RU34872U1 - Sprinkler (options) - Google Patents

Abstract

1. A sprinkler comprising a housing with a channel for supplying liquid, overlapped by a locking element, a thermal lock and a deflector made in the form of a concave disk with petals arranged around its circumference formed by slots, characterized in that the petals of the deflector are formed by slots of different lengths, the length being more long slots are 1.5-2.2 times longer than the shorter ones and 4.5-5.5 times smaller than the diameter of the disk, while the slots are arranged so that longer slots alternate with shorter ones, and the arc size is cent cial angle corresponding to each slit, in 1.8-2.2 times less than the value of the central angle of the arc corresponding to each lepestku.2. The sprinkler according to claim 1, characterized in that the diameter of the deflector disk is 5.5-6.5 times the height of the deflector. A sprinkler comprising a housing with a fluid supply channel overlapping by a locking element, a thermal lock and a deflector made in the form of a concave disk with petals located around its circumference, formed by slots, characterized in that the central part of the disk has a concavity or taper, and the peripheral part on which the petals are made, is bent so that it forms a cylindrical section along the edge of the disk, while the petals are made in the form of teeth, the hollows between which are formed by radii, and the lateral surfaces surface - obliquely located sections connected to these radii, while the height of the teeth is 1.5-2.5 times less than the height of the deflector.

Description

Sprinkler (options)

The utility model relates to a fire engine, and specifically to sprinkler devices for extinguishing fires locally in various rooms, and these devices are usually used as part of automatic fire extinguishing installations.

Various types of sprinklers are known, which differ both in the types of thermal locks used in their design and in the shape of the channels through which the liquid for extinguishing is supplied. In addition, flat and concave types of sockets (baffles) are known. At the same time, concave ones are used when installing sprinklers with outlets up, and flat ones - with outlets down.

The closest analogue to the first version of the proposed solution is the sprinkler described in the USSR author's certificate N 874076 (A 62 C 37/08, publ. 23.10.81), comprising a housing with a channel for supplying liquid, a thermal lock with a valve that blocks the outlet of the sprinkler, and the attachment point of the thermal lock. The deflector is made in the form of a concave disk with petals located around its circumference. However, in this design, the size and configuration of the deflector petals are not optimized, which is necessary to ensure effective atomization of the liquid by the fire arched. In this regard, the known sprinkler does not allow to provide a uniform finely dispersed gas-droplet fluid flow with high kinetic energy of the droplets at the surface of the fire.

IPC 7: A 62 s

37/08

The closest analogue to the second option of the proposed solution is described in US patent No. 5609211 (A 62 C 37/08, publ. 11.03.97) sprinkler, comprising a housing with channels for supplying fluid, a thermal lock with a valve that blocks the outlet of the sprinkler , and the attachment point of the thermal lock. The deflector is made in the form of a concave disk with petals located around its circumference formed between the slots in the disk. This technical solution is aimed at creating a gas-droplet flow with an optimal droplet size and uniform distribution in space, which allows the efficient use of liquid for fire suppression. It should be noted that the design of the well-known cnpHhfclair does not provide effective extinguishing of a large area of fire. In this case, it is required to increase the installation density of sprinklers on the room ceiling.

The proposed solution is aimed at creating a sprinkler design, with the help of which the generation of a uniform finely dispersed gas-droplet flow with high kinetic energy of the droplets and with a uniform spatial distribution is ensured. The solution to this problem allows you to increase the irrigation area with a given intensity and kinetic energy of the drops,

necessary for effective fire extinguishing. In other words, the claimed decision is aimed at increasing the area protected from fire. In addition, it allows you to reduce energy consumption and fluid flow to generate a gas-droplet stream, which has these advantages. The achievement of the specified technical result is ensured by the fact that in the sprinkler containing the housing with a channel for supplying fluid, overlapping

a locking element, a thermal lock and a deflector, made in the form of a concave disk with petals located around its circumference, the latter are formed by slots of various lengths, made in such a way that the length of the longer slots is 1.5-2.2 times longer than the shorter, but 4.5-5.5 times smaller than the diameter of the disk, and arranged so that longer slots alternate with shorter ones, while the magnitude of the arc corresponding to each slot is 1.8-2.2 times less than the magnitude of the arc corresponding to each petal.

The diameter of the deflector disk is 5.5-6.5 times the height of the deflector.

The achievement of the specified technical result is also ensured due to the fact that in another embodiment, the sprinkler comprising a housing with a channel for supplying liquid, overlapped by a locking element, a thermal lock and a deflector made in the form of a concave disk with petals located around its circumference, characterized in that the central part of the disk has a slight concavity, and the peripheral part on which the petals are made is bent so that it forms a cylindrical section, while the petals are made s in the form of teeth, between which the depressions are arranged radially, and the lateral surface portions arranged obliquely formed, connected with the data radii, the height of the teeth of about 1.5-2.5 times less than the height of the deflector.

The proposed solution is illustrated by examples of specific performance and the accompanying drawings, which depict:

in FIG. 3 is a perspective view of a deflector according to a second embodiment.

The sprinkler, made according to the first embodiment (see Fig. 1-2) of the claimed utility model, includes a housing 1, in the lower part of which a connecting unit 2 is made for connection to a main fluid supply pipeline. In the housing 1, a through channel is made in which the thermal lock valve 3 is located, which is sealed by a seal. The valve 3 is held in its original position by means of a flask 4 thermal lock made of brittle material. Flask 4 is fixed in position with the set screw 5.

