RU210807U1 - Optoelectronic smoke sensor - Google Patents

Abstract

The solution relates to the field of fire alarms, namely optoelectronic smoke detectors with diffused light, which are designed to detect fires accompanied by the appearance of smoke in enclosed spaces with a high content of dust. The technical result consists in improving the quality of protection against false alarms while ensuring high reliability of the optoelectronic smoke sensor in the event of a fire and increasing the overhaul period of the smoke sensor by increasing the working area of the protective grid, eliminating clogging of the inner surface of the smoke sensor, as well as expanding the arsenal technical means related to optical-electronic smoke sensors. The optical-electronic smoke sensor contains a socket with a mount, a plastic case with slotted holes in the side and bottom of the case, a board, an indicator, an optical module, and a protective grid. Additionally, a cylindrical container for dust deposition is placed inside the housing and fixed on the lower part of the housing with plastic pins installed in the grooves made in the lower part of the housing. The protective metal mesh with a cell size of 1×1 mm is made in the form of an inverted truncated cone with an inclination angle of 135 degrees between the generatrix of the cone and the upper part of the case, the protective mesh is installed with the upper base into the groove on the board, and the lower base into the groove on the dust collection container. The protective grid is made of metal wire with a diameter of 0.5 mm. The container for dust settling is made of a plastic cylinder with a base diameter equal to the diameter of the lower base of the protective grid. The dust settling container is 10 mm high. 3 w.p. f-ly, 1 ill.

Description

The proposal relates to the field of fire alarms, namely optoelectronic smoke detectors with diffused light, which are designed to detect a fire accompanied by the appearance of smoke in enclosed spaces with a high dust content.

A smoke fire detector is known, containing a socket and a sensor, which is a plastic case with slotted holes, inside which is placed an optoelectronic system and a board with radio elements (electronic signal processing circuit) (optoelectronic smoke detector IP 212-45, Passport 4371- 006-12215496-00 PS). The slots in the sensor housing do not provide effective protection against small insects and dust entering the optical (smoke) chamber.

The practical use of such fire smoke detectors has shown that during operation the frequency of false alarms can increase, and the reason for this is the penetration and deposition of dust particles in the smoke chamber, as well as the ingress of insects. 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.

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 placed, 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 when the protective mesh is placed outside directly on the smoke chamber, the working area of the flow section of the protective mesh is reduced, limited by the area of the slotted openings of the housing, as it becomes clogged with dust and other suspended particles (debris), additional resistance to air flow is created, which reduces reliability and prompt response of the detector, especially at the initial stage of fire development with a low concentration of smoke in the air.

Closest to the claimed utility model is an optical-electronic smoke detector, containing a housing, including a socket, a base and a cover, an optical module installed in the housing, including a light source, a light receiver, a labyrinth system, from above the optical module is shielded by a metal plate, its side surface is closed protective mesh (patent RU No. 48422, 12/15/2004). The socket and the base are provided with a set of protrusions for their interconnection. Contacts are installed on the socket and base, the interaction of which provides electrical contact between the detector and the fire alarm loop. The labyrinth system is formed by the articulation of the plates of the upper and lower parts of the smoke chamber.

The disadvantages are that the placement of a protective grid on the optical module complicates the design and increases the complexity of operational maintenance and cleaning of the detector, vertical placement and fastening of the protective grid on the optical module without a means of collecting settled dust and insects reduces the quality of the detector's protection from dust and insects.

The technical objective of the utility model is to improve the quality of protection against false alarms while ensuring high reliability of the optoelectronic smoke sensor in the event of a fire and increasing the overhaul period of the smoke sensor by increasing the working area of the protective grid, eliminating clogging of the inner surface of the smoke sensor, as well as expanding the arsenal technical means related to optical-electronic smoke sensors.

The technical problem is solved by an optical-electronic smoke sensor containing a socket with a mount, a plastic case with slotted holes in the side and bottom of the case, a board, an indicator, an optical module, and a protective grid.

What is new is that, additionally, a cylindrical container for dust deposition is placed inside the housing and fixed on the lower part of the housing with plastic pins installed in the grooves made in the lower part of the housing, a protective metal mesh with a mesh size of 1 × 1 mm is made in the form of an inverted truncated cone with an inclination angle of 135 degrees between the generatrix of the cone and the upper part of the housing, the protective grid is installed with the upper base in the groove on the board, and the bottom base in the groove on the dust container.

Also new is that the protective mesh is made of metal wire with a diameter of 0.5 mm.

Also new is that the dust settling container is made of a plastic cylinder with a base diameter equal to the diameter of the lower base of the protective grid.

Also new is that the dust settling container is 10 mm high.

The figure shows a diagram of the optical-electronic smoke sensor.

The optical-electronic smoke sensor contains a socket 1 with a mount 2, a plastic case 3 with side slotted holes 4 in the side and bottom of the case, a board 5, an indicator 6, an optical module 7, which includes a light emitter with a light receiver (not shown in the diagram). Inside the housing 3 there is a protective mesh 8 made of a metal wire with a diameter of 0.5 mm with cells of 1 × 1 mm, which ensures the retention of small insects, coarse dust and its deposition on the inner surface of the lower part of the housing, and then through the lower slotted holes 14 exit from the sensor housing . Inside the body there is a container 9 made of cylindrical plastic for settling small dust particles smaller than 1×1 mm that have penetrated through the protective mesh, and fixed on the bottom of the body 3 with plastic pins 10 in the amount of 3, 4 pieces installed in the grooves 11, made in the lower part of the body 3, which secure the container for dust settling 9 inside the body 3. The dust settling container is made in the form of a cylinder with a base diameter equal to the diameter of the lower base of the protective grid and a height of 10 mm. The dust settling container prevents clogging of the optical module and the inner surface of the smoke sensor with small insects and dust. The protective metal mesh 8 is made in the form of an inverted truncated cone with an angle of inclination α equal to 135 degrees between the outer generatrix of the cone and the upper part of the housing 3. The protective mesh 8 is installed with the upper base in the groove 12 on the board 5, and with the lower base in the groove 13 on the container 9 Protective mesh due to the increase in the working area of the protective mesh by 1.5-2 times compared to the flow area of the slotted holes 4, on which the protective mesh is placed in analogues, and due to the placement of the protective mesh at an angle α, improves the quality of protection against false operation while ensuring high reliability of the optical-electronic smoke sensor in case of fire, and also increases the overhaul period of the smoke sensor.

