RU2135706C1 - T-shaped fire-fighting hydraulic giant - Google Patents

Abstract

FIELD: fire-fighting machinery and equipment. SUBSTANCE: T-shaped fire-fighting hydraulic giant has following components: gate valve, lifting pipe, gate valve spindle extension, protective sleeve of spindle extension, clamp, coupling member with spiral thread and device for its protection, and S-shaped adapter member which has no rectangular and sharply narrowing structural component in lower part of adapter member. This particular feature allows for removing spindle from lifting pipe outside so as to minimize distance between lifting pipe and spindle extension. Aforesaid embodiment of hydraulic giant ensures favorable inflow of water and allows for installing fire-fighting hydraulic giant in water intake well with standard hole, thus providing best approach to water intake well and more convenient conditions for operation in it. EFFECT: higher efficiency. 3 cl, 1 dwg

Description

 The invention relates to a device for the selection of water for fire needs, for other water intake purposes, and relates to the design of an underground fire hydrant connected to an external pipeline.

Known fire hydrant, where the spindle and the spindle extension mount is located inside the riser pipe (a.s. SU 1539270, 1988),
A known fire hydrant, where the spindle extension is brought out of the lift pipe to the outside, but uses a transition element at an angle of 90 ^o (DE N 1459539, class 04 B 9/08, 1971). This invention can be used as a prototype.

 A known fire hydrant, in which the transition element has an S-shape, but the spindle extension is located inside the riser pipe and there is no automatic drain valve (FR N 1595255, class E 03 B 9/04, 07.17.70).

The disadvantages of these fire hydrants are as follows:
In the first case, the lifting pipe and its 6-inch connecting part with a screw thread are made of metal susceptible to corrosion, onto which a thread is pressed in from above or a bayonet connector instead. Inside the lift pipe there is a spindle extension mount and its guide cross, which reduce the clearance of the water flow and prevent the flow of water, creating a large hydraulic pressure inside the lift pipe. Due to corrosion, the strength of the joint of the pressed-in coupling decreases, and it begins to turn in the upper part of the riser pipe. In addition, the bronze clutch is soft, unstable to shocks and, with constant use of the hydrant, is deformed and disables the fire hydrant. There is no automatic valve for pumping water, which in some cases has been replaced by various types of emptying systems that are unstable in operation. As a result, water stagnates in the riser, which leads to corrosion; in winter, the water freezes and the fire hydrant is not suitable for use. To open the fire hydrant by extending the spindle, you can use only one key, depending on the size of the tetrahedral tip, as in different types of fire hydrants, the sizes of tetrahedral tips are different. Therefore, you must have a set of keys of different sizes. The spindle extension is mounted with a double clamp, which weakens over time, and the spindle extension is deformed.

In the second invention, where the spindle extension is brought out, a transition element is used at an angle of 90 ^° , as a result of which the distance between the riser pipe and the spindle extension is increased, which complicates the supply of the fire hydrant to the well and work in the well. There is no automatic drain valve.

 In the third case, an S-shaped adapter element is used, but the spindle extension is located inside the riser pipe. As a result, the clearance of the water flow is reduced, which prevents the flow of water, creating a large hydraulic pressure inside the riser pipe. The S-shaped adapter element consists of two parts. The diameter of the lower part of the transition element is larger than the upper part, the diameter of which is equal to the diameter of the lifting pipe. A smooth transition from the lower part of the transition element to the upper part is prevented by a rectangular and sharply tapering structural element in the lower part of the transition element. The different diameter of the transition element creates additional obstacles to the flow of water.

 In this application for a invention, a fire hydrant is provided where known details are used, but in a different design, in order to eliminate the above disadvantages and create a universal fire hydrant, convenient to use everywhere, without delay, providing a convenient approach to the well and creating more spacious conditions when work.

