In particular, in the proposed autonomous renewable current source, the housing does not necessarily have the shape of a body of revolution, and instead of round elements of the current generating part, a solenoid, tube and magnet of a rectangular, preferably square, section can be mounted in it. In place of the end gaskets 7 and 8 shown in FIG. 1 (which can be performed, for example, in the form of rubber washers), elastic diaphragms, springs (for example, plate-like) or fixed magnets facing the movable magnet 6 with the same pole can be installed. The presence of the listed restrictive elements is not mandatory: the shuttle movement of the magnet 6 can occur directly between the body parts of the current source or between the end surfaces that can be provided in the tube 4.

It is obvious that the fastening and holding means for the housing and the block shown in FIG. 1 do not exhaust their possible designs (in particular, well-known clothespins, Velcro, etc. can be used). For a number of specific applications of the current source, means for holding the unit and / or housing may not be provided.

In an electronic circuit of a current source, an ionistor can be used as an electric charge storage device. Several pairs of detachable contacts 22 may be provided for connecting various consumers of electricity. These contacts are not required if there are built-in consumers in unit 13, and their list is not limited to an LED light (for example, a signal beacon can be built in). The presence of built-in consumers is also not necessary.

The invention is practicable based on conventional technology. A movable magnet is made of an alloy with a high magnetic force (for example, “samarium-cobalt”, “neodymium-iron-boron”). The magnet body can be solid or consist of several parts with different characteristics (which is determined, in particular, by the possibilities of manufacturing the magnet).

As established by many tests of prototypes of the current source, for most applications it is advisable to produce a solenoid from a copper wire with a diameter of 0.15 mm to 0.5 mm, winding it in an amount of 2000 to 5000 turns (the minimum diameter corresponds to the largest of these numbers, and the maximum diameter - smaller). The optimal combination of characteristics of the current source is achieved in most cases when the relative sizes of the elements of the current generating part are in the following limits: the length of the magnet is (0.75 ÷ 1.25) of its thickness, the axial size of the solenoid is (0.75 ÷ 1.25) the length of the magnet, and the distance from the solenoid to the end of the restrictive element is (0.75 ÷ 1.5) of the lengths of the magnet.

The prototypes of an autonomous renewable current source made according to the invention turned out to be 2-3 times shorter and significantly lighter than a similar device, the samples fit easily in the hand; they are easy to manipulate (shake) to generate current pulses. For 30 seconds of such an operation, a sufficient supply of electricity is generated to power the built-in LED flashlight while the portable radio is operating for half an hour.

The scope of the invention is primarily the supply of low-power current consumers - such as beacons, portable radios and radio transmitters, players, cell phones, portable electric lights and the like, especially in emergency conditions. Such devices worn on the body (clothing), it is advisable to include in the kit along with the proposed autonomous renewable current source. For example, it is conveniently combined with portable radios fixed in the human ear (US patent No. 5313663) or on a tape around the head (US patent No. 5438698). In this case, the case of the current source can be attached, for example, to the belt, and the unit to the collar of the shirt, and it is convenient to connect a radio receiver to the unit, which is easy to carry on the head due to its small weight and dimensions (due to the lack of electric batteries). When recharging the radio, you can not turn it off. In this regard, the current source shown in FIG. 1 with a built-in lamp, which can be used in any position and at the same time recharge, is particularly convenient.

The above confirms the technical result expected from the invention, consisting in a comprehensive improvement of an autonomous renewable current source, namely, improving its operational characteristics, increasing efficiency and expanding the scope.

Claims (15)

1. Autonomous renewable current source, including a housing, a current-generating part with a solenoid and a movable magnet installed with the possibility of shuttle movement along the channel inside the solenoid, between the end restrictive elements, when exposed to the housing, electronic means with an electric charge storage device, electric wire circuits, means connection / disconnection of the load, characterized in that the external size of the solenoid exceeds the internal one by 1.5 ÷ 2.5 times, at least part of the electronic means, including opitel electric charge, are mounted together with the means of connection / disconnection of load in the discharge from the housing block to the presence of quick release fastening means to the housing unit and flexible cable connection therebetween, wherein the housing at the periphery of the device taken bobbin for winding and unwinding the cable. 2. The stand-alone renewable current source according to claim 1, characterized in that the elements of the current generating part are characterized by a section of a rectangular, preferably square, shape. 3. The autonomous renewable current source according to claim 1, characterized in that the relative sizes of the elements of the current generating part are in the following ranges: the length of the magnet is (0.75 ÷ 1.25) of its thickness, the axial size of the solenoid is (0.75 ÷ 1.25) the length of the magnet, and the distance from the solenoid to the end restrictive element is (0.75 ÷ 1.5) the length of the magnet. 4. Autonomous renewable current source according to claim 1, characterized in that the solenoid is made of copper wire with a diameter of 0.15 to 0.5 mm, wound in an amount of from 2000 to 5000 turns. 5. The stand-alone renewable current source according to claim 1, characterized in that the end limiting element is an elastic non-metallic disk. 6. Autonomous renewable current source according to claim 1, characterized in that the end limiting element is an elastic diaphragm. 7. Autonomous renewable current source according to claim 1, characterized in that the end limiting element is a spring. 8. The stand-alone renewable current source according to claim 1, characterized in that the end limiting element is a magnet facing the movable magnet with the same pole. 9. The standalone renewable current source according to claim 1, characterized in that the end limiting element is the end surface of the channel. 10. The standalone renewable current source according to claim 1, characterized in that the end limiting element is a housing part. 11. Autonomous renewable current source according to claim 1, characterized in that the electric charge storage device is a battery. 12. The stand-alone renewable current source according to claim 1, characterized in that the electric charge storage device is an ionistor. 13. Autonomous renewable current source according to one of claims 1 to 12, characterized in that the unit has a built-in consumer of electricity, such as an LED flashlight. 14. Autonomous renewable current source according to one of claims 1 to 12, characterized in that the housing is equipped with means of restraint on the body of a person and / or animal. 15. Autonomous renewable current source according to one of claims 1 to 12, characterized in that the unit is equipped with means of retention on the body of a person and / or animal.

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