KR20070028298A - Sliding piston opening means - Google Patents

Abstract

A sliding piston opening means enclosed within an elongated container to release the fluid sealed within the elongated container by squeezing the elongated container at or near the sliding piston. After the sliding piston opening means is opened, the fluid sealed within the elongated container is released for application. Before the content of the container is depleted, the sliding piston opening means is used to re-close the opening thereby re-sealing the fluid remaining within the container. ® KIPO & WIPO 2007

Description

Opening means with sliding pistons {SLIDING PISTON OPENING MEANS}

The present invention relates to opening means used for discharging a hermetically sealed fluid in a container of elongated structure.

There are various kinds of opening means for opening the container. Most openings are in the form of screw-on or snap-on closures. Some opening means may be formed in the container in the form of a frangible seal or in the form of a score line, in which case breaking the brittle seal or score line causes the contents of the container to be discharged. The opening means may be attached to the outside of the container like the screw closure or the snap closure, or may be formed as part of the container, such as in the form of a brittle seal or score line. The opening means are not designed to be configured in a container for sealing the fluid and are not suitable for easily and reliably discharging the fluid and closing the opening to reclose the fluid. In particular, in the case of a container having a long shape with a small cross-sectional area, it is easy to lack the ease and efficiency of the opening means.

The present invention provides a sliding piston opening means for discharging a closed fluid in a container having an elongated structure. The sliding piston opening means of the present invention acts by pressing the sliding piston or a nearby extension structure container. When the sliding piston opening means is opened, the flow material enclosed in the container is discharged for use. Until the contents of the container are used up, the opening can be closed again by means of sliding piston opening means. In other words, by using the sliding piston opening means, it is possible to reclose the flow material remaining in the container. When the sliding piston opening means is used as a tool for collecting sample material, it is opened to collect sample material and closed to seal the collected sample material.

1 is a cross-sectional view of the sliding piston opening means according to an embodiment of the present invention in a closed position.

Figure 2 is a cross-sectional view of the sliding piston opening means according to an embodiment of the present invention in the open position.

3 is an enlarged view of the sliding piston opening means in the closed position.

4 is a detailed sectional view of the sliding piston opening means in the open position;

Figure 5 is an enlarged view showing the sliding piston opening means according to another embodiment of the present invention in the closed position.

6 is a sectional view showing a sliding piston opening means according to another embodiment of the present invention in a closed position.

7 is a cross-sectional view of the sliding piston opening means of FIG. 6 in an open position.

8 is an enlarged view of the sliding piston opening means of FIG. 6 in a closed position.

9 is an enlarged end view showing the sliding piston opening means in the closed position shown in FIGS. 6 and 8;

10 is an enlarged view of the sliding piston opening means in the open position shown in FIG.

11 is an enlarged end view of the sliding piston opening means in the open position shown in FIGS. 7 and 10.

12 is a cross-sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

FIG. 13 is a sectional view of the sliding piston opening means of FIG. 12 in an open position; FIG.

14 is a cross-sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

15 is a cross-sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

16 is an enlarged view of the sliding piston opening means shown in FIGS. 14 and 15.

17 is an enlarged cross sectional view showing a sliding piston opening means according to another embodiment of the present invention in a closed position;

18 is an enlarged cross sectional view showing a sliding piston opening means according to another embodiment of the present invention in a closed position;

19 is a sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

20 is a cross-sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

21 is a sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

22 is a cross-sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

Figure 23 is a sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

24 is a cross-sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

25 is a cross-sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

Figure 26 is a sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

Figure 27 is a sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

28 is a sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

29 is a sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

30 is a cross-sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

Figure 31 is a sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

32 is a cross sectional view of a sliding piston opening means in accordance with another embodiment of the present invention in a closed position;

33 is a sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

34 is a sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

35 is a sectional view of the sliding piston opening means according to another embodiment of the present invention in a closed position.

36 is a sectional view of the sliding piston opening means of FIG. 35 in an open position;

1 and 2 show sliding piston opening means according to an embodiment of the invention. In this embodiment, the sliding piston opening means comprises: a tube (1) having an opening (2) such as a slit passage; And an elliptical piston 3 provided in the longitudinal direction of the opening 2 and having a sealing diameter 4 formed between the two ends to correspond to the inner diameter of the tube 1. An o-ring may be arranged at the sealing diameter 4 to seal the flow material therein. The sliding piston opening means is attached inside the elongated tubular housing 5 having a closed end 6 and an open end 7. The tubular housing 5 is compressible and the inner diameter of the tubular housing 5 is approximately equal to the outer diameter of the sliding piston opening means. Flowing material 8 is provided near the closed end 6 inside the tubular housing 5. The sliding piston opening means separates the flow material 8 from the open end 7 of the tubular housing 5 and seals the fluid material 8 in the tubular housing 5. The sliding piston opening means acts by compressing the sliding piston 3 or the adjacent tubular housing 5.

