JP2007518474A - Brake device for work desk - Google Patents

Abstract

  The present invention is a brake device (14A) for a work desk (1), a work plate (2) that can be tilted around a horizontal connecting shaft (3), and a work plate (2) in each tilted state. A support bar (8) is provided. The support bar (8) is guided by a guide device that can be fixed to the equipment body (5), and the brake device (14A) is moved to the support bar (8) when the work plate (2) moves downward. Apply the brakes. The brake device (14A) has a wedge assembly (30) that is movably mounted relative to the support post (31), along which the support bar (8) is longitudinally moved during its upward or downward movement. Sliding along the direction. The support bar (8) is moved in the upward direction so that the support bar (8) is essentially released from the wedge assembly (30) and the braking action of the braking device is completely or essentially canceled. Move the wedge assembly (30) to the release position. The wedge assembly (30) is sandwiched between the support column (31) and the support bar (8) at one brake position when the support bar (8) moves downward, and the support bar (8) ) Slides along the wedge assembly (30) by friction and is braked by the wedge assembly (30).

Description

Detailed Description of the Invention

The present invention relates to a work desk brake device including a work plate and a support bar that can be adjusted by being tilted around a horizontal connecting shaft in order to support the work plate at an arbitrary inclination angle. Is guided by a guide device to be fixed to the furniture body, and the brake device brakes the support bar when the work plate moves downward.
This type of work desk brake device is derived from, for example, German Patent Application No. 10229617.0. When the work plate is adjusted downward, in the case of a known brake device, the brake shoe or the brake block (brace control) contacts the support bar. Other than that, for example, if the user's hand is pinched between the work board and the furniture body and there is a risk of injury, it will face down to prevent damage or damage to many work desk structures at all. The work plate should be fixed during position adjustment.
The known brake device can be actuated simultaneously by operating elements used to unlock the tilt adjustment device. After unlocking the tilt adjusting device, the work plate can be adjusted in the downward direction.
Known brake devices are actuated simultaneously and the support bar or work plate is braked. Of course, it is necessary for the operating element to activate both the brake device and the locking device at the same time. However, it is also conceivable for the braking device and the locking device that this type of simultaneous operation does not take place at all, or that only possible at a significantly greater cost and effort.
The object of the present invention is therefore to provide a braking device belonging to the kind mentioned at the outset so that the braking action is activated automatically, i.e. without additional handling.
The object is to provide a brake device of the kind mentioned at the outset, which has a kind of wedge assembly which is mounted movably on the support and in which the support bar slides along the longitudinal direction when the support bar moves upward or downward. Therefore, it is solved. In that case, when the support bar is moved upwards such that the support bar is essentially released by the wedge assembly and the braking action of the braking device is completely or essentially released, the support bar is moved to the wedge assembly. To the release position, in which case the wedge assembly is sandwiched between the support column and the support bar at one brake position during the downward movement of the support bar, whereby the support The bar slides along the wedge assembly by friction and is braked by the wedge assembly.
The brake device according to the present invention is automatically activated when the work plate is lowered, and the wedge assembly is sandwiched between the support column and the support bar. However, the support bar no longer reaches the wedge part where it is no longer movable. Rather, the support bar slides alongside a wedge assembly made of, for example, a type of elastic chemical compound (such as plastic), rubber-like material or the like. Depending on the choice of material suitable for the wedge assembly and / or support bar, its frictional properties can affect the wedge assembly and the support bar. The friction characteristic is purposely adjusted to brake the support bar rather than to tighten. Additional parameters (parameters) that can be used to influence the braking action of the wedge assembly and / or to avoid tightening are eg the geometry of the wedge assembly, the distance between the strut and the support bar, its movement One or more stops, or the like, against which the wedge assembly abuts in the braking position.
Various structural types of the brake device according to the present invention will be described as follows.

