DE1113832B - Swashplate quantity counter for liquids - Google Patents

Description

Swashplate quantity counter for liquids The invention relates on swashplate quantity counter for liquids with a measuring device, which has a measuring chamber through which the flow to be measured flows, in which a swash plate is arranged, which corresponds to the flow through the measuring chamber Performs tumbling movements and by a resilient force in contact with the chamber walls is held and guided along the path of the tumbling motion, as well as with a through the measuring device actuated display device.

In the case of swashplate quantity counters of the type specified above the resilient force for making the opposite sides of the swashplate with the upper and lower wall of the measuring chamber at diametrically opposite one another Areas without compliance with the otherwise required tight manufacturing tolerances in the manufacture of the individual parts of the measuring device always in close contact being held. The swash plate is in close contact with the walls of the measuring chamber necessary to prevent liquid from seeping past the swash plate, which would result in a reduced reporting.

In known swashplate quantity counters, the resilient force generated by a spring, which controls the control pin perpendicular to the plane of the disc Swash plate pushes away from the driver axis for the display device, so that the disc is pressed against the walls of the measuring chamber.

According to the invention it is now proposed that the resilient force generated by a magnetic control device, the magnetically coupled Has parts, of which at least one is attached to the swash plate and at least another is fixedly arranged opposite the measuring chamber.

Compared to the known swashplate quantity counter with a spring the inventive counter has the advantage of generating the resilient force a very simple structure. In addition, the swash plate quantity counter according to the invention is much less sensitive to soiling than the known ones with which Even minor soiling can easily lead to the spring and the parts connected to it can lead, whereby the spring device becomes effective loses.

Another advantage of the meter according to the invention is that that according to a further feature of the invention attached to the swash plate magnetic part used at the same time as the driving part of a magnetic clutch is, which is a liquid seal between the measuring device and the display device bridged.

In a particularly advantageous embodiment of the invention Swashplate quantity counter is the magnetic one attached to the swashplate Part of a rod-shaped permanent magnet coaxial to the swashplate, while the opposite the measuring chamber fixedly arranged magnetic part is coaxial to the measuring chamber axis Ring is made of magnetic material.

Embodiments of the invention are shown in the drawing. 1 is a vertical section through a swash plate water meter according to the invention with a magnetic coupling between the measuring device and the display device, FIG. 1 a shows an enlarged detail from FIG. 1, FIG. 2 shows a sectional view of a Part of another, compared to FIG. 1 modified embodiment of the invention Swashplate quantity counter and FIG. 3 shows a vertical section through a further embodiment a meter according to the invention with a mechanical coupling between the measuring device and the display device.

The swash plate counter 10 shown in Fig. 1 is with a housing 12, which consists of a metallic cast body. This casing 12 has a ring seal 58 on the underside by means of a cover 16 liquid-tight sealed access opening 14. The top of the housing 12 is formed by an externally concave wall 22 which is a hermetically sealed Display device 24 receives and surrounds.

A swash plate measuring device is located within the housing 12 26, which are connected to the display device 24 via a magnetic drive coupling 28 connected is.

The housing 12 has one with an annular entry chamber 32 connected inlet port 30.

The entry chamber 32 surrounds the lower part of the wall 22 and is completed at the bottom by an inner transverse wall 34. The transverse wall 34 has in the In the middle there is a passage opening 36 which is closed off by a wall 38. the Wall 38 belongs to the upper half 40 of the two mated parts 40 and 42 existing housing of the measuring device 26. A sealing ring 46 provides a liquid-tight connection between the intermediate wall 34 and the wall 38. The housing parts 40 and 42 are made of elastic material by means of a continuous ring 48, which presses against the lower surface of the part 42 and with a lining 50 of the lower cover can be made in one piece, against each other and against the sealing ring 46 pressed. The parts 40 and 42 of the measuring chamber housing limit together with the located between the openings 14 and 36 inner wall of the housing 12 is an annular Exit chamber 60 which surrounds the housing parts 40 and 42.

The chamber 60 is connected to the outlet passage 62 of the housing 12 in Link.

The chamber housing parts 40 and 42 define a measuring chamber 64. The Measuring chamber 64 has an upper frustoconical wall 66 and a lower frustoconical Wall 68. which are on the same axis opposite one another, in the middle opposite one another have concentric dome-shaped recesses 70 and 72 and a spherical zone-shaped Side wall 74 are connected to one another. In the frustoconical upper wall 66 is an entry passage 76 which is inwardly of an annular cleaning screen 78 is arranged. In the spherical zone-shaped side wall 74 there is a conventional Way an outlet passage 79 to the chamber 60, which is spaced in the circumferential direction from that located on the opposite side of the flow divider 80 Inlet passage 76 is arranged.

