DE4111975A1 - Conductivity tracked reed contact carrier for displacement sensor - has self-supporting metallic tracks bridged by reed contacts embedded at angle in plastic injection mouldings - Google Patents

Abstract

The carrier (7) is mfd. from a metallic grid with two longitudinal conductive tracks (8,9) joined by parallel slanted crossbars (11,11a). Retaining tabs (12,13) are formed by stamping and bending for attachment of resistors (16,17). The tracks (8,9) are bridged by reed contacts (18,18a) laid parallel to the crossbars (11,11a), which are removed on completion of the mfg. process. A moulding (19) throughout the length of one edge facilitates handling of the carrier. USE/ADVANTAGE - For e.g., float switches, carrier can be mfd. cheaply and cut to required length for attachment of electronic components with min. sensitivity to vibration.

Description

The invention relates to a intended for a displacement sensor ten, with reed contact carriers with conductor tracks stacked reed contacts, which by a movable along the reed contact carrier, at least a magnet carrier having magnets can be actuated. The invention further relates to a method for the manufacture position of such a reed contact carrier.

A displacement sensor designed as a level sensor with a Reed contact carrier of the above type is for example described in DE-A-27 58 379. With the reed contact carriers according to this document are for Printed circuit board carrier strip made of plastic, which is equipped with the reed contacts on one side. The The connecting wires of these reed contacts reach through holes of the reed contact carrier and contact on the back of the reed contact carrier conductor tracks that emerge from a Schier conductor foil are etched out of copper. Exactly if on the back of the reed contact carrier are for the function of the level sensor necessary resistors arranged.

The well-known reed contact carrier is like a common one with electronic components equipped circuit board designed and therefore relatively expensive to manufacture. If filling stands measured over different sized areas then it must be in the manner of DE-A-27 58 379 designed reed contact carrier required, this in to produce the necessary length and with the to assemble electronic components. Another after part of the known reed contact carrier is that its electronic components are sensitive to vibrations  are, so that there is a greater acceleration Loosening individual components and thus a failure of the Level sensor can come.

In practice there is also a reed contact carrier for Level sensor has become known, in which the Reedkon clocks are mounted on an elastic band. Everyone Reed contact is together with its resistance or meh resistors to a separately manufactured, with Plastic overmolded assembly summarized. These Modules have contact on one of their sides tongues with which they join together like chain links be bound. The well-known reed contact carrier has the Advantage that you can deliver it as a rolled tape can, of which a required length with the correct number of reed contacts are disconnected can. By overmolding the electronic components they are not sensitive to vibrations. For many users Possible cases is the mutual distance between the reed contacts however too large, so that no level sensor with ho let dissolution be realized. The chain-like Be piece of flexible tape with one reed con however, building blocks with clocks do not make them denser successive arrangement of the reed contacts possible.

The invention is based on the problem of a reed con Train clock carriers of the type mentioned in such a way that it is as inexpensive to manufacture and that of the required length must be cut off can and that its electronic components if possible vibration-resistant on the reed contact holder are.

This problem is solved according to the invention in that the conductor tracks each made of metal forms are parallel to each other over the length of the reed  contact carrier and through the reed contacts are bridged, with each reed contact at an angle to the Conductor tracks aligned and within a bridge arena plastic from conductor track to conductor track injection is embedded.

Such a reed contact carrier can be exactly like the one in the Practice known, with a chain-like construction units with reed contact carriers as a long band are supplied, of which for each level transmitter cut the required length of the reed contact carrier becomes. Since in the reed contact carrier according to the invention Reed contacts not in the longitudinal direction of the reed contact carrier gers, but obliquely to its main direction of extension are aligned in the longitudinal direction of the reed contact carrier are arranged closely one behind the other, so that with the reed contact carrier according to the invention Let the level sensor be reached with high resolution. Due to the plastic overmolding of the reed contacts and the associated resistances are very weak Manufacture level insensitive sensors.

The reed contact carrier is particularly inexpensive adjustable if according to a development of the invention the conductor tracks from a ladder-like metal grid ge forms, the longitudinally extending webs form the conductor tracks and its ladder rungs bil End crossbars after fitting with reed contacts and the generation of the plastic extrusion was removed the.

All required electronic components are well ge protects and is insensitive to vibrations on the reed contact held sluggish when the connecting the conductor tracks Plastic overmolding at the same time in addition to the reed  contact one or more resistors at a time encase.

The handling of the reed contact carrier during its manufacture position is particularly easy when along a lei or the carrier after the overmoulding of the reed con clocks and resistors to be removed holding bridge hen is.

The required resistances can be easily to be attached to the reed contact carrier if the Reed contact carrier formed by punching, for opening taking the resistors out of the level of the carrier has curved retaining tabs.

The second problem, namely the creation of a Method for producing a be for a encoder agreed with a series of one above the other Reed contacts equipped reed contact carrier is invented solved according to the following steps:

• a) A ladder-like metal grid is made of sheet metal punches which two longitudinally running conductors tracks and rung-like, connecting the conductor tracks Has crossbars.
• b) The conductor tracks are between the crossbars the reed contacts bridging the conductor tracks.
• c) The reed contacts are with one up to the conductor provided plastic encapsulation.
• d) The crossbars between the conductor tracks are ent distant.

Such a method can be carried out very inexpensively and results in reed contact carriers, which are rolled up as a tape can be, of which the required length can be separated for a reed contact carrier. By the oblique arrangement of the individual reed contacts follow these very closely one behind the other, so that one achieve a high resolution with the travel sensor formed leaves. The plastic extrusions lead to a good one Protection of electronic components and to a large Vibration insensitivity. The Wegge invention ber is particularly suitable as a level sensor at which the magnetic carrier is a float.

