RU2203842C2 - Container seal - Google Patents

Abstract

FIELD: food industry. SUBSTANCE: invention relates to means of sealing containers with food products. It can be used at sealing of bottles with wines and vodkas, cognacs and soft drinks. Proposed seal contains stopping up device interacting with container for closing pour out hole, sealing gasket and body with hole. Body with hole is fitted in container pour out hole at level of its end face. Body is provided with three or more slots on its outer surface. lower part of body is made concave in direction of liquid drain from container. EFFECT: prevention of liquid losses at emptying the container. 5 cl, 3 dwg

Description

 The invention relates to means for capping containers, in particular, can be used in the food industry for capping liquids, for example, alcoholic beverages, elite wines and cognac, as well as other particularly valuable and expensive liquids.

 Known plug, which is used to drain the liquid from the tank [ed. testimonial. 1781139 SU - 1]. The cork consists of a rod, on which there are two sections with an external thread, separated by an annular groove. Along the rod in the thread section that enters the drain hole, grooves are made that end in an annular groove. The grooves and grooves drain the liquid from the tank, while the rod remains in the drain hole. The other thread section has no grooves and serves to seal the drain hole of the container. In addition, the end face of the rod is made conical with radial radial grooves from the top of the cone. The grooves on the conical part of the rod are connected to the grooves running along the rod, forming a through channel. This ensures the completeness of draining the liquid from the tank.

 Drain is as follows. The rod is turned out of the drain hole to the length of the first threaded section, to the annular groove, thereby allowing the fluid to merge from the tank. The rod is held in the drain hole by a second threaded portion of the rod having grooves. The fluid will flow through the channels and the annular groove until the fluid is completely drained. The drain time will depend on the size of the gap between the end of the drain hole and the edge of the annular groove on the rod. In this case, the liquid will be sprayed, as it will hit the edge of the annular groove.

 Closest to the proposed shutter is a shutter [ed. testimonial. 958260 SU - 2].

 The shutter comprises a gate interaction unit with a container in the form of a cylindrical body entering the drain hole, a lid covering the drain hole. The cylindrical housing has a flange that rests on the end of the drain hole. Above the flange in the housing, a transition is made to a drain pipe, the diameter of which is less than the diameter of the cylindrical housing. The drain pipe covers a cylindrical wall. The upper part of this wall is bent inward with the formation of a gap between the bent edge of the wall and the drain pipe. In the area formed by the transition to the drain pipe, there are openings connecting the area formed by the bent edge of the cylindrical wall and the drain pipe with a container.

 When the tank is tilted to drain the liquid, the liquid is drained through the drain pipe (main stream) and through the holes in the transition from the cylindrical body to the drain pipe (additional stream). Substitution of the drained liquid with air occurs through openings in a horizontal transition on the opposite side to the drain. When the container is returned to the vertical position, the remaining liquid from the area formed by the bent edge of the cylindrical wall and the drain pipe, as well as drops from the surface of the drain pipe, merge into the container through the holes in the junction.

 The known solution [1] solves the problem of completely draining the liquid from the tank, however, the length of the pipe where the shutter is turned on should be longer, because there are two threaded sections on the shaft. A liquid, especially containing a large amount of sugar, contaminates the thread and reopening the container to drain the liquid can be difficult due to the bonding of the thread surfaces of the shutter and the sleeve of the container. The presence of an annular groove, which divides the threaded part of the rod into two sections, leads to the formation of liquid splashes when it is drained. It is difficult to monitor the flow of liquid drained from the tank due to the presence of a rod in the drain hole.

 Using the well-known solution [2], which is closest to the claimed one, it is possible to solve the problem of draining the liquid, however, when draining the liquid from the tank, it enters the closed space between the drain pipe and the bent cylindrical wall of the housing both through the holes in the horizontal transition and through the outer the surface of the drain pipe. It is difficult to completely remove fluid from this confined space. This can only be done by returning the container to a vertical position, it will drain into the container in which it was. Repeated attempt to drain the remaining fluid will lead to the same result. Part of the liquid will again fall into the confined space and it will not be possible to completely drain it. Collecting drops from the surface of the drain pipe, the device does not provide a complete drain of liquid from the tank.

