DE20320092U1 - Christmas tree stand, comprising rope guided around pulley acting on four swivel mounted levers - Google Patents

Abstract

The stand is assembled of a circular base (1) and a cylindrical tree trunk insertion area (2) joined to the upper surface of the base (1). Four radial extensions (5, 10), each comprising two segments with a vertical gap between them are arranged around the cylinder (2). An upper lever (3) is swivel mounted with its lower end to the upper end of a lower lever (7) accommodated inside each of the gaps. A rope (9) is guided around the arrangement and can be tightened or released by turning a pulley (11) with the foot.

Description

The invention relates to a Christmas tree stand the features specified in the preamble of claim 1.

A Christmas tree stand of the generic type is from the DE 100 11 712 A known. This Christmas tree stand has a base and an attached receiving part for holding the tree trunk. The tree trunk itself is clamped in the receiving part by means of at least two holding elements in the form of double-sided levers arranged around a vertical central axis of symmetry. The lower legs of the levers are pivoted by engaging lever parts arranged on an annular path of the base with guide curves against the force of a return spring with relative rotation of the annular path. In other designs, one-sided levers or toggle levers are provided, the pivot axes of which are located above the receiving part and which pivot and clamp in the direction of the tree trunk by means of cables or springs acting directly on the legs. In other versions, toggle levers are pivoted in a controlled manner via hydraulic devices.

Furthermore, from the EP 0 419 972 B a Christmas tree stand with a foot part known. A receiving part for the trunk of the Christmas tree is arranged on the foot part. This receiving part is surrounded by a plurality of holding elements arranged around the axis of symmetry, which can be moved between an open position and a holding position in planes which intersect at least approximately in the axis of symmetry, the holding elements in the holding position bearing against the trunk of the Christmas tree with a contact area under pressure , The holding elements are actuated by means of a single tensioning device which acts on all holding elements via a force transmission element and moves the holding elements into the holding position with a holding force which can be adjusted in their final value. The holding elements can be moved together without a positive connection. The holding elements initially lie essentially without force on the trunk. By actuating the force transmission element, the holding elements are pressed against the trunk of the Christmas tree in one go with essentially the same holding force. One end of the power transmission element, which is a traction cable, is direct, and the other end is connected indirectly to the foot part via the tensioning device. In this known embodiment of Christmas tree stands, the force transmission elements are arranged above the enclosing housing so that they are visible. In the other embodiments described at the outset, relatively complicated, difficult-to-use force transmissions are implemented in order to be able to apply the desired holding force of the holding elements.

The present invention lies based on the task of designing a Christmas tree stand so that all Elements arranged below the upper edge of the receiving part are for those Force transmission to the holding elements are required, so that the structure closed by a housing can be covered and if necessary only the upper ends of the Protruding elements protrude. Furthermore, one should, if possible simple and easy to assemble construction.

The object is achieved by the invention through configuration of the Christmas tree stand according to the features specified in claim 1.

Advantageous further developments of Invention are in the subclaims specified in detail.

The configuration according to the invention makes it possible to move all the force transmission elements required for driving the holding elements into the housing of the Christmas tree stand, so that only the upper legs of the holding elements protrude from the housing. The Christmas tree with its tree trunk can be inserted centrally into the receiving part and is held securely by turning the tensioning wheel around the retaining elements that create a pressure force independently of one another. This means that a retaining element that is already in contact forms an abutment for the traction cable and thus for the retaining elements that are not yet in contact. The holding elements that have not yet been completely moved into the clamping position continue to be pivoted until an equalization of the clamping forces of all holding elements, eg. B. 3, 4 or 5 is provided. In order to achieve the desired pivoting movements, it is provided in one embodiment that the pivotable holding elements, namely the lever arms protruding below, are gripped behind by the pull rope, i.e. the pull rope is guided between the lever arms and the wall of the receiving part, and via supports which extend essentially radially outwards, is deflected so that when a tensile force is exerted on the cable, the upper lever arms of the holding elements automatically pivot towards the axis of symmetry. In another embodiment, this is brought about by the fact that the pulling rope does not act directly on the lower lever arms of the holding elements, but indirectly via intermediate force transmission elements, which are displaceably and rotatably mounted in at least one groove in the wall of the receiving part and / or the bottom part , These power transmission elements each engage under a guide curve on the lower lever arms with a pressure surface. By exerting a force component exerted by the traction cable in the direction of the axis of symmetry, the force transmission element is displaced in a guided manner and at the same time also moved upward, that is to say rotated upward in the guides, so that the holding elements are also with them upper terminal ends are pivoted toward the axis of symmetry. In this arrangement, the deflection points or the supports, around which the traction cable is guided, lie between the outer hole guide in the power transmission element for the traction cable and the wall of the receiving part. As useful deflection elements, supports in the form of ribs or bolts can be attached to the bottom part. This practically provides a kinematic reversal of the movement for the first execution.

