JP2016107994A - Filling nozzle for liquid - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a filling nozzle for a liquid which has high durability and which can surely prevent the liquid from dripping in the filling nozzle of a pouch with a spout.SOLUTION: A filling nozzle for a liquid comprising a pipe in which at least the liquid flows and a plunger being disposed in the pipe and controlling the flow rate of the liquid has a liquid-repellent coating layer at the lower part of the plunger. The liquid-repellent coating layer is made of a fluorine-based nanoparticle coating.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a filling nozzle. In particular, the invention relates to a filling nozzle for liquid that can be used in a pouch with a stopper.

  In recent lifestyles, many liquid containers using plastic film and liquid paper containers are produced, distributed and sold in the distribution and sale of liquid products and delivered to consumers. For example, beverages such as juices, milk drinks, and alcoholic beverages are filled in liquid containers such as bottles and paper containers by a liquid filling device by a manufacturer and sent out as products.

  There are various types of the filling device or its modified type, and all of them are for discharging the liquid filling contained in the supply tank into the container from the tip of the filling nozzle. The filling nozzle basically consists of a pipe part through which the liquid flows and a valve mechanism for controlling the flow rate (discharge and shutoff) or flow rate of the liquid. The valve mechanism is provided at a predetermined position such as near the tip of the pipe. Yes.

  As for the delivery of the filling material from the supply tank to the filling nozzle, there is one that uses gravity, but generally the filling material is pumped by some kind of piston mechanism. Pumping is also suitable for non-uniform packings including viscous fillings and pulp, etc., and it is easy to adjust the filling amount by adjusting the stroke of the piston mechanism, and it is easy to synchronize pumping and valve opening and closing. High adaptability to both filling and liquid containers.

  In general, in a liquid filling apparatus, a liquid container is intermittently disposed below a filling nozzle, and a filling material is discharged and dropped from the filling nozzle for a predetermined time. When the predetermined amount of filling is completed, the filling nozzle enters a standby state until the next discharge.

  The nozzle tip may or may not be inserted into the container mouth. There are several types of cases, such as shallow insertion, deep insertion, and movement following the filling liquid surface. In general, in the case of a liquid pouch with a plug, the tip of the nozzle is brought into contact with and inserted into the plug to perform filling.

  In any case, in intermittent liquid filling, the filling of one container is completed and a waiting time until the start of the filling of the next container is created, during which the filling adhered to the tip of the filling nozzle is dried. The liquid may solidify or dripping from the nozzle.

  The liquid sag drops on the periphery of the mouth of the container, on the outer surface, or on the transfer device, and causes a problem of fouling them. In particular, in the case of a high-viscosity liquid, the fluidity of the liquid is low. Therefore, if the liquid sag is eliminated, the waiting time may be long.

  Regarding the prevention of liquid sag, a technique is disclosed in which the internal structure of the liquid filling nozzle is devised so that the inside of the nozzle is negatively charged at the end of filling, and the filling material remaining on the inner periphery of the nozzle is sucked. Alternatively, a technology has been proposed in which a mesh screen is installed on the inner surface of the nozzle tip and the frictional resistance between the filler and the screen is increased by optimizing these materials and shapes, and the filler is collected in the center of the screen to prevent dripping. ing. However, these methods have a risk of sacrificing productivity, for example, it takes time to prevent dripping and the cycle time decreases.

  Further, Patent Document 1 proposes a countermeasure against liquid dripping by providing a liquid repellent coating on the inner and outer circumferences of the tip of the liquid filling nozzle. However, the liquid repellent coating is peeled off due to the nozzle rubbing against the stopper of the container during filling. There was a fear. Further, in the case of a high-viscosity packing, it takes time for the packing to flow to the plunger tip and gather, and there is a risk that the clogging of the packing liquid will fall on the cap after capping.

  Therefore, there is a need for a liquid filling nozzle that is highly durable and reliably prevents liquid dripping when filling a pouch with a cap.

Japanese Patent Application Laid-Open No. 2014-5209

  The present invention has been made in view of such a situation, and an object of the present invention is to provide a liquid filling nozzle that is highly durable and can reliably prevent liquid dripping in a filling nozzle of a pouch with a stopper.

