RU2176047C1 - Safety valve - Google Patents

Abstract

FIELD: safety devices of pipe-lines. SUBSTANCE: safety valve contains cylindrical housing provided with inlet opening. Working end face of the piston provided with sealing gasket pushes against the housing seat. The piston is an integral part of rod which is coaxial to spring tightening the piston to the to the seat via adjusting nut. The adjusting nut is mounted on the external surface of the housing for movement along the thread. The side surface of the piston is provided with annular groove with a sealing placed inside. Stopper plug provided with axial opening receiving the rod is mounted on the housing on the opposite side to the inlet opening. The piston is provided with radial openings arranged in one plane perpendicular to the rod axis between the annular groove and the working end face of the pinion. The openings are connected with the axial rod opening. A member preventing the piston from rotation is placed on its side surface over the annular groove and on the internal surface of the housing. The external surface of the rod is provided with the thread connected with the axial opening of the plug placed in the bore provided on the housing end face and having support platform. The external surface of the plug is provided with a projection for a key for manual control the valve, the end of the rod is provided with nozzle for discharging. Particular feature of the second modification of the device is that the piston is provided with interconnected axial and radial openings placed in one plane perpendicular to the rod axis. The radial openings are located between the annular groove and the working end face of the piston and are connected to the rod opening. A member preventing the piston from rotation is placed on its side surface over the annular groove and on the internal surface of the housing. Needle and the axial opening of the piston form needle valve. The needle is provided with threaded thickening connected with the external thread of the piston. The thread is provided with longitudinal grooves for flowing the fluid and the end of the rod is provided with nozzle for discharging. EFFECT: enhanced reliability as the result of exceeded fluid pressure, excluded possibility of pipe-line destruction, reduced probability of appearance of air locks, expanded functionality, and reduced size of the device. 6 cl, 4 dwg

Description

 The invention relates to safety devices installed in heating systems, in particular radiators, for venting and relieving excess pressure.

 A device is known for discharging air from manual heating water heating devices in the event that air plugs occur in them that impede the normal circulation of water in the heating system (see, for example, SU, copyright certificate 1737210 A1, class F 16 K 24/00 , 1992).

 A safety valve is also known, which contains a cylindrical body with an inlet, the piston end face with a gasket resting on the saddle, the piston is made in one piece with a rod coaxially to which a spring is located, pressing the piston against the saddle with an adjusting nut mounted to move along the thread on the internal the housing surface, on the side surface of the piston, an annular groove is made in which the seal is placed on the housing from the side opposite to the inlet ovlena plug with an axial hole for passage of the rod (see. e.g., FAR company directory, per. N SQU408AQ045, Gozzano (NO), Italia, 1998, p.20). This valve allows the coolant to be discharged from the pipeline if its pressure exceeds a predetermined value, but does not provide air release when air jams occur.

 Modern heaters made from materials with. high thermal conductivity, in particular aluminum, are characterized by low inertia, so that they lend themselves to local regulation. However, the possibility of regulation can lead to disconnection of the device from the general system. In a hermetically sealed device due to an increase in the ambient temperature, the formation of a gas-air mixture, water hammer, etc., the pressure in the device may exceed the value of the safety factor of the device, which leads to its failure.

 The objective of the invention is to increase the reliability by eliminating the possibility of destruction of the radiator as a result of exceeding the pressure of the medium in it, the release of air from the radiator, reducing the outer dimensions of the valve by placing the working parts inside the radiator and expanding the functionality of the valve.

 The proposed device can be used to exhaust air from water heaters in manual mode, as well as to reduce the pressure in the heating system in automatic mode.

 Two options for solving the problem are proposed.

 In the first embodiment, the safety valve comprises a cylindrical body with an inlet, the piston end face with a gasket resting on the saddle, the piston is made in one piece with a rod coaxially with which there is a spring, which compresses the piston to the seat with an adjusting nut mounted to move on the thread on the inner surface of the housing, on the side surface of the piston, an annular groove is made in which the seal is placed on the housing from the side opposite to the inlet A plug has been updated with an axial hole for the passage of the rod, radial holes are made in the piston located on the same plane perpendicular to the axis of the rod, between the annular groove and the piston working end, connected to the axial hole of the piston, on the side surface of the piston above the annular groove and on the inner surface of the housing an element preventing the rotation of the piston is placed, a thread is made on the outer surface of the stem, which engages with a thread in the axial hole of the plug placed in the end of the housing a key with a support platform, and on the outer surface of the plug is made a turn-key protrusion for manual control of the valve, and a drain nozzle is installed at the end of the stem.

