SU1767108A1 - Hydrant - Google Patents

Abstract

SUMMARY OF THE INVENTION: In the housing cuff, located on the inner surface in the lower part, the tubular element fixed to the hollow stem having a locking member is mounted for vertical movement. The bracket is equipped with a hydraulic actuator in the form of a chamber with a piston. Additional cameras are spaced apart in height coaxially with the main camera. The upper chamber is rigidly fixed to the bracket, the lower ones are mounted for vertical movement by a hollow rod of the overlying camera connected to the lid of the underlying camera, in which a hole coaxial with the rod is formed. The taps are installed above the holes in the lids of the hydraulic drive chambers with the communication of the over-piston cavities of the chambers among themselves and with the help of the drainage pipe when the taps are open. The tubular element is made with a horizontal partition located at a distance from the ends above the cuff when the element is closed. The element above the partition is made with cutouts l 1 Il.

Description

This invention relates to water regulating valves installed on a network.

The purpose of the invention is to increase reliability.

The drawing shows the water intake column in the closed position, the section.

The water intake column consists of a supply pipe 1 with a mounting flange 2, on which the housing 3 is fixed with free rotation, with a discharge pipe 4 and an internal 5 at the bottom. In addition, the water intake column includes a water shut-off valve and its hydraulic line (not indicated), as well as a plug 6 with an epiploon 7, in which a hollow rod 8 is placed, at the lower end of which a water shut-off valve is fixed, which is made in the form of

tubular element 9. The latter for reliability is divided by a partition 10, and end cuts 12 are made on the upper part 11. The plug 6 with the gland is fixed at the end of the body 3.

The hydraulic actuator is made in the form of a chamber 13 with a piston 14, the lid 15 turned upwards and fixed fixedly on the bracket 16.

The hydraulic actuator is equipped with additional chambers 17 and 18, each of which is turned upside down by a lid 19 and 20. There are stops 21, 22 and 23 at the end of each chamber 13, 18 and 19. In each chamber 13, 18 and 19 there are pistons 14, 24 and 25, which are made in the form of discs fitted on the outer circumference with cuffs 26 27 and 28.

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The upper chamber 13 of the hydraulic drive is fixed by means of brackets 16 on the casing 3 of the intake column, and the lower piston 24 is connected by means of the rod 8 to the tubular element 9. At that, additional chambers 18 and 19 are spaced apart in height, coaxially with the upper chamber 13, and installed with the possibility of vertical Surrounding the hull with hollow rods 29 and 30, connected with covers 19 and 20 of the underlying chambers.

AT; piston x 14,24,25, lids 15,19,20 chambers 14, 17 and 18 and the partition 10 of the tubular element 9 are made central holes 31-36, which are sequentially communicated using channels 37, 38, 39, made in the rods 30, 29 and 8. At the same time, the channels 37,38,39 of the rods 30,29 and 8 are equipped with taps 40, 41 and 42, which are located on the covers 19 and 20. The same valve 43 is installed above the opening 31 in the cover 15 of the upper chamber 13 fixed on brackets 16.

For ease of manufacture and operation, all the taps 40. 41, 42 and 43, the pistons 14, 24, 25, as well as the chambers 13, 17, 19 are equally sized. With the same purpose, as well as to increase the reliability in operation, the cuff 5 of the housing 3 of the water intake column and the cuff 26, 27 and 28 of the pistons 14, 24 and 25 are also made the same. For the same reason, the camera 13, 18, 19 of the hydraulic drive and the housing 3 of the water intake column are made equal in size in cross section.

In order to ensure reliable closure of the column hydrant, the cuff 5 of the housing 3 is mounted with water-tight sealing elements down.

In order to avoid jamming of the upper part 11 of the tubular element 9 and damage to the cuff 5, as well as to ensure a smoother opening and closing, the notches 12 are made in the form of triangles arranged vertically downwards. The latter, for complete discharge of water and reduction of hydraulic resistance, are placed at the level of the upper surface of the partition 10.

Since the plug 6 with the gland 7, as well as the bracket 16 on which the hydraulic actuator is fixed, are fixed on the housing 3, the latter is installed without the possibility of vertical movement. Since the body 3 experiences a pressure force from the bottom up, it is provided with a flange 44 fixed on its lower end. In this case, the flange 44 is provided with annular grooves in which the sealing elements 45 and 46 of the gaskets 47 and 48 are placed and fixed to the flange 2 of the inlet pipe 1 by means of a flange 49.

