EP1727751A2 - Entleerungsvorrichtung für einen schüttgutbehälter und schüttgutbehälter - Google Patents
Entleerungsvorrichtung für einen schüttgutbehälter und schüttgutbehälterInfo
- Publication number
- EP1727751A2 EP1727751A2 EP05714695A EP05714695A EP1727751A2 EP 1727751 A2 EP1727751 A2 EP 1727751A2 EP 05714695 A EP05714695 A EP 05714695A EP 05714695 A EP05714695 A EP 05714695A EP 1727751 A2 EP1727751 A2 EP 1727751A2
- Authority
- EP
- European Patent Office
- Prior art keywords
- closure
- container
- bulk
- connection
- bulk goods
- Prior art date
- Legal status (The legal status 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 status listed.)
- Granted
Links
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D90/00—Component parts, details or accessories for large containers
- B65D90/54—Gates or closures
- B65D90/62—Gates or closures having closure members movable out of the plane of the opening
- B65D90/626—Gates or closures having closure members movable out of the plane of the opening having a linear motion
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D88/00—Large containers
- B65D88/54—Large containers characterised by means facilitating filling or emptying
- B65D88/72—Fluidising devices
Definitions
- the invention relates to an emptying device for emptying bulk goods from a bulk goods container as well as a bulk goods container and a closure for a bulk goods container.
- the bulk goods are discharged through outlet openings formed in the container walls.
- the bulk material containers are typically connected to an emptying device (also referred to as an outlet or docking device or outlet or docking station), which is provided with an inlet opening which opens into a passage channel through which the bulk material flows out (also referred to as outflow). can.
- a first type of emptying device After the bulk container has been pressed on, the bulk material is essentially emptied by blowing compressed air into the bulk container, which then sweeps the bulk material along with the bulk material through the outlet opening out of the bulk material container and through the inlet opening flows into the emptying device.
- Emptying devices of this type are e.g. in the publications US 5 474 111 (Degussa), DE 1 257 682 (Schröder) and US 4 790 708 (from Bennigsen-Mackiewicz).
- this first type of emptying device is typically provided with a metering device comprising backflow flaps and / or gate valves, which is arranged in the passage channel of the emptying device.
- a metering device comprising backflow flaps and / or gate valves, which is arranged in the passage channel of the emptying device.
- a second type of emptying device is designed for emptying bulk containers which have a closure which is provided with a connecting flange in which the outlet opening is formed, and with a closure member for closing and optionally opening the outlet opening or closure.
- This second type of emptying device is provided with a closure actuator Activation of the closure of the bulk container equipped. After the bulk goods container has been connected to the emptying device, the bulk goods are emptied by opening the closure of the bulk goods container by means of the closure actuating device, whereupon the bulk goods can flow out of the bulk goods container through the outlet opening. Since the bulk material container itself is already provided with a closure for the bulk material, it is often possible to dispense with a further closure or metering device in the emptying device.
- Emptying devices of this second type are known, for example, from the publications EP 0 915 032 (AT ubentechnik AG), WO 98/43902 (Matcon) and FR 2 587 780 (Rhone Poulenc).
- the emptying devices described in the latter two publications are each provided with a compressed air cleaning device, which makes it possible to clean the emptying device and / or the bulk material container in the connection area by means of compressed air.
- the object of the invention is to provide an emptying device belonging to the technical field mentioned at the outset and a bulk material container which enable safe operation and reliable emptying and conveying away of bulk materials from the bulk material container.
- an emptying device for emptying bulk material from a bulk material container has a basic structure as well as a connection part provided with an inlet opening and a passage channel into which the Inlet opening opens.
- the bulk container has a closure with a connection flange and a closure member.
- the connecting flange is provided with an outlet opening for bulk material accommodated in the bulk material container, through which the bulk material can flow out when the outlet opening is open.
- the closure member is designed and arranged for closing and optionally opening the outlet opening.
- the connecting flange of the bulk goods container can be connected so tightly to the connecting part of the emptying device that - when the connecting flange is connected to the connecting part, i.e.
- the emptying device also has a closure actuation device mounted on the base structure or on the connection part, which is designed for actuating the closure (in particular the closure member) of the bulk goods container.
- the closure actuation device is provided with a closure actuation element and an adjustment device.
- the adjusting device is designed and arranged in such a way that in a state of the closure connected to the connection part, the closure actuating element can optionally be displaced between a closed position and at least one open position with respect to the connection part by means of the adjustment device.
- connection section is also provided with a pneumatic gas outlet, which is separated from the inlet opening.
- the connecting flange of the bulk goods container is further provided with a pneumatic gas inlet corresponding to the pneumatic gas outlet, which is separated from the outlet opening.
- the pneumatic gas inlet of the bulk material container is preferably arranged on an outer side of the connecting flange of the bulk material container (whereby the outside here is to be understood in relation to the bulk material container and the outer side of the connecting flange forms part of the outer side of the bulk material container).
- the pneumatic gas inlet of the bulk material container or its connecting flange can be connected to the pneumatic gas outlet of the connecting part of the emptying device in this way, that pneumatic gas can flow from the emptying device through the pneumatic gas outlet of the connecting part and the pneumatic gas inlet of the connecting flange into the bulk material container in order to loosen the bulk material accommodated in the bulk material container and thereby support the outflow of the bulk material.
- a pneumatic gas is understood to be any gaseous fluid (gas medium) suitable for pneumatic applications.
- Pneumatic gas can e.g. B. be air, especially air that has an increased pressure relative to the air pressure of the ambient air (usually referred to as compressed air).
- Pneumatic gas can also be nitrogen, noble gas or any other gas or gas mixture suitable for pneumatic applications.
- the bulk container can be moved or moved and the emptying station can be stationary to enable connection.
- the bulk container can also be stationary and the emptying station can be moved or displaced, or both the bulk container and the emptying station can be displaceable or displaceable to enable the connection.
- a pneumatic gas inlet of the bulk material container (or its connecting flange) that can be connected to the pneumatic gas outlet of the emptying device (or its connecting part) means that the pneumatic gas inlet and the pneumatic gas outlet can be connected or connected to one another in a pneumatic gas-conducting function, the bulk material container and / or the emptying device can be movable or displaceable to enable the connection.
- the base structure can be designed as a frame or as a housing of the emptying device.
- the connection part can be formed as an integral part of the basic structure.
- the passage channel can also be an integral part of the Base structure to be formed. However, it can also be formed in an independent component that is arranged on the base structure of the emptying device.
- the bulk container can have single or multi-layer flexible container walls and z. B. as a sack or a large container (also referred to as a "big bag” or “bulk bag”).
- the bulk container can also have fixed and / or combined container walls and z. B. be designed as a barrel or container.
- the outlet opening is opened or open lock understood.
- the closure is then in an open position.
- the closure actuating device can be mounted directly on the connection part of the emptying device. However, the closure actuation device can also be mounted on the base structure of the emptying device.
- the closure member can be a solid body (i.e. a closure body), and the closure actuation device can be designed to selectively open and then reclose the closure in order to enable a dosed discharge of bulk material from the bulk material container.
- the closure member can e.g. can be moved away from the outlet opening and again towards the outlet opening by means of the closure actuation element, which takes the closure member with it, the closure actuation element in turn being driven and adjusted by the adjustment device of the closure actuation device.
- the closure body made of a solid material e.g. metal or plastic
- the closure member can, however, also simply be a perforable part of the container wall, a perforable film or another perforable closure element.
- a closure provided with such a closure member can be opened by perforating the closure member by means of the closure actuation element driven by the adjusting device. In this case, the closure is only intended to be opened once, ie it is a one-way closure.
- the closure member can, in particular in the case of a closure member designed as a solid body, be arranged essentially in an interior of the bulk goods container provided for receiving the bulk material, it being possible, in particular in its closed position, to form a part of the container wall of the bulk goods container.
- a pneumatic gas supply is provided through the pneumatic gas outlet of the emptying device and the pneumatic gas inlet of the bulk goods container.
- Known pneumatic gas couplings can be used for connecting the pneumatic gas inlet of the bulk material container to the pneumatic gas outlet of the emptying device, wherein manually and / or automatically actuable couplings are possible.
- the closure of the bulk goods container which can be actuated by means of the closure actuation device of the emptying device ensures, on the one hand, safe and economical operation when emptying bulk goods from the bulk goods container.
- the pneumatic gas supply through the pneumatic gas outlet of the emptying device and the pneumatic gas inlet of the bulk material container creates the possibility of any clumped bulk material in the bulk material container or bulk material bridges, which e.g. loosened up in the bulk material during storage or transport, using pneumatic gas jets. Such a loosening process is also referred to as fluidization of the bulk material.
- the possibility of fluidizing the bulk material by means of pneumatic gas impacts, in particular in the case of bulk goods which tend to clump or form bridges, substantially reduces the risk of the emptying process being blocked and thus improves the reliability of the emptying process.
- the pneumatic gas outlet and the inlet opening of the emptying device can be arranged at a distance from one another (ie spaced apart), in which case the pneumatic gas inlet and the outlet opening of the bulk material container are also arranged at a distance from one another.
- the distance between the pneumatic gas outlet and the inlet opening of the emptying device (and accordingly the distance between the pneumatic gas inlet and the outlet opening of the connecting flange) can be comparatively small, so that the pneumatic gas outlet and the emptying station are separated from one another, for example, only by an intermediate wall.
- a small distance enables a space-saving construction of the connection part and the connection flange.
- a complete, largely residue-free emptying of the bulk material container can be achieved by blowing in pneumatic gas, which was mostly not possible with previously known emptying devices of the second type, in particular when using bulk material containers with flexible container walls (e.g. bags).
- the emptying device can further comprise a control unit for controlling the pneumatic gas supply to the pneumatic gas outlet, so that the pneumatic gas can be blown into the bulk goods container in a controlled manner by means of this control unit.
- the control unit can be designed to control the pneumatic gas supply as a function of the bulk material, the fill level in the bulk container and / or the evacuation capacity of an evacuation device connected to the passage channel.
- Discharge device corresponding connection flange is provided, a tight connection of the bulk container is guaranteed to the emptying device. This prevents bulk goods from flowing through the outlet opening past the through-channel and being lost.
- An arrangement of the pneumatic gas inlet on an outer side of the bulk goods container or its connecting flange also proves to be advantageous, because contamination of the pneumatic gas outlet of the emptying device and the entire connecting part of the emptying device by the bulk material can be largely avoided.
- This advantage is particularly important in the case of bulk goods, for which increased requirements with regard to purity (e.g. for pharmaceuticals) or safety (for toxic bulk goods) have to be met.
- the pneumatic gas outlet on the connection part of the emptying device can furthermore advantageously be used for an additional cleaning of the connection part of the emptying device and / or the closure of the bulk material container.
- pneumatic gas can be blown out again through the pneumatic gas outlet in order to blow away any bulk material present on the connection part and / or on the connection flange by means of the pneumatic gas flow generated in this way. If an evacuation device is connected to the passage channel, the bulk material blown away can be sucked off by the evacuation device through the inlet opening and the passage channel.
- connection part For the purpose of cleaning the connection part, the connection flange and / or a lower end face of the closure member, the closure actuation element and / or the adjusting device of the. Can alternatively or in addition to the pneumatic gas outlet of the connection part
- Breech actuation device with pneumatic gas outlet or inlet.
- Pneumatic gas in particular air
- Pneumatic gas can then be blown through or sucked in to blow bulk material and / or other contaminants away from the connection part, from the connection flange and / or from the lower line surface of the closure member.
- a further advantage can be achieved by means of the closure actuation device.
- the ceiling of the bulk goods container can then be supported at least in a late phase of the emptying process by the closure actuating element which is moved upwards (e.g.
- Lock actuator support this lock body.
- the ceiling of the almost empty bulk goods container can then rest on and be supported by the closure body, which in turn is supported by the closure actuation element, so that the ceiling is in turn indirectly supported by the closure actuation element.
- the bulk container ceiling can also be supported directly by means of the closure actuating element.
- connection part provided with a pneumatic gas outlet is designed as a component of a kit which can be attached or attached to the base structure of the emptying device.
- this kit is permanently attached to or connected to the basic structure.
- the connection part provided with the inlet opening and the pneumatic gas outlet is a common construction unit as the first construction unit on the emptying device side
- Coupling device for the optionally releasable connection i.e. the optionally releasable coupling
- the coupling device comprises a second construction unit on the bulk material container side, which is formed by the connecting flange.
- the first and second constructional units can be coupled or connected to one another in a single coupling process in order to connect or couple the connecting flange of the bulk material container to the connecting part of the emptying device and the pneumatic gas inlet of the bulk material container to the pneumatic gas outlet of the emptying device.
- the coupling device is preferably designed such that it can be actuated automatically.
- the coupling device can be actuated mechanically, pneumatically or hydraulically in order to carry out the coupling process. This creates the possibility of automatically connecting the bulk goods container to the emptying station without an operator having to carry out any manual manipulations in the area of the bulk goods container. This is particularly advantageous in the case of toxic bulk materials.
