DE2553749C2 - Temple cylinder - Google Patents

Description

6. temple cylinder according to claim 1, characterized by temple cylinder of the type mentioned characterized in that the bearing (13 ') create with the flange, which in any case with a simple structure

(14) consist of one piece, one in which ensures that it is independent of the pretensioning force Bearing opening (50) a tube (23) with the two bend when tightening the clamping elements Contact surfaces (21,21) is pressed in. 55 of the temple cylinder is perfectly avoided.

7. Spreader cylinder according to claim 6, characterized in that this object is achieved according to the invention characterized in that the tube (23) is in the region of the contact surfaces of the bearing which can be pressed against one another both contact surfaces (21, 21 ') are embedded and> m at right angles to the longitudinal axis of the carrier, Has protruding parts (60,61; 70,71) This has the advantage that when tightening

8. Spreader cylinder according to claim 6 and 7, * ° the nut generates an axial biasing force, characterized in that a protruding part which acts perpendicularly to the abutment (71) of the bearing (13 '), a pin (72) and the surfaces There are thus no forces Pn and the opposite embedding part (60) a Aus Po. which have a curvature of the temple cylinder recess (62). which could lead. This is independent in each case

65 the tightening torque of the clamping elements guarantees the full functional reliability of the temple cylinder
Other advantages and features of the present

The invention emerges from the subclaims and from the following description of the figures.

The invention is explained in more detail below with reference to the exemplary embodiments shown in the drawing described. In the drawing shows

Fig.2 is a side view of the invention Spreader cylinder in a Ausfänrungsform in the middle section,

F i g. 3 is a front view of a bearing;

Fig. 4 shows a section along the line IV-IV in FIG. 3,

5 shows another possible embodiment of the temple cylinder according to the invention,

F i g. 6 is a front view of a bearing according to the embodiment of FIG. 5,

7 shows a section along the line VII-VU after ¹ S Fig. 6.

According to Figure 2 are on the carrier 10 of the Spreader cylinder between the clamping elements 14 'and 11 and 52, the bearings Ii arranged These bearings 13 are inclined to the longitudinal direction of the carrier 10 and * o have a flange 14 and a circular cylindrical bearing surface 22 for mounting an inclined Little wheel.

The in Fig. 4, bearing 13, shown in more detail, has a contact surface 21 on one side and a contact surface 21 'on the other side. Both contact surfaces 21 and 2V are perpendicular to the longitudinal axis of the carrier 10.

One contact surface 21 has a part 30. which within the inclined circular cylindri- 3 <> see storage area 22 is arranged in the lower area Another part 31 protrudes beyond this storage area 22. The Part 30 has a pin 24.

As a result of the embedded part 30 and the protruding part 30 of the contact surface 21 result cylindrical shapes, namely in the lower region of the cylindrical portion 32 and in the upper region of the cylindrical cutout 33.

The contact surface 2Γ is on the other side of the bearing. This contact surface 2Γ has a Part 40, which is partially embedded in the inclined flange 14. In addition, the Contact surface 2Γ a part 41 in the upper area, which protrudes beyond the flange 14 inclined. The protruding part 41 forms compared to the cylindrical flange 14 has a cylindrical section 42, while the part that is embedded in flange 14 40 forms a cylindrical cutout 43

Like F i g. 3 and 4 can be seen, the cylindrical section 42 is in the obettn area through a Recess 25 interrupted

As a result of the aforementioned structural design, it is possible that adjacent bearings 13 can be plugged into one another: Here, the protruding part 31 of a bearing are located in the emplacing part 40 of the adjacent camp (lower area), while in the upper area of part 30 of the first bearing engages in part 41 of the adjacent bearing. This shows that the pin 24 of the deposit a bearing 13 in the recess 25 of the adjacent bearing, so that a proper rotation lock given is.

In the aforementioned sense, any number of bearings can now be plugged onto one another, always with it is ensured that the contact surfaces 21 and 21 'of a bearing with the contact surfaces 21 and 21' of the neighboring camps are in operative connection. Tightening the clamping elements is therefore flawless ensures that a curvature of the temple cylinder is avoided. According to Figure 2 form the Areas 20, which are inclined so that no contact points, but the system was through the aforementioned contact surfaces 21 and 21 'formed

The contact surfaces 21 and 21 'take as shown in FIG. 2 an angle β with respect to the longitudinal axis of the carrier 10, the angle β always being 90 °, regardless of the inclination of the bearings 13, the flanges 14 and the wheels mounted on the circular cylindrical bearing surfaces 22.

When a nut is tightened, an axial pre-tensioning force Pv is generated. Since the pre-tensioning force acts perpendicularly on the contact surfaces 21 and 21 ', the disadvantageous force components Pn and Pq are avoided. The temple cylinder can therefore advantageously no longer bend.

In Fig. 5, 6 and 7 is another possible design of the temple cylinder according to the invention. Here, according to FIG. 7 in the warehouse opening 50 of the bearing 13 'a tube 23 is pressed in. The tube 23, the bearing 13 'and the flange 14 thus form one unity

Again, the tube 23 has contact surfaces running perpendicular to the longitudinal axis of the carrier 10 21and21 \

Wi <? from Fig. 7, forms the contact surface 21 an embedded part 60 in the upper area and a protruding part 61 in the lower area.

On the side of the flange 14, the contact surface 2V forms an embedded part 70 and a protruding part 71. The protruding part 71 is shown in FIG. ö and 7 provided with a pin 72.