The swash plate 82 has within the recesses 70 and 72, respectively mounted ball segments 84 and 86 and one between the two segments 84 and 86 coaxially held circular disc 88, which by means of a hollow bolt 90 and a nut 92 is clamped between the segments 84 and S6.

Inside the hollow bolt 90 is a longitudinally polarized cylindrical one Bar magnet 96 made of permanent magnetic material arranged. The bolt 90 is made made of corrosion-free steel. The end of the magnet protruding beyond the bolt 90 96 is made of non-magnetic, wear-resistant material by means of a rust protection cap 98 Material such as plastic, synthetic rubber or the like, coated to protect against corrosion.

The magnet 96 acts both as a drive member of a magnetic clutch 28 between the measuring device 26 and the display device 24 as well as part a magnetic control device for guiding the swash plate 82 along the Orbit of tumbling motion.

The display device 24 has a transmission and a drive and a housing 100, which has a through opening at the bottom through which a support tube 104 protrudes from non-magnetic material which is welded to the housing 100 or is soldered and forms a tubular continuation of the housing 100. Above the housing 100 is hermetically sealed with a transparent window 106.

The support tube 104 protrudes through one located in the housing wall 22 Opening 114 into the housing 12. The opening 114 faces the measuring device 26 coaxial. The lower end of the support tube 104 is provided with a thread 116, on which a retaining nut 118 made of ferromagnetic material is screwed, which also serves as the control ring of the magnetic control device. The mother 118 holds the display device 24 firmly on the housing 12. A sealing ring 120 takes care of it for a liquid-tight connection between the housing 12 and the display device 24. The nut 118 is equipped with an annular hub 121, the upper The end of the magnet 96 attracts to guide the movement of the swash plate 82.

The hub 121 of the nut 118 has a larger diameter than that of the trajectory of the upper end of the magnet 96, and is concentric to this path. The magnetic attraction between the magnet 96 and the adjacent part of the nut 118 pulls the swash plate 82 into a position in which this is on the one hand over the entire path of its tumbling motion Side with the inner surface of the frustoconical wall 68 and on the other side with the inner surface of the opposite frustoconical wall 66 substantially is in line contact. The line contacts take place in diametrically opposite one another Areas instead.

In a coaxial opening in the support tube 104 is a safety control pin 122 attached with a conical end. The pin 122 protrudes into the center of the conical Movement path of the upper end of the magnet 96 and into a conical recess 123 of segment 84 to ensure that magnet 96 and disk 88 at no time can assume a dead center position in which they can with the support tube 104 would align coaxially. The pin 122 only has this function and does not serve about to guide the swash plate 82 in some way. The swash plate is made solely by the magnetic attraction between the top of the magnet 96 and the adjacent part of the nut 118 acting as a magnetic control ring guided.

The magnetic coupling 28 between the display device 24 and the swash plate 82 has the permanent magnet 98 and a steel ball 124, the due to the magnetic attraction between it and the top of the magnet 96 follows the movement of the magnet and is in an annular groove 126 of semicircular cross-section moved in the lower wall of the support tube 104 is formed. The ball 124 drives a thin wire crank connected to it 128, whose upper part in a storage facility 130 by one with the axis of the support tube 104 and the track 126 coincident axis rotatable is stored. The upper end of the crank 128 protrudes over the bearing device 130 and carries a drive gear 132, which in a known manner via a transmission is connected to a display drive.

In the embodiment shown in Fig. 2 is on the outside the lower housing half 42 is a cylindrical coaxial with the axis of the measuring device 26 Eye 140 formed, the one with the nut 118 coaxial second control ring 142 made of magnetically permeable material. In this embodiment of the According to the invention, the magnet 96 'is a little longer than the magnet 96 of the exemplary embodiment according to Fig. 1, so that its lower end is closer to the outer surface of the ball segments 84 and 86 formed pivotable ball reaches. Between the lower end of the Magnet 96t and the part of the control ring 142 closest to it acts in the same way as between the upper end of the magnet 96 'and that end the closest part of the control ring 118 has an attractive force. The effect these control rings on the movement of the swash plate is exactly the same as described in connection with the embodiment of FIG. By using of two control rings is only one stronger and stronger on the swash plate 82 more effective resilient force exerted.

Optionally, only a single control ring can be placed on the underside be used.