In the closed position, as shown in FIGS. 3 and 5, the sliding piston 3 is located towards the end of the tube 1 without the opening 2. By pressing with a fingertip the tubular housing 5 at the end of the sliding piston 3 near the end of the tube 1 without the opening 2, the sliding piston 3 of the tube 1 with the opening 2 is provided. Will be moved towards the end. As shown in FIG. 4, when the sealing periphery 4 of the sliding piston 3 passes through the opening 2, the flowing material 8 in the tubular housing 5 is discharged through the sliding piston opening means. When pressure is applied to the flow material 8 therein by pressing the tubular housing 5 with a fingertip, the flow material 8 is discharged out of the tubular housing 5. When pressure is applied to the opposite end of the sliding piston 3, the sliding piston 3 returns to the closed position.

The surface tension removing member may be used if the tubular housing 5 has a small cross-sectional area and the internal fluid substance 8 is not easily discharged due to its surface tension even when the sliding piston opening means is opened. The surface tension removing member improves the capillary phenomenon and solves the problem of surface tension so that the fluid substance 8 can be easily discharged without crimping the tubular housing 5. The surface tension removing member has a long structure inserted into the tubular housing 5, and can be attached to the sealed end 6 of the tubular housing 5.

6, 7, 8, 9, 10, 11 show another embodiment of the sliding piston opening means. Here, the sliding piston 9 is formed of an elastic material such as rubber. The sliding piston 9 has an elliptical structure with a through opening 10. That is, the flow material 11 moves from one end of the sliding piston 9 to the other along the through-hole opening 10. As shown in FIG. 6, the sliding piston 9 is inserted into the restriction opening 12 in the tubular housing 13 of an elongate structure made of a compressible material. As shown in FIG. 9, the limiting opening 12 compresses the sliding piston 9 to have a circular side, thereby closing the opening 10 through the sliding piston 9. Thus, the fluid substance 11 is sealed in the tubular housing 13 between the sliding piston opening means and the sealed end 14 of the tubular housing. When pressure is applied to either end of the sliding piston 9, as shown in FIG. 7, the sliding piston 9 is moved out of the limiting opening 12. When the sliding piston 9 comes out of the limiting opening 12, the sliding piston 9 is expanded to its original elliptical structure, and as shown in FIGS. 10 and 11, the opening 10 is expanded. As a result, the flow of the flowing material 11 in the tubular housing 13 occurs. The expanded sliding piston 9 of the elliptical structure is fitted in the tubular housing 13 by interfering with each other between its elliptical side and the circular side of the tubular housing.

12 and 13 illustrate a sliding piston opening means according to another embodiment of the present invention. In this embodiment, the sliding piston opening means comprises: a tube (1) having an opening (2) such as a slit passage; It is provided in the longitudinal direction of the opening 2 and consists of an elliptical piston 15 having a sealing diameter 16 formed between the two ends corresponding to the inner diameter of the tube 1. In addition, the application tip 17 of the swab or foam material is provided at one end of the sliding piston 15. An o-ring may be disposed at the sealing diameter 16 to seal the flow material therein. The sliding piston opening means is attached inside the elongated tubular housing 19 having a closed end 20 and an open end 18. The tubular housing 19 is compressible and the inner diameter of the tubular housing 19 is approximately equal to the outer diameter of the sliding piston opening means. Flowing material 8 is provided near the closed end 20 inside the tubular housing 19. The sliding piston opening means separates the flow material 8 from the open end 18 of the tubular housing 19 and seals the fluid material 8 in the tubular housing 19. The sliding piston opening means acts by compressing the tubular housing 5 near the sliding piston 3.

In the closed position, an elliptical piston 15 having an application tip 17 is located in the open end 18 of the tubular housing 1. However, when pressure is applied to the end of the elliptical piston 15 near the end of the tube 1 without the opening 2 or to the peripheral tubular housing 19 thereof, the sliding piston 15 opens the tubular housing 19. Proceed toward end 18. Then, the application tip 17 protrudes from the tubular housing 19, and the fluid substance 8 in the tubular housing 19 is discharged to the application tip 17 through the sliding piston opening means. By compressing the tubular housing 19, when a pressure is applied to the flow material 8 therein, the flow material 8 comes out of the tubular housing 19.

14, 15 and 16 illustrate a sliding piston opening means according to another embodiment of the present invention. In this embodiment, the sliding piston opening means has a short first tube 21 and a short second tube 22. The second pipe 22 has an opening 23, such as a slit passage. In addition, an elliptical piston 3 is provided between the first and second tubes 21, 22, which has a sealing diameter 4 corresponding to the inner diameter of the first and second tubes. An o-ring may be arranged at the sealing diameter 4 to seal the flow material therein. The sliding piston opening means is provided inside an elongated tubular housing 24 having a closed end 25 and an open end 26. The tubular housing 24 is compressible and the inner diameter of the tubular housing 24 is approximately equal to the outer diameter of the sliding piston opening means. Flowing material 8 is provided near the sealed end 25 inside the tubular housing 24. The sliding piston opening means separates the flow material 8 from the open end 26 of the tubular housing 24 and seals the fluid material 8 in the tubular housing 24. The sliding piston opening means acts by compressing the tubular housing 24 near the sliding piston opening means.

