JP2011111223A - Liquid discharge container - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid discharge container showing a superior liquid discharging property, enabling a user to perform a positive opening or closing of a check valve and an efficient storing of content to be stored, additionally having a simple structure and also enabling its manufacturing to be easily carried out. <P>SOLUTION: There are provided a container body A having a nozzle 11 integrally protruded from a compressible barrel portion 10 and a valve member B fitted and fixed within the nozzle 11, wherein the container body A is constituted by an outer layer (o) having a shape holding characteristic enabling itself to stand up and having a through-pass hole for use in feeding surrounding air and a flexible inner layer (i) laminated on the inner surface of the outer layer (o) in such a way that it can be peeled off, the inner layer (i) is peeled off from the outer layer (o) due to a negative pressure of stored liquid under its reduction, the valve member B is formed by soft and well-resilient material quality and formed from a fitting cylinder 30 fitted and fixed within the nozzle 11, and a cylindrical valve portion 31 forming a cylindrical shape that is integrally extended into the fitting cylinder 30 and formed at a seal portion 33 having its front end press-contacted in a flat shape and closed by a pair of press contact pieces 32. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a liquid dispensing container.

  Various liquid pouring containers have been proposed that are configured to pour out the stored liquid by squeezing the trunk. (For example, see Patent Document 1)

  The dispensing container of Patent Document 1 is an operation outer box that is compressible and has a shape restoring property, and a flexible inner that is housed in the operation outer box and allows the outlet end to be opened to the outside. Equipped with a container body and a sealed air chamber formed between the operation outer box and the inner container, the valve plate that closes the through-hole portion drilled in the operation outer box and connects one end to the operation outer box can be swung And a check valve capable of unidirectional circulation from the outside into the air chamber is formed. Further, a check valve capable of unidirectionally flowing from the inside to the outside is formed by providing a swingable valve plate that closes the spout of the inner container body and connects one end to the spout.

Japanese Patent Laid-Open No. 03-133748

  In the dispensing container of the above-mentioned Patent Document 1, since the volume in the inner container body always changes only in the direction of decreasing, air does not flow in from the outlet end. In addition, there is no foaming in the discharged contents, or the contents are not scattered by the release of air, and the inner container body discharges the contents without difficulty until the end. In addition, since the outer casing can be restored to its original state after the squeezing operation, it is excellent in that it can maintain its external shape and has a good appearance.

  However, since the check valve for contents provided at the spout is connected to one end of the spout and is provided with a valve plate that can be swung, liquid drainage is poor, and the hinge portion of the valve plate Depending on the strength, there is a risk that the valve will open just by inverting the container. Furthermore, when the stored liquid has a relatively high viscosity, the opened valve plate may not close, and in such a case, the contents easily come into contact with the outside air. In addition, since the inner container body is suspended in the operation outer box and a sealed air chamber exists outside the inner container body, there is a disadvantage that the amount of contents is limited compared to the size of the entire container.

  The present invention has been made in view of the above-described points, and proposes a liquid dispensing container that is capable of liquid breakage, that can reliably open and close the check valve, and that can efficiently store the contents. We also propose a liquid dispensing container that is simple in structure and easy to manufacture. Further, the contents can be discharged immediately by the compression operation of the container, and the contents are not foamed or scattered by the release of air. The contents can be discharged without difficulty, and the container can be restored to its original state after the squeezing operation. We propose a liquid dispensing container that can be used.

  The first means is configured as follows. That is, the container body A includes a container body A in which a nozzle 11 is integrally projected from a squeezable body portion 10 and a valve member B that is fitted and fixed in the nozzle 11. The outer layer o is provided with a through hole 15 for introducing outside air, and the flexible inner layer i is detachably laminated on the inner surface of the outer layer o. i is configured to peel off, the valve member B is formed of a flexible and elastic material, and a fitting cylinder part 30 fitted into the nozzle 11 and a cylinder integrally extended into the fitting cylinder part 30 And a cylindrical valve portion 31 formed at a seal portion 33 whose tip is pressed and closed in a flat shape by a pair of press contact pieces 32.

