CH664828A5 - MAGNETIC LEVEL INDICATOR. - Google Patents

Description

DESCRIPTION

The invention relates to a magnetic level indicator with a float that is movably guided along a vertical measuring section within a liquid container and that has a permanent magnet, and a measuring transducer that is arranged along the measuring section and outside the liquid container and that has magnetic display elements that are individually lined up along the measuring section are responsive and, depending on the position of the permanent magnet, assume one of two magnetically conditioned positions and carry different markings on the outside, one of which is clearly visible in the two positions.

Such a magnetic level indicator is known from DE-GM 8 311 354. In this known indicator, the level display is visually readable due to the visible markings of the movable display elements.

In many cases, a visual display is not sufficient, switching operations should be triggered or an electrical display element should be actuated, depending on the respective level.

The object of the invention is to additionally provide an electrical level-dependent contact.

This task is solved in that a second measurement

werigeler is located outside of the HUL eilslelilliers along the measuring section, and that this second sensor has magnetically actuated, electrical contact switches which are individually lined up along the measuring section.

A preferred embodiment of the invention is characterized in that a series of contact switches is provided, which are individually lined up along the measuring section and are assigned to different taps of a resistance chain. In this case, there is a gradual change in the resistance value of the resistor chain, which can be implemented by a corresponding display signal or a switching command. In some cases, limit value displays or limit-dependent signals are sufficient. It is then advisable to design such that the second transmitter has a plurality of contact switches which are positioned as limit switches along the measurement section.

For a clear and exact display of the respective float level, the permanent magnet with its field has to act as concentrated as possible on the display elements or the contact switches. This can be favored by the mutual arrangement of these parts, as is the subject of claim 4.

The invention will now be explained in more detail with reference to the accompanying drawing.

The drawing shows:

1 shows the bypass tube of a liquid container with a float, an indicator equipped with rollers and an electrical transducer,

2 shows the partial view according to arrow II from FIG. 1,

3 shows the partial section according to arrow III from FIG. 1 in partial section IV, the U profile rail for the indicator, FIG. 5 shows section V from FIG. IV,

6 is a top view of a bearing washer,

7 shows one half of a roller of the indicator,

8 the view according to arrow VIII from FIG. 7,

9 shows section IX from FIG. 7,

10 shows the circuit strip of the sensor from FIG. 3, viewed in the direction of arrow X,

11 shows the circuit strip from FIG. 3, seen against the direction of the arrow XI, and

12 shows a second exemplary embodiment of a magnetic level indicator, in which the float is guided in an immersion tube arranged inside the liquid container.

According to FIG. 1, 1 denotes a bypass tube which is flanged to a liquid container (not shown) with two flange connections 2, 3. There is a liquid inside the liquid container, the level of which is to be measured or displayed between the two flange connections. The bypass tube 1 and possibly also the flange connection 2, 3 are made of non-magnetizable material, preferably of stainless steel. The bypass tube extends with its axis 23 vertically and parallel to the measuring section 15.

A float 5, which has the basic shape of an elongated circular cylinder and whose outside diameter according to double arrow 6 is slightly smaller than the inside diameter according to double arrow 4, swims within the bypass tube, which has a circular inner cross section with a diameter according to double arrow 4. The float 5 is hollow , rounded at both ends in a spherical shape and has a total of four indented beads 7,8 extending over the entire circumference,

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9.10. The float 5 is made of non-magnetizable material, preferably stainless steel.

An iron plate 11 is arranged within the float 5 perpendicular to the float axis 12. The float axis 12 coincides with the cylindrical symmetry axis of the float shape. This iron plate 11 abuts the entire edge of the inside of the wall of the float and is welded to the entire circumference thereof. Permanent magnets 13, 14 are attached to the iron plate on both sides, which are arranged, formed and magnetically polarized coaxially to the float axis 12. The polarizations of the two permanent magnets are opposite to each other, as indicated by the polarities N, S shown in FIG. 1. Both permanent magnets have their south pole on their end face facing the iron plate 11 and their north pole on the end face facing away from the iron plate (or vice versa). The result is a tightly bundled radial magnetic field 22 in a radial extension of the edge of the iron plate 11, which also tightly bundles through the indicator 20 and transmitter 21 mounted on the outside of the bypass tube 1 and then continues with weaker bundling, as is the case, for example, with individual lines of force , which are shown in Figure 1, is indicated.