- the coupling device is preferably designed for the releasable connection or coupling of the two construction units to one another, the coupling device z. B. can be designed as a so-called bayonet coupling.
- the coupling device z. B. can be designed as a so-called bayonet coupling.
- the same construction unit thus serves both for coupling the pneumatic gas inlet of the bulk material container to the pneumatic gas outlet of the emptying device and for coupling the connecting flange of the bulk material container to the connecting part of the emptying device such that bulk material flows out of the bulk material container through the outlet opening and flows through the inlet opening into the passage channel of the emptying device.
- separate couplings can also be provided for creating a bulk material outlet path from the bulk material container to the emptying device and creating a pneumatic gas line from the emptying device to the bulk material container.
- both the inlet opening and the pneumatic gas outlet in one and the same outer side of the connection part each have a mouth with a flat edge, the edge of the mouth of the inlet opening and the edge of the mouth of the pneumatic gas outlet being arranged coplanar with one another.
- the outlet opening and the pneumatic gas inlet each have an opening with a flat edge in one and the same outer side of the connecting flange, the edge of the opening of the opening and the edge of the opening of the pneumatic gas inlet in turn being arranged coplanar with one another.
- the pneumatic gas outlet in an outer side of the connection part of the emptying device is designed as a channel which is at least partially open to the outside and which has at least one channel wall which is also designed as a channel wall of the through-channel.
- the channel wall common to the pneumatic gas outlet and the passage channel can delimit the channel-shaped pneumatic gas outlet on one wall side and the passage channel or its inlet opening on the other wall side.
- the pneumatic gas outlet and the bulk material inlet opening are preferably designed and arranged in such a way that the pneumatic gas outlet channel formed in the outside of the connection part partially or even completely surrounds the bulk material inlet opening in this outer side.
- the inlet opening can be circular and the pneumatic gas outlet be designed as an annular channel (ie as an annular channel), the two being arranged concentrically to one another in the outside of the connection part.
- pneumatic gas outlet and the inlet opening into the passage channel are configured differently and / or are arranged at points on the connection part of the emptying device which are further apart.
- the pneumatic gas inlet of a bulk material container is preferably closed off from the interior of the bulk material container by a non-return valve which allows fluid flow through the pneumatic gas inlet towards the bulk material container interior, but prevents fluid flow in the opposite direction out of the bulk material container interior through the pneumatic gas inlet.
- the check valve prevents bulk material from flowing out of the bulk material container through the pneumatic gas inlet.
- a filter and / or a small cross section of the pneumatic gas inlet and / or a porous membrane can also be provided, in order to allow pneumatic gas to flow into the bulk material container through the pneumatic gas inlet, and to allow bulk material to flow out in the opposite direction to prevent however.
- the pneumatic gas can basically flow through the pneumatic gas inlet in both directions.
- a corresponding closure can therefore not only be used for emptying the bulk goods container, but it can also be used for filling the bulk goods container.
- the bulk material together with pneumatic gas can flow into the bulk material container through the bulk material outlet opening formed in the connecting flange of the closure. The pneumatic gas can then flow out of the bulk material container through the pneumatic gas inlet and out of the bulk material container again, while the bulk material remains in the bulk material container.
- the check valve can be made of an elastic material Have valve shut-off, which also acts as a closing spring of the check valve.
- the pneumatic gas inlet comprises a plurality of pneumatic gas inlet orifices which open into the interior of the bulk goods container and are closed off by a number of check valves corresponding to the number of pneumatic gas inlet orifices
- a single common valve shut-off body made of elastic material can be provided, which acts both as a shut-off body and as a closing spring for all of these check valves , This enables a particularly simple and inexpensive construction of the bulk goods container.
- the valve shut-off body which also acts as a closing spring, is preferably designed and at least partially arranged in the interior of the bulk material container such that it can be excited to oscillate by pneumatic gas which flows through the pneumatic gas inlet into the interior of the bulk material container. The vibrations are then transferred to the bulk material picked up in the interior and further loosen the bulk material.
- a valve shut-off body can in particular be designed as a flat or tapered lip which is attached to the connecting flange or is an integral part of the connecting flange and completely spans a passage of the pneumatic gas inlet opening into the bulk material container interior.
- the lip also referred to as a non-return sealing lip
- the lip is tensioned against the mouth by an elastic tensioning force, which is caused by the elastic material of the lip, so that the mouth is sealed off.
- pneumatic gas which is pressurized
- the pneumatic gas can lift the non-return sealing lip against the resilience of the lip from the mouth due to its excess pressure, so that pneumatic gas can flow through the passage into the bulk material container interior ,
- the non-return sealing lip is made to vibrate (also known as flutter). The vibrations are transferred to the bulk material in the interior of the container, which lies against the sealing lip.
- a bulk container according to a further preferred embodiment of the invention is characterized in that a predominant part of the container wall is made of a flexible material, so that the bulk container is essentially a sack or a so-called "big bag".
- the connection flange of the closure of this sack-like bulk container is made of a solid material (e.g. metal or plastic).
- At least one first passage for bulk material is formed in this connecting flange, which serves as an outlet opening or as part of the outlet opening for the bulk material received in the bulk material container.
- the bulk material outlet opening can also have a plurality of passages formed in the connecting flange.
- At least one further passage for pneumatic gas is formed in the connecting flange, which serves as a pneumatic gas inlet or as part of the pneumatic gas inlet.
- the pneumatic gas inlet can also have a plurality of passages formed in the connecting flange.
- the connection flange made of a solid material enables a simple and tight connection of the bulk goods container to the emptying device even in the case of a bulk goods container designed as a sack.
- the single-layer or multi-layer container wall can be clamped between two parts of the connection flange and can only be attached to the connection flange by means of the force caused by the clamping. This creates the possibility of reusing the connection flange by simply removing the connection flange from a used and no longer usable container wall (eg in the form of a sack) and inserting a new container into the container wall.
- a two-part or multi-part closure can be designed, in particular, as an exchange unit for multiple use for different bulk material containers, which are identical or different.
- a closure designed as an exchange unit can also be used advantageously in connection with bulk containers of the type mentioned, regardless of whether it also has a separate pneumatic gas inlet in addition to an outlet opening for the bulk material.
- the container wall can also be glued to the connecting flange by means of an adhesive, in particular in the case of a container wall made of paper or cardboard.
- the container wall can also be connected to the connecting flange by welding, in the case of a container wall made of a plastic film, in particular also by ultrasonic welding.
- the single-layer or multi-layer flexible part of the container wall is provided with a hole which forms a common passage for bulk material and pneumatic gas.
- the edge of this hole forms a closed circumferential line and can in particular e.g. be circular.
- the container wall is connected along the edge of the hole to the connection flange in a manner that is tight for pneumatic gas and bulk material.
- the outlet opening formed in the connecting flange is arranged in the region of the hole.
- a channel leading from the pneumatic gas inlet into the container interior is formed in such a way that it leads from the pneumatic gas inlet through the hole past the edge of the hole into the interior of the bulk material container.
- an emptying device for emptying bulk material from a bulk material container has a basic structure, a connection part provided with an inlet opening and a passage channel into which the inlet opening opens.
- the bulk container has a closure with a connection flange and a closure member.
- the connecting flange is provided with an outlet opening for bulk material accommodated in the bulk material container, through which the bulk material can flow out when the outlet opening is open.
- the closure member is designed and arranged for closing and optionally opening the outlet opening.
- the connecting flange of the bulk goods container can be connected so close to the connecting part of the emptying device that - in one to the emptying device connected state of the bulk goods container or its connecting flange - when the closure is open, bulk goods can flow out of the bulk goods container through the outlet opening, into the through-channel through the inlet opening and then through the through-channel.
- the emptying device furthermore has a closure actuation device mounted on the base structure or on the connection part, which is designed for actuating the closure of the bulk goods container.
- the closure actuation device is provided with a closure actuation element and an adjustment device.
- the adjustment device is designed and arranged in such a way that in a state of the closure connected to the connection part, the closure actuating element can optionally be displaced between a closed position and at least one open position with respect to the connection part by means of the adjustment device.
- the adjusting device comprises a piston-cylinder arrangement with a piston mounted on the base structure or on the connection part and at least one cylinder, in which the piston is received in such a way that the cylinder with respect to the piston (and thus with respect to the base structure or the connection part, on which the piston is mounted) is displaceable in the direction of the cylinder axis.
- the at least one cylinder is coupled to the closure actuating element, so that it can be driven by means of the piston-cylinder arrangement in order to displace it essentially in a straight line with respect to the connection part.
- the closure actuating element in turn, can be coupled to the closure member in a state of the bulk goods container connected to the connection part of the emptying device in such a way that the closure member can be driven by means of the piston-cylinder arrangement.
- actuation of the closure member is effected by driving the closure actuation element by means of the piston-cylinder arrangement.
- the piston is mounted stationary on the emptying device, while the cylinder is slidably coupled to the closure member of the bulk container closure with respect to the base structure.
- the bulk material therefore flows past the piston-cylinder arrangement in the direction from the cylinder to the piston, not in the direction from the piston to the cylinder, as in the emptying device known from EP 0 915 032.
- This arrangement according to the invention leads to less contamination of the piston-cylinder arrangement in the area where the piston protrudes from the cylinder. This creates the possibility of completely dispensing with additional shielding of the piston-cylinder arrangement, even if the piston-cylinder arrangement is arranged entirely in the passage channel of the emptying device.
- the closure actuation device of the emptying device is designed to selectively open the closure when the bulk goods container is connected to the emptying device.
- the closure actuating device or its piston can be mounted directly on the connection part provided with the inlet opening. However, it can also be mounted on the base structure of the emptying device designed as a housing part or frame part.
- the piston-cylinder arrangement can preferably be actuated pneumatically.
- the risk of contamination of the bulk material when emptying is lower in the case of a pneumatically actuated piston-cylinder arrangement than in the case of a hydraulically actuated piston-cylinder arrangement.
- a hydraulic actuation of the piston-cylinder arrangement according to the invention is also possible for certain applications in which particularly high requirements regarding the purity of the bulk material are not to be met.
- the piston-cylinder arrangement according to the invention can have only a single cylinder which is displaceable with respect to the piston.
- the piston-cylinder arrangement can also have a plurality of cylinder parts which can be telescopically pushed into one another. This enables longer displacement distances.
- Such piston-cylinder arrangements with a piston and a plurality of telescopically displaceable cylinder parts are such. B. known for lifting devices for tipping tipping containers of construction machinery.
- an emptying device for emptying bulk material from a bulk material container has a basic structure, a connection part provided with an inlet opening and a passage channel into which the inlet opening opens.
- the bulk container has a closure with a connection flange and a closure member.
- the connecting flange is provided with an outlet opening for bulk material accommodated in the bulk material container, through which the bulk material can flow out when the outlet opening is open.
- the closure member is designed and arranged for closing and optionally opening the outlet opening.
- the emptying device has a closure actuation device mounted on the base structure or on the connection part, which is designed for actuating the closure (or the closure member) of the bulk goods container.
- the connecting flange of the bulk goods container can be connected so tightly to the connection part of the emptying device that - in a state of the bulk goods container or its connecting flange connected to the emptying device - with the closure open, bulk goods through the outlet opening out of the bulk goods container and through the inlet opening into the passage channel can flow in and then through the passage channel.
- a predominant part of the container wall of the bulk material container is made of a flexible material, so that the bulk material container is essentially a sack or a so-called "big bag".
- the connection flange of the closure of this sack-like bulk container is made of a solid material (e.g. metal or plastic). At least one passage for bulk material is formed in this connecting flange, which serves as an outlet opening or as part of the outlet opening for the bulk material received in the bulk material container.
- the closure also has a cover member which is arranged on the connecting flange in a state of the bulk container not connected to the emptying device in such a way that it covers the outlet opening on the outside of the bulk container, the cover member being an integral part of the portion made of the flexible material the container wall can be formed.
- the connection part of the emptying device is further provided with a knife unit which is designed and arranged on the connection part in such a way that it can cut the covering element away from the connection flange when the connection flange is or is connected to the connection part
- the connecting flange is preferably composed of at least two parts, one flange part, in which the outlet opening is formed, being arranged on the inside of the container wall and another flange part on the outside of the container wall.
- the container wall is then clamped between these at least two flange parts and thereby connected to the connecting flange.
- the outlet opening on the outside is covered by the flexible part of the container wall which is continuous and continuous in the entire area of the connection flange and its surroundings.
- the cover formed by the flexible part of the container wall in front of the outlet opening can then be cut away by means of the knife unit, whereupon the closure of the bulk container can be opened by means of the closure actuating device of the emptying device.
- this aspect of the invention does not necessarily have to be used in connection with the provision of a pneumatic gas supply for fluidizing the bulk material in the bulk material container or with a piston-cylinder arrangement for driving a closure actuating element.