In the closed position, as shown in FIGS. 14 and 15, the elliptical piston 3 is located in a position with a sealing diameter 4 inside the first tube 21. When a finger is applied to the first tube 21 or the adjacent tubular housing 24, the sliding piston 3 moves toward the second tube 22 having the opening 23. When the sealing periphery 4 of the sliding piston 3 passes through the end of the first tube 21, the fluid substance 8 of the tubular housing 24 is discharged through the sliding piston opening means. As soon as the sealing diameter 4 of the elliptical piston 3 passes through the end of the first tube 21, the elliptical piston 3 is immediately caught by the second tube 22. In addition, when the distance between the first and second tubes 21 and 22 is greater than the length of the elliptical piston 3, the elliptical piston 3 may be maintained in the space between the first and second tubes 21 and 22. have. The surface tension removing member may be used when the tubular housing 24 has a small cross-sectional area and the inner flow material 8 is not easily discharged due to its surface tension even when the sliding piston opening means is opened. The surface tension removing member improves the capillary phenomenon and solves the problem of surface tension to easily discharge the flow material 8 without compressing the tubular housing 24. The surface tension removing member has a long structure inserted into the tubular housing 24, and may be attached to the sealed end 25 of the tubular housing 24.

17 and 18 show a sliding piston opening means according to another embodiment of the present invention. In the embodiment of the present invention, the sliding piston opening means consists of a tube 1 having a slit through opening 2 and a piston 27 having two ends of an elliptical structure shown in FIG. The piston 27 has a sealing diameter 28 between the two ends corresponding to the inner diameter of the tube 1, and is arranged away from the end with the opening 2. As explained in the previous embodiment, the sliding piston opening means is attached inside the elongated tubular housing having a closed end and an open end. The tubular housing is compressible and the inner diameter of the tubular housing is approximately similar to the outer diameter of the sliding piston opening means. Flowing material is provided near the closed end inside the tubular housing. The sliding piston opening means separates the flow material 8 from the open end of the tubular housing, sealing the flow material in the tubular housing. The sliding piston opening means acts by compressing the sliding piston or a nearby tubular housing.

In the closed position, the sealing diameters 28, 30 of the pistons 27, 29 are located near the end of the tube 1 without the opening 2. By pressing the sliding piston opening means or the near tubular housing with a fingertip, the pistons 27, 29 are moved towards the end of the pipe section 1 having the opening 2. When the sealing periphery 28, 30 of the pistons 27, 28 passes through the opening 2, the flow material in the tubular housing is discharged through the sliding piston opening means.

If the tubular housing has a small cross-sectional area, and the sliding piston opening means opens, but the internal fluid is not easily discharged due to its surface tension, a surface tension removing member may be used. The surface tension removing member improves the capillary phenomenon, and solves the problem of surface tension to easily discharge the fluid without pressing the tubular housing. The surface tension removing member has a long structure inserted into the tubular housing, and may be attached to the sealed end of the tubular housing.

Figure 19 illustrates a sliding piston opening means according to another embodiment of the present invention. In this embodiment, the sliding piston opening means shown in FIG. 18 is attached in a tubular housing 31 having two open ends. Here, the flowing material is sealed in the tubular housing 31 between the sliding opening means and the cohesive material such as silicone. When the sliding piston is opened, fluid flows out through the end of the tubular housing 31 which is directed downward by gravity. In addition, an application tip 33 such as a swab, sponge or brush may be attached to the desired open end of the tubular housing 31.

20 shows a sliding piston opening means according to another embodiment of the present invention. In this embodiment, the sliding opening shown in FIG. 18 is attached near each end of the tubular housing 31 having two open ends. The flowing material 8 is sealed in the tubular housing 31 between the two sliding opening means. When both sliding opening means are opened, the flowing material is discharged through the end of the tubular housing 31 which is directed downward by gravity. In addition, an application tip 33 such as a swab, sponge or brush may be attached to the desired open end of the tubular housing 31.

Figure 21 shows a sliding opening means according to another embodiment of the present invention. The sliding opening means has a tubular housing 34 having a closed end 35 and an open end 36 and a restricting opening 37 between the two ends 35, 36 of the tubular housing 34. . The sliding piston 38 is located in the restriction opening 37 for closing the flow material 8 in the tubular housing 34. As the sliding piston 38 or the adjacent tubular housing 34 is pressed, the sliding piston 38 moves out of the restricting opening 37, as a result of which the flow material 8 opens at the open end of the tubular housing 34. Flows to (36). An application tip 39, such as a swab, sponge, or brush, may be attached to the desired open end 36 of the tubular housing 34. FIG. 22 shows another form of the sliding piston opening means shown in FIG. 21. Here, the sliding piston 40 has an extension, the sealing diameter 41 is formed at one end of the extension, the elliptical end is formed at the other end. The sealing diameter 41 is located in the restriction opening 37 for sealing the flow material 8 in the tubular housing 34. The elliptical distal end allows the sliding piston 40 to move out of the restricting opening 37.

