DE7917138U1 - TRIPOD WITH A SUBJECT CARRIAGE ADJUSTABLE BY A PILLAR - Google Patents

Description

Stand with one held adjustable by means of a column

Microscope slide

The innovation relates to a stand with a slide held adjustable by means of a column, e.g. for attachment of laboratory equipment and devices, such as Glass flasks, rotating vessels, etc., with the column having a first tube attached to a stand and a the latter having a slidably guided second tube with a larger diameter, which second tube is the first coaxially surrounds, carries the slide and by means of a clamping device on the first tube in the respectively desired position is fixable.

In known tripods of this type, when the clamping device is released the second tube is not only axially displaceable with respect to the first but also freely rotatable. Well this rotatability may be perceived as useful in some cases, but it has the often undesirable disadvantage that when adjusting in the axial direction a rotational movement of the second tube can also occur unintentionally at the same time, with the on the slide Attach fastened parts, apparatus or devices somewhere and be damaged or even broken in the process.

The task of the innovation is therefore to provide a tripod of the type mentioned at the beginning in order to prevent the disadvantage described designed in such a way that a relative rotation of the tubes during the longitudinal displacement of the second tube is excluded is.

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According to the innovation, this object is achieved by Cass one of the tubes forming the column has at least one longitudinal groove and at least one radial groove on the other of the tubes protruding guide member is arranged, which engages slidingly in the longitudinal groove and thereby a rotation of the tubes prevented in relation to each other.

In a known manner, the stand can have a compression spring, in particular a gas compression spring, which is arranged inside the stationary first tube and on which the displaceable second tube is supported by approximately one To get weight compensation. In this case, a preferred embodiment of the innovation provides that the fixed first tube has two diametrically opposite longitudinal slots and a diametrically extending transverse bolt is arranged on the displaceable second tube which passes through the two longitudinal slots of the first tube, and that one end of the compression spring device engages on the cross bolt.

Further features of the innovation and advantageous details are apparent from the claims, from the description which now follows, purely by way of example, and from the accompanying drawings, in which a preferred example of the is illustrated according to the innovation tripod.

1 shows the exemplary embodiment in a perspective view;

Fig. 2 shows in a larger Hassstab a vertical longitudinal section through the upper part of the tripod according to Fig.1 dar;

Fig. 3 is an analogous sectional view through the lower part of the stand

FIG. 4 shows a cross section along the line 4-4 in FIG. 2.

According to FIG. 1, the stand shown has as main components one stand 11, one upright on the stand attached first tube 12, a second tube 13 slidably guided on the latter and one on the second tube attached slide 14 on. The two tubes 12 and together form a column by means of which the slide 14 is adjustable in height. The movable one second tube 13 has a larger diameter than the fixed tube 12 and surrounds the latter coaxially, as can be seen most clearly in FIGS. 2-4. In addition, the second tube 13 has a shorter axial length than the fixed pipe 12. At the top of the sliding Tube 13 is a first cuff 15 and on a second cuff 16 is arranged at the lower end. These two cuffs, referring to their training Figs. 2 and 3 will be explained in more detail, serve on the one hand to guide the tube 13 on the stationary tube 12 and, on the other hand, as stops to limit the axial displaceability of the tube 13 "in cooperation with a radially outwardly projecting end flange 17 at the upper end of the fixed tube 12 or with an adjusting ring 18, which the fixed tube 12 between the stand 11 and the displaceable tube 13 surrounds. In the lower cuff 16 is also a still to be described clamping device installed, which by means of a rotatable Handle 19 can be actuated and is used to fix the displaceable tube 13 on the stationary tube 12.

In Fig. 2 it can be seen that the cuff 15 sitting on the upper end of the displaceable tube 13 contains a sleeve-shaped lining 21 which slides directly on the stationary tube 12, while between the two tubes 12 and 13 there is an annular gap 22 because the

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The outer diameter of the stationary tube 12 is somewhat smaller than the inner diameter of the movable pipe 13. The lining 21 made of sliding material such as plastic protrudes in the axial direction beyond the upper end of the sleeve 15. The end flange 17 is through a cap which is screwed onto the upper end of the fixed tube 12. The downward facing side or Shoulder of the end flange 17 has an annular groove 23 which a rubber elastic buffer material 24 contains. The arrangement is now made so that at the maximum Upward movement of the displaceable tube 13, the axially protruding part of the chuck 21 against the buffer material 24 and presses this together in the annular groove 23 if necessary. This causes the cuff to hit hard 15 at the end flange 17 prevented.

