DE1220C - Cubic water knife - Google Patents

Description

1877.

Class 42.

SCHÄFFER & BUDENBERG in BUCKAU-MAGDEBURG. Cubic water knife.

Patented in the German Empire on October 25, 1877.

The apparatus shown in the accompanying drawing is a so-called. "Cubic water knife", d. H. an apparatus that controls the water flowing through a pipe in such a way need that a vessel of known contents is alternately filled and emptied, and the number the fillings that have taken place are registered by a suitable counter: the above Vessel in which, depending on the quantity of water flowing through it per minute, there is one The partition, oscillating faster or slower, has nothing new in principle, so that z. B. the arrangement selected on the drawing of a swinging about its horizontal axis Wing just as well by an up and down or. reciprocating piston or the like. could have been replaced. New, and what makes this water knife from The difference between earlier constructions is rather only that which is peculiar to the properties The reversal adapted to the inelastic fluid and the one against the internal pressure completely safe transmission of movement to the counter located outside the device, whereby the use of a stuffing box can be avoided, i.e. leakage is not to be feared at this point.

The construction of the apparatus is as follows: AA are the walls of a hollow cylinder which is cast on one end face and closed by a cover on the other. This cylinder is the actual Mefsraum. On the inner Cylindermantel this Gefäfses a segment-shaped, above provided with a sealing, solid piece of metal C on the exact inner Cylinderlänge is down firmly aufgelöthet or screwed, wherein a cylinder D is, by its oscillirende rotational 'movement about 3 5 The effect is that the liquid entering in the direction of arrow P presses alternately against the front and rear surfaces of the wing E provided with a filling seal, the horizontal axis of rotation X of which coincides exactly with the axis of the aforesaid cylinder. Characterized, that the cylinder D, which is the Umsteuerungscylinder, ■ in the middle of a partition has, thereby d in its length direction into two hollow spaces and is d _t divided, and by the offset by approximately 35 ° position of this Umsteuerungscylinder both As in the openings / and / i located in the segment piece C , it becomes possible that the liquid located on the rear side of the wing E can escape, while the entry takes place on the other side of the wing. The gröfsere opening f. _LT which is located at the exit side of the Umsteuerungscylinders, has the reversal direct nothing to do, but is only mounted so that the rear end face G closed this cylinder, and is connected by a special small channel H with the spaces J can be, whereby the cylinder is completely relieved in the axial direction.

The drive device for the reversing cylinder D, ie the connection of the wing E with the reversing, is located in the special space J formed by screwing on the cast iron cover K , separate from these parts located within the actual Mefscylinder.

This mechanism can be seen most clearly in Fig. 3, and functions in the following way: The metal piece Y is pushed onto the shaft X of the wing E, which is in position L in Fig. 3, symmetrically to the center line of this wing which has to go along with the movements of the wing. If the wing E now rotates due to the pressure of the liquid behind it, the edge y _% will lie against the nose Z _{1 of} a weight Z that can be rotated loce on the shaft X , then take this weight with it until it comes into its upper unstable position is. At this moment the weight is left to its own gravity and changes to the position Z ₁ opposite to the initial position. On the weight Z there are now also two projections Z ₁ z. _2, through which the Umsteuerungscylinder D, a lobe is located and at the front end, is each time rotated approximately 35 ⁰ in contrast, traps of the. Weight Z. (By attaching a spring the force of the falling weight can be increased as required , i.e. when measuring thick liquids.) The channels in the reversing cylinder D are now offset in such a way that, by turning it, the liquid alternately enters the measuring chamber left and right flows and at the same time

Claims (2)

can exit on the opposite side. It is therefore clear that the wing E will continue to move back and forth as long as the water enters the apparatus in the direction P. The size of the measuring vessel is measured in such a way that each filling is a multiple of liters, so you only need to transfer the vibrations of the wing E to a counter in order to be able to read off the quantity of water that has flowed through in liters. By widening resp. Each individual finished apparatus can be regulated at any time by narrowing the piece Y (hammering or filing). Opposite the space J, a space J is formed by screwing the cast iron cover K1 into which the other end of the shaft χ extends. On this side of the shaft there is eccentrically the small pin v, the movement of which is transmitted to the counter located on the outside by means of the device shown in FIGS. 4 and 6 The end facing the apparatus carries the fork q, while the outer end transmits the oscillating movement to a counter of some construction. The complete seal to the outside is made by a conical tube of vulcanized rubber, which on the one hand is firmly attached to the pin w with a thin metal wire and on the other hand is sealed with the cast iron cover by the aforementioned small metal screw connection. Since the oscillating movement of the pen is very slight, the rubber oil can follow the movement. The rubber tube is pressed tighter on the pin and screw connection, the stronger the pressure in the apparatus. Sponsorship τ claims: 1. A cubic water knife, consisting of a measuring vessel in which there is a Septum moved oscillating, in connection with an automatic mechanism, by which a sudden change of direction takes place by adding a lengthwise direction divided into two chambers and with openings offset from one another by about 35 ° provided reversing cylinder by a falling weight or spring is rotated every time the partition of the Mefs vessel has reached one or the other extreme position, whereby one or the other side of the movable septum is alternately exposed to the pressure of the liquid, while the liquid on the opposite side of this septum drains freely Has. 2. The motion transmission mechanism shown in the accompanying drawing, consisting of from an oscillating pin, the hermetic sealing of which by a one hand on this pin and on the other hand attached to the wall of the apparatus rubber tube is established, on which the latter the water pressure acts from the outside, so it does not leak due to higher pressure can be. 1 sheet of drawings. . 3 Ö J