DE3637180C1 - Switching cam for operating position switches - Google Patents

Abstract

The invention relates to a clamping device for fastening a switching cam on a cam carrier, especially having U-shaped profile rails, the switching cam being provided for the operation of position switches or proximity switches which operate without making contact, in order to control machine functions. A known switching cam for clamping onto U-profile rails is constructed in a specially designed manner and has a spring wedge attachment on one side and a mating wedge with a wedge incline on one side, which are intended to be clamped in the U-profile. However, this clamping device cannot introduce a uniform tensioning force into the profile rail and cannot ensure that the switching cam is seated precisely on the cam carrier. In contrast, the clamping device according to the invention consists of two symmetrically constructed individual parts and has an expanding clamp 15 as well as an expanding wedge 16, by means of which a switching cam 12, which is normally suitable for clamping onto T-groove profiles, can also be used on the cam carrier 10 having a U-profile rail 11 and provides a seating which is firm and can be adjusted exactly. <IMAGE>

Description

The invention relates to a switching cam for the Actuation of position switches to control machines functions according to the features of the preamble in claim 1.

Switch cams are used to set or control certain Program sequences z. B. used in machine tools. In the Rule is on a moving machine part, e.g. B. on the linear back and forth platen for the to be machined Workpiece attached to a cam carrier with profile slot rails. In the profile grooves of the cam carrier can the anywhere Switch cams by means of a clamping screw and clamping device, the so-called sliding block, used and fixed to given time assigned, firmly attached to the machine housing brought position switches, row position switches or touch to operate loose proximity switches. To fix the Switch cams are cam carriers with a T-slot profile and U-slot profile or grid profile common.

A switch cam with clamp foot of the generic type in the preamble of claim 1 described type is z. B. from EP 01 26 794 A1 known. This switch cam has one on its underside engaging in the T-profile groove of the cam carrier from above Spring approach on, but here not in a simple rectangular Form is formed, but with a unilaterally elongated Wedge flank is provided, so that the manufacture of this especially shaped switch cam difficult and costly is. The wedge flank should with its flat outer surface on the  Side wall of the profile groove lie on the opposite, the slot nut slides inwards with a wedge surface corresponding wedge surface and should be braced with the effect other side wall of the profile groove. A disadvantage of this known asymmetrical construction is like practice has shown that when tightening the clamping screw with the wedge flank of the switching cam spring lug engaging groove stone initially on the assigned profile groove side wall creates, with a part when you further tighten the clamping screw wise lifting of the wedge-shaped approach and thus a lateral Tilting of the entire switch cam can take place, d. H. the wedge-shaped approach is due to the one-sided wedge effect from the Profile groove pushed out. Therefore, the switch cam can not be exact assume the specified position on the cam carrier, but just some lean, so undefined switching cams positions to the position switch to be approached arise and an exact switching point adjustment cannot be realized.

Another version, in which the switching cam and the grooves stone wedge surfaces and by mutual bracing are non-positively fixed in the cam carrier, shows the French patent specification 20 13 402. Also in the case here be Design is the manufacture of a switch cam difficult and costly with molded one-sided wedge flank intensive. When the clamping screw is tightened, it is raised and if necessary to tilt the entire switch to the side cam. The switch cam can not exactly the desired Take up position on the cam carrier.

The object of the present invention is a Specify cam locking device that allows that Switch cams with a simple right-angled spring attachment  Usually only used on cam carriers with a T-profile find, can also be used for cam carriers with U-profile can.

The switch cam clamping device should be structurally simple and be inexpensive to manufacture, an exact adjustment of the Switch cam without changing the switch cam position when tightening guarantee the clamping screw and the pressure force symmetrically in the side walls of the profile grooves of the cam initiate carrier. Furthermore, one should also operate of position switches sufficiently large clamping force between the U-profile and the switching cam can be reached.

The object is achieved in that the clamp foot consists of two symmetrical parts and one Has expansion clamp and an expansion wedge. The flat outer The clamping surfaces of the expansion clamp are full and smooth on the sides walls of the U-profile groove and there is no clamping fixation due to unwanted relative movements of the clamping piece only one side surface of the U-profile groove, but only through Relative movements between expansion clamps and expansion wedge, their appropriately adapted wedge surfaces with a low coefficient of friction slide on each other and a symmetrical application of force in ensure the side walls of the profile groove with certainty, so that a perfect and exact fixation of the switch cam is reached in the adjusted position. The invention Switch cam attachment is structurally simple and also cost cheap to manufacture. This is expedient to increase the friction for engagement with the side walls of the profile groove provided that the two outward-facing parallel pressures Provide surfaces of the expansion clamp with a friction lining and / or are corrugated, corrugated or roughened. The spread clamp is preferably made of steel and the expanding wedge made of zinc die-cast manufactured.  

