DE112006002683B4 - Indicator holder - Google Patents

Abstract

Holding device (1) for finely adjusting a dial gauge (25) or a feeler lever measuring device (21) comprising a base body (2) having at one end a connecting part (3) through which the base body (2) connectable to a tripod or the like is at the other end and a receiving part (4) for receiving the dial gauge (25) or the sensor lever gauge (21), and wherein an adjusting screw (9) is provided to adjust the receiving part (4) in parallel, characterized in that the base body (2) consists of an upper web (6 ₁ ) and a lower web (6 ₂ ), which run parallel to one another, and a free carrier arranged between the two webs (6 ₁ , 6 ₂ ) and projecting into the base body (2) (7), wherein the two webs (6 ₁ , 6 ₂ ) and the cantilever beam (7) on the connecting part (3) are fastened and wherein the adjusting screw (9) through a bore (10, 31) in the upper web (6 ₁ ) and by a threaded bore (11, 33) is guided, the s I am located inside the cantilever (7).

Description

Technical area

The The invention relates to a holding device for fine adjustment a dial gauge or a feeler gauge The gauges of claim 1. Dial gauges are in particular for measuring mechanical and fine mechanical machining used. They are with a feeler lever equipped, which is pivotally mounted on the actual dial gauge.

State of the art

Dial gauge holders are well known in the art. CH 679 333 A5 discloses, for example, a dial gauge holder, which consists of a molded piece which is formed in two mutually elastically pivotable legs. The one leg is shorter and is surmounted by the longer leg. The end of the longer leg is designed to build a dial gauge, while near the leg root of the dial gauge holder itself can be attached to a tripod. Between the legs of a reduction rocker is inserted, which acts as a toggle. The rocker is pressurized by a ball, which forms the tip of a fine adjustment screw, at the end of its power arm. A disadvantage of this embodiment, however, that no parallel displacement of the pivotable leg takes place, but only a tilting movement, which is triggered by the adjustment of the screw. A disadvantage of this embodiment also that no pressure or tensile forces can be absorbed.

US 3,367,612 A discloses an adjustable arm with two mutually adjustable plates. The plates are supported by a ball together. At one end of the plates is an adjusting screw, by which the ends of the two plates are mutually adjustable, whereby the plates are tilted around the ball to each other to adjust the arm. US 2,456,383 A discloses an embodiment in which a measuring arm is pivotally mounted.

DE 198 05 648 A1 discloses a holding device for dial gauges. The holding device has a base body, which identifies at least one receptacle for a dial gauge. Furthermore, the holding device has a connecting part, via which the base body can be connected to a stand or the like. The main body is provided with a recess, and the connecting part is provided with a projection which is engageable in the recess of the base body. To adjust the dial gauge a set screw is rotated, whereby the connecting part is tilted relative to the base body and thus the base body relative to the tripod. The center of this tilting movement is the connection between the hole and the projection. Thus, the dial gauge can be adjusted relative to the tripod. A disadvantage of this embodiment, however, that no parallel displacement of the body takes place, but only a tilting movement. A precise measurement with a sliding plane is therefore also not possible.

US 2,219,037 A discloses a dial gauge holder, which in turn is attachable to a tripod. An adjustable part consists of two parallel connecting parts, with an adjusting screw acting on a metal part stretched transversely between the connecting parts. An adjoining connecting part can be adjusted in parallel by the adjusting screw. A disadvantage of this embodiment, however, that no pressure or tensile forces can be absorbed.

A holding device for fine adjustment of a dial gauge or a feeler gauge according to the preamble of claim 1 is known from US 4,781,351 A known.

Presentation of the invention

Of the present invention is based on the object, a holding device to provide a fine adjustment of a dial gauge or a feeler gauge, which allows a high measuring accuracy.

These Task is solved by a holding device according to claim 1.

These allows on the one hand a parallel displacement of the feeler lever. On the other hand, the Inventive holding device Compressive and tensile forces record, whereby a lower tolerance is achieved.

Preferably the holding device is made in one piece.

advantageous Embodiments are specified in further claims.

