SU1419732A1 - Irrigation injector for gas-line - Google Patents

Description

(21) A171748 / 22-05 (22) 11/26/86 (A6) 08/30/88. Bul Number 32

(71) South-Eastern Production and Technical Enterprise for the repair, adjustment and design of power plants for ferrous metallurgy enterprises

(72) K.A. Kvitkovsky, A.V. Bogolyubov, N.S., Fedorchuk, Yu.P. Mokrotovarov, L.G. Shvedova and V.A. Cousin

(53) 66.069.83 (088.8)

(56) Staritsky V.I. Gas ownership of ferrous metallurgy plants. M .: Metallurgi, 1973, p. 417.

(54) IRRIGATING SPRAYER TO GAS PIPELINE

(57) The invention relates to a device for spraying liquids and can be used to irrigate and cool the inner surface and the conveyed gas in water in gas pipelines, gas appliances and scrubbers. Chain - simplifying the replacement of the nozzle nozzle when the pipeline is running. For this, the irrigation nozzle is provided with cap nozzles (H) in the form of discs with cone-shaped protrusions and cavities, in the central part of H they are coaxially mounted on the end face of the nozzle so that they can be combined with each other. The nozzles are fitted with springs fixed in a cavity. The hole in the glass is made with the corresponding number H in stepwise decreasing diameter to the inlet. They are made with a stepwise decreasing diameter at the ends of the nozzle and the ability to enter and overlap the corresponding step of the hole in the glass. The nozzle is connected to the adjacent H threaded connection. The nozzle is also equipped with latches installed on the outer end of the glass, and swivel stoppers. In the adjacent to the nozzle H made grooves. Swivel stoppers are installed in the slots adjacent to the nozzle H with the possibility of interaction with the locking devices. In the glass, a channel is made, which communicates the middle hole cavity with the water supply pipe. 2 hp f-ly, 3 ill.

(L

The invention relates to a device for spraying liquids and can be used to irrigate and cool the internal surface and transport gases with water, and mainly at high pressures and high temperatures in gas pipelines, gas appliances and scrubbers.

The aim of the invention is to simplify the replacement of a nozzle nozzle on a working gas pipeline,

Fig. 2 shows the irrigation nozzle in the working position; Fig. 2 is the same in the nozzle replacement position; Fig. S shows section A-A in Fig. 1.

The irrigation nozzle contains a cup 2 fixed in the wall of the gas pipeline 1 with a hole 3 and sealing rings A.

In the hole 3 of the cup 2, the nozzle 5 is mounted with the possibility of axial movement of a cylindrical shape with an axial inlet channel 6 and outlet holes 7 tilted to the axis.

At the end of the nozzle 5, cap nozzles 8, 9, and Yu are mounted coaxially in the form of discs with conical outlets 11, 12, and 13 and cavities 14, 15, and 16 in the central part. Cap nozzles 8, 9 and 10 are installed with the possibility of combining with each other secured in the cavity 14 and 15 by springs 1 7 and 18.

Hole 3 in glass 2 is configured with a corresponding number of nozzles which are stepped down to the inlet diameter.

The nozzles 8, 9 and 10 are filled with a stepwise decreasing diameter to the end face of the nozzle 5 and the ability to enter and shut off the corresponding step

holes 3 in glass 2.

The nozzle 5 is connected with the nozzle 10 adjacent to it 10 threaded connection 19.

On the outer end of the cup 2, clamps 20 are installed. On the nozzle 10 adjacent to the nozzle 5, the grooves 21 are made, rotatable stoppers 22 are installed with the ability to cooperate with clamps 20, Channel 23 is made in the cup 2, which communicates the middle cavity of the hole 3 with the pipeline 24 water supply, equipped with a valve 25 and valve 26.

with

Yu

five

0

five

Q

0

The nozzle works as follows.

In the working position of the nozzle, the nozzle 5 with nozzles 8, 9 and 10 is introduced through the opening 3 of the cup 2 into the gas pipeline 1. The sprayed liquid is supplied through the channel 6 and the nozzle 5 and is sprayed through the outlet holes 7, irrigating the surface of the gas pipeline 1 and cooling the gas transported through it .

Additionally, water can be supplied to the gas pipeline through the channel 23 and the cavity of the opening 3 of the cup 2, thereby achieving additional irrigation of the pipeline, cleaning the inner and end surface of the cup 2, and protecting the seals 4 from the effects of gas.

To replace the nozzle 5 of the nozzle on a working gas pipeline, shut off the liquid supply through the pipeline and the channel 6, then the nozzle 5 is pushed out of the cup 2 until the nozzles 3 and 9 of the corresponding steps are bore 3 and the nozzle 10 is aligned with the sealing rings 4. the grooves 21 of the nozzle 10 and secured with clips 20 at the end of the cup 2. The nozzle is unscrewed from the nozzle Yu and replaced with a new one.

To increase the reliability of the seals, the holes 3 in the cup 2 supply water through the channel 23,

After replacing the nozzle, the water supply through the channel 23 is shut off, the stoppers 22 are inserted into the grooves 21 of the nozzle 10, and the nozzle 5 is pushed into the cavity of the pipeline 1,

Claims (3)

Invention Formula 1, Irrigation nozzle to a gas pipeline, comprising a glass with a hole fixed in the wall of the gas pipeline and with sealing rings placed in it, a cylindrical nozzle with an axial inlet channel and outlet pipes inclined to the axis, which can be axially moved characterized in that, in order to simplify the replacement of a nozzle nozzle on a working gas pipeline, it is provided with cap nozzles in the form of discs with conical protrusions and cavities in the central part, coaxially mounted at the end of the nozzle with the possibility of overlapping with each other, and springs fixed in the cavity of the nozzles, and the hole in the glass is made with the corresponding number of nozzles stepwise decreasing to the inlet, while the nozzles are made with stepwise decreasing - with the diameter of the nozzle face and the possibility of entry and blocking of the corresponding stage of the hole in the glass, and the nozzle is connected to the threaded connection adjacent to it. 2, POP.1 nozzle, characterized in that it is provided with retainers mounted on the outer end of the glass and pivotal stoppers, and in the nozzle adjacent to the nozzle the grooves are filled, while the rotational stoppers are installed in the grooves of the nozzle adjacent to the nozzle with the ability to interact with clamps. 3. The injector according to Claims 1 and 2, characterized in that a channel is filled in the glass, which communicates the middle cavity of the hole with the water supply pipe. Water . 7 Compiled by G. Dykov Editor M. Bandura Tehred L. Oliynyk Proofreader M. Sharoshi Order 4267/11 Circulation 63A VNIIPI USSR State Committee by de. Schm inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 fS 12 9 18 Subscription