DE618188C - Pointer drive for inclination scales with equally divided scale - Google Patents

Description

The invention relates to an inclination balance with a serving to drive the pointer pinion, separately mounted tooth segment that engages in a pointer pinion and is connected to the S inclination pendulum by a joint rod in Connection is, the purpose of achieving an even scale division in certain Distances from the pivot points of the tooth segment and the inclination pendulum on them attacks.

In the known scales of this type, special weight is placed on the lowest possible and to lay even backlash of the intermeshing teeth to the required Ensure the accuracy of the balance. However, this is by the in and for itself known measure, only the with the pointer pinion meshing teeth of the driving member against to press the pointer pinion with a spring acting on one end of the segment, not achieved in a satisfactory manner since

, the contact pressure changes with the change in the segment position.

The invention aims to eliminate this disadvantage. This happens because in a known manner in order to avoid backlash against the pointer pinion means a spring pressable tooth segment mounted on a movable hanging member under the action of a spring is so that it is pressed as a whole with uniform meshing against the pointer pinion will.

For the purpose of securing the tooth segment, which is known per se in parallel links of scales against displacements in the vertical and horizontal directions are also according to the invention with known use of cutting edges to support the tooth segment on this apart from the downwardly directed Carrying cutters upwardly directed holding cutters and against the hanging link the pointer pinion directed horizontal cutting is provided, which are in a line against corresponding boundary surfaces arranged on the hanging link or the toothed segment invest.

The drawings show embodiments of an inclination balance according to the invention tion partially shown schematically.

Fig. Ι shows schematically an inclination balance with load compensation by double pendulum.

Fig. 2 schematically shows an inclination balance with load compensation by only one pendulum.

Fig. 3 shows the toothed segment with pinion of the dial pointer and the suspension of the Tooth segment in view.

Figure 4 is a front view of the cutting edge bearing of the tooth segment.

Fig. S is! a view of the cutting piece.

Fig. 6 is a section along line VI-VI in Fig. 4.

Fig. 7 is a section along line VII-VII in Fig. 4.

Fig. 8 and 9 show the connecting rod between pendulum and tooth segment in two views at right angles to each other.

In Fig. Ι there are two pendulums with weights ι and 2 are present, those at 3 and 4 'in cutting edges attached to lever arms 5 and 6, respectively are stored. The mutually facing ends of the arms 5 and 6 act via support rods 7 and 8 the load 9 in the direction of the arrow. The outer ends of the arms 5 and 6 are each provided with an adjustable transmission rod 10 and 11 hingedly connected to a rod 12 in an articulated connection. From this rod 12, a toothed segment 14 is driven via a rod 13, which in special, explained below, is also stored in cutting. This Toothed segment 14 actuates a pinion 15 through which the pointer 16 moves in front of the scale 17 will. This scale is evenly divided because it increases or evenly increases decreasing load of the dial pointer describes equal angular deflections. This is achieved in that the one Middle position off when the load increases, evenly decreasing movement of the inclination pendulum is changed so that the movement of the segment from its center position from increasing evenly. In this way . becomes the 'difference between the sine and the tangent of the angle of inclination canceled or balanced. For this it is necessary that the reaching from points 3 and 4 to the four-tie rods 10 and 11 Lever arms 5 and 6 of the inclination pendulum in a very specific relationship to that Lever arm 18 of the tooth segment 14 are available. Such a dimensioning of the lever lengths between inclination pendulum and tooth segment is already well known and not the subject of this the invention.

In the embodiment according to Fig. 2 there is only one pendulum with a weight of 1 ', which is mounted at 3 'in a cutter attached to a lever arm 5'. To the one end of the lever S 'engages the load 9, and at the other end it is the connecting rod 10 'articulated, the bottom directly with the arm 18 of the tooth. segments 14 is articulated. 15 is again that moving the pointer 16 in front of the scale 17 Pinion. The effect of the transfer here is the same as that of the embodiment according to Fig. 1.. Only the execution! is simpler and in certain cases the as shown in Fig. 1 to be preferred. In both embodiments the segment is held by a bracket 19 which is mounted at 20.