The main body of the holding device consists of two parallel webs and one located between the webs and projecting into the main body cantilever, wherein the two webs and the cantilever are attached to the connecting part. By a set screw, which is guided through a hole in the upper web and through a threaded hole in the cantilever, the set screw presses the upper and the lower web evenly and parallel down, while the cantilever beam remains in an unchanged position. Advantageously, the entire receiving part is thereby displaced parallel in height, so that the dial indicator also advantageously moves parallel downwards. Another advantage of the holding device according to the invention lies in the fact that tensile and compressive forces can be absorbed by the receiving part from above and below, ie forces which act perpendicular to the plane in which the receiving part is displaceable in parallel. This increases the measuring accuracy.

Advantageous can be between the upper bridge and the retaining ring an am the upper bridge fixed nose or the two webs can in the area in which the adjusting screw is located, reinforced by stops. Both measures prevent tilting during an adjustment of the Screw.

In another advantageous embodiment is a guide sleeve through the free bearer guided and firmly connected to it. The adjusting screw is located in the guide sleeve. The Guide sleeve can with the free carrier screwed, pressed, welded, soldered, glued or to another Way firmly with the free vehicle be connected. This guide sleeve provides advantageous for that a tilting movement of the set screw to a negligible Mass is reduced.

The Adjusting screw or the guide sleeve can longitudinal of the basic body diagonally through the free bearer guided be. This has the extra Advantage that the adjustment longer and a finer adjustment is possible.

Brief description of the figures

The Invention will be with reference to the accompanying figures explained in more detail. It demonstrate

1 to 12 a first embodiment of a holding device according to the invention of a dial gauge with numerous detailed drawings;

13 to 27 a second embodiment of a holding device according to the invention of a dial gauge with numerous detailed drawings;

28 to 39 a third embodiment of a holding device according to the invention of a dial gauge with numerous detailed drawings;

40 to 44 An embodiment of an inventive holding device with a connected lever gauge.

45 to 49 an embodiment of a holding device according to the invention with a connected dial gauge and

50 to 61 a fourth embodiment of a holding device according to the invention of a dial gauge with numerous detailed drawings;

In different figures are the same elements with the same reference numerals Mistake.

Ways to execute the invention

The 1 to 12 show a first embodiment of a holding device according to the invention 1 a dial gauge with numerous detailed drawings. The inventive holding device 1 consists of a basic body 2 , which at one end a connecting part 3 and at the second end a receiving part 4 having. The 11 and 12 show two perspective views of the body 2 , In the illustrated embodiment, the main body 2 , the connecting part 3 and the recording part 4 made in one piece. The connecting part 3 serves to the basic body 2 to connect with a tripod or similar. For this purpose is located at the connection part 3 an inwardly directed threaded hole 5 , with which the tripod, not shown, with the holding device according to the invention 1 can be connected. An outwardly directed connection part, as it approximately out DE 198 05 648 A1 . 1 and 2 , is known, which is equipped with a thread, but is also conceivable. The one-piece body 2 consists of an upper and a lower bridge 6 ₁ . 6 ₂ , which are aligned parallel to each other, and one between the two webs 6 ₁ . 6 ₂ lying and in the main body 2 protruding cantilever 7 , The bridges 6 ₁ . 6 ₂ are each from the cantilever 7 through a slot 8 ₁ . 8 ₂ separated from each other, wherein the webs 6 ₁ . 6 ₂ and the free bearer 7 at the end of the connecting part 3 are fastened together. The 2 shows a central section through the holding device 1 according to the line AA in the 5 and 6 shows a central section through the holding device 1 according to the line CC in the 4 , 3 shows a side view of the inventive holding device 1 from the receiving part 4 ago.

For adjusting the height of the receiving part 4 becomes a set screw 9 through a hole 10 in the upper jetty 6 ₁ and a threaded hole 11 in the free carrier 7 guided. Between the inner side of the upper bridge 6 ₁ and the free bearer 7 be a washer 12 and a circlip 13 assembled. 7 shows the elements before assembly in a schematic way. 8th shows the elements after successful assembly. Between the washer 12 and the upper jetty 6 ₁ is located on the inside of the upper bridge 6 ₁ a nose 14 , The detailed assembly of the involved elements is clear in the 1 which the detail B of the 4 shows, visible. The adjusting screw 9 lies on the inside of the lower bridge 6 ₂ on, with the set screw 9 rounded at the bottom. As well as the mentioned nose 14 This is to prevent tilting while adjusting the height of the receiving part 4 ,

