WO2016151124A1 - Support de stockage, étagère et établi - Google Patents

Support de stockage, étagère et établi Download PDF

Info

Publication number
WO2016151124A1
WO2016151124A1 PCT/EP2016/056681 EP2016056681W WO2016151124A1 WO 2016151124 A1 WO2016151124 A1 WO 2016151124A1 EP 2016056681 W EP2016056681 W EP 2016056681W WO 2016151124 A1 WO2016151124 A1 WO 2016151124A1
Authority
WO
WIPO (PCT)
Prior art keywords
bearing insert
wheel
containers
support
bearing
Prior art date
Application number
PCT/EP2016/056681
Other languages
German (de)
English (en)
Inventor
Thomas Ortner
Original Assignee
Thomas Ortner
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Thomas Ortner filed Critical Thomas Ortner
Priority to DE112016001389.2T priority Critical patent/DE112016001389A5/de
Publication of WO2016151124A1 publication Critical patent/WO2016151124A1/fr

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25HWORKSHOP EQUIPMENT, e.g. FOR MARKING-OUT WORK; STORAGE MEANS FOR WORKSHOPS
    • B25H3/00Storage means or arrangements for workshops facilitating access to, or handling of, work tools or instruments
    • B25H3/02Boxes
    • B25H3/021Boxes comprising a number of connected storage elements
    • B25H3/023Boxes comprising a number of connected storage elements movable relative to one another for access to their interiors
    • B25H3/025Boxes comprising a number of connected storage elements movable relative to one another for access to their interiors by rotation about a common axis

