CH701087B1 - Prism pole tripod. - Google Patents

Abstract

The invention relates to a stand (1) for holding and aligning a prism bar (2), with at least two legs (3), which are articulated to the tripod plate (4). On the tripod plate (4) an adjustable fastening device for the prismatic rod is mounted, which has an elongated, laterally from the tripod plate (4) protruding holding arm (8). The prism bar (2) can be detachably fastened to the holding arm (8) remotely from the stand plate (4) by means of a movable holding clamp (9), wherein the fixing device has a translational and a rotational movement of the holding arm (8) for aligning the prism bar (2 ) with respect to the tripod (1). The holding arm (8) is relative to the tripod plate (4) laterally displaceable, tiltable and rotatable and can be fixed in any position with a single clamping screw (11) in a stable position on the tripod plate (4).

Description

       

  The invention relates to a tripod for receiving and positioning a prism bar, which is formed by at least two legs, in which the legs are hinged to a tripod.

  

Prismatic rods are used in surveying work with electro-optical surveying equipment. They must always be held vertically during the survey. When manually positioning the prism bar, which usually has a reflector for a laser beam at its upper end, any small hand movement directly affects the accuracy of the survey. For an accurate measurement, it is thus necessary to erect the prism pole stable at the respective measuring point. Prism poles can only be set up in loose soil without further aids. However, if surveying work is to be carried out on hard ground, for example on solid roads, paved squares or on rocky ground, additional retaining devices, for example tripods, must be used for fixed installation of the prism poles.

  

Tripods have long been used in the field of surveying for the fixation of escape rods that can not be rammed into the ground on hard ground. For such a case, it is known to bring the escape rod with a Fluchtstabstativ, which is designed as two- or tripod with mounting clip for the escape bar to stop.

  

[0004] Escape rods can also be used for receiving and positioning prism rods. With known Fluchtstabstativen can be in practice by the local conditions often vertical alignment of the prism bar, in a safe state, impossible or difficult. Aligning the prism poles is often difficult, since at different locations, the prism pole tripod must be adapted to the particular terrain formation. Thus, the construction is often time consuming, which is undesirable.

  

The invention is therefore based on the object to propose a tripod for holding and positioning a prismatic bar, which is easy and quickly adaptable to different, insbesondre sharply inclined terrain forms and the prismatic bar in a certain angle relative to the terrain reliably in a desired Position fixed.

  

This object is achieved by a tripod with the features of claim 1. Further advantageous embodiments of the invention can be found in the dependent claims.

  

The inventive tripod has on a tripod plate on a fastening device with a support arm, which allows a translational and a rotational movement of the support arm for aligning with respect to the tripod plate. The support arm serves to receive and position the prism bar, wherein the support arm has an elongated shape and projects laterally from the tripod plate. The support arm can be laterally displaced, tilted and rotated relative to the tripod plate and is fixed in a fixed position in a set position with a clamping screw. On the support arm of the prism bar, away from the holding device of the tripod plate, releasably fastened.

   It is expedient first to set up the stand with an approximately horizontally aligned tripod plate, then to fasten the prism pole to the holding arm with a loose clamping screw and finally to align the prism pole, so that the fastening device is adjusted by the action of the prism pole. After aligning the prism bar is fixed by tightening the clamping screw in the respective position.

  

The tripod is formed by at least two, preferably three legs, which are hingedly connected to the tripod plate. Such tripods are well known and common in various embodiments.

  

A tripod having at least three legs, is self-standing by itself. It does not tip when properly installed. Such a tripod can laterally support one or more bars standing loosely on the ground next to the stand and thus hold them in a desired, for example, vertical position. Such a tripod need only be roughly aligned prior to attachment of the prism pole. The tripod plate does not necessarily have to be aligned horizontally, which speeds up the erection of the tripod. The attachment of the prism bar to the sideways protruding arm is easy and fast, preferably by clamping, make. Subsequently, the alignment of the prism bar, wherein the fastening device follows the movements of the prism bar with loose clamping screw.

   The support arm carried by the fastening device is adjustable in all directions with respect to the tripod plate. To position the prism bar, it can be placed on the ground at the respective measuring point and swiveled until the bar is vertical and can be fixed.

  

A tripod with only two legs does not stand by itself. At him must first be attached to the prism bar to form a tripod. Otherwise, the attachment of the prism bar in the same manner as in the tripod with three legs. Its alignment is carried out in a similar manner, with a height movement of the prism bar causes loose pivoting of the two legs of the tripod, so that for a stable installation of the prismatic pole, depending on the terrain deformation, a multiple length adjustment of the legs of the tripod may be required. Aligning a prism pole using a biped tripod is more difficult than using a tripod tripod.

  

Tripod plates of standard tripods usually have in their center a cylindrical passage opening for receiving holders for objects, such as surveying equipment on. In a preferred embodiment of the invention, the attachment means of the stand on both sides of such a central cylindrical passage opening of the tripod plate depending on an upper and a lower annular abutment and a respective upper and lower clamping jaw, which are supported on the respective abutment. The abutments are provided for the cylindrical openings of the tripod plate of standard tripods. They are formed according to the diameter and the length of the passage opening and firmly connected to the tripod plate, preferably by pressing.

