SU583779A3 - Flash lamp - Google Patents

Description

one

This invention relates to a high voltage type lamp of flashlights.

High-voltage flash lamps are known in which flammable material is connected directly in parallel to the pair of inputs and has direct contact with them, being inside the bulb cylinder ij.

Flash lamps are also known; in KOi, flammable materials are placed in parts made of electrically insulating material 2.

The closest in technical essence and the achieved result to the invention is a flash lamp containing a balloon searching for a light-transmitting material filled with a gas oxidizer and a combustible substance, a base with two current leads embedded into it, inserted into the part of the electrical insulating material installed in the balloon in which inflammable material is placed in contact with the specified current leads.

However, in these flashes, a part made of electrically insulating material has a cavity facing the open part towards the combustible substance, which does not eliminate the possibility of short-circuiting the electrically impermeable particles of the combustible mass remaining in the cavity.

The purpose of the invention is to increase reliability and prevent short circuits after a flash.

In the present invention, in order to achieve the goal set, the detail of an electrically insulating material is

There is no hole with a through hole in which the inflammable material is placed. For more complete removal from the cavity of the remnants of a burning material that inserts it, the hole has the form

"Spruce, cylindrical shape, or cone-shaped with a wider part directed towards the bases,

One of the current leads can exit the part from the electrical insulating material in the direction of a combustible substance.

Figure 1 shows a photo lamp, side view; figure 2 - the base of the flash lamp, top view; on fig.Z the base of the flash lamp in the transverse

Claims (5)