Figure 23 illustrates a sliding piston opening means according to another embodiment of the present invention. In this embodiment, the sliding piston opening means is located in a compressible tubular housing 42 having an open end 43 and a closed end 44. Openings 45 of the V-shaped slits or holes are formed near the open end 43 of the tubular housing 42. A sliding piston 3 is located near the open end 43 of the tubular housing between the opening 45 and the flow material 8 near the open end 43 of the tubular housing 42. The sliding piston 3 has a sealing diameter 4 corresponding to the inner diameter of the tubular housing 42. Under pressure, the sliding piston 3 moves toward the open end 43 of the tubular housing 42 and passes through an opening 45 near the open end 43 of the tubular housing 42. Flowing material 8 in the housing 42 is discharged. The open end 43 and the opening 45 near it are covered by an application tip 46 such as a swab or foam material. Fluid 8 is discharged from tubular housing 42 to application tip 46.

The surface tension removing member 47 may be used when the tubular housing 42 has a small cross-sectional area and the inner flow material 8 is not easily discharged due to its surface tension even when the sliding piston opening means is opened. The surface tension removing member 47 improves the capillary phenomenon and solves the problem of surface tension so that the fluid substance 8 can be easily discharged without crimping the tubular housing 42. The surface tension removing member has a long structure inserted into the tubular housing 42 and may be attached to the sealed end 44 of the tubular housing 42.

24 is another form of the sliding piston opening means of FIG. In this embodiment, the structure in which the application tip 46 is removed from the structure of the sliding piston opening means of FIG. 23 is positioned in the second tubular housing 48 having the closed end 49 and the open end 50. The application tip 51 of the swab or foam material is attached inside the open end 50 of the second tubular housing 48 and extends outside of the open end 50. When the sliding piston opening means is opened, the fluid substance 8 is discharged to the second tubular housing 48 and the application tip 51. The first tubular housing 42 and the second tubular housing 48 may be integrally formed, in which case the inner diameter near the closed end is small and the inner diameter near the open end is large.

FIG. 25 shows another form of the sliding piston opening of FIG. 24. Here, the open end 52 of the second tubular housing 53 is formed to have a smaller diameter, thereby forming an application tip 54 attached to the end.

Figure 26 shows a sliding piston opening means according to another embodiment of the present invention. In this embodiment, the sliding piston 3 with the sealing diameter 4 is located near the open end 56 of the first tubular housing 55 with the open end 56 and the closed end 57. Here, the sealing diameter 4 is formed corresponding to the inner diameter of the first tubular housing 55. The sliding piston 3 seals the flow material 8 in the first tubular housing 55 near the sealing end 57. The first tubular housing 55 is located in a second tubular housing 58 having an open end 59 and a sealed end 60. The sealed end 57 of the first tubular housing 55 is located near the sealed end 60 of the second tubular housing. The open end 59 of the second tubular housing 58 is covered with an application tip 61, such as a swab or foam material. When the sliding piston 3 pressurizes with the fingertip to pass through the open end 56 of the first tubular housing 55, the flow material 8 of the first tubular housing 55 is discharged and the application tip 61 is applied. Is provided.

If the tubular housing has a small cross-sectional area and the internal tension material 8 is not easily discharged due to its surface tension even when the sliding piston opening means is opened, a surface tension removing member may be used. The surface tension removing member improves the capillary phenomenon and solves the problem of surface tension so that the fluid substance 8 can be easily discharged without compressing the tubular housing 55. The surface tension removing member has a long structure inserted into the tubular housing and can be attached to the sealed end 57 of the tubular housing 55.

27 is another form of the sliding piston opening means shown in FIG. Here, the application tip 62 of the swab or foam material is attached to the inside of the open end 59 of the second tubular housing 58 and is formed to extend out of the open end 59. When the sliding piston opening means is opened, the fluid substance 8 will be discharged into the second tubular housing 58 and provided to the application tip 62. The first and second tubular housings 57, 58 can be formed integrally, in which case the inner diameter near the closed end is small and the inner diameter near the open end is large.

FIG. 28 is another form of the sliding piston opening means shown in FIG. 27. Here, instead of the application tip of FIG. 27, an application tip 64 is provided which has a hollow tube 63 of elongated structure and is attached with a swab applicator at its end. The outer diameter of the hollow tube 63 corresponds to the inner diameter of the open end of the tubular housing. The swab applicator is inserted and attached to the opposite end of the dispensing tip 64 inside the open end of the tubular housing. In this embodiment, the hollow tube 63 of the extended structure is configured together with the application tip 64 to improve the rigidity of the internal structure.

FIG. 29 is another form of the sliding piston opening means shown in FIG. Here, the open end 65 of the second tubular housing 66 is formed to have a smaller diameter, providing an application tip 67 attached to the end. The first and second tubular housings 55, 66 can be formed integrally, in which case the inner diameter near the closed end is small and the inner diameter near the open end is large. And, the open end of the unitary tubular housing is formed into a shape having a smaller diameter.