Definitions

  • the invention relates to a bearing insert and a shelf and a work table with such a bearing insert.
  • Bearing inserts are often used, for example, to store or store various objects in a shelf or on a work table.
  • these may be small parts such as screws, rivets or washers or various tools such as screwdrivers or hammers.
  • Conventional bearing inserts may be configured to use a plurality of containers for storing the objects. These containers can be placed on the bearing insert and for example, be moved on this. Thus, in principle, a container with the objects just required can be brought into a removal position, in which a removal of an object is possible. However, it is usually necessary in generic storage inserts to remove or lift containers and spend on another place to get at objects in more distant containers at all.
  • the invention relates to a bearing insert for attachment to or between a first support and a second support.
  • the supports can for example be part of a shelf or a work table. It should be understood that the shelf or work table does not belong to the bearing insert, but rather the bearing insert is preferably designed for use with such a shelf or such a work table.
  • the bearing insert has a carrier which has a first attachment point and a second attachment point.
  • the bearing insert has a first attachment means for attachment to the first support.
  • the first attachment means is disposed at the first attachment point.
  • the bearing insert further includes a second attachment means for attachment to the second support disposed at the second attachment point.
  • the bearing insert has a bearing device. The bearing device is attached to the carrier.
  • the storage device has a plurality of containers for respectively receiving stored goods.
  • the storage device has a drive device to which the containers for driving the containers along a closed trajectory are mounted, wherein along the trajectory at least one removal position is defined.
  • the storage device has an operating device by means of which the drive device can be operated such that each container can be brought into the removal position.
  • the bearing insert according to the invention makes it possible to store different objects in the storage device and, if necessary, bring those containers into the removal position, which contains the objects just required. At the same time, all containers typically retain their predefined arrangement with one another, which facilitates the retrieval of specific objects. A time-consuming removal or changeover of containers is eliminated.
  • the solution according to the invention offers the advantage of a simpler design and greater flexibility, since an insert can be fixed at different positions usually and is simple.
  • first fastening means and / or the second fastening means each have a downwardly open notch for embracing a rod.
  • the notch may be formed in particular U-shaped.
  • fastening means may alternatively be designed, for example, as a clamp, by means of one or more angles, as a groove, as a sliding block or by means of special connecting elements. Typically, they match with appropriate ones
  • the first fastening means and / or the second fastening means are designed as respective rods for resting on a supporting surface.
  • the bearing insert is designed for use on or in a work table.
  • the bearing insert can be placed on suitable acting as supports rods, surfaces or projections.
  • a number of rods are arranged for resting on a supporting surface serving as a support between the first fastening means and the second fastening means.
  • a supporting surface serving as a support between the first fastening means and the second fastening means.
  • first support and the second support need not necessarily be clearly distinguishable from each other optically.
  • the bearing insert is designed as a shelf insert for fastening between a first support in the form of a vertical first wall and a second support in the form of a vertical second wall.
  • the walls may in particular be components of a shelf, ie in particular shelf walls.
  • the first attachment position is a first end of the carrier.
  • the second attachment position is a second end of the carrier.
  • the bearing insert can in particular be adapted to be mounted or otherwise secured between two supports, which may be, for example, walls of a shelf.
  • the carrier is rigid.
  • the carrier has a length adjustment device, by means of which a distance between the first attachment means and the second attachment means is variable.
  • the length adjustment device makes it possible to easily adapt the bearing insert to different distances between the walls of a shelf. This can be a storage use without changing the
  • the distance between the two fastening means in a range between 1 m and 1.5 m is variable. It can also be provided that the distance between the two fastening means in a range between 1.5 m and 2.25 m is changeable. The mentioned lower and upper limits of the ranges can also be changed, for example, by 0.1 m or 0.2 m downwards or upwards. It can be provided that the length of a belt, a rope or a toothed belt is changed according to the set distance.
  • the length adjusting device is designed as a telescopic extension.
  • Telescopic extension is preferably detectable to adjust the length. This allows a simple adjustment of the length.
  • the length adjusting device is arranged between the first fastening means and the bearing device or between the second fastening means and the bearing device.
  • Length adjustment is independent of the storage device.
  • a length of the bearing device is independent of a state in which the length adjustment device is located, that is, in particular, independent of the length of the bearing insert.
  • the length adjusting device is divided into two, wherein a first part between the first fastening means and the bearing device is arranged and a second part between the second fastening means and the bearing device is arranged. This allows an adjustment of the position of the bearing device between the two walls of a shelf.
  • the length adjustment device is designed to also adjust the length of the bearing device with.
  • a larger existing space between the walls of the shelf can be better utilized.
  • wheels or other parts of the bearing device may be mounted on at least one part which can be displaced relative to other parts by means of the length adjustment device.
  • the containers are designed as baskets or containers. This allows a simple Insert and remove objects to be stored.
  • the containers are suspended pendulum on the drive means. This allows an independent taking a situation, preferably such a situation in which the stored objects do not fall out. The situation is then typically maintained even when the container travels a curve in the trajectory, for example.
  • the drive device has at least one first band circulating along the trajectory, the containers being fastened to the first band.
  • the drive device can also have a second band extending parallel to the first band and aligned congruently with the side, wherein the containers are also fastened to the second band.
  • the containers are fastened between the first band and the second band.
  • the described embodiments with bands to which the containers are attached allow the use of simple drive means and a simple and accurate definition of the trajectory, which typically corresponds to the course of the bands. It is preferably provided that the containers are freely rotatably and / or oscillatingly secured to the first band and / or to the second band.
  • the containers have a respective pivoting handle, in particular a cord, for manual temporary tilting.
  • a respective pivoting handle in particular a cord
  • the containers can be temporarily tilted by a manual intervention, so that it can be more easily recognized what is in the containers.
