TR202021054Y - ONE FILLING NOZZLE - Google Patents

Abstract

The invention consists of a body (10) with a cylindrical channel for use in liquid filling machines; A feed inlet (2) in cylindrical form, with a diameter greater than 20 centimeters, preferably at least 25 centimeters, provided on the said body (10), not parallel to the direction of liquid flow, and the said feed inlet (2), included in the said channel and having a wider diameter than the rest of the channel. a filling channel (50) directly connected to; At the exit end of the filling channel (50), the passage (51) has a narrower diameter than the filling channel (50); the outlet head (40) arranged below the passage (51), in connection with the nozzle body (10), for the exit of the liquid from the nozzle (10); a nozzle shaft (11) arranged to be connected to a drive element (5) that provides a linear movement at one end and having a head (20) provided to close and open the gate (51) at the other end; At least two shaft holders (70) positioned at the top of the filling channel (50) and provided in a way that they remain between the nozzle shaft (11) and the nozzle body (10) and do not prevent the movement of the nozzle shaft (11); It is related to the intermediate shaft holder (71) made of polyoxymethylene material, positioned between the said shaft holders (70), and the filling nozzle (1) containing shaft seals (72), one of which is provided under one of the shaft holders (70), and the other is provided above the other shaft holder (70).

Description

DESCRIPTION A FILLING NOZZLE TECHNICAL FIELD The invention relates to a filling nozzle arranged for the filling of liquids, especially kefir, and a filling system having the relevant nozzle. BACKGROUND ART Filling nozzles are structures that enable the liquid coming from a supply tank to be transferred to a container, package or bottle with the right pressure. Filling nozzles are used for filling liquids in milk and dairy products production and in many sectors. It is connected to a feeding element with the feeding inlet, and as a result of the said connection, the liquid flows from the feeding element into the filling channel of the nozzle. Here, a passage is arranged at the bottom of the filling channel and this passage is moved by a head connected to a shaft provided in the nozzle. When the shaft is moved by a drive element, the head opens the passage, allowing the liquid filled into the filling channel to flow towards the outlet. In these mentioned systems, especially in systems designed for kefir and similar products, the feeding inlet is provided with a diameter of 20 centimeters. Filling using the nozzle in question with the mentioned width is extremely slow, and to solve this, attempts are made to increase the flow rate by applying pressurized air to the feeding tank. Here, the pressurized flow causes foaming and splashing in the kefir during filling. In addition, during the movement of the mentioned shaft, it is seen that the head that opens and closes the passage carries some kefir with it. The transported kefir enters especially between the shaft holders surrounding the shaft, and this causes hygiene problems in the long term and also shortens the life of the shaft holders. As a result, all the problems mentioned above have made it necessary to make an innovation in the relevant field. PURPOSE OF THE INVENTION The present invention aims to eliminate the problems mentioned above and to make a technical innovation in the relevant field. The main purpose of the invention is to increase the flow rate of a filling nozzle designed for filling liquids, especially kefir, without creating any pressure on the system and to improve its sealing properties. BRIEF DESCRIPTION OF THE INVENTION The present invention is a filling nozzle for liquid filling machines in order to realize all the purposes mentioned above and that will emerge from the detailed description below. Accordingly, the present invention is a body with a cylindrical channel; A feeding inlet with a diameter greater than 20 centimeters, preferably at least 25 centimeters, in cylindrical form, provided on the said body, not parallel to the direction of liquid flow, and a filling channel included in the said channel and having a larger diameter than the rest of the channel, directly connected to the said feeding inlet; At the exit end of the filling channel, a passage with a narrower diameter than the filling channel; An outlet head arranged under the passage, in connection with the nozzle body, for the liquid to exit the nozzle; a nozzle shaft arranged to be connected at one end to a drive element providing a linear movement and having a head provided at the other end to be able to close and open the passage; At least two shaft holders positioned in the upper part of the filling channel and provided in a way that they remain between the nozzle shaft and the nozzle body and do not prevent the movement of the nozzle shaft; It contains an intermediate shaft holder between the said shaft holders and oil seals, one of which is provided under one of the shaft holders and the other above the other shaft holder. A preferred embodiment of the invention includes a drive connection to connect said nozzle shaft to a drive element. Another preferred embodiment of the invention includes a felt around the said head. In a preferred embodiment of the invention, said head comprises a retaining protrusion and the felt includes a recess corresponding to said retaining protrusion. Another preferred embodiment of the invention includes an o-ring between the said retaining protrusion and the recess. A preferred embodiment of the invention includes screw threads on the outer surface of the body and on the inner surface of the outlet head connection, which sits on the nozzle body of the outlet head, to ensure that the said outlet head and the body are connected to each other. In order to achieve all the purposes mentioned above and that will emerge from the detailed description below, the present invention includes a filling nozzle in accordance with any of the claims or embodiments that will emerge from the detailed description; It is a kefir filling system that includes a kefir feeding element connected to the said filling nozzle from the feeding inlet and a drive element that drives the nozzle shaft of the said filling nozzle to open and close the passage in a linear motion. BRIEF DESCRIPTION OF THE FIGURES Figure 1 shows the representative schematic view of the filling machine where the nozzle of the invention is used. Figure 2 shows a cross-sectional view of the nozzle that is the subject of the invention. Drawings do not necessarily have to be scaled and details that are not necessary to understand the present invention may be omitted. Furthermore, elements that are at least substantially identical or have at least substantially identical functions are designated by the same number. EXPLANATION OF REFERENCE NUMBERS IN THE FIGURES 1. Nozzle 2. Feed inlet 3. Feed element 4. Feed pipe. Drive element 