DE546216C - Boiler sludge valve with a lever operated quick-closing device - Google Patents

Description

In the case of blowdown valves for steam boilers, there are particular difficulties after every time the valve is operated to achieve a tight seal. Through such a blow-down valve, a mixture of flows at high speed Sludge and boiler water, which is also contaminated with hard pieces of scale is. These pieces of scale are now often wedged between the sealing surface of the cone and the seat and make a tight seal impossible.

A crushing of such scale pieces when closing the valve is because of great hardness of the same not easily possible. In the case of spindle valves, during the closing only generate a relatively low pressure, as the closing pressure the boiler pressure counteracts. Experience has shown that the low closing pressure of such valves is not sufficient to remove the scale fragments to crush. Also with the blowdown valves with non-return cones, at experience shows that this is where the full boiler pressure generates the closing pressure insufficient pressure generated.

A destruction of the scale fragments is only possible by impact by the cone suddenly hits its seat with a hard blow. Such blowdown valves with a quick release device operated by a lever are already known. The sudden closure of such valves has the disadvantage that the flowing The water thread is cut too suddenly, which can cause violent water hammer. By choosing one in proportion In addition to the pipe diameter with a small valve cross-section, it would be possible to reduce the strength of the water hammer. There But a blow-down valve not only for blow-down the boiler, but also for Emptying the same is used, such a measure would result in the Cross-sections are not large enough to allow the boiler to be emptied quickly enough guarantee.

The subject matter of the present invention addresses these difficulties avoided, ihdem the quick release device connected to a spindle in this way is that when blow-down the valve works as a quick-closing valve, with enough low stroke, while the spindle to open the valve when emptying is used, the device being made so that the valve with a larger stroke than can be opened with the quick release device.

With this device, a safe sudden closure during the blowdown and, at the same time, a quick emptying of the boiler is possible. The figure shows an example of this arrangement according to the invention. The valve spindle d carries a release clutch at the upper end. It consists of a spring body t and one firmly attached to the spindle d.

brought bead sleeve s around which the spring body t grips. The spring body f is firmly connected to the pressure sleeve g, which can be moved by the operating lever h. In the rest position of the valve, the bead edge of the spring body t is above the bead ν of the bead socket j. The spring body t is axially slotted on the circumference, so that the bead u can yield resiliently to a certain extent. If the lever h is pressed down, the bead u, which spans the bead socket s , takes the valve cone (not shown) on the valve spindle d down with it, so that the valve is opened. The bead u surrounds the bead socket j with such a resilient force that the opening resistance of the valve against the boiler pressure is overcome.

ao can be. If the valve spindle with the valve cone has been pushed down by the height z _y , the collar ζ hits the handwheel y. If the lever h is depressed further, the elastic force of the resilient

The bead edge u is overcome and springs back so that the bead socket j moves upwards with the spindle, since the boiler pressure on the valve cone no longer has any resistance and the valve closes.

If the valve is closed, the lever h also returns to its rest position when the operator lets go of it. This coupling device, which in this embodiment is designed in the form of a spring body, can of course also be designed in any other way.

The normal operation of the valve takes place as a quick-acting valve by moving the hand lever h downwards. At the same time, however, a device is also provided which enables the valve to be opened and closed by means of a threaded spindle. This device consists of the threaded spindle x, which is provided with a handwheel y . In order not to be able to open the valve fully when actuating the lever, the spindle is provided with a collar ζ at the top, which is a certain distance Z ₁ away from the handwheel. This distance Z ₁ represents the opening width of the valve in the quick-closing device. This is selected so small that an impermissibly strong shock cannot occur when the valve closes suddenly. When actuated by means of the threaded spindle, however, a larger stroke is available, which corresponds to the distance between the lower handwheel hub and the valve bridge. This distance, marked ^ ₂ , is chosen so large that the valve can be fully opened so that the boiler can empty quickly.

Claims (1)

Claim: Boiler sludge valve with a lever-operated quick-closing device, characterized in that the valve has a stop (s) for limiting the opening stroke of the quick-closing device (h, g, s, t) and a z. B. has a threaded sleeve (x) with handwheel (y) existing arrangement for opening and closing, which cooperates with the quick- acting device Qi, g, s, t) that the valve is full when operated by screwing down, when operated by lever only can be opened to a limited extent. For this purpose i sheet of drawings