- the knife unit is preferably designed and arranged on the connection part in such a way that it can be actuated completely automatically in order to remove the cover from the Cut away the connection flange. This creates the possibility for a fully automatic connection of the bulk goods container to the emptying device, which is particularly advantageous in the case of toxic bulk goods.
- the knife unit can e.g. be pneumatically actuated and contain a circular knife, which - if the bulk container is arranged in a position with its connecting flange on the connecting part - is pneumatically driven against the connecting flange and cuts or punches out a round surface corresponding to the circular knife shape from the flexible part of the container wall to remove the cover formed by the flexible part of the container wall from the outlet opening.
- the closure actuation device is preferably provided with a closure actuation element and an adjustment device, the adjustment device being designed and arranged in such a way that in a state of the closure connected to the connection part, the closure actuation element by means of the adjustment device optionally between a closed position, a cut-open position and at least one open position with respect to the Connecting part is displaceable .
- an emptying device for emptying bulk material from a bulk material container has a basic structure, a connection part provided with an inlet opening and a passage channel into which the inlet opening opens.
- the bulk container has a closure with a connection flange and a closure member.
- the connecting flange is provided with an outlet opening for bulk material accommodated in the bulk material container, through which the bulk material can flow out when the outlet opening is open.
- the closure member is designed and arranged for closing and optionally opening the outlet opening.
- the emptying device has a closure actuation device mounted on the base structure or on the connection part, which is designed for actuating the closure (or the closure member) of the bulk goods container.
- the connecting flange of the bulk goods container can be connected so close to the connecting part of the emptying device that - in one to the emptying device connected state of the bulk goods container or its connecting flange - when the closure is open, bulk goods can flow out of the bulk goods container through the outlet opening, into the through-channel through the inlet opening and then through the through-channel.
- the closure actuation device is provided with a closure actuation element and an adjustment device.
- the adjustment device is designed and arranged in such a way that the closure actuating element can be moved between the closed position and at least one open position with respect to the connection part by means of the adjustment device.
- the closure actuation element is in turn coupled to the closure element in such a way that the closure element can be actuated via the closure actuation element by means of the closure actuation device.
- the closure actuating element is further provided with a driver unit, the outer circumference of which can be changed or adjusted, and that
- Closure member is provided with a driver stop which is designed and arranged on the closure member in such a way that in one of the connecting parts of the
- Closure actuating element is moved by means of the adjusting device.
- Carrier stop on the closure member creates the possibility of optionally detachable coupling of the closure actuating element to the closure member.
- this aspect of the invention is not absolutely necessary in connection with the provision of a pneumatic gas supply for fluidizing the bulk material in the bulk material container or with a piston-cylinder arrangement for driving a closure actuating element or with a knife unit for cutting away one as an integral part of a flexible container wall trained cover must be used.
- the driver unit is preferably designed and arranged on the connection part in such a way that its outer circumference can be changed or adjusted automatically. This creates the possibility for an automatic coupling of the closure actuating element with the closure member, an automatic connection of the bulk goods container to the emptying device, which is particularly advantageous in the case of toxic bulk goods.
- the driver unit can e.g. be designed as a ring or as a circular disc, the circumference of which can be optionally changed.
- the driver unit can in particular be made as a three-dimensional structure from a flexible material, the outer circumference of which can be changed by compressing or stretching the structure transversely to the circumferential plane as required.
- the structure can also be filled with air and sealed airtight.
- the change in circumference is preferably brought about by compression or expansion of the driver unit by means of a pneumatic actuation of at least one press which presses on the driver unit, the press being able to be provided with a press plate.
- the driver stop can be designed as a groove in an inner wall of a hollow closure member.
- Closure actuating element can then be arranged in this interior such that it engages in this groove with an enlarged outer circumference, while it does not engage in this groove with a reduced outer circumference.
- the driver unit can also serve as an optionally releasable clamping seal, which seals the gap between the closure member and the closure actuating element or the driver unit.
- an emptying device for emptying bulk material from a bulk material container has a
- the bulk container has a closure with a connection flange and a closure member.
- the connecting flange is provided with an outlet opening for bulk material accommodated in the bulk material container, through which the bulk material can flow out when the outlet opening is open.
- the closure member is designed and arranged for closing and optionally opening the outlet opening.
- the emptying device has a closure actuation device mounted on the base structure or on the connection part, which is designed for actuating the closure (or the closure member) of the bulk goods container.
- the connecting flange of the bulk goods container can be connected so tightly to the connection part of the emptying device that - in a state of the bulk goods container or its connecting flange connected to the emptying device - with the closure open, bulk goods through the outlet opening out of the bulk goods container and through the inlet opening into the passage channel can flow in and then through the passage channel.
- connection part is further provided with at least one locking element which is connected to the connection part in a tensile manner.
- connection flange is provided with at least one locking receptacle, which is connected to the connection flange in a tensile manner.
- the locking element and the locking receptacle are designed and arranged on the connection part or on the connection flange such that if the bulk material container is arranged with respect to the emptying device in such a way that the connection flange abuts the connection part in one direction (hereinafter referred to as the direction of impact), the locking element is such It can be accommodated in the locking receptacle in such a way that a positive connection between the connection part and the connection flange, which acts tensile against the direction of impact, is created.
- connection part and the locking receptacle on the connection flange provide the possibility of optionally releasable connection, which acts positively against the direction of impact, between the connection part and the connection flange arranged adjoining it. It is obvious that this aspect of the invention is not absolutely necessary in connection with the provision of a pneumatic gas supply for fluidizing the bulk material in the bulk material container or with a piston-cylinder arrangement for driving a closure actuating element or with a knife unit for cutting away one as an integral part of a flexible container wall trained cover or a driver unit with an optionally adjustable scope for optionally releasable coupling of the closure actuating element with the closure member must be used.
- the locking element can be designed as a T or L-shaped bolt which projects outwards from an outside of the connection part and can engage in a correspondingly designed recess or groove in the connection flange.
- the bolt can optionally be rotated back and forth around a bolt axis so that the bolt head can either reach behind or release a retaining edge or a retaining shoulder of the locking receptacle, in order to create an optionally releasable form-fitting connection between the connecting part and the connecting flange ,
- the locking device formed from the locking element and the locking receptacle can preferably be actuated automatically. In particular, it can also be designed in the manner of a bayonet catch.
- an emptying device for emptying bulk material from a bulk material container has a basic structure, a connection part provided with an inlet opening and a passage channel into which the inlet opening opens.
- the bulk container has a closure with a connection flange and a closure body, which is made of a solid material (e.g. metal or plastic).
- the connecting flange is provided with an outlet opening for bulk material accommodated in the bulk material container, through which the bulk material can flow out when the outlet opening is open.
- the closure body is designed and arranged for closing and optionally opening the outlet opening. It is essentially arranged in an interior of the bulk material container provided for receiving the bulk material, and in particular in its closed position it can form a part of the container wall of the bulk material container.
- the connecting flange of the Bulk goods container can be connected so tightly to the connection part of the emptying device that - in a state of the bulk goods container or its connecting flange connected to the emptying device - when the closure is open, bulk goods pass through the outlet opening out of the bulk goods container, through the inlet opening into the passage channel and then can flow through the passageway.
- the emptying device furthermore has a closure actuation device mounted on the base structure or on the connection part, which is designed for actuating the closure of the bulk goods container.
- the closure actuation device is also provided with a rotary drive which can be coupled to the closure body in such a way that the closure body can be rotated by means of the rotary drive about an axis of rotation which is stationary with respect to the connection part of the emptying device (hereinafter referred to as the first axis of rotation).
- the closure body is designed and arranged such that it can be coupled to the rotary drive.
- the closure body can be rotated with respect to the connection flange around an axis of rotation which is stationary with respect to the connection flange (hereinafter referred to as the second axis of rotation).
- the first axis of rotation and the second axis of rotation coincide, so that the closure body can then be rotated about a single common axis of rotation with respect to the connection part of the emptying device and with respect to the connection flange of the closure of the bulk material container is.
- An additional loosening of the bulk material can be achieved by rotating the closure body with respect to the connecting flange (and thus with respect to the bulk material container). This additional bulk material loosening can further improve the reliability of the emptying process.
- this aspect of the invention is not absolutely necessary in connection with the provision of a pneumatic gas supply for fluidizing the bulk material in the bulk material container or with a piston-cylinder arrangement for driving a closure actuating element or with a knife unit for cutting away one as an integral part of a flexible container wall trained cover or a driver unit with an optionally adjustable circumference for the optionally releasable coupling of the closure actuating element to the closure member or a positive locking between the connection part and the connection flange must be used.
- Separate coupling means can be provided for coupling the closure body to the rotary drive, wherein these can be actuated mechanically and / or pneumatically and / or hydraulically.
- the closure body and the rotary drive itself can also be designed in such a way that they can be coupled to one another in such a way that the rotary drive drives the closure body for rotation about the first or the second axis of rotation.
- the bulk container is connected to the connection part of the emptying device with the connecting flange of its closure.
- the bulk goods container is then essentially stationary with respect to the emptying device.
- the closure body can be displaced with respect to both the container and the emptying device by means of the closure actuation device and can be rotated about a stationary axis of rotation.
- the rotary drive can be designed for a continuous, uniform rotation of the closure body about the first or the second axis of rotation.
- the rotary drive can also be designed in such a way that it causes pulsating rotary movements or alternating rotary or pivoting movements in opposite directions of rotation of the closure body.
- the lock actuation device provided with the rotary drive can furthermore have a lock actuation element which can be coupled to the lock body and an elongate drive shaft which is fixedly connected to the lock actuation element and is arranged coaxially to the first axis of rotation. That is, the drive shaft has a longitudinal axis and is arranged in such a way that its longitudinal axis coincides with the first axis of rotation, around which the closure body with respect to the Connection part of the emptying device is rotatable.
- the closure actuation device can be provided with an adjustment device which is designed and arranged such that by means of the adjustment device the drive shaft together with the closure actuation element can optionally be displaced between a closed position and at least one open position essentially parallel (and thus in a straight line) to the first axis of rotation.
- the rotary drive is coupled to the drive shaft in such a way that the drive shaft can be rotated about the first axis of rotation with respect to the connection part by means of the rotary drive.
- the closure actuating element is then displaceable and rotatable with respect to the connection part.
- the closure actuating element can be coupled to the closure body in such a way that it causes the closure body to be moved and rotated. In the case of an emptying device provided with a vibrator, the vibrator is also advantageously arranged or attached to this closure actuating element.
- one or more shredding elements are attached to the drive shaft in a rotationally fixed manner and project in the radial direction from the drive shaft.
- the comminution elements can be arranged in the passage channel and can cover essentially the entire cross section of the passage channel.
- one or more bulk material conveying elements can additionally be attached to the drive shaft in such a manner that they cannot rotate when the drive shaft rotates about the first axis of rotation along the drive shaft in the manner of a screw conveyor or convey in the manner of a turbine, the bulk material being conveyed in the direction through the inlet opening and the passage channel.
- these comminution elements can also be additionally designed and arranged as conveying elements.
- conveying elements can be provided which are similar to Turbine blades or propeller blades are designed and arranged to effect bulk material conveyance in the manner of a turbine.
- one or more threads of a screw thread can also be provided as conveying elements in order to effect bulk material conveyance in the manner of a screw conveyor.
- one or more loosening elements are preferably attached to the closure body in a rotationally fixed manner and project at least partially into the interior of the bulk goods container provided for receiving the bulk goods.
- these loosening elements are preferably attached to the closure body in a rotationally fixed manner and project at least partially into the interior of the bulk goods container provided for receiving the bulk goods.
- one or more bulk material conveying elements can additionally be attached to the closure body in such a manner that they cannot rotate when the closure body is rotated around the second axis of rotation in the manner of a bulk screw or in the manner of a Feed the turbine in the direction from the interior of the bulk material container to the outlet opening.
- these loosening elements can also be additionally designed and arranged as conveying elements.
- a plurality of conveying elements can be provided, which are designed and arranged similarly to turbine blades or propeller blades in order to effect bulk material conveyance in the manner of a turbine.
- one or more threads of a screw thread can also be provided as conveying elements in order to effect bulk material conveyance in the manner of a screw conveyor.
- an emptying device for emptying bulk material from a bulk material container has a connection part provided with an inlet opening and a passage channel into which the inlet opening opens.
- the emptying device further has an emptying device contact part which is at least partially made of an electrically conductive material and is grounded.
- the bulk container has a closure with a connection flange and a closure member.
- the " connecting flange is provided with an outlet opening for bulk material accommodated in the bulk material container, through which the bulk material can flow out when the outlet opening is open.
- the closure element is designed and arranged for closing and optionally opening the outlet opening.
- the bulk material container furthermore has a bulk material container contact part which is at least partially made of an electrically conductive material.
- the connecting flange of the bulk goods container can be connected so tightly to the connection part of the emptying device that - in a state of the bulk goods container or its connecting flange connected to the emptying device - with the closure open, bulk goods through the outlet opening out of the bulk goods container and through the inlet opening into the passage channel can flow in and then through the passage channel.