6. Transport element . Body 11. Nozzle shaft 12. Drive connection 13. Head housing. Head 21. Holding protrusion 22. Connection extension . Felt 31. Recess 40. Output head 41. Output head connection 42. Screw threads 50. Filling channel 51. Gate 60. Shaft gate 70. Shaft holder 71. Intermediate shaft holder 72. Oil seal AY. Opening direction KY. Closing direction DETAILED DESCRIPTION OF THE INVENTION In this detailed description, a filling nozzle (1) which is the subject of the invention is explained only with examples that will not create any limiting effect for a better understanding of the subject. A body (10) having a cylindrical channel related to a filling nozzle (1) to be used in the liquid filling machines of the invention; A feed inlet (2) with a diameter greater than 20 centimeters, preferably at least 25 centimeters, in cylindrical form, provided on the said body (10), not parallel to the direction of liquid flow, and the said feed inlet (2), included in the said channel and having a wider diameter than the rest of the channel. a filling channel (50) directly connected to; At the exit end of the filling channel (50), the passage (51) has a narrower diameter than the filling channel (50); Under the passage (51), the outlet head (40) arranged in connection with the nozzle body (10) for the exit of the liquid from the nozzle (10); a nozzle shaft (11) arranged to be connected to a drive element (5) that provides a linear movement at one end and having a head (20) provided to close and open the passage (51) at the other end; At least two shaft holders (70) positioned in the upper part of the filling channel (50) and provided in a way that they remain between the nozzle shaft (11) and the nozzle body (10) and do not prevent the movement of the nozzle shaft (11); It contains an intermediate shaft holder (71) made of polyoxymethylene material, positioned between the mentioned shaft holders (70), and shaft seals (72), one of which is provided under one of the shaft holders (70), and the other one is provided above the other shaft holder (70). Referring to Figure 1; The nozzle (1) subject to the invention is arranged to be used in a filling system. The filling system in question includes a feeding element (3) specifically for preserving kefir. The feeding element (3) can be a balance tank. The said feeding element (3) is connected to the feeding inlet provided on the body (10) of the nozzle (1) via a filling feeding pipe (4). A drive element (5) is provided on the upper part of the nozzle (1). The said drive element (5) is especially arranged to provide linear movement and can preferably be selected as a piston. The drive element (5) ensures or interrupts the liquid flow from the nozzle (1) by driving the nozzle shaft (11). Preferably, a carrying element (6) is positioned at the bottom of the nozzle (1), provided to sequentially carry the container, packaging or bottle-like structures to be filled, to the filling position. Here, the transport element (6) is preferably a conveyor. Referring to Figure 2.A; The said nozzle (1) is configured on a body (10). A channel is arranged in the inner part of the said body (10) through which the nozzle shaft (11) can move. The channel consists of a shaft passage (60) at the top, a filling channel (50) with a larger diameter at the bottom of the shaft passage (60), and a passage (51) with a smaller diameter than the filling channel (50) at the bottom of the filling channel (50). is occurring. The nozzle shaft (11) is positioned longitudinally in the said channel. Here, a drive connection (12) is arranged on the upper part of the nozzle shaft (11), one end of which is arranged to be connected to the nozzle shaft (11) and the other end to the drive element (5). At the other end of the said nozzle shaft (11), a head slot (13) extending in the axial direction is arranged. The head (20) is connected to the said head slot (13). It includes a head (20) connection extension (22). The separate design of the head (20) and the nozzle shaft (11) facilitates assembly. The end part of the said head (20) is provided with a diameter that can close the passage (51). A felt (30) is arranged around the head (20) in question to ensure sealing. In the case where the nozzle (1) is closed, the holder protrusion (21) extending in the axial direction is preferably arranged on the said passage (51) of the felt (30). The felt (30) sits on the said holder protrusion (21) through a recess (31) provided on it, and an o-ring (O) is placed between the said holder protrusion (21) and the recess (31) to increase the sealing. The outlet head (40) is arranged at the bottom of the head (20). The outlet head (40) contains an outlet head connection (41) section arranged in the form of a cylindrical shell, and said outlet head connection (41) is arranged to fit on the said body (10). Here, the body (10) and the outlet head connection (41) contain screw threads (42) to be connected to each other, and accordingly the head (40) is easily connected to the body (10) by turning and tightening. The upper part of the nozzle shaft (11) is arranged to pass through the shaft passage (60) as mentioned before. The said nozzle shaft (11) must be guided in the shaft passage in such a way that it does not move laterally. For this reason, in the relevant part, an intermediate shaft holder (71) and shaft holders (70) are provided at the upper and lower parts of the said intermediate shaft holder (71). The said intermediate shaft holder (71) is preferably made of polyoxymethylene material, also known as delrin. O-rings (O) are arranged between the shaft holders (70) and the body. Shaft seals (72) are arranged on the mentioned shaft holders (70) to strengthen the sealing. The oil seals (70) prevent the fluid carried by the head (20) from entering the shaft passage (60) when it moves to the open position. The feeding inlet (2) is directly connected to the filling channel (50). Here, the feeding inlet (2) has a cylindrical mouth and the diameter of said cylindrical mouth is greater than 20 centimeters and preferably at least 25 centimeters wide. The kefir supplied from the feeding inlet (2) is filled into the said filling channel (50). After and before the filling channel (50) is filled, the drive element (5) causes the head (20) to open the passage (51) by pulling the nozzle shaft (1 1) in the opening direction (AY), and accordingly, the kefir is ensured to flow to the outlet head (40). Conversely, when the drive element (5) positions the head (20) in the closing direction (KY) so as to close the passage (51) again, the passage of kefir to the outlet head (40) is prevented, even if there is kefir in the filling channel (50). The scope of protection of the invention is specified in the attached claims and cannot be limited to what is explained in this detailed description for exemplary purposes. Because it is clear that a person skilled in the art can produce similar structures in the light of what is explained above, without deviating from the main theme of the invention. TR TR TR