The float is top-heavy, that is, it is heavier at the top than the bottom, so that the float axis 12 is at a very small acute angle 16 to the vertical axis 23 of the bypass tube 1. The float only finds a first tangential, point-shaped contact 24 with its lower edge and a second tangential, point-shaped contact 25 with its upper edge with the inner wall of the float. In the drawing, the float assumes a position which corresponds to the lowest liquid level 26 to be displayed.

The weight of the float is balanced with respect to the specific weight of the liquid to be measured, so that the iron plate 11 is exactly at the level 24 of the liquid.

The indicator 20 consists of a U-shaped rail 31 accommodated in an elongated protective box 30, between the two legs of which a row of rollers 33, 34, 35, 36, 37 are rotatably mounted with horizontal roller axes. The rollers are all the same among themselves.

Each of the rollers consists of two plastic roller halves. Such a roller half 40 is shown in FIGS. 7, 8 and 9. This roller half 40 belongs to the roller 33, see also FIG. 4, whose other roller half is designated 41. The two roller halves 40 and 41 are shaped identically and fit one another along a parting plane 45 passing through the roller axis 44. Each roller half has a projection 46 and a correspondingly shaped recess 47. The projection of the roller half 41 corresponding to the projection 46 fits into the recess 47 and vice versa.

Each roller has axially parallel stub axles 50, 51 from both ends, each half belonging to the two roller halves. Both roller halves have open recesses 52 in the center of the parting plane 45, into which a circular-cylindrical, rod-shaped permanent magnet 54 with its longitudinal direction transverse to the roller axis 44 is inserted in a form-fitting manner. The stub axles 50, 51 are each in a central, circular bearing hole 56 ... an associated, circular bearing disk 57 .... Two bearing disks are provided for each roller and the bearing disks are designed identically and cylindrically symmetrically, preferably as an automatic turned part made of Teflon .

The two roller halves of a roller together become 664828

held by the stub axles 50, 51 in the bearing hole 56 and possibly additionally by the fact that the plug-in connections, in which the projection 46 and the recess 47 are involved, is designed as a clamp connection or by gluing. The respective one half of the roller, for example the roller half 40, of the roller 33 is provided on its circumference with a first marking, for example a red coloring, while the other associated roller half 41 of the same roller 33 is provided with a different marking, for example one White coloring, is equipped. This different marking is indicated in FIGS. 1, 2, 3 and 12 by blackening or leaving white.

The two legs 60, 61 of the U-shaped rail 62 have inwardly open, T-shaped, that is undercut, bearing grooves 63, 64, into which the bearing disks 69, 70, 71 ... form-fitting with play, as shown in FIGS 5 can be seen to fit. The bearing disks are lined up in the bearing grooves with contact and thereby support one another, with the result that the bearing holes have exactly the same spacing in accordance with the exactly identical configuration of the bearing disks. The bottom bearing washers, that is, the bearing washer 70 from FIG. 5, is supported with the opposing bearing washer on a lock fastened to the U-shaped rail 62, so that all the bearing washers are coaxially opposed in pairs.

The diameter according to double arrow 72 of a bearing washer is somewhat larger than the outer diameter 73 of a roller. The difference in diameter corresponds to the desired tolerance distance between the rollers, which is required so that the rollers can rotate freely from one another.

The permanent magnet 54 is magnetized permanently magnetically in the longitudinal direction, so that the viewer of FIG. 7 has one pole turned and the other pole turned away.

The rollers and the bearing disks are designed identically to one another, as described in the text relating to FIGS. 4 to 8. When the float with the permanent magnets 13 and 14 moves up and down in the bypass tube 1, the rollers above the iron plate 11, i.e. above the level 26, assume a position with vertically oriented permanent magnets 54, with the darkly marked roller half facing the float shows, and below the level 26 a position rotated by 180 degrees, with the brightly marked half of the roller facing the float. Only three rollers are in an intermediate position. The one that is exactly at the level of level 26 stands with a horizontally oriented permanent magnet, ie with one roller half up and the other down, and the two adjacent rollers have inclined intermediate layers.