For example, the wedge assembly has one sliding surface on the support part, in particular in the form of a plane, on the front side. The sliding surface runs essentially parallel to the support bar. On the rear wedge assembly side, there is a slope on the strut, particularly adjacent to the brake position. For example, this type of wedge assembly can be formed as a kind of restrictor.
The braking action of this type of wedge assembly is influenced, for example, by a longitudinal stopper against which the wedge assembly abuts at the braking position during longitudinal sliding movement. The position of the vertical stopper can be adjusted mainly by, for example, a kind of screw (bolt) present in the casing of the brake device.
However, there are upper and / or lower stoppers for the purpose in the wedge assembly. The lower stopper prevents the wedge assembly from being moved too far by the support bar in the longitudinal direction in the direction of the release position. The upper stopper is incorporated in the brake position, and the support bar can be prevented from being tightened using, for example, a wedge assembly. The lower and / or upper stoppers mainly strike against only one fixed counterstop “There may also be two or more counterstops”. The counterstop is formed by struts in an advantageous manner.

  Another adjustable possibility for adjusting the braking action forms a kind of lateral position adjusting device for the purpose. The lateral position adjustment device acts laterally on the support bar relative to the wedge assembly. The lateral position adjusting device can adjust the distance between the support bar and the support column, for example. However, it is also possible for the lateral position adjustment device to act directly on the wedge assembly. For example, a lateral position adjustment device including a single screw can apply pressure to the wedge assembly, ie, the support bar.

  Yet another adjustability for adjusting the braking action is provided by a bevel angle adjustment device used in the wedge assembly for adjusting the bevel angle (gradient) of the bevel. The bevel angle adjustment device includes a type of expansion device, such as, for example, a wedge, screw, or the like, which penetrates the wedge assembly in a wide and different manner and provides different strength expansions.

  Another configuration of the brake device according to the invention can be envisaged in that the wedge assembly is formed as a single eccentric wheel that has a single eccentric surface and is pivotably mounted on the column. When turning in the release position, a relatively small distance between the support column and the eccentric surface is turned in the direction of the support bar, so that the support bar can essentially move arbitrarily beside the eccentric wheel. In the reverse direction, the support bar moves the eccentric wheel and pivots it to the brake position. Next, a relatively large distance between the column and the eccentric surface is utilized, and the support bar slides along the surface of the eccentric wheel under contact surface pressure and is braked by the eccentric wheel.

In accordance with the purpose of the eccentric wheel, there is a kind of turning stopper that abuts against the turning stopper when turning, for example, at the casing of the brake device.
Accordingly, the other turning of the eccentric wheel is limited to a relatively large distance between the support column and the eccentric surface, and thus the contact surface pressure of the eccentric wheel against the support bar is limited. For example, the turning stopper projects radially in front of the eccentric wheel. The position of the pivot stopper can be adjusted according to the purpose, and is formed by, for example, one screw.

In an advantageous manner, the brake device according to the invention serves as a kind of guide device for guiding the support bar.
Furthermore, it is possible to have a kind of stop device used to stop the support bar, such as a clamp, a stop bolt that fits into the opening at the support bar, or the like. This kind of brake device can also be said to be a kind of support device which has both a brake function and a support function and a stop function of the support bar.
Next, examples of the present invention will be described in more detail with reference to the drawings.

In the case of the work desk 1 illustrated in FIG. 1, for example, a study (learning) desk designed for children or adolescents, the top board or work board 2 of the desk is one from the horizontal starting position indicated by the dotted line. Alternatively, the tilt angle can be adjusted to a plurality of positions, and the tilt angle can be adjusted so that the work plate 2 rises toward the rear upper part as viewed from the user side. In the drawing, this kind of inclination is written and displayed on the work plate 2 by a solid line. The work plate 2 can be swung around the connecting shaft 3 that runs in the horizontal direction in the desk main body 5 in the vertical direction of the desk in the front area toward the user, and the inclination angle can be adjusted. Further, a tilt adjusting device 4 that holds the work plate 2 at an arbitrary tilt angle acts below the work plate 2 at the rear. At the horizontal starting position, the work plate 2 can be placed on one stopper 6 disposed on the desk body 5.
The work plate 2 is supported by a support bar 8 guided by an inclination adjusting device 4. The support bar 8 passes through an opening (not shown) at the upper and lower portions of the casing 16, while the casing 16 of the inclination adjusting device 4 is formed as a single guide device 18. Guided through. During the turning of the work plate 2, the support bar 8 passes through the inclination adjusting device 4 in the upward and downward directions at the vertical position 15. In the lower region, the support bar 8 sinks into the cylindrical housing 7 which can be used for guiding the support bar 8 as well.
Overall, a kind of cylindrical arrangement is formed. For example, the lower end 9 of the cylindrical storage portion 7 is fixed to the desk body 5.
The support bar 8 is mounted on the support bar end 10 of the support portion 8 that supports the work plate 2 so that the support bar 8 can slide and turn in the direction 13 on the bottom surface of the work plate 2, that is, perpendicular to the connecting shaft 3. The slide device 12 fixed to the working plate 2 is incorporated.