The embedded part 60 of the contact surface 21 has a recess 62 on.

Again, it is possible to move adjacent bearings 13 'as a result of the storage of parts 60, 61 on the one hand and 70, 71 on the other hand to stick together. Here, the pin 72 of the one bearing 13 'engages in the recess ό2 of the neighboring camp. Again, it is perfectly guaranteed that the adjacent bearings 13 'at an angle of 90 ° to the longitudinal axis of the carrier 10 are pressed against one another via the clamping elements 14 'or i 1 and 52 (F.g.5).

While in the embodiment according to FIG. 2 to 4 the bearing 13 consists of one part is in the Embodiment according to Figure 5 to 7, the bearing 13 'formed in two parts, the tube 23 in the bearing 13 'is pressed in. In both cases, however, the contact surfaces 21 and 21' ensure that the Pretensioning force acts vertically on the contact surfaces. The inclined surface 20 shown in Figure 5 is thus effectively switched off, so that regardless of the inclination of the circular cylindrical bearing surfaces 22 and the wheels arranged thereon, a proper bracing of the bearings 13 is carried out can be without a disadvantageous curvature of the temple cylinder takes place.

For this purpose 3 sheets of drawings

Claims (5)

The invention relates to a Breithalterzylm- -i patent claims: the with at least one inclined to the longitudinal axis on a veinem carrier arranged bearing, which one 1. Spreading cylinder. with at least one flange ^and / ⁱⁿ % ^^ ^Iin ^
«Inclined to the longitudinal axis on a carrier arranged ⁵ inclined wheel has wöbe, the U _ger ilen, bearing, which has a flange and a support surface on both sides and a circular cylindrical bearing surface on the carrier for an inclined frame can be clamped between two clamping elements, st tes wheel has the bearing on both sides spreaders of this known type have the Has contact surfaces and on the carrier between the disadvantage that they inevitably as a result of their structure two clamping elements can be clamped so that ^{IO have} the tendency to turn into one during Embau characterized in that the an sichpreßba- loom to crook This inevitable ren contact surfaces (21, 21 ') of the bearing {13,13') in the tendency to curvature is attached to hand right angle to the longitudinal axis of the carrier (10) of FIG. 1 of the drawing described in more detail, stand. According to Fig. 1, the temple cylinder has a 2. Spreader cylinder according to claim 1, characterized ¹ S carrier 10, which is characterized at its free end as that on one side of the bearing clamping element with a closing head 11 and at his (13) a part (30) which is provided with a thread 12 perpendicular to the longitudinal axis of the other egg The support surface (21) of the support (10) within the support 10 is a plurality of bearings! 3 of the inclined circular cylindrical bearing surface lined up next to each other Each bearing is marked with e.nem (22) is arranged and another part (31) this *> Flange 14 provided and on each bearing in a Bearing surface (22) protrudes and that on the other wheel 15 rotatably mounted. The wheels 15 are with On the bearing side, the contact surface (21 ') is provided with the inclined frame tips 16 or rubber rings 17. th flange (14) partially protrudes (41) and the contact surfaces 20 from a bearing 13 to partially stored therein (40). one flange 14 of the next bearing is oblique to the Contact surface (21) with the inclined circular-cy- ² S longitudinal axis of the carrier 10. Lindrischen bearing surface (22) and the other plant- The temple cylinder is through an opening on the surface (21 ') with the inclined flange (14) loom 18 with a nut «attached. upper cylindrical sections (32,42) are connected. By tightening the nut 19, the bearings 3. Spreader cylinder according to claim 1 and 2, 13 with the Hanschen 14 over a swash plate 52, characterized in that the cylindrical 3 ° is compressed, which results in an axial preload P »section (42) in the area of the inclined position. The size of the preload depends on the flange (14) of a bearing (13) in a cylindri- from the diameter of the I ragers 10, of the type of see cutout (33) in the area of the sloping thread 12, from the coefficient of friction of the nut 19 th. Circular cylindrical bearing surface (22) of the neighboring - Deposits on the Hache of the loom 18 and from the beard bearing and that there is a cylindrical ³⁵ tightening torque with which the nut 19 is tightened shear cutout (43) in the area of the inclined frame. Practical findings have shown that the th flange (14) in the cylindrical section (32) store biasing force Pv in the spreader cylinders with a carrier diameter of 8 mm in the area of the inclined, circular cylindrical support diameter of approximately 800 to the bearing surface (22) of the adjacent bearing. 1000 kp. 4. Spreader cylinder according to claim 1 to 3. 4 "The axial prestressing force Pv is divided into one characterized in that the one part (30) of the normal force Pn and a shear off Pp. The contact surface (21) has a pin (24) and The other shear force Pp is when part (41) is inclined and has a recess (25), whereby at 70 ° the flange 14 in relation to the longitudinal axis of the assembled temple cylinder of the pin carrier 10 is about 300 kp a bearing (13) in the recess (25) of the carrier 10 is less than the shear force Pp (approximately adjacent bearing engages. ¹ Zs), there is inevitably a curvature of the 5. temple cylinder according to claim 1 to 4, part 10 and thus the temple cylinder, so that the characterized in that the bearing (13) no longer functions under all circumstances Flange (14) and the contact surfaces (21, 21 ') is given. consist of one piece. ⁵ ° The object of the present invention is to provide a