 In the second embodiment, the safety valve contains a cylindrical body with an inlet, the piston end face with a gasket resting on the saddle, the piston is made in one piece with a rod coaxially with which there is a spring, which compresses the piston to the seat with an adjusting nut mounted to move on the thread on an inner surface of the housing, an annular recess is made on the side surface of the piston, in which the seal is placed, radial openings interconnected are made in the piston thia located in the same plane perpendicular to the axis of the rod, between the annular groove and the working end of the piston, connected to the axial hole of the piston, on the side surface of the piston above the annular groove and on the inner surface of the housing there is an element that prevents rotation of the piston, a needle is installed in the axial hole of the piston forming a needle valve with an axial bore of the piston, a thickening was made on the needle with a thread engaging with a thread on the inner surface of the stem, on which longitudinal grooves are made for medium passage and the rod end drain nozzle installed.

 In a particular case, the spring can be buried in an annular axial groove made in the piston, and a recess can be made on the side surface of the piston between the working end and the ring undercut.

 The invention is illustrated by drawings, where in FIG. 1 is a perspective view of the safety valve of the first embodiment; FIG. 2 is a section AA of FIG. 1, in FIG. 3 is a general view of the safety valve of the second embodiment; FIG. 4 is a section BB of FIG. 3.

 The safety valve according to the first embodiment comprises a cylindrical body 1 with an inlet. The thread for the adjusting nut 3 is made on the inner surface of the housing, and the thread for accommodating the valve in the radiator is made on the outer surface. At the end of the housing 1, opposite the inlet, a bore is made with a support platform 9, in which a plug 4 with a turn-key protrusion for manual control of the valve is placed. The working end face of the piston 2 rests on the saddle of the inlet opening of the housing 1, in which an annular undercut with a seal 7 is made, which prevents the penetration of the medium into the upper part of the housing. Between the working end of the piston 2 and the annular recess there are radial holes 10 connected to the axial hole 11 in the rod 12, made in one with the piston 2. In the annular axial groove made in the piston coaxially to the rod, a spring 6 is installed, abutting against the adjusting nut 3. The calculation of the spring is carried out on the condition that the distance h between the rear of the piston 2 and the lower surface of the adjusting nut 3 should be not less than the piston stroke when the valve is triggered by a pressure exceeding the specified value. This condition is true for devices in the first and second options. For ease of maintenance, the depth of the bore L at the end of the housing 1 is selected from the condition L> h. On the inner surface of the housing 1 and on the piston 2 above the annular groove, longitudinal grooves are made in which an element 5 is installed that prevents the rotation of the piston 2. A sealing gasket is attached to the working end of the piston 8. A thread is engaged on the outer surface of the rod 12, which engages with the thread in the axial hole of the plug 4. On the outer surface of the housing 1, a thread is made to place the valve in the radiator 19.

 The safety valve according to the second embodiment contains a needle 14 installed in the axial hole 11 of the rod 12 and forming a needle valve with an axial hole 15 in the working end of the piston 2. At the opposite end of the needle, a thickening 16 is made with a thread that engages with a thread on the inner surface of the rod 12 on which grooves 17 are made for the passage of the medium and on the end of the needle 18 is a slotted hole for a screwdriver. At the end of the rod 12, grooves are made, which include protrusions on the inner surface of the drain nozzle 13, made, for example, of polyethylene. The nozzle 13 due to a tight fit forms a tight connection with the cylindrical surface of the upper part of the needle, which prevents the exit of the medium.

 The device according to the first embodiment works as follows. In order for the device to work properly, it must be assembled in accordance with the following instructions. A piston 2 with a spring is installed in the housing 1. The adjusting nut 3 is introduced into primary contact with the spring 6 by rotating it in the thread of the housing. After that, the compression of the spring 6 is carried out by further rotation of the nut 3 with the help of a wrench with an effort corresponding to the set pressure to which the safety valve is adjusted. In this case, the upper surface of the adjusting nut should be lower than the support pad 9. Then, a plug 4 is screwed onto the piston rod until it contacts the support pad 9. A drain nozzle 13 is installed at the end of the stem. If the medium pressure in the radiator during operation exceeds a predetermined value value, the piston 2 moves under the action of this pressure in the housing 1, and the medium located in the radiator rushes through the gap between the piston end face and the housing seat into the housing 1, then falls into the transverse from verst 10 and through the hole 11 in the piston rod 12 and the nozzle 13 will be released into the atmosphere. The value of the set pressure value at which the valve opens is determined by the force of the spring 6 pressing the end face of the piston 2 to the inlet seat in the housing 1.