  The inclination adjusting device 4 includes the illustrated stop device 11 used for stopping the support bar 8 and the brake device 14. The stop device 11 is used to stop the support bar 8, and the work plate 2 is held in different inclined states. The stop device 11 can be released using a kind of operation device 17, the work plate 2 can be turned downward, and the support bar 8 passes through the inclination adjusting device 4 downward.

The operation device 17 has one operation bar 20 that can be grasped by a user by hand. In the case of the embodiment of the present invention, the operation bar 20 extends from the area of the brake device 14 located below the work plate 2 toward the front surface facing the user of the work plate 2. The operation bar 20 is guided in a linear direction according to the purpose, that is, in the vertical direction of the operation bar 20, and the user needs to move it in the vertical direction. When the user pulls the operation bar 20 toward the front surface of the work desk 10, the stop device 11 is released, and the work plate 2 can turn downward. When the user loosens his hand on the operation bar 20 again, the stop device 11 automatically stops, for example, under the action of a spring device, and the downward movement of the work plate 2 is stopped.
During the downward movement of the work plate 2, the brake device 14 applies a brake to the support bar 8 to decelerate, and thus the downward movement of the work plate 2 becomes a brake operation state. The work plate 2 should not be grabbed by the user during the downward movement in order to prevent bounce of unlimited collisions at the stopper 6. The brake device 14 having the wedge assembly 21 is automatically activated during the downward movement of the support bar 8 and brakes the support bar 8. During the upward movement, the brake device 14 automatically releases the support bar, that is, the work plate 2 can be turned upward by the brake device 14 without being damaged.
Various construction schemes for the brake device 14 are proposed which will be described in more detail in connection with FIGS. 2A to 5D as follows.
The brake devices described in these drawings are provided with reference numerals 14A to 14D as follows, and in the case of the inclination adjusting device 4, the brake devices are mounted in place of the illustrated brake device 14. You can enter.
2A to 2D, a first embodiment of a brake device 14A according to the present invention having a kind of block-shaped wedge assembly 30 is shown in FIG. As a wedge assembly 21 mounted between the two.

  The support bar 8 passes through the casing 32 of the brake device 14 </ b> A at the upper and lower openings 33 and 34 and is guided by the casing 32. For example, the openings 33 and 34 form a guide device 47. In the front, the support bar 8 has a rectangular cross section that is correlated with the rectangular cross section of the openings 33, 34.

Accordingly, the support bar 8 is guided by the casing 32 in a non-twistable state.
The wedge assembly 30 rests on the support bar 8 with its essentially planar front face 35. The support bar 8 can slide along the front surface 35, which forms a sliding surface. On the contrary, the rear surface 36 of the front surface 35 is cut obliquely to form a slope 37. The slope 37 is placed on the column 31. The support column 31 is, for example, one mandrel or a support bar that is fixed laterally to the support bar 8 in the casing 32.

  During the upward movement, the support bar 8 moves the wedge assembly 30 upward, and the support bar 8 reaches the release position described in FIG. 2C. In the release position, the support bar 8 is essentially released from the wedge assembly 30 and can move upward in an unbraking state or at least essentially unbraking.

  The bevel angle of the ramp 37 is of the kind that the wedge assembly 30 tapers downward. In the release position, between the front surface 35 and the rear surface 36 of the wedge assembly 30 between the support column 31 and the support bar 8, there is a narrower cross-sectional area and a narrowest area for the purpose. 8 is applied with a slight contact surface pressure, or mainly with a slight play between the support column 31 and the support bar 8. In any case, the braking action of the wedge assembly 30 is minimal or absent at the release position.