In all cases it is provided that in Case of turning back the tensioning wheel that tensions the traction cable, the resetting of the holding elements in the open position via return springs takes place, which act individually on the holding elements, as this from the State of the art is also known. In the first embodiment, in which the lower lever arm is gripped directly by the pull rope a spring has proven to be particularly advantageous in the form of a rubber ring, running above the pull rope attachment point, to arrange and to an abutment on the wall of the receiving part attach so that a constant pulling force on each holding element exercised is and the holding elements when not loaded by the pull rope automatically in the open position pivot. This embodiment also has the advantage that the return spring is not visible appears. Other spring arrangements are of course also possible. To over when pulling the pull rope short distances a high degree of pivoting can be achieved it attached that the end faces the support arms, on which the traction cable rests, have a greater longitudinal curvature than the other sections of the lever arms. This practically becomes a translation realized. The pull rope is over the Tensioned wheel tensioned. This tensioning wheel is rotatably arranged on an axis, which extends radially to the axis of symmetry of the Christmas tree stand. The tension wheel is in the simplest embodiment as a cylindrical one Wheel formed in a different form, at the same time the Tensioning wheel an increased Exerts tension, as a bevel gear with an increasing conical surface towards the axis of symmetry. The Tensioning wheel supports yourself on a retaining wall. By exercising Frictional force on the surface the retaining wall self-retention can already be brought about. It is also possible, the tensioning wheel additionally via a Lock the locking mechanism in the respective rotary position. The tension wheel itself is about an actuator, preferably a foot control, that is either statically attached to the axle or on one Approach on the axis or in a mounting hole inserted against rotation can be rotated, so that the actuating element only when needed can be attached and protrudes from the Christmas tree stand. In the event of using an axial locking mechanism, the tensioning wheel must be between the bearings axially by a height be movable, which corresponds to the height of the locking slats. Instead of one Axial locking devices can also have a radial locking device on the wheel be provided, e.g. B. a radial ring gear made of triangular teeth, in the a ratchet engages so that the wheel is locked, itself through the actuator can move in both directions. It is also possible to use a Locking mechanism with the tension wheel over axial driving pins, which preferably protrude 180 ° on the front and engage in a guide curve with the stop edge in the tensioning wheel, to couple, so when moving back there is an axial decoupling from the locking mechanism and the return springs automatically move the holding elements into the open position can, being a provision at the same time of the tensioning wheel in the starting position.

It has also proven advantageous proved the ends of the traction cable between two holding elements fix the bottom part and the pull rope itself by a radial Pass through hole in the tension wheel. By this arrangement is a great translation possible, so that even with a few angular degrees of the wheel desired The tree trunk of the Christmas tree is clamped. So that one sufficient tension on the traction rope, which is usually a steel rope is, which can also be made of plastic can, is the actuator as in the known versions also as a foot control educated.

Advantageous further developments of Invention are based on the embodiments shown in the drawings additional explained. Show in the drawings

1 a Christmas tree stand of the type according to the invention in a schematic perspective view with the outer housing removed with holding elements in the open position,

2 the in 1 Christmas tree stand shown schematically in the position in which the holding elements are in the largest possible clamping position and

3 a further schematic representation of a Christmas tree stand in a partial view, in which the pivoting of the holding elements takes place by means of additional force transmission element.

