EA004814B1 - Connector for the aseptic insertion of liquid and/or semi-liquid and/or powdered materials to the medium in flow - Google Patents

Abstract

Connector for an aseptic insertion of liquid and/or semi-liquid and/or powdered materials to a medium in flow, which connects a bag, containing an liquid and/or semi-liquid and/or powdered substance with a processing line and the said connector is a section of a pipe which, from the one side, is fixed tightly to an outlet of double membrane valve closing the bag with the substance and which the bag is tightly closed by the inside membrane of the double membrane valve whereas the said connector has a knife for cutting the inside membrane and has a butterfly valve is characterised in that the butterfly valve (8) is fitted to the second end of the connector and in the area between we double membrane valve (3) and the final position of the knife (9) there are inlet (15) for the steam and downward directed the condensate outlet (12) whereas the said knife (9), on the end opposite to blade (10), has a cross-bar (13) in form of bent bar, cooperating with the flap (14) of the butterfly valve (8), the knife is of cylindrical shape and has the blade edge (10) on the plane sloped at angle to the cylinder generating line (11) and has a recess (12) without the blade edge which is made in the wall in the shortest length of the cylinder and moreover, there is at least one throughout longitudinal cut in the wall of knife, stabilising the position of the knife and in which the guide (19) is located., as being protruded from the internal surface of the connector.

Description

The subject of the invention is a connecting head for aseptic feeding of liquid and / or semi-liquid and / or powdery substances into a flowing medium. Such a connecting head can be especially useful in those industries where there are special requirements for sanitary conditions, for example in the food industry, pharmaceutical industry, etc. In order to ensure that hygiene requirements are met to ensure that there is no infection caused by microorganisms in food products, it is very important to sterilize equipment, components and the final product in food production. The above requirements are vital for the food and pharmaceutical industries. Sterilization is carried out during the production process, and quality, as well as the economic effect of the release of the final product, depend on the sterilization process.

Such high requirements for sanitary conditions must be observed, for example, in relation to products obtained as a result of milk fermentation, with fruit additives in liquid or semi-liquid form. The problem of storing fruit additives under aseptic conditions was solved by packing these additives in containers that are commercially available and are called “bag in a box” (Wad-ίη-Βοχ). The tanks have a double-diaphragm valve, which can also be purchased on the open market under the name “Intasept” valve. This valve provides air tightness and allows aseptic filling of the tank. The intasept valve is made in the form of a hollow cylinder, closed by an outer membrane before filling the tank. The intasept valve is brought into contact with the inlet of the container, and after filling, the container can be closed with the inner membrane of the intacept valve, which was previously inserted into the container so that during filling it does not impede the flow of material into the container. The inner membrane of the Intasept valve is attached to the wall of the tank after filling the tank. The outer membrane of the Intasept valve is hermetically connected to the valve cylinder, forming a hermetically sealed inlet to the bag-in-box type container before the filling process begins. To ensure tight connection of the Intasept valve to the device that directs the substance into the container, threads and special cutouts are made at the end of the valve to ensure a snug fit.

Aseptic methods of filling bag-in-box containers equipped with an intasept valve, as well as the design of the tip of the device for filling and tightly closing containers, are disclosed in US Pat. No. 4,916,885, German Patent No. 35,0859 A1, c materials of European patent No. EP 0236107 and in publication XVO 99/47432. These patents disclose a method for aseptically filling bag-in-box containers by connecting a tip to the outer end of an Intasept valve, where sterilized agents and a substance placed in a container are also fed. The tip is located coaxially with the valve and its internal design is such that a movable knife is located in it. A knife is needed to cut the outer membrane of the valve to provide access to the flow of substance into the container. The knife should cut only the outer membrane of the Intasept valve, without damaging the inner membrane. Damage to the inner membrane will not allow aseptic closure of the container. To fill the tank, it is necessary, first of all, to sterilize the surfaces along which the substance flow, the knife and the outer membrane of the valve move. Then it is necessary to cut the outer membrane, feed the substance into the container and, finally, it is necessary to tightly attach the inner membrane of the Intasept valve to the wall of the container. To attach the inner membrane to the vessel wall, special tools are used on the outside of the vessel walls to close the inlet.

In these patents, the working surfaces of the knives used to cut the outer membrane have various designs and shapes. All these devices can be used exclusively for filling containers, observing the aseptic condition in the filling process and ensuring the tightness of an already filled bag-in-box container. At the same time, these devices cannot ensure compliance with the aseptic condition when emptying the tank. In these devices, by definition, the intasept outer membrane must be cut, while the internal membrane cannot be cut.

In this invention, the problem of emptying a bag-in-a-box type container closed by an intasept valve is solved, subject to the sterility condition, and also the problem of sterilely supplying the contents of the container to a production line where the supplied substance is mixed with the main composition. For this, a connecting head was designed, which can be hermetically connected to the outlet of the Intasept valve, which closes the container with the substance. The container is hermetically sealed with an intasept internal membrane. A knife is provided in the design of the connecting head.

