RU211299U1 - Optoelectronic smoke detector with a composite housing - Google Patents

Abstract

The utility model relates to the field of fire alarms, namely to optical-electronic smoke detectors for fire alarms with diffused light, which are designed to detect a fire accompanied by the appearance of smoke in enclosed spaces, including dust and other suspended particles, to protect against clogging with building materials and dust during repair work in the room without dismantling the detector with a single design of all elements and during transportation. The technical objective of the utility model is to increase the efficiency of the optical-electronic smoke detector by improving the quality of protection against false alarms while ensuring direct smoke into the housing, high reliability in the event of a fire and increasing the overhaul period of the smoke detector, as well as increasing the ability to provide protection from clogging with building materials and dust during repair work in the room without dismantling the detector and during transportation, reducing the costs associated with installation / dismantling, creating a single design of all elements. Optoelectronic fire smoke detector with a composite housing contains a socket with a mount, a two-part plastic housing with slotted holes in the side of the housing, a board, an indicator, an optical module. The side surface of the housing is cylindrical in shape, the upper and lower parts of the housing are interconnected by a threaded connection, the slotted holes are placed on the side surface of the upper part of the housing, while on the upper part of the housing below the filtration holes an external thread is made, and on the upper end of the lower part of the housing an internal thread is made. thread, in the working position, the side surface of the lower part of the housing is located below the slotted holes on the side surface of the upper part of the housing, the upper end of the lower part of the housing is made with the possibility of overlapping the slotted holes in the transport position, on the outer surface of the upper part of the housing around the circumference above the slotted holes, a stop shoulder is made , which provides support for the lower part of the body when fully screwed in. On the inner surface of the upper part of the housing above the slotted holes there is a smoke guide element, in the form of a truncated cone without bases, with a height equal to the height of the slotted holes, and is fixed with pins in the grooves on the inner surface of the upper part of the housing, the inner part of the base of the lower part of the housing has a corrugated solid surface. 2 ill.

Description

The proposal relates to the field of fire alarms, namely to optical-electronic smoke detectors of fire alarms with diffused light, which are designed to detect a fire accompanied by the appearance of smoke in enclosed spaces, including dust and other suspended particles, to protect against clogging with building materials and dust during the period of repair work in the room without dismantling the detector with a single design of all elements and during transportation.

A smoke chamber is known for an optical-electronic smoke detector containing a socket and a sensor, which is a plastic case with slotted holes, inside which an opto-electronic system and a board with radio elements are located, and a protective mesh with a mesh size is installed on the outside of the smoke chamber on the cover 1×1 mm (utility model patent RU No. 85716, published on August 10, 2009).

The disadvantage of this solution is that the protective mesh, as it becomes clogged with dust and other suspended particles (debris), creates additional resistance to air flow, which reduces the reliability and efficiency of the detector, especially at the initial stage of fire development with a low concentration of smoke in the air. In addition, when carrying out repair work in the room, it is necessary to dismantle the detector, otherwise most of the dust can clog the mesh and get inside the smoke chamber.

Closest to the claimed utility model is a smoke fire detector with a horizontally ventilated smoke chamber, containing a socket with a mount, a plastic case with slotted holes in the side of the case, a board, an indicator, an optical module (optoelectronic smoke detector IP 212-45, Passport 4371-006-12215496-00 PS). The detector body consists of two parts: base and cover. The lower part of the cover is made in the form of a truncated cone with a concave side surface. This concave surface has slotted openings for smoke to enter both from the side and from below. When smoke enters the housing from the bottom up, the directional flow is destroyed due to aerodynamic resistance to a change in the direction of smoke propagation, which reduces the speed of filling the chamber with smoke, and reduces the response time of the detector. The practical application of fire smoke detectors of this housing design has shown that during operation the frequency of false alarms may increase, and the reason for this is the penetration and deposition of dust particles in the smoke chamber, on the slotted holes. To exclude the occurrence of such false alarms, the smoke chambers of the detectors must be periodically cleaned of dust. Carrying out preventive maintenance of the detector consists in its disassembly and subsequent cleaning of the smoke chamber. This requires both labor costs and carries the risk of breakage of plastic latches that cannot be repaired, which leads to the need to replace the detector, which reduces the quality of the detector. According to paragraph 6.10 of the Passport, when carrying out repair work in the room, it is necessary to remove the sensor from the socket in order to prevent building materials and dust from getting inside, which requires additional costs for installation / dismantling. According to clause 3.1 of the Passport, some versions of the detector can be equipped with a protective cap, which, according to clause 9.3, is used to protect the smoke chamber from dust during transportation, but after removing it during installation and operation, it requires additional space for storage, accounting, transportation, therefore, often is lost and cannot be used for the period of repair work in the room, which complicates the process of operation and transportation.

