摘要:
A container for storage, transport and dispensing of liquid chemicals uses a collapsable thin film pouch which is sealed to a fitment and is positioned within a bottle or overpack. A retainer and cap hold the pouch and fitment in place within the bottle. The cap provides an inner seal and an outer seal which remain intact during shipping and storage. In use, the outer seal is removed and the container is connected to either a manual or an automated dispensing system which includes a valve probe which breaks the inner seal. In the manual system the bottle is inverted so that flow of liquid from the pouch is gravity assisted. In the automated system, the container is placed within a pressure vessel and air pressure is applied both to the outside of the bottle and also to the inside of the bottle to assist in collapsing the pouch and forcing the liquid out of the pouch. When empty, the container is removed from the manual or automated dispensing system and the cap and retainer are removed to allow removal and disposal of the pouch and fitment.
摘要:
A liquid chemical handling system is suitable for handling a liquid chemical during dispensing. A container holds the liquid chemical and a collar couples the container to a dispenser during dispensing. A coupling clip, has a lever portion pivotally coupled to the collar. The coupling clip also has a locking tab pivotally coupled to a lever portion so that depression of the lever portion causes the locking tab to move between a locking position and an unlocking position. The coupling clip is also provided with a bias mechanism, which is coupled to the coupling clip, and which biases the lever portion to hold the locking tab in the locking position.
摘要:
A container for storage, transport, and dispensing of liquid chemicals includes a fluid container having a port, a dip tube having a fluid passage from an upper-end to a lower end of the dip tube, a dip tube coupling at the upper end of the dip tube for insertion into the port, and a rupturable membrane sealed over a top end of the port. The dip tube coupling has a cavity in its upper end and a fluid passage connecting the cavity with the fluid passage of the dip tube. The dip tube coupling defines a gas passage extending from an interior of the fluid container to the cavity. A rupturable membrane is positioned over a top end of the port to seal the cavity, so that when the rupturable membrane is punctured or removed, gas from the fluid container, which has accumulated in the cavity, is permitted to escape. To remove the liquid chemical, the cap is removed to expose the rupturable membrane. A probe is next inserted through the membrane to allow gas to escape, and into the cavity, whereby the probe, upon insertion into the cavity, causes the gas passage to be blocked. Liquid is dispensed from the fluid container through a fluid passage within the dip tube and through a flow passage within the probe.
摘要:
A container system for high purity fluids includes an outer container having a mouth and a coupling member for insertion into the mouth. The coupling member defines a first fluid passage and a second fluid passage. The first fluid passage terminates within the outer container at a first location while the second fluid passage terminates within the outer container at a second location. The second fluid passage comprises at least one fluid channel circumferentially extending along the first fluid passage so that high purity fluids may be drawn out of the outer container through the first fluid passage and filled into the outer container through the second fluid passage.
摘要:
The present invention is a system for handling high purity liquid and a method for the same. The system has a container with a mouth. A cap, including a first key element, is coupled with the mouth. A connector is coupled with the cap. The connector includes a connector head, a probe, and a second key element. The probe extends from the connector head and is insertable through a center of the cap and into the mouth of the container. The probe has a flow passage. The second key element is configured to mate with the first key element. The system also includes a pump coupled with the probe and with the flow passage. The pump pumps fluid through the probe and the flow passage. The system also includes a sensor for sensing when the first and second key elements are mated and for sensing when the first and second key elements are not mated. Finally, the system includes a controller coupled with the sensor and the pump. The controller enables the pump when the sensor senses that the first and second key elements are mated and disables the pump when the sensor senses that the first and second key elements are not mated.
摘要:
A container for storage, transport, and dispensing of liquid chemicals includes a fluid container having a port, a dip tube having a fluid passage from an upper end to a lower end of the dip tube, a dip tube coupling at the upper end of the dip tube for insertion into the port, and a rupturable membrane sealed over a top end of the port. The dip tube coupling has a cavity in its upper end and a fluid passage connecting the cavity with the fluid passage of the dip tube. The dip tube coupling defines a gas passage extending from an interior of the fluid container to the cavity. A rupturable membrane is positioned over a top end of the port to seal the cavity, so that when the rupturable membrane is punctured or removed, gas from the fluid container, which has accumulated in the cavity, is permitted to escape. To remove the liquid chemical, the cap is removed to expose the rupturable membrane. A probe is next inserted through the membrane to allow gas to escape, and into the cavity, whereby the probe, upon insertion into the cavity, causes the gas passage to be blocked. Liquid is dispensed from the fluid container through a fluid passage within the dip tube and through a flow passage within the probe.
摘要:
The present invention is a system for handling high purity liquid and a method for the same. The system has a container with a mouth. The container is configured to hold liquid. A cap is coupled with the mouth of the container. A connector is coupled with the cap. The connector has a connector head and a probe extending from the connector head. The probe is insertable through the cap and through the mouth into the container. The probe has a flow passage. The system also has a pressurization source that communicates with the container. Pressure delivered from the source acts upon the container forcing liquid out of the container through the flow passage in the probe. There is also a pressurization port communicating with the connector, the cap, and the pressurization source. Pressure from the pressurization source is delivered to the container when the cap and the connector are properly mated. Pressure from the pressurization source is not delivered to the container when the cap and the connector are not mated.
摘要:
A system for handling high purity liquid chemicals has an outer container with a mouth. A closure holding a key code ring is coupled to the mouth. The system also has a connector for coupling with the closure. The connector has a key pattern configured to mate with the key code ring in the closure. The connector is connected to a manufacturing process and coupled to the closure such that liquid chemicals can be dispensed from the container to the manufacturing process.
摘要:
A container system for high purity fluids includes an outer container having a mouth and a coupling member for insertion into the mouth. The coupling member defines a first fluid passage and a second fluid passage. The first fluid passage terminates within the outer container at a first location while the second fluid passage terminates within the outer container at a second location, The second fluid passage comprises at least one fluid channel circumferentially extending along the first fluid passage so that high purity fluids may be drawn out of the outer container through the first fluid passage and filled into the outer container through the second fluid passage.