DE1121420B - Cock with lubrication - Google Patents

Description

Cock with lubrication The invention relates to one in particular faucet serving for high pressure lines and concerns the arrangement of a lubrication chamber at least one face of the chick. It is known in taps, between the sealing surfaces of a cylindrical chick and the speaking wall surface of the housing a lubricant to introduce funds. Especially with cylindrical Chick is a predetermined gap between these Sealing surfaces provided, which are coated with lubricant is filled. There is a risk that the Lubricant from the one flowing through the tap Medium is washed out and that foreign bodies out between the medium flowing through the tap the sealing surfaces and the valve neither leaks nor the chick in its seat seizes up. A tap has already become known in which sufficient lubrication is to be ensured in that one end face of the plug is at a distance from the housing wall and lubricant is pressed into the chamber formed from the outside, which lubricant is pressed into the gap between the end face edge of the plug can enter the seat. Due to manufacturing tolerances and the wear and tear of the tap during operation, however, the distance between the end face of the plug and the corresponding housing wall surface changes, so that the amount of lubricant penetrating into the gap between the sealing surfaces is different for a given lubricating pressure. It is therefore necessary to dispense lubricant in excess, which not only causes a loss of lubricant, but under certain circumstances a contamination of the medium flowing through the tap that exceeds the permissible level. It is also known to adjust the chamber formed between the end face of the plug and the corresponding wall surface of the tap housing at the lead-through of the spindle of the plug by arranging a seal against losses which is applied to the surfaces of the plug and the opposite housing wall and to the spindle itself to seal outside.

It is the object of the invention to provide an arrangement to create a precise dosage of the amount of lubricant that is between the sealing surfaces of the plug and housing is abandoned, is possible.

According to the invention, this is achieved in that the lubricant pressure chamber between the chick face and the housing wall by a coaxially arranged to the spindle Annular wall is limited, which in the end face of the chick and the corresponding Surface of the housing engages axially movably sealing. Preferably are in the End face of the plug and the corresponding wall surface of the housing annular grooves arranged into which the ring wall engages. The ring wall can be made of a pressed and sintered mixture of polyethylene with etched glass wool.

This inventive arrangement prevents from the between the face of the plug and the corresponding face of the housing formed lubricant chamber lubricant directly over the end face edge of the plug penetrates into the gap to be lubricated, and the lubrication of the sealing surfaces of the Hahnes takes place via precisely calibrated outlets. Furthermore it is This makes it possible, even taps with relatively large manufacturing tolerances with a to provide reliable lubrication with a precisely metered amount of lubricant is delivered to the surfaces to be lubricated. A much smaller one is created Lubricant space, which means that considerable amounts of lubricant are used, especially with large taps can be saved.

The invention is illustrated below with reference to the drawings using an exemplary embodiment explained in more detail, whereby Fig. 1 is a vertical section through a cock designed according to the invention in the closed position and FIG. 2 shows a detail represents in a vertical section on a larger scale.

1 and 2 show a tap housing 1 which has openings 2 and 3 which open into the plug receiving chamber 4. A bottom opening of the chamber is closed by a screw plug 5 which has a recess which forms a space 6 and which is used to receive a sealing washer or a sealing ring 7 made of polyfluoroethylene. A steel ring 8 lies on top of the low-friction polyfluoroethylene ring and supports the lower end of a spring 10 , the upper end of which engages in the lower part of the plug 11.

The plug 11 is cylindrical and has a passage 12. The passage 12 is usually connected to the space 6 via a channel 13, but this channel is not absolutely necessary. The performance pressure therefore acts on the underside of the plug and pushes it up against the head part of the housing.

The chick 11 has four vertical channels arranged directly next to the passage 12 in its lateral surface. The channels 14 and 15 are on diagonally opposite sides of the chick. The ends of the channel 14 lead directly into annular grooves 16 and 17 which are located in the upper and lower part of the plug. The ends of the channels 15 are at a certain distance from the annular grooves 16 and 17, but are connected to them via pockets 18 arranged in the tap housing. Since the channels 14 and 15 are equally spaced from one another, rectangular pockets 18 are provided correspondingly at four points on the tap housing. The annular groove 17 is narrowed and calibrated depending on the dimensions of the plug and is connected to a central bore 20 in the spindle by means of radial grooves running in opposite directions. In the bore 20 , a double check valve 22, 23 is arranged in a cage 24 and is pressed by a spring 25 into the closed position. The outer end of the bore 20 is provided with a lubricating screw 26. The lubricant is introduced into the bore 20 in the form of a plug. The lubricant used is preferably a special, homogeneous, viscous, synthetic lubricant which is particularly composed for use in connection with hydrocarbons. A similar synthetic lubricant is used for acids, bases and alkaline solutions. This lubricant allows the taps to be used on liquids, gases and solids and forms an effective seal against high pressure. The lubricant also prevents solids from entering the space between the housing bore and the surface of the plug.

