RU186858U1 - Manual fire detector - Google Patents

Abstract

A manual fire detector belongs to the field of fire alarm and is designed to manually turn on and transmit an alarm or command to turn on fire extinguishing means in fire alarm systems. In a manual fire detector, comprising a housing with a cover, in which a circuit board with a light indicator and a reed switch is located, a drive mechanism with a magnet and a cylindrical rod placed in the sleeve, the sleeve is fixed to the inner surface of the cover, the rod is made of stepped magnetic material, from the outside the lid coaxially with the sleeve and the rod, a security ring is made with a gland of a stage of a rod of a smaller diameter, the magnet is fixed inside the case opposite the end face of the stage of a larger diameter of the rod, and between the stage with erzhnya larger diameter and the sleeve is placed an additional magnet. In this case, the additional magnet is made circular, the step of the rod with a larger diameter is made with an internal cavity, the diametric size of which is larger than the described diameter of the magnet, and the housing is made of magnetic material or shielded by it. The technical result of the improvement of the manual fire detector is to increase the tightness of its drive mechanism, as well as simplification of the detector housing design. 3 s.p. f-ly, 2 Fig.

Description

Declared as a utility model, a manual fire detector belongs to the field of fire alarm and is intended to manually turn on and transmit an alarm or command to turn on fire extinguishing means in fire alarm systems.

Known fire manual detector containing a housing with a lid, which houses a circuit board with a light indicator and a reed switch, a flat pin with a magnet, placed in a groove on the outside of the housing. The magnet of the check acts by its field on the reed switch and when pulling out the check this field disappears, which leads to a switch of the reed switch and a change in the operating mode of the circuit board (current consumption from the control panel) and a change in the mode of illumination of the detector indicator light (https: // smd-tlt .ru / image / db / files / Pasp / Pasp GorizPusk.pdf FIRE DETECTED HAND EXPLOSION PROTECTED IPR 535 Horizontal IPR 535, Horizon “START” TU 4371-001-81888935-2012. Operation manual. Passport).

The disadvantage of such a detector is the low security of the detector’s checks from dust and moisture, which, when used in humid climates and at zero temperatures, can lead to its freezing to the case and violation of the detector's actuation forces, standardized by GOST R 53325-2012. The magnet is located on the outside of the case and in case of magnetic interference (for example, bringing a more powerful magnet to it) can lead to false alarms of the detector. In addition, placing checks on the outside of the case requires the manufacture of a non-standard case, which increases the cost of the detector. A known manual fire detector containing a cast aluminum case with a cover, in which there is a circuit board with a light indicator and a reed switch, a drive mechanism in the form of a cylindrical pin with a magnet placed in a sleeve on the outside of the case. The sleeve is cut along its axis to drain water from the drive mechanism. A spring-loaded rod is placed in the inner cavity of the check, which, after pulling out the check, does not allow it to be put in place without the use of a special tool. The magnet of the check acts on the reed switch with its field and when the check is pulled out, this field disappears, which leads to a switch of the reed switch and a change in the operating mode of the circuit board (current consumption from the control panel) and a change in the mode of illumination of the detector indicator light (http: // spectron-ops .ru / sites / default / files / ip_535_spectron-pozhar_re_1.pdf, FIRE-FIGHTED HAND EXPLOSION-PROOF DETECTOR IP 535 “Spectron”, Operation manual. SPEC.425211.001RE).

The disadvantage of such a detector is the low protection of the detector drive mechanism from dust and moisture, which, when used in a humid climate and at zero temperatures, can lead to freezing of the check to the sleeve and a violation of the detector's actuation forces, standardized by GOST R 53325-2012. The magnet is located on the outside of the case and in case of magnetic interference (for example, bringing a more powerful magnet to it) can lead to false alarms of the detector. In addition, placing checks on the outside of the case requires the manufacture of a non-standard case (casting), which increases the cost of the detector, and the ring of checks protruding beyond the front surface increases the dimensions (thickness) of the detector by ensuring that ergonomic requirements are met to bring it into effect by a person, which leads to a decrease in the fire passage (corridor) of the room.

Known manual fire detector, comprising a housing with a cover, in which there is a circuit board with a light indicator and a reed switch, a drive mechanism in the form of a cylindrical pin (rod) with a magnet placed in a non-magnetic sleeve on the outside of the aluminum case, The sleeve is cut with a groove along its axis for drainage water from the drive mechanism. The magnet of the check acts by its field on the reed switch and when pulling out the check this field disappears, which leads to a switch of the reed switch and a change in the operating mode of the circuit board (current consumption from the control panel) and a change in the mode of illumination of the detector indicator light. (https://eridan-zao.ru/upload/file/eridan_catalog/filename/manual_ip535_07e.pdf Announcer manual fireproof IP535-07e. Operation manual 4371-006-43082497-04-01 RE, 2018).