The technical objective of the utility model is to increase the efficiency of the optical-electronic smoke detector by improving the quality of protection against false alarms while ensuring direct smoke into the housing, high reliability in the event of a fire and increasing the overhaul period of the smoke detector, as well as increasing the ability to provide protection from clogging with building materials and dust during repair work in the room without dismantling the detector and during transportation, reducing the costs associated with installation / dismantling, creating a single design of all elements.

The technical problem is solved by an optical-electronic fire smoke detector with a composite housing containing a socket with a mount, a two-part plastic housing with slotted holes in the side of the housing, a board, an indicator, an optical module.

What is new is that the lateral surface of the housing is cylindrical in shape, the upper and lower parts of the housing are interconnected by a threaded connection, the slotted holes are placed on the side surface of the upper part of the housing, while on the upper part of the housing below the filtration holes, an external thread is made, and at the upper end the lower part of the housing is made with an internal thread, in the working position the side surface of the lower part of the housing is located below the slotted holes on the side surface of the upper part of the housing, the upper end of the lower part of the housing is made with the possibility of overlapping the slotted holes in the transport position, on the outer surface of the upper part of the housing around the circumference above of the slotted holes, a stop shoulder is made to ensure the stop of the lower part of the housing when fully screwed in; holes, and is fixed with pins into the grooves on the inner surface of the upper part of the housing, the inner part of the base of the lower part of the housing has a corrugated solid surface.

In FIG. 1 shows a diagram of an optoelectronic smoke detector with a composite housing in working condition.

In FIG. 2 shows a diagram of an optical-electronic smoke detector with a composite housing in the transport position.

Optoelectronic fire smoke detector with a composite housing contains a socket 1 (Fig. 1, 2) with a mount 2 (Fig. 1), a plastic housing 3 with side slotted holes 4 (Fig. 1, 2), a board 5 (Fig. 1 ), indicator 6, optical module 7, which includes a light source with a light receiver (not shown in the diagram).

The socket 1 is attached to the upper part of the housing 3 using plastic latches (not shown in the diagram).

The body 3 is made composite and consists of the upper part 8 (Fig. 1, 2), which is a cylinder without a lower base, and the lower part 9, which is a cylinder without an upper base.

The lateral surface of the body is made of a cylindrical shape, the slotted holes are placed on the side surface of the upper part of the body.

The upper 8 and lower parts 9 of the housing are interconnected by a threaded connection 10, while the upper part of the housing 8 below the filtration holes 4 has an external thread, and the lower part 9 of the housing has an internal thread, which eliminates the risk of breakage of plastic latches that cannot be repaired, eliminates the need replacement of the detector, which improves the quality of the detector.

In the working position, the side surface of the lower part 9 of the housing is below the slotted holes 4 on the side surface of the upper part 8 of the housing.

On the inner surface of the upper part 8 of the housing above the slot holes 4 there is a smoke guide element 11 (Fig. 1), made of plastic, and representing a truncated cone without bases, with a height equal to the height of the slot holes 4, fixed with pins 12 (Fig. 1 ) into grooves 13 on the inner surface of the upper part of the housing 8 at an angle α equal to 45 degrees to the inner surface of the upper part. The smoke guide element 11 performs the function of changing the direction of the air flow inside the housing 3, provides a change in the direction of the flow of smoke (air) inside the housing 3, when the direction of movement of suspended dust particles changes under the action of gravity, it is deposited due to the high specific gravity on the inner base 14 of the lower part 9 housing, which has a corrugated surface and is a dust collector, which increases the effectiveness of protection against false alarms, eliminates the need for frequent dust cleaning of the detector housing, and reduces costs. The inner base 14 of the lower part 9 of the housing is made solid, which eliminates the reduction in the rate of filling the housing with smoke, and reduces the response time of the detector.

