PL96022B1 - AUTOMATIC DRAINAGE OF THE UNDERGROUND HYDRANT - Google Patents

Description

The subject of the invention is a system of automatic drainage of an underground hydrant used in pressure pipelines, used mainly for the partitioning of water during firefighting, as a protection against the possibility of defrosting hydrants in low temperature zones. The system of automatic drainage of the hydrant is known. underground, the main part of which is a rubber gasket in the shape of an elongated oval, having a formed rim on the outside along the long axis of the oval, fading towards the tops of the oval, and inside the seal rectangular shape, taking the shape of an oval shape on both tops half-circles. The outer part of the shaft seal, mating with the spouting cylindrical opening in the guide, seated tightly in the vertical wall of the hydrant support, is convex and its radius of curvature corresponds to the radius of the guide in the hydrant support. This gasket is seated in a special seat made in the vertical outer wall of the hydrant valve plug. The pressure of water on the gasket, needed to tightly close the hole in the guide, is exerted through obliquely drilled holes in the plug from the sides of the heads of the heads. ¬ or gaskets. These openings extend into the seat of the gasket and, cooperating with the recess of the gasket, form a passage for water. The disadvantage of this drainage system is the complicated shape of the gasket and its seat, requiring an additional operation of drilling oblique holes in the hydrant's valve plug, which complicates the production process and increases the cost of the product. There is also a known self-draining system of an underground hydrant, which is a flat gasket of leather or rubber vertically in the seat of the hydrant valve plug and is pressed against the guide with a drainage hole by the hydrostatic pressure of the water column filling the hydrant body during water intake. . The disadvantage of this drainage system is that the gasket very often falls out of its seat in the plug during operation and also during renovation, which causes water leakage into the hydrant sump. The aim of the invention is to develop a self-draining structure in which the aforementioned disadvantages, that is, of a simple construction, easy to manufacture and replace, and effective in operation. This aim was achieved by the use of a rectangular gasket in the drainage system with two shorter sides rounded with a correspondingly rectangular protrusion inside the partial shape. Longer sides of the gaskets have two symmetrically formed gaskets at the height of the upper edges, serving to secure before it falls out spontaneously after it has been inserted into its well-shaped seat, made in the hydrant's valve plug. The outer bottom surface of the seal has a certain convex curve, the radius of which corresponds to the radial groove in the guide on the inside of the hydrant's base . The rounded edges of the short sides of the seal are supported by appropriately shaped protrusions in the plug seat. The lateral protrusions of the gasket are seated in the recesses made along the straight inner edges of the gasket seat at a certain depth and prevent the gasket from falling out of its seat during assembly and maneuvering the valve when opening and closing the flow of water or other medium. automatic drainage of the hydrant, the gasket according to the invention when the main passage is closed, the pressed guide is in the state of initial compression, and when the passage is opened, the water pressure has free access to the inside of the plug and additionally presses the gasket through the cavity hollowed out inside the seal against the guide from the outer side of the bottom surface of the gasket, tightly closing the drainage hole. When the passage is closed, the reverse movement of the mushroom head exposes the drainage hole, allowing the water to flow freely from the hull to the outside of the hydrant. The insertion and removal of the gasket in the seat is very simple due to a certain elasticity of the upper edges with side protrusions and is done with the fingers of the hand or with a simple device. Fig. 2 - front view of the drainage seal seat in the hydrant valve plug, Fig. 3 - valve plug in a partial vertical section through the seal seat, Fig. 4 - The drainage gasket in the front view from the projection side, and Fig. 5 - the drainage gasket in the partial cross-section. The automatic underground hydrant drainage system has as its main element a gasket 1 in the shape of a cuboid with rounded two shorter sides 2 with correspondingly rectangular inner expression 3 on the shape of the frontal. At the height of the upper edges 4, the longer seals have symmetrically positioned protrusions 5, which serve to protect the gasket against self-falling out after it is mounted in a properly shaped seat 6 made inside the disc 7. The outer bottom surface 8 of the gasket 1 has it convexes a curvature, the radius of which corresponds to the radius of the recess in the guide 9 on the inside of the base 10 of the hydrant. The rounded edges of the shorter sides 2 of the seal 1 are supported in the appropriate shape by the protrusions 11 in the seat of the plug 7. The protrusions 5 of the seal 1 rest on the planes of the depths 12 made along the straight edges of the seat 6 located at the appropriate depth and prevent the seal 1 from falling out of the seat 6. PL

Claims (2)

Claims 1. The system of automatic drainage of the underground hydrant, which is an oval gasket made of rubber or other elastic material, seated vertically in the seat of the hydrant's valve head, cooperating with the pouring cylindrical opening in the guide seated tightly in the vertical inner wall of the hydrant's support , characterized in that the gasket i (l) has the shape of a cuboid with rounded two shorter sides (2) with a correspondingly perpendicular protrusion (3) inside the partial shape, while at the height of the upper edges (4) the longer sides of the seals have a symmetrical alignment ¬ chiseled protrusions (5), used to protect the gasket against spontaneous falling out, after it is inserted in a seat (6) of a suitable shape made in the head (7) of the hydrant valve, moreover, the outer bottom surface (8) of the gasket (1) has convex curvature, the radius of which corresponds to the radius of the recess in the guide (9) from the inside to the base the hydrant awce (10). 2. The system of automatic drainage of the underground hydrant according to claim A method as claimed in claim 1, characterized in that the rounded edges of the shorter sides (2) of the seal (1) are supported on the correspondingly shaped protrusions (11) in the seat of the plug (7), while the tabs (5) of the seal are seated in recesses (12) made along the straight edges of the seat (6) at a certain depth and prevent the gasket (1) from falling out of the seat and (6). 10 15 20 25 30 35 40 4590022 FI6.1.96022 FIG. 4. FIS.5. DN-3, order 42/78 Price PLN 45 PL