DE160844C - - Google Patents

Description

3taueti \ cfye- vi cfa l "ci t l" awiib.

IMPERIAL

PATENT OFFICE,

The present invention relates to a device by means of which the number of revolutions of the Measuring wheels in vane-type liquid meters can be changed without entering the measuring space affecting incoming and outgoing channels in their shape, direction or size. For this purpose, floors have already been built into the measuring room, which are in the Axial direction of the measuring wheel can be moved

ίο were and thereby a change in the size of the measuring room, the water speed and the number of revolutions of the measuring wheel. You also have storage space by arranging it A change in the number of revolutions of the measuring wheel is achieved in the measuring space, since these storage surfaces are the one that revolves with the measuring wheel Damming up water, creating eddies and inhibiting the measuring wheel, so that the relative speed of the measuring wheel against that flowing through the knife Water changes.

These known devices are now the subject of the present invention arranged in such a way that the trays, which can be adjusted in the axial direction of the measuring wheel, are penetrated by the storage areas will. This makes it possible to use the measuring space in any way. large or to be reduced, as well as the measuring area parts of its stau- or. Inhibition area enable or disable.

In the drawing, the subject matter of the invention is shown, for example, in two embodiments.

Fig. Ι represents z. B. the vertical section through a water knife, in which the measuring wheel 0 rotates directly in the housing a , so where the measuring space q is formed by the housing α ; b and c are the Einbezw. Outflow nozzles or channels; m is the thrust bearing, η the measuring wheel spindle, which is mounted in the bottom e. The track pin / sits on the adjusting thread g, which is prevented from axial adjustment by the threaded pin h together with the nut i. The union nut k serves as a closure, f is an adjustable base that closes the measuring space downwards and which can be set higher or lower in the direction of the measuring wheel axis η by turning the adjusting thread g using a screwdriver to be inserted into the slot h. Is z. B. if the thread g is left-handed and if h is rotated clockwise, the bottom f, if it is prevented from rotating, will move into position J ₁ and the measuring space q will be smaller by the part between f and yj. This increases the speed of rotation of the water in the measuring space q and thus also the number of revolutions of the measuring wheel 0. The opposite is the case if h is turned to the left.

The .stauflügel ρ arranged on the housing base penetrate the adjustable base f and protrude into the measuring space q ; at the same time they prevent the bottom f from rotating when the pin h is rotated. In the position Z ₁ is the q in the measuring space befind-

borrowed baffle area less than when the adjustable measuring room floor is / is. The congestion effect is accordingly respectively the inhibition less, d. H. the number of revolutions of the measuring wheel ο is also higher.

This arrangement of the adjustable in the direction of the measuring wheel axis, the Measuring space after one or even after two bottom sides closing floors, the

ίο are penetrated by fixed, unadjustable baffles, so it is possible both to enlarge or reduce the measuring space in any way by circular disk-shaped spatial layers lying parallel to one another as well as the measuring space parts of its stowing bezw. Completely re-add or completely switch off the inhibition area. In this device there is accordingly an extremely effective means of changing the number of revolutions of the measuring wheel in impeller liquid meters. It can be used with the same advantage in any type of construction of these measuring devices.
Another embodiment is shown in FIG. Here the measuring wheel 0 runs in a special insert iiifj d ₂ consisting of three main parts. The middle part Cl ₁ , the lower part d. ₂ , the upper adjustable floor k and the lower adjustable measuring space floor f together form the measuring space q. The insert rests firmly on the protruding seat edge of the housing α with the Einbezw. Outlet nozzle b and with the Ausbezw. Inlet nozzle c. The liquid occurs

z. B. through the housing socket b , flows through the openings in the middle part d _{ located on the measuring wheel o, sets it in rotation and then leaves the measuring space through the channel-like openings of the lower part d ₂ to the housing a through the socket c to leave again. The lower adjustable base f sits on a threaded bushing g, which is rotatably arranged on the sleeve e., Which is held by the arms of part d ₂ and cannot move in the direction of the axis. By rotating the. Bushing g, which for this purpose can be provided with slots for a socket wrench, moves the base / in the direction of the measuring wheel spindle n, being prevented from rotating by the tongue s arranged on part J ₂ and engaging in a groove. The upper adjustable base k is like the lower one on a rotatable threaded bushing h, which sits on the sleeve e _x held by arms e of part d and serving as a neck bearing for the measuring wheel spindle η , and is penetrated by the baffles ρ , which are on the arms e sit. If the measuring chamber floor k is brought into its lowest position by suitable rotation of the socket h , so that within the measuring chamber q the baffles no longer protrude above the floor k , the entire baffle area of the baffles ρ is completely excluded from the measuring work; In addition, the height of the measuring space is reduced by the axial displacement of the floor k , ie the measuring space q is reduced and the number of revolutions of the measuring wheel 0 is increased. If you bring k to its maximum position, the entire airfoil surface comes into effect, the measuring space q is correspondingly larger, the number of revolutions of the measuring wheel is lower. The regulating ability of a liquid meter according to Fig. 2 is important.

Of course, any other desired embodiment could also be selected. The floors could e.g. B. be provided on the outer circumference with a thread and the inner circumferential surfaces of parts d ₁ and d. ₂ could be provided with a corresponding internal thread, so that the adjustment of the floors is done by turning them. It is always essential that parallel, circular disk-shaped measuring room layers are switched off or respectively from the measuring room. are switched on, the switched off layers no longer have a connection through the floor with the remaining measuring space, so they no longer participate in the measuring work, and secondly, the storage area can be completely or partially switched off from the measuring space.

Claims (1)

Patent claim: Regulating device for impeller liquid meters with adjustable floors in the axial direction of the measuring wheel and with fixed storage surfaces, characterized in that the adjustable floors (fk) are penetrated by the fixed storage surfaces (p) , so that the measuring space with the change due to the adjustment of the floors its size at the same time parts of its stagnation or inhibition area are switched on or off. 1 sheet of drawings.