- the bulk container contact part is in contact with the emptying device contact part and the bulk container contact part is electrically conductively connected to the emptying device contact part in that the electrically conductive material of the bulk container contact part is in direct, electrically conductive contact with the electrically conductive material of the emptying device contact part.
- An electrically conductive material can e.g. B. be metallic material. However, it can also be a material mixture or a composite material which is composed both of electrically conductive material and of electrically insulating material.
- an electrostatically dissipative plastic or a plastic with an electrostatically dissipative coating is also understood in the present context as an electrically conductive material.
- grounding is to be understood as an electrically conductive connection to a ground or a ground.
- the bulk container can in particular have flexible container walls and z. B. as a sack or a large container (also referred to as a "big bag” or “bulk bag”). By the bulk container contact part during the
- this aspect of the invention is not necessarily in connection with the provision of a pneumatic gas supply for fluidizing the bulk material in the bulk material container or with a piston-cylinder arrangement for driving a closure actuating element or with a knife unit for cutting away one as an integral part of a flexible container wall trained cover or a driver unit with an optionally adjustable circumference for the optionally releasable coupling of the closure actuating element with the closure member or a positive locking between the connection part and the connection flange or the bulk material loosening by rotation of the closure member must be used.
- the connecting part of the emptying device is simultaneously designed as an emptying device contact part and the connecting flange of the bulk material container is simultaneously designed as a bulk material container contact part.
- the connection part is at least partially made of an electrically conductive material and grounded, and the connection flange is also at least partially made of an electrically conductive material.
- the bulk container can then be electrostatically discharged via the connecting flange of the bulk container and the connecting part of the emptying device.
- the emptying device can furthermore have a basic structure and also one on the basic structure or on the connecting part mounted lock actuation device, which is provided with a lock actuation element and with an adjusting device such that by means of the adjustment device the lock actuation element can optionally be displaced between a closed position and at least one open position, the lock actuating element being designed as an emptying device contact part.
- the closure actuating element is at least partially made of an electrically conductive material and grounded.
- the closure body of this closure is designed as a bulk container contact part, ie the closure body is at least partially made of an electrically conductive material.
- the connecting flange is connected to the connection part, the closure body is then in contact with the (electrically conductive and grounded) closure actuation element, and the closure body is then connected in an electrically conductive manner to the closure actuation element.
- the bulk container can then be electrostatically discharged via the closure body of the bulk container and the closure actuating element of the emptying device.
- a bulk goods container has a closure with a connection flange and a closure body, which is made of a solid material (e.g. metal or plastic).
- the connecting flange is provided with an outlet opening for bulk material accommodated in the bulk material container, through which the bulk material can flow out when the outlet opening is open.
- the closure body is designed and arranged for closing and optionally opening the outlet opening. It is essentially arranged in an interior of the bulk material container provided for receiving the bulk material, and in particular in its closed position it can form a part of the container wall of the bulk material container.
- the closure body has a cavity open towards the outlet opening.
- connection flange of the bulk goods container can be connected so tightly to a connection part of an emptying device provided with an inlet opening that - in a state of the bulk goods connected to the emptying device - container or its connecting flange - bulk material can flow through the outlet opening out of the bulk material container and through the inlet opening into the emptying device when the closure is open.
- the closure also has a cover member.
- this can be attached to the connecting flange in such a way that it covers the outlet opening on the outside of the bulk goods container and thereby protects it.
- the connection flange has an outside provided with a pneumatic gas inlet
- the covering element can also cover and protect this outside.
- the cover member is designed and at least partially arranged protruding through the outlet opening into the cavity of the closure body in such a way that it in turn has a cavity that is open to the outside and is arranged essentially within the cavity of the closure body.
- the cavity of the cover member is designed and dimensioned such that a further closure body can be partially accommodated in it, which is part of a further closure of a further bulk goods container, the further bulk goods container including its closure and closure body being identical to the first bulk goods container including its closure and closure body is trained.
- the cavity of the cover member is arranged essentially in the cavity of the closure body and a further identical closure member of a further identical closure can be partially accommodated in the cavity of the cover member ensures that a plurality of closures which are identically formed with one another and their cover members can be stacked in a space-saving manner.
- this aspect of the invention is not absolutely necessary in connection with the provision of a pneumatic gas supply for fluidizing the bulk material in the bulk material container or with a piston-cylinder arrangement for driving a closure actuating element or with a knife unit for cutting away one as an integral part of a flexible container wall trained cover or a driver unit with an optionally adjustable scope for optionally detachable coupling of the closure actuating element with the closure member or a positive locking between the connection part and the connection flange or with a closure body rotatable with respect to the connection flange or with a bulk material container contact part made of an electrically conductive material must be used.
- the cover member Before the bulk container is emptied, the cover member is either perforated or removed from the connecting flange by means of an emptying device to which the bulk container is connected, in order to enable bulk material to flow out through the outlet opening of the bulk container.
- the cover member can be a solid body (i.e. a cover body) and can be designed for optional attachment and removal to or from the connection flange in order to enable the cover member to be used several times.
- the cover body made of a solid material e.g. metal or plastic
- the covering element can, however, also simply be a tearable, tearable or perforable film or the like. In this case, the cover member is only provided for a single covering of the closure.
- the cover member is preferably further designed such that in its state attached to the connecting flange it mechanically secures the closure body and prevents the closure body from being inadvertently moved into the bulk material container and thereby inadvertently opening the closure.
- the cover member z. B. be provided with a screw thread and by means of this screw thread and a corresponding screw thread, which is formed on the closure body, with the closure body via an optionally releasable screw connection.
- the bulk material containers with closures which are provided with a covering element, can furthermore have flexible container walls (e.g. container walls, which are made of paper, plastic film, textile fabric or similar foldable materials) and the cavities of the covering elements can further be designed and dimensioned in this way be that the closure body together with the parts of the container walls covering it can be partially accommodated in the cavities of the covering members.
- flexible container walls e.g. container walls, which are made of paper, plastic film, textile fabric or similar foldable materials
- the cavities of the covering elements can further be designed and dimensioned in this way be that the closure body together with the parts of the container walls covering it can be partially accommodated in the cavities of the covering members.
- a bulk goods container has a closure with a connection flange and a closure member.
- the connecting flange is provided with an outlet opening for bulk material accommodated in the bulk material container, through which the bulk material can flow out when the outlet opening is open.
- the closure member is designed and arranged for closing and optionally opening the outlet opening.
- the closure or its closure member can be actuated by means of a closure actuation device of an emptying device for emptying bulk goods from the bulk goods container.
- the emptying device further has a basic structure, a connection part provided with an inlet opening and a passage channel into which the inlet opening opens.
- the closure actuation device is mounted on the base structure.
- the connecting flange of the bulk goods container can be connected so tightly to the connection part of the emptying device that - in a state of the bulk goods container or its connecting flange connected to the emptying device - with the closure open, bulk goods through the outlet opening out of the bulk goods container and through the inlet opening into the passage channel can flow in and then through the passage channel.
- At least one surface section of the connecting flange is designed and arranged in such a way that it forms a part of the bottom of the bulk goods container in the interior and drops towards the outlet opening in order to support the outflow of the bulk goods.
- the inclined surface section of the connecting flange forms a slide on which the bulk material can slide in the direction of the outlet opening.
- the angle of inclination between the inclined surface portion and a horizontal is preferably in a range between approximately 15 ° and approximately 60 °. An angle of inclination of approximately 30 ° has been found to be suitable for common bulk goods.
- the inclined surface can be funnel-shaped overall in order to guide the bulk material in the direction of the outlet opening. It is clear that the closures of the bulk containers according to different variants of the invention not only for emptying the bulk containers, but also for
- a corresponding empty bulk container is first positioned in such a way that the closure is arranged at the top of the bulk container, whereupon in the connecting flange formed bulk material passage is filled into the bulk container.
- the closures and emptying devices are also well suited for the use of so-called RFID (Radio Frequency Identification) components for the automatic identification of both the bulk goods containers and their contents.
- RFID Radio Frequency Identification
- an RFID reading and / or writing module can be installed on or in a closure actuation element made of plastic
- so-called RFID tags ie RFID identification elements
- RFID tags RFID identification elements
- Such a system offers the possibility of reading out and / or writing data from the RFID tags in a contactless manner during or after connecting the bulk material containers provided with corresponding closures to the emptying devices provided with corresponding closure actuating elements.
- the entire cycle of the bulk goods container and its contents can be recorded without gaps.
- the integration of the RFID components into the closures or the emptying devices which is no longer accessible from the outside, enables a highly reliable and largely forgery-proof identification to be achieved within the framework of the so-called supply chain management.
- closures according to various variants of the invention can be additionally reinforced.
- a plastic flange part of such a closure in the case of a two-part connection flange, in particular the outer flange part
- a reinforcement band made of metal and / or of a fiber material (in particular glass or carbon fibers) which is arranged along the outer circumference of the flange part.
- FIG. 1 shows an emptying device and a bulk goods container according to a first preferred embodiment of the invention in a simplified, partially vertical section;
- FIG. 2 shows an emptying device and a bulk goods container according to a second preferred embodiment of the invention in a simplified, partially vertically sectioned partial view
- FIG. 3 shows an emptying device and a bulk goods container according to a third preferred embodiment of the invention in a simplified, partially vertically sectioned partial view
- FIG. 4 shows the bulk goods container from FIG. 3 in a simplified, vertically sectioned illustration
- FIG. 5 shows the bulk goods container from FIG. 3 and a further bulk goods container in a simplified, vertically cut partial view
- FIG. 6 shows the bulk goods container from FIG. 1 and an emptying device according to a fourth preferred embodiment of the invention in a simplified, vertically sectioned partial illustration
- FIG. 7 shows an emptying device and a bulk goods container according to a fifth preferred embodiment of the invention in a simplified, vertically sectioned partial illustration
- FIG. 8 shows a bulk goods container according to a further preferred embodiment of the invention in a simplified, vertically cut partial view, with a covered outlet opening;
- FIG. 9 shows the bulk goods container from FIG. 8 in a simplified, vertically cut partial illustration, with the cover removed from the outlet opening.
- FIG. 1 shows an emptying device 10 to which a bulk goods container 50 is connected.
- the illustration in FIG. 1 is divided vertically in the middle, with the emptying device 10 and the bulk material container 50 being shown in a closed position on the left, while the one on the right Emptying device 10 and the bulk container 50 are shown in an open position.
- the emptying device 10 comprises a housing 20, in which a passage channel 22 with a circular cross section is formed.
- the housing 20 has essentially the shape of a rectangularly curved pipe section, the passage channel 22 being formed by the interior of this pipe section.
- the housing 20 has a substantially flat, horizontally arranged circular top, in which a circular opening 26 is formed, which serves as an inlet opening 26 for bulk material flowing into the passage channel 22 (not shown).
- the inlet opening 26 takes up most of the area of the upper side of the housing and opens into a first (upper) end of the passage channel 22.
- the connection part 24 is made of an electrically conductive material and grounded.
- an annular collar 25 is formed, which projects radially outwards in a horizontal plane from the housing part adjoining inside and below and for coupling the bulk material container 50 to it Emptying device 10 is used.
- the passage channel 22 runs in the vertical direction. Subsequently, the passage channel 22 has a curved part which is formed by a lower part of the tubular housing 20 which is bent at right angles. After the right-angled bend or curvature, the passage channel 22 opens into an outlet opening 23 which is formed in a vertical outside of the housing 20. Overall, the passage channel 22 extends from the inlet opening 26 formed in the upper side of the housing to the outlet opening 23 formed in a vertical outer side of the housing 20, wherein it initially runs vertically downward in the region of the inlet opening 26, bends at right angles in the lower region of the housing 20 and runs approximately horizontally in the region of the outlet opening 23.
- a bulk material suction line (not shown) can be connected to the outlet opening 23 and is connected to an evacuation device (not shown) in order to allow bulk material to flow out of the bulk material container 50 and through the passage duct 22 by creating a vacuum in the bulk material suction line and in the passage duct 22 support.
- annular channel 28 In the top of the connection part 24, an upwardly open annular channel 28 (also referred to as an annular channel 28) is formed, which serves as a compressed air outlet 28 of the emptying device 10.
- the ring channel 28 runs essentially in a horizontal plane (i.e. parallel to the top of the connection part 24) along the outer circumference of the inlet opening 26 and completely surrounds it.
- the ring channel 28 is delimited at the bottom and on two sides by channel walls which are formed as parts of walls of the housing 20.
- the side wall 29 of the ring channel 28 lying on the inside in the radial direction is also designed as a channel wall 29 of the through-channel 22, which delimits it in its uppermost region to the outside.
- the inner channel wall 29 of the annular channel 28 is at the same time designed as an outer wall 29 of the through-channel 22.
- the ring channel 28 is further provided with a compressed air connection 30, which comprises a passage opening into the ring channel 28 at an angle from below, through which passage compressed air can be fed into the ring channel 28.
