RU35724U1 - PULSE STARTER (OPTIONS) - Google Patents

Description

PULSE EXTINGUISHER (OPTIONS) The technical field to which the utility model relates. The utility model relates to fire fighting equipment and can be used to drive the induction system of an automatic fire extinguishing system as in an autonomous mode of continuous monitoring of the fire hazardous state of the environment in excess of the ambient temperature specified by the regulation value, and in the manual start mode by decision of the personnel. A thermal starter is known, comprising a solid fuel gas generator and a trigger mechanism made in the case of a spring-loaded needle located in the guide sleeve, provided with a thermal fuse located in the groove of the guide sleeve. (RF patent No. 2098157, IPC 6 A 62 C 35/00, 1997 (analogue)). close to the claimed one by joint signs and thermal signs is a thermal starter made in the form of permanent magnets connected by the same pole, fixed on a rod made of non-magnetic material, installed with the possibility of kinematic interaction with an inductor installed in a magnetic circuit. (RF patent No. 2127623, IPC A62 C 37/00, 1999 (schkshugap)). Disclosure of a utility model When creating a utility model, the problem of expanding the gfsenal of pulse starters was solved. The technical result consists both in expanding the arsenal of pulse starters, and in reducing the complexity of manufacturing and assembly. The indicated technical result is achieved due to the fact that there is an external starter containing a housing, permanent magnets located inside the housing connected by the same poles, mounted on a rod of non-magnetic material, installed with the possibility of interaction with a coils of conductivity, having a frame and located in the magnetic conductive support, and located outside housing trigger element, according to a utility model, it is equipped with a fuse and a cover, while the rod has a head with a through hole and is loaded into the side Well inductors, placed in the fuse 2003125994 - ipiiiiiintViitii 0-0312 59 g of MPK A 62 35/00, Level art. through the openings of the stem head, the housing element covers the head and is installed in the housing with the possibility of freeing the head it covers, the frame has a skirt, and the lid is secured on the frame of the push-button for a coaxial skirt. Moreover, according to the utility model, the trigger element is made thermal. Moreover, according to the utility model, the thermal release element is made of a material having a memory effect, in the form of an open ring. Moreover, according to the utility model, the heat (the trigger element is made of titanium nickel. Moreover, according to the utility model, the fuse is in the center of the cotter pin. The indicated taiga result is achieved due to the fact that the pulse starter, containing constant matnets connected inside the case with the same poles, mounted on a shock-absorber made of non-material material, installed with the possibility of interaction with a rolled inductor I have a frame and located in the magnetic support, and located outside the housing The trigger element, according to the utility model, is equipped with a lid; this shtfi has a head with a screw and is loaded towards the input duct, the element is made by force and placed in the through head of the shock with the possibility of its forced removal, the karkk has a skirt, and K1 % 1shka is mounted on the frame of the inductor coaxially to the skirt.According to the utility model, the power trigger element is made in the form of a ringB fixed on a check with a fixing bracket, while in the through hole of the shock head size w check trigger element. Moreover, according to the model, the corsus is made of heat-resistant and impact-resistant material. Moreover, according to a utility model, the cuvetts are made of aluminum. At the same time, I agree with the utility model that the corse is canned from glass-filled polyamide. Moreover, according to the utility model, the magnets are connected by the north poles. in our body). According to the useful modal, the stock is made of magnetic. Therefore, according to the utility model, PPS is made of brass or bronze. According to the utility model, the shzduyugavnosga coil has a frame made of non-gypsum-water. Moreover, according to the utility model, every coil of inductance was filled from polyamcd. Enumeration of drawings of drawings and other materials The utility model is illustrated by “drawing out a concrete example of its implementation and by the attached drawings, shown in: FIG. 1 depicts a total number of pulse pulses (in fiat 1); FIG. 2 - connection diagram of the diode; FIG. 3 - img starter in working condition; FIG. 4 - general south of the pulse starter (in option 2) with a power trigger element. Implementation of the utility model. Impulse starter (unit 1) contains a case 1, permanent units 2 and 3, unit 4 with a head 5 and with a through hole 6, a coil of grooves 7, having a frame 8 and located in a magneto-rod support 9, and a junction element 10 (Fig. 1). Korgggs 1 is made in vcda cap with two proganov 11 at the bottom end for mounting on the flange 12 and with a hole 13 for the shaft rod 4 in its upper part. Case 1 has a slot 14 for fixing a spock element 10 located outside the case, for example), which can be made of a material having an effective shape memory, for example, titanium nickelide, in the form of an open ring, covering an empty head 5 pcs. 4. Case 1 can be made of heat-resistant and impact-resistant material, nagfimer, of aluminum, glass-filled polyamide and the like. Stem 4 is a two-stage axis with a head 5 on the side of the larger diameter, in which a hole 6 is made for g to displacements; fanited | fifteen.

