SU578909A3 - Piezoelectric ignition device - Google Patents

Description

one

The invention relates to piezoelectric igniter designs and can be used, for example, in lighters.

A piezoelectric igniter l is known, used, in particular, in lighters, containing a drive element, a body made of a nonmagnetic material, a piezoelectric transducer installed in it, and a shock mechanism having a working and a return spring, a firing pin associated with them, extracted from a magnetic material And pi at least one permanent magnet. A disadvantage of a known device. in,: Tome,; that in order to create a certain O; a holding force has to be made with a relatively large magnet. Furthermore, after yva from the magnet b.oek remains very long in range of the magnet consequence iero most of the energy accumulated in the spring zatrachivaets not the acceleration of the striker, and to overcome the attractive force between the striker and the mage nit. This is due to the low reliability of ignition known piezozapalnik.

The purpose of the invention is to reduce the size of the device and increase the reliability of ignition. This is achieved by the fact that the device has a holding element made of magnetic material, rigidly connected with the case and forming with the permanent magnet and briskly in the rest position of the latter a closed magnetic circuit. In addition, in the proposed device, the part of the striker, facing the piezoelectric transducer, is made on the side; The head is made in the form of a glass, the open part of which is facing the holding element and the permanent magnet is placed in the glass and fixed on its bottom; holding the element is a plate with a protrusion, the plate being connected to the body through the protrusion and facing the striker; the holding element is made in the form of blocks placed right inside the body perimeter; the apostate magnet is attached to the blocks and has a longitudinal hole for accommodating the working spring and the driving element; The magnet and the head are mounted one relative to the other with a gap, forming: a shunt passage in a closed magnetic circuit.

Claims (9)