- a compressed air supply line (not shown) can be connected to the compressed air connection 30 and is connected to a compressed air source (not shown) in order to supply the annular duct 28 with compressed air.
- the thin arrows 80 in FIG. 1 indicate the compressed air flow 80 or its direction of flow.
- the emptying device 10 is further provided with a closure actuation device for optionally opening and closing a closure of the bulk material container 50.
- the closure actuation device comprises an elongated drive shaft 32, a closure actuation element 34 and an adjustment device 36.
- the drive shaft 32 has a circular cylindrical shape and a shaft axis defined by the axis of the circular cylinder.
- the drive shaft 32 is received in a passage of a guide bush 38 and can be moved by the guide bush 38 in the direction of the shaft axis and rotated around the shaft axis.
- the passage of the guide bush 38 leads from below through a wall of the housing 20 into the passage channel 22, this wall forming part of the boundary wall of the passage channel 22 in its lower, arcuate part.
- the guide bush 38 is firmly attached to this wall.
- the drive shaft 32 is arranged in an arrangement leading through the passage of the guide bush 38 in such a way that the shaft axis or its extension runs in the vertical direction through the center of the inlet opening 26, an upper part of the drive shaft 32 being arranged in the passage channel 22 while one lower part of the drive shaft 32 is arranged below and outside of the passage 22.
- the closure actuating element 34 is attached. This is essentially a conical body made of a solid material, the base of which is attached to the uppermost end of the drive shaft 32 such that the axis of the conical closure actuating element 34 is arranged coaxially with the axis of the drive shaft 32, the tip of the cone being the uppermost Part and the circular base of the cone form the lowest part of the closure actuating element 34.
- the closure actuator 34 is made of an electrically conductive material and is grounded.
- a driver ring 45 is attached to the outer peripheral surface of the closure actuating element 34.
- the driver ring 45 is made of an elastic material with a comparatively large adhesion coefficient. It serves to create a non-positive connection between the closure actuation element 34 and a closure body 60 resting on the closure actuation element 34 and to take the latter with it by means of frictional force when the closure actuation element 34 is rotated about its axis (ie the axis of its cone) or displaced longitudinally to this axis becomes.
- the drive shaft 32 is coupled to the adjusting device 36 in such a way that it can be displaced or adjusted vertically up and down with respect to the housing 20 by means of the adjusting device 36 in the direction of the shaft axis.
- the adjusting device 36 is also simultaneously designed as a rotary drive 36, by means of which the drive shaft 32 can be pivoted or rotated around the shaft axis around the shaft axis by 360 degrees.
- the adjusting device 36 is mounted on the housing 20 and is arranged completely outside of the passage 22 and below it.
- a plurality of knives 31, 33, 35, 37 which protrude in the radial direction from the drive shaft 32, are attached in a rotationally fixed manner to the drive shaft 32 below the closure actuating element.
- the knives 31, 33, 35, 37 are arranged entirely within the passage channel 22.
- the knives are arranged in the passage 22 or directly above the inlet opening 26 above the passage 22. If the drive shaft 32 is pivoted back and forth around the shaft axis during the emptying process, the knives 31, 33, 35, 37 serve as comminution elements 31, 33, 35, 37 for comminuting any lumps present in the outflowing bulk material.
- the bulk goods container 50 shown in FIG. 1 is a sack 50 with a flexible
- Container wall 53 or sack wall 53 which is made of paper and has the shape of a shell, which is closed on all sides except for the closure described below.
- a closure In the lowermost area of the sack 50 forming the bottom of the sack Bag wall 53, a closure is used.
- the closure has a connecting flange 51, 52, a closure body 60 and a shut-off body 65 designed as a non-return sealing lip.
- the connecting flange is composed of an inner flange part 51 and an outer flange part 52, both of which are circular and are arranged in the illustration in FIG. 1 in such a way that their ring axes coincide and run essentially vertically.
- the two flange parts 51, 52 are made of an electrically conductive material.
- the inner flange part 51 has a section 59 in the form of a cylindrical cylinder, which has the shape of a tube section and laterally delimits a substantially vertical circular cylindrical passage 54 which serves as an outlet opening 54 for bulk material (not shown) received in the bag 50.
- a radially i.e.
- outwardly projecting part 55 is formed, which has the shape of a flat annular disc and is arranged at right angles to the cylindrical-shell-shaped part 59 of the inner flange part 51.
- the outer flange part 52 has the shape of a thick annular disk with a central passage, the diameter of which is slightly smaller than the outer diameter of the cylindrical jacket-shaped part 59 of the inner flange part 51, so that this cylindrical-jacket-shaped part 59 can be press-fitted into the central passage in the annular outer flange part 52 is.
- the cylindrical jacket-shaped part 59 of the inner flange part 51 is inserted from above into the central passage in the outer flange part 52, so that the two flange parts 51, 52 are firmly connected to one another by means of an interference fit.
- the outer diameter of the outer flange part 52 essentially corresponds to the outer diameter of the ring-shaped uppermost part 55 of the inner flange part 51.
- An annular collar 56 is formed on the bottom outer edge of the outer flange part 52 (which also forms the bottom outer edge of the entire connecting flange), which projects in a horizontal plane radially outwards from the part of the outer flange part 52 adjoining inside and above and for coupling the flange part 52 or the bag 50 to the connection part 24 of the emptying device 10.
- the collar 56 formed at the bottom on the connecting flange 51, 52 has the same outer circumference as the collar 25 formed on top of the connection part 24 of the emptying device 10.
- a plurality of circular compressed air passages 57, 58 are formed in the outer flange part 52, each having a diameter that corresponds to the maximum channel width of the ring channel 28 formed in the upper side of the connection part 24.
- the compressed air passages 57, 58 lead through the outer flange part 52 in the vertical direction. They are arranged along the entire circumference of the ring-shaped outer flange part 52 on a circular line with a diameter corresponding to the diameter of the ring channel 28 (ie eccentrically with respect to the ring-shaped outer flange part 52) and serve as compressed air inlet 57, 58, through which compressed air flows into the Sack 50 can flow into it.
- the shut-off body 65 is made of a flexible, elastic plastic material and has the shape of a flat, annular disc with a central passage, the diameter of which corresponds to the outer diameter of the cylindrical-shell-shaped part 59 of the inner flange part 51.
- the outside diameter of the shut-off body 65 is substantially larger than the outside diameter of the ring-shaped part 55 of the inner flange part 51 or the outside diameter of the outer flange part 52.
- the envelope-like sack wall 53 has in its lowermost region (also referred to as the bottom of the sack 50) a circular opening, the diameter of which also corresponds to the outer diameter of the cylindrical-shell-shaped part 59 of the inner flange part 51.
- the shut-off body 65 and the bottom of the bag 50 are arranged with passages or openings lying one above the other in such a way that the cylindrical-shell-shaped part 59 of the inner flange part 51 successively from top to bottom through the passage in the shut-off body 65, the opening in the bottom of the bag and in the central passage are inserted into the outer flange part 52.
- the bag wall 53 is glued to the top of the outer flange part 52 in the area of the bag opening.
- connection flange composed of the inner flange part 51 and the outer flange part 52 and the shut-off body 65 are clamped to the sack wall 53 in the vicinity of the outlet opening 54 (ie in the vicinity of the sack opening) and are partially glued to the latter.
- compressed air passages are also formed in the sack wall. These compressed air passages are covered by the shut-off body 65 located directly above and - if there is no overpressure or only a slight overpressure in the compressed air passages 57, 58 - are sealed off. However, if there is a greater overpressure in the compressed air passages 57, 58, the shut-off body 65 made of a flexible material is deformed a little by the compressed air, so that compressed air from the upper end of the compressed air passages 57, 58 laterally between the shut-off body 65 and the sack wall 53 can flow into the interior of the sack 50.
- the compressed air flow 80 or its flow direction is shown in FIG. 1 by the thin arrows 80.
- shut-off body 65 serves at the same time as a shut-off body and as a closing spring for check valves, which close off the compressed air passages 57, 58 to the interior of the sack 50 and allow a compressed air flow 80 into the sack 50, a compressed air and / or bulk material flow in the opposite direction from the Prevent sack out however.
- the radially outer region of the annular disk-shaped shut-off body 65 projects beyond the outer edges of the inner flange part 51 and the outer flange part 52 and projects into the interior of the sack 50.
- this protruding region of the shut-off body 65 is caused to vibrate (also known as flutter). The vibrations are then transferred to the bulk material received in the interior of the bag 50 and loosen the bulk material.
- the closure body 60 is designed and arranged for optionally closing and opening the outlet opening 54. It is made of a solid, electrostatically dissipative plastic and is designed as a hollow, thin-walled cone, the cone shape of the likewise conical interior of the closure body 60 essentially corresponding to the outer shape of the cone-shaped closure actuating element of the emptying device 10.
- the closure body 60 is arranged such that the axis of symmetry of the cone-shaped closure body is vertical and is arranged coaxially with the axis of the drive shaft, the tip of the cone being the uppermost part and the circular base area of the cone which is open at the bottom form the lowest part of the closure body 60.
- the maximum diameter of the cone 60 in the area of its base area is slightly smaller than the inner diameter of the outlet opening 54 formed in the inner flange part 51, so that the lowermost region of the closure body 60 can be arranged with a clearance fit in the outlet opening 54 in order to close it tightly, such as this is shown in Fig. 1 on the left side.
- the closure body 60 can be displaced vertically downwards and upwards with respect to the connection flange 51, 52 and can be lifted upwards from the connection flange in order to close or uncover the outlet opening 54 and thereby open the closure, as shown in FIG. 1 on the right-hand side is shown.
- the position with the closure body 60 displaced downward at most is referred to as the closed position of the closure body 60 or of the closure.
- the base surface of the closure body 60 In this position shown on the left in FIG. 1, the base surface of the closure body 60 is arranged within the outlet opening 54 and closes it tightly.
- the position with the closure body 60 displaced to the maximum is referred to as the fully open position of the closure or closure body 60. If this position shown on the right in FIG. 1, the entire closure body 60 is arranged above the outlet opening 54. Is further the closure body 60 is freely rotatable with respect to the connecting flange 51, 52 about the vertical axis of symmetry of the cone.
- connection part 24 On the upper side of the connection part 24, three sealing rings 41, 42, 43 made of an elastic sealing material are further arranged in such a way that they are at least partially from the surface plane of the upper side in an unloaded state (ie when no bulk material container is coupled to the emptying device 10) protrude upwards. If - as shown in the illustration in FIG.
- a first sealing ring 41 is arranged along the outer circumference of the ring channel 28 and seals the ring channel 28 from the outside.
- a second sealing ring 42 is arranged along the inner circumference of the ring channel 28 and seals the ring channel 28 inwards.
- a third sealing ring 43 is arranged along the outer circumference of the inlet opening 26 and seals the inlet opening or the passage channel 22 in the upper side of the connection part 24.
- a covering element arranged on the connecting flange 51, 52 of the sack 50 is first removed from the connecting flange 51, 52.
- the closure of the bag 50 and the closure actuation device of the emptying device 10 are in their closed positions.
- the sack 50 is then transported together with the connecting flange 51, 52 via the housing 20 of the emptying device 10.
- the coupling process for coupling the bag 50 to the emptying device 10 is then initiated by lowering the bag 50 toward the housing 20.
- the closure body 60 which is open at the bottom, is opened over the top of the connection part 24 of the Housing 20 protruding closure actuating element 34, whereby the connecting flange 51, 52 together with the sack 50 is centered with respect to the connecting part 24 or the housing 20 and is precisely aligned with this.
- the sack 50 is lowered until the connecting flange 51, 52 rests with its underside on the upper side of the housing 20 or its connecting part 24.
- the collar 56 formed at the bottom of the connection flange 51, 52 now lies directly on the collar 25 formed at the top of the connection part 24.
- the connecting flange 51, 52 is clamped to the connecting part 24 of the emptying device 10 by means of an annular retaining clip 47. This completes the coupling process and the sack 50 is now in the state shown in FIG. 1, coupled to the emptying device 10.
- connection part 24 provided with the collar 25 forms a first construction unit on the emptying device side
- connection flange 51, 52 provided with the collar 56 forms a second construction unit on the sack side of a coupling device which is used for the optionally releasable connection of the connection flange 51, 52 to the connection part 24 is trained.
- the first and second construction units can be coupled or connected to one another in a single coupling operation, around the connection flange 51, 52 of the sack 50 provided with the outlet opening 54 and the compressed air inlet 57, 58 to the connection part 24 provided with the inlet opening 26 and the compressed air outlet 28 to connect or to couple the emptying device 10.
- the connecting flange 51, 52 and the connecting part 24 are held together by means of the annular holding clip 47, which along the entire outer circumference of the connecting flange 51, 52 or the connecting part 24 the collar 56 formed on the connecting flange 51, 52 outside and above as well as the collar 25 formed on the connection part 24 and encompasses outside and below.