According to FIG. 3, the sleeve 16 arranged at the lower end of the movable tube 13 is also provided with a sleeve-shaped chuck 25 which slides directly on the stationary tube 12. This lining 25, which is also made of sliding material, protrudes in the axial direction beyond the lower end of the sleeve 15. On its surface facing upward, the adjusting ring 18 has an annular groove 26 which contains a rubber-elastic buffer material 27. The arrangement is such that when the displaceable tube 13 moves downward against the adjusting ring 18, the protruding part of the chuck 25 hits the buffer material 17 and, if necessary, compresses it in the annular groove 26. This prevents the cuff 16 from hitting the adjusting ring 18 hard. The adjusting ring 18 also has a radially arranged clamping screw 28 with an actuating handle 29. In an inner groove 30 of the adjusting ring 18, a band 51 is inserted, which extends between the outer

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area of the fixed tube 12 and the inside, **. end of Clamping screw 28 is located. When the clamping screw 28 is tightened, the band is pressed against the tube 12 and thereby the Adjusting ring secured on tube 12.

The in the lower sleeve 16 of the sliding tube 13 built-in clamping device is designed as follows: The cuff 16 has a lateral extension 33 with a Threaded hole 34. In this threaded hole 34 is a * »screw spindle 35 screwed in with the handle 19 is firmly connected. The inner end of the screw spindle 35 is intended to be zylindersektorföraigen Part 25a of the already mentioned lining 25 to work together. By turning the handle 19, the screw spindle 35 can be moved towards the chuck part 25a move and consequently the latter to the fixed tube 12 press on «This makes the movable tube 13 on the stationary Kohr 12 fixed.

As can be seen in FIGS. 2 and 4, the fixed tube 12 has two diametrically opposite one another Longitudinal slots 37 and 38 through which a screw bolt 39 passes transversely. The latter is diametrically opposed to the arranged upper cuff 15 and also penetrates two Holes in the movable tube 13 », whereby the sleeve 15 is secured on the movable tube 13. The bolt 39 is surrounded by two sleeves 40 and 41 made of sliding material such as plastic. These sleeves slide along the flanks of the longitudinal slots 37 and 38. It is evident that the transverse bolt 39 penetrating the longitudinal slots 37 and 38 is the movable one Tube 13 secures against rotation with respect to the fixed tube 12. The length and arrangement of the LMngselitze 37 and 38 are such that the pipe 13 up to the

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hit the end flange 17 upwards and until it hits can be displaced downwards on the adjusting ring 18 which is set all the way down, while at the same time a rotation of the Rohres 13 is prevented.

The slide 14 has a part designed as a pipe clamp 44 which surrounds the displaceable pipe 13 and is fixed to this tube with the aid of screws 45. at Loosened screws 45 can slide the specimen slide 44 into any position along the tube 13 such as aucX, in any Set the rotation position. In the embodiment shown in Fig. 1, the slide 14 has a vertical arranged support rod 46, which has a bore of the The slide penetrates and is releasably held by means of a clamping screw 47. On the support rod 46 can a Laboratory device or apparatus can be attached or an intermediate piece for holding an object, such as e.g. a glass bulb. The design of the slide depends of course on the means of the tripod objects to be held.

Inside the fixed tube 12 is a Spring device 50, preferably in the form of a gas spring device known per se, which on the one hand on the Stand foot 11 and on the other hand engages the cross bolt 39 and endeavors to read the sliding tube 13 against the Influence of gravity to move upwards. The spring force of the device 45 is expediently chosen such that it is about the same size or a little larger than the sum of the weights of the displaceable tube 13, which is with the latter connected components, the slide 14 and of the apparatus or device that is usually to be attached to the latter.

In a modified (not shown) embodiment, the displaceable tube 13 is up over the end of the fixed tube 12 also extended and closed at the upper end. In this case are to limit the upward displacement of the tube 13 stops in the annular space between the tubes 12 and 13 present, and the upper end of the gas pressure spring device 50 is expediently supported on the closed upper end of the displaceable tube 13. To prevent turning of the displaceable tube 13 with respect to the fixed tube 12 can in this modified Ausf Uhrungsform of the Stand the stationary inner tube 12 at its upper end portion with at least one radially outwardly protruding Be provided with a bolt which engages in a longitudinal groove on the inner wall of the displaceable outer tube 13. Instead of But it is also possible to have the displaceable outer tube 13 at its lower end part with at least one radially inwardly protruding bolts or the like. to be provided, which is in a longitudinal groove or a longitudinal slot 37 or 38 of the fixed inner tube 12 engages.