30 shows a sliding piston opening means according to another embodiment of the present invention. In this embodiment, the sliding piston 3 with the sealing diameter 4 is located in the restriction 68 in the tubular housing 69. The sealing diameter 4 has a size corresponding to the restriction in the tubular housing 69. The tubular housing 69 has an open end 70 and a closed end 71. The sliding piston 3 seals the flow material 8 near the closed end 71 of the tubular housing 69. The open end 70 of the tubular housing 69 is covered with a swab or application tip 72 of foam material. When the sliding piston 3 moves from the restricting portion 68 of the tubular housing 69 by the pressure applied to the fingertips, the fluid substance 8 in the tubular housing 69 is discharged, and the application tip ( 72).

The surface tension removing member may be used when the tubular housing 69 has a small cross-sectional area and the inner flow material 8 is not easily discharged due to its surface tension even when the sliding piston opening means is opened. The surface tension removing member improves the capillary phenomenon and solves the problem of surface tension so that the fluid substance 8 can be easily discharged without crimping the tubular housing 69. The surface tension removing member has a long structure inserted into the tubular housing, and can be attached to the sealed end 71 of the tubular housing 69.

FIG. 31 is another form of the sliding piston opening means shown in FIG. Here, the application tip 73 of the swab or foam material is attached to the inside of the open end 70 of the tubular housing 69, and is formed to extend out of the open end 70. When the sliding piston opening means is opened, the fluid substance 8 is discharged to the application tip 73.

32 is another form of the sliding piston opening means shown in FIG. Here, the open end 74 of the tubular housing 75 is formed to have a smaller and smaller diameter, and an application tip 76 attached to the end is formed.

Figure 33 illustrates a sliding piston opening means according to another embodiment of the present invention. Here, the sliding piston opening means has a tubular housing 77 of a first extension structure with a closed end 78. An opening 79 such as a slit or a hole is formed near the end of the first tubular housing 77. A sliding piston 3 with a sealing diameter 4 is located near the end of the tubular housing 77 between the opening 79 and the flow material 8, the sealing diameter 4 of the first tubular housing 77. It is formed to correspond to the inner diameter. By applying pressure at the fingertip, when the sliding piston 3 passes through the opening 79 of the first tubular housing 77, the flow material 8 of the first tubular housing 77 is discharged. The first tubular housing 77 is located in a second tubular housing 80 having a sealed end 81 and an open end 82. The open end 82 of the second tubular housing 80 is covered with a swab or application tip 83 of foam material. Fluid 8 is discharged from tubular housing 77 to application tip 83.

34 shows a sliding piston opening means according to another embodiment of the present invention. In this embodiment, the sliding piston opening means has an elongated tube 84 having an opening 85 in the form of a slit or a hole, which opening 85 is disposed near one end of the wall of the elongated tube 84. . A sliding piston 3 having a sealing diameter 4 corresponding to the inner diameter of the elongated tube 84 is located inside the elongated tube 84. The elongated tube 84 is attached to the open end 86 of the elongated tubular housing 87 having a closed end 88 and an open end 86. Flowable material 9 is provided in tubular housing 87 near the sealed end 88. The elongated tube 84 is attached to the open end 86 such that the sliding piston 3 is positioned between the flow material 8 and the opening 85 of the tubular housing 87. The elongated tube 84 and sliding piston 3 enclose the open end 86 of the tubular housing 87 and the flow material 8 therein.

When the sliding piston 3 passes through the opening 85 of the elongated tube 84, the flow material 8 of the tubular housing 87 is discharged. The opening 85 of the elongated tube 84 is covered with a swab or an application tip 89 of foam material. The flowing material 8 is provided from the tubular housing 87 to the application tip 89.

Figure 35 illustrates a sliding piston opening means according to another embodiment of the present invention. In this embodiment, the sliding piston opening means has an elongated tube 90, which has two open ends and two openings 91, 92. The openings 91 and 92 are formed in the form of slits or holes through the walls of the elongated tube 90. In addition, a sliding piston 3 having a sealing diameter 4 corresponding to the inner diameter of the elongated tube 90 is located inside the elongated tube 90 except for the space between the two openings 91, 92. do. The elongated tube 90 is attached to an open end 93 of an elongated tubular housing 94 having a closed end 95 and an open end 93. The flowing material 8 is provided inside the tubular housing 94 near the sealed end 95. The elongated tube 90 is attached to the open end 93 such that the sliding piston 3 is positioned between the flow material 8 of the tubular housing 94 and the openings 91, 92. Further, by placing the two sealing surfaces 96 and 97 between the tubular housing 94 and the elongated tube 90 excluding the space between the openings 91 and 92, the tubular housing 94 and the sliding piston ( 3) is attached to the sealing surfaces 96 and 97, and the open end 93 of the tubular housing 94 and the flow material 8 therein are sealed.