h. Stem 4 has a neck with a conical transition to the head 5. Stem 4 is made of non-magnetic material, a nagfimer, made of brass, bronze, etc. The pre-grinder 15 can be made in wood, for example, a cotter pin. Two permanent magnets 2 and 3, each of which is made in the form of a thick-walled cylinder, with permanent magnets 2 and 3 connected by the same poles, nagfimer, northerner, are fixed on the step 4 of the smaller digsher rod in a tradicional way. The magnets 2 and 3, fixed on point 4, are installed with the possibility of interaction with the shchukshvosti coil 7. The inductive conductive coil 7 has 8, made of non-ductwork, for example, polyamvda. The inductance coil 7 is filled in the form of a torus with a through hole in the frame 8 for a brush 4 mounted on the rod 4 and 2. The Yufkas 8 has a skirt 16 to prevent the magnet 3 from leaving the inductance coil and prevent the rod 4 from skewing when installing the trigger element 10, in a central heating fuse holder made of a material with a memory effect, which, in turn, both facilitates the assembly conditions of an autonomous pulse starter and reduces labor input, and increases the reliability of an autonomous impulse Katel. The frame 8 has hollow cylindrical protrusions, which serve to center the frame 8 in the Maple support 9 and serve: to exit the input and output ends of the inductance coil 7. The Maple cable 9 is made of steel, for example, electrical. The magnetic support 9 is made in the back of the glass, in the bottom of which there is a hole for the day of the screw mounted on the rod 4 of the magaites 2 and 3 and two openings 17 for the exit of the hollow cylindrical protrusions of the frame 8 with the inlet and outlet ends of the inductance core cable 7. In the upper part of the magnetowire support 9 with the inner side a groove is made for placement on the frame 8 of the lid 19 with subsequent rolling of the edges to secure the latter, while the lid 19 is mounted coaxially to the skirt 16 to the frame 8 of the induction coil 7. The inventive design The establishment, including the introduction of 1FYPKI 19, made it possible, on the one hand, to reduce the laboriousness of manufacturing and assembling an absorber, and with dfuga, to increase the reliability of its operation. h. The housing 1 and the mapping-water bearing 9 are mounted on a flange 12, which is a multi-stage dike, the first stage of which has holes for fastening the pulse starter as a whole, the second stage has a central part, centering wrinkles relative to the axis, and two holes for attaching the brush to the flange, on the third stage there are contacts, on the fourth stage there are two holes for scattering the magnetocircular support 9 to the flange 12. The flange 12 also has a fifth stage 20, which is made in the cup and can have a bottom hole in the bottom e. The fifth step 20 is designed to provide a complete access to the pins, 4 magnets 2 and 3 of the inductor 7. The bottom of the fifth step can play the role of a limiter to the movement. Below, under the flange 12, there is a cavity into which contact 21, connected through a diode 22 (Fig. 2), makes it possible to ensure the current direction only in cTopoiQ: from minus to plus, with the input end of the inductance coil of the inductance coil 7, and contact 23, connected to the output end of the cuvette of the IEI inductance coil 7, and the channel 24 for outputting the cuode (not shown in the drawing). In the upper part of the housing 1, as in the guides, there is a wire 25, with which the rod 4 is loaded towards the side of the shedukavnosti 7, tfi this one end of the spring 25 rests on the cortus 1, and the other on the end surface of the magnesia 2. Thus, the pulse starter equipped with a pre-stopper 15 and a cover 19,1FI; this rod 4 has a head 5 with a through hole 6 and is loaded into the CTOpoi of the inductance coil 7 by a spring 25, a pre-fuse 15 is placed in the through hole b of the head 5 4, the trigger element 10 covers the head 5 of the receiver 4, the frame has a skirt 16, and 1fyp1ka 19 fixed On the frame 8, the coils are coaxial to the skirt 16. The impulse start in step 1, providing automatic operation, works as follows. Upon reaching the set operating temperature in the zone where the pulse starter is installed, the ends of the open ring of the thermal trigger element 10, covering the head 5 of the casing 4 and resting on the bottom of the slot on the housing 1, diverge, i.e. trigger element 10 is installed in with the possibility of releasing the head 5 of the rod covered by it. The released rod 4, under the influence of the spring 25, moves in the name of the coil 7.