 The valve provides manual air release from the radiator. When assembled, the plug 4 touches the support pad 9. When the plug 4 is rotated clockwise, it rests on the pad 9 and its further movement is limited to this pad. Due to the presence of element 5, the rod 12 does not rotate together with the plug 4, but performs a translational motion relative to the housing 1 as a result of the interaction of the threads on the rod 12 and the internal axial hole of the plug 4, which leads to the displacement of the working end face of the piston 2. As a result, the air in the same way as in the previous case, it goes into the atmosphere. When the air in the radiator is exhausted, the plug is rotated counterclockwise. The piston 2 under the action of the spring 6 abuts against the seat, closing the hole in the housing 1.

 The device according to the second embodiment works as follows. When assembling the valve, its adjustment to the set pressure is carried out similarly to the first option. Next, a needle 14 is installed in the rod 12, which tightly closes the hole 15 in the end part of the piston 2 by rotating it clockwise in the thread 16. At the end of the rod 12, a nozzle for draining 13 is installed.

 When the specified pressure is exceeded in the radiator, the operation of the piston 2 is carried out similarly to the first embodiment. Water entering the valve body passes through the radial holes 10, the axial hole 11, the grooves 17 into the cavity 21 and through the holes 22 enters the atmosphere.

 To release air in manual mode, it is necessary to turn the needle 14 counterclockwise several turns with a screwdriver installed in the spline hole of the needle end 18. In this case, the piston 2 does not rotate, thanks to the element 5. Thus, the needle 14 is turned out of the rod, as a result of which the hole 15 opens. The air from the radiator through the axial hole 11 in the rod 12 and the grooves 17 enters the atmosphere.

 The proposed valve improves the reliability of the radiator and simplifies its maintenance.

Claims (6)

 1. A safety valve comprising a cylindrical body with an inlet, the piston end face with a gasket resting on its seat, the piston is made in one piece with a rod coaxially with which there is a spring, which compresses the piston to the seat with an adjusting nut mounted to move on the thread on an annular groove is made on the inner surface of the housing, on the side surface of the piston, in which the seal is placed, a plug is installed on the housing from the side opposite to the inlet a box with an axial hole for the passage of the rod, characterized in that the piston has radial holes located in one plane perpendicular to the axis of the rod, between the annular groove and the working end of the piston, connected to the axial hole of the rod, on the side surface of the piston above the annular groove and an element preventing the rotation of the piston is placed on the inner surface of the housing; a thread is made on the outer surface of the rod, which engages with a thread in the axial hole of the plug located in the end face orpusa bore with a support platform, wherein the outer surface of the cap a projection under a key for manual control valve and the rod end cap is installed to drain.  2. The valve according to claim 1, characterized in that the spring is buried in an annular axial groove made in the piston.  3. The valve according to claim 1 or 2, characterized in that a recess is made on the side surface of the piston between the working end and the annular undercut.  4. A safety valve containing a cylindrical body with an inlet, the piston end face with a gasket resting on its saddle, the piston is made in one piece with a rod coaxially with which there is a spring, which compresses the piston to the seat with an adjusting nut mounted to move on the thread on an annular groove is made on the inner surface of the housing, on the side surface of the piston, in which a seal is placed, characterized in that the axial bore interconnected A hole and radial holes located in one plane perpendicular to the axis of the rod, between the annular recess and the working end of the piston, connected to the axial bore of the rod, an element preventing the rotation of the piston is placed in the axial on the side surface of the piston above the annular groove and on the inner surface of the housing a needle is installed on the stem hole, forming a needle valve with an axial piston hole, a thickening is performed on the needle with a thread that engages with a thread on the inner surface of the stem, on which Nena longitudinal grooves for the passage of the medium, and the rod end cap is installed to drain.  5. The valve according to claim 4, characterized in that the spring is buried in an annular axial groove made in the piston.  6. The valve according to claim 4 or 5, characterized in that a recess is made on the side surface of the piston between the working end and the annular undercut.

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