DE1919105A1 - Reciprocating valve-operated mechanism in a diaphragm volumetric device - Google Patents

Description

Reciprocating valve operated mechanism in an ilembrane volumetric meter The present invention relates to improvements in membrane volumetric instruments, containing reciprocating valves, particularly a simple improved one Mechanism for operating the reciprocating valves.

The instrument error of a membrane volumetric device is recorded with the Fluid velocity small, usually seen as a rightward sloping trend referred to as.

Such a tendency of instrumental failure means that the in every Rotation of the amount of fluid flowing out as the speed of the fluid increases grows.

This can be attributed to the fact that the membrane is through the inertial force of the fluid is inflated at the end of the fluid injection, with the result that the volume of the measuring chamber increases. This increase in volume will increases with the speed of the fluid.

The inflation of the membrane can be achieved by closing the connection between the measuring chamber and the fluid inlet opening before reaching the end point of the injection be mitigated, in other words, by interrupting the fluid entry at The injection progresses towards its end.

The object of the present invention is to provide a simple Mechanism for operating the reciprocating valves in an embranium volumetric meter to create the so-called rightward sloping tendency of the one described above Can mitigate instrument failure.

The invention is described in detail below with reference to the drawing explained: Figs. 1A, 1B and 1C show the structure of a conventional membrane volumetric device, 1A is a vertical sectional view, FIG. 1B is a plan view transversely in section and F Fig. 1C is a front view in vertical section.

Figs. 2A and 2B are top and side views, respectively the positions of the connecting rods in the volumetric meter during displacement of the valves show.

3A, 3B and 3C show a diaphragm volumetric device according to present invention, wherein Fig. 3A is a broken away vertical sectional view, Fig. 3E is a broken away vertical sectional view from the front; and Fig. 3C is a partial sectional view from above is0 Figures 4A and 4B are top and one, respectively views, which show the positions of the tie rods in the volumetric meter shown in 3A, 3B and 3C are shown during the displacement of the valves.

Figures 5A and 5B are top and front views, respectively, showing represent another embodiment of the present invention.

6A and 6B are top and front views, respectively, showing show yet another embodiment of the invention.

7 is a top plan view of yet another embodiment of FIG Invention.

A conventional membrane volumeter is shown in FIGS. 1A, 1B and 10. As can be seen, the volume measuring device has a fluid inlet opening 1 and a fluid outlet opening 2. Two sealed chambers are sealed inside by two movable membranes 3, 3 'divided to form a total of four measuring chambers 4, 5 and 4', 5 ', two in each locked chamber. These measuring chambers 4, 5 and 4 ', 5' are alternating with the inlet port 1 and the outlet port 2 during a predetermined range of the back and forth reciprocating movement connected by means of reciprocating valves 6, 6 '. The membranes 3, 3 'dind links 10', 10 are operationally associated with the one Ends 11, 11 'of connecting rods 12, 12' are connected accordingly to thereby ei reciprocating movement within a limited range in an im execute substantially perpendicular to a crankshaft 7 running line.

The other ends 9, 9 'of the connecting rods 12, 12' have crank pins 8, 8 'connected with a phase difference of about 90 on the crankshaft 7 attached are. In a conventional membrane volumetric meter, such as described above, the reciprocating valves 6, 6 ', each of the Measuring chambers are assigned, directly through corresponding connecting members 10, 10 ' actuated. Therefore, if, for example, the valve 6 is present after the displacement Position is arranged, the valve 6 'reverses on condition that the corresponding Diaphragm 9 and accordingly the connecting member 10 at one end point, as shown in Figs. 2A and 2B, are arranged to return to a position before the displacement, when the membrane 3 is located at the other end point, so that it is impossible to prevent puffing of the membrane caused by the inertia of the fluid is caused.

According to the present invention are the reciprocating ends 11, 11 'of the respective connecting rods 12, 12', as in Figs. 3A, 3B and 3C, formed with extensions 13, 13 'that extend parallel to the The plane of rotation of the rotating ends 9, 9 'of the respective connecting rods 12, 12 'extend with substantially right I-angles to the axes of the connecting rods 12, 12 '(the lines connecting the rotating ends 9, 9' with the reciprocating Connect ends 11, 11 ') run. The reciprocating valves 6, 6 'become by means of these corresponding extensions 13, 13 'either directly or via intermediate links 14, 14 'actuated, the articulated with the mentioned members 10, 10' correspondingly connected are, where if the corresponding I, Iembrane 3, 3 'are at the endpoints of their The corresponding reciprocating valves are already in Are positions after the displacement point. Figures 5k, SB, 6A, 6B and 7 show other embodiments of the present reciprocating valve actuators, which differ from each other with reference to the type of engagement between the extensions 13, 13 'and the intermediate links 14, 14'.

The extensions 13, 13 'can differ with respect to the axes of the Connecting rods 12, 12 'in a direction opposite to the direction of rotation of the crankshaft 7 as shown in FIGS. 4A, 4B to 6A, 6B, or in the same direction like the direction of rotation of the crankshaft 7, as shown in FIG. In the latter Case becomes the direction of actuation of the extensions 13, 13 'through the intermediate links 14, 14 'changed accordingly.

As a result of the above-described structure according to the present invention the fluid introduction effected by the valves 6, 6 'is interrupted at a point in time before which the corresponding membrane reaches the endpoints of its deflections, as in Figures 5B and 6B. Therefore, the puffing up of the membranes can be caused by the inertial force of the fluid is caused, and accordingly that to the right decreasing tendency of the instrument error can be mitigated. Further is the mechanism according to the invention not particularly complicated, which is another advantage of the present Invention is.

Claims (1)

P a t e n t a n s p r ü c h Actuating mechanism for reciprocating valves of a diaphragm volumetric device with an inlet port and an outlet port for the fluid, two rows of sealed Chambers, the interior of which is divided by movable membranes, to four measuring chambers to form two in each row of sealed chambers, with reciprocating Valves to connect a number of the measuring chambers to the inlet port and with the outlet opening alternately during the reciprocating movement of the move said reciprocating valves in a predetermined range, and with connecting rods, the rotating ends with two crank pins correspondingly connected to a crankshaft with a phase difference of about 900 are attached and their reciprocating ends with connecting links accordingly connected are9 which are assigned to the respective membranes mentioned in terms of work are and the reciprocating movement is in line with essentially right Restrict angles to the crankshaft, characterized in that the back and forth going to the ends (11, 11 ') of the corresponding connecting rods (12, 12') with Extensions (13, 13 ') are formed which are parallel to the plane of rotation of the rotating Ends (9, 9 ') and at right angles to the axes of said connecting rods (12, 12 '): - - with the rotating (9, 9') the reciprocating ends (11, 11 ') connecting lines -] run, and that the reciprocating valves (6, 6 ') through these extensions (13, 13') accordingly be actuated, with when the membranes (3, 3 ') at the end points of their deflections are arranged, the corresponding reciprocating valves (6, 6 ') already are arranged in positions after de: displacement point. L e r s e i t e