  As a means for solving the above problems, the invention according to claim 1 is a filling nozzle including at least a pipe through which a liquid flows and a plunger provided in the pipe for controlling a flow rate. The liquid filling nozzle is characterized by having a liquid repellent coating layer under the plunger.

  The invention according to claim 2 is the liquid filling nozzle according to claim 1, wherein the liquid repellent coating layer is made of a fluorine-based nanoparticle coating.

  The invention according to claim 3 is the liquid filling nozzle according to claim 1 or 2, wherein the tip of the plunger is convex downward.

  The invention according to claim 4 is the liquid filling nozzle according to any one of claims 1 to 3, wherein a suction port is provided at the center of the convex tip of the plunger. is there.

  ADVANTAGE OF THE INVENTION According to this invention, in the filling nozzle of a pouch with a stopper, it is possible to provide the filling nozzle for liquid which has high durability and can prevent liquid dripping reliably.

  According to the invention of claim 2, it is possible to provide a liquid filling nozzle that has excellent durability and can more effectively prevent liquid dripping.

  According to the third aspect of the present invention, it is possible to provide a liquid filling nozzle capable of preventing liquid dripping more effectively because the plunger tip is convex downward.

  According to the invention of claim 4, it is possible to provide a liquid filling nozzle capable of actively and reliably preventing liquid sag by the suction port.

FIG. 1 is a partial cross-sectional schematic view showing a state in which the liquid of one embodiment of the liquid filling nozzle according to the present invention is filled. FIG. 2 is a partial cross-sectional schematic view showing a state where liquid filling of an embodiment of the liquid filling nozzle according to the present invention is completed.

  Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to FIGS. 1 and 2.

  There are various types of liquid filling nozzles, but basically a pipe through which liquid is poured into a liquid container and a valve mechanism installed in the middle or at the end of the pipe to control the flow rate Consists of. The valve mechanism consists of a plunger and an opening through which the liquid exits.

  While the valve mechanism is open, the liquid is filled from the opening to the liquid container side. After a certain flow rate is ensured, the valve mechanism closes to shut off the liquid flow. At this time, some liquid remains in the opening and the lower part of the plunger, and falls as a trap.

  According to the present invention, by providing a liquid-repellent coating at the lower part of the plunger, it is possible to promptly drop the remaining liquid into the container, and to prevent liquid dripping that can damage the outside of the container and the apparatus.

  FIG. 1 is a partial cross-sectional schematic view showing a state in which the liquid of one embodiment of the liquid filling nozzle according to the present invention is filled. The filling nozzle (10) consists of a pipe (1) and a plunger (2), and the liquid flows through the valve mechanism (7) consisting of the opening of the pipe (1) and the tip of the plunger (2) ( 8) is controlled. The tip of the pipe (1) is in contact with the inside of the cap (6), and the liquid of the contents is filled into the container by the flow of the liquid. However, FIG. 1 does not show the supply tank in which the filling liquid is accommodated and the drive mechanism for the plunger.

  The tip of the plunger has a shape that bulges downward and has a liquid repellent coating (5) on its surface. A residual liquid suction port (4) is provided at the convex tip, and the liquid collected at the convex tip is prevented from dripping out of the residual liquid suction port (4) to the residual liquid suction path (3). Sucked up via.

  FIG. 2 is a partial cross-sectional schematic view showing a state where liquid filling of an embodiment of the liquid filling nozzle according to the present invention is completed. The plunger (2) descends in the pipe (1), and the flow of the liquid is blocked in such a way that the opening of the pipe (1) and the tip of the plunger (2) come into contact with each other.

  At this time, the remaining liquid of the liquid adheres to the tip of the plunger (2), but the remaining liquid descends along the convex shape of the plunger tip and collects at the bottom. If left unattended, the remaining liquid will fall as a trap.

Because the liquid repellent coating (5) is applied to the tip of the plunger, the remaining liquid of the adhering liquid moves and falls as indicated by the arrow (13), but the speed is the liquid repellent coating (5). Is accelerated by. Alternatively, as shown by the arrow (11), the liquid is forcibly sucked from the residual liquid suction port, and is discharged out of the filling nozzle as shown by the arrow (12) through the residual liquid suction path (3).
Thus, the liquid adhering to the plunger tip is quickly dropped or removed by suction, so that liquid dripping can be prevented and the cycle time of filling can be shortened.