Such penetrated solids can be, for example, steel chips or cement dust, and they must not break the seal formed by the plastic lubricant, which can be pressurized in the lubrication system under higher pressure than line pressure. The mode of action and the flow properties of this plastic lubricant in this lubrication system are somewhat different from the previously commonly used and known lubricants such as natural fat or oil. When the plug of lubricant is inserted into the bore 20 and the screw 26 is tightened, the lubricant is pressurized. It then flows slowly past the check valve and through the radial grooves outward to the annular groove 27 and from there passes through all the channels 14, 15 into the annular groove 16 and spreads over the entire surface of the plug that is not in the openings 2 and 3 is exposed. The cylindrical chicks sit in the housings with a clearance of about 25 to 125 #t, depending on the diameter, so that the lubricant can cover the entire surface of the chick and housing wall. For 1 / f to 2 inch taps, this clearance is in the 25 to 50 #t range. For 21/2 to 6 "taps, this clearance is 50 and 75 #t, and for 8 to 14" taps, 75 to 125R clearance is required.

When the lubricant fills the entire system and around the surface of the plug the space between the plug and the tap housing, a flow resistance is built up through which the lubricant is forced through calibrated channels 27, which are directed horizontally towards the Guide the middle of the plug and from there in the vertical direction into the upper lubricant chamber 28 , which lies between the upper end face of the plug and the head part 30 of the tap housing. This head part can be designed to be removable. The lubricant chamber 28 is delimited by an annular wall 31 which is fitted into grooves 32 and 33 in the end face of the plug and the head part. This ring wall consists of polyfluoroethylene, which is pressed with etched fiberglass or with nitrided glass fibers. The polyfluoroethylene and the glass fiber are mixed and pressed into a cylinder, which is heated until the material sinters at temperatures of 315 to 345 ° C. The yield point of the material is not less than 560 atmospheres at room temperature. The etched glass fibers break under pressure into a fine powder of silicon oxide. This material has a low coefficient of friction. The ring 7 is also made of this material.

The gap between the spindle and the lubricant chamber surface 34 is sealed by a sealing ring 35, which is also made of polyfluoroethylene, which is pressed in the same way with etched or nitrided glass fiber.

The channels 27 are bores in the plug and are dimensioned such that they do not allow lubricant to enter the lubricant chamber 28 under pressure until the entire surface of the plug is coated with lubricant. This is achieved by calibrating the channels 27 according to the type of lubricant and the clearance in the tap. When the lubricant enters the lubricant chamber 28 and fills it, it itself also acts as a seal for the spindle lead-through gap. The annular groove 17 also acts as a seal.

The materials used for such taps depend on the species the seal and from the casing of the sealing surface of the plug. The respective Lubricant enables the taps to be made from aluminum alloys Use for gasoline, oil, benzene and similar hydrocarbons. Semi-steel, cast iron and other types of steel alloys can be general or for water for Soap steam or for mild acids or alkalis can be used. For very hot ones Alkalis, high carbon steel is used. Brass and bronze become used for salt water and for certain acids and alkalis. Monel is used for lemon juice and fruit acids used when processing hot or cold foods. In any case, the plug and valve body are made of the same material, and at the inventive design of the lubrication system can no chafing between Chicks and cock housings are found, a sign that this is the surface covering lubricant acts as a seal.

Claims (3)

PATENT CLAIMS: 1. Cock with lubricating device and lubricant overpressure outlet, the plug of which can execute a limited movement in the axial direction in the housing and is acted upon by a spring in the direction of the spindle axis, with a lubricant pressure chamber provided between the spindle-side end face of the plug and the housing and a sealing ring on the spindle which is sealingly applied to the plug and opposite housing end face as well as to the spindle, characterized in that an annular wall is arranged coaxially to the spindle to limit the lubricant pressure chamber and engages axially movably and sealingly in the end faces of the plug and housing. 2. Tap according to claim 1, characterized characterized in that annular grooves are arranged in the end faces of the plug and housing are in which the ring wall engages. 3. Tap according to claim 1 or 2, characterized in that that the ring wall made of a pressed and sintered mixture of polyethylene and etched glass wool. References Considered: U.S. Patents No. 2,715,412, 2,038,889.