As shown in FIG. 36, when the sliding piston 3 passes the first opening 91 of the elongated tube 90, the flowable material 8 of the tubular housing 94 is discharged. The flowing material 8 moves into the elongated tube 90, exits the first opening 91 and into the space between the wall of the tubular housing 94 and the elongated tube 90. The flow material enters the elongate tube 90 again through the second opening 92 and is discharged through the open end of the elongate tube 90. The open end of the elongated tube 90 is covered with a coating tip 98 such as a swab or foam material. The flow material is provided from the tubular housing 94 to the application tip 98.

Sliding piston opening means according to the embodiment of the invention described above can be used for sample material collection, if the tubular housing does not contain the flow material 8. First, the sliding piston opening means is opened. Next, pressure is applied by squeezing to evacuate the air inside the tubular housing and then placed into the sample for collecting the open end of the tubular housing. Removing the pressure applied to inflate the tubular housing in this position creates a partial vacuum position inside the tubular housing, which causes the sample material to enter the tubular housing. Thereafter, the sliding piston opening means is closed to seal the collected sample material. The collected sample material is stored or transferred elsewhere for the next step of testing.

The present invention is not limited to the above-described embodiments, and can be modified by those skilled in the art as can be seen from the appended claims, and such modifications are within the scope of the present invention.

The present invention relates to a sliding piston opening means for discharging a fluid substance enclosed in a container having an elongated structure. The sliding piston opening means of the present invention is effected by pressing the sliding piston or an extension structure container near it. When the sliding piston opening means is opened, the flow material sealed in the container is discharged for use. Until the contents of the container are used up, the opening can be closed again by means of sliding piston opening means. That is, by using the sliding piston opening means, it is possible to reseal the flow material remaining in the container. When the sliding piston opening means is used as an opening means for collecting sample material, it is opened to collect sample material and closed to seal the collected sample material.

Claims (62)