The recording part 4 has a longitudinal direction of the body 2 arranged slot 15 on, the receiving part 4 divided into two halves and from the upper to the lower jetty 6 ₁ . 6 ₂ runs. Laterally on the receiving part 4 there is a clamping screw 16 not to be in the 1 to 12 clamp the dial gauge. The slot 15 is with a round opening 17 connected and the receiving part 4 is at the end with a Schwalbenschanzförmigen exception 18 Mistake. 10 which is a top view of the main body 2 shows, makes this arrangement clear. In the embodiment of the 1 to 12 is also located on the receiving part 4 also one slot each 19 ₁ . 19 ₂ between a footbridge 6 ₁ . 6 ₂ and a center body of the receiving part 4 on which the clamping screw 16 is attached. These slots 19 ₁ . 19 ₂ run from one side of the body 2 to a second side in extension of the already mentioned slots 8 ₁ . 8 ₂ which is clearly in the 9 is visible. These slots 19 ₁ . 19 ₂ ends at the height just before the opening 17 , Through the slots 19 ₁ . 19 ₂ the clamping process is facilitated.

The 13 to 27 show a second embodiment of a holding device according to the invention 1 a dial gauge with numerous detailed drawings. The different representations of the holding device 1 of the 13 to 27 correspond to the already mentioned 1 to 12 , Unlike in the embodiment of 1 to 12 are however on the receiving part 4 no slots on the sides 19 ₁ . 19 ₂ arranged. As in 25 and 27 visible, is rather on the receiving part 4 a slot 20 transverse longitudinal direction of the body 2 in the recording section 4 , which is at the end of the slot already mentioned 15 from the upper jetty 6 ₁ to the lower jetty 6 ₂ extends. Through the slot 20 becomes the clamping action when pinching the dial gauge 21 facilitated.

The 28 to 39 show a third embodiment of a holding device according to the invention 1 a dial gauge with numerous detailed drawings. The different representations of the holding device 1 of the 28 to 39 correspond to the already mentioned 1 to 12 respectively. 13 to 27 , Unlike in the embodiment of 13 to 27 this embodiment has an upper and lower stop 23 ₁ . 23 ₂ which are the two bridges 6 ₁ . 6 ₂ in the area where the set screw 9 reinforce. This embodiment has no nose for it 14 on. For adjusting the height of the receiving part 4 becomes a set screw 9 through a hole 10 in the upper stop 23 ₁ and a threaded hole 11 in the free carrier 7 guided. Between the inner side of the upper stop 23 ₁ and the free bearer 7 be the washer 12 and the circlip 13 assembled. The adjusting screw 9 has a puncture 24 on, which is for receiving the retaining ring 13 serves.

34 shows the elements before assembly in a schematic way. 36 shows the elements after successful assembly. The detailed assembly of the involved elements is clear in the 28 the detail J the 31 shows, visible. The adjusting screw 9 lies on the inside of the lower stop 6 ₂ at. The recording part 4 is the same as the recording part already described 4 of the 24 ,

The 50 to 61 show a fourth embodiment of a holding device according to the invention 1 a dial gauge with numerous detailed drawings. The different representations of the holding device 1 correspond to the preceding figures. In this embodiment, a guide sleeve 29 firmly with the cantilever 7 of the basic body 1 connected. The sleeve 29 , which in principle with the cantilever 7 screwed, pressed, welded, soldered, glued or otherwise can be firmly connected, ensures that the set screw 9 is better managed. In particular, the guide sleeve prevents a tilting movement of the screw 9 or advantageously ensures that the tilting movement is reduced to a negligible extent. In the illustrated embodiment, the guide sleeve 29 with an external thread 32 fitted into a threaded hole 37 a hole 34 in the guide sleeve 29 intervenes. At the same time, the guide sleeve 29 with an internal thread 33 equipped, in which an external thread 36 the adjusting screw 9 intervenes. This variant of the dial gauge holder 1 can compressive forces coming from the lower bridge 6 ₂ on the spherical surface 30 be transferred.

