DE1080662B - Electric push button switch, especially for controlling machine tools - Google Patents

Description

GERMAN

The invention relates to electrical tappet switches, in particular for controlling machine tools.

These switches have a switching pin, which is made of insulating material and slidable on it Socket carries. One or more contact bridges with fixed, mating contacts attached to the insulating material base work together. In this pedestal that is on somewhere or is fastened in the machine, the switching pin is together with the socket and the contact bridges mounted so as to be axially displaceable against the force of a return spring. The shift pin is through the Cam of a "control shaft by means of stops or the like attached to a movable machine part Means actuated. When the switching pin is moved, they act as normally closed or normally open contacts switched contact bridges any required for the desired workflow of the machine On, off or switchover. The switching bridges are preferably against each other on the insulating bushing arranged resiliently and axially displaceable, they are by a spring which is in contact position of the Contact bridge generates the Kontaktanpreßdr.uck and a further shift of the switching pin as well after the contacts are made, in the rest position against a stop on the insulating material bushing pressed.

In such tappet switches with several pairs of contacts, which can be both working and break contacts, is also in many areas of application a mutual adjustment of the contacts to each other is necessary. So it should z. B. only the switching point the one of two contact bridges can be changed to certain gradations in the contact sequence to reach. For example, in the case of electrical control of a machine tool table, the one electrically switched coupling each can be moved in rapid traverse or at feed rate can, through a cam or stop acting on the thrust switch, first by opening one NC contact, the rapid traverse clutch is switched off, so that the table speed up to the feed speed sinks. After a certain distance covered at the feed speed, the sometimes only a few millimeters or only a fraction of a millimeter is over a second Normally closed contact also switched off the feed clutch and the table stopped. Especially when the stopping accuracy should be very high, a very low feed rate is selected, z. B. 6 mm / min. If the changeover from rapid traverse to feed speed is only carried out by 1 mm too early, then by moving back the

Electric plunger switch,

especially for the control

of machine tools

Applicant:
Kurt Maecker, Düsseldorf, Oststr. 119

Claimed priority:
Exhibition at the opened on April 29, 1956

German Industrial Fair Hanover 1956
(Technical fair - sample fair) in Hanover

Kurt Maecker, Düsseldorf,
has been named as the inventor

A loss along the way with the feed rate

αφ of 10 seconds. The switching point of the first contact, which in itself has no influence on the dimensional accuracy of the workpiece produced, must therefore be able to be adjusted with a high degree of accuracy compared to that of the second contact.

For this purpose, the known plunger switches are fastened in the insulated base Mating contacts screws are provided through which the switching point of these contacts is independent of others Contacts of the same switch can be set. Except for the little screws and the associated threaded holes are difficult to manufacture and difficult to access, is the achievable one Setting accuracy is not great, especially since both mating contacts of a contact bridge are adjusted evenly Need to become.

The amount of adjustment in these known switches is also not adjustable.

Finally, in addition to the contact adjustment, a bolt adjustment is also often desired. With the known Switches are provided with a screw in the bolt head. There is a risk that this screw is adjusted when the bolt head is approached from the side. With a different plunger switch design a switch pin is provided, which protrudes with its rear end from the housing and there has a knurling to it in the bolt head provided with an internal thread against the To screw in or out the pressure of a special spring, whereby the bolt head does not rotate

009 507/320

bar is guided in the housing and depending on the setting protrudes more or less far from the housing. To secure the setting, notches offset by 120 ° are provided on this switch, creating a Setting secured against rotation is only possible in certain stages. There is also the Possibility that the setting accuracy is impaired by the locking mechanism.

Furthermore, various switches have become known, where there is the possibility of the rear Make an adjustment of the switching bolt at the end of the switch outside the switch housing. Indeed If these constructions are not tappet switches as they are described here, but about heat relays or switches of other constructions.

To avoid these difficulties, the object underlying the invention is a To create plunger switches with mutual adjustment of the contact bridges to each other, thereby solved that the abutment of a contact bridge in its open position by a shoulder of the insulating bush and the abutment of the other contact bridge in the same case by one on the insulating material socket sliding sleeve is formed.

The socket or the sleeve is opposite to the switching pin that remains in its position this rotatable, tubular sleeve, which is provided with an adjusting thread and through the rear Transverse wall of the insulating base is led out to the outside, axially adjustable.

When the tubular sleeve is rotated, either the insulating material bushing or the sleeve and at the same time the switching point of the contact bridge whose stop forms the part in question, changed without influencing the switching point of the other contact bridge. In the former case (Fig. 2) the sleeve with internal thread is unscrewed onto the switch pin and lies with its inner end on the adjustable insulating material bushing on the switching bolt.

