JPH02205501A - Filling nozzle - Google Patents

Abstract

PURPOSE:To make the uniformity of filling and filling efficiency coexist even when a container of which diameter drastically changes in the inside of the container by a method wherein a nozzle mouth is totally opened at the ascending position of a spindle, and one end of the spindle is fitted in the nozzle mouth at the descending position of the spindle. CONSTITUTION:An injection pipe 1 is lowered until a nozzle mouth 2 approaches the bottom part of a container 23, and the lower end of d spindle is at the same surface with the lower end of the nozzle mouth 2. A filling object 6 flows into a flow in path 5 as shown by arrow F and flows out from a flowing path 4. The filling object 6 is filled in the container 23 by a diameter e.g. approximately 6mm and is uniformly filled even in the inside of a mouth cylindrical part 7 of the container 23. When the filling advances, and the filling object 6 reaches the drum part of the container 23, the spindle 3 ascends and the nozzle mouth 2 is released. Then the filling object 6 is filled e.g. with a diameter of approximately 10mm. Accompanying with the advance of the filling, the injection pipe 1 gradually ascends, and when the injection pipe 1 reaches the upper end of the container 23, the feeding of the filling object 6 is stopped. At the same time, the spindle 3 sticks out from the nozzle mouth 2 for an instant to empty the inside of the lower end part of the flowing path 4, and thus the filling object is cut.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a filling nozzle, and particularly to a filling nozzle, in particular a type in which one end of a spouting tube has a small diameter as a nozzle opening, and a spindle is slidably installed inside the spouting tube. relating to things.

[Conventional technology]

Conventionally, as a filling nozzle for filling a container with a viscous substance, there is one described, for example, in Japanese Patent Application Laid-Open No. 56-57625.

As shown in FIG. 7, one end of the spouting pipe 20 is made into a small diameter nozzle port 21, and a spindle 22 is slidably installed inside the spouting pipe 20, and the spindle 22 is moved upward. In this position, the nozzle opening 21 is opened and the container 23 is filled with a hand-kneaded filling material. When finishing filling, spindle 2
2 is moved downward to fit into the nozzle opening 21.

As described above, in the conventional device, a filler having a constant diameter is extruded from the nozzle port 21.

[Problem to be solved by the invention]

However, in the conventional method described above, when the filling material has a high viscosity and a large volume is to be filled, a larger nozzle diameter is desirable in terms of filling efficiency. Since it will be filled with
It becomes difficult for the filling to spread evenly to the details of the container.

In particular, when filling a tube container, the diameter of the neck where the cap is attached and the diameter of the rear end opening, which is the filling port, are significantly different, so the nozzle port should be adjusted with emphasis on uniformity of filling. There is no choice but to adopt either the diameter of the nozzle to be made smaller, or the diameter of the nozzle opening to be made larger with emphasis on filling efficiency. In the former case, the filling efficiency decreases, and in the latter case, there is a problem that cavities are created in the filling.

The present invention has been made in view of the above-mentioned point 4, and its technical object is to provide a filling nozzle that can achieve both filling uniformity and filling efficiency.

[Means to solve the problem]

In order to solve the above technical problem, the present invention has the following configuration.

That is, one end of the spouting pipe 1 is made to have a small diameter and is used as the nozzle port 2.

A spindle 3 is slidably installed inside this spouting tube 1.

A flow path 4 that opens at one end of the spindle 3 is formed in this spindle 3, and an inflow path 5 that communicates with this flow path 4 and opens at the side surface of the spindle 3 is formed.

Further, the nozzle opening 2 is fully opened when the spindle 3 is in the ascending position, and one end of the spindle 3 is fitted into the nozzle opening 2 when the spindle 3 is in the descending position to form a filling nozzle. The shape of the inflow path 5 is an ellipse along the spindle 3;
It can be rectangular or circular.

[Effect]

When the spindle 3 is in the raised position, the nozzle opening 2 is fully opened, and the filling is poured out in a thick amount. In this state, there is less resistance within the nozzle and efficient filling can be performed.

On the other hand, in the lowered position of the spindle 3, one end of the spindle 3 fits into the nozzle opening 2, so that the filling material is poured out from the flow path 4. In this state, the nozzle diameter becomes smaller, so the filling material is narrowed down, and even the smallest details of the container can be filled.

Therefore, even when filling a container such as a tube container whose diameter varies greatly inside the container, both uniformity of filling and filling efficiency can be achieved by appropriately adjusting the position of the spindle 3.

