PL7019B1 - Device for dividing gas in dry gas meters. - Google Patents

Description

The subject of the invention is a device for dividing gas in dry gas meters with sliders arranged in parallel on both sides of the common crankshaft. The novelty is aimed at a very significant increase in the efficiency of the gas meter by increasing the cross-sections of the channels, in contrast to the largest possible development of the said gas meter, without the need to change the external dimensions of the gas meter. In order to solve this task, according to the invention, both slide boxes are moved in the direction of the crankshaft axis by approximately half the width The aim will be achieved if the zipper boxes are connected to the common gas outflow channels, as well as to the measuring chambers and to the wedge spikes (extensions) leading to them. The figure shows an example of the invention: Fig. 1 shows a section through the upper part of the gas meter switchgear, Fig. 2 is a top view, and Fig. 3 - 5 sections on a larger scale along the lines III - IV and V - V in Fig. 1, Fig. 6, 7 and 8 - total sections of the gas meter corresponding to Figs. 3 <4 and 5 and finally iig. 9 - a schematic horizontal cross-section, which makes it possible to observe the distribution of the gas at a certain point in time. The gas meter has an inlet slope 2 and an outflow 3 which, through the opening 4, connects with the drain 5 running along the central surface of the pipe Meter, this channel lies under the cover 6 and adjoins the central wall 7 as shown in FIG. 6, whereby two chambers are formed, each of which has the known measuring equipment. Above the cover 6 there is a switchgear consisting of two slide boxes 8 and 9, sliders 10 and 11, crank 12, slide rods 13 and 14, connecting rods 15 and 1 & driven by shafts 17 and 18 rocker arms 19 and 20. The machine is of a known type, selected for its particular simplicity and practicality, with a double crankshaft; This device can also be different, Both the slide boxes, and the sliders with them lie on both sides of the common drive shaft 12. According to the invention, therefore, both slide boxes 8 and 9 are approached transversely to each other by less more than half the width of the channel, as shown in Fig. 29. The channels of the slider boxes lie halfway above the drainage channel at the bottom. 5. The inner longitudinal slider struts of the slider boxes protrude a quarter of the width of the slider box. in the middle of the partition 7. The perpendicular walls of the drainage channel 5 shown in FIGS. 3 to 8 thus simultaneously hit almost the center of the two slide boxes. It is understood that under these conditions no exact mathematical accuracy is ever required, but some freedom of movement in both directions is possible. The transitions from the three channels in the zipper boxes are formed by the wedge-shaped protrusions of the four cross-box struts and the three dam walls fixed vertically on these extensions and converging in triangles. These extensions are either unitary with or attached to the transverse struts (Figs. 3-5) and are formed from weldable plates 22, 23 and 24. Thus, three pockets 25, 26 and 27 are formed on each slide box, reaching almost into the half of the drainage channel 5. The three triangular networks of the barrier walls of the middle pockets 26 lie in such a way that the gas escaping from the central channel of the box can enter the drainage channel 5. The other two walls lie inversely in such a way the way that the gas coming out of them flows directly into the external measuring chamber or through the intermediate channel. than in known devices, without the fear of being cut off due to this by means of a drainage channel, a direct connection of the channels with the measuring chambers or with the usual with connecting channels. so that separate perimeter channels are not turned on, obviating the need for side channels. However, if the slide boxes were brought closer together less than half their width, perimeter channels would be necessary. In this case, the gas discharge channel would be so tightly constrained by the wedge-shaped pocket that it would cover it to some extent. This place, however, would have to be obtained at the expense of the measuring chamber. The enlargement of the channel cross-section, provided for in the invention, greatly increases the efficiency of the gas meter. Since there is no question of any increase in width or height, the increase in this efficiency occurs without increasing the external dimensions of the gas meter. Finally, it should be noted that, according to the experience of recent years, the final efficiency of a gas meter is influenced by the size of the cross-section - 2 - of the flow, therefore the principles of the invention must be strictly followed. PL PL

Claims (2)

1. Claims, 1. Device for dividing gas in dry gas meters with sliders arranged in parallel on both sides of the common butt shaft, characterized by the fact that the slider boxes are shifted relative to each other in the direction of the shaft axis by about half the width. 2.t / the method for the division of gas according to claim The method of claim 1, characterized by such a wedge-shaped limitation of the channels of the zipper boxes downwards that the openings of the central channels face the common drainage channel, while the external channels open in the opposite direction. G, Kromschróder Aktiengesellschaft. Deputy: M. Skrzypkowski, patent attorney. • ho of the description - patent \ rr l0l9. Ark. i. 7 ^ 1 Cf. 3 .tr'i € f '• O V \ & w * ati To patent specification No. 7019. Ark. 2. 7r7ig. &. y ^ y.r II: l 7 ^ 1g. S. li! L A S = 3 id! CfcJ 5 ^ o Print by L. Boguslawski, Warsaw. PL PL