Optoelectronic smoke detector works as follows.

Inside the case, in the lower part of the case, a container 9 for dust settling is placed and fixed on the lower part of the case 3 with plastic pins 10 installed in the grooves 11 made in the lower part of the case 3. The dust settling container is made 10 mm high, sufficient for the settling of fine dust in volume that ensures the planned operation of the sensor in difficult dusty conditions. The container 9 for dust deposition is made with a diameter equal to the diameter of the lower base of the protective grid. The dust deposition container 9 and the board 5 have grooves 13 and 12, respectively. Inside the housing 3, a protective mesh 8 is installed from a metal wire with a diameter of 0.5 mm with cells of 1 × 1 mm, made in the form of an inverted truncated cone with an angle of inclination α equal to 135 degrees between the outer generatrix of the cone and the upper part of the housing 3. The protective mesh 8 is upper the base is installed in the groove 12 on the board 5, and the bottom base is in the groove 13 on the container 9. The case 3 with the container 9 placed on it for dust deposition and the protective mesh 8 are connected using plastic latches 2 with the socket 1 and at the same time the upper base of the protective mesh is fixed 8 with groove 12 located on board 5.

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 protective mesh with a container for dust settling has a prefabricated structure, which ensures ease of installation and dismantling during maintenance, the elimination of latches and other mechanical connections that require their separation, and excludes damage during repeated installation / dismantling.

In normal mode, air through the slot holes 4 penetrates into the body 3. Further, the main part of suspended particles, dust and insects is retained by the cells of the protective mesh. Thanks to the installation of the protective mesh 8 with the upper base in the groove 12 on the board 5, and the lower base in the groove 13 on the container 9, and the shape of the truncated cone of the protective mesh provides a larger air flow area into the optical module compared to mounting the protective mesh directly on the smoke chamber (as prototype) or placed in a vertical position. In this case, the working cross-sectional area of the protective grid significantly exceeds both the cross-sectional area of the protective grid of the analog and the area of the body through-holes, which prevents an increase in resistance to air flow and ensures its free penetration into the body and optical module. The shape of the truncated cone is made so that the angle between the generatrix and the upper base is 135 degrees. In this case, the design is simplified, the most rational placement of the protective grid inside the housing, and the optical module inside the protective grid, reduces the complexity of maintenance and cleaning of the optoelectronic smoke sensor. The design of the protective grid 8 in the form of a truncated cone allows smoke with a higher temperature to rise freely inside the housing 3 and enter the optical module 7.

Coarse dust and other suspended particles trapped by the grid 8 are deposited on the inner surface of the lower part of the housing, and then exit the sensor housing through the lower slotted holes 14.

At the same time, fine dust and other suspended particles that have penetrated the inside of the mesh body 8 are deposited in the container 9. The plastic container for dust deposition can have a corrugated surface on the inside to improve the accumulation efficiency and prevent dust mobility.

In the case of maintenance, the housing 3 is disconnected from the socket 1 when the fastener 2 is pressed out, the protective grid is freely removed from the limiting collars for cleaning. The dust container 9 can be cleaned without removing it from the housing, which prevents the risk of damaging the pins.

Optical module 7 with labyrinth channels that prevent light from entering inside, including a light emitter with a light receiver, works similarly to most of those used, therefore, the diagram is shown without detail. The pulse sequences of electrical signals generated by the electronic circuit on the board 5 are converted by the light emitter into light pulses. Scattered radiation is received by a light detector, which is optically inaccessible to direct radiation of the light emitter, 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 the signals "Standby mode" or in the presence of smoke aerosols "Fire".

Thus, the proposed optical-electronic smoke sensor has a high protection against false alarms while ensuring the reliability of the optical-electronic smoke sensor in the event of a fire, an increased overhaul period of the smoke sensor by increasing the working area of the protective grid, eliminating clogging of the inner surface of the smoke sensor, and also expands the arsenal of technical means related to optoelectronic smoke sensors.

Claims (4)

1. Optoelectronic smoke sensor, containing a socket with a mount, a plastic case with slotted holes in the side and bottom of the case, a board, an indicator, an optical module, a protective grid, characterized in that, additionally, a cylindrical container is placed inside the case for dust deposition and fixed on the lower part of the housing with plastic pins installed in the grooves made in the lower part of the housing, the protective metal mesh with a mesh size of 1 × 1 mm is made in the form of an inverted truncated cone with an inclination angle of 135 degrees between the generatrix of the cone and the upper part of the housing, the protective mesh is upper the base is installed in the groove on the board, and the bottom base is installed in the groove on the dust container. 2. Optoelectronic smoke sensor according to claim 1, characterized in that the protective mesh is made of a metal wire with a diameter of 0.5 mm. 3. Optoelectronic smoke sensor according to claim 1, characterized in that the container for dust deposition is made of a plastic cylinder with a base diameter equal to the diameter of the lower base of the protective grid. 4. Optoelectronic smoke sensor according to claim 1, characterized in that the container for dust deposition is made 10 mm high.

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