An elongated tube having one or more openings in the length portion thereof; And A sliding piston having a sealing diameter corresponding to the inner diameter of the tube, disposed in the interior of the tube, the sliding piston being movable from the first closed position to the second open position, Flows in a tubular housing near the sealed end having a closed end and an open end, attached inside a compressible elongated tubular housing having an inner diameter corresponding to the outer diameter of the tube and separated from the open end using the sliding piston. A sliding piston opening means for closing the material and forcing the sliding piston or the adjacent tubular housing to discharge the flow material through the open end of the tubular housing. 2. The sliding piston opening means of claim 1, wherein the sliding piston has an elliptical side surface. The sliding piston opening means according to claim 1 or 2, wherein the opening of the pipe is in the form of one or more slits formed through the length portion of the pipe. 3. Sliding piston opening means according to claim 1 or 2, wherein the tubular housing has one or more ends covered with application means. The sliding piston opening means according to claim 1 or 2, wherein a tube is formed in the tubular housing so as to have a decreasing diameter so as to form an integral structure. A compressible tubular housing having a closed end and an open end, the compressive extension having a restriction between the two ends; And Located in the restriction of the tubular housing, has a sealing diameter corresponding to the size of the restriction, and comprises a sliding piston movable from the closed position of the restriction to the open position, The sliding piston is used to seal the moving material in the tubular housing near the closed end separated from the open end, and pressurizes the sliding piston or the adjacent tubular housing to operate to discharge the flowing material through the open end of the tubular housing. Sliding piston opening means. 7. A sliding piston opening means according to claim 6, wherein the sliding piston has an elliptical end. 8. Sliding piston opening means according to claim 6 or 7, wherein the tubular housing has one or more ends covered with application means. An elongated first tube; An elongated second tube having one opening in the length portion; And A sliding piston having a sealing diameter corresponding to the inner diameter of the first tube between the two ends and positioned within the first tube, the sliding piston being movable from the first tube to the second tube, Tubular near the closed end having a closed end and an open end and attached inside a compressible elongated structure having an inner diameter corresponding to the outer diameter of the first pipe and separated from the open end using the sliding piston. A sliding piston opening means for sealing the flow material in the housing and for urging the sliding piston or the adjacent tubular housing to discharge the flow material through the open end of the tubular housing. 10. The sliding piston opening means of claim 9, wherein the sliding piston has an elliptical side surface. The sliding piston opening means according to claim 9 or 10, wherein the tubular housing has one or more ends covered with the application means. Long form tube; And A sliding piston having a through opening therein and having a sealing diameter corresponding to the inner diameter of the tube and positioned inside the tube and movable from a first closed position inside the tube to a second open position outside the tube; Including, Flows in a tubular housing near the sealed end having a closed end and an open end, attached inside a compressible elongated tubular housing having an inner diameter corresponding to the outer diameter of the tube and separated from the open end using the sliding piston. A sliding piston opening means for closing the material and forcing the sliding piston or the adjacent tubular housing to discharge the flow material through the open end of the tubular housing. 13. The sliding of claim 12, wherein the sliding piston is made of a flexible material, has a circular side of the opening closed in the first closed position, and has an elliptical side of the opening opening in the second open position. Piston opening means. 14. Sliding piston opening means according to claim 12 or 13, wherein the tubular housing has one or more ends covered with application means. 14. Sliding piston opening means according to claim 12 or 13, wherein the tube is formed as part of the tubular housing in the form of a restriction in the tubular housing. An elongated tube having one or more openings in the length portion thereof; And A second opening having an application tip at one end facing the opening of the tube, a sealing diameter corresponding to an internal diameter inside the tube, and exposed to the outside of the tube from a first closed position where the application tip is located inside the tube A sliding piston movable into position, Flows in a tubular housing near the sealed end having a closed end and an open end, attached inside a compressible elongated tubular housing having an inner diameter corresponding to the outer diameter of the tube and separated from the open end using the sliding piston. A sliding piston opening means for closing the material and forcing the sliding piston or the adjacent tubular housing to discharge the flow material through the open end of the tubular housing. 17. The sliding piston opening means of claim 16, wherein the opening of the pipe is formed in the form of one or more slits through the length portion. 18. The sliding piston opening means according to claim 16 or 17, wherein the tube is formed as part of the tubular housing in the form of a restriction near the open end of the tubular housing. An elongated tube having one or more openings in the length portion thereof; And A sliding piston having a sealing diameter corresponding to the inner diameter of the tube and positioned inside the tube, the sliding piston being movable from a first closed position to a second open position, It is attached inside a compressible elongated tubular housing having an inner diameter corresponding to the outer diameter of the tube, encloses a flowing material in the tubular housing between the sliding piston and the tacky material, and presses the sliding piston or near tubular housing. And controlling the flow of air from the external atmosphere to the sealed fluid. 20. The sliding piston opening means of claim 19, wherein the sliding piston has an elliptical end. 21. The sliding piston opening means according to claim 19 or 20, wherein the opening of the pipe is formed in the form of one or more slits through the length portion. 21. The sliding piston opening means according to claim 19 or 20, wherein the tubular housing has one or more ends covered with application means. An elongated first tube having one opening in the length portion; A first sliding piston having a sealing diameter corresponding to the inner diameter of the first tube, located in the first tube, the first sliding piston being movable from the first closed position to the second open position; An elongated second tube having one opening in the length portion; And A second sliding piston having a sealing diameter corresponding to the inner diameter of the second tube and located in the second tube, the second sliding piston being movable from the first closed position to the second open position, The first and second tubes are attached to the inside of the compressible tubular housing having an inner diameter corresponding to the outer diameter of the first tube, and the fluid is sealed in the tubular housing between the first and second tubes. And pressing the sliding piston or near tubular housing to control the flow of air from the outside atmosphere to the enclosed flow material. 24. The sliding piston opening means of claim 23, wherein the openings of the first and second pipes are formed in one or more slits corresponding to about half of the length of the pipe.        25. The sliding piston opening means according to claim 23 or 24, wherein the tubular housing has one or more ends covered with the application means. 25. The sliding piston opening means according to claim 23 or 24, wherein the first and second tubes are formed as part of the tubular housing in the form of two restriction portions of the tubular housing. An elongated tubular housing having an open end and a closed end in a V-shape; And A sliding piston having a sealing diameter corresponding to the inner diameter of the tubular housing, located within the tubular housing, and including a sliding piston movable from a first closed position to a second open position, The sliding piston is used to seal the moving material in the tubular housing near the closed end separated from the open end, and pressurizes the sliding piston or the adjacent tubular housing to operate to discharge the flowing material through the open end of the tubular housing. Sliding piston opening means. 