  The second means is configured as follows. That is, in the first means, the periphery of the blocking wall 12 that closes the tip of the nozzle 11 is configured to be cut through an easily cuttable breaking line 13, and the knob 14 is attached to the blocking wall 12. Projected.

  The third means was configured as follows. That is, in either the first means or the second means, the outside air introduction through-hole 15 is formed at a body portion position that can be closed with a finger when the body portion 10 is compressed.

  The fourth means is configured as follows. That is, a container body A in which a nozzle 11 is integrally projected from a squeezable flexible body 10 and a valve member B fitted and fixed in the nozzle 11 are provided. The valve member B is flexible and elastic. Made of a material rich in material, and has a fitting cylinder part 30 fitted in the nozzle 11 and a cylindrical shape integrally extending into the fitting cylinder part 30, and the tip is flattened by a pair of pressure contact piece parts 32 It consists of a cylindrical valve portion 31 formed in the closed seal portion 33.

  The fifth means is configured as follows. That is, in any one of the first to fourth means, the flexible and elastic material constituting the valve member B is an elastomer.

  According to the present invention, the fitting cylinder part 30 fitted into the nozzle 11 and the cylindrical shape integrally extending into the fitting cylinder part 30 are formed, and the tip is pressed flat by the pair of pressing pieces 32. Since the valve member B including the cylindrical valve portion 31 formed on the sealed seal portion 33 is provided, the fluid pressure of the contained liquid is increased by squeezing the body portion 10, and the sealing is performed by the fluid pressure. The part 33 can be easily opened and liquid can be poured out. On the other hand, in the valve member B formed of a flexible and elastic material, since the seal portion 33 is quickly closed when the squeezing of the body portion 10 is released, the intrusion of outside air into the inside can be surely prevented. In addition, the fitting tube part 30 formed of a flexible and elastic material can be easily fitted even if its outer diameter is slightly larger than the inner diameter of the nozzle 11, and once fitted. There is also an advantage that the cylindrical portion 30 is not likely to come off.

  Further, the container body A is configured by an outer layer o having a shape retaining property capable of standing up and having a through hole 15 for introducing outside air, and a flexible inner layer that is peelably laminated on the inner surface of the outer layer o. In this case, the contained liquid can be efficiently contained as much as possible as compared with the outer diameter of the container, and the container body A peels off the inner layer i from the outer layer o due to the negative pressure due to the decrease of the contained liquid. It is easy to peel off due to the decrease in the stored liquid, and the stored liquid space in the inner layer i can be reduced.

  When the through-hole 15 for introducing the outside air is drilled at a barrel position that can be closed with a finger when the trunk portion 10 is squeezed, air existing between the inner layer i and the outer layer o when the trunk portion 10 is squeezed The inner layer i can be more reliably squeezed without leaking to the outside, and when the squeezing is released, it is only necessary to withdraw the finger, and the operation is very simple.

  A container body A in which a nozzle 11 is integrally projected from a squeezable flexible body 10 and a valve member B fitted and fixed in the nozzle 11 are provided. The valve member B is flexible and rich in elasticity. The fitting cylinder part 30 formed of a material and fitted into the nozzle 11 and the cylindrical part integrally extending into the fitting cylinder part 30 are formed, and the tip is closed in a flat shape by a pair of press contact pieces 32. In the case of the cylindrical valve portion 31 formed on the seal portion 33, after the contents are poured out, the container is laid down or used in a standing position. The liquid can be surely prevented from leaking, and since the structure is simple, there is an advantage that it can be manufactured at low cost.

  When the flexible and elastic material constituting the valve member B is an elastomer, the moldability is good, sufficient elasticity can be obtained, and the valve member B can be easily fitted and fixed to the nozzle 11. There is an advantage that there is no possibility of coming off after wearing.

