DE3035834A1 - Separation slider meter with uniformly good piston seal - formed by magnetic attraction between piston and slider, moving in housing aperture - Google Patents

Abstract

A separation slide meter has a measurement chamber contg. a rotating piston (3,4) and a separation slider (12) with its free end (13) in contact with the piston so as to form a seal between the chamber inlet and outlet. It ensures a uniformly good seal between slider and piston and enables a high degree of measuremement accuracy to be achieved. The free end (13) of the slider (12) contains a magnetic element (14). The piston exerts a magnetic force on the element so as to pull the slider towards it, thus forming the seal. The piston consists of magnetically conducting material at least in a region which lies at an equal distance from the piston external surface (7) during rotation. The slider can move in a housing aperture without expensive mechanical ancillaries.

Description

Slide gate meter

The invention relates to a slide valve meter with at least a piston rotating in a measuring chamber of a housing and at least one Separating slide, which is guided in the housing and with its free end on the circumferential surface of the at least one piston forming a sealing point between the inlet and the outlet of the measuring chamber is present.

In a known slide valve meter of this type for measuring liquids (DE-AS 11 43 339) two pistons rotating about a common axis of rotation are the same Contour present, which are arranged one behind the other in the direction of the axis of rotation and are separated from one another by an intermediate wall dividing the measuring chamber.

The pistons have an oval contour and are offset by 900 to one another arranged. On the circumferential surface of each piston is the free end of a Trend slide so that the inlet and outlet of the measuring chamber of the slide valve meter are separated from each other by means of the slide gate valve. The ones in the housing of the slide valve meter guided slide gate valves are controlled by the piston during one revolution oval contour of the piston, moved back and forth.

To during the rotation of the piston and thus during the various Positions of the slide gate an evenly good sealing point between the Ensuring the circumferential surface of the piston and the slide gate are the two Separating slide with each other via a mechanically complex double-armed lever tied together, the two slide gate controls so that they during one Circulation of the piston pressed against the circumferential surface of the piston with constant pressure will. This double-armed lever causes additional friction losses during movement the slide valve, so that especially when measuring small amounts of liquid and thus slow piston rotations can cause measurement errors. aside from that the lever in this known arrangement increases the weight and thus the inertia of the moving parts, which can increase the measurement error.

The invention is therefore based on the object of a slide valve meter to create a consistently good sealing point with simple means. between the slide valve and the circumferential surface of the piston during piston rotation guaranteed and a high measurement accuracy can be achieved.

To solve this problem, a slide valve contains the type specified at the beginning Art according to the invention at its free end a magnetic device; the piston is magnetically effective and pulls the separating slide with its free end to the circumferential surface of the hollow piston to form the sealing point.

The slide gate meter according to the invention is particularly advantageous in that than the slide valve in a simple manner in a recess of the housing without complex mechanical aids can be performed because the slide gate to the formation the sealing point with the piston at its free ends only with a magnetic device must be provided. This magnetic device can match the dimensions of the slide gate valve be adapted so that there is no enlargement of the slide gate valve and There is no significant increase in its weight.

It is sufficient with the slide valve meter according to the invention if only a piston with a separating slide resting against its circumferential surface is present, but here an imbalance of the piston must be accepted, udd measures must be taken to avoid dead center contact with the rotating piston to be hit. As a rule, therefore, a slide valve meter with two rotating pistons, which are arranged offset by 900 on a common axis of rotation and are separated from one another by an intermediate wall, are preferred.

It is also advantageous in the slide gate valve according to the invention if the piston at least at the same distance from the circumferential surface during one revolution of the piston having areas made of magnetically conductive material. Here can be made of a corrosion-resistant and magnetically non-conductive material Wall of the piston attached to the piston rotating magnetically conductive ring will; It is also possible for the piston to be made entirely of magnetically conductive material produce and it only on its peripheral surface with a thin layer made of magnetically non-conductive and corrosion-resistant material. At all these embodiments is constant during the rotation of the piston Pressure force of the slide gate against the wall of the piston, one during the revolution consistently good sealing point between the inlet and outlet of the measuring chamber and a large measurement accuracy of the slide gate meter according to the invention is ensured.

