DE1780386U - CONSUMPTION MEASURING DEVICE FOR LIQUIDS, IN PARTICULAR FOR HEATING OIL. - Google Patents

Description

Consumption meter for liquids ------------------------------------ especially for heating oil ----------------------- The innovation relates to a consumption meter for flowing liquids and is intended to be used in particular for measuring the amount of heating oil and other liquid fuels. The volumetric measuring mechanism works according to the two-chamber system with a movable membrane that is actuated by the pressure of the liquid. The to-and-fro movements of this membrane have previously been transmitted to a counter by suitable transmission elements. The slide, which serves to reverse the inflow and outflow of the liquid to be measured, is also moved back and forth. A flat slide is preferably used as the slide, which is mounted such that it can oscillate about a pivot point.

There are consumption meters for heating oil already from the applicant have been proposed that also work with a movable membrane that their to-and-fro movements mechanically by a lever arm articulated to it transfers to the counter and slide valve. With these measuring devices, the entire Control device including the counter drive in a measuring chamber of the device arranged. The mechanical connection between the membrane, the slide and the Counter through the lever mechanism requires very large ones, especially for mass production Accuracy of manufacture and assembly. Otherwise it can happen that the not exactly fitted individual parts jam during operation, which is wrong Causing measurement results and possibly disrupting the operation of the entire system could affect. Avoiding these disadvantages and simplifying the whole Device serves the present invention. The mechanical Connection between the elastic partition and the slide on the one hand and the On the other hand, counter is unnecessary. Mechanical defects are then no longer disadvantageous in appearance and otherwise there is the possibility of having an electrical anyway Facility is available to provide the measuring device with a remote display.

Furthermore, the mechanical drive of the slide and of the counter due to mechanical abrasion after prolonged operation of the measuring device mechanical wear and tear on the Bearing points result. This wear could also result in inaccurate measurement results. This disadvantage is due to the innovation also fixed.

The innovation is that special contacts are arranged and the operation of the slide and, if necessary, the counter electrically made by closing the contacts in the respective end positions of the membrane will. The current is conducted through the membrane itself, which is in each of its end positions a contact connection, whereby the slide in the opposite position by means of at least one electromagnet will. The counter indicating the amount of liquid flowing through can on the one hand mechanically, for example, by moving the slide via an angle lever be set in circulation by means of a pull and push pawl. But the counter can on the other hand, can also be operated by an electrical relay, which is also operated by the contact is triggered in the end position of the embryo.

When using two electromagnets to reverse the valve causes each of the electromagnets arranged on both sides of the slide alternately with the others move the slide in the opposite direction. * 'becomes just a Electromagnet used, this can be used to switch the slide with two opposite each other acting windings be provided, of which one winding the slide in one end position, the other winding the slide in the other end position switches over when establishing the contact connection.

If only one electromagnet is provided, the opposite return movement can of the slide can also be caused by a spring. After this movement will the slide is opposed by the magnetic force that the force of the spring has to overcome emotional. With such an arrangement, the slide has to go through it the magnet caused end position by a lock, for example a Pawl to be held. Then comes after filling the other measuring chamber space the membrane in the other end position, it triggers the lock there and the slide is pulled back into its previous position by the spring force.

In the design of the slide control, through which the flowing oil, while maintaining its direction of flow, once in one and then in the other measuring chamber is conducted, both sides of the membrane are advantageously each because two contact points are arranged. These should be in a be arranged parallel to the membrane plane and two of them should be on the same side of the membrane. In each case in the end position of the membrane, these contacts are connected to one another in an electrically conductive manner by the membrane itself, which is specially designed for this purpose. Through this contact, the magnet or the magnet which moves the slide or the counter is then activated again, so that the oil is passed into the other measuring chamber or the counter is advanced by one unit. This arrangement of the contact points in a plane which is parallel to the clamping plane of the membrane has the advantage that the slide is only reversed when the end position limited by the two contact points has actually been reached. A clearly delimited measuring space is thus created in each case because the membrane runs up against two fixed end stops, which guarantees that the space delimited and enclosed by the end position of the membrane and the other walls is always the same size. The stops, which at the same time form the electrical contacts, do not wear out, since low current is used to actuate the magnets, and therefore always give the same end position for the movable membrane. A mechanical wear and tear of the slide drive is no longer possible, which results in a longer service life of the device.

The innovation is explained in more detail below using an exemplary embodiment. 1 shows a view of a chamber of the device with a section through the slide plate and the flat slide and the ducts, FIG. 2 shows a section along the line II-II in FIG. 1 with the view of the essential control parts, FIG. 3 an electrical circuit diagram with the switching systems and switching relays used and with their relationship to the parts to be controlled.

Between the housing parts 1 and 2 is one on both sides with electrical conductive diaphragm plates provided membrane 3 clamped in the housing two Measuring chambers, the measuring chambers 4 and 5 divides from one another. The bead 6 on the edge of the Membrane 3 also serves to seal the two measuring chambers 4 and 5 from one another. The two measuring chambers, which are arranged on both sides of the membrane, are alternated filled with the liquid to be measured before it is passed on to the point of consumption will. The diversion of the liquid from one measuring chamber to the other is carried out with Using the channel system 7, 8, 9 and the flat slide 10 made. This one will Moved back and forth in a pendulum motion around the axis of rotation 11 to reverse the liquid. For this purpose, there are those with electrical windings on both sides of the flat slide 10 provided, as stops, the end positions of the flat slide 10 limiting magnets 12, 12 'are provided, which move the flat slide into the position shown in FIG or in the other case that the opposite measuring chamber 4 is filled, in pull the opposite position. One on the axis of rotation 11 of the flat slide 10 arranged, on the movement of the Flat slide preferably non-participating leaf spring 13 presses the flat slide 10 sealingly against the in the housing part 2 inserted holding part 14, from which the membrane 3 through a parallel guide 15 is guided on the holder 15 'in such a way that the with the Membrane plate framed part of the membrane 3 in each position of the membrane parallel stands to each other. The leaf spring 13 latches in each end position of the flat slide in this arranged, not particularly shown notches, z. B. Depressions, a. For holding the flat slide in the respective end position also differently designed notches attached to the slide or to its base be. The movements of the membrane 3 or the compartment slide 10 are electrical Via a counter which is arranged on the housing part 2 and is not shown in particular or measuring mechanism.