The T-shaped fire hydrant shown in the drawing consists of:
From the valve (1), which is rigidly connected to the external water supply and which eliminates the use of hydraulic shocks in the water supply network and provides easy opening and closing. From a cast-iron S-shaped, consisting of one part, transition element with the same diameter (2), which ensures good fluidity of water and allows to reduce the distance between the lifting pipe (3) and the spindle extension (4), which facilitates access to the well and work in him. The lifting pipe (3) is made of non-corrosive metal, which ensures its long-term operation. Due to the fact that the extension of the valve spindle is brought out of the riser pipe, a free flow of water from the riser pipe is achieved. From the extension of the spindle (4) of the valve, which is brought out, due to which free flow of water from the riser pipe is achieved. From the thermowell (6) of the spindle extension, which protects it from deformation. From the clamp (7), by means of which the protective sleeve (6) is rigidly welded to the lifting pipe (3) to create stability in operation. From the tetrahedral tip (5) in the upper part of the spindle extension with cross-sectional dimensions in the upper part of 20x20 mm and in the lower part of 27x27 mm, which makes it possible to use any size of keys if necessary. From the connecting part (8) with a 6-inch screw thread, which makes it possible to rigidly connect to the riser pipe and at the same time, if necessary, disconnect from the riser pipe. From the protective cover (9) to the connecting part with a 6-inch screw thread made of non-corrosive material, which can be removed if necessary. From an automatic emptying valve (10), which is normally in the open position and closes automatically during water intake. An automatic drain valve is located in the lower left of the S-shaped adapter element. From the support (11), which makes it possible to reliably place a T-shaped fire hydrant in the well. This design of the fire hydrant eliminates the disadvantages of other types of fire hydrants. Thanks to the use of an S-shaped adapter (2), the distance between the riser pipe (3) and the spindle extension (4) is minimized, which makes it possible to install a fire hydrant in a well with a standard hatch (⌀ 590 mm). The approach to the well improves and the working space in the well increases during maintenance of the fire hydrant. The connecting part with a 6 '' screw thread for the lifting pipe (8) is made of a single piece of stainless metal, is rigidly fixed to the lifting pipe, but is removed if necessary. One possible mounting option is to fasten the flange using bolts, as indicated in the drawing. The connecting part with a 6 '' screw thread of the riser pipe (8) is covered for protection against dirt and deformation of the thread by a stainless steel cover. The protection sleeve (6) of the spindle extension for stability is attached to the lifting pipe (3) with a welded clamp (7) A four-sided tip with a cross section in the upper part of 20x20 mm and in the lower part of 27x27 mm is installed on the spindle extension (4), which makes it possible to use one a universal key for connecting a fire hydrant to various drainage systems, there is no need to have a set of different keys with you, because the various types of fire hydrants used have different spindle elongation cross sections. An automatic drain valve (10) is used, which is automatically opened and closed during water intake in the normal state, which ensures that when the valve is closed (1), water automatically flows out of the riser pipe (3) and protects the pipe from freezing in winter, ensuring more reliable operation of the fire hydrant.

Claims (4)

 1. T-shaped fire hydrant used for external water intake, consisting of a valve, a lifting pipe, an extension of the valve spindle, a protective sleeve for extending the spindle, a clamp connecting parts with a screw thread and its safety device, a transition element, characterized in that the extension of the spindle the gate valves are located outside the lifting pipe at a minimum distance from it, and an S-shaped transition element of free section is installed as a transition element to ensure a good water flow, possibly installation of the opposite hydrant in a well with a standard manhole ⌀ 590 mm, the best approach to the well and more convenient working conditions in it.  2. The T-shaped fire hydrant according to claim 1, characterized in that the protective sleeve for extending the spindle to ensure stability in operation is secured by a clamp rigidly welded at one end to the riser pipe.  3. The T-shaped fire hydrant according to claim 1, characterized in that the spindle extension is equipped with a tetrahedral tip with a cross section in the upper part of 20 x 20 mm and in the lower part of 27 x 27 mm, which makes it possible to use a universal key for opening and closing the shutter .  4. The T-shaped fire hydrant according to claim 1, characterized in that it is equipped with an automatic emptying valve located at the bottom of the S-shaped transition element, constantly open, thereby automatically emptying the fire hydrant to stop using water, preventing icing freezing in winter and closing automatically when water is taken.