It is a partially cutaway side view of a liquid extraction container. Example 1 It is a principal part enlarged side view of a liquid extraction container. Example 1 It is a front view of a nozzle part. Example 1 It is a longitudinal cross-sectional view which follows the XX line of FIG. Example 1 It is explanatory drawing at the time of shape | molding a liquid extraction container. Example 1 It is explanatory drawing at the time of shape | molding a liquid extraction container. Example 1 It is explanatory drawing at the time of using a liquid extraction container. Example 1 It is a principal part enlarged side view of a liquid extraction container. (Example 2)

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  1 to 7 show an example of the liquid dispensing container 1. The liquid dispensing container 1 includes a container body A and a valve member B.

  The container body A has a nozzle 11 standing upright on a cylindrical body 10. The nozzle 11 has a bowl-shaped cylindrical shape that extends upward from the center of the top portion of the body portion 10 and then extends obliquely upward. The tip portion is closed by a blocking wall 12, and a thin wall is formed around the blocking wall 12. The broken line 13 is provided. A knob 14 is integrally projected from the center of the blocking wall 12.

  Moreover, the container body A is comprised from the outer layer o and the inner layer i laminated | stacked on the outer layer o inner surface so that peeling was possible. The outer layer o is formed of a synthetic resin or the like, has elasticity that can be squeezed, and has shape retention that can stand up. The inner layer i is formed of a synthetic resin or the like, and can be easily peeled off from the outer layer o when the contents are poured out. In the gap between the peeled inner layer i and the outer layer, the outer layer i is inserted into the outer layer o. It is configured such that outside air is introduced from the through-holes 15. Although the drilling position of the through-hole 15 for introducing the outside air can satisfy the requirements at any position of the outer layer o, by providing it at a position where it can be closed and compressed with a finger when the trunk section 10 is squeezed, There is an advantage that compression can be performed more efficiently.

  The valve member B is formed of a flexible and elastic material such as an elastomer, and particularly a polyester-based elastomer can be preferably used. The valve member B includes a fitting cylinder part 30 and a cylindrical valve part 31. The fitting cylinder part 30 is provided between a locking step 16 provided around a predetermined position in the nozzle 11 and a locking ridge 17 protruding at a position spaced apart from the locking step 16 by a predetermined distance. It has a cylindrical shape that is fitted and fixed. The tubular valve part 31 is formed integrally with the fitting cylinder part 30, and has a cylindrical shape extending from the inner periphery of the rear part of the fitting cylinder part 30 into the fitting cylinder part 30, and the tip. Is formed in a seal portion 33 that is pressed and closed in a flat shape by a pair of press contact pieces 32. Then, each pressure contact piece portion 32 is elastically deformed by the hydraulic pressure, and the seal portion 33 is opened, thereby acting as a check valve unilaterally communicating from the inside to the outside.

  The method for forming the liquid dispensing container 1 as described above will be described. For example, as shown in FIG. 5, the original shape A1 of the container body A is formed by blow molding. In the original form A1 in this case, the nozzle 11 is integrally extended at the upper end of the body portion 10, and the tip of the nozzle 11 is closed by the temporary lid 20. Further, a filling cylinder part 22 is extended from the bottom part via a truncated cone-shaped bottom part forming wall 21, and a thin-walled fracture part 23 is provided around the filling cylinder part 22.

  Then, the tip of the temporary lid 20 is cut and removed from the original shape A1 from the state of FIG. 6A as shown in FIG. 6B, and the valve member B is inserted from the opening. The valve member B can be mounted by fitting the fitting tube portion 30 between the protrusion 17 and the locking step portion 16. Further, from this state, the knob 14 is formed by fusing and fixing the temporary lid 20 portion. Since the valve member B fitted in the nozzle 11 is formed of a flexible and elastic material such as an elastomer, for example, the outer diameter of the fitting tube portion 30 is formed slightly larger than the inner diameter of the nozzle 11. And can be firmly fitted without being disengaged within the operating range of use once it is fitted.

  Next, the bottom wall forming wall 21 is turned upside down, and the contents are injected from the filling cylinder portion 22, and then the upper position of the thin broken portion 23 is fused and sealed, and the thin broken portion 23 is cut and filled below The cylindrical portion 22 is removed and the contents are filled. The filling cylinder portion 22 above the thin broken portion 23 is accommodated in a space formed by reversing the bottom wall forming wall 21. In addition, the formation method and filling method of the liquid extraction container 1 are only examples, and are not limited to this.

