DE1816772C3 - Adjustable resistance - Google Patents

Description

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Prevents pins from getting into the opening. In this way there are no special measures to achieve a constant depth of insertion of the connecting pins into the base plate is required, and this results in a additional stabilization of the connection pins in the openings.

The invention is explained in more detail below with reference to the drawing of an exemplary embodiment explained in the drawing shows

Fig. 1 is a perspective view of an embodiment an adjustable resistor,

F ^ i g. 2 a section through the adjustable Resistance according to F *. G. 1"

F i S- 3 an aweinaj- ^ r drawn view of the adjustable Resistance «· r.-h F i g. I,

Fig. 4 a ver & riuk.u. Top view of part of the base plate ΐ · setting resistor according to FIG. 1, with Tc.ie removed and broken away,

F i ε. 5 ejp ■ .. section along the line V-V after

Fig. 4,

Fig. 6 is a plan view of another embodiment a contact device for a setting resistance according to Fig. '.

In the drawing, an adjustable resistor generally designated 10 is shown. As best seen in Figures 2 and 3, a central opening closure wall 11 forms a bearing surface 13 at one end of a housing 12. An elastic member in the form of an O-ring 14 is compressed against the bearing surface 13 pressed, through the top I6a of the drive device 16 for the contact device. The drive device 16 is carried by a collector 17 which engages the contact device 18. In order to increase the pull-out strength of the collector 17, a shoulder 17a is formed thereon, which acts on the upper side 19a of the base plate 19, which closes the open end of the housing 12. From the housing 12 protruding tabs 21 are placed around recesses 196 in the base plate Ϊ9 and hold the housing 12, the drive device 16, the contact device 18, the collector * ^nr i * i ¹¹ IkI the GniHd ⁿ i2 * ts 19 in the assembled state . In order to connect the adjustable resistor 10 to an external electrical circuit, the connection pins 22 and 23 are electrically connected to the ends of an arcuate resistance layer 24 which is suitably attached to the top 19a of the base plate 19, with a connection pin 176 is formed integrally with the collector 17. The top 19tz of the base plate is beveled around its edges so as to form an effective distance between the resistive layer 24 and the housing. In the illustrated embodiment, if the material used to form the resistance layer covers the surface 19a of the base plate up to its edges, an air gap 20 (see Avoid housing.

The contact device 1§ is equipped with an elastic arm iea, which has a slider iod * in order to produce an electrical sliding contact with the arcuate resistance layer 24. An actuating device 6e which is suitable for receiving a tool extends through the closure wall 11 of the housing 12, which is provided with an opening, which is formed in one piece with the drive device 16 and is rotatable outside the housing. For example, other suitable tool receiving devices such as a base or a groove can also be formed in the upper style loa xo of the drive device 16 in order to adjust the drive device within the housing 12 by rotating it. A projection 16 / formed in one piece with the drive device 16 interacts with a stop 12a formed in the wall of the housing 12 in order to limit the angular rotation of the drive device 16 with respect to the housing 12.

Furthermore, between the contact device 18 and the drive device 16 - see in particular FIG. 3 - Rotary locking devices provided to move the slider 18 d along the resistive layer 24 / Oi. In the preferred exemplary embodiment, these devices have openings 186, 18c provided in the contact device LS , and also protrusions 166, 16c formed in the bottom top side of the drive device 16. To reduce electrical and mechanical noise during operation of the adjustable resistor, a preferred embodiment of the grinder 18d "has a carbon button 26 with a slightly rounded contact surface 26a to promote proper alignment with the resistive layer during initial assembly. The bottom surface 16a "of the drive device 16 is - as shown at 16t - tapered in order to form a recess either for the shaft of the carbon button 26 or the ends of grinding tongues, if tongues are used instead of the carbon button, which is described below in connection with FIG. 6 will be described in detail later.