To ensure reliable operation and ensure complete discharge of water from the cavities of the hydraulic drive, each piston 14, 24, 25 is provided with a funnel-shaped recess 50 communicated with their orifices 32, 34, 36.

Water intake column works as follows.

0 In the closed position of the column, the valve 42 of the lower stem 8, on which the locking tubular element 9 is fixed, is closed. In this case, water from all the piston cavities released. Prior to the water supply to the water supply pipe 5 connecting pipe 1 under the force of gravity, the pistons 14, 24 and 25 together with the cameras 17 and 18 fixed to them and the tubular element 9 are lowered downwards. In this cutouts 12 are located below the cuff 5 of the housing 3. In

As a result, the air during the first filling of the network with water freely passes through the notches 12 into the cavity of the housing 3 and the outlet nozzle 4. Due to this, air plugs are prevented from forming in the network, and

5 therefore, vibrations and water hammer.

When the water inlet pipe 1 is completely filled with pressure on the septum, the tubular element 9 rises smoothly, i.e. the hydraulic shock is quenched by the gradual release of air from the piston cavities of the hydraulic drive. In the upper position of the locking tubular element 9, the cuff 5 is pressed against its smooth surface under the notches 12. As a result

5, the access of water to the cavity of the housing 3 and its water outlet is completely closed. This is ensured by the fact that the cuff 5 with its sealing elements is directed downwards towards the cavity of the inlet pipe.

In order to smoothly open the water intake column, initially all the taps 43, 40, 41 and 42 are closed, and then the faucet 42 is alternately opened, then the faucet 41, then the faucet

5 40. The crane 43 remains closed at the same time. When the faucet 42 is opened, water from the supply nozzle 1 through the channel 39 of the rod 8 through the holes 36 in the piston 24 enters the supra piston space of the chamber 18. Since

0 the cuff 5 is fixed on the case 3 of the water intake column, and the cuff 27 outside the piston 24 and in connection with the fact that the cuffs 27 and 5, as well as the body 3 and the chamber 18 are made in cross section, are the same, then the area of the piston 24 and cuff 27 is larger than the area of the partition 10 and the cross section of the water-intake tubular element 9. As a result, the piston 24, together with the rod 8 and the tubular element 9, is partially lowered-. At the same time, the downward movement of the piston 24 and the water intake tubular element 9 gradually increases. The area of the notches 12 is located under the sealing sleeve 5, since the latter are made in the form of triangles arranged vertically downwards.

The piston 24 is lowered to the stops 23 of the chamber 18.

After that, the valve 41 is opened, as a result, the water through the channels 39 of the rod 8, the valve 42, through the opening 36 in the piston 24, the piston chamber 18 above the piston cavity, its opening 35, the valve 41, the channel 38 of the rod 29, the opening 34 of the piston 25 will flow into the over piston cavity of the chamber 17 of the hydraulic actuator. At the same time, the piston 25 together with the rod 29 and the chamber 18 fixed on the bottom end of the latter 18 is lowered until it stops 22. Together with the chamber 18, the piston 24 and the water catching element 9, in which the culvert cuts 12 are made, lower, all this leads to an increase in the area of the notches 12, located below the cuff 5.

When the valve 40 is opened, water will flow into the above-piston cavity of the upper chamber 13 fixed still on the bracket 16. As a result, together with the piston 14, the chamber 17, the piston 25, the chamber 18, the piston 24 and the water-inlet element 9 with drainage openings 12 are lowered.

This way, smooth opening and closing of the water intake column occurs and the possibility of controlling the flow is achieved, even with unskilled operation, i.e. you can open one or two, three, etc. of several cranes 40. 41. 42, respectively, put in place one, two, d. camera 14,17,18 hydraulic drive water element 9.

If it is urgently necessary to reduce the flow rate, then the valve 42 is closed and the valve 43 is opened, releasing water from the hydraulic drive through the latter, and the water blocking element 9 will rise.