Hl Fig. 3, the toothed segment 14 is shown with the parts associated with it, in the embodiment according to Fig. I. The toothed segment 14 in engagement with the pinion 15 has an arm 18 which is connected to the rod 13. The \ bracket 19 is mounted at 20 and holding the segment in a knife-edge bearing, the details of which will be apparent in particular from Fig. 4 to 7. ^

The bracket 19 is below several times from his Main plane bent in opposite directions (Fig. 3), however symmetrically on both sides of segment 14 (Fig. 4). He holds the cutting piece 21, whose multi-cranked shape can be seen particularly clearly in Fig. 5 and that rigidly connected to segment 14 in the middle is (Fig. 4). The bracket 19 is cantilevered in the middle at 22 so that the segment 14 can move freely. The cutting piece 21 has two pairs of cutting edges provided, while a third pair of cutting edges is provided on the bracket »19. the three pairs of cutting edges are also each arranged symmetrically to segment 14.

The outer pair of the cutting edges of the cutting piece 21 ranges from 23 to 24 one and from 25 to 26 on the other Page. These two cutting edges each rest on a flat horizontal surface, the hold the toothed segment against downward movement. These areas are through the formed multiple curved outer sixth parts 27 and 28 of the lower temple end.

Two equally curved parts 29 and 30, which are designed as cutting edges 31 and 32 at their horizontal ends, border on the inside of the bracket parts 27 and 28. These pairs of cutting edges lie against flat (vertical) surfaces provided on the cutting piece 21, namely they extend from point 24 to point 33 on one side and on the other side from point 25 to point 34. This pair of cutting edges prevents movement of segment 14 in the direction opposite to the direction of the contact pressure between toothed segment 14 and pinion 15. The contact pressure between gear segment 14 and pinion 15 is achieved by a bracket 19 on angreifejnde spring I9 ^a, which is stored at 19 ^s.

The bracket parts 29 and 30 are further adjoined inwardly by two opposite to these curved bracket parts 35 and 36. These again form flat, horizontal bearing surfaces for an inner pair of cutting edges 37 or of the cutting piece 21. These two Cutting edges lie against the lower surfaces of the bracket parts 35 and 36, whereby an upward evasion of the segment is prevented.

The three pairs of cutting edges of the cutting edge storage are all in one die Line forming the axis of rotation.

According to Figs. 8 and 9, the lever

arms 5 or 12 each at the extreme end with a two-part pan 39, 40 or 41, 42 Mistake. Cutting edges 43, 44 are stored in these and 45, 46, which are attached to the ends of the connecting rod 10. This pole consists of two parts, which are provided with opposing threads at the inner ends are on which a nut 47 is screwed. The rod 10 is thus in length

ίο adjustable. The pans 39 to 42 form roof-shaped counter bearing. They are held together by a spring 48, which is useful is suspended in eyelets 49 and 50 so that their suspension points in the connecting line the cutting edges 43 and 44 or 45 and 46 lie, d. H. so on through the cutting certain axes of rotation. However, the spring 48 can also be attached to a cutting edge at both ends be attached, the edge of which is then on the connecting line of the cutting edges 43 and 44 and 45 and 46 respectively. However, this design of the connecting rod 10 is not the subject matter the invention.

The particular advantage of the storage of the tooth segment 14 in the described cutting edge storage is that this is secured against displacement at the same time when the friction is reduced.

The setting of the balance is done in a simple way by shortening or lengthening it the connecting rod 10 or the connecting rods 10 and 11 and / or through Moving the pendulum weights 1 and 2 (Fig. 1) or the pendulum weight 1 '(Fig. 2).

Claims (2)

Patent claims: 1. Inclination scale with a drive the pointer pinion serving, separately mounted toothed segment that connects it with the inclination pendulum and for the purpose of achieving an even scale division at certain intervals is driven by the pivot points of the same and the toothed segment engaging the articulated rod, characterized in, that in a known manner to avoid backlash against the pointer pinion (15) by means of a spring pressable tooth segment (14, 18) on a movable and under the action a spring (19 °) standing hanging member (19) is mounted. 2. Inclination balance according to claim 1, characterized in that in the known use of cutting edges to support the tooth segment (14, 18) this apart from the downwardly directed support cutting edges (23, 24; 25, 26) with upwardly directed retaining cutting edges ( 37, 38) and the hanging link (19) are provided with horizontal fio cuts (31, 32) directed towards the pointer pinion (15), which are in a line against corresponding ones on the hanging link (19) or the toothed segment (14, 18) create the arranged boundary surfaces and secure the toothed segment (14, 18) in a manner known from parallel cores of scales against displacement in the vertical and horizontal directions. 1 sheet of drawings