After applying the arcuate resistive layer in a suitable manner - to one known in the art Art-lh the top 19a is attached to or connected to, are attached to the base plate two connecting pins 22 and 23 attached. As can best be seen in FIGS. 3 to 5, is in the base plate 19 a non-circular, tapered opening 27 is formed for each connection pin 22 and 23. the round connecting pins 22,23 are in the tapered openings 27 from the bottom of the base plate 19 driven forward, and if shoulders 22a, 23 are provided, they abut the Floor surface of the base plate in the contact zones 27 a. In addition?. To prevent a too deep Insertion of the pins 22,23 results in the enlarged contact surface of the shoulders a stabilization of the Connection pins in the base plate.

It was stiffened that round connecting pins 22, 23 into the opening; i 2 "> parts of the pins are deformed by flattening and at least partially coincide with the inner shape of the openings. It has been established that this result occurs when when the terminal pins are formed from a material which is softer than the held of the base plate S9. in such an arrangement the Anschlußsti.i ^p are safe in the base plate and are by exhaustion

I 816 772

Forces in the range of 5.45 kp, if connecting means are to be used, preferably the connection pins are made of tinned, semi-hard cir-, the film is made of a solderable material, such as conium copper wire with a diameter of 0.558 mm, for example, platinum gold,
The base plate consists of 1.78 mm. In the exemplary embodiment, the collector thickness is hard aluminum oxide and the pins 17 are relatively loose from the base plate 19, openings are square, a taper of unsupported. ! Since the shoulder 17a of the own Kollcktorstjftes 17 dangerous 2 ° and rests against the upper side of the base to UCF ^ top 9a of the base plate 19, is plate has a dimension of 0,374mmim square up the: Kpllcktörcndtöil 176 also by a zufricweisen. After the connection pins have been attached to the plate at the pulling force connector, a soldering point 28 or a dot is recognized in FIG Conductive material on top of the basic-pressed state. Since the contact area between plate 19 is relatively small, in order to enlarge the pull-out spring contact device 18 and the collector pin 17 with the arcuate resistance layer 24, the force per surface centric is to be connected via the conductive films 24a, 24b unit of the contact surface between the collector. In many uses, it is important that the port and the contact device do not have the connecting pins relatively over the top of the large, which project a good electrical connection between the base plate. Since the center of the collector can best be seen in FIGS. 4 and 5 - the ends of the connecting pins 22, 23 arranged above the adjustable resistor 10 are straight at 20, the drive device 16 is essentially or somewhat below the top of the base. Plate 19 from the collector at a distance from the base plate 19, with the pull-out held to enlarge the extension. Accordingly, the base plate cannot cause rigidity of the connecting pins, the resin, or the abrasion of the driving device. Solder 28 the space between the walls when this is rotated, so that even small ones of the opening and the connecting pins can not fill up. »5 particles of foreign matter within the adjustable

As can best be seen in FIGS. 2 and 5. W mind are generated.

are the conductive films 24a, 24b laterally opposite the compressible O-ring 14 causes with-

the path of the resistive layer 24 offset. In terms of its spring properties, once a desirable

Such an arrangement is possible - if there is friction between the housing 11 and the drive mechanism

desired - the connecting pins 22,23 actually 3 ° direction 16 and on the other hand in cooperation

to be used in such a way that their end parts are connected to the spring of the contact device 29 by a coupling

Upper section 19a of the base plate 19 passes between this and the drive device,

stretch without getting in a disruptive path with the In Fig. 6 is a further embodiment

To be located wiper of the contact device. When a contact device is shown- The contact-

the connecting pins over the top of the base device 29 has locking openings 29b

Plate protrude, so the ends of the pins and29c can and is similar to the whole of those in Fig. 3

are deformed or the solder ring formation can be shown contact device 18. The elastic

However, arm 29 a has a wiper portion 29 rf in any of the ways described above

be taken. Although for the conductive fiI- on, which has two tongues or fingers 29e, the

me 24α, 246 use any suitable material 40 for grinding engagement with the resistance layer

can be det, then if a plumb bob shall serve ah.

