The invention relates to a seal assembly comprising: a seal for a bulk material container, having a ring-shaped connecting flange with a through opening and a first moving element; and a seal member for selectively sealing or opening the through opening. A container wall of the bulk material container can be attached to the connecting flange. The seal assembly also comprises a docking device having a housing, a second moving element, and a seal actuating device. In order to increase the tightness of the seal, one of the moving elements comprises a peripheral first stripping element, by means of which impurities are stripped from a surface of the connecting flange, in a closing process for sealing the though opening of the connecting flange.

What is presented is an interface between a hopper and a dust receptacle of a dust collector system, wherein the hopper has an outlet through which collected dust drops. A slide gate is mounted to the outlet of the hopper and a spout is mounted to the slide gate. A lid is configured to secure to the top of the dust receptacle. The lid has a coupling configured to secure to the spout. A slot comprising a locking feature is located on either the spout or the coupling. A rod corresponding to the slot is mounted to the other of the spout or the coupling than which the slot is located. The lid may be removed from the dust receptacle by lifting the lid to move the rod through the slot and the lid is secured by twisting the coupling relative to the spout to move the rod into the locking feature.

What is presented is an interface between a hopper and a dust receptacle of a dust collector system, wherein the hopper has an outlet through which collected dust drops. A slide gate is mounted to the outlet of the hopper and a spout is mounted to the slide gate. A lid is configured to secure to the top of the dust receptacle. The lid has a coupling configured to secure to the spout. A slot comprising a locking feature is located on either the spout or the coupling. A rod corresponding to the slot is mounted to the other of the spout or the coupling than which the slot is located. The lid may be removed from the dust receptacle by lifting the lid to move the rod through the slot and the lid is secured by twisting the coupling relative to the spout to move the rod into the locking feature.

The apparatus (1) according to the invention for packing bulk material into a container (2) comprises a provisioning device (3) for the container (2). The container (2) has a filling side with a filling opening arranged therein. The apparatus (1) further comprises a gripping device (4) for gripping of the substantially closed and empty container (2) by the provisioning device (3). The apparatus optionally comprises a conveying device (5) for conveying the container (2) to a packing device (6). The apparatus further optionally comprises a container-opening device (9) for opening the container (2). The gripping device (4) has a detection device (7) for detecting the position of the container on and/or in the provisioning device (3). The apparatus (1) additionally has a positioning device for positioning the container on the basis of said detected position.

The apparatus (1) according to the invention for packing bulk material into a container (2) comprises a provisioning device (3) for the container (2). The container (2) has a filling side with a filling opening arranged therein. The apparatus (1) further comprises a gripping device (4) for gripping of the substantially closed and empty container (2) by the provisioning device (3). The apparatus optionally comprises a conveying device (5) for conveying the container (2) to a packing device (6). The apparatus further optionally comprises a container-opening device (9) for opening the container (2). The gripping device (4) has a detection device (7) for detecting the position of the container on and/or in the provisioning device (3). The apparatus (1) additionally has a positioning device for positioning the container on the basis of said detected position.

An apparatus for dispensing dry particulate consumables includes a storage silo to store the particulate consumables. A first end of a conveyor is adjacent to a discharge opening of the silo. A second end of the conveyor is in communication with a dispensing hopper. A motor is configured to drive the conveyor in order to fill the dispensing hopper, where the dispensing hopper is filled in response to a purchase signal indicating a purchase request for dispensing the particulate consumables. A user interface is configured to initiate the purchase signal, where the user interface is configured to receive payment from a purchaser for the particulate consumables. A controller is in communication with the user interface, the motor that controls the conveyor, and the dispenser hopper in order to control an amount of particulate consumables dispensed to the purchaser.

The technology described herein generally relates to an automated packaging apparatus and system that packages loose particles into a conical container as well as the final folded packages. More specifically, loose plant matter, such as crumbled dried leaves, are supplied to successive paper cones. The apparatus packs the crumbled leaves into the cones, closes the wide top portion of the cone into a precise shape, and then runs a quality control check to ensure that the final filled cone meets preset specifications.

A system includes a flow line connected to a fluid and a suction line in fluid communication with the flow line, wherein the fluid is to carry cuttings from a borehole. The system also includes a flow line pump to move fluid via the suction line onto a surface of a cuttings separation conveyor, wherein the surface of the cuttings separation conveyor comprises a separation screen. The system also includes a cuttings container positioned to collect a portion of the cuttings from the separation conveyor

A system includes a flow line connected to a fluid and a suction line in fluid communication with the flow line, wherein the fluid is to carry cuttings from a borehole. The system also includes a flow line pump to move fluid via the suction line onto a surface of a cuttings separation conveyor, wherein the surface of the cuttings separation conveyor comprises a separation screen. The system also includes a cuttings container positioned to collect a portion of the cuttings from the separation conveyor

Provided is a wound body formed by winding a long sheet. The wound body is supportable by a support shaft. The support shaft includes a cylindrical outer peripheral part that includes a first projection located at a proximal end and a second projection located at a distal end, and includes an inner peripheral part that includes a first recess part located at the one end and recessing outward in the radial direction and a second recess part located to extend from the one end to the other end and recessing outward in the radial direction. A recessing amount of the second recess part is smaller than that of the first recess part. The support shaft and the core body are integrally rotatable around the central axis by engagement of the first projection with the first recess part in a state where the core body is mounted on the outer periphery of the support shaft. The circumferential position of the first projection around the central axis is aligned with the circumferential position of the first recess part around the central axis by engagement of the second projection with the second recess part when the core body is mounted on the outer periphery of the support shaft.