A temporary restroom may form a complete enclosure, including a front wall, a back wall, two sidewalls, a floor, a ceiling, and a door. The front wall, the back wall, the two sidewalls, the floor and the ceiling each includes multiple support members, which together form a frame. Inside the enclosure, the temporary restroom includes a, coupled with a waste drainage pipe, a sink in, coupled with a water pipe and a waste water drainage pipe, and multiple connections for connecting the waste drainage pipe and the waste drainage pipe to waste plumbing, connecting the water pipe to water plumbing, and connecting the temporary restroom to a source of electric power. The temporary restroom does not include a waste storage tank or a built-in source of water.

A fluid product reservoir, for a dispensing system, is made of a container having walls that include an aperture formed at one end thereof. A reservoir cap seals the aperture from exposure to the atmosphere. A pump integrated into the reservoir cap allows fluid product to be dispensed from the dispensing system. A closed venting mechanism is included and incorporates one or more air channels that direct ambient air into a bladder positioned internal to the fluid product reservoir. The expansion of the bladder functions to displace fluid pumped from the reservoir thereby equalizing pressure while maintaining a sanitary seal of the fluid reservoir.

An exemplary refill unit for an dispenser includes a container for holding a liquid. The container has bottom side with a neck extending from the bottom side. A pump is connected to the neck of the container. The pump has a liquid pump portion that has a liquid pump inlet. The liquid pump inlet is located above the bottom of the container. A shroud is located over the liquid pump inlet and extends downward toward the bottom of the container. An air bleed valve is included and located in the top of the shroud.

An adaptor assembly for use in a dispenser for a replaceable fluid container comprising a fluid reservoir and a fluid pump. The adapter assembly is used in conjunction with the dispenser to allow a use of a fluid container having a pump being actuated by laterally compressing it. The adaptor assembly comprises an actuation part being movable, when mounted in the dispenser, and comprises a first contact surface for abutting against the user actuator and a second contact surface for abutting against the pump. The adaptor assembly also comprises a first connecting support for removably connecting the actuation part to the dispenser and/ or the fluid dispensing package mounted in the compartment. A fluid dispensing system including the adaptor assembly is also disclosed.

A pump assembly for generating and dispensing of particles of a solid material with or without dispensing of a fluid. The pump assembly preferably includes a fluid pump which in a cycle of operation draws the fluid through a fluid inlet and dispenses the fluid out a fluid outlet. The pump assembly carries a block of the solid material coalesced together and a rasp member, which during the cycle of operation, moves relative the rasp in engagement with the block whereby the rasp member disengages particles of the solid material from the block which particles drop under gravity downwardly adjacent the fluid outlet, for example, onto a user's hand as in the case that the fluid is a hand cleaning fluid and the solid is a solid soap.

A method for operating a fluid dispenser is provided. The method includes receiving, by the fluid dispenser, an interrogation signal from a remote electronic device, and in response to receiving the interrogation signal, transmitting, by the fluid dispenser and to the remote electronic device, an identification of a fluid type of the fluid stored within the fluid dispenser. The method further includes dispensing fluid from the fluid dispenser in response to an actuation request and based upon a fluid-specific setting received from the remote electronic device. A method for programming a fluid dispenser is also provided. The method includes detecting, by a remote electronic device, a fluid type of a fluid stored within the fluid dispenser, and transmitting one of a first fluid-specific setting and a second fluid-specific setting to the fluid dispenser based upon a detected fluid type of fluid stored within the fluid dispenser.

A dispenser with a replaceable cartridge containing a product to be dispensed, and a housing configured to removably receive the cartridge. The cartridge has a surface that is marked with a first marking, and the housing has a surface that is marked with a second marking. The housing is configured so that, when the cartridge is received by the housing, the first marking and the second marking together form a machine readable code that is detectable from outside of the housing.

A flexible mounting system for a chemical product dispenser includes a dispenser holder and at least one mounting apparatus. A releasable connection mechanism provides for attachment of the dispenser holder to the mounting apparatus. The releasable connection mechanism may provide for attachment of the dispenser holder to the mounting apparatus in multiple orientations. In one example, the mounting apparatus includes a mounting bracket configured for mounting to a support object, such as a wall, table, counter top, cabinet, shelf, cart etc. In another example, the mounting apparatus includes a mounting clamp configured for mounting to ledges, poles, bedrails, handles, etc.

A flowable material dispenser for dispensing flowable material from a container having a pump may include a housing, an actuator, a motor, and a drive assembly. The actuator may be disposed within the housing and configured to translate relative to the housing between a first position and a second position during a dispense cycle. The actuator may be configured to move the pump between an extended configuration and a compressed configuration to dispense the flowable material as the actuator translates between the first position and the second position during the dispense cycle. The drive assembly may be coupled to the actuator and the motor and configured to translate the actuator between the first position and the second position at a varying rate of translation during the dispense cycle. The varying rate of translation may vary relative to a rate of rotation of the motor and follow a non-sinusoidal waveform.

A dispenser for dispensing soap and sanitizer includes a back plate, a container insert removably securable to the back plate, and a cover pivotally engaged to the back plate and the container insert. The container insert includes a first side defining a first container receiving feature and a second side, opposite the first side, defining a second container receiving feature that has a different configuration or size than the first container receiving feature.