  An upper and lower protrusion 39 protrudes in front of the slope 37. The protrusion 39 forms upper and lower stoppers 40 and 41. In the case of the embodiment of the present invention, the lower stopper 41 abuts against the position fixing type counter stopper 42 formed by the support column 31 in the release position. The lower stopper 41 and the counter stopper 42 limit the position adjustment range of the wedge assembly 30, and the wedge assembly 30 remains in the region between the column 31 and the support bar 8.

  The strut 31 forms a guide device 19 in which the wedge assembly 30 is guided in a longitudinally slidable manner. For example, it is clear that there can be an additional guide device, such as a guide cut groove on the side of the casing 32, where the wedge assembly 30 is guided.

When the support bar 8 moves downward, it moves the wedge assembly 30. In addition, the wedge assembly 30 can move downward due to its gravity.
In any case, when the wedge assembly 30 is moved downward, the wedge assembly 30 reaches its brake position where the wedge assembly 30 is sandwiched between the support 31 and the support bar 8. The support bar 8 is slid by friction along the front sliding surface 35 of the wedge assembly 30 and is braked. In the brake position, there is a gap between the front surface 35 and the back surface 36 that is wider between the support 31 and the support bar 8 compared to the release position.
The downward movement of the wedge assembly 30 is limited by the lower vertical stopper 43. The vertical stopper 43 can be adjusted in position in front of the vertical direction 15 and is formed by, for example, one adjustment screw 44 that penetrates the casing 32 from below. The adjusting screw 44 is screwed into the casing 32, for example, and can be adjusted in position according to various vertical positions. The wedge assembly 30 abuts against the vertical stopper 43 by its bottom surface 45, and the additional movement of the wedge assembly 30 in the downward direction is stopped (FIGS. 2A and 2D).

By adjusting the position of the adjustment screw 44, the contact surface pressure with which the wedge assembly 30 abuts on the support bar 8 is variable. The contact surface pressure is large when, for example, the vertical stopper 43 is adjusted downward. Due to the bevel angle of the inclined surface 37, the fragment portion of the wedge assembly 30 is separated between the support 31, the inclined surface 37 and the front surface 35. It comes to be located between the support bars 8 in a state having a large distance. When the adjustment screw 44 is screwed into the casing 32 deeper and the vertical stopper 43 is adjusted upward accordingly, the fragments of the wedge assembly 30 are separated from the support 31 and the front and back surfaces of the wedge assembly 30. It comes to be located between the support bars 8 in the state where the distance between 35 and 36 is small. Correspondingly, in the braking position, there is a contact pressure exerted by the wedge assembly 30 on the support bar 8, and the braking action of the braking device 14A is accordingly reduced.
When the vertical stopper 43 is omitted, or when the adjusting screw 44 is completely loosened and removed, for example, the upper protrusion 38 or the upper stopper 40 of the wedge assembly 30 is effective. Next, when the wedge assembly 30 is moved downward, the upper stopper 40 is moved downward in a range until the upper stopper 40 abuts on the support 31, that is, the opposing stopper 42. Next, the braking action of the wedge assembly 30 is maximized.

In other words, it is possible to assume a situation in which the coefficient of friction is adjusted between the wedge assembly 30 and the support bar 8 so that a stable balance occurs.
Even without the vertical stopper 43, the wedge assembly 30 could assume the vertical position described in FIG. 2D, which would correspond, for example, approximately as shown in FIG. 3D. Next, the downward force such as the follower force and the weight of the (object) generated when the support bar 8 moves downward is, for example, until the upper stopper 40 comes into contact with the opposing stopper 42. May not be sufficient to move the wedge assembly 30 downward in a range of.

  The brake device 14B shown in FIGS. 3A to 3D is not described in detail below, but correspondingly shows parts that are partially the same or similar to the brake device 14A with the same reference numerals. .