In the latter case (Fig. 3) the sleeve is on the end of the insulating material bushing that faces away from the switch bolt head pushed on and connected to a bracket bent at right angles, its bolt to the switchgear vertical leg provided with a threaded hole onto the externally threaded sleeve is screwed on. One end of the sleeve lies over a loose disk on the insulating material bushing and at its other end to an adjusting screw of the shift bolt. So the sleeve is opposite axially fixed to the shift pin. When the sleeve is rotated, the bracket and at the same time also the insulating sleeve as well as the adjacent contact bridge on the Isolierstoffbuch.se, the all contact bridges carries, shifted axially. Since the other of the spring-loaded contact bridges is in If the rest of the time remains calm, a mutual adjustment of the contact bridges to one another is effected.

In order to be able to precisely determine and read the amount of adjustment, the wears through the transverse wall of the Isolierstoffsockels led out to the outside part of the sleeve according to the invention a scale with a marking cooperates in the bulkhead.

There are already switches with push actuation and fine adjustment of the contact path Scales have been attached, but these are not switches according to the invention. Such a Nonius offers the possibility to carry out the adjustment, which often has to go up to V100 mm and is precisely adjustable for the limit switches that are the subject of the invention must be of crucial importance.

A rotation of the bracket during the rotation of the tubular for the purpose of adjustment To prevent the sleeve, the bracket in the insulating material base can only be displaced parallel to the switching bolt guided. The tubular sleeve is expediently provided with a head at its rear end, which has a tool engagement surface or a knurling for manual adjustment and on the the above-mentioned scale is attached to precisely determine the adjustment.

In addition to the setting of the contact sequence achieved by the invention, there is often also a simultaneous setting Adjustment of the switching times of several contact bridges is desirable because the particular Switching accuracy required by the push switch when shutting down electrically controlled machine tools from 0.1 mm down to 0.01 mm naturally not achieved when the switch is installed can be. One must therefore either the operating cams or stops for the switch after this is permanently installed, grind accordingly, which is very cumbersome and time-consuming and also is required again after a possible replacement of a worn or damaged switch; or you can use special built-in slides that consist of two mutually guided parts from one is attached to the machine while the other carries the switch. The switch bearing carriage can be compared to the first part by a sensitive adjustment device, for. Legs Screw or an eccentric. These built-in slides require a relatively great additional effort and increase the space requirement of the switch; their installation requires additional Expenditure of time.

In addition, there is the already mentioned plunger switch that can be adjusted from the outside and behind in certain steps known, which, however, has a multi-part switch pin and only one rigidly on the sliding insulating material bushing Has attached contact bridge. The adjustment of the shift pin is according to the invention in a simpler way in the construction (Fig. 3), in which the sleeve on the switch bolt head is pushed away from the end of the insulating material socket, solved in that the sliding, the Contact bridges bearing insulating material bushing between a compression spring, which is against a paragraph of the Switching bolt is supported and the preload is greater than the force of the return spring in all positions of the switching pin, and the already mentioned tubular sleeve is clamped. The tubular sleeve is based in this case on an adjusting nut, which is attached to the rear of the tubular Sleeve leading out, threaded end of the switching bolt is screwed on.

The compression spring between the switching pin and the insulating material bushing acts because its tension is applied to each Position of the switch pin is greater than the force of the return spring, in conjunction with the adjusting nut like a rigid connection between these two parts. The relative position of the two parts changes not while the switch is working. By turning the adjusting nut, the switch bolt is with respect to the insulating material socket and thus with respect to the insulating material base, but at the same time also opposite the actuator of the switch, sensitively adjusted in the axial direction. The adjusting nut has

the previously described scale, so that one setting up to Vioo mm is possible. By using- a With the smallest possible pitch, the switch setting can be made to measure with the greatest possible accuracy take place. If the switching pin is adjusted in the direction of its actuating member, it opens of the normally closed contact and the closing of the normally open contact earlier; when removing the shift bolt accordingly, both processes are carried out later by its actuator.

To save space, the compression spring acting on the switching pin and the insulating material bushing is at least housed with part of its length in a spring chamber recessed in the Isolierstoffbuch.se.

Further features of the invention emerge from the description of the exemplary embodiments shown in the drawing emerged.

Fig. 1 shows one of the known plunger switches

The insulating material base 1 is attached to the machine with two fastening screws provided at the front end 21 attached.