Mainly for metrological and manufacturing reasons the piston of the separating slide ber counter according to the invention from a corrosion-resistant Material made; It when the piston is hollow and is particularly advantageous made of magnetically non-conductive material and when inside the hollow piston a magnetically effective holding device is present, which is opposite the separating slide is arranged.

The holding device for the inside of the hollow piston The slide gate valve can advantageously be made of a magnetically conductive material are manufactured and inside the hollow piston, advantageously on the axis of rotation, be held so that the magnetic field lines, starting from the magnetic device induce a magnetic opposite pole in the slide gate, in the holding device, whereby the slide gate and retainer over the wall of the hollow piston exert an attraction on one another; the magnetically effective holding device is slidable towards the free end of the slide gate valve, so that a during the rotation of the piston constant pressure force of the slide valve on the circumference area of the piston is guaranteed.

The displaceable holding device can, for. B. from one in a recess There are guided rod, one end of which is adjacent to the free end of the slide gate valve is or be formed by a roller, which is constantly with parts of its magnetically conductive circumferential surface opposite the free end of the slide gate valve; there are also many other options for designing the holding device conceivable.

It is particularly advantageous if the magnetic device and the magnetic effective holding device each contain a permanent magnet, which with unequal named Opposite Poland. The arrangement of permanent magnets both in the magnetic device as well as in the magnetically effective holding device leads in a simple manner to Formation of a consistently good sealing point, with each of the two permanent magnets can be smaller and lighter than a single permanent magnet.

The permanent magnets are advantageously made of a sintered material made of cobalt and rare earths, because such permanent magnets are a relative to their volume generate large magnetic field strength, which in turn leads to a weight saving and leads to a reduction in the friction losses of the slide gate valve.

In an advantageous embodiment of the slide gate meter according to the invention are magnetic field sensitive components on the housing at a short distance from the movement path the magnetic device firmly attached, wherein the magnetic field sensitive components emit an electrical signal as the magnet device moves past.

In this embodiment it is achieved in a simple manner that the Movement of the slide valve during one revolution of the piston to measure the through the measuring chamber passed through measuring medium is used. For this it is only necessary that z. B. outside on a wall of the measuring chamber of the housing in the area of Movement path of the slide gate attached to the magnetic field sensitive component is, and that the signal generated by the movement of the slide gate with a Counting device is evaluated.

With an attachment of the magnetic field sensitive component in the area the movement path of the permanent magnet of the holding device can produce the same results he- targets are also possible to secure the measurement result Components sensitive to magnetic fields on the movement paths of the other permanent magnets to attach.

Hall generators can advantageously be used as magnetic field-sensitive Components are used as they are extremely sensitive sensors to changes a magnetic field strength, in this case while moving a Permanent magnets, and one sufficient for further signal processing Provide a large signal at the output. The invention is illustrated by means of the figure explained, in which a plan view of an embodiment of the invention Separating slide meter is shown with the cover removed.

The slide gate meter shown has a housing 1, in which Measuring chamber 2 hollow rotatable pistons 3 and 4 made of a magnetically non-conductive material are arranged. The pistons 3 and 4 have an approximately oval contour and are aligned by 900 offset to each other; they are one on both sides The intermediate wall 5 dividing the measuring chamber 2 and is mounted on an axis of rotation 6. An outer circumferential surface 7 of the piston 3 forms with the wall of the measuring chamber 2 measuring spaces, through which the medium to be measured between inlet 9 and outlet 10 of the measuring chamber 2 passes through.

A slide valve 12 is guided in a recess 11 of the housing 1, which rests with its free end 13 on the circumferential surface 7 of the piston 3. A The separating slide, designed in the same way, lies on the circumferential surface of the piston 4 on; however, it cannot be seen from the figure. In the area of the free end 13 of the slide valve 12 is a magnetic device 14 which consists of one Permanent magnet made of a sintered material made of cobalt and rare earths.

Inside the hollow piston 3 is a magnetically effective holding device 16 are present, which can be displaced on the axis of rotation 6 in the direction of the separating slide 12 is held. On that side of the magnetically effective holding device, 16 which lies opposite the free end 13 of the slide valve 12 on the wall of the hollow piston 3, a permanent magnet 17 is arranged, which is also made of a sintered material made of cobalt and rare earths.