In the difference from the brake device 14A, in the case of the brake device, for example, there is a fixed lower vertical stopper 50 in the shape of the casing protruding portion 51 disposed inside the casing 32 and protruding upward. Like the vertical stopper 43, the vertical stopper 50 also limits the sliding range of the wedge assembly 30 to the downward direction when the support bar 8 is moved downward. It is obvious that the function of the lower vertical stopper 50 can be satisfied by the upper stopper 40 or the counter stopper 42 of the wedge assembly 30.
The lateral position adjustment device 52 can be used to influence the distance between the column 31 and the support bar 8. The lateral position adjusting device 52 includes, for example, a kind of screw 53, which is laterally screwed into the casing 32 and acts on the support column 8 in a lateral direction on the support bar 8. When the screw 53 is screwed into the casing 32, that is, when the lateral position adjusting device 52 is moved tightly to the support bar 8, the distance between the column 31 and the support bar 8 becomes smaller. The support column 31 is in a pre-set initial tension state, for example, and the distance between the support column 31 and the support bar 8 becomes larger when the lateral position adjusting device 52 moves away from the support bar 8.

  Next, the lateral position adjusting device 52 is particularly effective when the wedge assembly 30 abuts against the lower vertical stopper 50 or when the upper protrusion 38 or stopper 39 abuts against the column 31 or the counter stopper 42. . Next, the narrowed distance between the support post 31 and the support bar 8 takes effect, in which case the contact surface pressure exerted on the support bar 8 by the wedge assembly 30 is reduced by the lateral position adjusting device 52. This results in different strengths depending on the lateral position.

  The brake device 14C shown in FIGS. 4A to 4D is configured similar to the brake device 14B described above. Correspondingly, the same or similar components as in the previous drawings are also indicated and are given the same reference numerals.

In the case of the brake device 14 </ b> C as the wedge assembly 21 between the support column 31 and the support bar 8, one wedge assembly showing the bevel angle adjusting device 56 for adjusting the bevel angle of the inclined surface 57 toward the support column 31 on the back surface. 55 is mounted in a vertically movable manner. The bevel angle adjustment device 56 includes a single cavity 58 oriented in the longitudinal direction 15, for example in the form of a kind of slit, perforation or the like. One expansion body 59 forming an expansion means penetrates into the vertical cavity 58 from above. In the embodiment of the present invention, the extension 59 is a kind of headless bolt that is screwed into the relief 58 and extends the wedge assembly 55 toward the cavity 58 depending on the depth of penetration. Thus, the bevel angle of the back bevel 57 can be adjusted relative to the front face 35 of the wedge assembly 55. Therefore, the braking action of the brake device 14 </ b> C can be adjusted using the bevel angle adjusting device 56.
In addition, the braking action can be influenced by the lateral position adjustment device 52. Obviously, in the case of the brake device 14C, the lateral position adjusting device 52 is the only alternative that can be omitted. Further, the brake device 14C may be a kind of position-adjustable vertical stopper using the position-adjustable vertical stopper 43 method, as in the case of the brake device 14A, for example.
In FIGS. 5A to 5D, a brake device 14 </ b> D is illustrated that shows the wedge assembly 21 in an eccentric shape instead of the longitudinally slidable block-shaped wedge assembly, for example, in the shape of an eccentric ring. The surface 62 of the eccentric wheel 60 moves at least partially eccentrically around the turning shaft 61 mounted so that the eccentric wheel 60 can turn.

  In the case of the embodiment of the present invention, the support column 31 having a bar shape in the front has a swing shaft 61 around which the eccentric wheel 60 can turn between a release position (see FIG. 5C) and a brake position (see FIG. 5D). Form. In the release position, the support bar 8 can essentially slide arbitrarily along the eccentric wheel 60, whereas in the brake position, the support bar 8 slides along the surface 62 of the eccentric wheel 60, which Follow the brakes and decelerate. The eccentricity of the surface 62 with respect to the swivel axis 61 is such that the distance 63 between the swivel axis 61 and the surface 62 is relatively small in the vertical projection on the support bar 8 in the release position so that the swivel axis 61 in the brake position. And a corresponding relatively large distance 64 between the surface 62 and the surface 62 is selected to exist in the projection onto the support bar 8.

  The turning stopper 65 protrudes in the radial direction in front of the eccentric wheel 60. The turning stopper 65 is directed downward in the forward direction. Therefore, the turning stopper 65 contributes to turn the eccentric wheel 60 at its turning position as shown in FIG. 5D when the support bar 8 slides downward. In the case of the embodiment of the invention, the support bar 8 moves the eccentric wheel 60 during its downward movement and turns it to the brake position. Thus, in itself, the weight of the protrusion 65 is not necessarily required for turning to the brake position. Obviously, other weights or corresponding weight sharing can also be considered in the case of the eccentric wheel 60 for the automatic turning of the eccentric wheel 60 to the brake position.

