WO2012030257A1 - Collapsible dispensing container - Google Patents

Abstract

The utility model is intended to provide for more efficient use of the contents of containers for storing paste-like products and also to simplify the recycling of the used container, thus achieving an important environmental effect. This result is achieved in that in the collapsible dispensing container, comprising a bottom, a top with a nozzle for discharging the contents of the container and a pleated side wall made of a flexible material, the surface of the bottom is in the form of a solid figure which mates with the inside surface of the container chamber when the pleats of the side wall are completely compressed. Various structural embodiments of the sidewall are possible.

Description

 RECIPE CONTAINER CONTAINER

The proposed utility model relates to the field of technology related to the storage and use of viscous substances, such as oils, creams, gels or pastes.

 A device is known for storing and using technical oils, made in the form of an elastic corrugated tank, in which a channel with screw corrugations is used as a side surface, in the grooves of which a hose is laid that provides structural rigidity in the transport position and protects the corrugations from damage (USSR copyright certificate J4 ° 423977, “Oiler tank, IPC SZOV 7/08, F16N 3/00, F16J 3/00, publ. 04/15/1974).

 A disadvantage of the known device is the impossibility of completely emptying the grease can with full compression of the corrugated reservoir, as well as the need to use a hose laid in the grooves of the corrugations.

 Also known is a destructible container having a cylindrical upper and lower parts, which are connected by a conical corrugated spiral side surface made of elastic material (US patent 28991 10, "Collapsible container", NCI 222-215, publ. 1 1.08.1959). The disadvantage of this container is that the use of a conical corrugated surface causes a smaller volume of the internal cavity of the container than a cylindrical surface with the same area of the lower part. In addition, as well as in the technical solution according to the USSR author's certificate N ° 423977, it is impossible to completely empty the container with full compression of its lateral conical corrugated surface.

Also known is a container in the form of a destructible bottle containing a bottom, a section with a pipe for emptying the contents of the container and a folded side wall of flexible material in the form of a channel. Folds the side wall is formed by two intersecting conical surfaces, and the lengths of the intersecting conical surfaces are different (patent US 4492313, "Collapsible bottle", IPC B65D 1/02, publ. 08.01.1985). This patent is adopted as a prototype of the proposed technical solution.

 The disadvantage of the prototype is the impossibility of its complete emptying if not viscous substances are used as its contents.

 The technical task of this utility model is to create a dispensing container, the design of which allows for the complete extraction of the contents of the container, as well as the supply of contents in separate portions.

 The technical result is to increase the efficiency of use of the contents of the container as a result of preventing losses of the contents of the container, for example, pasty products that remain unused in traditional containers. In addition, the reduction in the volume of the container after full use of the product contained in it facilitates its disposal, which is a significant environmental factor.

The technical task and result are achieved due to the fact that in the container containing the bottom, a lid with a nozzle for emptying the contents of the container, and a folded side wall of flexible material, the surface of the bottom is made in the form of a spatial figure mating with the inner surface of the cavity of the container when the folds are lateral the walls are completely compressed, or, according to the independent claims, the bottom surface is made in the form of a spatial figure inscribed in the internal volume of the container when full Strongly folded folds of the lateral surface. Various embodiments of the side wall of the container are possible. Some of them are listed below, namely:

 - the side wall is made in the form of a single-entry spiral channel having a triangular profile with an angle of less than 180 °;

 - the side wall is made in the form of annular channels, the sides of which are formed by conical surfaces intersecting at an angle of less than 180 °;

 - the side wall is made in the form of annular channels, the sides of which are formed by conical wave surfaces intersecting at an angle of less than 180 °;

 - the side wall is made in the form of a multiple spiral channel having a triangular profile with an angle of less than 180 °;

 - the side wall is made in the form of spiral channels, the sides of which are formed by the intersection of multi-start right and left screw surfaces, each of which has a triangular profile with an angle at the apex of less than 180 °;

 - the side wall is made in the form of spiral channels, the sides of which are formed by the intersection of multi-start right and left screw surfaces, each of which has a triangular profile with an angle at the apex less than 180 °, and formed inside the container cavity;