cross section, side view; Fig. 4 shows a modified base structure, when one of the current leads protrudes from a part of an electrically insulating material towards a combustible substance, a cross section; Figures 5 and 6 are modified base structures, the cross section; in fig. 7 — flash lamp with base, having a cone-shaped form in cross section, type of sbshu; in FIG. 8, the base of the flash lamp having a cone-shaped cross-section, side view; figure 9 is the same, top view. The lamp consists of a hollow balloon 1, usually made from borosilicate glass or another suitable vitreous material, such as lead glass. On one side of the cylinder there is a pressed junction 2, through which inputs 3 and 4, E pass into the inner core of cylinder 1; water is almost parallel and forms part of base 5. Higher base 5, cylinder 1 is partially filled with combustible substance 6 fluffy mass-like wire, scrap metal or foil, for which zirconium, hafnium or other suitable combustible metal can be used. The air from the cylinder 1 is pumped out of air, of which several atmospheres, approximately 5-10 atm, are injected into the balloon by the acidic electrode under pressure. Then, by sealing the pumping nipple 7 located at the opposite end of the press-in spa 2, the can is sealed. Jlaivma may have a common lacquer or plstikszvoza zoocytic coating. Inputs 3 and 4 are inserted into the part 8 made of electrically insulating glass material and located at the top and around the ends of the inputs 3 and 4 of the EiHyirri component 8 and provided with a through hole 9 located between the ports H and 4 and in communication with them. To manufacture part 8, the following method can be used. A glass ring is placed around the ends of the inlets, which is heated for a certain time to a certain temperature, after which the ring of molten glass coalesces with the ends of the inlets. At the same time, hole 9. acquires a slit-like or jSpyryro shape. Greater accuracy of installation of the glass ring in place no. can be achieved by means of forgery. The terminations of inputs 3 and 4 are only partially included in part 8, as shown in FIG. 3, while the material is placed over the end of the inputs. Nor The minimum dimensions of 8 are 2 mm in height, with the slot-hole 9 between inputs 3 and 4 having a cyrine at bfepHo 0.4 mm and a length of about 1 mm. Hole 9 is filled at least partially ignited with material 10. Various types of flammable materials are known. For example, it is possible to prepare a mixture of the smallest particles of zirconium and potassium perchlorate with a UIHM compound, such as nitrocellulose and a solvent such as emil acetate. Such a binder is introduced in liquid form by means of a syringe into the opening 9. This is accomplished by plastering or immersing the inverted base in a liquid initiator. The small size of the opening 9 B in cross section, as well as the fact that the opening is open on both sides, cause the action of a capillary effect, which contributes to the penetration of a liquid, flammable material into the opening. The binder and solvent are then dried from the combustible material 10 located in the opening 9. It is desirable that the base 5 be pushed into the ba: glone 1 before applying the inflammable material. 10 into the opening 9 in part 8, then above the Talu B port, where the upper part of the orifice 9 is directed to the fuel; the material is placed combustible material 6. After that, through the nipple 7, air is pumped out of the cylinder, and oxygen is pumped out (the nipple is sealed. The base is described in this invention, allow 1 It doesn’t get a number of advantages due to the fact that the upper ends of inputs 3 and 4 n $ are covered with insulating materials and ignite with thin materials; the possibility of removing the inputs before the end of the combustible substance 6 is excluded. Part 8 has a rather large diameter in order to reduce the likelihood that the threads of combustible material b fall down between the tide and the inner surface of the cylinder 1, the inlets 3 and 4 are closed. During the flash, the lamp is usually located bottom-down, as shown in the drawing. At 1 THIS, the voltage applied through the input tjH 3 to 4 f is e, the material is 10, and as a result, sparks from the hole 11 0 come out up and down. A bunch of sparks, directed upwards, ignites combustible material 6, which, due to the presence of acid in the bulb of the lamp, causes a flash of light. A beam of sparks, directed from the hole 9 under the action of gravity downwards, provides complete or almost complete burnout:; the ignition material from the opening 9, This, - B turn, guarantees after the flash the circuit between the inputs 3 and 4. The beam sparks, directed downward, hits a thickened LNA junction 2 at the bottom of the container and does not harm it. Due to the fact that the glass tide of Details 8 covers:, partially or completely at the end of connection 3 and 4, the following is prevented: contact with the end of the burned-in or hour7-input, burned-out metallic particles g (-Rong material 6, which turns off evil : Gully or partial rolling between inlet 4 and the small cross section of the opening 9 prevents the metal particles from falling through the opening 9 and closing the inlets 3 and 4. In the modification shown in FIG. 4, one of the inlets 4 completely passes through the part 8 and has electrical contact with fuel material 6 through the protruding part 11. Such KOH construction is desirable in some types of flash lamps in order to electrically ground the combustible material 6 and reduce the likelihood of an accidental electrostatic flash of the lamp. In the modified structure shown in Fig. 5, the part 8 goes down glass sleeve 12, through which one of the inputs 3 passes. This sleeve serves so that, besides the flash, the remnants of combustible material 6 do not fall into the space under part 8 and do not cause short circuits between the inputs. In the modified structure shown in FIG. 6, Form 8 is such that its lower part partially covers each of the inputs 3 4. This addition is made for the same purpose as in the structure shown in Figure 5, to prevent after the flash of a lamp, residues of combustible material would fall into the space under part 8. which could cause a closure of the inlets. The hole 9 in the part 8 may have a round conical shape, while in the lower part and facing the junction 2, as shown in FIG. 8, the diameter of the bore is larger. FIG. 8 and 9 in opening 9 inflammable material is not shown. In this embodiment, the design of the height of the part 8 is 2 mm, the diameter of the smaller hole in the upper part of the part 8 is approximately 1 mm. Near the upper part of the aperture 9, the vitreous Part material 8 completely covers the upper ends of the inputs 3 and 4, thus eliminating the remnant of combustible material in the opening 9 and the closure of the inputs 3 and 4. Thanks to the cone-shaped opening 9 (its shape is best seen in FIG. 8 and 9), which, with its large diameter, faces the lower part of the lamp (it is assumed that at the time of Envani’s slab flash lamps are oriented in space or the bottom), the remnants of burning initiating material fall out of the hole 9 down This is also facilitated by the action of the flame, which pushes these residues towards the thickened glass junction 2. This eliminates the possibility that some significant part of the initiating material will remain in the opening 9 after the flash and lead to closure of the inputs 3 and 4 or there is a small resistance between them. At the same time, a considerable part of the igniting material is carried by a bundle (a bunch of sparks from the opening 9 upwards, which is connected to the combustible material and ignites it causing a flash of the lamp. The slit hole 9 shown in FIG. 1-6, can be made expanding downwards. The structure shown in FIG. 7-9 may have modifications shown in FIG. 4-6. The invention allows the creation of a high-voltage high-voltage flash lamp, the structure of which provides a complete discontinuity or high resistance between the inputs after the flash. This is possible due to the base structure, which has a non-conductive part located above the end of two parallel inputs. The part has a through hole located between the inputs and having a connection with them (. The hole is partially or completely filled with flammable material and is open to both The location of the non-conductive part inside the lamp is such that when burned, the flammable material is blown from the hole in both directions by a beam of sparks, which excludes the possibility that at least some An impressive amount of burned flammable material will remain in the hole after the flash.It is desirable that item 8 is made of a transparent stack and has rounded side sides. Thanks to this shape, the part acts as a magnifying lens that allows you to visually monitor the presence of flammable material in hole 9. This is also facilitated by the fact that all a material is usually black or dark in color. It is desirable that the form of the inputs 3 and 4 correspond to the form shown in the drawings. At the same time, the inlets should be practically parallel and the distance between them should be greater in the place where they enter the inside of the balloon than in the upper part, where the inlets are connected to part 8 (the distance between the inlets to part 8 is a function of the desired ignition voltage). Thus, the distance between the inlets in the lower part of the cylinder is larger, which reduces the likelihood that residues of combustible material 6 falling into the lower part of the cylinder will cause closure of inlets 3 and 4. End of the inlets enter part 8 from opposite sides. Claim 1, a flash lamp containing a balloon of light-transmitting material filled with a gaseous oxidant and a combustible substance, the base with two current leads inserted into it, inserted into the cylinder in its cylinder in a cylinder, is a part of an electrically insulating material in which a flammable material is placed in contact with the current lead, characterized in that, in order to improve reliability and prevent short circuit after the flash, the indicated datal is made with a through hole, in which the inflammable material is placed. 2. The flash lamp pop.1, that is, that the hole has the shape of a slit. 3. Lamp lamp according to claim 1, characterized in that the hole has a cylindrical shape. - / b fPui.l 4 The flash lamp according to claim 2, wherein the opening has a cone-shaped cross-section and is directed by a wider part towards the base, 5. A flash-flash of a pop. 3, characterized in that one of the current leads protrudes from the electrical insulation material towards the combustible substance Sources of information taken into account in the examination ;. 1. The UK patent number 1266256, cl. G 2 I., 1972, 2. The US patent number 3752636, CL 43195, 1973. 3, Patent of Great Britain No. 1296663, cl. G2 L, 1972. 9 10 iPui.t (put iJl.S Ш6