The embodiment in the 1 and 2 shows a Christmas tree stand according to the invention. This consists of a bottom part 1 , which can have a diameter of 385 mm, for example. All other elements of the Christmas tree stand are attached to the base part, which are easy to clamp and thus fix the tree trunk of the Christmas tree in the receiving part 2 are needed. On the bottom part 1 a cylindrical receiving part is placed around a central axis of symmetry 2 provided that has a cylindrical wall. Are distributed by 90 ° on this Wall pair of parallel supports 10 provided to the outside, which are designed as rib walls. The holding elements are located between the pair of rib walls 3 that are pivotable about the pivot axes 4 in the supports 10 are stored. The holding elements 3 have the swivel axes on the underside 4 protruding lever arms 7 on that extend down. These lever arms 7 can e.g. B. the in 1 have dashed lines. The extended lower lever arms 7 but can also between two narrowing of the supports 10 be guided so that the holding elements 3 are guided both on the top and bottom. The lower lever arms 7 are made relatively narrow, so that between the supports arranged on both sides 10 and the lower lever arm 7 a pull rope around it 9 can be inserted. The course is over 1 , left illustration can be seen. This pull rope is around the supports 10 deflected, which, like the wall of the receiving part 2 , on the bottom part 1 are attached, for example, the entire structure can be made of plastic. The pull rope 9 is redirected over all existing supports. The ends of the pull rope 9 can be connected to each other, but they can also be attached to the bottom part, preferably between the two holding elements 3 that the tension wheel 11 are opposite. The pull rope 9 is via a tension wheel 11 led that on an axis 13 is rotatably mounted, which extends radially to the axis of symmetry. The tensioning wheel used here 11 is a bevel gear, so that self-tension while pressing the wheel against the support wall 14 given is.

The pull rope 9 can pass through a through hole 23 be guided, but it can also be attached to the tensioning wheel in a different manner. It can also be the ends of the pull rope 9 in the through hole 23 introduced and held securely therein, for example by means of clamping elements. The guidance of the pull rope 9 takes place over the supports 10 and the possibly existing deflection bolts on the supporting wall 14 in such a way that when the rope rotates in one direction, the bevel gear is wound up in the direction of the support wall 14 is shifted and secured when rotating in the other direction. The tension wheel is operated 11 by means of, for example, a foot-operated lever, which passes through a through hole in a bearing wall 24 is inserted centrally into a receptacle of the wheel and is held in a rotationally secured manner. However, it can also be provided that the wheel has a bearing pin with a square or hexagonal shoulder protruding from the bearing bore, onto which the foot actuating element can be attached. The tensioning wheel can now be moved by foot 11 for example, be turned clockwise, the pull rope 9 is stretched, causing the holding elements 3 around the axes 4 swing. The lower lever arms 7 are thus pivoted outwards, while the upper lever arms of the holding elements 3 pivot towards the axis of symmetry. When coordinating the materials of the tensioning wheel and the support wall 14 can be ensured by frictional engagement that there is a secure hold after the tree trunk is clamped. But it is also possible to add z. B. provide an axial locking mechanism, so that the tensioning wheel can be advanced to the following division when advancing in one direction of locking and / or ring gear divisions. The tensioning wheel is used to release the bond 11 moved in the other direction. The tension wheel 11 is shifted in the axial direction by the height of at least one lamella of the locking teeth. Due to the locking mechanism, it can be locked in any angular position of the tensioning wheel. The reset takes place via the return spring 8th , which is an abutment in the illustrated embodiment 20 on the wall of the receiving part 2 one hand finds and its other abutment 21 the outer face of the lower lever arm 7 is. In 2 the rope is not shown. However, it runs in the same way as in 1 shown.

In the embodiment in 3 , which is shown schematically only a holding element 3 shows, this is by a power transmission element 17 pivoted. This power transmission element 17 is arched and for example in a groove 16 guided in the wall of the receiving part against lateral displacement. This can be done, for example, by means of a rib that goes into the groove 16 intervenes. An additional guide can also be on the underside in the bottom part 1 be provided. The arcuate power transmission element 17 is both slidable and rotatable at the same time. With the lower leg, it protrudes the lower lever arm 7 of the holding element 3 that around the axis 4 on the wall of the receiving part 2 is pivotally mounted. The upper end of the power transmission element 17 has a printing area 18 on that rubbing against the leadership curve 15 of the lower lever arm 7 is applied. It can be seen that when the power transmission element is rotated and displaced 17 the pressure surface in the direction of the symbolically drawn axis of symmetry 18 of the power transmission element 17 the holding element 3 reaches under and the holding element 3 pivoted and at the same time on the guide curve 15 slides along. In this case, the pull rope works 9 a force component in the direction of the axis of symmetry. For this purpose the pull rope is 9 deviating from the example in the 1 and 2 to bolt-shaped supports 10 that on the bottom part 1 are attached, redirected. These bolt-shaped supports 10 are to the side of the power transmission element 17 offset in the direction of the wall of the receiving part 2 as far as set back that even at the highest Degree of pivoting of the holding elements 3 another pulling force on the power transmission element 17 is used for what purpose the pull rope 9 is pulled through one end of the arcuate power transmission element. Will the pull rope 9 relaxed, this is what causes here at the abutment 20 on the bottom part 1 on the one hand attached return spring 8th that with the other end to the abutment 21 above the swivel axis 4 on the holding element 3 is attached that the holding element 3 pivoted into the open position shown. It goes without saying that the receiving part 2 can also be filled with water, especially if all elements are made of plastic and only the moving parts are retrofitted. When using a locking mechanism with an axially disengageable coupling wheel, it is possible to ensure a complete connection of the holding elements into the open position by depressing the foot lever once. If such an axially disengageable drive wheel is not used, the same can also be effected by means of an appropriate stepping circuit.

