Disclosed in the present invention is a rotary filtering type two-in-one stirring kettle. The stirring kettle includes a kettle body, where an upper sealing head and a lower sealing head are arranged at a top and a bottom of the kettle body respectively, a stirrer is arranged in the kettle body, and a rotary filtering mechanism is arranged between the kettle body and the lower sealing head. A back-flushing cleaning mechanism for dredging the rotary filtering mechanism is arranged at a bottom of the lower sealing head, and the rotary filtering mechanism is fixedly connected to the kettle body and the lower sealing head.

A container (100) within which a food product is to be processed. The container (100) includes: a hollow body (101) providing an interior chamber (110) to receive the product and within which the product is processed, the body (101) having a rim portion (104) surrounding a body top opening (106); a removable lid (107) sealingly associated with the rim portion (104) to close the top opening (106), the lid (107) having: a base (111) sealingly associated with the rim portion (104), the base (111) having a base opening (115) providing access to the chamber (110) and a sealing surface (157) surrounding the base opening (115), a removable valve assembly (112) located in the base opening (115) and sealingly associated with the base (111) to close the base opening (115), the valve assembly (112) including: a main part (122) associated with the base (111) to removably secure the valve assembly (112) in the base opening (115), a seal (123) mounted on the main part (122) and engaging the sealing surface (157), an air opening (131) in the main part (122) providing for air flow from the chamber (110) to exterior of the container (100), a valve (132) operatively associated with the air opening (131) to close the air opening (131) to at least inhibit air flow from exterior of the container (100) to said chamber (110) but permit air flow from the chamber (110) to the exterior, and wherein a cavity (156) is provided between the base (111) and main part (122), leading to said seal (123), with the cavity (156) including a first cavity portion (151) and a second cavity portion (153), with the first cavity portion (151) being configured relative to the second cavity portion (153) to at least partly dissipate kinetic energy of liquid being propelled from the interior (110) into the cavity (156).

Blender and food processing devices dampen impact forces between a blending blade and a blending jar. One blender includes a blender base and a blending jar that has a seal opening. A blending blade assembly in the jar includes a blending blade, a jar shaft attached to the blending blade and extending through the seal opening, a circular motion guide positioned around the jar shaft, and a jar seal positioned between the circular motion guide and the seal opening. The jar seal prevents contact between the circular motion guide and the seal opening and dampens forces induced by relative motion between the seal opening and the blending blade, jar shaft, and/or circular motion guide. The dampening may reduce wear or damage to the jar and may improve quality of the blending jar and blade assembly.

A beverage stirring assembly for selectively stirring a liquid in a container includes a container that may contain a liquid. A stirring unit is removably coupled to the container and the stirring unit is selectively manipulated. The stirring unit stirs the liquid when the stirring unit is manipulated. Moreover, the stirring unit is selectively removed from the container thereby facilitating an interior of the container to be washed.

A mixing apparatus has a chemical moving part, a motor, a paddle, and a plate. The chemical moving part is configured to receive and output a chemical in a pipe. The motor is configured to rotatably drive a shaft coupled to the motor at a first end of the shaft. The shaft defines a central rotational axis. The paddle is connected to a second end of the shaft and configured to rotate with the shaft. The plate is configured to secure the motor to the pipe and has a first side facing the motor and a second opposite side facing a projection of the paddle. The first side defines a first length extending in a direction perpendicular to the shaft and the second side defines a second length extending in a direction perpendicular to the shaft. The first length is greater than the second length.

A static mixer for mixing together at least two components includes an injection molded or dimensionally stable mixer housing, a mixing inset arranged at least partly in the mixer housing, the mixing inset including a plurality of mixing elements which are connected by at least one peripheral web, and a sealing element. A passage between the mixer housing and the at least one peripheral web is blocked by the sealing element, and the sealing element is located in a middle section of a set of mixing elements.

A chemical injection system for connection to a chemical tank and a process line includes a pump box configured to attach to the tank, the pump box including a body defining an interior, a pump assembly disposed within the interior of the body of the pump box, and an injection assembly configured to be fluidly coupled to the pump box. The injection assembly includes an injection lance having a flange and a stem, a first seal abutting a first side of the flange of the injection lance, and a second seal abutting a second side of the flange of the injection lance.

An agitator assembly includes an agitator body, a shaft and a blocking part. The shaft is assembled to the agitator body and extends through a lead-through in the agitator body into the vessel, when assembled for use, and includes a sealing to seal the rotatable shaft. The blocking part arranged at the agitator body and including a shaft opening through which the shaft is arranged to extend, a mating surface to mate with the shaft which, when brought together by axial movement of the blocking part, provides a seal between the blocking part and the shaft, and the mating surface arranged at an axial distance from the sealing in the lead-through, and when brought together by the axial movement of the blocking part, provides a seal between the blocking part and the agitator body, and that the blocking part provides a closed space around the lead-through in the agitator body.

A method for obtaining a chemical concentration from a chemical composition and a fluid includes introducing the fluid through ports in a manifold diffuse member positioned adjacent a chemical composition and adjusting, with a fluid valve, characteristics of the flow of the fluid through the ports in the diffuser manifold to obtain and maintain a chemical concentration. The amount of liquid allowed through the ports modifies the turbulence of the liquid, thereby modifying the erosion rate of the chemical composition. An apparatus for adjusting characteristics of the flow of a fluid contacting a solid product to form a product chemistry includes a diffuser manifold having a manifold diffuse member comprising ports therethrough and a fluid valve for controlling the flow rate of a fluid moving through the plurality of ports and diverting the fluid through various flow paths.

The present invention relates to a device for cooling a slurry manufacturing mixer, wherein a cooling water passage is formed between an inner container and an outer container and cooling water is supplied to the cooling water passage so as to quickly cool a rotation container for manufacturing slurry and slurry therein. As one example, disclosed is a device for cooling a slurry manufacturing mixer, the device comprising: a rotation container that comprises a mixing part, which mixes slurry and has a temperature detection part, and a slurry discharge part, which is formed under the mixing part and has a discharge hole for discharging the slurry; a body that is positioned under the rotation container and has a through-hole formed therethrough, through which the rotation container is inserted; and a sealing member interposed between the rotation container and the body, wherein the mixing part comprises an inner container and an outer container, and a cooling water passage is formed between the inner container and the outer container.