The disadvantage of such a detector is the low protection of the detector drive mechanism from dust and moisture, which, when used in a humid climate and at zero temperatures, can lead to freezing of the check to the sleeve and a violation of the detector's actuation forces, standardized by GOST R 53325-2012. The magnet is located on the outside of the case and in case of magnetic interference (for example, bringing a more powerful magnet to it) can lead to false alarms of the detector. In addition, placing checks on the outside of the case requires the manufacture of a non-standard case (casting), which increases the cost of the detector, and the ring of checks increases the dimensions of the detector by ensuring that ergonomic requirements are fulfilled for human activation.

The problem to be solved as claimed as a utility model for a manual fire detector is to increase its reliability when used in various climatic conditions and under the influence of external magnetic fields, as well as to reduce the cost of its manufacture.

The technical result of improving the manual fire detector is to increase the tightness of its drive mechanism, as well as simplifying the design of the detector housing.

The specified technical result is achieved by the fact that in a manual fire detector containing a housing with a cover in which there is a circuit board with a light indicator and a reed switch, a drive mechanism with a magnet and a cylindrical rod placed in the sleeve, the sleeve is fixed to the inner surface of the cover, the rod is made of stepped magnetic material, on the outer side of the lid coaxially with the sleeve and the shaft, a guard ring is made with an oil seal of the lower stage of the rod, the magnet is fixed inside the case opposite the end with tupeni larger diameter of the rod, and between the step of the rod of larger diameter and the sleeve is an additional magnet. In this case, the additional magnet is made circular, the step of the rod with a larger diameter is made with an internal cavity, the diametric size of which is larger than the described diameter of the magnet, and the housing is made of magnetic material or shielded by it.

Fixing the sleeve on the inner surface of the cover and placing the magnet inside the housing allows you to place the actuator mechanism of the detector inside the sealed housing, which, coupled with an oil seal located on the guard ring and covering the surface of the rod, can increase the degree of protection of the drive mechanism from water and dust and prevent the rod from freezing in sleeve, which increases the reliability of the detector in conditions of zero temperature during moisture condensation. Providing the detector with a guard ring avoids false alarms in case of an accidental lateral force and uses it to place an oil seal and a transparent removable cover, which prevents the penetration of moisture and dust into the inside of the housing and the drive mechanism. Placing the magnet inside the case, for example, on the circuit board, in the immediate vicinity of the reed switch, allows you to constantly influence the reed switch with a magnetic field and, in the event of loss of magnet properties, to signal the detector malfunction by its false operation, like in analogs. The execution of the rod (button) of the drive mechanism in steps and made of magnetic material allows you to bypass the magnetic field of a magnet placed on the circuit board with a step of a larger diameter of the rod when moving the rod and thereby switch the reed switch, causing the detector to trigger, and also fix the rod (detector button) in the mode “Fire” with the required return force with a special tool, which fulfills the requirement of GOST R 53325-2012. Performing a larger diameter inner cavity at the step of the rod covering the magnet on the circuit board allows even more reliable shunting of the magnet field acting on the reed switch and avoiding the selection of the reed switches sensitivity and magnets strength during detector production. Placing an additional magnet between a step of a rod of a larger diameter and the sleeve, for example, a glued ring magnet to the end of the sleeve, allows you to fix the rod (button) of the drive mechanism in standby mode with the lowest cost, normalized by GOST R 53325-2012, by bringing the detector into action by pulling the ring a magnet and, accordingly, a magnetic step of a rod of a larger diameter to the end face of a sleeve made, for example, of magnetic material (steel). Placing the detector drive mechanism on the lid and inside the housing reduces the requirements for the configuration and design of the housing and uses standard commercially available housings in the form of a parallelepiped, thereby reducing the cost of the detector. The implementation of the detector housing from magnetic material (steel) or its shielding of a non-magnetic housing and cover, along with the placement of the magnet inside the housing, can reduce the effect of external magnetic fields on the reed switch and magnet, increasing the reliability of the detector in the presence of external magnetic fields. An example of the implementation of the claimed as a utility model of a manual fire detector is illustrated by drawings.

In FIG. 1 shows a general view of a manual fire detector.