   The upper and lower jaws abut against the abutments and are held by the clamping screw. With loose clamping screw, the upper jaw and / or the lower jaw, for aligning the support arm, perform a circular or tumbling movement with respect to a longitudinal axis of the passage opening.

  

In a desired position of the support arm both jaws can be pressed by tightening the clamping screw to the abutment of the tripod plate and so with respect to the tripod plate on which the abutment are rotatably attached fixed. The abutment engage over a part of their axial length from an upper and lower side of the tripod plate ago in the cylindrical passage opening of the tripod plate and are based on a ring collar on the respective side of the tripod plate. By moving the upper jaw, from which protrudes laterally the support arm for the prism bar, the support arm with respect to the tripod plate is arbitrarily aligned and fixed in the respective position. In this case, the holding arm can be guided by the prism pole or by hand.

   When aligning the prism bar movably connected to the support arm, movement of the prism bar causes a corresponding automatic pivoting and / or tumbling motion of the attachment without altering the position of the tripod and support legs.

  

Advantageously, the upper jaw on a first upper clamping part and a second lower clamping part, which clamp the support arm between them. It seems expedient to provide guides on the two clamping parts, which guide the upper and the lower clamping part with loose clamping screw in the clamping direction. Transverse to the clamping direction of the support arm is in corresponding, opposite grooves of the clamping parts. With loose clamping screw, the holding arm can be displaced in the longitudinal direction, whereby the distance of the prism bar to the central passage opening of the tripod plate is variable. By tightening the clamping screw the two clamping parts are pressed against the support arm and the two clamping jaws on the abutment on the tripod plate at the same time. Thus, the prism bar is fixed in its set position stable.

  

Preferably, at least one each of mutually associated contact surfaces of the upper abutment or the upper jaw or the lower abutment or the lower jaw on a spherical curvature. Thus, a linear contact along a contact line between the respective jaws and the associated abutments is achieved, so that the two jaws can perform a rotational and / or tumbling movement with respect to their abutments and also can be pressed firmly in any position to the abutment of the tripod plate , The contact line is in particular circular, which also allows a simple rotational movement. The movement of the upper and lower jaws are coupled together.

   They move together with respect to the abutment and the central longitudinal axis of the passage opening of the tripod plate. The virtual fulcrum for the rotational or tumbling motion is in the region of the abutments between the respective clamping jaws of the fastening device, on the central axis of the passage opening.

  

Preferably, the clamping screw extends in the center of the fastening device from the upper jaw to the lower jaw. To accommodate the clamping screw central holes in the two clamping jaws and recesses in the abutments are provided, wherein the clamping screw in the upper jaw loosely guided with little play and with a provided on the lower jaw thread is engaged. The clamping screw can also interact with a nut attached to the lower jaw nut. Depending on the direction of rotation, the fastening device can be fixed or released by turning the clamping screw in order to align or stabilize the prism pole.

  

In a further advantageous embodiment, the holding arm at a, the upper jaw far, end a rotatable retaining clip which projects laterally beyond the support arm. The retaining clip is used for releasably securing the prism pole. It clamps the prism bar on its circumference. The retaining clip is movably attached to the support arm and pivotable about an axis of rotation that is perpendicular to the longitudinal direction of the support arm, preferably in a horizontal plane.

  

The invention will be explained in more detail with reference to an embodiment shown in the drawing. Further features of the invention will become apparent from the following description of the embodiment in conjunction with the claims and the accompanying drawings. Show it:
<Tb> FIG. 1 <sep> is a perspective view of a tripod according to the invention with the prism pole attached thereto; and


  <Tb> FIG. 2 <sep> an enlarged sectional view of the tripod plate with the fastening device for the prism bar of FIG. 1.

  

1 shows an inventive tripod 1 for receiving and positioning a prismatic pole 2. The tripod 1 has the usual three equally long, spreadable and collapsible and adjustable length straight legs 3, which are hingedly connected to a tripod plate 4. The legs 3 are pivotable about not visible in the drawing pivot axes of the stand plate 4, which are provided on the outside of the circumference. The length adjustment of the legs 3 of the stand 1 by means of clamping devices 5 of the telescopically formed profiles 6 of the legs. 3

  

The stand 1 carries on the tripod plate 4, a fastening device 7, with a holding arm 8, which has at its end remote from the stand plate 4 a retaining clip 9 for releasably securing the prism bar 2. The prism bar 2 is just like the legs 3 of the rod 1 on a floor 10. The fastening device 7 is attached by means of a central clamping screw 11 to the tripod plate 4. To align the prism bar 2, a loosening of the clamping screw 11 is necessary.

  

With loose clamping screw 11, the holding arm 8 can perform a translational movement and a rotational movement, i. E. it can be displaced in the longitudinal direction with respect to the tripod plate 4, rotated in the circumferential direction of the tripod plate 4 and pivoted with respect to a flat side 12 of the tripod plate 4. The movements can be performed independently, so that a simultaneous displacement, rotation and pivoting of the support arm 8 relative to the tripod plate 4 is possible. The holding arm 8 can be fixed in any position by tightening the clamping screw 11. Depending on the orientation of the support arm 8, the position of the retaining clip 9 changes with respect to the tripod plate 4, whereby the prism bar, which is attached to the retaining clip 9, preferably perpendicular, can be aligned.