 - the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular channels formed by the intersection of two conical surfaces with an angle between the intersecting surfaces of less than 180 °, and the surfaces of a multi-helix channel having a triangular profile with an angle at the apex of less than 180 °;

- the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular channels formed by the intersection of two conical surfaces with an angle between the intersecting surfaces less than 180 °, and side surfaces formed by alternating intersection of multi-start right and left spiral channels having a triangular profile with angles at the apex less than 180 °;

 - the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular channels formed by the intersection of two conical surfaces with an angle between the intersecting surfaces less than 180 °, and the side surfaces formed by a multi-start spiral channel having a triangular profile with an angle at the apex less than 180 °, and formed inside the container cavity;

 - the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular surface formed by the intersection of two conical surfaces with an angle between the intersecting surfaces less than 180 °, and the surfaces formed by the alternating intersection of the multi-start right and left spiral channels having a triangular profile with angles at the apex less than 180 °, and formed inside the cavity of the container;

 - the side wall is made in the form of straight folds formed by the intersection of two trapezoidal surfaces in a straight line with an angle between intersecting surfaces less than 180 °, and the same folded surface, which also has a triangular profile with an angle at the apex less than 180 °, and located at an angle and with offset to friend;

- the side wall is made in the form of folds formed by the intersection of two trapezoidal surfaces along a smooth curve with an angle between the intersecting surfaces less than 180 °, and the same folded surface, which also has a triangular profile with an angle at the apex less than 180 °, and located at an angle and with an offset of one to friend; - the side wall is made in the form of straight folds formed by the intersection of two trapezoidal surfaces in a straight line with an angle between the intersecting surfaces less than 180 °, and the same folded surface, which also has a triangular profile with an angle at the apex less than 180 °, and located at an angle greater than 90 ° and with offset to each other.

 With intersecting spiral channels and / or channels formed by the intersection of conical surfaces, it is preferable to make all faces of a thin-walled shell flat and edges straight sections, this will relieve stress when folding the dispenser from a rigid material, such as metal.

 The bottom of the container may be continuous of elastic material or hollow, and as a material of the side wall, it is possible to use both flexible plastic and flexible metal and / or multilayer composite materials.

 The essence of the utility model is illustrated by the diagrams and images shown in the figures.

 Figure 1 is a diagram of a crumpled dispensing container in a fully filled position "1a" and a completely empty position - "16";

 Figure 2 - diagram of the crushed container, the side wall is made in the form of a single-entry spiral channel having a triangular profile with an angle of less than 180 °;

 FIG. 3 is an image of the container of FIG. 2 in a filled and empty state;

 Figure 4 is a diagram of a crushable container, the side wall is made in the form of annular channels, the sides of which are formed by conical surfaces intersecting at an angle of less than 180 °;

Figure 5 - image of the container shown in figure 4, in a filled and empty state; 6 is a diagram of a container, the side wall is made in the form of annular channels, the sides of which are formed by conical wave surfaces intersecting at an angle of less than 180 °;

 Fig.7 is an image of the container shown in Fig.6, in a filled and empty state;

 Fig. 8 shows a side wall made in the form of a multi-helical spiral channel having a triangular profile with an angle of less than 180 °;

 Fig.9 is an image of the container shown in Fig.8, in a filled and empty state;

 Figure 10 - the side wall is made in the form of spiral channels, the sides of which are formed by the intersection of multi-start right and left screw surfaces, each of which has a triangular profile with an angle at the apex of less than 180 °;

 11 is an image of the container shown in figure 10, in a filled and empty state;

 12 - the side wall is made in the form of spiral channels, the sides of which are formed by the intersection of multi-start right and left screw surfaces, each of which has a triangular profile with an angle at the apex of less than 180 °, and formed inside the container cavity;

 Fig.13 image of the container shown in Fig.12, in a filled, partially and completely empty state.

Fig.14 - the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular channels formed by the intersection of two conical surfaces with an angle between the intersecting surfaces of less than 180 °, and the surfaces of the multi-helix channel having a triangular profile with an angle at the apex smaller Fig - image of the container shown in Fig, in a full, partially and completely empty state.