In FIG. 2 is a section A-A of FIG. 1. The detector contains a rectangular housing 1 without lateral tides with a cover 2, on the side wall of housing 1 there is a cable entry 3 of the detector's communication lines with a control panel (not shown in the drawing). Inside the housing 1, there is a circuit board 4, on which terminal blocks 5 are placed for connecting communication lines with a control panel to the detector (not shown in the drawing), a light indicator of the detector's operating modes 6, reed switch 7 and magnet 8, placed on the base 9 made of magnetic material, such as steel, and other electro-radio elements (not shown in the drawing). The location of the reed switch 7 and the magnet 8 and the dimensions of the magnetic base 9 are selected so that the field of the magnet 8 acts on the reed switch 7, holding it in the on state in standby mode of the detector. The housing 1 and the cover 2 can be made of magnetic material (steel) or shielded by it to reduce the influence of external magnetic interference on the reed switch 7 and magnet 8. A transparent window 10 is made on the cover 2, through which the light of the indicator light of the detector operating modes 6 is visible. the inner surface of the cover 2 is placed a sleeve 11 of magnetic material, which is fastened to the security ring 12 by screws (not shown) through the cover 2 and the gasket (not shown). The security ring 12 along with the hole in the cover 2 is a continuation of the sleeve 11 and aligned with it. In the guard ring 12 there is a stuffing box 13, made for example in the form of a silicone ring that does not freeze to metal, and a stepped shaft 14 of magnetic material (steel), which acts as a button for activating the detector. The rod 14 is also located in the sleeve 11. On the end face of the small diameter of the rod 14 there is a threaded blind hole 15 with a non-standard thread for fastening a special tool (screw) in it to return the detector to standby mode (not shown in the drawing), but may a cavity 16 must be made whose diameters are larger than the dimensions of the magnet 8. The coordinates of the center of rotation of the rod 14 are selected so that when it moves in the sleeve 11, the cavity 16 of the rod 14 covers the magnet 8 without touching its inner cylinder the main part. The height of the cavity 16 is equal to or less than the height of the magnet 8, at the end of which non-magnetic gaskets can be placed (not shown in the drawing) to regulate the tearing force of the rod 14 from the magnet 8 when the detector is activated in standby mode. The security ring 12 has a slope of its inner surface to drain water, for example, after rain, and can be closed with a quick-detachable transparent cover (not shown in the drawing) to increase the dust and moisture protection of the cavity of the security ring and the detector as a whole, which is allowed by the standard. At the end of the sleeve 11, an additional ring magnet 17 is fixed (glued) with non-magnetic gaskets 18 glued (it is also possible to fix the magnet 17 with gaskets 18 on the step of the rod 14 from the side of the sleeve 11).

The manual fire detector operates as follows. The detector is mounted on the object of operation (not shown in the drawing), for example, on the wall and through the cable entry 3, connect the wires of the detector's communication lines with a control panel (not shown in the drawing) to terminal block 5. In standby mode, the magnetic field of magnet 8 through magnetic the base 9 and the air gap acts on the reed switch 7 providing its on state, for example, closed. The state of the reed switch 7 is analyzed by the circuit board 4, which supplies short electrical pulses to the indicator light 6 with a certain frequency and color, also the circuit board 4 has in this state the reed switch 7 a low current consumption from the control panel (not shown), communication line (not shown) which is connected to the terminal block 5 of the circuit board 4. A large diameter step of the rod 14 is pulled by an annular magnet 17 to the end of the sleeve 11 with a certain separation force (at least 15 Newton) to exclude random operation of the detector according to the requirements of the standard GOST R 53325-2012, which is achieved by selecting the thickness of the non-magnetic gaskets 18. To activate the detector, for example, in case of fire, press the end of the rod 14, acting as a button, with a force exceeding the force of attraction of the ring magnet 17 to the rod stage 14, in this case, the step of the rod 14 is detached from the end of the sleeve 11 and the other end of the magnetic rod 14 is moved to the magnet 8, shunting (reducing) the effect of the magnet 8 on the reed switch 7, which causes the switch of the reed switch 7. circuit board 4 increases its current consumption from the control panel (not shown), which is a fire signal for it and changes the frequency and color of the light indicator 6. To put the detector into standby mode, insert a screw 15 into the blind threaded hole ( not shown) and, overcoming the force of attraction of the magnet 8 to the end face of the rod 14, they move the rod 14 to pull its step to the ring magnet 17. The field of the magnet 8 begins to act on the reed switch 7, causing it to switch to standby mode m. Circuit board 4 generates electrical signals of the standby mode of the detector on the indicator light 6 and a control panel (not shown). The ingress of water and dust into the detector is prevented by a sealed housing 1 connected to the cover 2 through a gasket (not shown in the drawing) and an oil seal 13 of the guard ring 12. Thus, the proposed manual fire detector allows to increase its tightness and also simplify the design of the detector housing by by reducing the requirements for its configuration.

Claims (4)

1. A manual fire detector, comprising a housing with a cover, in which a circuit board with a light indicator and a reed switch is located, a drive mechanism with a magnet and a cylindrical rod located in the sleeve, characterized in that the sleeve is mounted on the inner surface of the cover, the rod is made of stepped magnetic material, on the outer side of the lid coaxially with the sleeve and the shaft, a guard ring is made with an oil seal of the lower stage of the rod, the magnet is fixed inside the housing opposite the end of the stage of the larger diameter of the rod nya, and between the step of the rod of larger diameter and the sleeve placed an additional magnet. 2. The manual fire detector according to claim 1, characterized in that the additional magnet is made circular. 3. The manual fire detector according to claim 1, characterized in that the step of the rod of larger diameter is made with an internal cavity whose diametric size is larger than the described diameter of the magnet. 4. The manual fire detector according to claim 1, characterized in that the housing is made of magnetic material or shielded by it.

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