  

Fig. 2 shows the tripod plate 4 with the fastening device 7 in an enlarged view. The fastening device 7 for the prism pole 2 extends in the center of the tripod plate 4 through a cylindrical passage opening 13, on which on an upper flat side 12 an upper abutment 14 for an upper jaw 15 and pressed on the opposite side, a lower abutment 16 for a lower jaw 17 are. The jaws 15, 17 are additionally supported by an annular collar 18 on the tripod plate 4. At the abutments 14, 16 are the jaws 15, 17 and are by means of the clamping screw 11, which holds the jaws 15, 17, to the abutment 14, 16 by tightening the clamping screw 11 pressed.

  

The upper jaw 15 is divided in the direction of the upper flat side 12 of the tripod plate 4. It has an upper clamping part 18 and a lower clamping part 19 which clamp the holding arm 8 with the tightening screw 11 tightened between them. With loose clamping screw 11, the support arm 8 can be moved transversely in the longitudinal direction relative to the tripod plate 4. On the tripod plate 4 far end of the support arm 8, the retaining clip 9 is arranged. It protrudes laterally beyond the holding arm 8 and is rotatable about an axis of rotation 20 that is oriented orthogonally to the longitudinal direction of the holding arm 8. The holding arm 8 is preferably designed as a cylindrical rod or as a cylindrical tube and thus rotatable with loose clamping screw in the circumferential direction with respect to the upper jaw 15.

   Thus, the inclination of the retaining clip 9 with respect to the tripod plate 4, when aligning a prism bar 2, not shown in FIG. 2, is variably adjustable.

  

The jaws 15, 17 are, with loose clamping screw 11, relative to the abutments 14, 16 in the manner of a ball joint rotatable and pivotable. Thus, the direction of the support arm 8 with respect to the tripod plate 4, in particular its inclination to the upper flat side 12, are set to a wide extent. The holding arm 8 can be fixed in any position to the tripod plate 4 by tightening the clamping screw 11 relative to the tripod plate 4.

  

The clamping jaws 15, 17 have contact surfaces 21, 22 and the abutment 14, 16 corresponding contact surfaces 23,24, which are pressed together with the tightening screw 11. The contact surface 23 of the upper abutment 14 and the contact surface 22 of the lower jaw 17 are annular and show a spherical curvature. The respective associated contact surfaces 21, 24 of the upper jaw 15 and the lower abutment 16 are conical and inclined to the clamping screw 11. With loose clamping screw 11, the contact surfaces 21, 22 of the clamping jaws 15, 17 along the contact surfaces 23, 24 of the abutment 14, 16 move.

   Thus, the fastening device 7, together with the holding arm 8 and the retaining clip 9, in the orientation of the prism bar 2 perform a circular or tumbling movement with respect to the tripod plate 4. At the same time, the holding arm 8 with the retaining clip 9 can still perform a transverse and a rotational movement relative to the clamping jaws 15, 17, until the fastening device 7 is fixed by tightening the single clamping screw 11 on the tripod plate 4.


    

Claims (6)

A stand (1) for receiving and positioning a prism pole (2), which is formed by at least two legs (3), in which the legs (3) are articulated to a tripod plate (4), characterized in that Tripod plate (4) has a fastening device (7) with a holding arm (8) which allows a translational and a rotational movement of the support arm (8) for aligning relative to the tripod plate (4), wherein the holding arm (8) has an elongated shape and protrudes laterally from the tripod plate (4) and by means of a clamping screw (11) in a desired orientation to the tripod plate (4) can be fixed. 2. Stand according to claim 1, characterized in that the fastening device (7) on both sides of a central cylindrical passage opening (13) of the stand plate (4) each have an upper and a lower, annular abutment (14, 16) and one upper and one lower Clamping jaw (15, 17), wherein the abutments (14, 16) in the passage opening (13) engaging inextricably connected to the tripod plate (4) and the clamping jaws (15, 17) with respect to the abutment (14, 16) arbitrarily alignable and in the respective position by means of the clamping screw (11) to the abutment (14, 16) are pressed. 3. Stand according to claim 2, characterized in that the upper clamping jaw (15) has a first, upper clamping part (18) and a second, lower clamping part (19), the holding arm (8) with the tightening screw (11) between them terminals. 4. Stand according to claim 2 or 3, characterized in that at least one of the mutually associated contact surfaces (23, 21), (24, 22) of the upper abutment (14) or the upper jaw (15) and the lower abutment (16 ) or the lower jaw (17) have a spherical curvature. 5. Stand according to one of claims 2 to 4, characterized in that the clamping screw (11) extends in the center of the fastening device (7) from the upper jaw (15) to the lower jaw (17). 6. Stand according to one of claims 2 to 5, characterized in that the holding arm (8) at one of the upper jaw (15) far end a rotatable retaining clip (9) which projects laterally beyond the support arm (8).