To further reduce the cost of the proceedings it if in every plastic extrusion at the same time for each reed contact has one or more resistors be injected.

The resistances required can also cost be mounted cheaply if to accommodate the contr stands in the metal grid through punched holding tabs generated and bent up from the plane of the metal grid will.

The invention allows numerous embodiments. To there is a further clarification of their basic principle of shown in the drawing and will be below wrote. This shows in

Fig. 1 is a vertical section through a constructed as a level sensor encoder using the inventive reed contact carrier

Fig. 2 shows the reed contact carrier without electronic components,

Fig. 3 shows the bestück th electronic components Reed contact carrier,

Fig. 4 the plastic molded reed contact carrier.

Fig. 1 shows a level sensor designed as a level sensor, which has a magnet 1 , 2 , 3 , 4 verse hen designed as a float magnetic carrier 5 , which is movable depending on a level to be measured along a protective tube 6 . In the protective tube 6 there is a reed contact carrier 7 , which has two longitudinally parallel conductor tracks 8 , 9 , which are bridged by a plurality of tracks 8 , 9 arranged obliquely between the conductors, plastic-coated components 10 .

The reed contact carrier 7 is formed from a ladder-like metal grid shown in FIG. 2. The conductor tracks 8, 9 form with him running parallel to the longitudinal webs, which by an angle to this and parallel to each other the transverse webs 11, 11 a connected to each other. Hal telaschen, such as the retaining tabs 12 , 13 are produced by punching 14 , 15 . They are later bent out of the plane of the metal grid and serve to accommodate resistors 16 and 17 shown in FIG. 3.

Fig. 3 shows the electronic components be with tipped teeth reed contact carrier 7. It can be seen that in each case a resistor 16 connects the retaining tabs 12 , 13 to one another, so that the conductor track 8 represents a continuous connection. The conductor tracks 8 , 9 are bridged by diagonally extending reed contacts 18 , 18 a over them. Parallel to the reed contacts 18 , 18 a, the cross bars 11 , 11 a run between them, which must be removed at the end of the manufacturing process, so that the conductor tracks 8 , 9 are not short-circuited via these cross bars 11 , 11 a. On the left edge of the reed contact carrier 7 , as seen in FIG. 3, a holding bar 19 runs over its entire length and is used for its handling during manufacture.

After the mounting of the reed contact carrier 7 with the reed switches 18 and resistors 16 and 17, a reed switch 18 having a resistor 16 and 17 is depending weils coated with plastic, so that the components shown in Fig. 1 are formed 10th In Fig. 4 is shown by a Schraf for that after the encapsulation of the construction parts, the retaining strip 19 and the crossbars 11 are removed, so that the reed contact carrier is functional.

List of the reference symbols used

1 magnet
2 magnet
3 magnet
4 magnet
5 magnetic carriers

6 protective tube
7 reed contact carrier
8 conductor track
9 conductor track
10 component

11 crossbar
12 retaining tab
13 retaining tab
14 punching
15 punching

16 resistance
17 resistance
18 reed contact
19 retaining strip

Claims (8)

1. For a displacement sensor certain, conductor tracks have the reed contact carrier with stacked reed contacts, which can be actuated by a movable along the reed contact carrier, at least one magnet have the magnet carrier, characterized in that the conductor tracks ( 8 , 9 ) each self-supporting from Me tall are formed, are parallel to each other over the length of the reed contact carrier (7) and bridged by the reed contacts (18), each Reedkon clock (18) obliquely to the conductor tracks (8, 9) aligned, and within a bridge-like conductor track (8) to the conductor ( 9 ) reaching plastic encapsulation is embedded tet. 2. reed contact carrier according to claim 1, characterized in that the conductor tracks ( 8 , 9 ) are formed from a Leiterar term metal grid, the longitudinally extending webs form the conductor tracks ( 8 , 9 ) and the cross bars ( 12 , 12 a) were removed after assembly with reed contacts ( 18 ) and the production of the plastic extrusion coating. 3. reed contact carrier according to claims 1 or 2, characterized in that the interconnects ( 8 , 9 ) connecting plastic extrusion coating at the same time in addition to the reed contact ( 18 ) each a resistor ( 16 , 17 ) or several resistors ( 16 , 17 ) . 4. reed contact carrier according to at least one of the preceding claims, characterized in that along a conductor track ( 8 , 9 ) of the reed contact carrier ( 7 ) after the overmolding of the reed contacts ( 18 ) and resistors ( 16 , 17 ) to be removed retaining strip ( 19 ) is provided. 5. reed contact carrier according to at least one of the preceding claims, characterized in that the Reedkon tact carrier ( 7 ) formed by punchings ( 14 , 15 ), for receiving the resistors ( 16 , 17 ) from the plane of the reed contact carrier bent out retaining tabs ( 12 , 13th ) having. 6. A method for producing a reed contact carrier intended for a displacement sensor and equipped with a series of reed contacts arranged one above the other, characterized by the following method steps:

• a) A ladder-like metal grid is punched out of sheet metal, which has two longitudinally extending conductors and rungs-like crossbars connecting the conductor tracks.
• b) The conductor tracks are fitted with reed contacts bridging the conductor tracks between the crossbars.
• c) The reed contacts are provided with a plastic encapsulation that extends up to the conductor tracks.
• d) The crossbars between the conductor tracks are removed.

7. The method according to claim 6, characterized in that in every plastic coating for every reed con a resistor or several resistors clocks in be injected. 8. The method according to claims 6 or 7, characterized ge indicates that to hold the resistors in the metal lattice produced and punched out by punching out holding tabs be bent up to the level of the metal grid.