The magnets 2 n 3 fixed on pggok 4 pass through the catupps of induction 7 (Fig. 3) and produce in it a signaling system (not shown) is sent by wires to devices whose operation triggers the fire extinguishing system and / or q. The impulse starter gfivodig is an incentive system for installing an automatic fire extinguishing system in an autonomous mode of continuous monitoring of a fire-hazardous state OIqQ burning in case of an increase in the ambient temperature of the value specified by the regulation.

Thus, the pulsed hitch according to variash 1 is automatically activated and generates a current pulse, which activates the fire extinguishers of the fire extinguishing system.

The pulse starter (in phiang 2) contains a housing 26, permanent magnets 2 and 3, P1TOK 4 with a head 5 and with a through hole 6, an inductor 7 having a frame 8 and located in a mast conductor 9, and a power trigger element 27 (Fig. 4).

 26 is made, as in vgfiant 1, in the form of a cap with two eyes 11 at the lower end for mounting on the flange 12 and with an opening 13 for the passage of the rod 4 in its upper part.

Unlike case 1 for variash 1, korgz from 26 to variash 2 does not have a slot for fixing (Tender elemenga.

The housing 26 can also be made of heat-resistant and impact-resistant material, for example, aluminum, steak-filled polyamide, etc.

The power trigger element 27 is fully embossed in a ring fixed on a check 28 of a traditional design with a fixing bracket, while a through-hole 6 of the head 5 of the shock 4 has a check 28 of the power sniping edema 27, and a traditional-style locking bracket covers the outer surface of the head 5 of clutch 4 , thereby fixing th 28 with the ring in the initial position.

The remaining structural elements: permanent magnets 2 and 3, pzhzh 4 with a head 5 and with a through hole 6, an inductor 7, a frame 8 and located in the duct support 9, etc. - made as shown in option 1.

Thus, the shoogles starter with permanent magnets 2 and 3 painted over the rod 4 according to option 2 is provided with a cover 19, u) and this rod 4 has a head S with a through hole 6 and is loaded towards the coil 7

9 c

the inductance, the trigger element 27 is made power and placed in the through hole 6 of the rod head with the possibility of its final removal, the frame 8 of the inductor 7 has a skirt 16, and the cover 19 is fixed to the sleeve 8 coaxially to the skirt 16.

Pulse xt scanner according to option 2, providing a manual response mode, operates as follows.

If there is an urgent need in the fire protection zone, for example, to activate the fire extinguishing system, the check 28 with the aid of a cola is forcedly pulled out of the through hole 6 of head 5 of pin 4, and then, as in option 1, release; the second rod 4 under the influence of Hfuzhina 25 moves in the name of the coil of artifacts 7 (Fig.Z). The mashas 2 and 3, mounted on the rod 4, pass through the coil 7 and produce a pulse in it that buys the guides on the devices, the operation of which activates the fire extinguishing system of the sigalization means (not shown).