The rollers are covered on the outside by a transparent disk 80 which is inserted in corresponding grooves 81, 82 of the legs of the profile rail. Through this disk 80, the rollers and their marking are visible with the viewing direction according to arrow 84.

The measuring sensor 21 extends parallel to the indicator and thus also along the measuring section. The measuring sensor has a square tube 100 made of non-magnetizable material, for example stainless steel or plastic, within which a circuit strip 101 is inserted, which extends over the entire measuring section extends. The circuit strip 101 has a series of resistors 102, 103, 104, 105, which are electrically connected in series in series and are mounted on the rear side of the circuit strip 101. Electrically actuated contact switches 106 to 108 are mounted on the front of the circuit strip,

whose contacts 109, 110 are axially parallel at both ends3

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opposite each other are inserted into an evacuated glass tube 111. The contact switches can be actuated magnetically by magnetizing the one or both contacts 109, 110. The contact switches are connected as short-circuit taps between two resistors, so that, depending on which of the contact switches is closed, a more or less long piece of the resistor chain formed by the resistors 102, 103, 104, 105 is interrupted. This interruption and the resulting change in the resistance value of the entire series of resistors is clearly related to the level of the contact switch which is closed in each case and causes an electrical display or control signal dependent thereon.

The circuit strip 101 is arranged on the circumference of the bypass tube 1 in the region of the narrow bundling of the magnetic field 22, so that in each case that contact switch is actuated which is at the respective height of the iron plate 11 and thus at the liquid level 26.

In order for the roller or the contact switch corresponding to the liquid level to be actuated as precisely as possible, the indicator 20 and the sensor 21 are mounted close to the circumference of the bypass tube 1, that is to say as close as possible to the permanent magnet 13 or 14. The

For this reason, the indicator 20 and the sensor 21 are arranged in different circumferential areas 120, 121, which in this exemplary embodiment adjoin one another.

The exemplary embodiment shown in FIG. 12 essentially differs only in that instead of the bypass tube 1, a dip tube 130 is provided as a guide for the float, which is arranged in the liquid container 131, an opening 132 at the bottom and a vent opening 134 at the top having. The float 133 corresponding to the float 5 is arranged within the dip tube 130 and as close as possible to it, but outside the liquid container the indicator 136 corresponding to the indicator 20 is arranged, preferably but not necessarily together with a sensor that is not visible in FIG.

In a modification of the illustrated exemplary embodiments, magnetically actuable limit switches 20 can be provided instead of the measuring value transmitter or in addition to the measuring value transmitter, as indicated for example in FIG. 12 under positions 140 and 141. The limit switches can have contact switches which are accommodated in evacuated glass tubes, as described in the text relating to FIGS. 10 and 11.

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2 sheets of drawings

Claims (4)

664828 PATENT CLAIMS 1.Magnetic level indicator with a float which is movably guided within a liquid container along a vertical measuring section and which has a permanent magnet, and a transducer which is arranged along the measuring section and outside the liquid container and which has movable display elements which are individually lined up along the measuring section and are magnetically responsive and, depending on the position of the permanent magnet, assume one of two magnetically induced positions and have different markings on the outside, one of which is clearly visible in the two positions, characterized in that a second transmitter (101) outside the liquid container (1) is arranged along the measuring section (15), and that this second sensor has magnetically actuated, electrical contact switches (106) which are individually lined up along the measuring section (15). 2. Magnetic level indicator according to claim 1, characterized in that a series of contact switches (106) are provided, which are individually lined up along the measuring section (15) and are assigned to different taps of a resistance chain. 3. Magnetic level indicator according to claim 1, characterized in that the second transmitter has a plurality of contact switches (140, 141) which are positioned as limit switches along the measurement section. 4. Magnetic level indicator according to one of the preceding claims, characterized in that a permanent magnet (13) coaxially to an axis of symmetry (23) almost parallel to the measuring section (15) is magnetized, that the rollers (33 ...), movable display elements with horizontal roller axis (44) are arranged close to the path of the permanent magnet, that the rollers are magnetized with a field direction perpendicular to the roller axis, and that the two contacts (109, 110) of an electrical contact switch (106) at opposite ends in an evacuated glass tube (111 ) are used, and that the glass tubes are offset in circumference relative to the rollers and are arranged close to the path of the permanent magnet.