JP2856674B2 - Liquid filling equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to vinegar, soy sauce, sauce,
The present invention relates to a filling device for filling a liquid such as mirin, sake, fruit juice, mineral water, and other liquids such as industrial chemicals together with measuring a predetermined amount thereof.

[0002]

2. Description of the Related Art In order to store the above-mentioned liquid, a so-called bag-in-box container in which a thin container made of blow-molded polyethylene or the like is stored inside a container made of a strong cardboard or the like is used. This bag in
A gravimetric filling machine is used for filling a liquid which is the contents of a box. In this heavy duty filling machine, filling by a load cell method is mainly used. In this load cell system, as shown in FIG. 5, a packing material b for filling a liquid is placed on a load cell (meter) a, and a filling nozzle c is inserted into the packing material b, and the filling nozzle c is The stock solution for filling is sent out from the stock solution tank d, and is weighed by the load cell a.
The air is exhausted from the opening b1 of the packaging material b through the water / water separation tank e and the intake blower f.

[0003]

The above-mentioned load cell method uses an impact load due to liquid when filling a container,
Due to the influence of the contact between the filling nozzle and the container, etc., it is difficult to fill an accurate predetermined amount.In addition, the conventional filling machine has the effect that air in the atmosphere mixes from the gap between the packing material opening and the filling nozzle. In addition, it has been pointed out that a problem of foaming at the time of filling or an environmental problem arises when filling a liquid which generates gas or the like. Further, there is a disadvantage in that it is necessary to cut off the liquid at the initial stage of filling prior to filling, which is troublesome. Further, after the filling is completed, excess liquid dripping from the filling nozzle occurs. The present invention has been made in view of the above circumstances, and has as its object to provide an accurate and highly reliable filling device that solves the above problems.

[0004]

According to the above object, according to the present invention, there is provided an undiluted solution tank, and a feed pump from the undiluted solution tank.
A gas-liquid separation tank for introducing the undiluted solution, and a gas-liquid separation tank
Nozzle that introduces the stock solution and supplies the stock solution to the packaging material
And a stock solution flowing from the gas-liquid separation tank to the filling nozzle
Flow rate detection means that detects the flow rate of
And the step, forming a through hole for inserting the filling Bruno nozzle DOO
In addition, it has an opening to be attached to the base of the packaging material to be filled with the undiluted solution
Vacuum pad cover and the vacuum pad cover
And communicates with the filling nozzle and the packaging material.
True pipe connected to the exhaust pipe and drain pot for discharging excess liquid
An air generating device, the exhaust pipe, the drain pot, and the air
Connect a three-way switching valve between the liquid separation tanks,
Switch the valve between the gas-liquid separation tank and the drain pot, or
The above-mentioned problem has been solved by using a liquid filling device that is located between the trachea and the drain pot .

[0005]

[Function] The initial trimming of the liquid at the time of filling the liquid can be processed in the piping system, and the dripping from the filling nozzle after the filling can be prevented.

[0006]

1 and 2, reference numeral 1 denotes a receiving table, 2 denotes a packaging material placed on the receiving table 1, 3 denotes a vacuum pad cover disposed at an upper opening of the packaging material 2, and 4 denotes a filling pad. It is a filling nozzle. The filling nozzle 4 has its tip inserted through a vacuum pad cover 3 and inserted into a base 5 provided on an upper part of the packaging material 2. 6 is a valve of the filling nozzle 4, 7 is a mass flowmeter connected to the valve 6, 8 is a gas-liquid separation tank connected to the mass flowmeter 7, 9 is a liquid supply pump connected to the gas-liquid separation tank 8, and 10 is This is a stock solution tank storing stock solution to be filled, and is connected to the liquid supply pump 9 via a valve 12. Reference numeral 13 denotes a preset counter connected to the valve 6 of the filling nozzle 4, and reference numeral 14 denotes a converter interposed between the preset counter 13 and the mass flow meter 7.

Reference numeral 21 denotes an exhaust pipe fixed to the vacuum pad cover 3 of the packaging material 2, reference numeral 33 denotes a pressure sensor, and the exhaust pipe 21 is connected to a drain pot 22. A valve 23 and a three-way switching valve 24 are provided on the way. Three-way switching valve 24
Is separately connected to the gas-liquid separation tank 8, and a valve 25 is provided on the way. Further, a valve 9a is provided between the liquid supply pump 9 and the gas-liquid separation tank 8. The drain pot 22 is communicated from above with instrument air 30 from a compressor via a strainer 26, a vacuum generator 27, an air set 28, and a solenoid valve 29 for air. The drain pot 22 is connected to a circuit from the stock solution tank 10 to the liquid supply pump 9 via a drain solenoid valve 31. In addition, 32 is a check valve.