The permanent magnet 17 in the magnetically effective holding device 16 and the magnetic device (permanent magnet) 14 in the slide gate 12 are arranged so that they face each other with unlike poles, whereby the separating slide 12 is pressed against the circumferential surface 3 of the hollow piston 3. One in the same Wise executed holding device is located inside the hollow piston 4; however, it cannot be seen from this figure.

During one revolution of the pistons 3 and 4, the slide valve is located 12 on the circumferential surface 7 of the piston 3, and the holding device 16 is in contact the inner wall of the piston 3 due to the acting between it and the slide valve 12 The separating slide 12 and the separating slide (not shown) are pressed against the respective pistons with constant pressure, and This results in a consistently good sealing point between the inlet 9 and outlet 10 of the housing 1 of the slide gate meter during one cycle of the Pistons 3 and 4.

In the illustrated embodiment, a Hall generator is as Magnetic field sensitive components 18 to the separating slide, which cannot be seen in the figure of the piston 4 is assigned, so this component is in the figure dashed drawn. The component 18 is in the area of the movement path of the permanent magnet attached to this adjacent. During each revolution of the piston 4 is the associated magnetic device unique in the area of influence of the magnetic field-sensitive Component 18 and thus causes a signal output at the output of this magnetic field-sensitive Component 18. This signal represents a measure of the through the measuring chamber 2 of the invention Slide valve counter which has passed through the medium to be measured, since with it the number the revolutions of pistons 3 and 4 can be counted.

In addition, further components sensitive to magnetic fields can add to the other Permanent magnets of the slide gate meter are assigned.

9 claims 1 figure Blank page

Claims (9)

Claims 1 slide valve meter with a) at least one in a measuring chamber of a housing rotating piston, and b) at least one slide valve, the bl) is guided in the housing and b2) with its free end on the circumferential surface of the at least one piston forming a sealing point between the inlet and the outlet of the measuring chamber is present, that is to say c) the separating slide (12) has a magnetic device (14) at its free end (13) contains and d) the piston (3, 4) is magnetically effective and dl) the slide valve (12) with its free end (13) on the circumferential surface (7) of the piston to form the sealing point pulls (Fig.). 2. slide gate meter according to claim 1, d a d u r c h g e k e n n z e i c h n e t that e) the pistons (3, 4) are at least the same during one revolution Distance from the peripheral surface (7) of the piston (3, 4) having areas magnetically conductive material. 3. slide gate meter according to claim 1, d a d u r c h g e k e n n shows that f) the piston (3, 4) is hollow and g) the piston (3, 4) is out magnetically non-conductive material and h) inside the hollow piston (3, 4) a magnetically effective holding device (16) is present, hl) that of the separating slide (12) is arranged opposite one another. 4. slide gate meter according to claim 3, d a d u r c h g e k e n n z e i c h n e t that i) the magnetically effective holding device (16) on the axis of rotation (6) of the piston (3, 4) is held and il) in the direction of the free end (13) of the slide valve (12) is displaceable. 5. slide gate valve according to claim 3 or 4, d a d u r c h g e k e n n z e i c h n e t that j) the magnetic device (14) and the magnetically effective Holding device (16) each contain a permanent magnet, which j1) with different Opposite Poland. 6. slide gate meter according to claim 5, d a d u r c h g e k e n n z e i c h n e t that k) the permanent magnets made of a sintered material made of cobalt and Rare earths exist. 7. slide gate valve according to one of the preceding claims, d a d u r c h g e k e n n n z e i c h n e t that 1) a magnetic field sensitive component (18) on the housing (1) at a short distance from the path of movement of the magnetic device is firmly attached, wherein 11) the magnetic field sensitive component (18) during emits an electrical signal when the magnetic device moves past. 8. slide gate valve according to claims 3 to 6, d a d u r c h g e k e n n z e i c h n e t that m) a magnetic field sensitive component on the housing (1) in small distance from the path of movement of the permanent magnet (17) of the holding device (16) is firmly attached, where ml) the magnetic field sensitive component during of the orbeibewegens the permanent magnet (17) of the Holding device (16) emits an electrical signal. 9. slide gate valve according to claim 7 or i, d d a d u r c h g e k e n n z e i c h n e t that n) the magnetic field sensitive component (18) is a Hall generator is.