  • the removal of objects from the respective container can be facilitated.
  • a center of gravity of the respective container is located below an axis of rotation. This preferably applies both in the unfilled as well as in the filled state. As a result, an advantageous turning back to the starting position is achieved when the pivoting handle is released.
  • an active return mechanism may be provided, for example a spring.
  • the bearing insert has a slide, which is designed to cooperate with the containers such that the containers are tilted along a portion of the trajectory.
  • the sections preferably contains the removal position.
  • the containers advantageously have a respective pin or a projection for cooperation with the backdrop. This can be achieved in a simple manner that the container can be guided or tilted by the backdrop.
  • the drive device has a first wheel set with a number of wheels, around which the first band rotates.
  • the wheels typically define the trajectory, wherein the trajectory can rotate around respective segments of the wheels and can extend between the wheels at least substantially rectilinearly.
  • the first wheel set has exactly one first wheel and one second wheel.
  • a trajectory can be achieved, which laterally has two mutually mirror-inverted arranged semicircles and between two parallel straight stretches. This corresponds to a simple and practical for many purposes execution.
  • the first wheel set comprises at least a first wheel, a second wheel, a third wheel and a fourth wheel, which are all mounted on the carrier.
  • the trajectory can be extended and thus an increased storage capacity can be provided, in particular compared to the embodiment with only two wheels.
  • the first wheel set comprises at least a first wheel, a second wheel, a third wheel and a fourth wheel, wherein the first wheel and the second wheel are mounted on the carrier and wherein the third wheel and the fourth wheel at one in the inserted state vertically from the carrier spaced further carrier of the bearing insert are mounted.
  • At least one wheel of the first wheel set is arranged outside the first fastening means. According to a further embodiment, at least one wheel of the first wheel set is arranged outside the second fastening means. In particular, the wheel set or the bearing insert can extend laterally beyond the fastening points.
  • a wheel arranged outside the first fastening means is a drive wheel.
  • This may be particularly preferably associated with a handwheel or a crank coaxial.
  • Such a handwheel or such a crank can advantageously be actuated in an arrangement outside the attachment points, since then an easier accessibility is ensured.
  • wheels can be present and basically any number of wheels can be present, in particular to achieve certain Traj ektorien.
  • the trajectory laterally has the shape of a parallelogram, a trapezoid, a rectangle and / or a square, each with rounded corners due to the wheels.
  • the further carrier is identical to the carrier.
  • the further carrier can in particular also be designed to be fastened to the walls of the shelf.
  • the further carrier has a first attachment point and a second attachment point, wherein a third attachment means for attachment to the first support at the first attachment point is arranged, and wherein a fourth attachment means for attachment to the second support on the second Attachment point is arranged.
  • the third attachment means is formed below or above the first attachment means and identical to the first attachment means
  • the fourth attachment means is formed below or above the second attachment means and identically to the second attachment means.
  • the further carrier has a further length adjustment device, by means of which a distance between the third attachment means and the fourth attachment means is variable.
  • a further length adjustment device by means of which a distance between the third attachment means and the fourth attachment means is variable.
  • the further length adjusting device is designed as a telescopic extension.
  • the further length adjusting device is arranged between the third fastening means and the bearing device or between the fourth fastening means and the bearing device. According to one embodiment, it is provided that the further length adjusting device is divided into two, wherein a first part between the third fastening means and the bearing device is arranged and a second part between the fourth fastening means and the bearing device is arranged.
  • the further length adjusting device is designed to also adjust the length of the bearing device with.
  • the length adjustment device can alternatively also be designed independently of the bearing device, so that a length of the bearing device is not changed with the length adjustment device.
  • the first set of wheels in addition to the first, second, third and fourth wheel has a number of other wheels, wherein the other wheels are arranged vertically between the carrier and the other carrier.
  • the first band runs in the form of a serpentine line in the region of the other wheels. This allows an advantageous to increase the storage capacity extension of the trajectory.
  • the first band runs rectilinearly between in each case two wheels adjacent to one another along the trajectory.
  • At least one wheel of the first wheel set has a larger diameter than some or all other wheels of the first wheel set.
  • the larger diameter wheel is it is preferably a drive wheel. Due to the larger diameter, a better friction between belt and wheel can be achieved. In addition, a desired reduction or translation can be achieved. It should be understood that, alternatively, a smaller wheel than the other wheels may be used to achieve a desired gear ratio.
  • the first band and / or the second band to a length, so that they can also rotate around not belonging to the bearing insert wheels.
  • the band can run around an external drive wheel to the bearing insert, so that an external control of the drive is possible.
  • the drive device has a second set of wheels with a number of wheels, around which the second band rotates.
  • the second band is guided laterally congruent to the first band.
  • the wheels of the second wheelset are arranged laterally congruent with the wheels of the first gearset.
  • laterally congruent is understood to mean that two elements are viewed one behind the other, ie, in a viewing direction transversely to a plane defined by the trajectory not visible .
  • the bearing insert has a number of additional carriers, which in the inserted state vertically between the carrier and the other carrier are arranged. This allows even greater flexibility in designing the trajectory and also increased storage capacity and increased strength.
  • the carrier, the further carrier and / or the additional carrier are connected to each other, in particular by means of a number of vertical connecting rods and / or by means of a cross-shaped bracing. This gives the bearing insert a desired stability.
  • the additional carriers are formed identically to the carrier and / or to the further carrier. This allows a simple and workable execution.
  • the further wheels are attached to the additional supports and / or to fastening elements or connecting rods or a strut which are fastened to the additional supports.
  • the drive device has an electric motor, which preferably acts on one or more of the wheels. This allows an automatic drive of the drive device, in particular an automatic movement of the container.
  • the drive device has a brake, in particular a shoe brake. This can in particular act on one or more of the wheels or on one or more of the bands.
  • the brake may in particular be designed to prevent or brake a movement of the drive device.
  • the brake can also be used as an engine brake or be formed by exploiting a braking effect or self-locking of an electric motor or other motor.