The device has an additional element to increase striker impact. made of magnetic material and fixed on the surface of the permanent magnet facing the holding member, and also the rod; The additional element for increasing the impact energy of the impact body is made in the form of a plate associated with the working and return springs by means of a rod, this holding element is a washer, in the hole of which the stem is placed. In addition, in the iBMOM device, the striker is attached to a standing magnet and has a shank, with an additional element to increase the impact energy of the striker and a permanent magnet in the form of rings, in the holes of which the striker shaft is axially located. FIG. Figures 1–4 show the four proposed variants of the execution of the piezoznik in an axial section. Shown in FIG. 1 piezo-zapalnik contains a cylindrical body 1 of a non-magnetic material. A piezoelectric transducer 2 is placed in the lower part of this case, with two piezo-crystal crystals that hold, between which high-voltage electrode 4 is placed. Inside this converter there is a reflective plate 5. The converter is surrounded outside the case by an insulating layer b and rests its lower end surface on the bottom 7 housing 1. Over the baffle plate 5 there is a head 8 in the form of a cup in which a permanent magnet 9 is fixed and fixed on its bottom 9. Between the magnet 9 and the bout 8 there is a gap, Braz bypass passage in the closed magnetic circuit. Above the striker 8 there is a holding element 10, made in the form of a plate, from which the protrusion extends upwards. The element 10 is made of ferromagnetic material, and the lower plate-like part of it intersects the open end side of the striker 8 and in the quiescent state adjoins the latter, so that the constant striker 8, the permanent magnet 9 and the holding element 10 magnetic circuit is closed. The protrusion of the retaining element 10 is fixedly attached to an insert 11, preferably made of plastic, in which in the upper part there is a transverse hole 12 of the retainer passage of the locking pin 13, mounted in the holes 14 of the housing. Thus, the retaining element 10 is rigidly connected to the housing 1. Above the retaining element 10 there is a driving element 15 in the form of a cap, in which there are at least two diametrically opposedly oblong holes 16 arranged through which the retaining pin 13 and which limit the mobility of this cap. The lower edge of the drive element 15 has a platform 17 for stopping the compression spring 18, which rests on the other end of the firing pin 8. The device also has a return spring 19 that is inserted between the transducer 2 and the notch in the form of a shoulder 20 at the striker 8. The striker part 8 facing the piezoelectric transducer 2, is made convex. FIG. 2 shows the impact mechanism of the second version of the device. In this embodiment, the retaining element 10 is made in the form of blocks placed along the inner perimeter of the housing, and the permanent magnet 9 is attached to these blocks and has a longitudinal hole for accommodating the working spring 8. and the driving element 15. The head here is made in the form of a disk 21 pin 22. The design of the third version of the device. (Fig. 3) has a cylindrical body 1 of non-magnetic material. At the bottom of this package is a piezoelectric transducer 2, which contains two piezocrystals 3, between which a high-voltage Iyai is located. Electrode 4. On the upper side of the transducer is a spherical baffle plate 23. A firing pin 8 is located inside the baffle plate. above the striker there is a retaining element 10 in washers, which is attached to the wall of the housing with pins 13. The device also has an additional element to increase the impact energy of the striker, made in the form of a plate 24 of -magnetic material and fixed on the surface of the permanent magnet 9 facing the retaining elementu-. The plate 24 is connected to the working 18 and return 19 springs by means of a pin 25 with a cup 26 placed in the opening 27 of the retaining element. The drive element 15 of the device is made in the form of a pressure cap. The thicknesses of the permanent magnet and the magnetic core plate 24 are designed so that the upper free side of the latter is in the plane of the edge of the striker, facing the retaining element. FIG. 4 shows a variant of a piezoelectric ignition device, differing from that of FIG. 3 by performing the striker 8 with the shank 28, the striker being attached to the permanent magnet 9, and the additional element 29 for increasing the striking energy of the striker and the magnet 9 are polished in the form of rings; the holes of the striker 28 are located in the holes 30 and 311. In addition, there are minor changes in the location of the return 19 and spring 18 and the execution of the drive element 15 in comparison with the third version of the piezoelectric head. The principle of operation of the proposed device is illustrated by the example of the first embodiment. When the cap of the element 15 is pressed, the working spring 18 is compressed, and therefore a force is created that acts on the firing pin 8. As soon as the reaction force in the compression cap compressed by the control cap exceeds the force holding the firing pin on the retaining element 10, the firing pin immediately departs from it and is accelerated by the action of the released energy accumulated in the spring 18, in the direction towards the plate 5 of the converter 2. In this case, the striker 8 needs to overcome only the force of attraction, which quickly decreases as it moves away from the retaining element 10, and the force required yus to compress the return spring 1 When the firing pin 8 strikes the plate 5 of the converter 2, the transducer is short-circuited, resulting in a high voltage electrode 4 having a high voltage pulse needed to create a spark and ignite a combustible mixture, such as gas in the lighter. When releasing the cap of element 15, the working spring first returns to its neutral position, after the striker 8, the spring 18 and the control cap are raised by the return spring 19 to its rest position, in which the striker 8 is again held by a magnetic pull on the retaining element 10. With this design, there are no air gaps in the magnetic circuit, and therefore the permanent magnet 9 develops the maximum attractive force. The third and fourth versions of the device have a feature associated with the introduction of an additional element to increase the impact energy of the striker. In particular, in the third variant, when the plate 24 is detached from the retaining element, the latter transfers the magnetic field lines to the rim of the hammer faster than in the previously described structures. In the fourth variant, at the beginning of the striker movement, only a weak magnetic flux emanates from it, ring 29 collects the field lines of force coming from the adjacent pole surface of the ring magnet 9 and concentrates them in the air gap 31 between the magnetic core ring 29 and the striker 28 of the striker. The proposed device develops a relatively high holding force, but the attractive force decreases sharply already at a small distance of the striker from the holding element, as a result of which the accumulated energy of the spring is converted by the impact part to kinetic energy, which in turn ignites. Claim 1iPiezoelectric ignition device, for example, for lighters, containing a drive element, a housing of a non-magnetic material, a piezoelectric transducer installed in it and a percussion mechanism, and an operating and return spring, associated with them a firing pin made of magnetic material, and at least One permanent magnet, characterized in that, in order to reduce the dimensions and improve the reliability of ignition, it has a holding element, made of a magnetic material, rigidly connected with a body and forming with a constant magnet and briskly in a fixed 1 position of the latter a closed magnetic circuit. 2. A device according to claim 1, characterized in that the striker portion facing the piezoelectric transducer is convex. 3. The device according to paragraphs. 1 and 2, that is, the firing pin is made in the form of a glass, the open part of which is facing the retaining element, and the permanent magnet is pied into the glass and fixed on its bottom. 4. The device according to claim 3, characterized in that the holding member is a plate with a protrusion, the plate being connected to the body through the protrusion and facing the striker. 5. Device on PP. 1 and 2, characterized in that the retaining element is mounted in the form of blocks placed along the inner perimeter of the housing, and the permanent magnet is attached to the blocks and has a longitudinal hole for accommodating the operating spring and the driving element 6. Device up to p. 1, characterized in that the magnet and the firing pin are installed relative to each other with a gap, forming a shunt passage in a closed magnetic circuit. 7. The device according to claim 1, characterized in that it has an additional element for increasing the energy of the beats of the striker, made of magnetic material and fixed on the surface of the permanent magnet facing the holding element. 8. The device according to PP. 1-3 and 7, differing in the fact that it has a rod, and the additional element for increasing the impact energy of the striker is made in the form of a plate associated with the working and return springs through the rod, with this holding sjieMeHT is a washer, which hole is placed stock. 9. The device according to PP. 1.2 and 7, characterized in that the firing pin is attached to the permanent magnet and has a shank, wherein the additional Element to increase the impact energy of the striker and the permanent magnet are made in the form of rings, in the holes of which the striker shank is axially located. Sources of information taken into account in the examination: 1. Patent of France  1602085, class F 23 Q, 1971.f /five rS go X ts S7TGL .fO s -18 -EV -eleven / $ Uchuhhhhhhchuchu B ;;;.; ; -: tP45 i u (SS2S.S5SiJ FIG. F