DE1104593B - Process for manufacturing small potentiometers and subsequently manufactured small potentiometers - Google Patents

Description

Process for the manufacture of small potentiometers and manufactured thereafter Small potentiometer The invention relates to a method for producing small potentiometers and then made small potentiometers that have an elongated ceramic Have body with provided on this bearing blocks and a spindle that with a contact arrangement cooperates and this along the on the elongated Body attached resistance element moves, with those at the ends of the spindle provided journals rest in bearings contained in the bearing blocks.

According to the invention, it is proposed that such small potentiometers manufacture by first metallizing the bearing blocks in a fixed manner, that the spindle with respect to the ceramic body and the bearing blocks means an auxiliary device is aligned, the journals of the spindle in the bearing blocks protrude, and that the pin with molten bearing material with a relatively low melting point, the bearing material has a bond with it the metallization of the bearing blocks.

According to a further embodiment of the invention, a strip of conductive material and a strip of resistive material on top of the ceramic Body applied and burned in, the burning of the toppings at the same time as the Burning of the metallic coating on the bearing blocks takes place.

The small potentiometer produced according to the invention is after a special embodiment of the invention designed so that on the one with the Bearings cooperating end of the spindle are provided alternately grooves and beads are so that a labyrinth is formed during the manufacture of the bearing.

The invention provides a small potentiometer made of ceramic material has been created that meets all requirements for resistance and temperature resistance corresponds particularly well. Furthermore, the small potentiometer is free from harmful ones Vibration effects and also facilitates heat dissipation from the resistance elements to the carrier. The use of the cast bearing construction enables one to be made high quality, accurate and durable circuit element with a minimum space requirement at minimum costs.

Further features of the invention emerge from the description, and exemplary embodiments of the invention are described with reference to the drawings. In the drawing, Fig. 1 is a perspective view of a preferred embodiment of the invention with part of the housing omitted; _ Fig. 2 is an enlarged Cross section along the line 2-2 of Fig. 1, Fig. 3 is a cross section along the line 3-3 of FIG. 2, FIG. 4 shows a section along the line 4-4 of FIG. 2, FIG. 5 shows a section along the line 5-5 of FIG. 2, FIG. 6 is a section similar to that of FIG the potentiometer according to the invention in one stage of the manufacturing process 7 shows a representation similar to FIG. 6, which shows the potentiometer in FIG shows a further stage of the manufacturing process.

The small potentiometer produced by the method of the invention consists of an elongated body 10 with a central part 11 and the upstanding end parts 12 and 13, the bearings 14 and 15 housed in the end parts 12 and 13, a rotatable setting shaft 16 resting in the bearings and with a contact block 17 carried by the adjusting shaft. On the central part 11 of the body 10, an elongated resistance element 20 and an elongated electrically conductive element 21 are mounted next to one another. The body 10 is preferably made from a single piece of ceramic material. Resistive element 20 may be a wire-wound resistor, a molten resistor, a deposited film, or any other suitable resistor, the embodiment of the resistor in which a deposited film is fused onto a ceramic body is suitable. Embodiment is particularly suitable. The electrically conductive element 21 can also be made from. exist in various known embodiments, a silver film fired onto a ceramic body being preferable.

The adjustment shaft 16 can be rotated from the outside, for what purpose a screwdriver slot 23 is provided on the head 22 of the shaft. This head sticks out through the bearing 14 from the potentiometer to the outside. A middle part 24 of the shaft 16 is threaded, while the block 17 has a corresponding bore 25 so that rotation of the shaft moves the block along the central portion of the body shifts.

On the underside of the contact block 17 (Fig. 2 and 3) is a plate 28 made of electrically conductive material clamped by means of two U-shaped pins 29, 30, which pass through four vertical openings 31 in the contact block and at the The tops of the openings are folded over to secure the ends in place. ' The contact block 17 is preferably electrically insulating from a single piece Materials, e.g. B. made of plastic, to the resistance and the conductive Electrically isolate element from the shaft. The plate 28 consists of an elastic Material and is provided at one end with a number of fingers 32 which are bent substantially to the shape shown in Fig. 2, the Fingers due to the elasticity of the material in contact with the resistance and the conductive element are pressed. On opposite sides of the contact block 17 the downwardly projecting rails 33, 34 are provided, their lower edges have a small distance from the resistance and the conductive element. Will rotated the shaft 16 to slide the contact block, it contacts one of the slide rails one of the elements and prevents corresponding rotation of the contact block.

