DE400772C - Differential pressure meter - Google Patents

Description

Differential pressure gauges. The invention relates to a differential square meter with rotatable U-tube, the legs of which in a known manner through tubes with the pressure duels get connected. The innovation is that the connecting two hiegsainen, metal tubes firmly united with the U-tube and close to it the oscillation axis and are arranged parallel to it.

These flexible tubes allow e3 to use the instrument easily and accurately and to keep them in good working order.

The drawing illustrates an embodiment of the invention. Fig. I is a perspective view, @, Fig. 2 is a side view of the knife, from which the type of connection with the pressure source can be seen.

Fig.3 is a cross-section according to 3-3 of Fig. 2.

Fig. 4. shows in a front view and section according to .1-.l the part, with which the flexible rope tubes on the right side d, 2r: Ibb.3 are connected.

FIG. 5 is an isolated view of a portion of that shown in FIG Construction on an enlarged scale, Fig. 6 a cross-section according to 6-6 of Fig. 5, Fig. 7 shows a cross-section according to 7-7 of Fig. 6. Figs. 8 to 10 are diagrammatic representations of individual parts, and Figs. i i and 12 illustrate two embodiments in plan the device for connecting the flexible tubes in the rotatable measuring apparatus.

A is a console on which the measuring apparatus is fixed. Al is the support plate of the console with adjusting screws A2 for the horizontal adjustment. B is a plate to which the measuring apparatus is attached and which is tightened by bolts and nuts B1 against the adjusting screws A : ' . On the plate. B , as can be seen from Fig. 2, a vertical plate B2 with a protruding AnguL) B is provided, as can be seen from Figs. This sprue has a slot B4 and a pin B 'passing through the lower part of the slot (Fig.6). The plate Bi 'is aligned perpendicular to a sleeve BI'. In the S, 2hlitz B1 of the sprue B, the cutter carrier C is inserted with a precise fit by engaging with a groove Cl over the pin B5. This carrier C is divided at the top by vertical slots C ", C", into three parts, the upper surfaces C #, Cl, C 'of which are ground obliquely to receive a cutting edge 7 in mutually opposite directions, as FIGS. 6 and 8 illustrate .

D denotes the housing of the knife (Fig. 2j, which is attached to the plate B = and has an open front D1 for observing the displays. F_ is a balance beam, on whose arms E'1 and E! The two liquid containers are attached A cylindrical hole E- * "passes through the middle of the beam F, the bottom of which is formed by your web El, which, when the parts are combined, lies in the recess C2 of the carrier C, as can be seen in FIGS A brass bushing F is inserted into the cylindrical hole E 'and is fixed by screws F =. This bushing engages with a recess F1, on the bottom of which the cutting edge G is fastened by screws GI, over the carrier C so that the cutting edge rests on the V-shaped well-forming surfaces C ', C5, Cl.

A line head H is attached to the bushing F by screws I and provided with inclined bores Hl, IM = (Fig. I, 3) , into which thin metal tubes J, JI, located near the axis of oscillation of the balance beam, are inserted. These flexible tubes go parallel to each other and to the axis of oscillation and close to the latter through the sleeve Bs and enter a conduit head X in order to come here through channels 1 (1, 1 (2 with the tubes M and MI. These latter lead to a valve housing M2 and are brought into connection with the pressure sources (not shown) by means of the pipes M3, M4. The head I <is, as shown, clamped to the end of the sleeve BG by means of the clamp L (Fig.2 and q.). Tubes N and NI are 'connected to the channels HI and H2 of the head H and to the cylindrical liquid containers N' and N3 for high and low pressure, which are attached to the beam arms EI and - '° and through the bottom a tube N 1 are connected.

The balance beam E includes the connection B3 with two vertical arms E5, E @, which are connected by a crosspiece Es. One is attached to the latter Curve rail O, which with its curved edge 0I blessing acts as a weighted band, whereby a resistance is opposed to the oscillating movement of the U-shaped frame which is the deflections of the 'balance beam the square root of the pressure difference makes proportional in the U -pipes, while they are direct without this resistance would change proportionally. 03 is the band that is on the upper part of the curve surface 0I is attached at 02, carries a weight 05 and at a point between its Point of contact with the curve edge 0I and the weight runs over a roll of oil.

In Fig. Ii a design is shown in which the flexible tubes Ja, JL are supported one inside the other and provided with a head He, "with the center of the tubes lying in the axis of oscillation. In Fig. I 2 a design is given in which the bi, egsanien tubes J and J1, instead of being inserted in a single head, are connected to two special heads Ha, H '', which are on both sides of the sleeve F and therefore are arranged at points which correspond to the oscillation axis.

The mode of operation of the pressure gauge is as follows: When the mercury its position to compensate for the pressure transmitted through the flexible tubes changed, the U-tube structure rotates on its cutting edge, whereby the flexible ones Tubes are twisted to allow this rotation. But since these tubes' parallel to each other and close to the oscillation axis of the U-tube structure and lie within the limits of the rotational movement are perfectly elastic, so requires twisting the tubes only have a small force and can be compensated quickly. The usage of flexible tubes makes stuffing boxes superfluous and forms a design that can be assembled quickly and accurately. Are the flexible tubes on one End at the head H and at a certain distance from it again in the head I (of the sleeve BI, so not only the tubes within a certain critical. Distance kept in the exact direction but it will too the vibrating apparatus remain in place, d. H. it becomes the main cutting edge in the V-groove formed by the intersecting surfaces C3, Cl and C5, held in a fixed position.

The ready-to-use measuring device is of course with display and to provide registration mechanisms, dials, etc. of the usual type.

Claims (3)

PATENT CLAIMS: i. Differential pressure gauge with a rotatable U-tube, the legs of which are connected to the pressure sources by tubes, characterized in that the two flexible metal tubes (J, JI ) which establish the connection and which are firmly united with the U-tube, in the direction of the axis of oscillation of the U-tube by being arranged either close to and parallel to the axis of oscillation or concentrically surrounding the latter lying one inside the other. 2. Differential pressure meter according to: bzspruch i, characterized in that the flexible tubes (J, TI) are connected to ducts in one or more Heads (H) are included, which are rigidly connected to the 'balance beam (E) and extend beyond its bearing point. 3. Differential pressure meter according to claims i and 2, characterized in that the balance beam (E) is carried by a sprue (B3) which is provided with a lateral extension lying parallel to the oscillation axis of the balance beam, the heads (H, H ) is connected to the beam and the end of the extension.