RU2285297C1 - Fire sensor - Google Patents

Abstract

FIELD: automatics, namely, engineering of fire alarms.

SUBSTANCE: device contains body with holding apertures, aperture for connecting conductors, elements for orientation of responding base and through planes, wherein by means of resilient screw-less fastening electro-conductive contact elements are mounted, appropriate for corresponding contacts of base and forming with them stable mechanical-electrical connection when turned, and also, fastening elements for conductors. On side surface of body, unlocking groove is made, positioned above lock element, locking surface of which is appropriate for corresponding contact surface of base orientation element. Positioning plane of electro-conductive contact element in hollow is positioned at an angle to horizontal plane of body, with elevated side of starting part of electro-conductive contact element.

EFFECT: increased electric safety, provision of fast operation and reliability, simplified construction and decreased mass-dimensional characteristics.

4 cl, 6 dwg

Description

The invention relates to fire fighting equipment, in particular to a fire alarm, and is intended for the detection of scattered radiation due to smoke in enclosed spaces.

Known fire detector described in patent EP 1272992 "FIRE DETECTOR" (publ. 08.01.2003), comprising a housing in the form of a body of revolution with smoke intake holes and guide ribs on its inner surface, an embedded base with recesses corresponding to the guide ribs, and with installed it has a printed circuit board with electronic elements and a smoke detector, which is electrically connected through electrical contacts to the corresponding mating part of a removable outlet.

However, fixing the printed circuit board based on the elastic latches of the electrical contacts made by multi-stage stamping does not provide simultaneous uniform and reliable electrical connection with each of them. In addition, the flat contact surface of the electrical contact inserted into the base of the window causes a complex elastic configuration of the contact response of the outlet and the unevenness of the contact force, which reduces the reliability of the electrical connection of the fire detector with the response outlet. When mounting an optoelectronic pair (LED and photodiode) by surface mounting on a printed circuit board, it is necessary to provide additional shielding measures against spurious illumination of the smoke detector, for example, the use of a protective casing with a seal for snug fit of the smoke detector to the printed circuit board, which generally complicates the sensor assembly technology firefighter, increases production costs and increases the cost of the product.

Closest to the claimed invention is a fire detector described in patent CA 2293830 "Photoelectric smoke detector and chamber therefor" (publ. 30.06.2001), comprising a housing in the form of a body of revolution with smoke intake openings, an enclosed base with a printed circuit board with electronic elements and a smoke detector, which through electrical contacts made in the form of pins is electrically connected to the corresponding response contacts of a removable outlet.

However, the implementation of the housing of this sensor from prefabricated parts, one of which is placed above the smoke detector, is latched onto the other - a protective casing covering the printed circuit board with a photodiode mounted on it, complicates the design and increases overall dimensions. The installation of a protective casing with elastic latches on the inner annular protrusion of the base is accompanied by the provision of additional shielding measures from spurious illumination of the smoke detector, for example, by using a gasket or by performing all assembly parts with high processing accuracy for a tight fit, which generally increases production costs and increases the cost of the product. The installation of the printed circuit board on the basis of the latches does not provide, in the presence of vibration, a uniform contacting force and a stable electrical connection through an electrical contact with a mating outlet.

The inventors were faced with the task of minimizing the number of assembly parts and the overall dimensions of the firefighter’s sensor, simplifying the technology of its assembly and reducing the cost of the finished product with high detection accuracy of fires, accompanied by the appearance of low concentration smoke in enclosed spaces.

The problem is solved in that a fire detector is proposed, comprising a housing in the form of a body of revolution with smoke sampling openings and guide ribs on its inner surface, a smoke detector, a printed circuit board with electronic elements, a nested base with recesses corresponding to the guide ribs, electrical contacts interacting with appropriate removable outlet.