In the 'middle part 11 of the body 10 are near the ends of the Resistance and the conductive element openings 36, 37 and 38 are provided, the with the top of the central part 11 and a groove 39 in communication, the extends in the longitudinal direction on the underside of the body 10. In the openings 36, 37, 38, the connecting pins 40, 41 and 42 are inserted, the pin 40 is connected to the conductive element 21, for example by soldering, while the Pins 41 and 42 on each end of the resistor element by suitable means are connected. Connecting wires are attached to the other ends of the pins 40, 41, 42 43, 44, 45 connected, after which the pins are bent by 90 °, as in Fig. 2 so that the wires lie in groove 39 and from the end of the potentiometer protrude from.

The pins 40, 41, 42 can be held in place by soldered connections connecting them to the resistive and conductive element. One preferred embodiment of the construction provides for the use of pins, which are coated with a material such as silver that is adhered to the body 10 can be brought. The coated pins are inserted into the openings 36, 37, 38 introduced and the whole thing fired at an elevated temperature, the coating with the walls of the openings and the pins enters into an adhesive bond, with a long, sealed connection is made between each pin and the body.

The pins that are stuck in place can now be sent to the resistance and the conductive element are soldered on. Is that resistance and / or the conductive element produced by precipitation on the body and, as described above, fired, these elements can be fired before each firing placed over the ends of the pins. After that, the items and the pins Fired in one operation, the components being electrically connected to one another and the above-mentioned solder connections are avoided.

The ends 12 and 13 of the body 10 have openings or saddles 48 and 49 to receive bearings 14 and 15. According to the preferred method of manufacture of the potentiometer, the saddles 48 and 49 are covered with a layer 50 of metallic Material, such as silver or the like. Lined, which layer on the body in known In a manner created by applying a film of material to the body, whereupon the whole thing is fired at an elevated temperature. The layers 50 in the bearing saddles, the pins 40, 41, 42 and the resistive and conductive elements 20, 21 can can be applied to the body and burned together, leaving a saving at Time and manufacturing costs arise. Fig. 6 shows a body 10 on which the Resistive and conductive elements 20 and 21, respectively, pins 40, 41, 42 and the Bearing saddle layers 50 are attached. The shaft 16 with the contact block resting on it 17 is in the bearing saddles, as shown in FIG. 7, by means of a suitable clamp 51 aligned. The open ends of the bearing saddles are held by removable plates and a molten bearing material, such as one poured into the bearing saddles Lead-tin alloy, completed. The shaft 16 is made of a material with a relatively high melting point, such as stainless steel, so that the molten Material does not adhere to the shaft, but does adhere to the layers 50 in the bearing saddles. After the bearing material has hardened, the end plates and the clamp are removed 51, and the shaft 16 is rotated to release it from the bearings.

One end of the shaft 16 is provided with a number of grooves 54 and beads 55 provided, which serve as a thrust bearing after casting around the bearing and an axial one Prevent movement of the shaft with respect to the body. Although a single groove would suffice is to use a number of grooves, as in the Fig. 2, preferable, as these act as a labyrinth and the possibility the penetration of dirt and moisture into the inside of the potentiometer lengthways the adjustment shaft. The other end of the shaft is preferably cylindrical formed and does not protrude beyond the bearing 15. When the bearings poured out -, the metal shaft 16 expands more than the ceramic body 10, wherein after the unit has cooled down between the bearing 15 and the end of the puppy a small gap 56 forms. This margin is of value in the work of the potentiometer at elevated temperatures, with no bending due to differential expansion of the individual elements.

The potentiometer that comes from the body, the bearings, the shaft, the Contact block, the resistor and the conductive element with the attached Wires consists, represents a complete unit ready for use. Since the Wires extend from one end of the unit and the setting on the other At the end of the unit, there is the option of a number of units assemble mechanically next to and / or one above the other, wherein one compact arrangement is created which allows a number of electrical settings allows. A method of attaching the potentiometer is shown in the drawing, parallel openings 66 and 67 are provided in ends 12 and 13 of the body which are transverse to the longitudinal axis of the body. A number of equal potentiometers can be mounted horizontally on two long screws running through openings 66 and 67 be lined up. In the same way a number of potentiometers can be perpendicular be arranged, with each potentiometer on a vertical mounting plate with the help of two screws running through the openings 66 and 67 can.