 The main task solved by the inventive device is the elimination of fluid loss during emptying of the tank, reducing the size of the product where the device is used, as well as providing controlled discharge of liquid from the tank.

 In the inventive valve for a container containing a closure device that interacts with the container and closes the drain hole, a gasket, a body with an opening located in the drain hole at the same level with the end of the drain hole of the container and provided with three or more grooves on its outer surface, the lower part the housing is made concave in the direction of draining the liquid from the tank, and the upper part of the housing with a flange having holes matching the grooves on the outer surface of the housing is concave towards the tank.

 In addition, the housing is divided in height into two or more parts by grooves and is made with protrusions along the generatrix of the housing, which may be three or more.

 Thanks to the proposed shutter design for the tank, the liquid is drained completely without residue. The shutter is securely fixed in the drain hole and the size of the container with the capping device is minimal. In addition, the liquid is drained through the hole, which will allow the liquid to be drained in a small flow, ensuring high accuracy of the liquid dosage.

 Figure 1 shows the shutter for the tank with a device for interacting with the tank in the form of a screw pair with a housing having a support flange; figure 2 is a cross section of the shutter, figure 3 is an enlarged view of the protrusion, which is located on the generatrix of the housing.

 The shutter for the container consists of an interaction unit 1 with the container 2, a closure 3, which seals the hole 4 and the grooves 5 of the housing 6 with the gasket 7. The housing 6 of the shutter has at least 3 grooves 5, evenly spaced around the circumference of the housing. The shutter housing 6 in the upper part may have a flange 8. resting on the end 9 of the drain hole 10. In the flange 8, holes 11 are made that coincide with the grooves 5 on the housing 6. The lower part of the housing 6 is made in the form of a concave surface 12, which is concave to the side draining the liquid from the container 2. The upper part of the housing 6 is made by a concave surface 13 towards the container 2. The housing 6 is divided into two or more parts by grooves 14, which provide the flow of air and liquid from one groove 5 to another, which ensures a calm, smooth without image Spray fluid. The housing 6 for compensating for the variation in diameter of the drain hole 10 is provided with protrusions 15. The protrusions 15 can be three or more evenly spaced around the circumference of the housing 6. They can be along the entire length of the generatrix of the housing 6 or on one of its parts 16, 17.

 The shutter for capacity works as follows. The beverage manufacturer traditionally pours it into containers, inserts a casing 6 into the drain hole of the container 2 and closes the container with a capping device 3. Moreover, if the casing is made with a flange, the flange rests on the end of the drain opening, reliably fixing the casing relative to the container 2. The consumer opens the container 2, tilts it to either side, the liquid will be drained through hole 4, grooves 5 and holes 11 (if the housing is with a flange), which are located in that part of the housing 6, in which direction the liquid is drained, and replacing liquid, air will enter the container in the grooves 5 and holes 11 on the opposite side of the drain.

 When the container returns to the vertical position, all the liquid drains into the container 2. When the tilt is repeated, everything will repeat. When the minimum amount of liquid remains in the tank, it will flow through the grooves 5 and the holes 11. Drops on the surface 12 through the hole 4 and the concave surface 13 of the housing 6 will also merge from the tank.

 The proposed closure design for the container is especially necessary where high precision dosage of small doses of liquid is required when the container capacity is from 0.5 liters or more with a high filling rate. This eliminates the likelihood of overflow of liquid in the receiving tank and splashing liquid.

Claims (5)

 1. A shutter for a container, comprising a closure device interacting with the container with the possibility of closing its drain hole, a sealing gasket and a housing with an opening installed in the drain of the container at the same level with its end face, characterized in that the housing is made with three or more grooves on its outer surface, while the lower part of the body is concave in the direction of draining the liquid from the tank.  2. The shutter for the container according to claim 1, characterized in that the housing is equipped with a flange with holes that coincide with the grooves on its outer surface and which rests on the end of the drain hole.  3. The shutter for capacity according to paragraphs. 1 and 2, characterized in that the outer surface of the housing is divided in height into two or more parts by grooves.  4. The shutter for capacity according to paragraphs. 1-3, characterized in that the upper part of the housing is made concave towards the tank.  5. The shutter for capacity according to paragraphs. 1-4, characterized in that the shutter housing is provided with three or more protrusions along the generatrix of the housing.

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