〔Example〕

Embodiments of the present invention will be described based on FIGS. 1 to 6.

The lower end of the spouting pipe 1 has a small diameter and is open as a nozzle port 2. This pouring pipe! A spindle 3 is slidably installed inside. The diameter of the spindle 3 is set so that it fits tightly into the nozzle opening 2 in a slidable manner, and a space is formed between the spindle 3 and the inner wall of the spouting pipe 1 at a portion other than the nozzle opening 2. This spindle 3 is formed with a flow passage 4 extending from its lower end to the inside, and this flow passage 4 communicates with an inflow passage 5 that opens on the side surface of the spindle within the spindle 3. The inlet passage 5 has an oval shape as shown in FIG.

The spindle 3 is vertically movable by a known vertical movement device, and at the lowest position, its lower end protrudes slightly beyond the nozzle opening 2, and at the uppermost position, its lower end extends beyond the nozzle opening 2, as shown in FIG. The nozzle port 2 is opened upward and the nozzle opening 2 is completely opened. Note that the opening diameter of the nozzle port 2 is set to IOam, and the opening diameter of the flow path 4 is set to 6+am.

The filling nozzle configured as described above is entirely movable up and down by a vertical movement device (not shown).

Hereinafter, an example of operation will be explained based on FIGS. 3 and 4.

This shows the process of filling the tube container. First, the spout tube 1 is moved down until the nozzle port 2 approaches the bottom of the container 23, as shown in FIG. In this position, the lower end of the spindle 3 is flush with the lower end of the nozzle port 2, as shown in FIG. leak. Therefore, the filler 6 is filled into the container 23 with a diameter of approximately 6 am, and evenly filled into the inside of the mouth portion 7 of the container 23.

When the filling progresses and the filling material 6 reaches the body of the container 23, the spindle 3 rises and the nozzle opening 2 is opened as shown in FIG.
release. Then, the filling material 6 has a diameter of approximately 10 mm and is filled as shown in FIG. The spouting pipe 1 gradually rises as filling progresses, and when it reaches the upper end of the container 23, the supply of the filling material 6 is stopped, and at the same time, the spindle 3 momentarily protrudes from the nozzle opening 2 to open the flow path. The lower end of 4 is hollowed out and the filling 6 is cut.

FIG. 6 shows an example of operation when filling a so-called gourd-shaped container whose cross-sectional area differs in the height direction. ) was taken in the S direction, and the height of the container 23 was taken in the H direction. As shown in the figure, in areas where the cross-sectional area of the container 23 is small, the spindle 3 is lowered to fill the filling material 6 thinly and at a faster flow rate, and in areas where the cross-sectional area is large, the spindle 3 is raised to efficiently fill the material. It was possible to quickly and evenly spread the substance 6 to the details of the container.

〔Effect of the invention〕

According to the present invention, the nozzle opening 2 is fully opened when the spindle 3 is in the raised position, and one end of the spindle 3 is fitted into the nozzle opening 2 when the spindle 3 is in the lowered position.
Even when filling a container whose diameter varies greatly inside the container, such as a tube container, both uniformity of filling and filling efficiency can be achieved by appropriately adjusting the position of the spindle 3.

[Brief explanation of the drawing]

1 to 6 show embodiments of the present invention, in which FIG. 1 is a cross-sectional view of the spindle in a lowered state, FIG. 2 is a cross-sectional view of the spindle in a raised state, and FIG. 3 is a partial side view of the spindle. , FIG. 4 and FIG. 5 are cross-sectional views showing a filling state, FIG. 6 is a view showing an example of filling a deformable container, and FIG. 7 is a cross-sectional view showing a conventional filling nozzle. ! ... Output pipe, 2... Nozzle opening, 3... Spindle, 4... Distribution path,
5...Inflow channel. Figure 1↓ Figure 2↑ Figure 4 Figure 5 Figure 3 Figure 6

Claims (1)

[Claims] (1) One end of the spouting pipe 1 has a small diameter and is used as the nozzle opening 2, a spindle 3 is slidably installed inside the spouting pipe 1, and a flow passage 4 that opens at one end of the spindle 3 is provided in the spindle 3. At the same time, an inflow passage 5 is formed which communicates with the flow passage 4 and opens on the side surface of the spindle 3. When the spindle 3 is in the raised position, the nozzle opening 2 is fully opened, and when the spindle 3 is in the lowered position, one end of the spindle 3 is opened to the nozzle. Mouth 2
A filling nozzle characterized in that it is configured to fit inside.