1

the bottom part

2

receiving part

3

retaining elements

4

swivel axis

5

holder

6

cross-

7

lever arms

8th

Return spring

9

rope

10

Support

11

tensioning wheel

12

bearings

13

axis

14

retaining wall

15

guide curve

16

groove

17

Power transmission element

18

print area

19

breakthrough

20

abutment

21

abutment

22

guide flange

23

Through Hole

24

bearing wall

Claims (17)

Christmas tree stand, having a base part ( 1 ), a recording part ( 2 ) on the bottom part ( 1 ) for the tree trunk, at least two in relation to the central axis of symmetry in the receiving part ( 2 ) arranged holding elements ( 3 ) around horizontal swivel axes ( 4 ) on holders ( 5 ) on the bottom part ( 1 ) and / or on the wall of the receiving part ( 2 ) are pivotally mounted and can be moved from an open position into a holding position in which the holding elements ( 3 ) the tree trunk with gripping ends ( 6 ) pinch which holding elements ( 3 ) are designed as double-leg levers and below the swivel axes ( 4 ) lying lever arms ( 7 ) which are operatively connected to an actuating device which the upper lever arms of the holding elements ( 3 ) pivot by force in the direction of the tree trunk, which holding elements ( 3 ) when the force component is withdrawn by means of return springs ( 8th ) can be brought into the open position, characterized in that the force is applied to the holding elements ( 3 ) a pull rope ( 9 ) is provided, which on abutments between two holding elements ( 3 ) is attached with the ends or attached in a ring shape and on the inner sides of the lower lever arms ( 7 ) the holding elements ( 3 ) acts directly or indirectly via a force transmission element when a pulling force is exerted, which pull rope ( 9 ) in relation to the swivel axes ( 4 ) the holding elements ( 3 ) around radially offset supports ( 10 ) deflected in this way and on a tensioning wheel rotatably mounted on a radial axis and lockable in different angular positions ( 11 ) is attached so that when the tensioning wheel is turned ( 11 ) the pull rope in one direction ( 9 ) is tensioned and the holding elements ( 3 ) against the force of the return spring ( 8th ) in the direction of the tree trunk and when rotating in the opposite direction, the holding elements ( 3 ) are relieved, and the return springs ( 8th ) the holding elements ( 3 ) swing back into the open position. Christmas tree stand according to claim 1, characterized in that the lower lever arm ( 7 ) on the holding element ( 3 ) an arched or rectilinear extension of the upper lever arm is that the supports ( 10 ) with the wall of the receiving part ( 9 ) connected ribs and / or on the bottom part ( 1 ) attached bolts or ribs and for the deflection of the traction rope so far, essentially radially outwards relative to the pivot axis, that in the holding position of the holding elements 3 on the lower lever arm ( 7 ) by the pull rope ( 9 ) a radial outward force component is exerted. Christmas tree stand according to claim 2, characterized in that the lower lever arm ( 7 ) at least in the contact area of the pull rope ( 9 ) has a greater longitudinal curvature on the front end face than on the other sections. Christmas tree stand according to claim 2, characterized in that the pull rope ( 9 ) in grooves in the rib-shaped or bolt-shaped supports ( 10 ) related to the level of the bottom part ( 1 ) is carried out at a certain height. Christmas tree stand according to claim 1 or 2, characterized in that the pivot axes ( 4 ) the holding elements ( 3 ) are formed from laterally protruding bearing bolts, which are placed in bearing holes or in bearing shells ( 12 ) in supports that also form lateral guide walls ( 10 ) are used. Christmas tree stand according to one of the preceding claims, characterized in that the tensioning wheel ( 11 ) is a conical wheel and on an axis running radially to the axis of symmetry ( 13 ) is rotatably supported, the larger diameter of the conical wheel ( 11 ) on a retaining wall ( 14 ), which is essentially tangential to the receiving part ( 2 ) runs and that the tensioning wheel ( 11 ) has a bearing or a projecting bolt on which a foot rocker actuating element or a one-sided foot lever can be fastened, the actuating wheel of which, when actuated in one direction, 11 ) rotates through a certain angle, which, given the appropriate interpretation of the ratio by the wheel diameter and the determination of the attack height of the