What is new is that in a case with smoke sampling meridial slit-shaped openings made on its spherical segment with a constant pitch, the base is installed due to the execution on the outside of it of staple-shaped locking protrusions oriented by the guide ribs of the case and fixed between the stops and the corresponding input chamfers on the inside the housing surface, in addition, ring recesses are formed on the base, installation and overall with holes for the smoke detector latches, and In addition to annular recesses, coaxially with the mounting holes of the printed circuit board, and in accordance with the electrical contacts, mounting holes are made with a radially fixing support recess and a protruding rim on the outer side of the base and protruding arcs of the rim on its inner side, separated by plates rising above them, positioning the printed circuit board on the base when fixing nuts on the final threaded part of the electrical contacts, while the contact pads near the mounting holes of the electronic circuit board ktromehanicheski connected with electrical contacts, each of which is formed as a body of rotation, contacting the head whose neck interfaced through filar radially fixing the reference speed limiter on the mounting part, passing into the end portion of the threaded contact. In this case, coaxial holes are made in the housing and the side of the smoke detector facing it, and the hole of the smoke detector is made with a bell facing the opening of the housing.

The technical result of the claimed invention consists in minimizing the number of assembly parts, reducing the weight and size characteristics of the fireman’s sensor and simplifying the technology of its assembly due to a single casing with meridional slotted smoke sampling openings with a constant step on its spherical segment, reliable and easy installation of an enclosed base with cramped lock protrusions in the casing oriented guiding ribs of the housing and installed between the limiters and the corresponding input chamfers E on the inner surface of the housing. Placement of electronic elements on one side of the printed circuit board facing the base, and light indicators and a smoke detector with latches on its other side and the implementation of a smoke detector with lightproof mounting places for each element of the optoelectronic pair (LED and photodiode) between the upper and lower bases, limited lateral labyrinth plates, eliminates additional shielding from spurious illumination, reduces the cost of the finished product with high accuracy of detection Oran. By making mounting holes for the base with radially fixing support recesses corresponding to electrical contacts, the contacting heads and inlet necks of each electrical contact are positioned in the same plane for easy and reliable electromechanical interaction with the corresponding removable socket, and the electrical contacts are prevented from twisting during installation, which provides a durable electromechanical connection of the printed circuit board, electrical contacts and the base, and the implementation of the mounting holes on the inner side of the base with protruding arcs of the rim separated by plates rising above them, resiliently positions the printed circuit board on the base when tightening the nuts on the final threaded part of the electrical contacts, pressing the contact pads associated with the mounting holes of the printed circuit board to the electric contacts. At the same time, the printed circuit board with contact pads located near the mounting holes is reliably and stably fixed on the base by electrical contacts, providing high stability in the presence of vibration and a reliable electrical connection to the mating socket. Coaxial holes made in the housing and on the surface of the smoke detector for testing simplify testing the fire detector’s operability, for example, by inserting a thin pin into the smoke detector, and to eliminate inaccuracies in the manufacture of assembly parts, the hole on the base of the smoke detector is made with a bell facing the coaxial hole of the housing . In this case, the use of the inventive electrical contact provides not only a stable electrical connection between the printed circuit board and the mating socket, but also allows for the simultaneous installation of all electrical contacts and the printed circuit board.

Figure 1 presents a General view of the components of the sensor of the fireman; figure 2 is a General view of the complete sensor of the fireman; figure 3 - body in the context of the sensor of the fireman; figure 4 - the inner side of the base of the sensor of the fireman; figure 5 is a section of the base of the sensor of the fireman; figure 6 is an electrical contact.