The steel expansion clamp can continue in the area of flat contact surfaces with corrugation z. B. inductive be hardened to give a better grip on the usual wise aluminum rails of the Find cam carrier.

In a preferred embodiment of the invention provided that the expansion clamp has a central longitudinal has slot that extends almost over the entire Length of the expansion clamp extends and only on one outer end between the two through the longitudinal slot formed expansion legs of the expansion clamp a verbin jetty is provided. The connecting bridge is be knows outside the clamping range of the clamping wedge ordered so that the expansion effect of the expansion clamp not or only very slightly due to the connecting bridge can be obstructed. Here is for one optimal clamping effect is expediently provided, that the expansion clamp has a length of the order of magnitude a three to four times the clamping screw diameter and the expansion wedge a length of the order of magnitude a two to three times the clamping screw diameter exhibit.

The invention is based on one in the drawings illustrated embodiment explained in more detail. It shows

Fig. 1 shows a cam carrier with a U-profile rail in cross-section and with the inventive clamping device therein be fastened switching cams and

FIG. 2 shows a longitudinal sectional view of FIG. 1.

In Fig. 1, the reference numeral 10 is a cam carrier with U-profile rail 11 according to DIN 69 638 (Form A) net. A to be attached to the cam carrier 10 switching cam 12 has on its underside to support against lateral displacement one from above in the U-Pro filnut engaging spring lug 14 and two adjacent to ordered bilateral contact surfaces 13 .

The switching cam 12 is usually used with another, specially designed clamping foot for attachment to cam carriers with a T-profile groove. With the inventive clamping device, the same switching cam shape can also be used for U-groove profiles. For the user, this means considerable advantages in terms of saving space and costs when storing switch cams and accessories. The spring extension 14 of the switching cam 12 has a simple rectangular shape and is also standardized according to DIN 69 639 (width 6 mm, maximum depth 2.7 mm, length as desired).

Within the U-profile groove, an expansion clamp 15 and an expansion wedge 16 connect to the switching cams 12 , which are clamped ver by means of a clamping screw 17 on the flat vertical side walls of the U-profile rail 11 . The expansion clamp 15 is also structurally simple and symmetrical and has a switching cam 12 facing flat bearing surface 18 , two flat, the side walls of the profile rail 11 opposite parallel pressure surfaces 19 and two inner, in the direction of the switching cam 12 converging wedge surfaces 20 .

The lateral pressure surfaces 19 of the expansion clamp 15 made of steel are provided with corrugation which has been inductively hardened and shows hardly any signs of wear even with frequent use. In the middle of the expansion clamp 15 , a longitudinal slot 26 is provided which extends almost over the entire length of the expansion clamp, so that only 29 on the outer end between the two spreader legs formed by the longitudinal slot 26 of the expansion clamp 15 outside the pressure range of the expansion wedge 16 a connecting web 27 remains. The expansion wedge 16 accordingly laterally just in case two outer, in the direction of the switching cam 12 converging wedge surfaces 21 for the sliding, aufsprei zende engagement with the associated inner wedge surfaces 20 of the expansion clamp 15 .

Approximately centrally in the wedge 15 made of die-cast zinc, a threaded bore 22 is provided for screwing in the clamping screw 17 .

From Fig. 2, the usually inclined arrangement of the clamping screw 17 in the switching cam 12 is visible. The clamping screw 17 can, however. B. switching cams for actuating non-contact proximity switches, just as well perpendicular to the cam carrier 10 in the switching cam 12 or the expansion clamp 15 and the expansion wedge 16 can be used. The screw head 23 of the clamping screw 17 is sunk in a recess 24 in the switching cam 12 . Below the screw head 23 has a conical coil spring 23 is arranged, which holds the expanding wedge 16 also in dissolved tension screw 17 with its wedge surfaces 21 in constant touching contact with the wedge surfaces 20 of the Spreizklemme 15th

When the clamping screw 17 is tightened, the win cones of the conical spring 25 lie flat one inside the other, as shown in FIG. 2.

