A fluid flow control device includes a valve body defining an inlet, an outlet, and a fluid flow path extending therebetween, a valve seat ring coupled to the body that defines an orifice through which the fluid flow path passes, a cage coupled to the body that defines an interior bore, a control element slidably disposed within the interior bore of the cage, and a particle catcher at least partially disposed within an interior bore of the control element. The particle catcher includes a particle catcher body that defines an inner flow path and at least one particle catcher passage through which the fluid flow path passes. An outer surface of the particle catcher and an inner surface of the control element form a particle catching portion. The at least one particle catcher passage directs the fluid flow path downwardly into the particle catching portion.

A processing system for processing plant mixture into milk and pulp preferably includes a filter, a plunger mechanism, and a pulp catcher. The filter has a filter wall and floor that together define a chamber. The plunger mechanism (which has a plunger shaft with an actuator end and a plunger head end) is insertable into the chamber. A preferred plunger head at the plunger head end may have at least one clearing blade and/or a first part of a connector. The pulp catcher has a second part of a connector that may connect to the first part of the connector. The processing system may also include a filter lid and/or a ring funnel.

A processing system for processing plant mixture into milk and pulp preferably includes a filter, a plunger mechanism, and a pulp catcher. The filter has a filter wall and floor that together define a chamber. The plunger mechanism (which has a plunger shaft with an actuator end and a plunger head end) is insertable into the chamber. A preferred plunger head at the plunger head end may have at least one clearing blade and/or a first part of a connector. The pulp catcher has a second part of a connector that may connect to the first part of the connector. The processing system may also include a filter lid and/or a ring funnel.

A straining device for bathtub drains to capture fallen hairs from water flowing into the drain. The straining device includes a tubular body that has multiple apertures in its wall and an open bottom. The body is divided into two parts that are pivotally coupled at the base through two opposite hinge joints. The tops of the two parts can be pivoted away from each other. To remove the trapped hairs, the tops of the two parts can be pulled away from each other resulting in dropping off the trapped hair on the outer surface of the straining device.

A straining device for bathtub drains to capture fallen hairs from water flowing into the drain. The straining device includes a tubular body that has multiple apertures in its wall and an open bottom. The body is divided into two parts that are pivotally coupled at the base through two opposite hinge joints. The tops of the two parts can be pivoted away from each other. To remove the trapped hairs, the tops of the two parts can be pulled away from each other resulting in dropping off the trapped hair on the outer surface of the straining device.

A combined lid and strainer device for a paint container features an outer mounting rim configured for mated fitting onto a rim of the paint container. Within a central circular area surrounded by the rim, there is a perforated a straining area through which paint is pourable. A movable cover is selectively movable between a closed position overlying the perforated straining area, and open positions withdrawn therefrom to allow strained pouring of the paint therethrough. Raised features on the cover are used to secure the cover closed when the lidded container is placed in a paint shaker. A sealing membrane is used, at least initially, seal the perforated area in air-tight fashion to maintain paint freshness. Securement features are usable to secure the flap in both closed and open positions.

A combined lid and strainer device for a paint container features an outer mounting rim configured for mated fitting onto a rim of the paint container. Within a central circular area surrounded by the rim, there is a perforated a straining area through which paint is pourable. A movable cover is selectively movable between a closed position overlying the perforated straining area, and open positions withdrawn therefrom to allow strained pouring of the paint therethrough. Raised features on the cover are used to secure the cover closed when the lidded container is placed in a paint shaker. A sealing membrane is used, at least initially, seal the perforated area in air-tight fashion to maintain paint freshness. Securement features are usable to secure the flap in both closed and open positions.

A fat cutter and an integrated machine for preparation of in vitro fine-particle fat are provided. The fat cutter includes a fat inlet channel, a fat outlet channel, at least one set of blades disposed between an outlet of the fat inlet channel and an inlet of the fat outlet channel, and a housing that seals a space in which the outlet of the fat inlet channel, the inlet of the fat outlet channel, and the blades are located. A fat inlet of the fat inlet channel is connected to a large-diameter liposuction tube by a liposuction channel, and a fat outlet of the fat outlet channel is connected to a high-negative pressure device. The outlet of the fat inlet channel and the inlet of the fat outlet channel are oppositely provided, and a gap therebetween matches the thickness of the blades.

A fat cutter and an integrated machine for preparation of in vitro fine-particle fat are provided. The fat cutter includes a fat inlet channel, a fat outlet channel, at least one set of blades disposed between an outlet of the fat inlet channel and an inlet of the fat outlet channel, and a housing that seals a space in which the outlet of the fat inlet channel, the inlet of the fat outlet channel, and the blades are located. A fat inlet of the fat inlet channel is connected to a large-diameter liposuction tube by a liposuction channel, and a fat outlet of the fat outlet channel is connected to a high-negative pressure device. The outlet of the fat inlet channel and the inlet of the fat outlet channel are oppositely provided, and a gap therebetween matches the thickness of the blades.

An apparatus (10) for handling drill water comprises a funnel (12) and a spillway (16) which act in concert to receive and then separate a slurry mixture into constituent drill cuttings and spent rinse water. The funnel (12) collects the falling slurry mixture, which is channelled via conduit (56) into a spillway (16). The spillway (16) is fitted with a dewatering grate (80) onto which the slurry mixture from the funnel (12) is channelled. The flow of slurry mixture is moderated by a baffle (78) which both catches and discharges slurry mixture delivered by the conduit (56). The slurry mixture is discharged over the dewatering grate (80), which drains the spend rinse water into a section of the spillway (16), and discharges the drill cuttings away from the grate (80).