DE198113C - - Google Patents

Description

^ IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 42 e. GROUP

Dry gas meter with four measuring chambers. Patented in the German Empire on December 15, 1905.

The invention relates to a rotary valve control for gas meters with two membranes, and the essence of the invention is that of the four chambers four channels, so the fewest possible number of channels, go out and to the slide mirror lead, in which they end in unevenly distributed openings in a circle. on This irregularly shaped rotary valve works in a regular cross shape trained rotary valve, and by the cooperation of the irregularly shaped Slider mirror and the regularly designed slider is the correct way of working of the gas meter ensures that in each final position only one Chamber side the entry and on another the exit is open.

An embodiment of the subject matter of the invention is illustrated in the drawing, namely, Fig. 1 is a top view of the entire controller which includes the rotary valve actuator can be seen, and Fig. 2 also shows a top view, but in which the rotary valve and part of its drive omitted and a horizontal section through the slide mirror and the supply channels is laid. Fig. 3 shows a bottom view of the slider, and in Fig. 4 is the slider applied to the slide mirror, and in dashed lines is the opening of the Slider indicated.

The two measuring capsules disintegrate into chambers a, b, c, d as a result of the transverse membranes stretched in them. Channels e, f, g, h lead from these chambers to a slide mirror. The shape of the slide mirror is shown in FIG. 2, namely four openings e ¹ , / ¹ , g ¹ , h ^{l are} provided on the slide mirror, which correspond to the four channels e, f, g, h leading to the chambers. The openings e ¹ , / ¹ , g ¹ , / z ¹ are arranged on the circumference of the slide mirror and enclose the outlet opening k , which lies in the center of the slide mirror. The arrangement of the openings e ¹ , / ¹ , g ¹ , h ¹ on the circumference of the slide mirror is asymmetrical, and in the example chosen for illustration in the drawing, the arrangement is that two of the passage openings abut closely, the other two however by a slide mirror surface are separated from each other, which is twice as large as the slide mirror surfaces which separate them from the first two openings.

The slide / rotating on the slide mirror is bell-shaped, but this bell shape has two opposing indentations m, the cross section of which corresponds to the cross section of the passage openings in the slide mirror. The bell-shaped slide / is not completely open at its bottom, but is partly covered by surfaces sliding on the slide mirror in such a way that apart from one opening corresponding to the circular outlet opening k , only two opposing openings η, η the size of the passage openings in the slide mirror remain. These two openings hang in with the circular opening

1586 / :,

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the center of the slide bottom together. The whole shape of the slide can be seen clearly from FIG. 3, which shows a view from below of the slide and clearly shows that it is symmetrical despite its peculiar design. The slide is driven by a linkage ο ¹ , ο ^, ρ ^, ρ ² , cranks q and bevel gears r and s, a bow-shaped frame being provided for mounting the bevel gear axles.

As a result of its specially designed bottom surface, the slide can open the openings e \ / \ g ¹ , h ¹ with the aid of its bulges m

release it, connect it to the outlet k with the aid of the openings η or cover it with its bottom surface.

If the slide is in the position shown in FIG. 4, the gas flows through it

the opening h ¹ and the channel h into the chamber d of one measuring capsule, here presses the membrane to the side and thereby causes the measured gas, which previously filled the chamber c of the same capsule, to pass through the channel g to the passage opening g ^l . However, since one of the bottom openings η of the slide is opposite this opening g ¹ in this position, the gas coming from the chamber c will pass into the outlet opening k. The opening e ¹ as well as the opening f ¹ are both completely covered by the slide bottom surface, ie neither gas flows into the chambers a and b for this moment nor does it flow out of them. However, such a final position is only present for a moment. While there are only four final positions, an infinite number of intermediate positions of the slide are possible. In the intermediate positions, however, the released cross-section of the passage openings for the inflowing or outflowing gas is always the same, namely the same as the cross-section of a passage opening, i.e. the amount of gas passing through the gas meter will always be constant, both in the final and in the intermediate positions .

In the intermediate positions, each measuring capsule has a chamber with the inlet and the other connected to the outlet so that both measuring capsules are in operation.

The condition of constant gas flow, which is indispensable for gas meters, is thus achieved by achieved the object of the invention.

Claims (1)

Patent claim: Dry gas meter with four measuring chambers, characterized in that the four inlet and outlet openings to the four measuring chambers through a known one Way in a cross-shaped rotary valve can be controlled with at half the speed of the crankshaft, and the slide mirror four such unevenly distributed in the circle through openings after the chambers that the rotary valve in each closing position only opens the entry on one side of the chamber and the exit on another. 1 sheet of drawings.