Thus, the pulse starter according to variash 2 is manually actuated, and then it itself generates a current pulse that drives, for example, fire extinguishers of the extinguishing system.

In addition, the implementation of the pulse starter according to variash 2 allows, iqpoMe to reduce the laboriousness of manufacturing and assembly, to repeatedly reset it without replacing the power trigger 27.

They have 10 starters, both in version 1 and in category 2, can be made with a wide range of operating temperatures. In addition, they differ from the known ones in that they can be operated u) and at low temperatures, for example, from minus 60 ° C, they are highly noise-immune from the effects of high magnetic fields, resistant to vibration and can be used in explosive rooms, which allows their base to build autonomous fire extinguishing systems. In addition, the claimed pulse starters are simple in design, do not require maintenance and have high reliability.

Claims (23)

1. Pulse starter, comprising a housing, permanent magnets located inside the housing connected by poles of the same name, mounted on a rod of non-magnetic material, mounted to interact with an inductor having a frame and located in the magnetic support, and a trigger element located outside the housing, characterized in that it is equipped with a fuse and a cover, while the rod has a head with a through hole and is loaded towards the inductor, the fuse is placed in the through tverstii head stock, the shutter element covers the head and shaft mounted in the housing with a releasable head covered thereby, the frame has a skirt, and the cap is fixed on the frame coaxially with the skirt inductor. 2. The pulse starter according to claim 1, characterized in that the trigger element is made thermal. 3. The pulse starter according to claim 2, characterized in that the thermal release element is made of a material having the shape memory effect, in the form of an open ring. 4. The pulse starter according to claim 3, characterized in that the thermal trigger element is made of titanium nickelide. 5. The pulse starter according to claim 1, characterized in that the fuse is made in the form of a cotter pin. 6. The pulse starter according to claim 1, characterized in that the housing is made of heat-resistant and impact-resistant material. 7. The pulse starter according to claim 6, characterized in that the housing is made of aluminum. 8. The pulse starter according to claim 6, characterized in that the housing is made of glass-filled polyamide. 9. The pulse starter according to claim 1, characterized in that the magnets are connected by the north poles. 10. The pulse starter according to claim 1, characterized in that the rod is loaded with a spring installed in the rails. 11. The pulse starter according to claim 1, characterized in that the rod is made of non-magnetic material. 12. The pulse starter according to claim 1, characterized in that the inductor has a frame made of non-magnetic material. 13. An impulse starter comprising a housing, permanent magnets located inside the housing connected by poles of the same name, mounted on a rod of non-magnetic material, mounted to interact with an inductor having a frame and located in the magnetic support, and a trigger element located outside the housing, characterized in that it is equipped with a cover, while the rod has a head with a through hole and is loaded towards the inductor, the trigger element is made by force and placed in through th head opening rod, with its forced removal, the frame has a skirt, and the cap is fixed on the frame coaxially with the skirt inductor. 14. The pulse starter according to item 13, wherein the power trigger element is made in the form of a ring mounted on a check with a fixing bracket, while the trigger element check is placed in the through hole of the stem head. 15. The pulse starter according to item 13, wherein the housing is made of heat-resistant and impact-resistant material. 16. The pulse starter according to clause 15, wherein the housing is made of aluminum. 17. The pulse starter according to item 15, wherein the housing is made of glass-filled polyamide. 18. The pulse starter according to item 13, wherein the magnets are connected by the north poles. 19. The pulse starter according to item 13, wherein the rod is loaded with a spring installed in the rails. 20. The pulse starter according to item 13, wherein the rod is made of non-magnetic material. 21. The pulse starter according to claim 20, characterized in that the rod is made of brass or bronze. 22. The pulse starter according to item 13, wherein the inductor has a frame made of non-magnetic material. 23. The pulse starter according to item 22, wherein the frame of the inductor is made of polyamide.