Claims (1)

1. CLAIMS The invention relates to a filling nozzle (1) to be used in liquid filling machines and its feature is; a body (10) having a cylindrical channel; A feed inlet (2) with a diameter greater than 20 centimeters, preferably at least 25 centimeters, in cylindrical form, provided on the said body (10), not parallel to the direction of liquid flow, and the said feed inlet (2), included in the said channel and having a wider diameter than the rest of the channel. a filling channel (50) directly connected to; At the exit end of the filling channel (50), the passage (51) has a narrower diameter than the filling channel (50); Under the passage (51), the outlet head (40) arranged in connection with the nozzle body (10) for the exit of the liquid from the nozzle (10); a nozzle shaft (11) arranged to be connected to a drive element (5) that provides a linear movement at one end and having a head (20) provided to close and open the passage (51) at the other end; At least two shaft holders (70) positioned in the upper part of the filling channel (50) and provided in a way that they remain between the nozzle shaft (11) and the nozzle body (10) and do not prevent the movement of the nozzle shaft (11); The intermediate shaft holder (71) is positioned between the said shaft holders (70) and one is under one of the shaft holders (70). The other is that it contains shaft seals (72) provided on the other shaft holder (70). It is a filling nozzle (1) in accordance with claim 1 and its feature is; It contains a drive connection (12) to connect the said nozzle shaft (11) to a drive element (5). It is a filling nozzle (1) in accordance with claim 1 and its feature is; It contains a felt (30) around the said head (20). It is a filling nozzle (1) in accordance with claim 3 and its feature is; The said head (20) contains a retaining protrusion (21) and the felt (30) contains a recess (31) suitable for the said retaining protrusion. . It is a filling nozzle (1) in accordance with claim 4 and its feature is; It contains an o-ring (O) between the said holder protrusion (21) and the recess (31). . It is a filling nozzle (1) in accordance with claim 1 and its feature is; The said spacer (71) is made of polyoxymethylene material. . It is a filling nozzle (1) in accordance with Claim 1 and its feature is; It contains screw threads (42) on the outer surface of the body (10) and on the inner surface of the outlet head connection (41) of the outlet head (40) sitting on the body (10) in order to connect the said outlet head (40) and the body (10) to each other. . The invention includes a filling nozzle (1) in accordance with any of the above claims; The kefir feeding element (3) provided in connection with the said filling nozzle (1) from the feeding inlet (2) and a drive element (which drives the nozzle shaft (11) of the said filling nozzle (1) in a way that enables it to open and close the gate (51) in a linear motion. It is a kefir filling system containing 5). TR TR TR