Bring the guide sleeve 29 not perpendicular, which is of course conceivable, but in an inclined position (with respect to the longitudinal direction of the body), as shown in the figures, this has the additional advantage that the Einstellweg is longer and a finer adjustment is possible. The adjusting screw 9 has a spherical surface at the lower end 30 on, where the set screw 9 on the lower jetty 6 ₂ rests on (cf. 54 ). The adjusting screw 9 has in this embodiment at the bottom of a cylindrical surface 35 without threaded part and the guide sleeve 29 has at this point a small recess, so the set screw 9 on the lower jetty 6 ₂ rest can (cf. 54 and 58 ). The previous hole 10 in the upper jetty 6 ₁ becomes a slot-shaped recess in this embodiment 31 , the space for the guide sleeve 29 leaves that from the upper jetty 6 ₁ protrudes. Of course, this skew can also be applied to the set screw 9 the above-explained embodiments are applied.

The operation of the inventive holding device 1 is in the 40 to 49 shown schematically. The holding device 1 is doing in the 40 to 44 with a lever gauge 21 and in the 45 to 49 with a dial gauge 25 on the receiving part 4 connected. Dial Test 21 and dial gauges 25 are used in particular for measuring mechanical and precision machining operations. Dial Test 21 are with a feeler lever 22 equipped, which on the actual lever gauge 21 is pivotally mounted. In 41 the holding device is in a starting position. By turning the adjusting screw 9 becomes the recording part 4 the holding device 1 adjusted in height. The 42 represents this second position. The 40 compares both positions, with the second position of 42 is shown in dashed lines. The dial gauge 25 has a dial gauge 27 up, along the river 26 is movably mounted. This should be the measuring axis 26 always perpendicular to the measuring surface 28 stand to get an accurate measurement. During the free carrier 7 remains in an unchanged position, presses the set screw 9 in the first embodiment according to 1 to 12 and in the second embodiment according to 13 to 27 the upper and the lower bridge 6 ₁ . 6 ₂ even and parallel down. In the third embodiment, the set screw presses 9 the upper and the lower stop 23 ₁ . 23 ₂ even and parallel down. Advantageously, in all three embodiments, the entire receiving part 4 moved parallel in height, so that also the lever gauge 21 or the dial gauge 25 advantageously moved parallel down.

In 43 the detail K of the 42 shows, the set screw 9 shown. It becomes clear that through the nose 14 the washer 12 and the circlip 13 is kept in a horizontal position during the adjustment process. Advantageously prevents the nose 14 a tilting of the washer 12 , As already mentioned, the set screw 9 rounded at the bottom. This rounding also prevents tilting of the screw 9 on the inside of the bridge 6 ₂ during the adjustment process. This process is only for the embodiments of 1 to 27 described the embodiment of the 28 to 39 but works in an equivalent way.

Another advantage of the inventive holding devices of 1 to 39 lies in that through the receiving part 4 From above and below tensile or compressive forces can be absorbed, so forces acting perpendicular to the plane in which the receiving part 4 is displaceable in parallel. In the holding devices according to 1 to 27 become the forces of the receiving part 4 over the footbridges 6 ₁ . 6 ₂ and the circlip 13 to the connecting part 3 transferred, so that the tripod can absorb the forces. This is also because the set screw 9 at the lower jetty 6 ₂ is applied. In the holding device according to 28 to 39 become the forces of the receiving part 4 about the attacks 23 ₁ . 23 ₂ and the circlip 13 to the connecting part 3 transferred, so that the tripod can absorb the forces. This is also because the set screw 9 at the bottom stop 23 ₂ is applied.

The main body 2 such a device 1 can be easily made by means of an erosion machine. Before or after, the threads of the threaded holes 5 . 15 cut and the set screw 9 can along with the washer 12 and the circlip 13 and the clamping screw 16 to be assembled.

To the inventive holding device 1 It is also possible to market data carriers with software programs for their production which can be carried out by data processing means in an erosion machine (for example magnetic and / or optical media carriers).