Claims (9)

Parfumery and cosmetics 'Ä.Tß'. : "PATENTANWÄLTE DR. CLAUS REINLÄNDER DIPL-ING. KLAUS BERNHARDT _ \ _ D -8 MÖNCHEN 60 ORTHSTRASSE12 claims for protection 1. Tripod with an adjustable by means of a column held microscope slide, the column having a first tube attached to a stand and a tube attached to the latter has a slidably guided second tube with a larger diameter, which second tube surrounds the first coaxially, carries the slide and can be fixed to the first tube by means of a clamping device, characterized in that one (12) of the tubes (12, 13) forming the column has at least one longitudinal groove (37, 38) and on the other (13) of the tubes (12, 13) at least one radially protruding guide member (39) is arranged, which engages slidingly in the longitudinal groove (37, 38) and thereby a rotation of the tubes (12, 13) prevented with respect to each other. 2. Stand according to claim 1, characterized in that the longitudinal groove (37, 38) on the fixed first tube (12) present and the guide member engaging in the longitudinal groove (37, 38) is fastened to a displaceable second tube (13) Bolt (39) is. 3 · Stand according to claim 2, in which inside the fixed first tube a compression spring device, preferably a gas pressure spring, is arranged on which the slidable second tube is supported, characterized in that the fixed first tube (12) has two has diametrically opposite longitudinal slots (37, 38) and on the displaceable second tube (13) a dia- I ■ ■
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t II metrically extending transverse bolt (39) is arranged, which the penetrates both longitudinal slots (37, 38) of the first tube (12), and that one end of the compression spring device (50) engages on the cross bolt (39). 4. Stand according to claim 3 »characterized in that the cross bolt (39) at least in places with a slidable cover (41, 42) is provided, which is attached to the Flanks of one or the other longitudinal slot (37, 38) slidingly rests. 5 · Stand according to claim 4 or 5 »characterized in that the displaceable second tube (13) is axially shorter is as the fixed first tube (12) that last » res at its end facing away from the stand (11) with a radially outwardly projecting end flange (17) for Limitation of the displaceability of the second tube (13) is provided and the displaceable second tube (13) on its end facing away from the stand (11) a cuff (15) carried by means of the cross bolt (39) on the second Tube (13) secured and used as a stop for working together is formed with the end flange (17) of the fixed first tube (12). 6. Stand according to claim 5, wherein the outer diameter of the fixed first pipe is smaller than the inner diameter of the displaceable second tube, characterized in that in the sleeve (15) a sleeve-shaped lining (21) is used, which on the fixed first tube (12) slides and axially Direction via the sleeve (15) and the second tube (13) protrudes, and that the end flange of the fixed first tube (12) on its the slidable second Tube (13) facing end face has an annular groove (23) with a rubber-elastic buffer material (24) arranged therein in such a way that the protruding part of the lining (21) faces the buffer material (24) and the cuff (15) is prevented from hitting the end flange (17) hard. 7. Stand according to claim 5 or 6, characterized in that the displaceable second tube (13) at its dem Stand foot (11) end facing a second sleeve (16), in which a sleeve-shaped chuck (25) is inserted, which slides on the fixed first tube (12) and in the axial direction over the sleeve (16) and the second tube (13) protrudes so that the stationary first tube (12) between the stand (11) and the end of the displaceable second tube (13) facing this one axially adjustable adjusting ring (18) which serves as a stop to limit the displaceability of the second tube (13), and that the adjusting ring (18) on its dem displaceable second tube (13) facing end face has an annular groove (26) with a rubber-elastic buffer material (27) arranged therein, such that the protruding part of the lining (25) facing the buffer material (27) and a hard impact on the second Cuff (16) on the adjusting ring (18) is prevented. 8. Stand according to claim 7, characterized in that the second sleeve (16) the clamping device (25a, 34, 35) and an associated handle (19), the handle (19) being arranged on a rotatable screw spindle (35) which in a threaded hole (34) of a projection (33) of the sleeve (16) sits and one end against a Part (25a) of the chuck (25) can be screwed in such a way that the latter part (25a) is pressed against the stationary tube (12) will. 9. Stand according to one or more of claims 1 to 8, characterized in that the slide (14) a clamp (44) encompassing the displaceable second tube (13), which in a manner known per se in different positions along the second tube (13) and fixable in different rotational positions on the second tube (13) is.