- the passages 57, 58 formed in the outer flange part 52 are arranged directly above the upwardly open annular channel 28, so that compressed air flows from the annular channel 28 through the passages 57, 58 into the sack 50 can.
- the outlet opening 54 of the sack is immediately above the inlet opening 26
- Emptying device 10 is arranged so that bulk material and air can flow out of the sack 50 through the outlet opening 54 and into the passage channel 22 through the inlet opening 26.
- the drive shaft 32 is next shifted upward by means of the adjusting device 36.
- the closure actuating element 34 attached to the top of the drive shaft 32 which is already arranged in the interior of the closure body 60, is pressed against the closure body 60 from below and lifts it up in order to lift the closure body 60 from the outlet opening 54 and thereby out of the connection flange 51, 52 and the closure body 60 formed closure of the bag 50 to open.
- the driver ring 45 is pressed between the closure actuating element 34 and the closure body 60 and thereby ensures a non-rotatable connection between the actuator and the frictional connection
- Closure actuation element 34 and the closure body 60 The closure body 60 is raised by means of the closure actuation device 32, 34, 36 to a height corresponding to the desired dosage of the bulk material flow. On the right side of FIG. 1, the closure body 60 is shown in its maximum height above the outlet opening. This open position of the closure results in a maximum flow of bulk material out of the bag 50.
- the drive shaft is pivoted back and forth about the shaft axis by means of the rotary drive of the adjusting device 36.
- the closure actuating element 34 and the closure body 60 entrained by the entrainment ring 45 are also pivoted back and forth, which leads to a loosening of the bulk material resting on the closure body 60.
- the knives 31, 33, 35, 37 attached to the drive shaft 32 are also pivoted back and forth, as a result of which any lumps of bulk material in the swivel range of the knives are reduced.
- Compressed air is also blown through the compressed air connection 30, the compressed air outlet 28, the compressed air inlet 57, 58 and between the bag wall 53 and the shut-off body 65 into the bag 50 and at the same time a vacuum in the passage channel by means of the evacuation device connected to the outlet opening 23 via the bulk material suction line 22 generated.
- the shut-off body 65 is excited to flutter, which leads to a loosening of the bulk material lying on the shut-off body.
- the air flow indicated by the arrows 80 is generated in the sack 50, which leads to a further loosening of the bulk material received in the sack 50 and also the bulk material through the outlet opening 54 out of the sack 50, the inlet opening 26 into the passage channel 22 into and through with the passage channel 22.
- the rotary drive of the adjusting device 36 is first stopped and then the drive shaft 32 is lowered by means of the adjusting device 36 until the closed position shown on the left in FIG. 1 is reached again. Thereafter, the holding clip 47 is removed from the collars 25, 56 and the connecting flange 51, 52 is thereby uncoupled from the connecting part 24. Now the sack 50 together with the connecting flange 51, 52 is lifted a little from the connecting part 24 and a strong compressed air flow is generated again from the compressed air connection. This flow of compressed air possibly blows away any bulk material present on the connection part 24 and / or on the connecting flange 51, 52, whereupon the bulk material blown away is sucked off through the inlet opening and the passage channel by means of the evacuation device.
- the emptying device 10 and the bag 50 are cleaned.
- the compressed air flow through the compressed air connection 30 and the compressed air outlet 28 is then interrupted and the suction flow in the through-channel 22 is interrupted.
- the connecting flange 51, 52 can again be covered with a covering member and the at least partially emptied sack 50 can then be transported away from the emptying device 10.
- FIG. 2 shows an emptying device 110 to which a bulk goods container 150 is connected.
- the illustration in FIG. 2 is divided vertically in the middle, with the emptying device 110 and the bulk material container 150 in one on the left-hand side are shown closed position, while on the right side the emptying device 110 and the bulk container 150 are shown in an open position.
- the bulk goods container 150 or sack 150 shown in FIG. 2 differs from the bulk goods container 50 or sack 50 shown in FIG. 1 essentially only in terms of the design of the closure member 160 for closing the outlet opening 154. Otherwise, the one shown in FIG.
- the bag 150 shown in FIG. 2 is essentially the same as the bag 50 shown in FIG. 1.
- the bag 150 shown in FIG. 2 in turn has a flexible bag wall 153 and a closure, which has a two-part connecting flange 151, 152, a closure body 160 and a Shut-off body 165 is provided.
- the two flange parts 151, 152 are made of an electrically conductive material.
- the closure member 160 shown in FIG. 2 for closing the outlet opening 154 is a perforable film 160 made of a flexible film material, which in the closed state is welded to the inner flange part 151 of the connecting flange 151, 152 in such a way that it forms the outlet opening formed in the inner flange part 151 154 completely closes.
- the closure formed by the film 160 and the connecting flange 151, 152 is only intended for one opening of the closure, i.e. it is a one-way closure.
- the emptying device 110 shown in FIG. 2 differs from the emptying device 10 shown in FIG. 1 essentially only with regard to the design of the closure actuating device 132, 134, 136 for closing and optionally opening the closure of the bag 150 2, the emptying device 110 shown has essentially the same design as the emptying device 10 shown in FIG. 1.
- the emptying device 110 shown in FIG Passage channel 122 opening inlet 126 and a compressed air outlet 128 is provided.
- the connection part 124 is made of an electrically conductive material and is grounded.
- the closure actuating element 134 is attached to the top of the drive shaft 132 and in turn is designed as a conical body, the tip of the cone forming the uppermost part and the circular base of the cone forming the lowermost part of the closure actuating element 134.
- the cone-shaped outer surface of the closure actuation element 134 shown in FIG. 2 is provided with a plurality of sharp cutting edges 131, 133, 135, 137, which are used to perforate and cut the film 160 of the closure of the bag 150 serve.
- the bag 150 is first coupled to the emptying device 110 in a coupling process, this coupling process being the same as the coupling process for coupling, with the exception of centering of the sack 50 shown in FIG. 1 to the emptying device 10 shown in FIG. 1.
- the drive shaft 132 together with the closure actuating element 134 attached to it is moved upward by means of the adjusting device 136.
- the cutting edges 131, 133, 135, 137 on the outside of the closure actuating element 134 are pressed against the film 160 from below in such a way that they perforate and cut them.
- the closure of the bag 150 formed from the connecting flange 151, 152 and the film-shaped closure member 160 is opened.
- FIG. 3 shows an emptying device 210 to which a bulk goods container 250 is connected. 3 is vertically divided in the middle, with the emptying device 210 and the bulk container 250 being shown in a closed position on the left, while the emptying device 210 and the bulk container 250 are shown in an open position on the right side ,
- the bulk goods container 250 shown in FIG. 3 is a sack-shaped large container 250 (also referred to as a "big bag” or “bulk bag”). 4, this large container 250 is shown in isolation.
- FIG. 5 shows the large container 250 together with another large container 350 which is identical to this in a stacked arrangement.
- the large container 250 shown in FIGS. 3-5 differs from the sack 50 shown in FIG. 1 in terms of its dimensions and in terms of a plurality of hanging tabs 285, 286, which are attached to the flexible container wall 253 at the top and enable the Suspend large container 250 on a suspension device (eg a crane). Otherwise, the large container 250 shown in FIGS. 3-5 is essentially the same as the sack 50 shown in FIG. 1.
- the large container 250 in turn has a flexible container wall 253 and a closure that is structurally identical to the closure shown in FIG. 1 Sacks 50 and is provided with a two-part connecting flange 251, 252, a conical closure body 260 and a shut-off body 265 made of a flexible material.
- the two flange parts 251, 252 are made of an electrically conductive material.
- the closure body 260 is made of a solid, electrostatically dissipative plastic.
- the emptying device 210 shown in FIG. 3 comprises a funnel-shaped housing 220, in which a passage channel 222 with a circular cross section is formed.
- the housing 220 has a substantially flat, horizontally arranged circular top side, in which a circular opening 226 is formed, which serves as an inlet opening 226 for bulk material (not shown) flowing into the passage duct 222.
- the entry opening 226 takes up most of the area of the upper side of the housing and opens into the upper end of the passage 222. From the inlet opening 226, the through-channel 222 runs vertically downwards to an outlet opening 223, the diameter of the through-channel 222 decreasing downwards due to the funnel shape of the housing 220.
- the uppermost part of the housing 220 which also includes the upper side of the housing provided with the inlet opening 226, is designed as a connecting part 224 of the emptying device 210.
- the connection part 224 is made of an electrically conductive material and is grounded.
- an annular collar 225 is formed, which protrudes radially outward and is used to couple the bulk material container 250 to the emptying device 210.
- connection part 224 In the top of the connection part 224, an upwardly open annular channel 228 is formed, which serves as a compressed air outlet 228 of the emptying device 210.
- the ring channel 228 is provided with a compressed air connection 230, to which a compressed air supply line (not shown) is connected, which is connected to a compressed air source (not shown) in order to supply the ring channel 228 with compressed air.
- the thin arrows 280 in FIG. 3 indicate the compressed air flow 280 or its flow direction.
- the emptying device 210 is further provided with a closure actuation device for selectively opening and closing a closure of the bulk goods container 250.
- the lock actuation device comprises a lock actuation element 234 and an adjustment device 236, which is provided with a piston-cylinder arrangement 270, 277, 278, a guide rod 267 and a rotary drive 237.
- the piston-cylinder arrangement 270, 277, 278 comprises a piston 270 with a circular cylindrical outer shape, which is fixedly connected to the housing 220 by means of connecting struts 268, 269 and is mounted thereon in a stationary manner.
- the piston 270 is received in a circular-cylindrical cavity of a first hollow cylinder 277 which is open at the bottom in such a way that the first hollow cylinder 277 is vertical Direction is displaceable with respect to the piston 270.
- the outer shape of the piston 270 corresponds essentially to the shape of the cavity of the first hollow cylinder 277.
- a first sealing ring 271 is arranged on the outer surface of the piston 270 in the form of a circular cylinder along its upper edge and seals the space formed between the piston 270 and the first hollow cylinder 277 in an airtight manner towards the outside.
- a second sealing ring 272 and a first wiper ring 273 are arranged on the inner surface of the first hollow cylinder 277 along its lower edge. They additionally seal the space formed between the piston 270 and the first hollow cylinder 277 below the first sealing ring 271 to the outside and prevent bulk material or other dirt particles from penetrating into this space.
- the first hollow cylinder 277 in turn has a cresi-cylindrical outer shape and is accommodated in a circular-cylindrical cavity of a second hollow cylinder 278 which is open at the bottom such that the second hollow cylinder 278 can be displaced in the vertical direction with respect to the first hollow cylinder 277.
- a third sealing ring 274 is arranged on the outer surface of the first hollow cylinder 277, which is shaped like a cylindrical cylinder, along the upper edge thereof and seals the space formed between the first hollow cylinder 277 and the second hollow cylinder 278 in an airtight manner from the outside.
- a fourth sealing ring 275 and a second wiper ring 276 are arranged on the inner surface of the second hollow cylinder 278 along the lower edge thereof. They additionally seal the space formed between the first hollow cylinder 277 and the second hollow cylinder 278 below the third sealing ring 274 from the outside and prevent bulk material or other dirt particles from penetrating into this space.
- closure actuation element 234 is similar to the closure actuation element 34 shown in FIG. 1.
- the closure actuation element 234 is made of an electrically conductive material and is grounded.
- the piston 270, the first hollow cylinder 277 and the second hollow cylinder 278 create a piston-cylinder arrangement with a piston 270 and two mounted on the housing 220 with respect to the piston 270 and telescopically displaceable hollow cylinders 277, 278, the piston-cylinder arrangement 270, 277, 278 being pneumatically operable by means of the compressed air source in order to move the second hollow cylinder 278 and the closure actuating element 234 attached to it in the vertical direction with respect to the To move housing 220 or the piston 270.
- a linear guide unit with an elongated guide rod 267 is provided, which is fixedly attached to the second hollow cylinder 278.
- the guide rod 267 has a circular cylindrical shape and a rod axis defined by the axis of the circular cylinder, which extends in the vertical direction.
- the guide rod 267 is displaceable in the vertical direction in a guide bush 266 fixedly attached to the housing 220 and rotatable around the rod axis, the guide rod 267 being guided further in the vertical direction through passages formed in the piston 270 and in the first hollow cylinder 277 are.
- the linear guide unit 266, 267 ensures that the sealing or scraper rings 271-276 between the hollow cylinders 277, 278 or between the first hollow cylinder 277 and the piston 270 do not have to exercise any executives and are therefore not subjected to excessive loads.
- a rotary drive 237 is also mounted in the piston 270, by means of which the guide rod 267 and the second hollow cylinder 278 connected to it can be pivoted or rotated 360 degrees around the rod axis with respect to the piston 270 or the housing 220.
- the guide rod 267 is thus simultaneously designed as a drive shaft 267, by means of which the closure actuating element 234 can be driven for rotation about the rod axis.