In the illustrated embodiment, there is an open-ended housing 68 provided, which can be swiped over the finished potentiometer and the has a cross-section substantially that of ends 12 and 13 of the body is equivalent to. In the housing there are four openings corresponding to openings 66 and 67 69 is provided through which the screws 70 for fastening the housing to the body and / or for fastening the potentiometer as described above can.

The housing 68 is preferably held slightly longer than the body 10, as shown in Fig. 2, creating at each end of the enclosed potentiometer a cavity is created in which a caulking compound is placed at each end of the unit 71 can be poured in to seal against moisture and dust. At every Inside of the housing, which has the openings 69, or to the corresponding Sides of the body 10 is attached a layer 72 of elastic adhesive tape, the one corresponding to the openings 66, 67 and 69, but preferably somewhat smaller Has openings, the tape as a moisture and dust seal around the screws running around through the openings. This tape is preferred Made of thin material with good mechanical, elastic and electrical insulating properties at high and low temperature limits.

Another protection against moisture and dust is provided by the labyrinth commanded between the shaft 16 and the bearing 14, as already mentioned, as well as by the Solder joints that connect the pins or wires to the resistive and conductive elements connect and the openings 36, 37 and 38, as can be seen from FIGS is to be filled in completely. If desired, a housing similar to housing 68, however, sized for two or more potentiometers, used and described in the above Way to be sealed against moisture and dust.

According to the teaching of the invention, suitable potentiometers can be produced whose overall dimensions are less than 8X8X32 mm.

Claims (11)

PATENT CLAIMS: 1. Method for manufacturing small potentiometers, which have an elongated ceramic body with bearing blocks provided thereon and have a spindle which cooperates with a contact arrangement and this moved along the resistance element attached to the elongated body, wherein the pins provided at the ends of the spindle are contained in the bearing blocks Storage rest, thereby gckennzeichpet that the bearing blocks are first firmly metallized that the spindle with respect to the ceramic body and the bearing blocks is aligned by means of an auxiliary device, the pins of the spindle in the bearing blocks protrude, and that the journals with molten bearing material be cast around with a relatively low melting point, the bearing material enters into a bond with the metallization of the bearing blocks. 2. The method according to claim 1 or one of the following claims, characterized in that the metallization the bearing blocks are carried out by applying a metallic coating, which is then is burned. 3. The method according to claim 2, characterized in that a strip of conductive material and a strip of resistive material on top of the ceramic Body applied and burned and that the burning of the coverings at the same time the burning of the metallic coating on the bearing blocks takes place. 4. potentiometer, which is produced by the method according to any one of the preceding claims, thereby characterized in that at one end of the spindle which cooperates with the bearing (14) (16) alternating grooves (54) and beads (55) are provided so that the Making the camp forms a maze. 5. Small potentiometer according to claim 4, characterized in that the bearings (14, 15) in U-shaped bearing openings (49, 48) are cast. 6. Potentiometer according to claim 4, characterized in that the ceramic body in the vicinity of each of said bearing openings transversely to the longitudinal axis of the body has openings and that the body of a housing (68) is enclosed with opposing holes on each of the above openings are aligned. 7. Potentiometer according to claim 6, characterized by one extending through each of said aligned openings Screw (70), through strips of an elastic band (72) between the sides of the body and the opposite inner walls of the housing, which are the one another have opposite openings, are arranged and the there extending therethrough Seal screws, and entered through one in each of the cavities mentioned Sealant (71). B. Potentiometer according to claim 4, characterized in that the contact arrangement consists of a block (17) with rails (33, 34) which guided by the elongated body and a rotation of the contact block in Prevent with respect to the body, and that on the contact block an electrically conductive Grinder device (28) is attached to the resistor element and the conductor element is present. 9. Potentiometer according to one of claims 4 to 8, characterized by a groove (39) provided on the underside of the body, which is connected to the resistance and is in communication with the conductor element as well as with the other end of the body, in the several electrical conductors for the connection of said elements to a electrical circuit are arranged. 10. Potentiometer according to claim 9, characterized characterized in that the elongated body has a plurality of connection openings, in each of which a connecting pin made of conductive material is burned, one of which Terminal pin with the Covering of the conductive material and two connecting pins connected to the coating of the resistance material at points that are distant from one another are. 11. Potentiometer according to claim 10, characterized in that the connecting wires are in direct connection with the conductive and the resistance element. References considered: U.S. Patent Nos. 2,777,926, 2,668,218, 2,799,757.