In Figs. 2 and 3, the same 5 reference numerals have been chosen for the same parts as in Fig. 1. While in the known switches according to Fig. 1, fixed stops 20 and 18 are provided for both contact bridges 7 and 8 on the insulating material socket, an insulating sleeve 24 is arranged displaceably in the switching element according to the invention on the ίο insulating bushing 6, which sleeve serves as a stop for the one contact bridge 7 and 8, respectively. The other switching bridge is supported in the “open” position against a shoulder 9 of the insulating bush 6.
15 According to FIG. 2, after a certain lead, the sleeve 24 rests under the action of the spring 19 on a snap ring 33 inserted in the switching pin 4. The insulating material bushing 6 and the switching bridge 8 are through a tubular sleeve 28 in the axial direction

two pairs of contacts, above the middle 20 opposite the switching pin 4 and opposite the line in plan view, below the center line in the other contact bridge 7 adjustable. The sleeve 28 is Section through the shift pin axis; with an internal thread 27 on the

Fig. 2 shows a switching bolt 4 provided with a switching element speaking a mating thread according to the invention in longitudinal section with adjustment for the screwed through. A counter-die is used to secure it Stop surface of the insulating bushing actuated 25 nut 29. The sleeve 28 is under the inter-shell contact bridge, one on the front end device of a snap ring 34 inserted into it on the the insulating sleeve on a loosely movable sleeve for the insulating sleeve. The return spring for the Actuation of the other switching bridge is provided; Shift pin, which is located together with the sleeve 28 Fig. 3 shows a switching element in longitudinal section, with and the insulating bushing 6 moves, is denoted by 5 the adjustable contact bridge through the on the 30 net. The head 30 of the sleeve 28 is rearward with an edge The end of the insulating material bushing is longitudinally adjustable or provided with a tool contact surface 31, arranged sleeve is actuated and additionally if after loosening the lock nut 29 the sleeve

the entire shift pin is adjusted 28 rotated in the axial direction, because the shift pin 4 can be. the insulating material bushing 6 remains in its position

In Fig. 1 (known switch) 1 is the insulating 35 and thus the contact bridge 8 opposite the andestoffsockel of the switching element, moved in its reinforced Ren contact bridge 7, whereby a Transverse walls 2 and 3 of the switching pin 4 against the change in the switching sequence results. During training Pressure of the return spring 5 mounted so as to be longitudinally displaceable of the thread 27 as a fine thread with a low pitch is. The switching pin 4 carries the insulating bush 6 can determine this setting very sensitively and precisely the contact bridges 7 and 8. Follow the 40 through the not.

circular cross-section of the socket is a twist. In the embodiment according to Fig. 3 is the

hen the contact bridges are prevented. Sleeve 24 on the other, the head of the gearshift

The socket 6 is with its part 9 by means of a groove zens 4 facing away from the end of the insulating material socket 6-10 (Fig. 2) pushed onto one at the bottom of the insulating material. It is detached with an approximately right-angled 1 provided nose 11 longitudinally displaceable curved, also made of insulating material leads. The contact is created by direct connection, firmly connected or made from one piece position of the contact bridges 7 and 8 on the clamping of the leg 26 perpendicular to the switching pin 4 of this pairs of screws 12 and 13 for the electrical power bracket is with a threaded hole on the in this cables. The inside of the insulating base 1 trap provided with external thread 42 sleeve 28 rest Heads 14 and 15 of the clamping screw pairs 50 are screwed. Used to secure the setting

12 and 13 are square for this purpose and carry the respective contact bridge on their facing side a support 16 or 17 made of precious metal, z. B. silver.

again a lock nut 29. The insulating material bushing 6, which can be displaced on the switching pin 4, is between a compression spring 36 and an adjusting nut 39 clamped. The compression spring 36 is on

In the known shell 55, the insulating material bushing 6 is part of its length in a recess tern made from one piece. When using socket 6 and is based on a paragraph 37 of the two contact bridges 7 and 8, the contact bridge 8 is supported against a stop 18 in the idle state

the socket 6, while the contact bridge 7 under the

Switch pin 4. A ring 34, the sleeve 28 and a washer 38 are attached to the shift pin 4 between the bush 6 and the adjusting nut 39. Effect of the spring 19 provided between the two contact bridges 60. The lock nut for the adjusting nut 39 rests against the contact points with a spring 19. designated. Through the compression spring 36, the tension of which is greater than the force of the return spring 5 when shifting the switching pin 4 to the right, in the example shown, the circuit controlled by the switching pin 4 is first activated by the right end position of the switching pin 4, clock bridge 8 - Presses the sleeve 28 against the closed with each setting. In the event of a further shift, while 65 adjusting nut 39 and acts, apart from the possibility of adjustment desired against the contact bridge 8, the bushing 6 acts as a rigid connection,
pushes the contact bridge 7 through the stop 20 If after loosening the lock nut 29 the sleeve

on the bush 6, and the associated 28 is rotated, because the sleeve 28 is relative Contact opens. In any case, which is axially fixed to the shift pin 4, the bracket 25 with intermediate spring 19 the application pressure. 70 of the sleeve 24 and the contact bridge 8 opposite the

Isolierstoffbuchse 6 and thus shifted relative to the other contact bridge 7, whereby the switching sequence is changed.

