DE61759C - Liquid meter with lever-like vibrating membrane and automatic reversing - Google Patents

Description

IMPERIAL

PATENT OFFICE

PATENT LETTERING

CLASS 42: Instruments.

Patented in the German Empire on February 6, 1891.

To ensure that the valve disks connected to the diaphragm of the liquid meter are seated securely to achieve, the membrane is arranged according to the present invention in such a way that it lever or. swings like a pendulum, like this is shown schematically in FIG. 1.

For this purpose the membrane i is fastened with its edges to the walls of the measuring space in such a way that it divides it into two halves e and f , which are connected to the inlet pipe α through channels c and d . The part of the membrane lying between the upper wall b and the valve disc k is stiffened in such a way that, as indicated in dotted lines, it is lever-like or can oscillate like a pendulum, the disk k alternately against one or the other of the two openings m and η and shuts them off. These openings are in communication with the chambers ρ and q through channels g and h , between which a double valve t plays on movable seats ss ^{1 connected} to the housing, for example by membrane rf ¹ , in such a way that one of the two chambers ρ alternates and q is connected to the Auflufsrohr 0. In the position shown, the valve t blocks the upper seat s ' and thus the upper chamber q , while the lower chamber ρ is connected to the pipe 0 . Fig. 2 shows the valve position in question on a larger scale, the liquid, which continuously penetrates through the channels c and d into both chambers e and f of the measuring space, can thus only from chamber e of the measuring space through channel g into the chamber ρ and the Length of the drain pipe ο. As a result, there is a lower pressure in this chamber e than in chamber f, and the membrane i will accordingly vibrate gradually from right to left in the direction of arrow 1, so that its valve disc k approaches opening m and closes it as soon as the Membrane i, as indicated by dots, occupies the extreme left position.

The pressure in the chamber p now drops, while the pressure prevailing in the chamber q , which acts on the movable valve seat s ¹ and its membrane r ¹ from above, moves the seat s ¹ and thus also the double valve t downwards. If the seat s ^{1 has reached} its lowest position, the lever ν connected to the valve rod has just passed its central position. The toggle spring w acting on the lever ν and attached at χ then leads the lever ν to the end position (Fig. 3), whereby the valve t first lifts off the upper seat s ^x and establishes the connection between q and 0 , while the valve closes the lower seat s at the same time and the connection between q and 0 is canceled. The right half of the measuring chamber is now connected to the drain pipe ο and the membrane i swings from left to right until the opening η is closed by the valve disk k . Then the pressure above the lower valve seat s, FIG. 3, decreases again, and the same is raised and returned to the position of FIG. 2, whereupon the described game is repeated.

Compared to the sack-like, parallel moving diaphragm, the pendulum-like vibrating diaphragm described has the considerable advantage that, as already indicated, the valve disk k always comes to rest securely against the valve seats, which is not the case with the sack-shaped diaphragm because of its lateral fluctuations .

The strength of the spring w is to be dimensioned in such a way that it keeps the valve t closed in one position or the other during the movement of the diaphragm i. So that the spring w can safely overcome the dead center position of the lever ν and the valve t at a certain moment, one or the other, valve seat s hezw. s ¹ securely opens resp. closes, springs ^, Fig. 2 and 3, are arranged on the valve rod, which, during the movement of the valve t, once rest on bevels of the seats ss ^J (Fig. 2), the other time they step into notches (Fig. 3) and in this way secure the two positions of the valve t to the movable seats ss *. Instead of the illustrated tilting clamping mechanism ν w , another known clamping mechanism with the same effect could of course also be used.

The vibrations of the lever ν are transmitted in a suitable manner to a counter.

Claims (1)

Patent claim: A liquid meter, the measuring space of which is divided into two parts by a lever-like or pendulum-like oscillating membrane (i) , the valve disc (k) on the membrane alternately opening and closing corresponding openings (mn). 1 sheet of drawings.