The device comprises a housing 1 (Figs. 1, 2, 3), made in the form of a body of revolution with smoke intake meridian slots 2 of no more than 2.5 mm wide with a constant pitch on its spherical segment, guiding ribs 3 (Figs. 2, 3), made in the form of a key and assuming a one-to-one reciprocal connection, for example, pairs of diametrically spaced guide ribs 3 with different steps, stops 4 and their corresponding chamfers 5 on the inner surface of the housing 1 (Fig. 3), and a hole 6 located in the center of its spherical segment (figures 1, 2, 3) for testing I, smoke detector 7 (Figs. 1, 2), formed by side labyrinth plates located between the upper 8 and lower 9 bases with opaque mounting locations 10 with diaphragms for each element of the optoelectronic pair (LED and photodiode), having a socket hole 11 on the side facing the coaxial hole 6 and the latch 12 for installation on the printed circuit board 13, with surface mounting mounted on one side and electrically connected to each other by electronic elements (not shown) and with with holes 14 for latches 12, mounting holes 15 with corresponding contact pads (not shown), a base 16 (figures 1, 2, 4, 5) corresponding to the inner diameter of the housing 1 (figures 1, 2, 3), on which recesses 17 (Figs. 1, 4) corresponding to the guide ribs 3 (Fig. 3), and on its outer side, the staple-shaped locking protrusions 18 (Figs. 1, 2, 4, 5) oriented by the guiding ribs 3 (Fig. 3) ) and fixed between the stops 4 (2, 3) and their corresponding entry chamfers 5 on the inner surface of the housing 1, and also formed ring recesses (FIGS. 2, 4, 5) mounting 19 and overall 20 for accommodating the screws for securing the loop wires (not shown) with holes 21 for the latches 12 of the smoke detector 7, while mounting holes 22 are made between the annular recesses 19 and 20 (FIG. 1, 2, 4, 5), each with a radially locking support recess 23 and a protruding rim 24 on the outer side of the base 16 and the arcs of the rim 25, separated by towering plates 26, on the inner side of the base 16 for electrical contacts 27 (Fig. 1 , 2, 6), each of which is made in the form of a body of BP scheniya contacting with the spherical head 28 (Figures 1, 6) through conjugate filar neck 29 to radially support the locking stopper 30 to the stepped mounting portion 31 passing into a threaded end portion 32 on which a nut 33 mounted (figure 1). Installed electrical contacts 27, when paired with a removable socket 34, are in contact with corresponding mating contacts made, for example, in the form of a rectangular plate with a petal bounding the area corresponding to the electrical contact 27, which is joined by the sliding shoulder of the petal with the restriction plane at an angle to the base of the petal.

The assembly of the fireman’s sensor is as follows. Obtained by plastic molding, housing 1, smoke detector 7 in the form of upper 8 and lower 9 bases with light-tight mounting places 10, base 16, also a finished printed circuit board 13 with holes 14, 15 and one-sidedly mounted electronic elements and electrically connected to each other with electronic elements , with an electrically conductive coating for connecting optoelectronic elements and dedicated contact pads (not shown) for electrical contacts 27, optoelectronic elements (including LEDs for information onnoy display), and electrical contacts 27 enter the assembly. On the printed circuit board 13, the bottom 9 of the smoke detector 7 is installed in the holes 14 with latches 12, in the mounting places 10 (with special outputs for contacts - not shown in FIG.) Which optoelectronic elements are placed with subsequent soldering of their contacts on the conductive coating of the printed circuit board 13, LEDs are soldered for information display, then the lower 9 base is closed with the upper 8 base of the smoke detector 7, while the opaque points of the installation sites 10 with diaphragms for each the first element of the optoelectronic pair and the completeness of the assembly of the smoke detector 7. Electrical contacts 27 are placed in the mounting holes 22 of the base 16 so that their contacting heads 28 and the feed necks 29 are located on the outside of the base 16, and the radially fixing support stop 30 is located in its support recess 23. In this case, the stepped installation part 31 of the electrical contact 27, passing into the final threaded part 32, rises above the arcs of the rim 25 and the plates 26 on the inner side of the base 16. The printed circuit board and 13 with an installed smoke detector 7 is aligned with the mounting holes 15 with the end threaded portions 32 and moves coaxially with the electrical contacts 27 until they abut the plates 26 on the inner side of the base 16, which protrude above the step of the stepped installation part 31 of the electrical contacts 27. At the end threaded portions 32 electrical contacts 27 tighten nuts 33 until the circuit board 13 rests on the step of the stepped installation part 31 of electrical contacts 27, slightly protruding above the arcs of the base rim 25 I. 16. When tightening the nuts 33, the plates 26 diverge, elastically supporting the printed circuit board 13 and creating a tension that counteracts the loosening of the threaded joints between the final threaded portions 32 of the electrical contacts 27 and the nuts 33. At the same time, an electrical connection and tight pressing of the corresponding contact pads connected together with mounting holes 15 of the printed circuit board 13, with the corresponding stepped parts 31 of the electrical contacts 27 and possible technological variations are compensated sizes of parts. In this case, the latches 12 of the smoke detector 7 are located in the holes 21 of the annular overall recess 20, and the contacting heads 28 and the inlet necks 29 of the electrical contacts 27 located on the outside of the base 16 are fixed in the same plane, providing further reliable contact with the socket 34, and independent of subsequent assembly operations. The housing 1 is aligned with the guide ribs 3 with the corresponding recesses 17 of the base 16. In this case, the orientable bracket-shaped lock protrusions 18 are installed under the respective input chamfers 5 and the stops 4, and then with light pressure perpendicular to the plane of the base 16, the bracket-shaped lock protrusions 18 are installed on the stops 4 through the input chamfers 5 , positioning the base 16 in the inner part of the housing 1. Moreover, the hole 6 of the housing 1 is located above the socket of the coaxial hole 11 of the smoke detector 7. The fire sensor th ready for testing and work. The height of the firefighter’s sensor is not more than 40 mm with the radius of its body 1 not more than 50 mm and the height of the smoke sampling openings 2 approximately 50% of its height, made in the form of meridional slots no more than 2.5 mm wide on a spherical segment with a constant pitch. The overall proportions of the housing 1, smoke sampling openings 2, smoke detector 7, printed circuit board 13 and the base 16 provide the placement of LEDs for information display under the housing 1, since the implementation of smoke sampling holes 2 in the form of meridional slots allows not only to ensure the passage of smoke streams to the smoke detector 7, but also insect protection and a circular overview of the information display.