If, on the other hand, the knurled adjusting nut 39 is rotated after loosening the lock nut 40, the switching pin 4 is either pulled to the right or pushed out of the insulating base 1 to the left under the action of the compression spring 36. Since the switching pin 4 also changes its position in relation to the contact bridges and the actuating elements 6, 24, the inaccuracy when installing the switching element in the machine can be compensated for with this setting. After setting the switching pin 4 in its desired position, the contact bridge 8 is set individually by rotating the sleeve 28 and thus the contact sequence is determined.

The switching pin 4 is secured against rotation with respect to the insulating material bushing 6 to prevent an undesired To avoid misalignment of the adjustment. For this purpose, as can be seen in Fig. 3, a switch pin can be inserted 4 radially inserted pin 43 which slides in a longitudinal groove 44 of the insulating material bushing 6. It For this purpose, a non-circular switch pin can also be inserted in a corresponding non-circular hole in the insulating material bushing 6 can be used.

Claims (9)

Patent claims: 1. Electrical plunger switch, especially for controlling machine tools, with a a sliding insulating material bushing under the action of a return spring, Switching bolts guided in the insulating material base, with two or more contact bridges on the socket are preferably arranged resiliently against each other, and attached to the insulating base Counter-contacts, characterized in that one contact bridge is in the open position (8 or 7) a shoulder (9) of the insulating sleeve (6) and in the open position · the other contact bridge (7 or 8) a sleeve (24) slidable on the bushing (6) serves as an abutment and that the socket (6) or the sleeve (24) opposite the switching pin (4) which remains in its position by a tubular sleeve (28) which can be rotated on this and which has an adjusting thread (27 or 42) and is led out through the rear transverse wall (3) of the base (1) to the outside, axially is adjustable. 2. Push switch according to claim 1, characterized in that the sleeve (24) on the dem Shift bolt head adjacent end of the insulating sleeve (6) is pushed and that the sleeve (28) with internal thread (27) is screwed onto the switching pin (4), with its inner The end of it rests against the insulating material bushing (6) that can be moved on the switching bolt (4). 3. Push switch according to claim 1 or 2, characterized in that the sleeve (28) on the outer end with a tool engagement surface or a knurling (31) having head (30) is provided. 4. Push switch according to claim 1, characterized in that the sleeve (24) on the dem Shift bolt head (4) facing away from the end of the insulating sleeve (6) pushed on and with a right-angled bent bracket (25) is connected, which is perpendicular to the switching pin (4) with a leg (26) provided with a threaded hole on the sleeve (28) provided with an external thread (42) is screwed, with its inner end on the insulating material bushing (6), with its outer end rests against a stop (38, 39) of the switching pin (4). 5. Push switch according to claim 4, characterized in that the external thread (42) on the from the insulating base (1) protruding part of the sleeve (28) is attached. 6. Push switch according to claim 4 or 5, characterized in that the bracket (25) in the Insulating base (1) can be moved parallel to the switching pin (4), but cannot be rotated. 7. Push switch according to claim 4 to 6, characterized in that for the axial adjustment of the Switching bolt (4) the insulating material bushing (6) mounted axially displaceably on the switching bolt (4) between a compression spring (36) which is supported against a shoulder (37) of the switching pin (4) and whose bias is greater than the force of the return spring (5) in the rearmost position of the Switch pin (4), and one on the switch pin (4) screwed adjusting nut (39) is clamped, which is on the insulating base (1) supporting return spring (5) acts on the insulating material bushing (6) and this in the rest position of the switch presses against a front end stop (41) of the insulating material base (1). 8. Push switch according to claim 1 to 7, characterized in that between the tubular Sleeve (28) and the insulating material bushing (6) a ring (34) is provided on which the return spring is located (5) is supported. 9. Push switch according to claim 1 to 8, characterized in that the through the transverse wall of the Isolierstoffsockels (1) led out to the outside part (30) of the sleeve (28) carries a scale with a marking in the transverse wall (3) of the insulating base (1) cooperates. Considered publications:
German patents No. 691 448, 848 666, 726, 952 915; U.S. Patents No. 1629710 ', 2 391238, 419 072, 2,608,628, 2,727,964; Elektro-Anzeiger, Essen, 1955, issue 7/8, p. 19. 1 sheet of drawings © 009 507/320 4.60