pull rope ( 9 ) on the lower lever arm ( 7 ) of the individual holding elements ( 3 ) and the pitch angle of the conical part of the tensioning wheel ( 11 ) the holding elements ( 3 ) can be moved from the open position to the holding position, and that with the reverse direction of movement of the tensioning wheel ( 11 ) on the lower lever arms ( 7 ) acting return springs ( 8th ) swing them back and release the tree trunk. Christmas tree stand according to claim 1, characterized in that the lower lever arm ( 7 ) on the face to the wall of the receiving part ( 2 ) directed a guide curve ( 15 ) in the longitudinal direction, which for indirect pivoting of a pressure surface ( 18 ) one can be moved and rotated in at least one groove ( 16 ) the wall of the receiving part ( 2 ) and / or the bottom part ( 1 ) mounted arcuate power transmission element ( 17 ), a transverse opening at the lower end, which is the most distant from the axis of symmetry ( 19 ) or holder for the pull rope ( 9 ) has that the swivel axis ( 4 ) of each holding element ( 3 ) through in storage bores in the side retaining walls of the receiving part ( 2 ) is formed that the supports ( 10 ) Ribs or bolts for the deflection of the traction cable, which are between the opening ( 19 ) and the wall of the receiving part ( 2 ) to the side of the power transmission element ( 17 ) are arranged associated with the lower leg of the arcuate force transmission element ( 17 ) is so long that it is tensioned when pulling the pull rope ( 9 ) the pillars ( 10 ) protrudes radially and always has a tensile force on the power transmission element ( 17 ) is exercised. Christmas tree stand according to claim 2 or 7, characterized in that the holding element ( 3 ) or a lower extension on it or the lower lever arm ( 7 ) is guided between two guide walls when swiveling. Christmas tree stand according to claim 1 or 7, characterized in that the return spring ( 8th ) is a tension or compression spring, and that the abutment ( 20 . 21 ) one end of the return spring ( 8th ) opposite the lower lever arm ( 7 ) and that of the other end are positioned so that the spring force of the return spring ( 8th ) acts counter to the cable pulling force. Christmas tree stand according to claim 1, 2, 6, 7 or 8, characterized in that the tensioning wheel ( 11 ) is coupled to an axial or radial locking mechanism, which allows the tensioning wheel ( 11 ) in both directions of rotation and a self-locking lock. Christmas tree stand according to claim 10, characterized in that the locking mechanism consists of an end face on the conical tension wheel ( 11 ) with the largest diameter provided ring consists of sawtooth-shaped lamellae that fit into the contour-adapted lamellae of a fixed ring gear on the supporting wall ( 14 ) engage latching, the axial bearing play of the tensioning wheel ( 11 ) corresponds at least to the height of two intermeshing slats. Christmas tree stand according to claim 6, characterized in that the tensioning wheel ( 11 ) at least on the outside a guide flange ( 22 ) for the pull rope ( 9 ) having. Christmas tree stand according to claim 1, 7 or 10, characterized in that the tensioning wheel ( 11 ) at least one transverse through hole ( 23 ) for passing the pull rope ( 9 ) or its ends, which on the tensioning wheel ( 11 ) are attached. Christmas tree stand according to claim 13, characterized in that in the region of the supporting wall ( 14 ) Deflecting bolts extending essentially radially to the axis of symmetry at the height of the bearing grooves in the supports ( 10 ) of the pull rope ( 9 ) are provided, which the pull rope ( 9 ) or their ends on the tensioning wheel ( 11 ) lead redirected. Christmas tree stand according to claim 9, characterized in that with each holding element ( 3 ) a return spring ( 8th ), preferably made of metal or rubber, which is above the pivot axis ( 4 ) on the one hand and stationary on the bottom part ( 1 ) attacks on the other. Christmas tree stand according to claim 1 or 10, characterized in that the tensioning wheel ( 11 ) between the retaining wall ( 14 ) and a storage wall ( 24 ) is arranged. Christmas tree stand according to claim 1, 6, 7 or 10, characterized in that the tensioning wheel ( 11 ) has a flute-shaped jacket wall and is coupled to an axially displaceable wheel of a radial locking mechanism with an external toothed ring against the force of a spring arrangement. 11 ) moves away and releases it for a return movement.