 Fig.16 - the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular channels formed by the intersection of two conical surfaces with an angle between the intersecting surfaces of less than 180 °, and the side surfaces formed by the alternating intersection of multi-start right and left spiral channels having a triangular profile with corners at apex less than 180 °;

 17 - the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular channels formed by the intersection of two conical surfaces with an angle between the intersecting surfaces of less than 180 °, and the side surfaces formed by a multi-helical channel with a triangular profile with an angle at the apex of less than 180 ° , and formed inside the cavity of the container;

 Fig. 18 is a view of the container of Fig. 17 in a filled and empty state;

 Fig.19 - the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular surface formed by the intersection of two conical surfaces with an angle between the intersecting surfaces of less than 180 °, and the surfaces formed by the alternating intersection of the multi-start right and left spiral channels having a triangular profile with angles at apex less than 180 °, and formed inside the container cavity;

Fig.20 - the side wall is made in the form of straight folds formed by the intersection of two trapezoidal surfaces in a straight line with an angle between the intersecting surfaces less than 180 °, and the same folded surface, which also has a triangular profile with an angle T RU2011 / 000659 at an apex less than 180 °, and located at an angle and offset to each other;

 Fig.21 is an image of the container shown in Fig.20, in a filled and empty state;

 Fig.22 - the side wall is made in the form of folds formed by the intersection of two trapezoidal surfaces along a smooth curve with an angle between intersecting surfaces less than 180 °, and the same folded surface, which also has a triangular profile with an angle at the apex less than 180 °, and located at an angle and with offset to each other;

 Fig - image of the container shown in Fig, in a filled and empty state;

 24 - the side wall is made in the form of straight folds formed by the intersection of two trapezoidal surfaces in a straight line with an angle between intersecting surfaces less than 180 °, and the same folded surface, which also has a triangular profile with an angle at the apex less than 180 °, and located at an angle greater than 90 ° and offset to each other;

 Fig - image of the container shown in Fig, in a filled and empty state;

 Fig. 26 is a diagram of a crumpled dispensing container in a fully filled position "26a" and a completely empty position "266", with the nozzle 5 and cap 6 located in the bottom 1 of the container.

Crumpled dispenser container contains a bottom 1 and a cover 2, which are interconnected by a side folded wall 3 of flexible material. The cavity formed by the bottom 1, the cover 2 and the side wall 3 is designed to fill the consumable product 4, for example, paste. The cover 2 has a pipe 5 in which a hole is made for the outlet of the product. The nozzle is closed with a cap 6. It is also possible to place the pipe 5 and cap 6 in the bottom 1 of the dispensing container (Fig. 26).

 The container operates as follows. To extract the product 4 from the completely filled container, hold the lid 2 and press on the bottom 1. As a result of pressing, the folds come closer, which leads to a decrease in the volume of the container’s internal cavity and the product is pushed out through the pipe. Since the surface of the bottom has a configuration and dimensions that ensure full conjugation of the inner cavity of the container in the position of full compression of the side folded wall, it ensures the displacement of the entire volume of the product from the container (Fig. 16). This provides a significant advantage over the prototype and traditional containers for storing pasty products, for example, soft and hard containers for storing sauces, sour cream, etc. It is practically impossible to extract the entire product from a container of this type without residue. The proposed design allows us to solve the problem of the full use of the product enclosed inside the container. The bottom of the container can be either hollow (figa, b), and solid (not shown). The design of the side wall of the container, depending on the stored product and the material used, such as plastic or metal, may vary. Possible options for the side wall are presented in figures 2-25.

The configuration of the outer surface of the bottom, which enters into the side wall of the container, is entirely determined by the configuration of the spatial figure inscribed in the internal volume of the container with the folds of the side surface fully folded. It can be round, oval, polygonal, etc. The area of the bottom is equal to or less than the area of the named figure. The height of the bottom is determined by the height of this spatial figure inscribed in the internal volume of the container with completely folded folds of the side surface and can be equal to or less than the height of the named figure.

 Refueling the container with the product can be done through the hole in the bottom or through the nozzle in the lid. Given that the product is removed from the container with virtually no residue, it is possible to reuse the container to store this product. A multiple reduction in the volume of the container after emptying can significantly solve the problem of reducing the volume of household waste associated with the disposal of containers, such as plastic bottles. The given arguments prove the industrial applicability of the proposed container.