Claims (17)

Holding device ( 1 ) for fine adjustment of a dial gauge ( 25 ) or a feeler gauge ( 21 ), which a basic body ( 2 ) having at one end a connecting part ( 3 ), over which the main body ( 2 ) is connectable to a tripod or the like, and at the other end a receiving part ( 4 ) for receiving the dial gauge ( 25 ) or feeler gauge ( 21 ), and wherein a set screw ( 9 ) is present to the receiving part ( 4 ) to adjust in parallel, characterized in that the basic body ( 2 ) from an upper bridge ( 6 ₁ ) and a lower bridge ( 6 ₂ ), which run parallel to each other, and one between the two webs ( 6 ₁ . 6 ₂ ) and in the main body ( 2 ) projecting cantilever ( 7 ), wherein the two webs ( 6 ₁ . 6 ₂ ) and the cantilever ( 7 ) at the connecting part ( 3 ) and the adjusting screw ( 9 ) through a hole ( 10 . 31 ) in the upper bridge ( 6 ₁ ) and through a threaded hole ( 11 . 33 ) guided within the cantilever ( 7 ) is located. Holding device ( 1 ) according to claim 1, since characterized in that by the receiving part ( 4 ) of the holding device ( 1 ) Tensile or compressive forces are absorbed, which act perpendicular to a plane in which the receiving part ( 4 ) is adjustable in parallel. Holding device ( 1 ) according to claim 2, characterized in that between the webs ( 6 ₁ . 6 ₂ ) and between the bridges ( 6 ₁ . 6 ₂ ) cantilevers ( 7 ) one slot each ( 8 ₁ . 8 ₂ ) is provided. Holding device ( 1 ) according to one of claims 1 to 3, characterized in that the adjusting screw ( 9 ) from the inside at the lower bridge ( 6 ₂ ) is present. Holding device ( 1 ) according to one of claims 1 to 4, characterized in that the adjusting screw ( 9 ) at the upper bridge ( 6 ₁ ) by a retaining ring ( 13 ) is attached. Holding device ( 1 ) according to claim 5, characterized in that between the upper web ( 6 ₁ ) and the retaining ring ( 13 ) one at the upper bridge ( 6 ₁ ) attached nose ( 14 ) is located. Holding device according to one of claims 1 to 5, characterized in that the two webs ( 6 ₁ . 6 ₂ ) in the area in which the adjusting screw ( 9 ), by stops ( 23 ₁ . 23 ₂ ) are reinforced. Holding device ( 1 ) according to one of claims 1 to 4, characterized in that by the cantilever beam ( 7 ) a guide sleeve ( 29 ) is guided and firmly connected thereto, wherein the guide sleeve ( 29 ) with an internal thread ( 33 ) and the adjusting screw ( 9 ) in the guide sleeve ( 29 ) is located. Holding device ( 1 ) according to claim 8, characterized in that the guide sleeve ( 29 ) with the cantilever ( 7 ) screwed, pressed, welded, soldered, glued or otherwise fixed to the cantilever beam ( 7 ) connected is. Holding device ( 1 ) according to claim 8 or 9, characterized in that the guide sleeve ( 29 ) and the set screw ( 9 ) are guided obliquely through the cantilever. Holding device ( 1 ) according to one of claims 1 to 10, characterized in that the basic body ( 2 ), the receiving part ( 4 ) and the connecting part ( 3 ) are made in one piece. Holding device ( 1 ) according to one of claims 1 to 11, characterized in that the receiving part ( 4 ) at the end a dovetailed exception ( 18 ) having. Holding device ( 1 ) according to one of claims 1 to 12, characterized in that the receiving part ( 4 ) one in the longitudinal direction of the main body ( 2 ) arranged slot ( 15 ) having the receiving part ( 4 ) divides into two halves, the slot ( 15 ) with a round opening ( 17 ) for receiving the dial gauge ( 25 ) or feeler gauge ( 21 ) is connected, and laterally on the receiving part ( 4 ) a clamping screw ( 16 ) is arranged. Holding device ( 1 ) according to claim 13, characterized in that the receiving part ( 4 ) at the end of the slot ( 15 ) a second slot ( 20 ), which transversely to the slot ( 15 ) and transversely to the main body ( 2 ) is arranged. Holding device ( 1 ) according to claim 13, characterized in that on the receiving part ( 4 ) two slots ( 19 ₁ . 19 ₂ ) are arranged, each between the top and bottom or the two parallel webs ( 6 ₁ . 6 ₂ ) of the basic body ( 2 ) and a center body of the receiving part ( 4 ) available. Holding device ( 1 ) according to one of claims 1 to 15, characterized in that the basic body ( 2 ) via the connecting part ( 3 ) with a tripod via a thread ( 5 ) is connectable. Holding device ( 1 ) according to one of claims 1 to 16, characterized in that the holding device ( 1 ) can be produced by an erosion machine.