  Hereinafter, further detailed description will be given for each component according to the present invention.

  The liquid container to be filled by the liquid filling nozzle according to the present invention can be, for example, a large liquid container called a bag-in-box with a stopper, and can also be a pouch with a small stopper. I can do it.

  If the liquid repellent coating has water repellency and oil repellency, it has a certain effect. For example, a fluorine nano-coating can be used, and the heel is dropped more rapidly. Although the coating method is not particularly limited, for example, in the case of fluorine nanocoating, it is preferable to electrodeposit the fluorine nanoparticles.

  It is preferable that the liquid adhered to the surface by the liquid repellent coating is dropped into the container before the filling nozzle is separated from the container stopper after completion of the filling. As a result, dripping out of the container can be prevented.

  Further, the adhering liquid is forcibly sucked from the residual liquid suction port as indicated by an arrow (11), and is discharged out of the liquid filling nozzle as indicated by an arrow (12) through the residual liquid suction path (3). By the mechanism, it is possible to remove the liquid adhering more reliably and prevent the liquid from dripping before the filling nozzle moves away from the container stopper after the filling.

  This also has an effect that it is possible to shorten the waiting time particularly in a liquid having a high viscosity. Further, the liquid sucked and discharged out of the nozzle may be returned to the original supply tank or discharged outside.

The strength of water repellency can be said to be low surface free energy, but substances having low surface free energy include saturated fluoroalkyl groups (particularly trifluoromethyl group (—CF ₃ ⁻ ), alkylsilyl groups, fluoro Examples thereof include a material having a functional group such as a silyl group or a long-chain alkyl group.

  The contact angle between water and a surface on which trifluoromethyl groups are regularly arranged in a plane is about 120 degrees, but this is larger than 10 degrees to 60 degrees of a normal metal surface, so it is slippery and adheres to the surface. Liquid traps are easy to fall. Therefore, water repellency can be imparted by providing a compound containing a trifluoromethyl group on the tip of the plunger. In the present invention, a coating layer of fluorine nanoparticles is formed by an electrodeposition coating method to form a water repellent layer.

  The electrodeposition coating method is a method in which static electricity having different polarities is applied to the paint and the object to be coated, and the object to be coated is placed in an aqueous paint. In this case, a coating film is formed on the object to be coated immersed in the aqueous paint. There are two types of paints that can be used for this, anion electrodeposition paints and cationic electrodeposition paints, but most of the electrodeposition paints are cationic electrodeposition paints, and anion electrodeposition paints are rarely used. The main reason is that the cationic system is superior in corrosion resistance.

  That is, because the paint is an aqueous paint, in principle, a coating film is formed by a neutralization reaction utilizing the alkalinity generated when water is electrolyzed. Specifically, it is preferable to use a fluorine nanoparticle having a mean particle size of about 5 to 10 nm as a paint, which is a compound containing a trifluoromethyl group.

In addition, the water-repellent coating layer can be formed in the same manner as long as there is a portion where the liquid easily adheres in the metal parts of the valve mechanism. In the case of a non-metallic component, the water-repellent coating layer can be formed by forming an electroless plating film.

  Thus, according to the present invention, it is possible to provide a liquid filling nozzle that is highly durable and can reliably prevent liquid sag in the filling nozzle of the plug with pouch.

DESCRIPTION OF SYMBOLS 1 ... Pipe 2 ... Plunger 3 ... Residual liquid suction path 4 ... Residual liquid suction port 5 ... Liquid-repellent coating 6 ... Plug 7 ... Valve mechanism 8 ... Liquid flow 10 ... filling nozzle 11 ... arrow 12 ... arrow 13 ... arrow

Claims (4)

  A filling nozzle comprising at least a pipe through which a liquid flows and a plunger for controlling a flow rate provided in the pipe, and having a liquid repellent coating layer under the plunger nozzle.   The liquid filling nozzle according to claim 1, wherein the liquid repellent coating layer is made of a fluorine-based nanoparticle coating.   The liquid filling nozzle according to claim 1, wherein a tip of the plunger has a convex shape in a downward direction.   The liquid filling nozzle according to any one of claims 1 to 3, wherein a suction port is provided at the center of the convex tip of the plunger.