The attachment point of the thermal lock is made in the form of arches 6, opposite and symmetrically located relative to the bulb 4. As a rule, such arches are part of the body. A deflector 7 - a gas-droplet flow divider (socket) is attached to the temples 6. The deflector 7 is made in the form of a concave disk with petals 8 located around its circumference. Deflector petals 8 are formed by slots 9 of various lengths. The length of the longer slots is approximately 2 times the length of the shorter and approximately 5 times smaller than the diameter of the disk. The slots are arranged in such a way that longer slots alternate with shorter ones. The magnitude of the arc corresponding to the central corner of each slot is two times smaller than the magnitude of the arc corresponding to the central corner of each lobe.

The sprinkler claimed according to the second embodiment of the present utility model contains the same structural elements as the first embodiment (see FIG. 1). The difference in the design of the sprinkler in this embodiment lies in the form of the deflector 7 (see Fig. 3). The deflector in this embodiment also

made in the form of a concave disk with petals located around its circumference, but with this, the central part of the disk has a slight concavity, and the peripheral part on which the petals 8 are made is bent so that it forms a cylindrical section 9. The petals are made in the form of teeth, the depressions 10 between which are formed by radii, and the lateral surfaces are inclined sections connected to these radii. The height of the teeth is approximately half the height of the deflector 7.

These parameters were obtained experimentally, while the above ratio of the deflector elements allows to obtain the optimal size of the generated droplets in the stream, while maintaining their spraying distance and uniform irrigation of a given area of the fire source. Thus, the alternation of slots of various lengths according to the first embodiment allows to obtain the optimal gas-droplet flow, in which the collision of droplets is minimized and, consequently, the kinetic energy of the flow is reduced. In addition, a change in the size of the slots with respect to the diameter of the disk leads either to an increase in the size of the droplets or to a decrease in the spraying range. In this case, the best result can be obtained precisely with the specified claimed size ratio of the deflector. Figure 2 shows an example of a deflector according to the first embodiment. So, for example, with a disk diameter of 28 mm, the size of the deeper slots is 5.5 mm, and shorter - 3.25 mm. The magnitude of the arc of each petal is 15 °, and the magnitude of the arc of the slot is 7.5 °. With a deflector disk diameter of 27.5 mm, the height of the deflector is 4.5 mm.

Moreover, the claimed ratio of the magnitude of the teeth and the height of the deflector is also optimal to obtain a uniform long-range gas-droplet flow. In the example shown in FIG. 3, the height of the deflector is 6.6 mm and the height of the teeth is 3.2 mm.

Despite the fact that the deflector in the first embodiment differs in form from the deflector in the second embodiment, in general, each of the options provides a solution to a single task. In this case, the features of various shapes of sockets, which have a shape different from the flat shape in known devices, were used.

The operation of the sprinkler in accordance with this utility model is as follows.

Water is supplied to the sprinkler under a certain pressure. As a result of the ejection from the channel, a stream of liquid saturated with steam and air is formed, which, when it collides with the deflector 7, as well as with the base of the arches and the set screw 5, is crushed into small droplets. This reduces the size of the droplets in the gas-droplet stream while maintaining the high kinetic energy of the droplets. Due to this, a finely dispersed gas-droplet flow with high range is formed. This generally allows you to increase the efficiency of fire fighting.

Thus, when using the sprinkler of the described design, it is possible to create a finely dispersed and uniformly in the space flow of drops without increasing the flow rate and pressure of the liquid. In addition, the unproductive losses of the kinetic energy of the droplets are reduced.

The above information confirms the possibility of achieving a technical result using a sprinkler, made in accordance with this utility model in various versions. Proposed

The solution provides the generation of a uniform finely dispersed gas-droplet fluid flow with high kinetic energy and with a uniform spatial distribution, which allows to increase the area of the room protected from fire.

The sprinkler can be used in fire fighting equipment, namely in stationary sprinkler systems for local extinguishing of fires in rooms with a large number of possible fire sources. It can also be used as part of automatic fire extinguishing installations, including control sensors and a control system. Sprinklers of the described design can be installed using a standard detachable connection on the main pipelines of existing fire extinguishing systems instead of previously used sprinklers.

Claims (3)

1. A sprinkler comprising a housing with a channel for supplying liquid, overlapped by a locking element, a thermal lock and a deflector made in the form of a concave disk with petals arranged around its circumference formed by slots, characterized in that the petals of the deflector are formed by slots of different lengths, the length being more long slots are 1.5-2.2 times longer than the shorter ones and 4.5-5.5 times smaller than the diameter of the disk, while the slots are arranged so that longer slots alternate with shorter ones, and the arc size is cent cial angle corresponding to each slit, in 1.8-2.2 times less than the value of the central angle of the arc corresponding to each petal. 2. The sprinkler according to claim 1, characterized in that the diameter of the deflector disk is 5.5-6.5 times the height of the deflector. 3. A sprinkler comprising a housing with a fluid supply channel overlapping by a locking element, a thermal lock and a deflector made in the form of a concave disk with petals located around its circumference, formed by slots, characterized in that the central part of the disk has a concavity or taper, and the peripheral the part on which the petals are made is bent so that it forms a cylindrical section along the edge of the disk, while the petals are made in the form of teeth, the hollows between which are formed by radii, and the side erhnosti - obliquely arranged portions connected to the data, the radius at the height of the teeth 1.5-2.5 times less than the height of the deflector.