  • the containers are mounted at regular intervals on the drive device, in particular on belts of the drive device. This allows a simple execution.
  • the bearing insert has a guide which is connected to the carrier and in which the containers are guided along the trajectory.
  • the guide may be configured to have wheels of the containers running therein.
  • the operating device has selection means for selecting one of the containers, wherein the operating device is designed, after selection of a container, to control the drive device in such a way that the selected container is brought into the removal position.
  • the operating device has input means for predetermining a movement of the drive device, wherein the operating device is designed to actuate the drive device in such a way that it carries out a movement selected by means of the input device.
  • an electric motor can be controlled accordingly.
  • the operating device as a hand wheel or as a set of two hand wheels coupled to one another or as a crank for driving the drive device is trained. This allows for easy manual operation, eliminating the need to provide a power supply.
  • the operating device has at least one interface, in particular a wireless interface such as RFID, or a wired interface for selecting one of the containers, wherein the operating device is designed to control the drive device after selection of a container such that the selected container is brought into the removal position.
  • a wireless interface such as RFID
  • a wired interface for selecting one of the containers
  • the operating device is designed to control the drive device after selection of a container such that the selected container is brought into the removal position.
  • the bearing device is designed as a horizontal or oblique paternoster.
  • a simple circulation of the container can be achieved.
  • the bearing insert is designed for use in a horizontal position, wherein in a horizontal position, in particular the first fastening means and the second fastening means are arranged at the same height. This allows use with shelves that have attachment points at the same height.
  • the bearing insert is designed for use in an oblique position, wherein in an oblique position, in particular the first fastening means is arranged higher than the second fastening means. This allows adaptation to appropriate training of shelves.
  • the bearing insert is designed according to an embodiment for use as an attachment on a table, in particular a table of a workplace or a production line.
  • the bearing insert is designed according to an embodiment for use as an insert in a table, in particular a table of a workplace or a production line.
  • some or all of the containers are subdivided, preferably by means of respective partitions. This allows the separate storage of different objects in a respective container, wherein mixing is avoided.
  • some or all of the containers are filled with a number of boxes, which in particular completely fill the respective container.
  • the boxes By means of the boxes, a further subdivision of the containers can be achieved.
  • the boxes can also be filled externally and inserted into the container only when already filled. This allows easy filling of the container.
  • At least one container is filled with all necessary materials for a product to be produced. It can also be filled several containers accordingly.
  • the invention further relates to a shelf. This may in particular be a small parts shelf.
  • the shelf has a vertical first support, a vertical second support and at least one bearing insert according to the invention. Of the Bearing insert is hung between the first support and the second support.
  • bearing insert can be used on all described versions and variants.
  • advantages described in connection with the bearing insert apply correspondingly to the shelf according to the invention.
  • the supports may for example be designed largely flat, but that they may for example also be designed rung-like.
  • the supports have dedicated positions to which shelves or, for example, a bearing insert according to the invention can be suspended.
  • the shelf further comprises a number of further bearing inserts according to the invention, which are suspended between the first support and the second support.
  • the functionality and the storage capacity can be increased accordingly.
  • the shelf further comprises a number of shelves, which are suspended between the first support and the second support.
  • the supports may be designed according to an embodiment as walls, in particular vertical walls and in particular shelf walls.
  • the invention further relates to a work table, which is assigned in particular to a production line.
  • the work table has a first support and a second support, wherein on or in the work table a bearing insert according to the Invention is attached, the fastening means are attached to the supports of the work table.
  • a bearing insert according to the invention can be advantageously used to provide components for goods to be manufactured or repaired.
  • bearing insert can be used on all described versions and variants.
  • the work table has, according to an advantageous embodiment, a runway, in particular with material rucksacks on. This enables efficient integration into a production line.
  • Fig. 1 shows schematically a shelf with a trained as a shelf insert bearing insert
  • FIG. 2 is a detail view of a shelf with a bearing insert according to a first embodiment
  • FIG 3 is a detail view of the shelf with the bearing insert according to the first embodiment with a modified filling
  • Fig. 4 is a schematic side view of the bearing insert according to the first embodiment
  • Fig. 5 is a schematic plan view of a portion of the shelf with the bearing insert according to the first
  • Embodiment, 6 is a schematic side view of a bearing insert according to a second embodiment
  • FIG. 7 is a schematic side view of a bearing insert according to a third embodiment
  • Fig. 8 is a schematic side view of a shelf with a
  • FIG. 9 is a schematic side view of a shelf with a
  • FIG. 10 is a schematic side view of a shelf with a
  • Fig. IIa is a schematic plan view of a shelf with a
  • Fig. IIb is a schematic side view of a shelf with a
  • Fig. 12a is a schematic plan view of a shelf with a
  • Fig. 12b is a schematic side view of a shelf with a
  • Fig. 14 is a schematic plan view of a shelf with a
  • Fig. 15a to 15h schematically work tables or storage inserts with different Traj ektorien.
  • FIG. 1 shows a shelf 10 according to an embodiment of the invention in a schematic side view.
  • the shelf 10 has a first support 20 and a second support 30.
  • the two supports 20, 30 are presently designed as walls, in particular as shelf walls.
  • the shelf 10 further includes a first shelf 40, a second shelf 42 and a bearing insert 100 according to the invention.
  • the bearing insert 100 is presently designed as a shelf insert.
  • the shelves 40, 42 are arranged between the two supports 20, 30 and are also attached to the supports 20, 30.
  • the bearing insert 100 is formed on it, as will be described below with reference to the first embodiment of a bearing insert further.
  • Figure 2 shows a part of the shelf 10 with the bearing insert 100 according to the first embodiment of the invention. It is included a portion of the bearing insert 100 is shown, which is adjacent to the first support 20.
  • the bearing insert 100 has a first attachment point 102, which in the present case represents a first end.
  • a first attachment means 110 is formed, with which the bearing insert 100 is attached to the first support 20.
  • a carrier 130 is attached.
  • the carrier 130 is in this case made in two parts. This means that a part of the carrier 130 is arranged on the left edge of the bearing insert 100 and a further part of the carrier 130 is formed on the right edge of the bearing insert 100.
