Methods, apparatus, devices and systems for mixing and dispensing multi-component materials. The mixing and dispensing may be performed using a mobile, enclosed dispenser that can be used to supply a mixed multi-component material at the point of use. In some embodiments, the components to be mixed into the multi-component material may be supplied in cartridges.

Methods, apparatus, devices and systems for mixing and dispensing multi-component materials. The mixing and dispensing may be performed using a mobile, enclosed dispenser that can be used to supply a mixed multi-component material at the point of use. In some embodiments, the components to be mixed into the multi-component material may be supplied in cartridges.

In a liquid material discharge apparatus, attachment/detachment of a liquid contact unit (2) and a main body unit (15) is more safely and easily performed. The apparatus includes the liquid contact unit (2) provided with a housing (6) including a nozzle (3) and a discharge member (5), and with a storage container (4) fluidly connected to the housing with the aid of a mounting member, and a main body unit provided with a holder (19) to which the housing is detachably attached, and with a drive unit (16) for actuating the discharge member that is detachably coupled to the drive unit, the apparatus further includes a movable member (12) being movable in an up-down direction along the housing while the movable member remains attached to the housing, and the discharge member and the drive unit are attachable with movement of the movable member in the up-down direction.

A dispensing module includes a needle and an actuator housing defining an actuator cavity with an actuator disposed therein, a body cavity, and a needle passageway connecting the actuator cavity and the body cavity. A lower end of the needle defines a valve element, and an upper end of the needle is secured to the actuator. The dispensing module also includes a nozzle adapter releasably coupled to the actuator housing, where the nozzle adapter defines a seal seat, a fluid inlet, a fluid channel, and a fluid outlet in fluid communication with the fluid inlet and the fluid channel. The nozzle adapter is configured to be releasably coupled to the actuator housing using one or more fasteners, such that the needle extends into the fluid channel.

A dispensing module includes a needle and an actuator housing defining an actuator cavity with an actuator disposed therein, a body cavity, and a needle passageway connecting the actuator cavity and the body cavity. A lower end of the needle defines a valve element, and an upper end of the needle is secured to the actuator. The dispensing module also includes a nozzle adapter releasably coupled to the actuator housing, where the nozzle adapter defines a seal seat, a fluid inlet, a fluid channel, and a fluid outlet in fluid communication with the fluid inlet and the fluid channel. The nozzle adapter is configured to be releasably coupled to the actuator housing using one or more fasteners, such that the needle extends into the fluid channel.

Provided are methods and systems for applying materials at interface areas formed by fasteners and parts. Specifically, a material is delivered to an interface area such that at least a portion of a fastener remains free from this material. The interface area may be sealed such that the material is contained within that area. As such, a controlled amount of the material is dispensed in a precise location. An applicator used for this process may include a housing and inner guide slidably disposed within this housing. The material may be delivered through an annular flow channel between the housing and inner guide. The inner guide may be sealed against and, in some embodiments, centered with respect to the fastener. The housing may be sealed with respect to the part and, in some embodiments, may be rotated with respect to the part to redistribute the material at the interface area.

Provided are methods and systems for applying materials at interface areas formed by fasteners and parts. Specifically, a material is delivered to an interface area such that at least a portion of a fastener remains free from this material. The interface area may be sealed such that the material is contained within that area. As such, a controlled amount of the material is dispensed in a precise location. An applicator used for this process may include a housing and inner guide slidably disposed within this housing. The material may be delivered through an annular flow channel between the housing and inner guide. The inner guide may be sealed against and, in some embodiments, centered with respect to the fastener. The housing may be sealed with respect to the part and, in some embodiments, may be rotated with respect to the part to redistribute the material at the interface area.

A metering and mixing device contains a multichamber cartridge and a cartridge holder having a reception container for the multichamber cartridge and a compressed air connection and a connection for an application device. The reception container has an internal tube arranged coaxially to the walls of the cartridge holder and equipped with static mixing elements. The multichamber cartridge contains an upper portion having a directional valve, a middle portion configured as a tubular empty space surrounded by at least two chambers arranged tubularly in the direction of the longitudinal axis of the cartridge, and a lower portion having a piston for each chamber. The multichamber cartridge is arranged in the cartridge holder such that the inner wall of the inner tube of the multichamber cartridge bears, leak-tight, against the outer wall of the tube of the cartridge holder.

A paint transfer system for both automatically and manually transferring paint from a paint container directly to a paint brush including a paint container member, a pump mechanism, and a paint brush apparatus coupled together in fluid communication wherein the paint brush apparatus includes a paint brush having a bladder member or housing member positioned and located within the paint brush adjacent to or within its bristle members as well as an optional valve control member for controlling and distributing the flow of paint to the bristle members. In some embodiments, a remote controller is positioned between the paint brush apparatus and the paint container member for allowing a user to selectively activate the flow of paint from the paint container to the paint brush apparatus. A variety of different pumping mechanisms are utilized for transferring paint from the paint container member to the paint brush apparatus.

A paint transfer system for both automatically and manually transferring paint from a paint container directly to a paint brush including a paint container member, a pump mechanism, and a paint brush apparatus coupled together in fluid communication wherein the paint brush apparatus includes a paint brush having a bladder member or housing member positioned and located within the paint brush adjacent to or within its bristle members as well as an optional valve control member for controlling and distributing the flow of paint to the bristle members. In some embodiments, a remote controller is positioned between the paint brush apparatus and the paint container member for allowing a user to selectively activate the flow of paint from the paint container to the paint brush apparatus. A variety of different pumping mechanisms are utilized for transferring paint from the paint container member to the paint brush apparatus.