Fig. 3 shows the invention applied to a mechanically coupled Swashplate quantity counter. This meter has a housing 150 that has an upper chamber 152 for receiving a display device 154 and a lower chamber 156 for receiving a swash plate measuring device 158 and a reduction gear 160 limited. The liquid enters through the inlet passage 162 in the housing 150, flows through it a screen 164, enters chamber 156, then passes through a circumferential direction arranged on one side of the flow divider plate 166, not shown Entry passage in the upper and lower walls of the measuring device 158 into this and finally comes out of the measuring device through an opening in the peripheral wall 158 into an outlet channel 168 of the housing 150. The measuring device 158 has a upper and lower housing parts 170 and 172, respectively, which are mated and opposing frustoconical walls 174 or

176 have. The walls 174 and 176 are shaped like a spherical zone Side wall 178 interconnected and with opposite concentric Dome-shaped recesses 180 and 182 equipped. The recesses 180 and 182 take the ball segments 184 and 186 of the swivel ball of the swash plate 188 on. The swash plate 188 has opposing ball segments 184 and 186 Hard rubber that hold the circular disc 190 stiffened inside between them. The ball segments 184 and 186 are through a through screw 192 and a Mother 194 connected to each other. At the top of nut 194 is a hollow drive pin 196 made of corrosion-free steel attached coaxially to the disk arrangement. The hollow one Drive journal 196 takes a permanent, magnetic, longitudinally polarized bar magnet 198 on. The drive pin 196 engages the radially projecting parts of a crank member 200, which is attached coaxially to the lower end of a drive spindle 202. These Drive spindle 202 is mounted in a cast body 206 by means of a bush 204, which is centered on the upper housing half 170. The spindle 202 drives a conventional reduction gear 208 and a drive clutch 210 the display device 154 in the usual way.

A ring 220 made of soft iron is used to guide the swash plate 188 or the like. Provided. This ring has an upper and a lower cylindrical Guide part 222 or 224, with which it is in alignment with the cast body 206 or the upper part 170 of the measuring chamber is held, and has one with these guide parts one-piece frustoconical connecting part 226 whose apex angle is essentially equal to the vertex angle of the conical path of movement of the magnet 198 and which is coaxial with this movement path, so that along the magnet 198 and an essentially uniform one along the entire path of movement of this magnet Distance between the closest parts of the magnet 198 and the frustoconical Connection part 226 is maintained.

In this version, too, the movement of the swash plate is over the entire trajectory due to the attraction between the magnet 198 and the control ring 220 made of soft iron.

The parts 12, 26 and 42 in Fig. 1, 1 a and 2 and the parts 150, 170 and 172 are made of non-magnetic material such as bronze.

Claims (6)

PATENT CLAIMS: l. Swashplate quantity counter for liquids with a measuring device which has a measuring chamber through which the flow to be measured flows has, in which a swash plate is arranged, which corresponds to the flow performs tumbling movements through the measuring chamber and by a resilient force in System held on the chamber walls and guided along the path of the tumbling movement is, as well as with a display device actuated by the measuring device, thereby gekeenzeich that the resilient force by a magnetic control device (96, 118; 96 ', 142, 118; 198, 220) is generated, the magnetically coupled parts has, of which at least one (96; 96 '; 198) on the swash plate (82; 188) attached and at least one other (118; 142; 220) opposite the measuring chamber (40, 42; 170, 172) is arranged in a stationary manner. 2. Swashplate quantity counter according to claim 1, characterized in that that the magnetic part (96; 198) attached to the swash plate (82; 188) is coaxial is arranged to the swash plate, while the opposite of the measuring chamber is stationary arranged magnetic part a ring coaxial to the measuring chamber axis (118; 142; 220) is made of magnetic material, at least one of the parts being a permanent magnet is. 3. Swashplate quantity counter according to claim 2, characterized in that that the ring (118; 220) is the drive connection between the measuring device (26; 158) and the display device (24; 154) surrounds. 4. Swashplate quantity counter according to claim 2, characterized in that that the ring (142) on the side of the measuring device (26) which is the drive connection is turned away, is attached to the measuring device. 5. Swash plate quantity counter according to one of claims 2 to 4, characterized characterized in that the drive connection has a magnetic coupling (28), its driving part through the magnetic part attached to the swash plate is formed, which is a rod-shaped permanent magnet (96). 6. Swash plate quantity counter according to one of claims 2 to 4, characterized characterized in that the drive connection with one on the swash plate (188) coaxially attached pin (196), one coaxially to the chamber (170, 172) rotatably mounted Spindle (202) and a crank (200) attached to this spindle is, a part of which is arranged within the movement path of the pin, and that the pin (196) is hollow and made of non-magnetic material and the Magnetic part (198) attached to the swash plate in the hollow pin (196) is used. Publications considered: German Patent No. 278 199