  • the first attachment means 110 is also made in two parts.
  • the storage device 200 has a plurality of containers 210, wherein in each of the containers 210 a respective box 212 is arranged.
  • the boxes 212 may be used to store items such as small items or tools needed in a workshop or other environment.
  • the containers 210 are attached to a first band 240 and a second band 260.
  • the two bands 240, 260 are arranged between the containers 210 and the carrier 130.
  • the containers 210 are rotatably attached to the bands 240, 260 so that they can each arrange with their respective center of gravity below the axis of rotation.
  • an opening of the containers 210 typically remains upwardly, so that the container 210 is accessible from above and no objects from the container 210 may accidentally fall out.
  • the two belts 240, 260 are part of a drive device 220.
  • the drive device 220 also has a first wheel set 230 and a second wheel set 250.
  • the first wheel set 230 has a first wheel 231 and another, not shown in Figure 2 second wheel.
  • the second wheel set 250 has a first wheel 251 of the second wheel set 250 and another, not shown in Figure 2 second wheel of the second wheel 250 on.
  • the first band 240 is guided around the first wheel 231 and the second wheel.
  • the second band 260 is guided around the wheels of the second gear set 250.
  • the bands 240, 260 are so taut that they fit tightly against the wheels and have a straight course between them.
  • the first wheel 231 is connected to an external handwheel 270.
  • the handwheel 270 in the present case forms an operating device.
  • the force is transmitted via the first band 240 to the container 210 and from the containers on to the second band 260, it being understood that alternatively also wheels of the first gear set 230 may be connected to wheels of the second gear set 250.
  • This allows the containers 210 to circulate along a predefined path. This will be described in more detail below with reference to further figures.
  • a specific container 210 in which objects or objects which are currently required are stored, can be brought into a removal position.
  • a removal position can be, for example, that position which occupies the container 210 shown closest to the first support 20 in FIG. It allows easy access from above, so that an operator by hand in the container 210 and in particular in the contained box 212 can grab.
  • Figure 3 shows a modified form of the shelf 10 with the bearing insert 100 according to the first embodiment.
  • the relative dimensions, ie length and width, of the container 210 are designed in a different relationship to each other.
  • one of the containers 210 is filled not only with a box 212 but also with another box 214.
  • the two boxes 212, 214 fill the container 210. This makes it possible to store different objects in the two boxes 212, 214, without the risk that they are confused.
  • the different objects can be refilled or replaced by separate replacement of the boxes 212, 214.
  • Figure 4 shows the bearing insert 100 according to the first embodiment in a schematic side view. It can be seen that the bearing insert 100 opposite to the first attachment point 102 has a second attachment point 104, which in the present case represents a second end. At the second attachment point 104, a second attachment means 120 is attached.
  • Both the first and the second fastening means 110, 120 are each U-shaped. They each form a notch, which is open at the bottom. This allows a simple hooking in suitable, complementary thereto
  • the bearing insert 100 can be held by means of such rods example on the shelf 10.
  • the first wheel set 230 has not only the first wheel 231 but also the second wheel 232.
  • the first band 240 is stretched between the wheels 231, 232 of the first gear set 230. It runs around the wheels 231, 232 of the first wheel set and runs straight between them.
  • the first volume describes a trajectory 225 along which the containers 210 rotate when the handwheel 270, not shown in FIG. 4, is rotated. It can be seen that the containers circulate in this case approximately corresponding to a horizontal paternoster. Due to their rotatable suspension, the containers 210 are always aligned in such a way that their respective center of gravity is arranged below the respective axis of rotation. Thus, the respective openings point upwards.
  • FIG. 4 there is no box 212 in one of the eight containers 210 shown. In the other containers 210, however, there is a respective box 212. It should be understood that a storage insert 100 basically has any number of containers 210 may have. Thus, both more containers 210 and fewer containers 210 may be present than shown in FIG. In addition, each of the containers 210 may or may not be individually populated with a box 212 or a plurality of boxes 212.
  • FIG. 5 shows a complete plan view of the bearing insert 100 according to the first exemplary embodiment on the shelf 10.
  • the bearing insert 100 in addition to the already mentioned handwheel 270, also has another handwheel 271.
  • the further handwheel 271 acts on the second wheel 232 of the first gearset 230.
  • the further handwheel 271 like the handwheel 270 already mentioned, can be used to move the drive devices 220.
  • the bearing insert 100 is likewise attached to the second support 30 by means of the second fastening means 120, as it is attached to the first support 20 by means of the first fastening means 110.
  • the second wheel set 250 also has a second wheel 252 in addition to its first wheel 251.
  • FIG. 6 shows a bearing insert 100 according to a second exemplary embodiment. In this case, this figure shows only a schematic side view, wherein the container 210 and the boxes 212 are not shown.
  • the bearing insert 100 according to the second exemplary embodiment has a length adjustment device 300.
  • Length adjustment device 300 is designed as a one-sided telescopic extension.
  • the distance of the first fastening means 110 from the carrier 130 can be changed by means of the telescopic extension.
  • the first wheel 231 moves with a corresponding adjustment of the first fastening means 110 with.
  • the distance between the first wheel 231 and the second wheel 232 of the first gear set 230 is changed.
  • the bearing insert 100 By changing the length of the bearing insert 100 by means of the length adjustment device 300, the variability of the bearing insert 100 with regard to the use of different shelves can be increased.
  • locking means which may for example be designed as a clamping screw, the bearing insert 100 can be adapted to different widths between the walls 20, 30 of a shelf 10.
  • An optionally available larger width is even in a greater distance between the first wheel 231 and the second wheel 232 of the first set of wheels 230 implemented, so that more containers 210 can be attached.
  • the larger available space also leads to a higher storage capacity.
  • FIG. 7 shows a bearing insert 100 according to a third exemplary embodiment.
  • FIG. 7, like FIG. 6, is merely a schematic view, in which the representation of the containers 210 and the boxes 212 has been dispensed with. The same applies, moreover, for the following figures.
  • the length adjustment device 300 is divided into two parts in the bearing insert 100 according to the third embodiment. It has a first part 310 and a second part 320.
  • the respective parts 310, 320 are each designed as a telescopic extension.
  • the second wheel 232 is moved with the right side telescopic extension, so that increases in an extract of the telescopic extension of the distance between the two wheels 231, 232 of the first gear 230.
  • an available space can be converted into an increased storage capacity in a corresponding manner.
  • Figure 8 shows schematically a shelf 10 with a bearing insert 100 according to a fourth embodiment.