Claims

USEFUL MODEL FORMULA 1. A crumpled dispensing container containing a bottom, a cover with a nozzle for emptying the contents of the container and a folded side wall of flexible material, characterized in that the surface of the bottom is made in the form of a spatial figure inscribed in the internal volume of the container with the folds of the side surface fully folded.  2. The container according to claim 1, characterized in that the side wall is made in the form of a single-entry spiral channel having a triangular profile with an angle of less than 180 °.  3. The container according to claim 1, characterized in that the side wall is made in the form of annular channels, the sides of which are formed by conical surfaces intersecting at an angle less than 180 °.  4. The container according to claim 1, characterized in that the side wall is made in the form of annular channels, the sides of which are formed by intersecting conical wave surfaces intersecting at an angle less than 180 °.  5. The container according to claim 1, characterized in that the side wall is made in the form of a multiple helical channel having a triangular profile with an angle of less than 180 °.  6. The container according to claim 1, characterized in that the side wall is made in the form of spiral channels, the sides of which are formed by the intersection of multi-start right and left screw surfaces, each of which has a triangular profile with an angle at the apex less than 180 °. 7. The container according to claim 1, characterized in that the side wall is made in the form of spiral channels, the sides of which are formed by the intersection of multi-start right and left screw surfaces, each of which has a triangular profile with an angle at the apex less than 180 °, formed inside the cavity of the container . 8. The container according to claim 1, characterized in that the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular channels formed by the intersection of two conical surfaces with an angle between the intersecting surfaces less than 180 °, and the surfaces of the multi-helix channel having a triangular profile with an apex angle of less than 180 °.  9. The container according to claim 1, characterized in that the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular channels formed by the intersection of two conical surfaces with an angle between the intersecting surfaces less than 180 °, and the side surfaces formed by the alternating intersection of the multi-right and left spiral channels having a triangular profile with an apex angle of less than 180 °.  10. The container according to claim 1, characterized in that the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular channels formed by the intersection of two conical surfaces with an angle between the intersecting surfaces of less than 180 °, and the side surfaces formed by a multi-helical channel having a triangular profile with an apex angle of less than 180 ° formed inside the container cavity. 1 1. The container according to claim 1, characterized in that the side wall is made in the form of channels, the sides of which are formed by the intersection of the annular surface formed by the intersection of two conical surfaces with an angle between the intersecting surfaces less than 180 ° and the surfaces formed by the alternating intersection of the multi-right and left spiral channels having a triangular profile with an apex angle of less than 180 ° formed inside the container cavity. 12. The container according to claim 1, characterized in that the side wall is made in the form of straight folds formed by the intersection of two trapezoidal surfaces in a straight line with an angle between intersecting surfaces less than 180 °, and the same folded surface, which also has a triangular profile with an angle at a vertex of less than 180 °, and located at an angle and offset to each other.  13. The container according to claim 1, characterized in that the side wall is made in the form of folds formed by the intersection of two trapezoidal surfaces along a smooth curve with an angle between intersecting surfaces less than 180 °, and the same folded surface, which also has a triangular profile with an angle at a vertex of less than 180 °, and located at an angle and offset to each other.  14. The container according to claim 1, characterized in that the side wall is made in the form of straight folds formed by the intersection of two trapezoidal surfaces in a straight line with an angle between intersecting surfaces less than 180 °, and the same folded surface, which also has a triangular profile with an angle at a vertex of less than 180 °, and located at an angle greater than 90 ° and offset to each other.  15. The container according to claim 1, characterized in that the bottom is made hollow.  16. The container according to claim 1, characterized in that the bottom is solid made of elastic material.  17. The container according to claim 1, characterized in that plastic is used as the flexible material of the side wall.  18. The container according to claim 1, characterized in that metal is used as a flexible material of the side wall. 19. The container according to claim 1, characterized in that a composite is used as a flexible material of the side wall. 20. The container according to claim 1, characterized in that a cap is used as the locking element.  21. The container according to claim 20, characterized in that the pipe and cap are located in the bottom.