A dip tube for a fluid pump which dip tube includes at least one frangible portion which, when intact, provides different characteristics to the dip tube than when broken, including, for example, providing for shortening of the length of the dip tube and/or providing for an inlet opening at a closed a lower end of the dip tube. The dip tube is to be inserted into a fluid containing bottle such that on insertion a distal end of the dip tube comes into engagement with a bottom wall of the reservoir with forces arising in such engagement resulting in a breaking of the frangible portion causing a change of characteristics of the dip tube.

A discharge pump (2) includes a stationary suction part (A) which includes a cylinder (A1) having a first check valve (V1) at a lower part thereof, and a mounting member (A3) to be mounted on a neck part of a container body, and an actuating member (B) which includes a discharge head (B4), a stem (B2), a piston guide (B1), and an annular piston (B3), a second check valve (V2) being formed between a lower end part of the annular piston and a lower part of the piston guide, and in a fitting part between the stem and the piston guide, an engaging unit (E) which is configured to restrict the stem and the piston guide from idling each other when screwing of the actuating member to the stationary suction part is released and the actuating member is raised from the stationary suction part is provided.

An e-liquid bottle includes a main body for receiving e-liquid therein, and an e-liquid injecting member mounted on a bottleneck of the main body. The e-liquid injecting member includes a sleeve, a chamber formed inside the sleeve for storing e-liquid therein, a single valve connected between the bottleneck and an e-liquid suction portion of the chamber for controlling the e-liquid flow to the chamber, a piston installed in an e-liquid feeding portion of the chamber, an e-liquid guiding pipe formed on the piston and extending into the sleeve, a base mounted on the sleeve to engage with the e-liquid pipe and driven by the piston move back and forth along the chamber to control the pressure in the chamber, an e-liquid feeding tube connected to an e-liquid outlet of the e-liquid guiding pipe. An interval is formed between the piston and the base so that the piston can move along the interval towards the chamber to separate the e-liquid guiding pipe from the base and connect an e-liquid inlet of the e-liquid guiding pipe with the chamber.

An anti-loosening emulsion pump comprises a press head, a toothed sleeve, a cylinder and a piston rod, wherein the press head and the toothed sleeve are respectively provided with standing tooth pieces and standing tooth blocks interacting with each other. When the press head is rotated in a locking direction, the standing tooth pieces can move beyond the standing tooth blocks, and when the press head is rotated in an opening direction, the standing tooth pieces and the standing tooth blocks interact with each other, the rotation of the press head can be prevented. The press head of the anti-loosening emulsion pump further includes a press mouth which is movable relatively. The anti-loosening emulsion pump of the present invention can prevent the press head from being open due to such reasons as impact and the like, and can prevent the toothed sleeve from loosening from the opening of the container.

Locking features of a pump system may include projections and corresponding features on a piston stem and lock cylinder of a pump system such that the features are configured to require an increased amount of force to rotate and unlock the piston stem from the lock cylinder.

A dispensing system includes a container containing a flowable base formulation to be dispensed, an additive mixing device, and an actuable pump engine which draws the flowable base formulation from the container and pumps it through the mixing device. The additive mixing device includes a body with an internal cavity, an additive ingredient within the cavity, and a flow path/mixing chamber between an input and an output. With each pump of the device the additive ingredient is introduced into, and mixed with, a flow of the base formulation traveling through the mixing device. Multiple additive mixing devices may be interchangeable for different formulations, and the mixing devices may be refillable.

A pumping-type cosmetic container having a metal applicator, in which it is possible that an applicator made of a metal material is coupled to a front part of a button member, such that the contents can be applied through the applicator immediately after contents are discharged through a pumping operation. The warmth or cold can be delivered to the skin during the application of the contents to the skin through the applicator made of the metal material, thereby enabling facial skin metabolism to be promoted and skin elasticity to improve.

A seal to prevent fluid transfer using double diameters to provide a tighter seal is disclosed. The double diameter seal has a body with a first diameter containing an upper contact area and a second diameter forming a lower contact point. A notch extends into the body between the upper contact area and the lower contact point for a predetermined distance to form a transition point. In use, the first diameter is dimensioned to place a portion of the length of the upper contact area in sliding engagement adjacent to a length of the first surface. The second diameter dimensioned to place the lower contact point contacting an angled second surface of a valve.

An all plastic compression spring assembly includes a slotted tubular spring element formed from a tensile polymer material and first and second loading cones received at opposing first and second ends of the slotted tubular spring element. The loading cones are axially compressible toward each other within the slotted tubular spring element whereby the slotted tubular spring element radially expands in tension to create an opposing radial contraction force, and in turn, an axial extension spring force. When released, the spring element elastically returns to its normal at rest shape, returning the cones to their normal at rest positions.

There is provided a cosmetic vessel. The cosmetic vessel includes an airless pump configured to discharge cosmetics accommodated therein by using a piston that rises in a cylinder, a discharge plate provided at one side of the airless pump and having at least one discharge hole, and a guide unit provided between the airless pump and the discharge plate. A lower end of the guide unit is combined with the piston and rises or falls in a state of being integrated with the piston.