The invention provides a connecting head for aseptically feeding and continuously dispensing a liquid and / or semi-liquid and / or powder substance into a medium from a container containing this liquid and / or semi-liquid and / or powder substance into a production line. The specified connecting head is a pipe section, which at one end is made with the possibility of tight connection with the outlet of the two-membrane valve that closes the container with the substance, and the container is hermetically closed by the inner membrane of the two-membrane valve. The connecting head has a knife for cutting the inner membrane and a throttle. The connecting head is characterized in that the throttle valve is installed on the side of the second end of the connecting head, and in the area between the two-diaphragm valve and the end position of the knife there is an inlet channel for steam and a downward channel for condensate discharge. At the end of the knife, opposite the edge of the blade, there is a transverse bent bar that interacts with the butterfly valve leaf. The knife is cylindrical in shape and has a blade edge in a plane inclined at a certain angle to the cylinder generatrix, and has a recess located outside the cutting edge, made in the wall in the region of the shortest part of the cylinder, and, in addition, at least one through longitudinal a groove in the wall of the knife, designed to hold the knife in a predetermined position, and in the groove is a guide piece protruding from the inner wall of the connecting head.

The present invention, as well as its principle of operation, are shown in the drawings, where FIG. 1 shows a connecting head in a side view with a partial cross section, where the connecting head is connected to a container containing semi-liquid material, FIG. 2 shows the same connecting head in a plan view, and FIG. 3 is a schematic illustration of a cylindrical knife.

A container 1 containing a semi-liquid substance (in this example, fruit puree) is closed by a membrane 2 of a two-membrane valve 3, sold under the brand name intasept. Capacity 1 is hermetically sealed and the fruit puree inside is disinfected. The outlet of the two-diaphragm valve 3 is connected to the inlet of the pipe 4. The connection is sealed by a gasket 5 and secured by a clamp 6. The flange 7, which is the terminal element of the throttle valve 8, is welded to the opposite end of the pipe 4. The knife 9 is located inside the pipe 4 along its axis and serves cutting the membrane 2. In more detail, the design of the knife 9 is shown in FIG. 3. The knife 9 is made in the form of a cylinder and has a blade edge 10 located in a plane inclined at a given angle to the cylinder generatrix 11. A recess 12 is made in the side wall of the cylinder 11, where the edge of the blade is removed. The recess 12 is made in the shortest part of the wall. On the opposite side of the edge 10 of the blade is a transverse strip 13, interacting with the sash 14 of the throttle 8. In the wall of the knife 9 there are two through longitudinal grooves. The outlet of the throttle valve 8 is connected to the technological line for the production of milk-based products. The pipe 4 is provided with two channels with mutually perpendicular axes, the steam inlet channel 15 connecting the inside of the pipe 4 to the steam supply source through the valve 16, and the outlet channel 17 connected to the inside of the pipe allows condensate to be removed through the valve 18. Inside the pipe 4 the guide element 19 is located in order to ensure the correct direction of movement of the knife 9.

The connecting head operates as follows. The flange of the two-diaphragm valve 3 protrudes from the wall of the tank 1, while the inlet of the pipe 4 is connected to the flange of the two-membrane valve 3 by means of a gasket 5 and is fixed by a clamp 6. A cylindrical knife 9 is located in the pipe 4, and its transverse bar 13 touches the valve 14. Relative position elements are shown in FIG. 1. The valve 16 of the inlet channel 15 for steam and the valve 18 of the outlet channel 17 for condensate are simultaneously opened to supply steam and drain the condensate. Steam is supplied and steam treatment is performed inside the connection head. After closing the steam inlet channel 15 using the valve 16 and the condensate outlet channel 17 using the valve 18, the throttle 8 is opened under sterile conditions and its wing 14 pushes the knife 9, cutting a hole in the membrane 2. Accuracy in the movement of the knife is achieved by setting a guide element 19 in a through groove in the wall of the knife 9. The relative position of the elements is shown in FIG. 2. Tank 1 (which was previously hermetically sealed) may be emptied. The part of the membrane 2 cut by the knife 9 is still connected to the tank 1, since the hole does not have a closed perimeter. This result is achieved due to the presence of a recess 12 in the wall of the knife 9. Thus, the cut-out part of the membrane is prevented from entering the production line. The semi-liquid substance, which in this case is fruit puree, can be aseptically dosed using a pump, depending on the technology. The invention also encompasses a manufacturing process in which several connecting heads (for example, two) are used alternately. This option can be implemented using conventional methods of controlling the production process. At the same time, various components can be supplied as additives to the product processed on the production line.

By using a connecting head made in accordance with the invention, a liquid and / or semi-liquid and / or powdery substance can be fed into the production line after steam treatment under sterile conditions. Thus, the final product does not require additional heat treatment.

Claims (1)

CLAIM Connection head for aseptic supply of liquid and / or semi-liquid and / or powdery substances into the flowing medium connecting the container containing the liquid and / or semi-liquid and / or powdery substance to the processing line, and the specified connecting head is a pipe section which at one end is made with the possibility of hermetic connection with the outlet of the two-membrane valve closing the container with the substance, and the container is hermetically sealed with the internal membrane of the two-membrane valve, where the connecting head has a knife for cutting the inner membrane and a butterfly valve, characterized in that the butterfly valve is installed on the side of the second end of the connecting head, and in the area between the two-membrane valve (3) and the final position of the knife (9) the inlet channel (15 ) for steam and downward channel (17) for condensate to exit, and at the end of the knife (9), opposite the edge (10) of the blade, there is a transverse bent strap (13) interacting with the sash (14) of the throttle valve (8), the knife fulfilled has a cylindrical shape and has an edge (10) of the blade in a plane inclined at a certain angle to the generator of the cylinder (11), and has a recess (12) located outside the cutting edge, made in the wall in the region of the shortest part of the cylinder, and also made at least at least one through longitudinal groove in the knife wall, designed to hold the knife in a predetermined position, with the guide part (19) protruding from the inner wall of the coupling head in the groove.