- the entire adjustment device 236 formed from the piston-cylinder arrangement 270, 277, 278, the guide rod 267 and the rotary drive 237 is within the Passage channel 222 arranged. Due to the hollow cylinders 277, 278, which are only open at the bottom, no additional shielding means such as, for example, the roller membrane in EP 0 915 032 are required in order to protect the piston-cylinder arrangement from contamination by the bulk material flowing through the passage duct 222.
- the closure actuating element 234 shown in FIGS. 3-5 is a conical hollow body made of a solid material, the base of which is attached to the top of the second hollow cylinder 278 of the adjusting device 236 and can be displaced in the vertical direction by means of the adjusting device 236 and about the axis of the guide rod 267 is pivotable back and forth.
- a pneumatically actuated vibrator 239 is additionally arranged in the hollow interior of the closure actuating element 234 and can vibrate or vibrate the closure actuating element 234.
- the closure body 260 sits directly on the closure actuating element 234. The vibrations generated by the vibrator are then released by the
- FIG. 4 shows the large container 250 from FIG. 3 in isolation. 4 is divided vertically in the middle.
- the connecting flange 251, 252 of the closure of the large container 250 is covered with a cover member 281 according to a first variant of the invention.
- the connection flange 251, 252 of the closure of the large container 250 is covered with a cover member 282 according to a second variant of the invention.
- the cover member 281 shown on the left in FIG. 4 is a conical hollow body 281 made of a solid material with a base surface that is open at the bottom.
- the cone shape of the cover body 281 essentially corresponds to the cone shape of the closure body 260.
- an annular disk 263 protruding radially outward from the base surface of the cone shape, the outer circumference of which corresponds essentially to the outer circumference of the outer flange part 252 of the connecting flange 251, 252.
- the annular disk has an identical outer shape to the collar 225 of the connection part 224 of the emptying device 210 shown in FIG. 3.
- the cover body 281 In the state clamped to the connecting flange 251, 252, the cover body 281 is arranged partially projecting from below through the outlet opening 254 into the cavity of the closure body 260, the downwardly open cavity of the cover body 281 being arranged essentially within the cavity of the closure body 260 , In this state, the cover body 281 covers the entire connecting flange 251, 252 on its underside. In addition, in this state the cover member 281 is optionally releasably connected to the closure body 260, so that it mechanically secures the closure body 260 and prevents the closure body 260 from being accidentally moved into the large container 250 and the closure thereby being inadvertently opened.
- cover film 282 made of a flexible film material. It is attached along the outer circumference of the connection flange to the underside of the outer flange part 252 and covers the entire connection flange 251, 252 on its underside. In the area within the inner flange part 251, the cover film protrudes from below through the outlet opening 254 into the cavity of the closure body 260 and in turn forms a cavity which is open at the bottom and is arranged essentially within the cavity of the closure body 260.
- FIG. 5 shows the large container 250 from FIGS. 3 and 4 together with another identical large container 350 in a stacked arrangement, the closures of the two large containers 250, 350 each having identical covering members 281, 282; 381, 382 are covered. 5 is divided vertically in the middle. On the left side are the connection flanges 251, 252; 351, 352 of the closures of the large containers 250; 350 covered with cover bodies 281, 381 as shown on the left side of FIG. 4. On the right side are the connection flanges 251, 252; 351, 352 of the closures of the large containers 250; 350 covered with cover films 282, 382 as shown on the right side of FIG. 4.
- the closure body 360 of the closure of the further large container 350 is partially accommodated in the cavity of the cover body 281 of the large container 250, the ceiling part of the flexible container wall 353 of the further large container 350 lying on its closure body 360 between the latter Closure body 360 and the cover body 281 of the other large container 250 is arranged.
- FIG. 6 shows an emptying device 310, to which the bulk goods container 50 from FIG. 1 already shown in FIG. 1 is connected. 6, the emptying device 310 and the bulk material container 50 or the sack 50 are shown in a closed position.
- the emptying device 310 shown in FIG. 6 differs from the emptying device 10 shown in FIG. 1 essentially only with regard to the design of the connection part to which the connection flange 51, 52 of the sack 50 can be connected or connected. Otherwise, the emptying device 310 shown in FIG. 6 is essentially the same as the emptying device 10 shown in FIG. 1.
- the emptying device 310 shown in FIG. 6 in turn has a housing 320 provided with a passage channel.
- the connection part of the emptying device 310 shown in FIG. 6 is not designed as the uppermost part of the housing 320. Rather, the connection part is designed as a component of an essentially ring-shaped component 321, the inside diameter of which corresponds to the inside diameter of the passage channel at the top of the housing 320.
- the ring-shaped component 321 is part of a kit that can be attached to the housing 320. The ring-shaped component 321 is fastened at the top to the housing 320 by means of screws (not shown) or attached to this housing 320.
- an inlet opening opening into the passage channel and an annular channel-shaped compressed air outlet 328 are formed, which essentially correspond in shape and dimensions to the corresponding inlet opening 26 or the corresponding compressed air outlet 28 of the emptying device 10 shown in FIG. 1.
- the ring-shaped component 321 is provided with a compressed air connection 330, which comprises a passage opening into the compressed air outlet 328 obliquely from below, through which passage compressed air can be fed into the compressed air outlet 328.
- the connection flange 51, 52 of the sack 50 is clamped to the connection part or the component 321 or the emptying device 10 by means of an annular retaining clip 347.
- three sealing rings 341, 342, 343 are arranged between the contacting surfaces of the connecting flange 51, 52 and the component 321 in order to seal the compressed air outlet 328 or the passage channel in the transition region between the connecting flange 51, 52 and the annular component 321.
- the emptying device 310 shown in FIG. 6 in turn comprises a closure actuation device provided with a conical closure actuation element 334.
- a driver ring 345 is attached to the outside of the closure actuation element 334, which serves to create a non-positive connection between the closure actuation element 334 and the closure body 60 resting on the closure actuation element 334 and to take the latter with frictional force.
- FIG. 7 shows an emptying device 410 to which a bulk goods container 450 is connected.
- the emptying device 410 comprises a housing 420 in which a passage channel 422 is formed.
- the housing 420 has a substantially flat, horizontally arranged circular top, in which a circular opening 426 is formed, which serves as an inlet opening 426 for bulk material flowing into the passage channel 422 (not shown).
- the inlet opening 426 opens into a first (upper) end of the passage channel 422.
- the bulk goods container 450 is a sack 450 with a flexible container wall 453 or sack wall 453, which has the shape of a shell, which is closed on all sides except for the closure described below.
- a closure is inserted in the lowest region of the sack wall 453 forming the bottom of the sack 450.
- the closure has a connecting flange 451, 452, a closure body 460 and a shut-off body 465 designed as a non-return sealing lip.
- the uppermost part of the housing 420 is the connecting part 424
- an upwardly open passageway 428 is formed, which serves as a compressed air outlet 428 serve the emptying device 410.
- the passages 428 run essentially in a horizontal plane along the outer circumference of the inlet opening 426 and completely surround it.
- the passages 428 are further provided with a compressed air connection (not shown), through which compressed air can be fed into the passages 428.
- Arrows 480 in FIG. 7 indicate compressed air flow 480.
- the emptying device 410 is further provided with a closure actuation device for selectively opening and closing a closure of the bulk goods container 450.
- the closure actuation device comprises a closure actuation element 434 and an adjustment device (not shown) mounted on the housing 420, by means of which the closure actuation element 434 can optionally be displaced in the vertical direction with respect to the housing 420 and the connection part 424.
- the adjustment device is designed similarly to the adjustment device 236 of the emptying device 210 shown in FIG. 3.
- the adjusting device of the emptying device 410 shown in FIG. 7 is designed such that it is a larger one Enables stroke to move the shutter actuator 434.
- the closure actuation element 434 can in particular also be displaced into a position in which the entire closure actuation element 434 is arranged completely below the flat upper side of the housing 420 designed as a connection part 424.
- the piston-cylinder arrangement of the adjusting device of the emptying device 410 shown in FIG. 7 can have one or more additional hollow cylinders in comparison to the piston-cylinder arrangement 270, 277, 278 of the adjusting device 236 of the emptying device 210 shown in FIG. 7 ,
- the closure actuating element 434 comprises an essentially conical body made of a solid material with a base plate 461.
- a driver unit 445 is attached to this base plate 461.
- the driver unit 445 is designed as a three-dimensional, airtightly sealed and air-filled hollow body 445, which essentially has the shape of a comparatively flat circular cylinder and is made of a flexible, airtight material is made.
- the cylindrical driver unit 445 is firmly connected to the base plate 461 of the cone-shaped body of the closure actuating element 434.
- the driver unit 445 is firmly connected to a press plate 464, which can be adjusted in a vertical direction with respect to the base plate 461 by means of a pneumatic drive (not shown).
- a pneumatic drive not shown
- the driver unit 445 can thus either be compressed or stretched in the vertical direction.
- the outer circumference of the driver unit 445 can optionally be enlarged or reduced.
- the driver unit 445 Due to the flexible material from which the driver unit 445 is made, when the driver unit 445 is compressed in the vertical direction, its circumference is increased in a horizontal plane because, on the one hand, the air pressure in the driver unit 445 increases and, on the other hand, the jacket of the essentially cylindrical driver unit 445 is arched outwards transversely to the compression direction. Conversely, when the driver unit 445 is stretched in the vertical direction, its circumference is reduced in the horizontal.
- the closure body 460 is designed and arranged for optionally closing and opening the outlet opening 454. It is made of a solid plastic and is designed as a hollow body which has a lower part in the form of a cylindrical cylinder and a conical upper part.
- the cone shape of the interior of the closure body 460 essentially corresponds to the outer shape of the cone-shaped body of the closure actuation element 434.
- a groove 462 is formed which extends in a horizontal plane. This serves as a driver stop 462, which interacts with the driver unit 445. 7, the bulk goods container 450 is connected to the connection part 424 of the emptying device 410.
- the driver unit 445 of the closure actuating element is arranged in the interior of the lower part of the closure body 460 in the form of a cylindrical cylinder such that it engages in the groove 462 with an enlarged outer circumference, as shown in FIG. 7.
- the driver unit also serves as an optionally releasable clamping seal, which seals the space between the body 460 and the closure actuating element 434.
- the driver unit 445 is expanded and its circumference is reduced in such a way that it no longer engages in the groove 462 (not shown). If the closure actuating element 434 is displaced vertically downwards, it then no longer takes the closure body 460 with it.
- the connecting flange 451, 452 is composed of an inner flange part 451 and an outer flange part 452, both of which are annular and are arranged concentrically to one another.
- the two flange parts 451, 452 are made of a solid plastic material.
- the inner flange part 451 has a section in the shape of a cylindrical cylinder, which has the shape of a tube section and laterally delimits a substantially vertical circular cylindrical passage which serves as an outlet opening 454 for bulk material received in the sack 450.
- the outer flange 452 is in the form of a thick washer with a central passage.
- the cylindrical jacket-shaped part of the inner flange part 451 is inserted from above into the central passage in the outer flange part 452, so that the two flange parts 451, 452 are firmly connected to one another by means of an interference fit.
- the sack wall 453 is clamped between the inner flange part 451 and the outer flange part 452 in such a way that it is only connected to the connecting flange 451, 452 due to the clamping force.
- a groove with a T-shaped cross section 418 is formed in the underside of the outer flange part 452, which is shown in cross section in FIG. 7.
- This T-groove 418 serves as a locking receptacle 418, which interacts with T-shaped locking bolts 417, which are arranged along the outer circumference of the connection part 424 in the upper side such that they protrude upward from the latter.
- a locking bolt 417 is shown in cross section in FIG. 7.
- the T-shaped locking bolt 417 is connected to the connection part 424 in a tensile manner and can optionally be pivoted back and forth by means of a pneumatic drive. 7, the bulk goods container 450 is connected to the emptying device 410.
- the outer flange part 452 is arranged to abut the connection part 424 in the vertical direction.
- the locking bolt 417 is received in the T-groove 418 and rotated around the bolt axis such that it engages behind two retaining edges of the T-groove 418 on the side with the bolt head. This creates a positive connection in the vertical direction between the connection part 424 and the outer flange part 452.
- the locking bolt 417 is rotated about its bolt axis by means of the pneumatic drive such that it no longer engages behind the retaining edges of the T-groove 418 with its bolt head.
- the connecting flange 451, 452 can then be lifted upward from the connecting part 424.
- a plurality of circular openings 458 are formed, which open into channels 448, which are likewise completely formed in the inner flange part 451 and first lead upwards and then outwards in the radial direction.
- An opening 458 and a channel 448 are shown in cross section in FIG. 7.
- the opening 458 serves as a compressed air inlet 458.
- the compressed air inlet 458 interacts with the passage 428 serving as a compressed air outlet in such a way that compressed air from the compressed air outlet 428 passes through the Compressed air inlet 458 and the channel 448, can flow through a passage in the shut-off body 465 and along its underside into the sack 450.
- the compressed air flow 480 or its flow direction is shown in FIG. 7 by the arrows 480.