The main components of the smoke sensor (socket, housing, board, optical module), as in most analogues, are interconnected by plastic latches, therefore they are not shown in the diagram. At the same time, the design of the housing as a composite allows access to the optical module for its maintenance only by unscrewing the lower part of the housing, which reduces the risk of damage to the housing latches in comparison with the prototype.

Optoelectronic fire smoke detector with a composite housing operates as follows.

The design of the housing of the detector of the fire smoke optical-electronic and smoke-guiding element 11, by changing the direction of the air flow inside the housing 3, provides a change in the direction of the flow of smoke (air) inside the housing 3, when the direction of movement of suspended dust particles changes under the action of gravity, it is deposited due to high specific gravity on the inner base 14 of the lower part 9 of the housing, which has a corrugated surface and is a dust collector. The inner base 14 of the lower part 9 of the housing is made solid, which eliminates the reduction in the rate of filling the housing with smoke, and reduces the response time of the detector.

When signs of smoke appear, smoke having a higher temperature rises freely inside the detector housing 3 and enters the optical module 7. The optical module 7 with labyrinth channels, including a light source with a light receiver, works similarly to most used ones, therefore, the diagram is shown without detail. The pulse sequences of electrical signals generated by the electronic circuit on board 5 are converted by the light source into light pulses. Scattered radiation is received by the light detector, which is optically inaccessible to direct radiation of the light source, the optical axis of which is located at an angle to the optical axis of the light detector. The received scattered reflected radiation is converted by the light receiver into electrical signals, which are processed by the elements of the electronic circuit of the board 5 with the subsequent formation of signals "Standby mode" or in the presence of smoke aerosols "Fire".

In FIG. 2 shows a diagram of an optical-electronic smoke detector with a composite housing in a non-operating state for the period of repair work in the room or transportation to prevent dust from entering the housing.

The socket 1 in the lower part around the circumference has a persistent shoulder 15 (Fig. 1, 2), which rests on the lower part of the housing 9 when fully twisted.

In the extreme upper position (when fully tightened), the side surface of the lower part 9 of the housing completely covers the slotted holes 4 on the side surface of the upper part 8 of the housing, which prevents dust and debris from entering the detector housing, increases reliability, reduces the risk of false alarms, and increases the overhaul period . At the same time, a single design of the detector elements is ensured, the efficiency of switching to working / non-working positions without the need to dismantle the detector, the problem of storing protective caps and their loss is eliminated. In addition, in the process of twisting the lower part 9 of the body, the process of mechanical cleaning of the outer side of the slotted holes 4 from debris and dust occurs.

The utility model improves the efficiency of an optical-electronic smoke detector with a composite housing by improving the quality of protection against false alarms while ensuring direct smoke into the housing, high reliability in the event of a fire and an increase in the overhaul period of the smoke detector, as well as increasing the possibility of providing protection. from clogging with building materials and dust during repair work in the room without dismantling the detector and during transportation, reducing the costs associated with installation / dismantling, creating a single design of all elements.

Claims (1)

Optoelectronic smoke detector with a composite housing containing a socket with a mount, a plastic housing consisting of two parts, with slotted holes in the side of the housing, a board, an indicator, an optical module, characterized in that the side surface of the housing is made of a cylindrical shape, the top and the lower part of the housing are interconnected by a threaded connection, the slotted holes are located on the side surface of the upper part of the housing, while on the upper part of the housing below the filtration holes there is an external thread, and on the upper end of the lower part of the housing an internal thread is made, in the working position the side surface of the lower part of the housing is placed below the slotted holes on the side surface of the upper part of the housing, the upper end of the lower part of the housing is made with the possibility of overlapping the slotted holes in the transport position, on the outer surface of the upper part of the housing around the circumference above the slotted holes, a stop shoulder is made, providing the second stop of the lower part of the housing at full twisting, on the inner surface of the upper part of the housing above the slotted holes there is a smoke guide element, in the form of a truncated cone without bases, with a height equal to the height of the slotted holes, and is fixed with pins in the grooves on the inner surface of the upper part of the housing , the inner part of the base of the lower part of the housing has a corrugated solid surface.

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