A centralized hub system for improving automatic waste transport and collection using a self-driving robot, which allows for self-driving and efficient collection of waste in densely populated areas, such as apartment complexes and residential neighborhoods, and areas with a floating population by using robots with built-in artificial intelligence software and hardware and self-driving waste collection and driving functions and an integrated management server for monitoring these robots, and which helps to put information together in this process and use it as base data for the efficient operation of future waste policies and the corresponding systems. The centralized hub system for improving automatic waste transport and collection using a self-driving robot comprises self-driving inlet robots, an integrated management server, and a self-driving vehicle robot.

Embodiments of the present invention are related to an autonomously propelled waste receptacle including a top, a collapsible lid, a housing, an exterior, an interior, and a bottom. The housing includes a circuit board panel, a door, and doorway. The exterior includes a user interface, a plurality of sensors, at least one antenna, and a camera. The interior includes a bin, a trash compactor with a plurality of threaded rods connected to the collapsible lid, an upper can platform, and a bottom tech platform. The bottom includes a plurality of wheels used to drive the autonomously propelled waste receptacle. The collapsible lid also acts as a descending masher compacting trash within the interior bin and the bin is structured to rotate through the doorway to empty. The autonomously propelled waste receptacle may navigate using at least one of sensors, camera, WiFi communication, cellular communication, and GPS communication.

A waste bin comprises a sorting space for sorting waste paper products from other types of waste, a movable separation element comprising a plurality of openings, a physical property sensing mechanism for detecting a physical property of waste received in the sorting space, a removal element for moving waste from the sorting space to a waste paper product compartment, and a control for controlling the movable separation element and the removal element. The movable separation element is configured to move upon the application of an external force exceeding a threshold value. The control is configured to operate the removal element or the movable separation element, based on a detection result of the physical property sensing mechanism. Further, a method of sorting waste paper products from other types of waste in such a waste bin is provided.

A system for storing recyclable containers, such as used food or beverage containers, including a storage for housing recyclable containers, the storage having a set of inner surfaces which defines a storage volume for the recyclable containers; a transporting channel, the transporting channel including an inlet port and an outlet port, wherein the inlet port is arranged to receive compressed and/or uncompressed recyclable containers, and the outlet port being arranged in at least one of the inner surfaces in the set of inner surfaces, a force feeding transporting mechanism configured to transport transfer at least one recyclable container through the transporting channel, and into the storage volume via the outlet port, a centre axis of the outlet port of the transporting channel is directed upwards from the horizontal plane at an angle, the angle being within the range of 15° and 85° at the outlet port of the transporting channel.

The disclosure discloses a dry garbage collection system and method with compressing and packing function, the system includes a central control display, a garbage putting bin, a compression and hot-melting bin, a packing bin, a forwarding bin, an air purification bin, a garbage can and a box; the garbage put in the system is compressed to form a cake shape and then performed a packing, and the garbage bags are hot-melted to shape, and vacuumized during packing process; the weight of the garbage before and after compression is compared to determine whether there is more wet garbage in the input dry garbage, so that an alarm can be sent out when the garbage classification is not standardized. The present disclosure realizes effectively compression and packing of garbage, significantly reduces the volume of garbage, prevents the garbage bin from overfilling, reduces subsequent garbage transfer times and transportation costs.

A storage device and a storage bag are provided. The storage device includes: a barrel-shaped body, including a bottom board and a side wall connected with the bottom board; a storage bag convey member, disposed an outer side of the side wall, and configured to convey a storage bag to a side edge of the side wall away from the bottom board; a first driving part, including a rotation part and a rocker arm, the rotation part being disposed on the bottom board, an end of the rocker arm being connected with the rotation part, another end of the rocker arm extending to a side of the side wall away from the bottom board, and the rocker arm being configured to rotate along the side wall under driven of the rotation part.

A centralized hub system for improving automatic waste transport and collection using a self-driving robot, which allows for self-driving and efficient collection of waste in densely populated areas, such as apartment complexes and residential neighborhoods, and areas with a floating population by using robots with built-in artificial intelligence software and hardware and self-driving waste collection and driving functions and an integrated management server for monitoring these robots, and which helps to put information together in this process and use it as base data for the efficient operation of future waste policies and the corresponding systems. The centralized hub system for improving automatic waste transport and collection using a self-driving robot comprises self-driving inlet robots, an integrated management server, and a self-driving vehicle robot.

Embodiments of the present invention are related to an autonomously propelled waste receptacle including a top, a collapsible lid, a housing, an exterior, an interior, and a bottom. The housing includes a circuit board panel, a door, and doorway. The exterior includes a user interface, a plurality of sensors, at least one antenna, and a camera. The interior includes a bin, a trash compactor with a plurality of threaded rods connected to the collapsible lid, an upper can platform, and a bottom tech platform. The bottom includes a plurality of wheels used to drive the autonomously propelled waste receptacle.

The collapsible lid also acts as a descending masher compacting trash within the interior bin and the bin is structured to rotate through the doorway to empty. The autonomously propelled waste receptacle may navigate using at least one of sensors, camera, WiFi communication, cellular communication, and GPS communication.

The present invention is a sharps container with an integral device for the removal of disposable straight edge razor blades from the razor handle. The used blades are removed from the razor handle and deposited into a sharps container without the user having to physically touch the blade.

The present invention discloses a bagging mechanism for trash bags and a smart trash receptacle. The bagging mechanism is disposed within a body of the trash receptacle. A first fixed edge and a second fixed edge intersecting the first fixed edge are provided at tops of internal surfaces of the body of the trash receptacle. The bagging mechanism includes a first pressing bar, which is able to slide along the second fixed edge to gather the open end of the trash bag onto the first fixed edge, and a second pressing bar, which is able to slide along the first fixed edge to gather the open end of the trash bag onto the second fixed edge. The first pressing bar and the second pressing bar are further able to work together to gather the trash bag to the intersection of the first fixed edge and the second fixed edge. In the vicinity of the intersection, a heat fusing device is disposed for heat fusing and sealing the trash bag. The bagging mechanism further includes driving means for driving the first pressing bar and the second pressing bar to move. With this arrangement, the issue that conventional smart trash receptacles do not have an automatic bagging mechanism or are only capable of semi-automatic trash bagging, with insufficient bag sealing, insecure sealing and low loading capacity can be solved.