In the position shown in FIG. 2, the membrane 3 is in contact with it their contact surface 16 on the one membrane plate the two contact points 17, 18, those with their contact surfaces in one to the membrane surface and to the housing surface parallel plane. The contact surface 16 on the membrane provides the electrical conductive connection between the contact points 17 and 18. This becomes the Electromagnet 12 is supplied with power and the slide in the opposite position switched by the armature 19, which partially protrudes into the electromagnet 12 while overcoming the latching of the slide caused by the leaf spring 13 10 completely drawn into the electromagnet and that in the electromagnet 12's located anchor 19 'is partially pulled out of this. This becomes the tributary and the outflow of the measuring liquid is regulated so that the measuring chamber 4 is filled, the measuring chamber 5 emptied and thus the membrane 3 is moved into the position 3 'indicated by dash-dotted lines where it touches the contacts 20,21 with the contact surface 16 '. This gets the magnet 12 'current and the slide 10 is switched over, whereupon the same Process repeated.

The electrical switching process is through the mechanical movement the membrane 3, which is caused by the inflow and outflow of the oil, then triggered when the membrane has reached its end position. The in Fig. 3 The circuit diagram shown shows the membrane M and its two end and switching positions M1 and M2 with the contacts 17, 18 on the one hand and the contacts 20, 21 on the other hand. The current is fed to the system via the two main lines 22, 23, which are connected to the rectifier 24 are connected. In the plus line 22 is a fuse 25 provided. The rectifier 24 is fed by the transformer 26, the is connected to the mains with 220 V alternating current with the two poles 27,28. A main switch 29 is built into the power line.

For example, if the membrane contact closes contacts 17 and 18 at M1, relay R1 receives power from closed contacts M1 and normally closed contact R31. By addressing Contacts R11 and R12 become the relay R1 and R13 closed. This gives the control magnet SM1 current, whereby the slide from one to the other whose end position is folded. but the contact R12 the counter is also connected to the existing voltage and turned one step further. When contact R11 is closed, relay R3 receives power. When relay R3 responds, contact R3 is opened and contact R32 is closed. By opening contact R31, the power supply to relay R1 is interrupted and contacts R, R12 and R13 are released with a delay. The relay R3 now only receives power via contacts M1 and R32. By transferring the measuring chambers, the membrane is now removed from the contacts 17 and 18. This means that the relay R3 is de-energized, which means that the relay R32 is opened and the relay R31 is closed again. After the membrane has closed the contacts 20, 21 at M2, the process proceeds as quietly as previously described on the other side, with the difference that now the control magnet SM2 receives current and can move the slide into the opposite position.

After the membrane has returned to the contact position M1, the previously described switching sequence Return of all contacts start all over again in their starting position.

Claims (7)

Protection claims --------------- 1. Consumption meter for flowing liquids, in particular for heating oil and other liquid fuels, with a volumetric measuring mechanism actuated by the liquid pressure and working according to the two-chamber system with a movable membrane, whereby corresponding to the reciprocating stroke movements of the membrane by means of suitable transmission elements on the one hand on a slide and preferably a flat slide for reversing, on the other hand acting on a counter, characterized by the arrangement of contacts and the actuation of the slide and possibly also the counter electrically by closing the contacts through the membrane in their respective end positions. 2. Consumption meter according to claim 1, characterized in that the membrane conducts the current and a contact connection in each of its end positions produces, by means of which the slide is in a respective opposite position at least one electromagnet is turned over, the counter mechanically by the movement of the membrane or the slide is entrained or electrically through a especially, also triggered by the contact in the diaphragm end position Relay is operated. 3. Consumption meter according to claims 1 and 2, characterized in that that when using two electromagnets to reverse each magnet alternately causes the slide to move in the opposite direction. 4. Consumption meter according to claims 1 and 2, characterized in that that if only one electromagnet is used, this is used to switch the slide is provided with two oppositely acting windings, of which one winding the slide in one end position. and the other winding switches the slide to the other end position when the contact connection is established. 5. Consumption meter according to claims 1 and 2, characterized in that that when using only one electromagnet to switch the slide, the return movement of the slide is caused by a spring and the opposite Slide movement the magnetic force overcomes the force of the spring, then the Slide held in its end position by a lock and this lock is triggered when the membrane arrives in the opposite end position. 6. Consumption meter according to claims 1 to 5, characterized in that that on both sides of the membrane two electrical contact or. Stop points are arranged in a plane parallel to the membrane, each of which two contacts lying on the same side of the membrane through the membrane in their respective end position are connected to one another in an electrically conductive manner. 7. Consumption meter according to one or more of claims 1 to 6, characterized in that the slide in each end position by mechanical Medium, e.g. B. by a suitable spring load, notches o. The like. Is held.