- Compressed air inlet 458 of the connecting flange 451, 452 arranged.
- the compressed air thus flows from the compressed air inlet 458 through the hole past the hole edge into the interior of the bulk goods container.
- the connection part 424 of the emptying device 410 is further provided with a knife unit which is essentially arranged in an annular channel.
- the knife unit comprises an annular base part 411 which is arranged in the ring channel so as to be displaceable in the vertical direction and carries a circular knife 415 which projects upwards.
- the base part is provided with piston parts protruding laterally from the ring channel, which can be displaced pneumatically in the vertical direction by means of compressed air, which is supplied through a pressure gap channel 414 formed in the connecting part 424, and thus form a pneumatic drive for adjusting the knife unit in the vertical direction.
- the underside of the inner flange part 451 is completely covered by the sack wall 453.
- the sack wall 453 in the region of the connecting flange 451, 452 and in the vicinity thereof is completely intact and has no perforation or passage there.
- a part of the sack wall 453, which covers the inner flange part 451, thus forms a covering member covering the outlet opening 454, which is designed as an integral part of the sack wall 453.
- the closure actuating element 434 is first shifted downwards by the adjusting device so that the entire closure actuating element 434 (including its tip) is below the flat upper side the connection section 424 is located.
- the connecting flange 451, 452 is then arranged on the upper side of the connecting part 424 and is automatically locked to the connecting part 424 by means of the locking bolts 417.
- the knife unit with the round knife 415 is shifted upwards in such a way that the round knife 415 cuts away the part of the sack wall 453 which covers the inner flange part 451 at the bottom.
- the circular knife 415 is then left in a position which is essentially flush with the upper side of the connection part 424, two laterally on the upper side the circular knife unit arranged ring seals 412, 413 seal the ring channel 428 against and the compressed air inlet 458 against the outside.
- the closure actuating element 434 is then shifted upward and coupled to the closure body 460.
- the portion cut out of the sack wall 453 is carried along by the tip of the closure actuating element 434, so that this portion is arranged between the closure actuating element 434 and the closure body 460 during the emptying process, where it does not interfere with the emptying process.
- An annular disk-shaped sealing element 479 is further arranged on the underside of the driver unit 445. On the one hand, this sealing element 479 provides a seal between the closure actuating element 434 and the inner one
- the sealing element 479 also serves as a wiper seal, which cleans the inner flange part 451 or the passage channel 422 of bulk material when the sealing element 479 through the inner flange part 451 or the
- Passage channel 422 is moved through.
- the sealing element also serves
- Entry opening 426 are dispensed with, even if the bulk goods container 450 is removed from the emptying device 410.
- FIG. 8 shows a bulk material container 550 designed as a sack 550, with a flexible sack wall 553, which has the shape of a shell, which is closed on all sides except for the closure described below.
- a closure is inserted in the bottom area of the bag wall 553, which forms the bottom of the bag 550.
- the closure has a connecting flange 551, 552, a closure body 560 and a shut-off body 565 designed as a non-return sealing lip.
- the sack 550 shown in FIG. 8 is of similar design to the sack 450 shown in FIG. 7 and differs from the latter essentially only in relation to it on the formation of the connecting flange 551, 552 and the shut-off body 565.
- the connecting flange 551, 552 is composed of an inner flange part 551 and an outer flange part 552.
- the top 519 of the inner The flange part is arranged in the interior of the bulk goods container 550 and forms part of the bottom thereof. This upper side 519 drops towards the outlet opening 554 in order to support the outflow of the bulk material.
- the angle of inclination of the upper side 519 with respect to the horizontal is approximately 30 °.
- the inclined upper side 519 of the inner flange part 551 forms an essentially funnel-shaped slide, on which the bulk material can slide in the direction of the outlet opening 554.
- the shapes of the compressed air inlets 557, 558 and the compressed air channels 548, 549 formed in the inner flange part 551 and the cross-sectional shape of the shut-off body 565 are adapted to the changed shape of the inner flange part 551.
- FIG. 8 shows the sack 550 before connecting a corresponding emptying device (not shown).
- a covering element which is designed as an integral part of the bag wall 553.
- FIG. 9 shows the sack 550 in a state after the part of the sack wall 553 covering the inner flange part 551 below has been cut away by means of a circular knife, which is designed analogously to the round knife 415 of the emptying device 410 shown in FIG. 7.
- the invention provides a bulk material emptying device and a bulk material container which enable safe operation and reliable emptying of bulk materials from the bulk material container.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Control And Other Processes For Unpacking Of Materials (AREA)
- Filling Or Emptying Of Bunkers, Hoppers, And Tanks (AREA)
- Centrifugal Separators (AREA)
Description
Claims
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP05714695A EP1727751B1 (de) | 2004-03-12 | 2005-03-14 | Entleerungsvorrichtung für einen schüttgutbehälter, schüttgutbehälter und bausatz |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP04405150A EP1574455A1 (de) | 2004-03-12 | 2004-03-12 | Entleerungsvorrichtung für einen Schüttgutbehälter und Schüttgutbehälter |
PCT/CH2005/000153 WO2005087624A2 (de) | 2004-03-12 | 2005-03-14 | Entleerungsvorrichtung für einen schüttgutbehälter und schüttgutbehälter |
EP05714695A EP1727751B1 (de) | 2004-03-12 | 2005-03-14 | Entleerungsvorrichtung für einen schüttgutbehälter, schüttgutbehälter und bausatz |
Publications (2)
Publication Number | Publication Date |
---|---|
EP1727751A2 true EP1727751A2 (de) | 2006-12-06 |
EP1727751B1 EP1727751B1 (de) | 2009-10-14 |
Family
ID=34814458
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP04405150A Withdrawn EP1574455A1 (de) | 2004-03-12 | 2004-03-12 | Entleerungsvorrichtung für einen Schüttgutbehälter und Schüttgutbehälter |
EP05714695A Active EP1727751B1 (de) | 2004-03-12 | 2005-03-14 | Entleerungsvorrichtung für einen schüttgutbehälter, schüttgutbehälter und bausatz |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP04405150A Withdrawn EP1574455A1 (de) | 2004-03-12 | 2004-03-12 | Entleerungsvorrichtung für einen Schüttgutbehälter und Schüttgutbehälter |
Country Status (7)
Country | Link |
---|---|
US (1) | US20070210112A1 (de) |
EP (2) | EP1574455A1 (de) |
JP (1) | JP5025459B2 (de) |
CN (1) | CN1950273B (de) |
AT (1) | ATE445554T1 (de) |
DE (1) | DE502005008322D1 (de) |
WO (1) | WO2005087624A2 (de) |
Families Citing this family (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1775238A1 (de) * | 2005-10-11 | 2007-04-18 | Visval AG | Aufbewahrungs- und Entleerungsvorrichtung |
DE102009020600B4 (de) * | 2009-05-08 | 2020-12-03 | 3Defacto Gmbh | Vorrichtung und Verfahren zum Aufnehmen und Entleeren von Transportbehältern |
US20140254957A1 (en) * | 2013-03-08 | 2014-09-11 | Kenneth J. Boutte | Bulk Material Bag Discharge Apparatus |
EP2939953A1 (de) * | 2014-05-02 | 2015-11-04 | Visval AG | Verschluss für einen Schüttgutbehälter und Andockvorrichtung dafür |
JP6740358B2 (ja) | 2016-05-12 | 2020-08-12 | ヒューレット−パッカード デベロップメント カンパニー エル.ピー.Hewlett‐Packard Development Company, L.P. | 構築材料供給源容器 |
CN107032002A (zh) * | 2017-04-19 | 2017-08-11 | 大唐贵州野马寨发电有限公司 | 一种输灰系统流化管防堵装置 |
US10687460B2 (en) | 2017-07-18 | 2020-06-23 | Cnh Industrial Canada, Ltd. | Air-assisted agitation for tanks of application equipment |
EP3750818B1 (de) * | 2019-06-14 | 2022-02-23 | Hecht Technologie GmbH | Anschlussvorrichtung |
Family Cites Families (23)
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US3402858A (en) * | 1968-09-24 | Dietert Co Harry W | Volumetric measuring unit for materials | |
US3029000A (en) * | 1958-11-26 | 1962-04-10 | Frank R Kobee | Flocking device |
DE1257682B (de) * | 1964-03-18 | 1967-12-28 | Georg Schroeder | Zusammenlegbarer Silo |
DE1507890A1 (de) * | 1965-09-18 | 1969-04-03 | Bayer Ag | Verfahren und Vorrichtung zum pneumatischen Mischen,Trocknen oder Befeuchten von pulverfoermigem Gut |
US3713564A (en) * | 1971-06-25 | 1973-01-30 | Butler Manufacturing Co | Method and means for facilitating the flow of granular materials |
US3952956A (en) * | 1975-03-31 | 1976-04-27 | Dynamic Air Inc. | Bin aerator |
FR2306146A1 (fr) * | 1975-04-02 | 1976-10-29 | Union Ind Entreprise | Procede et appareillage de fluidification |
US4172539A (en) * | 1977-07-18 | 1979-10-30 | Fruehauf Corporation | Aerator nozzle |
FR2587780B1 (fr) * | 1985-09-23 | 1988-06-24 | Rhone Poulenc Ingenierie | Vanne de soutirage |
DE8528561U1 (de) * | 1985-10-08 | 1985-12-12 | Bennigsen-Mackiewicz, Andreas Von, Dipl.-Rer.Pol. | Vorrichtung zum Entleeren von Behältern |
US4943163A (en) * | 1989-09-22 | 1990-07-24 | Dynamic Air Inc. | Blender for pneumatically mixing batches of dry granular materials by tumbling |
SE468388B (sv) * | 1989-10-05 | 1993-01-11 | Seabulk International Ab | Anordning foer hantering av bulkgods |
DE9105309U1 (de) * | 1991-04-30 | 1991-07-25 | Schlieper & Heyng Kg, 5239 Nistertal, De | |
US5474111A (en) * | 1993-10-22 | 1995-12-12 | Degussa Corporation | Fine particle handling |
DE4416009A1 (de) * | 1994-05-06 | 1995-11-09 | Hausach Umformtechnik | Entleereinrichtung für Schüttgut-Container |
DE19641982C1 (de) * | 1996-10-11 | 1998-05-20 | Degussa | Entleerungsvorrichtung für Bulk Bags und deren Verwendung |
US5988867A (en) * | 1997-01-24 | 1999-11-23 | Sisk; David E. | Preassembled fluidizing device having expansive air passage stimulating enhanced flow of granular materials in tank trailers and containers |
GB9706365D0 (en) * | 1997-03-27 | 1997-05-14 | Matcon R & D Ltd | A station |
DE19937700A1 (de) * | 1999-08-10 | 2001-02-15 | Degussa | Entleerstation für Bulk-Bags und deren Verwendung |
JP2002347947A (ja) * | 2001-05-22 | 2002-12-04 | Technica:Kk | 粉粒体保管排出装置 |
US6923340B2 (en) * | 2003-02-27 | 2005-08-02 | The Young Industries, Inc. | System and method for storing, transporting and dispensing bulk particulate materials and dispensing apparatus therefor |
US7191807B2 (en) * | 2003-12-19 | 2007-03-20 | Eastman Kodak Company | Apparatus for toner processing including a variable-orifice non-contact valve |
US20050194405A1 (en) * | 2004-03-02 | 2005-09-08 | Kosich Mark M. | Bulk bag handling apparatus and method |
-
2004
- 2004-03-12 EP EP04405150A patent/EP1574455A1/de not_active Withdrawn
-
2005
- 2005-03-14 CN CN2005800146619A patent/CN1950273B/zh active Active
- 2005-03-14 WO PCT/CH2005/000153 patent/WO2005087624A2/de active Application Filing
- 2005-03-14 US US10/592,358 patent/US20070210112A1/en not_active Abandoned
- 2005-03-14 JP JP2007502167A patent/JP5025459B2/ja active Active
- 2005-03-14 AT AT05714695T patent/ATE445554T1/de not_active IP Right Cessation
- 2005-03-14 DE DE502005008322T patent/DE502005008322D1/de active Active
- 2005-03-14 EP EP05714695A patent/EP1727751B1/de active Active
Non-Patent Citations (1)
Title |
---|
See references of WO2005087624A2 * |
Also Published As
Publication number | Publication date |
---|---|
CN1950273B (zh) | 2010-09-29 |
JP2007528826A (ja) | 2007-10-18 |
US20070210112A1 (en) | 2007-09-13 |
CN1950273A (zh) | 2007-04-18 |
DE502005008322D1 (de) | 2009-11-26 |
EP1574455A1 (de) | 2005-09-14 |
WO2005087624A3 (de) | 2005-12-22 |
WO2005087624A2 (de) | 2005-09-22 |
EP1727751B1 (de) | 2009-10-14 |
JP5025459B2 (ja) | 2012-09-12 |
ATE445554T1 (de) | 2009-10-15 |
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