A scrubs returns cabinet for a hospital allows workers to return surgical garment tops and bottoms. A cabinet housing has a loading door leading to a return port through which the customer places the soiled scrub suit after entering customer identification information. The scrubs fall into a collection area and are dispersed by a diverter into the collection area. Additionally, a compacting paddle compacts the accumulating scrubs to utilize more of the collection area and accommodate more dirty scrubs before the collection area needs to be emptied. The scrubs are compressed by the compactor after being dispersed by the diverter.

A baling system comprising a first bale-forming area configured to form a first series of first individual bales, and a second bale forming-area configured to from a second series of second individual bales. The baling system additionally comprises a bale accumulator configured to receive the first and second individual bales from said first and second bale-forming areas and to manipulate the first and second individual bales into a group of four or more bales.

A baler implement includes a housing that defines a baling chamber for forming crop material into a bale. The baler implement further includes a knotter system having a component that is moveable between a standby position and a wrapping position while wrapping the bale. A knotter sensor communicates a knotter engagement signal in response to movement of the component. A reader is in communication with the knotter sensor and is emits an interrogation signal for reading an identification tag on the bale. The reader emits the interrogation signal for a predefined period of time in response to the knotter engagement signal from the knotter sensor indicating movement of the component of the knotter system while wrapping the bale with the strand material.

A liner for a ram configured to press a viscous material. The liner includes a liner wall and a circumferential lip. The liner wall is configured to abut a ram plate of the ram and includes a number of apertures configured to align with apertures of the ram plate. The liner wall and circumferential lip are configured to prevent the viscous material from contacting a ram surface and circumferential surface of the ram plate, thus making the ram easier to clean.

A controllable packaging device (5) and a method relate to packaging compressed bales (6) on a baling press (2) with a bale-fixing element (11) and a multi-component bale envelope (7) including an upper part (8), a lower part (9) and optionally a sheath-type side part (10). The packaging device includes a fixing device (23) applying the bale-fixing element (11), a supply device (25) supplying the upper part and the lower part and optionally an envelope device (24) applying the side part to the compressed bales. The fixing device and optionally the envelope device are arranged on a transport apparatus (19) that travels along the compressed bale in an advancing direction (22). The supply device is arranged on the transport apparatus and supplies the upper part and the lower part with a supply movement oriented transversely to the advancing direction, from the outside into the baling press.

A liquid ejecting apparatus includes: a tube configured to establish communication of a flow channel by connecting an ejecting portion configured to eject a liquid to an ejection target medium to a container configured to contain the liquid to be supplied to the ejecting portion; a valve mechanism configured to switch between a close state of pressing and closing the tube and an open state of opening the tube depending on a rotational position of a cam member configured to be rotated by a driving source; and a detection unit configured to detect whether the valve mechanism is in the close state or in the open state. The valve mechanism includes a detection target portion. The detection unit detects whether the valve mechanism is in the close state or in the open state by detecting the detection target portion.

A storage receptacle can include a storage bin and a pedal mounted to the receptacle as well as a hopper. A method of using the storage receptacle can include receiving a force on a hopper handle of a hopper of a storage receptacle, the hopper having a cable connection point connected to a cable, based on the force, rotating the hopper to enable a user to place material in a storage bin of the storage receptacle, wherein the rotating causes the cable to have slack and preventing the cable having the slack from coming out of a groove in a pulley via a shroud positioned over at least a portion of the pulley.

A bulk bag discharge assembly comprising a main frame assembly and a bag conditioning assembly. The main frame assembly defines a bulk bag receiving region having a discharge support base structurally configured to receive a bulk bag thereon for discharging. The bag conditioning assembly comprises opposing conditioner frames, each having a proximal end, a distal end, and an impact face, and at a proximal end, pivotably coupled to the main frame assembly. A powered cylinder is pivotably coupled to the main frame assembly at a first end, and to the first conditioner frame at a second end. The conditioning assembly is structurally configured to impact a side of a bulk bag positioned on the discharge support base, without impacting a bottom of a bulk bag, wherein the distal end of the first conditioner frame is directed at least partially in an upward direction within the bulk bag receiving region.

Systems and methods are disclosed herein for estimating remaining life in an agricultural baler comprising a reciprocating plunger for compressing gathered agricultural material into bales. A first sensor generates signals corresponding to force applied to the reciprocating plunger and any baling components configured to at least partially carry forces applied to the plunger. Based on input signals from at least the first sensor, forces associated with a load are recorded and a life state is estimated for the reciprocating plunger and/or at least one associated baler component. An output signal is then generated corresponding to the one or more estimated life states. In an embodiment, an input signal from a second sensor indicates completion of a bale, wherein an amount of life consumed from the plunger and/or baling components is determined in association with the bale, based at least in part on operating conditions of the baled material.

A baler is provided, including a baling chamber that includes a bale-forming channel including at least one adjustable friction control element; a plunger mounted within the channel; a rotary drive mechanism to drive reciprocating movement of the plunger; a control system to control operation of the baler and being configured to determine an actual maximum torque value (MTV) associated with the mechanism, to compare the actual MTV with a selected desired MTV, and to adjust the control element to regulate the actual MTV according to the selected desired MTV; a sensor that senses a force value; and a sensor that senses a cyclical position of a component of the mechanism, the control system being further configured to determine the actual MTV by measuring the force value, sensing the cyclical position of the component, and deriving the actual MTV from the measured force value and the sensed cyclical position.