1 sheet of drawings

Claims (3)

i 816 772 J ι 2 end of the connecting pin deformed by riveting Patent claims: or is bent in some other way. With this type of fastening of the connecting pins, the connection 1. Adjustable resistor in one housing. riveting or bending is done very carefully, as this is done on one side with a base plate made of Iso-5, especially with fragile materials such as e.g. B. Kersioff is closed, on whose the housing ceramic material the riveting or bending force exerted inner facing inner side must not be too high and on the other hand an adequate resistance layer is arranged, which is covered by sufficient pull-out strength and a sufficient contact pressure to a grinder between the connecting pins and their both ends with metallic anio the resistance element must be reached.
In order to secure the connection pins in the base plate through openings in the base plate from the inside, attempts have also been made to stretch the inside of the base plate to the outside of the connection pins during the manufacture of the base plate by deforming them to be molded with the. In this case, however, there are difficulties in engaging parts in the baseplate which are anchored in the subsequent manufacturing processes, characterized, for example, by the application of the resistance element, which is characterized by the ceramic elements on the baseplate and similar manufacturers -Eischem material existing base plate (19) Iungssteps. In addition, this molding-in extending openings (27), which have a cross-section that does not differ from that of the connecting pins in the base plate in all circular shapes, is possible. and taper, the two connecting pins. The object of the invention is to provide a (22, 23), the material of which is softer than that of the adjustable resistance of the type mentioned at the beginning The base plate (19) is to be created with its openings in which the connecting pins have a high (27) of the base plate have deformed pull-out strength and in a simple given Sections in this finally flush with her 35 possibly automatic manner with the base plate are anchored and can be connected by a bond adhering to them, there being no risk that ter (28) with the ends of the resistance layer these connecting pins by vibrations or shock (24) are connected. burdens are loosened or relaxed. 2. Adjustable resistor according to claim i, this object is thereby achieved according to the invention characterized in that the two openings 30 dissolve into which are made of ceramic stomach (27) a square, the connecting pins materially existing base plate extending opening (22,23) have a round cross-section. genes that deviate from the circular shape 3. Adjustable resistor according to claim 1 have cross-section and taper, the two or 2, characterized in that the in the connecting pins, the material of which is softer than that of the Base plate (19) protruding and the outer base plate is, with its in the openings of the half of the base plate (19) located from the base plate located deformed sections in Sections of the connecting pins (22, 23) are anchored by each of these so that they are flush with it Weil formed on them shoulder (22α, 23σ) and by adhering to them conductors with the ends are separated. the resistance layer ν are rbonded. 40 In this way it is possible to change the connector pins after the final production of the base plate together with the counter Stand element to connect in a simple manner, due to the non-circular shape 45 of the openings of the base plate results in a deformation of the end parts of the connecting pins, whereby these in anchored to the openings. Due to the de- The invention relates to an adjustable flow of the end portions of the connecting pins results in a Resistance in a housing that is on a side with very secure mounting and anchoring of the anaer Base plate made of insulating material is closed, 50 circuit pins in the base plate, which lead through the their inner ends facing the inside of the housing on the base plate and the end parts of the side an extensive resistance layer arranged connection pins attached conductors enlarged even further net, which is contacted by a grinder. £ trich £ 2 and both ends? N>! metallic According to ^v or * ei! h? ft ^p n Au ^ei "^'sta! IYN ^o d ^pr seen pins are electrically connected, the 55-making, the two openings see one through openings in the base of the home ° quadratisich The connection pins cut a round transverse side of the base plate to the outside of the base plate. In this way, a high degree of extension results from deformations of the part of the base plate which is in engagement with the base security against destruction of the base plate material when the connection pins are inserted as well as a kert. 60 high pull-out strength of the connection In the case of a known adjustable resistor, the pins. of this type (U.S. Patent 2,917,721), the In a preferred embodiment of the invention Connection pins loosely in the circular training is provided that the openings in the base plate the base plate and have protruding legs and the legs outside the base plate Abutment shoulder on the one surface 65 finite sections of the connecting pins by a the base plate rests, while they are separated by the shoulder formed on them. Base plate and the resistance element on the an- By this shoulder that against a surface of the whose surface rests against the base plate protruding from the base plate, too deep insertion of the