  When the liquid dispensing container 1 as described above is used, for example, by grasping the knob 14 from the state of FIG. 1 and breaking the breaking line 13, the spout 18 opens as shown in FIG. By squeezing the part 10, the seal part 33 is opened by the hydraulic pressure, and the stored liquid is poured out. When the squeezing of the body portion 10 is stopped, the outer layer o returns to its original state due to the elastic restoring force, while the inner layer i is closed at the same time or earlier than the elastic restoration of the outer layer o, and the sealing portion 33 is elastically restored and closed. A negative pressure is generated between i and the outer layer o, and outside air is introduced from the through hole 15 for introducing outside air. When the liquid is again poured out, the air between the inner layer i and the outer layer o is permeable to the air for introducing the outside air if the body part 10 is squeezed with the through holes 15 for introducing the outside air held by fingers. Since it does not escape to the outside through the hole 15, the inner layer i can be pressed more efficiently.

  FIG. 8 shows another example, in which the container body A is not an inner / outer layer double structure but an example of a single structure formed of a synthetic resin, and includes a squeezable flexible body 10. Other configurations are the same as those in the example of FIG. In this case, since the container body A has a single structure, when the barrel portion 10 is squeezed and liquid is poured out, the flexible barrel portion 10 maintains a reduced volume without returning to its original state. To do. For this reason, the container must be laid down or stood.

1 ... Liquid pouring container A ... Container body
10 ... trunk, 11 ... nozzle, 12 ... obstruction wall, 13 ... break line, 14 ... knob
15 ... through hole for introducing outside air, 16 ... locking step, 17 ... locking ridge, 18 ... outlet,
i ... inner layer, o ... outer layer
A1 ... Original
20 ... Temporary lid, 21 ... Bottom forming wall, 22 ... Filling cylinder part, 23 ... Thin-walled fracture part B ... Valve member
30 ... Fitting cylinder part, 31 ... Cylinder valve part, 32 ... Pressure contact piece part, 33 ... Seal part

Claims (5)

  A container body A having a nozzle 11 integrally projecting from a squeezable body 10 and a valve member B fitted and fixed in the nozzle 11; the container body A has a shape-retaining property capable of standing; Consists of an outer layer o having a through-hole 15 for introducing outside air and a flexible inner layer that is detachably laminated on the inner surface of the outer layer o, and the inner layer i is peeled from the outer layer o due to a negative pressure due to a decrease in the stored liquid. The valve member B is formed of a flexible and elastic material, and has a fitting cylinder part 30 fitted in the nozzle 11 and a cylindrical shape integrally extending into the fitting cylinder part 30. A liquid dispensing container comprising a cylindrical valve portion 31 formed at a seal portion 33 whose tip is pressed and closed in a flat shape by a pair of pressure contact piece portions 32.   2. The liquid pouring according to claim 1, wherein the periphery of the blocking wall 12 closing the tip of the nozzle 11 is configured to be cut through an easily cuttable break line 13, and a knob 14 is provided on the blocking wall 12. container.   The liquid dispensing container according to any one of claims 1 and 2, wherein a through hole 15 for introducing outside air is formed in a body portion position that can be closed with a finger when the body portion 10 is squeezed.   A container body A in which a nozzle 11 is integrally projected from a squeezable flexible body 10 and a valve member B fitted and fixed in the nozzle 11 are provided. The valve member B is flexible and rich in elasticity. The fitting cylinder part 30 formed of a material and fitted into the nozzle 11 and the cylindrical part integrally extending into the fitting cylinder part 30 are formed, and the tip is closed in a flat shape by a pair of press contact pieces 32. A liquid dispensing container comprising a cylindrical valve portion 31 formed on a seal portion 33. The liquid pouring container according to any one of claims 1 to 4, wherein the flexible and elastic material constituting the valve member B is an elastomer.