Problems To provide an ejection container capable of falling a liquid in drops from the container body without relying on the sense of the fingertips and without affected by a change in the temperature. Means for Solution A knock-type ejection container 1 in which an ejection port 8 is provided at o
Problems To provide an ejection container capable of falling a liquid in drops from the container body without relying on the sense of the fingertips and without affected by a change in the temperature. Means for Solution A knock-type ejection container 1 in which an ejection port 8 is provided at one end of a container body 2, a knock button 4 is provided at the other end thereof, a container chamber 22 is provided in the container body 2 to contain a liquid, and the liquid contained in the container chamber 22 is ejected from the ejection port 8 being interlocked to the operation of the knock button 4.
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1. A knock ejection container with a knock mechanism in which an ejection nozzle is provided at a front end of a container body, a knock button is provided at a rear end of the container body, a container chamber is provided in the container body to contain a liquid dental bonding material, the cont
1. A knock ejection container with a knock mechanism in which an ejection nozzle is provided at a front end of a container body, a knock button is provided at a rear end of the container body, a container chamber is provided in the container body to contain a liquid dental bonding material, the container chamber provided with the knock mechanism being interlocked to a pushing operation of the knock button, and the liquid dental bonding material contained in the container chamber falls down in drops from the ejection nozzle due to the knock mechanism in response to the pushing operation of the knock button, and wherein the ejection nozzle includes a nozzle end portion on the front end, an ejection port at the front end thereof, a nozzle body on the rear end, and a stepped surface is formed at a boundary portion between the nozzle end portion and the nozzle body over the whole circumference of the nozzle end portion, the stepped surface having a diameter expanding from an outer circumferential surface of the nozzle end portion toward the outer side of the nozzle end portion in the radial direction, wherein an inner diameter D1 of the ejection portion is 0.9 mm to 1.9 mm, an outer diameter D2 of the ejection portion is 1.4 mm to 3.0 mm, a diameter D3 of the stepped surface is 2.2 mm to 4.6 mm, and a length H from the ejection portion of the nozzle end portion to the stepped surface is 1.7 mm to 3.3 mm, wherein if the amount of a drop discharged from the nozzle portion by pushing operation of the knock button is denoted by V, the inner diameter of the ejection port of the nozzle end portion D1, the outer diameter of the ejection port of the nozzle end portion by D2, the outer diameter of the stepped surface by D3, and the length from the ejection port of the nozzle end portion to the stepped surface by H, then the inner diameter D1 of the ejection port is set to be aV1/3 in which a is in a range from 0.5 to 0.7, the outer diameter D2 of the ejection port is set to be bV1/3 in which b is in a range from 0.8 to 1.1, the outer diameter D3 of the stepped surface is set to be cV1/3 in which c is in a range from 1.3 to 1.7, and the length H from the ejection port of the nozzle end portion to the stepped surface is set to be dV1/3 in which d is in a range from 1.0 to 1.2, in a manner that D1, D2, D3 and H are all satisfied. 2. The knock ejection container according to claim 1, wherein the container body has the container chamber and a double-wall structure, the container chamber surrounded by the double-wall structure, and the double-wall structure comprising an inner circumferential wall and an outer circumferential wall, and a heat-insulating portion is provided between the inner circumferential wall and the outer circumferential wall. 3. The knock ejection container according to claim 2, wherein the heat-insulating portion is the air filled in gap portions formed between the outer circumferential wall and the inner circumferential wall. 4. The knock ejection container according to claim 2, wherein the outer circumferential wall is detachably fitted to the inner circumferential wall. 5. The knock ejection container according to claim 2, wherein at least part of the inner circumferential wall is formed of a transparent material enabling the amount of the dental bonding material contained therein to be recognized from the outer side of the outer circumferential wall, at least part of the outer circumferential wall is formed of a transparent material enabling the transparent portion of the inner circumferential wall to be recognized from the outer side of the outer circumferential wall, or a slit is perforated therein. 6. The knock ejection container according to claim 1, wherein a drop of liquid is fallen down from the ejection nozzle by the operation of pushing the knock button two or more times. 7. The knock ejection container according to claim 1, wherein the liquid dental bonding material is a dental bonding material. 8. The knock ejection container according to claim 1, wherein the knock mechanism is provided with a piston facing the container chamber and the piston moves forward by a predetermined amount upon each push of the knock button.
Ser Jean-Claude H. (Beynes FRX) Marcotte Louis L. (Chevilly la Rue FRX), Liquid product dispenser, in particular for a cosmetic product such as nail varnish.
Horstman Richard L. ; Oder Reuben E. ; Prosise Robert L. ; Pieper Kathleen A. ; Smith Genevieve R. ; Dirksing Robert S. ; Baggott Susan B., Simplified undirectional twist-up dispensing device with incremental dosing.
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