  In its upward movement, the support bar 8 can be slid upward in a state where the support bar 8 is essentially released from the eccentric wheel 60 and is not braked or essentially braked. The eccentric wheel 60 is moved within the range, and the eccentric wheel 60 is turned to its release position.

  The turning stopper 65 limits the turning path of the eccentric wheel 60 from the release position to the brake position, while the turning stopper 65 abuts against the post 31 at the fixed position type turning stopper 66 when turning to the brake position. The anti-rotation stopper 66 is oriented laterally to the support bar 8. When turning to the brake position, the turning stopper 65 turns away from the support bar 8 and abuts against the turning stopper 66. The position of the pivot stopper 66 can be adjusted.

  In the embodiment of the present invention, the anti-rotation stopper 66 is realized by a screw 67 that penetrates the side wall 68 of the casing 69 of the brake device 14D. The screw 67 is screwed into the side wall 68, for example, and thus the lateral position of the anti-rotation stopper 66 can be adjusted by the rotation of the screw 67.

In the case of the embodiment of the present invention, the path of the surface 62 is selected so that the braking action of the eccentric wheel 60 becomes smaller, for example, when the pivot stopper 66 is positioned close to the support bar 8. Yes. If the screw 67 is moved to the left and the swivel stop 66 is adjusted away from the support bar 8 accordingly, the braking action of the eccentric wheel 60 increases. Due to the increased movement of the pivot stop stopper 66 away from the support bar 8, the area of the surface 62 of the eccentric wheel 60 shows a smaller distance from the pivot axis 61 using the support bar 8 at each brake position. It leads to frictional contact.
Correspondingly, the pressure exerted on the support bar 8 by the eccentric wheel 60 at each brake position increases.

  For example, a bolt of the type of a self-tightening device or a bolt capable of stopping the support bar 8 at the vertical position 15, and a stop device such as the same bolt that fits into a cavity (not shown) at the support bar 8, is also a brake of the kind described above. It is clear that the device can be easily included.

1 is a cross-sectional view of a work desk including a brake device according to the present invention that constitutes one component of a tilt adjusting device and a work plate that can be tilted and supported by a support bar. FIG. 2B partially shows the first embodiment of the brake device for a work desk according to the present invention shown in FIG. 1 with a block-shaped wedge assembly that abuts against the position-adjustable vertical stopper at the brake position. It is the perspective view cut | disconnected along line II-II. It is the figure which looked at the brake device shown to FIG. 2A from upper direction. FIG. 2B is a cross-sectional view of the brake device shown in FIG. 2A (along line II-II in FIG. 2B), the wedge assembly slidingly moved to a release position where the support bar can essentially move arbitrarily is doing. 2B, the wedge assembly is slidingly moved to a brake position where the support bar is braked. A second brake device for a work desk according to the present invention shown in FIG. 1 is provided with a block-shaped wedge assembly that abuts against a position-adjustable vertical stopper at the brake position, and a support bar that can be adjusted laterally on the support bar. FIG. 3C is a perspective view partially cut along line III-III in FIG. 3B according to the embodiment. It is the figure which looked at the brake device shown to FIG. 3A from upper direction. 3A is illustrated in cross-sectional view (along line III-III in FIG. 3B), the casing of the brake device is shown only partially, and the wedge assembly is essentially free of support bars. Sliding to the movable release position. 3B, the wedge assembly is either slid to a brake position that brakes the support bar or is halfway toward the brake position. FIG. 4B partially corresponds to the line IV-IV in FIG. 4B according to the third embodiment of the work desk brake device according to the present invention shown in FIG. 1, corresponding partially to the brake device shown in FIGS. 3A to 3D. FIG. 4 is a perspective view taken along the line, wherein the brake device is provided with a bevel angle adjusting device for the wedge assembly in the form of an expansion means for expanding the wedge assembly. FIG. 4B is a view that substantially corresponds to the views shown in FIGS. 3B to 3D and that illustrates the brake device shown in FIG. 4A. 5 is a perspective view, partially cut along line VV in FIG. 5B, according to a fourth embodiment of the work desk brake device according to the invention shown in FIG. 1 with an eccentric wedge assembly. It is the figure which looked at the brake device shown to FIG. 5A from upper direction. 5A is illustrated in cross-section (along line V-V in FIG. 5B), in which case the eccentric wedge assembly is pivoted to a release position where the support bar is essentially arbitrarily movable. . 5C, the eccentric wedge assembly is pivoted to a brake position that brakes the support bar.