  • the bearing insert 100 according to the fourth exemplary embodiment has not only a carrier 130 but also a further carrier 132.
  • the further carrier 132 is arranged below the carrier 130. He is separated by means of not specifically shown fastener attached to the walls 20, 30 of the shelf 10.
  • the first band 240 is guided over all four wheels 231, 232, 233, 234 of the first gear set 230.
  • the trajectory 225 has the shape of a parallelogram with rounded corners.
  • the second gearset 250 and the second band 260 are correspondingly congruent.
  • the illustration of the containers 210 and the boxes 212 has been omitted in FIG.
  • a shelf 40 is secured between the two walls 20, 30. On the shelf 40 items 50 are stored. Also in this shelf thus possibilities for storage according to a storage insert according to the invention and according to a conventional shelf are combined.
  • Figure 9 shows a shelf 10 with a bearing insert 100 according to a fifth embodiment.
  • the fifth embodiment is modified in comparison to the fourth embodiment in that a cross-shaped strut 138 and two connecting rods 136 between the support 130 and the further support 132 are provided.
  • the further carrier 132 is provided above the carrier 130.
  • the cross-shaped strut 138 and the connecting rods 136 the distance between the carrier 130 and the further support 132 is defined in the vertical direction. This also makes it possible, as in the present case, to arrange the further support 132 above the supports 20, 30.
  • FIG. 10 shows a rack 10 with a bearing insert 100 according to a sixth exemplary embodiment.
  • the bearing insert 100 according to the sixth embodiment in addition to the carrier 130, not only another carrier 132, but also an additional carrier 134.
  • the additional carrier 134 is arranged vertically between the carrier 130 and the further carrier 132.
  • the carrier 130, the further carrier 132 and the additional carrier 134 are connected to each other by means of a vertically extending connecting rod 136. They are each further attached to the supports 20, 30 of the shelf 10.
  • the shelf 10 of FIG. 10 has a first shelf 40 and a second shelf 42 below the storage insert 100. These are also fastened between the supports 20, 30 of the shelf 10. On these objects 50 are stored. Also in this case can thus the functionality of the invention Bearing insert 100 can be combined with the functionality of classic shelves.
  • Figure IIa shows a part of a shelf 10 with a bearing insert 100 according to the first embodiment.
  • the representation corresponds to that of FIG. 2. Accordingly, reference is made to the description of FIG. 2 with regard to the description above.
  • Figure IIb shows a schematic side view of the shelf 10 of Figure IIa. It can be seen in particular that the first and second wheels 231, 232 are both located between the columns 20, 30 designed as walls.
  • Figures IIa, IIb are shown primarily to have a direct comparison with the embodiment described below with reference to Figures 12a, 12b and shown therein.
  • FIG. 12a shows a part of a shelf 10 corresponding to FIG. 11a with a bearing insert 100 according to a seventh exemplary embodiment. It can be seen that, in contrast to the embodiment of Figure IIa, the first wheels 231, 251 are arranged outside of the first fastening means 110. Thus, part of the bearing insert 100 protrudes outwardly beyond the first support 20.
  • the hand wheel 270 is also disposed outside of the first support 20. It is thus particularly easy to access and operate, which allows a simple manual drive of the container 210.
  • FIG. 12b shows the embodiment of FIG. 12a in a schematic side view. It is also easy to see that the first and second wheels 231, 232 outside the supports 20, 30 are located. They are thus both advantageously accessible.
  • FIG. 13a shows schematically a possible realization of a manual tilting function for the containers 210.
  • a container 210 fastened to the first band 240 and rotating is shown, in three positions which are designated 210a, 210b and 210c.
  • the container 210 In the positions designated 210b, 210c, the container 210 is horizontal, not tilted.
  • the container 210 In the position indicated by 210a, the container 210 is in its removal position. In this so advantageous the removal of stored therein objects is possible.
  • a pivoting handle 219 is attached thereto, which is in the present case in the form of a string.
  • a user can pull to have a better view of the contents of the container 210 and to be able to remove the contents better.
  • the container 210 pivots after releasing the cord back to its original position, since its center of gravity is below its axis of rotation.
  • FIG. 13b schematically shows a possible realization of an automatic tilting function for the containers 210.
  • a projection 218 is arranged, which is guided along the portion of the link 135.
  • the container 210 is automatically designated in the 210a Position tilted. This allows the automatic improvement of visibility and accessibility without the need for manual intervention.
  • Figure 14 shows a plan view of a portion of a shelf 10 with bearing insert 100 according to an eighth embodiment.
  • two elongate containers 210 are provided, which have a considerably greater length compared to the widths compared to the containers shown so far.
  • a plurality of boxes 212 are arranged in each case. This allows the storage of different objects.
  • a respective container 210 stores all the components needed to make a particular product.
  • FIGS. 15a to 15h work tables 5 or associated bearing inserts 100 with different trajectories according to respective exemplary embodiments of the invention are shown schematically.
  • the work tables according to FIGS. 15a, 15b additionally each have two bearing plates 6 for storing further objects.
  • the respective trajectory is illustrated by the respective first band 240. Otherwise, essentially only the wheels are shown and described.
  • the trajectory is designed as described above with reference to the first exemplary embodiment.
  • the trajectory is designed as described above with reference to the fourth exemplary embodiment, that is to say corresponding to a parallelogram with rounded corners.
  • the rounded corners refer to the fact that the belt 240 revolves around wheels, and will not be mentioned separately in the following.
  • the upper side of the trajectory is horizontal, the lower obliquely.
  • the intervening sides of the trajectory are vertical.
  • the trajectory extends to below the working table 5 and is deflected there by further wheels 235, 236, 237, 238, 239. This allows an extension of the trajectory. It should be noted that the wheels have different diameters.
  • the trajectory corresponds to a parallelogram, in contrast to the embodiment of Figure 15b, however, no additional storage tables 6 are present.
  • a wheel 234 is arranged in the bulge, which has a larger diameter than the other wheels 231, 232, 233, 235 and which is therefore preferably used as a drive wheel.
  • the bulge is realized vertically in the center, wherein in this case too, a wheel 236 with a larger diameter is arranged in the bulge, which is preferably used as a drive wheel.
  • a wheel 236 with a larger diameter is arranged in the bulge, which is preferably used as a drive wheel.
  • two protrusions are realized, wherein an upper protrusion is arranged vertically in the middle and a larger diameter wheel 238 is arranged therein, which is preferably used as a drive wheel, and wherein a lower protrusion is arranged on the underside of the trajectory and in particular serves to extend the trajectory.
  • the invention comprises:
  • a bearing insert for attachment to a first support and a second support comprising:
  • a carrier which at least a first
  • the bearing insert (100) has a bearing device (200), the bearing device (200) being fastened to the carrier (130) and having the following:
  • a drive device (220) to which the containers (210) for driving the containers (210) are attached along a closed trajectory (225), wherein at least one removal position is defined along the trajectory (225), and
  • first attachment means (110) and / or the second attachment means (120) each have a downwardly open notch for embracing a rod.
  • first attachment means and / or the second attachment means is formed as a respective rod for resting on a serving as a support substrate.
  • the above-mentioned bearing insert wherein between the first fastening means and the second fastening means, a number of rods are arranged for resting on a serving as a support substrate.
  • the above-mentioned bearing insert wherein the bearing insert is designed as a shelf insert for fastening between a first support (20) in the form of a vertical first wall and a second support (30) in the form of a vertical second wall.
  • first attachment position is a first end of the carrier (130) and / or the second attachment position is a second end of the carrier (130).
  • Length adjustment (300) is designed as a telescopic extension.
  • Fastening means (110) and the bearing device (200) or between the second fastening means (120) and the bearing device (200) is arranged.
  • Length adjustment (300) is divided into two parts, wherein a first part (310) between the first fastening means (110) and the bearing device (200) is arranged and a second part (320) between the second fastening means (120) and the bearing device (200) is.
  • Length adjustment device (300) is adapted to adjust the length of the bearing device (200) with.
  • bearing insert wherein the containers (210) have a respective pivoting handle (219), in particular a cord, for manual temporary tilting.
  • bearing insert (100) includes a link (135) adapted to cooperate with the containers (210) such that the containers (210) are tilted along a portion of the trajectory (225) the section preferably contains the removal position.
  • Drive device (220) has a first wheel set (230) with a
  • first wheel set (230) has exactly one first wheel (231) and one second wheel (232).
  • first wheel set (230) comprises at least a first wheel (231), a second wheel (232), a third wheel (233) and a fourth wheel (234), all on the support (130) are attached.
  • first wheel set (230) comprises at least a first wheel (231), a second wheel (232), a third wheel (233) and a fourth wheel (234), the first wheel (231) and the second wheel (232) is mounted on the support (130) and wherein the third wheel (233) and the fourth wheel (234) are secured to a further support (132) of the bearing insert (100) vertically spaced from the support (130) when inserted ) are mounted.
  • the aforementioned bearing insert wherein at least one wheel (231) of the first wheel set (230) is arranged outside the first fastening means (110), and / or at least one wheel (232) of the first wheel set (230) outside the second fastening means (120). is arranged.
  • a wheel (231) arranged outside the first fastening means (110) is a drive wheel, to which preferably a handwheel (270) or a crank is assigned coaxially.
  • trajectory (225) laterally has the shape of a parallelogram, a trapezoid, a rectangle and / or a square, each with rounded corners due to the wheels.
  • Attachment means for attachment to the first support (20) is arranged at the first attachment position, and wherein a fourth attachment means for attachment to the second support (30) is arranged at the second attachment position.
  • the aforementioned bearing insert wherein the third attachment means is formed below or above the first attachment means (110) and identical to the first attachment means (110), and the fourth attachment means is below or above the second attachment means (120) and identical to the second attachment means (120). is trained.
  • first wheel set (230) in addition to the first, second, third and fourth wheel (231, 232, 233, 234) a number of other wheels (235, 236, 237, 238, 239), wherein the further wheels (235, 236, 237, 238, 239) are arranged vertically between the carrier (130) and the further carrier (132).
  • the above-mentioned bearing insert wherein the first band (240) in the region of the other wheels (235, 236, 237, 238) is serpentine.
  • first band (240) and / or the second band (260) have a length so that they can also rotate around not to the bearing insert (100) belonging wheels.
  • Drive means (220) comprises a second set of wheels (250) having a number of wheels, around which the second band rotates.
  • bearing insert (100) comprises a number of additional carriers (134), which are arranged in the inserted state vertically between the carrier (130) and the further carrier (132).
  • the aforementioned bearing insert wherein the carrier (130), the further carrier (132) and / or the additional carrier (134) are connected to one another, in particular by means of a number of vertical connecting rods (136) and / or by means of a cross-shaped connection or bracing ( 138).
  • Drive means (220) comprises an electric motor, which preferably acts on one or more of the wheels.
  • Drive device (220) comprises a brake, in particular a jaw brake, which acts on one or more of the wheels (231, 232) or on one or more of the belts (240, 260), and which is adapted to a movement of the drive means ( 220) to prevent or brake.
  • a brake in particular a jaw brake, which acts on one or more of the wheels (231, 232) or on one or more of the belts (240, 260), and which is adapted to a movement of the drive means ( 220) to prevent or brake.
  • bearing insert (100) has a guide which is connected to the carrier (130) and in which the containers (210) are guided along the trajectory (225).
  • the operating device (270) has selection means for selecting one of the containers (210), wherein the operating device (270) is designed to after selecting a container (210) to drive the drive device (220) such that the selected container (210) is moved to the removal position.
  • Drive means (220) wherein the operating device (270) is adapted to drive the drive means (220) such that they one selected by means of the input means
  • the operating device (270) is designed as a handwheel or as a set of two handwheels coupled to one another for driving the drive device (220).
  • the operating device (270) has at least one interface, in particular a wireless interface such as RFID or a wired interface, for selecting one of the containers (210), wherein the operating device (270) is designed after selecting a container (210) to drive the drive device (220) such that the selected container (210) is moved to the removal position.
  • a wireless interface such as RFID or a wired interface
  • bearing device (200) is designed as a horizontal or oblique paternoster.
  • bearing insert (100) is designed for use in a horizontal position, wherein in the horizontal position, in particular the first fastening means (110) and the second fastening means (120) are arranged at the same height.
  • bearing insert (100) is designed for use in an oblique position, wherein in an oblique position, in particular the first fastening means (110) is arranged higher than the second fastening means (120).
  • bearing insert (100) is designed for use as an attachment on a table, in particular a table of a workplace or a production line.
  • bearing insert (100) is designed for use as an insert in a table, in particular a table of a workplace or a production line.
  • a shelf in particular small shelf, comprising:
  • a work table which is associated in particular with a production line, wherein the work table has a first support and a second support, wherein on or in the work table, a bearing insert (100) is attached as mentioned above, the fastening means are fixed to the supports of the work table.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Warehouses Or Storage Devices (AREA)