Thus, the Spreizklemme 15 with released tensioning screw 17 can not slip and is not affected with tightened clamping screw 17 of the same, is provided in addition 26 a passage opening 28 for berüh approximately free passage of the clamping screw 17 expediently centrally slit in the Spreizklemme 15 in the lengthwise. The clamping screw 17 usually has a diameter of 4 mm (M 4 thread) with a hexagon socket head.

With the present invention, one becomes simple and inexpensive to manufacture clamping device give, with all so far only for cam carriers T-slot profile can now also be used with Cam carriers with a U-groove profile can be used. By the symmetrical wedge effect becomes more even Frictional engagement of the clamping or clamping device and a precisely defined and exact fit of the shift ensures cam on the cam carrier, which itself not even when tightening in the clamping screw changed.  

• 10 cam carrier
  11 U profile rail
  12 switching cams
  13 contact surface ( 12 )
  14 spring extension ( 12 )
  15 expansion clamp
  16 expanding wedge
  17 clamping screw
  18 contact surface ( 15 )
  19 printing area ( 15 )
  20 wedge surface ( 15 )
  21 wedge surface ( 16 )
  22 threaded hole ( 16 )
  23 screw head ( 17 )
  24 recess ( 12 )
  25 cone spring
  26 longitudinal slot
  27 connecting bridge
  28 passage opening
  29 spreading legs

Claims (9)

1. switching cams for the actuation of position switches for controlling machine functions, which is fixed by means of a clamping screw and a clamping foot on a cam carrier, in particular with a U-shaped profile groove, with the switching cam on its underside from above into the profile groove of the cam carrier engaging spring approach and the clamping foot when tightening the clamping screw by wedging opposing wedge surfaces exerts a compressive force on the side walls of the profile rail and causes a non-positive fixing of the switching cam on the cam carrier, characterized in that the clamping foot consists of two symmetrically designed individual parts and an expansion clamp ( 15 ) and an expansion wedge ( 16 ). 2. Switching cam according to claim 1, characterized in that the expansion clamp ( 15 ) has a switching cam ( 12 ) facing flat support surface ( 18 ), two flat, the side walls of the pro film rail ( 11 ) opposite parallel pressure surfaces ( 19 ) and has two inner, in the direction of the switching cam ( 12 ) converging wedge surfaces ( 20 ). 3. switching cam according to claim 1 or 2, characterized in that the expansion clamp ( 15 ) has a central longitudinal slot ( 26 ) which extends almost over the entire length of the expansion clamp ( 15 ), and only on one outer end between the two through the longitudinal slot ( 26 ) formed expansion legs ( 29 ) of the expansion clamp ( 15 ) a connecting web ( 27 ) is provided. 4. switching cams according to claim 1, 2 or 3, characterized in that the two outwardly facing parallel pressure surfaces ( 19 ) of the expansion clamp ( 15 ) to increase the frictional effect for engagement with the side walls of the profile rail ( 11 ) with a friction lining are provided and / or are corrugated, serrated or roughened. 5. switching cams according to claim 1, 2, 3 or 4, characterized in that the expansion clamp ( 15 ) has a central in the longitudinal slot ( 26 ) arranged additional passage opening ( 28 ) for non-contact passage of the clamping screw ( 17 ). 6. switching cams according to claim 1, 2, 3, 4 or 5, characterized in that the expansion clamp ( 15 ) has a length in the order of a three to four times the clamping screw diameter and the expansion wedge ( 16 ) a length in the order of a two have up to three times the clamping screw diameter. 7. switching cam according to one of the preceding claims 1 to 6, characterized in that the expanding wedge ( 16 ) laterally two outer, in the direction of the switching cam ( 12 ) converging wedge surfaces ( 21 ) for engagement with the correspondingly assigned inner wedge surfaces ( 20 ) the spreading clamp ( 15 ). 8. Switching cam according to one of the preceding claims 1 to 7, characterized in that the expanding wedge ( 16 ) has a threaded bore ( 22 ) approximately in the center for screwing in the clamping screw ( 17 ). 9. switching cam according to one of the preceding claims 1 to 8, characterized in that the expansion clamp ( 15 ) made of steel and the expansion wedge ( 16 ) are made of die-cast zinc.