Claims (16)

Brake device for work desk (1), work plate (2) capable of adjusting inclination around horizontal connecting shaft (3), and support bar for supporting work plate (2) in respective inclined states (8), the support bar (8) is guided by a guide device (7, 4) that can be fixed to the equipment body (5), and the brake device (14; 14A to 14D) is working. A wedge assembly (21) in which the support bar (8) is braked during the downward movement of the plate (2), and the brake device (14; 14A to 14D) is movably mounted in relation to the column (31). , 30; 60) along which the support bar (8) slides in the longitudinal direction during its upward or downward movement, and the support bar (8) moves along the wedge assembly (21, 30). ; 60) essentially released from brake The support bar (8) moves the wedge assembly (21, 30; 60) to the release position during the upward movement so that the braking action of the motor is completely or essentially canceled, and the wedge assembly (21 , 30; 60) is sandwiched between the support column (31) and the support bar (8) at one brake position when the support bar (8) moves downward, and the support bar (8) ) Slides by friction along the wedge assembly (21, 30; 60) and is braked by the wedge assembly (21, 30; 60). Wedge assembly (21, 30), characterized in that it has a sliding surface (35) resting on the support part on the front and a bevel (37, 57) adjacent to the post (31) on the back. The brake device according to Item 1. The wedge assembly (21, 30) has a stopper (41) that abuts against the fixed position type counter stopper in the direction of the release position, in particular against the support column (31), when the wedge assembly (21, 30) moves longitudinally. The brake device according to claim 2, further comprising: Stopper against which the wedge assembly (21, 30, 55) abuts against the fixed position type counter-stop in the release position direction, in particular against the strut (31), when the wedge assembly (21, 30, 55) moves longitudinally. The brake device according to claim 2, further comprising (40). 5. The brake according to claim 1, wherein the brake device has a vertical stopper (43) against which the wedge assembly (21, 30, 55) abuts in the direction of the brake position during longitudinal sliding movement. 6. Brake device. 6. Brake device according to claim 5, characterized in that the longitudinal stopper (43) is position adjustable for adjusting the braking action. Preceding, characterized in that the brake device has a lateral position adjustment device (52) acting on the support bar (8) laterally indirectly or directly against the wedge assembly (21, 30, 55) The brake device according to claim 1. The brake device according to claim 7, characterized in that the distance between the support bar (8) and the column (31) can be adjusted using the lateral position adjusting device 52. Brake device according to any of the preceding claims, characterized in that the wedge assembly (21, 55) has a bevel angle adjusting device (56) for adjusting the bevel angle of the bevel (57). The bevel angle adjustment device (56) includes an expansion device (59) in which the wedge assembly (55) is expandable for angle adjustment between the front and back surfaces of the wedge assembly (55), The brake device according to claim 9. Brake device according to any of the preceding claims, characterized in that the brake device comprises a guide device (19) to a wedge assembly (30, 55). 12. Brake device according to claim 11, characterized in that the guide device (19) is formed by the casing of a brake device (14; 14A to 14D). 2. Wedge assembly (21, 60), characterized in that it is formed as an eccentric ring (60) pivotably mounted on a post (31) with an eccentric surface (62). Brake device according to claim 1. In the eccentric wheel (60), there is a turning stopper (65) that abuts against the turning stopper (66) whose position is adjustable in the brake position direction when the eccentric wedge assembly (60) turns. The brake device according to claim 13. Brake device according to any of the preceding claims, characterized in that the brake device indicates a stop device for stopping the support bar (8). Brake device according to any of the preceding claims, characterized in that the brake device forms or includes a guide device (18) for guiding the support bar (8).

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