In normal cases, the column is closed in the reverse order of opening. Initially, the taps 40, 41, 42 are closed, which stops the flow into the supra-piston cavities of the chambers 13, 17, 18. After that, the valve 43 is opened smoothly, as a result of which a stop element 9 is made under the pressure force exerted on the partition wall. 12, gradually rises, water consumption gradually decreases. The piston 14 in the upper chamber 13 of the actuator rises as the water is displaced through the opening 31 in the lid 15 of the chamber 13. After the valve 40 is opened, as a result, the water from the over-piston space of the chamber 17 under the action

pressure forces on the water stop element 9 and its partition 10, i.e. water is squeezed out through the hole 33, the valve 40, the channel 37 of the rod 30, the hole 32 in the piston 14 and the hole 31 in the cover 15 of the upper chamber 13.

After that, the valve 41 is opened. A process similar to the one described above occurs. As a result, the notches 12 in the upper part 11 of the water block element 9 are located completely above the level of the cuff 5, which is pressed against the smooth surface of the tubular element 9 by the water pressure, as its sealing elements are directed into the cavity of the inlet pipe 1.

By making the notches 12 at the end of the upper part 11 and placing their peaks at the level of the partition 10, hydraulic friction is reduced by simplifying the flow path.

 Due to the fact that the notches 12 are directed vertices down, i.e. smoothly tapering, the water-lockable element 9 moves without its jamming and damage to the cuff 5. Element 9 with its upper part 11 even at its lowest position is placed in the cuff 5, which prevents its jamming.

If there is pressure in the network, the casing 3 is subjected to an upward pressure force, however, the dismantling of the water intake column is reliably prevented due to the fact that the flange 44 is rigidly fixed to the casing 3 and fixed to the flange 2 of the inlet pipe 1 by means of a flange 49. water is prevented by sealing elements 45 and 46 of the gaskets 47 and 48.

It should be noted that the wear of the cuffs 5, 26, 27 and 23, of the gland 7 is sharply reduced, since all the nodes are connected to the case 3 of the water intake column and rotate with it, i.e. when installed in one side or the other side of the outlet nozzle 4 by rotating the body 3, friction occurs only in the sealing gaskets 47 and 48, the wear of which is minimal and easily compensated by pressing hardware (not shown) with which the flanges 49 and 2 are fastened .

When collecting water from the network, the water-holding element 9 and all pistons 14, 25, 24, even when the taps 43, 42, 41 and 40 are closed, are partially lowered as air is sucked between the cuffs 26, 27 and 28, while the air freely passes through that part cutouts 12, which are located below the cuff 5. When the water is re-started, air is slowly displaced from the over-piston spaces and the water intake column

closes without water hammer. If, even in some cases, when the water is discharged from the network, the water inlet element 9 is not lowered, the air is drawn in between its surface and the cuff 5, since the latter is directed downward by its sealing elements.

When water is discharged from the network for the winter period, all the taps 43, 42, 41 and 40 are opened. At the same time, the remaining water flows out of the hydraulic piston through the channels 37, 38, 39 in the rods 30, 29 and 8, due to the implementation in pistons 28, 25, 24 holes 32, 34, 36 and funnel-shaped recesses 50 communicated with them. At the same time, the water completely drains from the upper part 11 of the locking element 9 and the cavity of the body 3 due to the fact that the tops of the triangular notches 12 are located at the bottom of the 10 of the water blocking element 9, which are at this moment below the cuff 5. All this is prevented schaet formation in column hydrant ice and nets in vacuo

Claims (1)

Invention Form A water intake column comprising a housing with a cuff on an inner surface in its lower part and an inlet 0 5 0 five a branch pipe mounted in the housing cuff for vertical movement of a tubular element mounted on a hollow rod having a stopcock and mounted on the bracket hydraulic actuator in the form of a chamber with a piston, characterized in that, in order to increase reliability, the hydraulic actuator is equipped with additional chambers that are spaced apart in height coaxially with the main camera, while the top of them is rigidly fixed to the bracket, and the bottom ones are installed with the possibility of vertical movement by means of a hollow rod a chamber connected to the lid of the underlying chamber, in which a hole coaxial with the rod is formed, and taps installed above the holes in the lids of the hydraulic drive chambers with the over-piston cavities of the chambers between themselves and the drainage pipe when the taps are open, and the tubular element made with a horizontal partition located at a distance from the ends above the cuff in the closed position of the tubular element, while the tubular element above the partition is made with notches. / 4 sa 28 zg Have