Abstract

La présente invention concerne un support de stockage (100) dans lequel des contenants (210) peuvent être amenés de manière simple dans une position de prélèvement. La présente invention concerne en outre une étagère et un établi associés.
PCT/EP2016/056681 2015-03-25 2016-03-24 Support de stockage, étagère et établi WO2016151124A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
DE112016001389.2T DE112016001389A5 (de) 2015-03-25 2016-03-24 Lagereinsatz, Regal und Arbeitstisch

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE202015101508.9 2015-03-25
DE202015101508 2015-03-25

Publications (1)

Publication Number Publication Date
WO2016151124A1 true WO2016151124A1 (fr) 2016-09-29

Family

ID=55745741

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/EP2016/056681 WO2016151124A1 (fr) 2015-03-25 2016-03-24 Support de stockage, étagère et établi

Country Status (2)

Country Link
DE (2) DE202016101657U1 (fr)
WO (1) WO2016151124A1 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110281989A (zh) * 2019-07-05 2019-09-27 中国航发哈尔滨轴承有限公司 一种轴承周转车及其使用方法

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3674155A (en) * 1970-11-27 1972-07-04 Lester A Kessler Tool storage device
US20040079620A1 (en) * 2002-10-29 2004-04-29 Len Aleshire Storage and conveyor apparatus
EP1674217A1 (fr) * 2004-12-27 2006-06-28 Positec Power Tools (Suzhou) Co., Ltd. Dispositif pour depositer des caisses d' accessoires
US8172095B1 (en) * 2009-01-26 2012-05-08 Tim Herlihy Mountable tool storage and organization apparatus
US20130180939A1 (en) * 2009-09-22 2013-07-18 Bruce Gary Wilder Rotating Organizer Using Jars or Other Containers for Storage

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3674155A (en) * 1970-11-27 1972-07-04 Lester A Kessler Tool storage device
US20040079620A1 (en) * 2002-10-29 2004-04-29 Len Aleshire Storage and conveyor apparatus
EP1674217A1 (fr) * 2004-12-27 2006-06-28 Positec Power Tools (Suzhou) Co., Ltd. Dispositif pour depositer des caisses d' accessoires
US8172095B1 (en) * 2009-01-26 2012-05-08 Tim Herlihy Mountable tool storage and organization apparatus
US20130180939A1 (en) * 2009-09-22 2013-07-18 Bruce Gary Wilder Rotating Organizer Using Jars or Other Containers for Storage

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110281989A (zh) * 2019-07-05 2019-09-27 中国航发哈尔滨轴承有限公司 一种轴承周转车及其使用方法

Also Published As

Publication number Publication date
DE112016001389A5 (de) 2017-11-30
DE202016101657U1 (de) 2016-07-05

Similar Documents

Publication Publication Date Title
DE60217821T2 (de) Automatisches Regallager
DE4324628A1 (de) Vorrichtung zur Bereitstellung von Werkzeug und Material
DE112014001610T5 (de) Kühlschrank
EP3294501A1 (fr) Dispositif de rangement
DE112014001857T5 (de) Kühlschrank
WO2016151124A1 (fr) Support de stockage, étagère et établi
CH712455B1 (de) Adapter, Warenträger und Befestigungssystem.
EP0098482A2 (fr) Dispositif de levage ou de dépose pour des réceptacles transportables, par exemple conteneurs, abris, structures amovibles ou semblables
DE202019004530U1 (de) Arbeitsplatz-Vorrichtung, insbesondere für die Montage von Schaltschränken
WO2013052974A1 (fr) Dispositif de stockage d'ustensiles, notamment d'outils
EP2918373B1 (fr) Dispositif de stockage d'outils pour l'extension de la capacité de stockage d'outils d'un centre d'usinage par forage, fraisage et/ou tournage
DE102014108206A1 (de) Werkbank
DE19540058C1 (de) Kombinierter Bett-Nachttisch
DE102021111243B3 (de) Schriftzugschablonenrondell
DE102007017279A1 (de) Wuchtmaschine
DE1429691C3 (de) Schreibtisch mit auswechselbar angeordnetem Schubfachgehäuse
EP2420780B1 (fr) Unité de stockage pour produit surgelé dotée d'un support de produit surgelé
WO2008095751A1 (fr) Porte d'appareil réfrigérant
EP0073749B1 (fr) Récipient pour petits objets
DE2314796A1 (de) Palettenrahmen
DE102011101039A1 (de) Kühl- und/oder Gefriergerät
DE2505096A1 (de) Gewindeschneidmaschine
WO2018192969A1 (fr) Rayonnage
DE9314357U1 (de) Hebevorrichtung für Einsätze in Geschirrspülautomaten
WO2022148802A1 (fr) Dispositif et procédé pour usiner des surfaces

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 16715812

Country of ref document: EP

Kind code of ref document: A1

WWE Wipo information: entry into national phase

Ref document number: 112016001389

Country of ref document: DE

REG Reference to national code

Ref country code: DE

Ref legal event code: R225

Ref document number: 112016001389

Country of ref document: DE

122 Ep: pct application non-entry in european phase

Ref document number: 16715812

Country of ref document: EP

Kind code of ref document: A1