28. The sliding piston opening means of claim 27, wherein the sliding piston has an elliptical side surface. 29. The sliding piston opening means according to claim 27 or 28, wherein the elongate member is located in the tubular housing having the flowable material. 29. The sliding piston opening means of claim 27 or 28, wherein the tubular housing has one or more ends covered with an application tip. 29. The sliding piston opening means according to claim 27 or 28, wherein the tubular housing is disposed in a second tubular housing having an application means at an open end. 32. The sliding piston opening means of claim 31, wherein the second tubular housing has an open end with a smaller diameter than the other portion. 33. The sliding piston opening means of claim 32, wherein the application means is attached to the open end of the second tubular housing. 34. The sliding piston opening means of claim 31, 32 or 33, wherein the sliding piston opening is integrally formed by providing a tubular housing having a smaller diameter in the second tubular housing. An elongated first tubular housing having one opening; A second tubular housing having an open end and a closed end, the second tubular housing having an elongate extension structure positioned within the first tubular housing; And A sliding piston having a sealing diameter corresponding to the inner diameter of the second tubular housing, located inside the second tubular housing near the open end, and including a sliding piston movable from the first closed position to the second open position, The sliding piston is used to seal the flow material into the second tubular housing near the closed end separated from the open end of the second tubular housing, and pressurizes the sliding piston or the adjacent tubular housing to pressurize the sliding material to open the open end of the second tubular housing. Sliding piston opening means characterized in that it is operated to be discharged through. 36. The sliding piston opening means of claim 35, wherein the sliding piston has an elliptical side surface.      37. A sliding piston opening means according to claim 35 or 36, wherein the elongate member is located in a tubular housing with fluid material. 37. A sliding piston opening means according to claim 35 or 36, wherein an application tip is attached to one or more ends of the first tubular housing. 37. The sliding piston opening means according to claim 35 or 36, wherein the first tubular housing has an open end having a smaller diameter than other portions. 40. The sliding piston opening means of claim 39, wherein an application tip is attached to an open end of the first tubular housing. An extended structural tubular housing having an open end and a closed end, the inner diameter near the open end being greater than the closed end diameter; And A sliding piston smaller than the inner diameter of the tubular housing near the open end, having a sealing diameter larger than the inner diameter of the closed end, and located within the tubular housing near the open end, the sliding piston being movable from the first closed position to the second open position. Is composed, The sliding piston is used to seal the flow material into the tubular housing near the closed end separated from the open end of the tubular housing, and to press the sliding piston or the adjacent tubular housing to operate to discharge the flow material through the open end of the tubular housing. Sliding piston opening means, characterized in that. 42. The sliding piston opening means of claim 41, wherein the sliding piston has an elliptical side surface. 43. The sliding piston opening means according to claim 41 or 42, wherein the elongate member is located inside the tubular housing having the flowable material. 43. The sliding piston opening means according to claim 41 or 42, wherein the application means is attached to a tubular part partially attached in the open end of the tubular housing. A tube having a short length; And A sliding piston having a sealing diameter corresponding to the inner diameter of the tube and positioned inside the tube, the sliding piston being movable from a first closed position to a second open position, Flows in a tubular housing near the sealed end having a closed end and an open end, attached inside a compressible elongated tubular housing having an inner diameter corresponding to the outer diameter of the tube and separated from the open end using the sliding piston. A sliding piston opening means for closing the material and forcing the sliding piston or the adjacent tubular housing to discharge the flow material through the open end of the tubular housing. 46. The sliding piston opening means of claim 45, wherein the sliding piston has an elliptical side surface. 47. The sliding piston opening means according to claim 45 or 46, wherein the tubular housing has one or more ends covered with application means. 47. The sliding piston opening means according to claim 45 or 46, wherein the tubular housing has an open end having a smaller diameter than other portions. 49. The sliding piston opening means of claim 48, wherein an application means is attached to the open end of the tubular housing. 47. The sliding piston opening means according to claim 45 or 46, wherein the sliding piston opening means is integrally formed by providing a tube having a smaller diameter in the tubular housing. A first tubular housing of extended structure having a closed end and an open end; A second tubular housing of elongated structure defining openings in the cylindrical wall, the closed one end and the cylindrical wall near the other end; And A sliding piston having a sealing diameter corresponding to the inner diameter of the second tubular housing, located inside the second tubular housing, the sliding piston being movable from the first closed position to the second open position, The sliding piston is used to seal the flow material in a second tubular housing near the closed end separated from the open end, and to press the sliding piston or the adjacent tubular housing to discharge the flow material through the open end of the second tubular housing. Sliding piston opening means characterized in that. 52. The sliding piston opening means of claim 51, wherein the sliding piston has an elliptical side surface. 52. The sliding piston opening means according to claim 50 or 51, wherein the elongate member is located inside the tubular housing having the flowable material. 52. The sliding piston opening means according to claim 50 or 51, wherein the first tubular housing has one or more ends covered with the application means. 55. The sliding piston opening means of claim 54, wherein the first tubular housing has an open end with a smaller diameter than the other portion. 56. The sliding piston opening means of claim 55, wherein the application means is attached to the open end of the second tubular housing. An elongated tubular housing having an open end and a closed end; An elongated tube having an opening in the cylindrical wall near one end and a cylindrical wall having one end attached to the open end of the tubular housing; And A sliding piston having a sealing diameter corresponding to the inner diameter of the tube, the sliding piston being located inside the tube and movable from a first closed position to a second open position, The sliding piston is used to seal the flow material in the tubular housing near the closed end separated from the open end, and to press the adjacent tubular housing to move the sliding piston to move the flow material to the opening of the tube end. Sliding piston opening means. 59. The sliding piston opening means of claim 57, wherein the sliding piston has an elliptical side surface. 59. The sliding piston opening means according to claim 57 or 58, wherein an end portion of the tube having the opening portion is covered with an application means. A tubular housing of extended structure having an open end and a closed end; A tube having a cylindrical wall comprising first and second open ends and two openings, the tube being attached to the open end of the tubular housing at a sealing ring portion of the two openings; And A sliding piston having a sealing diameter corresponding to the inner diameter of the tube, the sliding piston being disposed inside the tube and movable from the first closed position to the second open position, The sliding piston is used to enclose a flowing material in a tubular housing near the closed end separated from the open end and pressurize the tubular housing to move the sliding piston so that the flowing material passes through the first open end of the tube to the second end. Sliding piston opening means characterized in that it is operated to be discharged to. 61. The sliding piston opening means of claim 60, wherein the sliding piston has an elliptical side surface. 62. The sliding piston opening means according to claim 60 or 61, wherein the second open end of the tube is covered with an application means.

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