To install the fireman’s sensor in the socket 34, the parts of the locking element on the base 16 (not shown) and the socket 34 are combined, while the electrical contacts 27 protruding from the base interact with their respective contact contacts 28, for example, in the form of a rectangular plate with a platform limited by a notch of a petal, and the edge of the socket 34 is included in the annular installation recess 19 of the base 16. When you press and simultaneously turn clockwise the housing 1 of the fire sensor These contacts 27 heat the elastic petals of the mating contacts of the socket 34 by the amount of approach, commensurate with the dimensions of their contacting head 28 and the inlet neck 29, and when turning, they move along the sliding shoulder of the petal until it comes to a light stop with the conjugate restriction plane located at an angle to the base of the petal, followed by fixing between them, and the contacting head 28 in the place of pairing with the inlet neck 29 is pressed by the elastic tab to the contact surfaces of the mating contacts of the socket 34, which ensures reliable electromechanical contact. When the lock key is open, the fireman’s sensor is removed from the outlet 34 by turning the housing 1 counterclockwise while simultaneously pressing lightly perpendicular to the plane of its location.

Claims (4)

1. A fire detector, comprising a body in the form of a body of revolution with smoke sampling openings and guide ribs on its inner surface, a smoke detector, a printed circuit board with electronic elements, a nested base with recesses corresponding to the guide ribs, electrical contacts interacting with a corresponding removable outlet, characterized the fact that on the outer side of the base are made of staple-shaped locking protrusions, oriented by the guide ribs of the housing and fixed between the stops and corresponding with chamfering chamfers on the inner surface of the housing, and also formed annular recesses, installation and overall, with holes for the smoke detector latches, and between the annular recesses coaxially with the mounting holes of the printed circuit board and, in accordance with the electrical contacts, mounting holes with a radially fixing support recess are made and a protruding rim on the outer side of the base and protruding arcs of the rim on its inner side, separated by plates rising above them, niruyut the printed circuit board on the base when fastening the nuts on the final threaded part of the electrical contacts, while the contact pads near the mounting holes of the printed circuit board are electromechanically connected to the electrical contacts. 2. The fire detector according to claim 1, characterized in that the electrical contact is made in the form of a body of revolution, the contact head of which through the inlet neck is mated to a radially locking support limiter on a stepped mounting part, passing into the final threaded part of the contact. 3. The fire detector according to claim 1, characterized in that the smoke sampling openings of the housing are made in the form of meridional slots of the spherical segment with a constant step. 4. The fire detector according to claim 1, characterized in that coaxial openings are made in the housing and the side of the smoke detector facing it, wherein the opening of the smoke detector is made with a bell facing the housing.

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