[0008] This device operates in the following manner. First,
By turning on the pushbutton for operation preparation, the three-way switching valve 2
4 is automatically switched to the main piping side. As a result, the circuit leading to the vacuum pad cover 3 via the valve 23 and the exhaust pipe 21 is closed, and the valve 25 and the drain pot 22 are conducted. The main pipe side means a pipe side connecting the valve 9a, the gas-liquid separation tank 8, the mass flow meter 7, and the valve 6 in front of the filling nozzle 4. This is referred to as a main pipe 40. Next, the air solenoid valve 29 is opened, and the air in the main pipe 40 is released by the operation of the vacuum generator 27. Therefore, the liquid to be measured can be filled into the main pipe 40 more accurately than the first time. Next, a set timer (not shown) is operated to close the air solenoid valve 29, thereby breaking the vacuum generated by the vacuum generator 27. In this case, the gas-liquid separation tank 8 prevents the measurement liquid from flowing to the drain pot 22. Then, the three-way switching valve 24 is switched to the vacuum pad cover 3 side, and the air bleeding inside the packaging material 2 is completed. This completes the liquid filling preparation. Next, when the filling start button (not shown) is turned on, the air solenoid valve 29 is opened, and the vacuum pad 27 and the inside of the packing material 2 are evacuated by the vacuum generator 27. This prevents mixing of air during filling. Next, the valve 6 of the filling nozzle 4 is opened to start filling the packaging material 2 with the liquid. The filling amount is set in advance by the preset counter 13, and the mass flow meter 7 continues to input the liquid passing amount through the converter 14, and when the set amount is reached,
The valve 6 is closed, and the filling is completed. Then, the liquid at the end of the nozzle 4 at the end of filling is sucked into the drain pot 22,
Prevents dripping. The liquid accumulated in the drain pot 22 is detected by the level sensor 22 a, thereby opening the drain solenoid valve 31 and returning the liquid to the suction side of the liquid supply pump 9.

Next, the specific configuration of the packaging material 2 and the filling nozzle 4 will be described. As shown in FIGS. 2 and 3, the packaging material 2 is hermetically attached to the base 5 at the tip of the filling nozzle 4, and the packaging material 2 is housed in a separately provided packaging material holder 41. Has become. At the time of filling, the inside of the packaging material 2 is in a vacuum state, and as shown in FIG.
When the liquid is filled in the packaging material 2, the packaging material retainer 41 opens around the hinge 42 as the packaging material 2 expands. Then, even when a volatile gas is generated from the liquid, the filling operation can be performed without leaking to the outside of the packaging material 2. When the filling is completed, the filling nozzle 4 rises together with the vacuum pad cover 3 as shown in FIG. 3C, and the vacuum atmosphere is destroyed. In this case, the liquid inside the packaging material 2 is pushed up to the vicinity of the base 5 by the weight of the packaging material holder 41.
Then, when the liquid level reaches a predetermined position of a level meter (not shown), the movement of the packaging material holder 41 is stopped. The filling nozzle 4 and the like may be moved in the horizontal direction, and a separately prepared cap 45 may be applied to the base 5 of the packaging material 2. Before capping the filled packaging material 2, the pressure of the air is detected by the pressure sensor 33 in order to remove air inside the packaging material 2 as much as possible.
The cap 45 is applied while pressing the packaging material presser 41 until the pressure reaches the pressure set by the pressure setting device 34, that is, until the liquid level rises to the base 5 of the packaging material 2 and reaches a predetermined position. In addition, 35 is an electropneumatic converter. FIG. 3 shows an example in which a bottle 50 is used instead of the packaging material.

[0010]

According to the present invention, the stock solution tank and the stock solution tank
-Liquid separation that introduces the undiluted solution pumped by the feed pump
A stock solution is introduced from a tank and the gas-liquid separation tank;
A filling nozzle that supplies the gas to the packaging material and the gas-liquid separation tank
Detects the flow rate of the stock solution flowing to the filling nozzle, and
Flow rate detection means arranged in the flow path of
A packaging material that forms a through-hole for filling and fills the undiluted solution
Vacuum pad cover having an opening to be attached to a base
The vacuum pad cover, and the filling pad
Exhaust pipe that communicates with the inside of the whirl and inside the packaging
A vacuum generator connected to the drain pot
Three-way cutting between exhaust pipe, drain pot and gas-liquid separation tank
Switching the three-way switching valve by a gas-liquid separation
Between the tank and the drain pot or between the exhaust pipe and the drain pot.
Therefore, when filling a container after measuring a predetermined amount of liquid, an accurate predetermined amount of liquid can be filled, and cutoff of the liquid at the initial stage of filling can be processed in a piping system. Further, after the filling is completed, the liquid dripping from the filling nozzle can be prevented. Further, according to the apparatus of the present invention, decapping, filling, and capping can be performed by one apparatus.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a configuration of an apparatus according to the present invention.

FIG. 2 is a diagram illustrating a structure near a packaging material in FIG. 1;

FIGS. 3A to 3C show a procedure for filling a packaging material with a liquid according to the present invention, and FIGS.

FIG. 4 is an explanatory diagram corresponding to FIG. 2 when a bottle is used as a packaging material.

FIG. 5 is an explanatory diagram of a conventional system corresponding to FIG.

[Explanation of symbols]

 2 Packaging material 3 Vacuum pad cover 4 Filling nozzle 7 Mass flow meter 8 Gas-liquid separation tank 10 Stock solution tank 13 Preset counter 14 Converter 21 Exhaust pipe 22 Drain pot 24 Three-way switching valve 27 Vacuum generator 29 Air solenoid valve 33 Pressure sensor

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁶ , DB name) B65B 3/28 B67C 3/28

Claims (3)

(57) [Claims] 1. A stock solution tank and a supply pump from the stock solution tank.
A gas-liquid separation tank for introducing the pumped undiluted solution,
Introduce undiluted solution from separation tank and supply the undiluted solution to packaging material
Filling nozzle, from the gas-liquid separation tank to the filling nozzle
Detects the flow rate of the flowing stock solution and installs it in the stock solution flow path
A flow rate detecting means and a through hole for inserting the filling nozzle are formed.
And attach it to the base of the packaging material to be filled with the undiluted solution.
Vacuum pad cover having an opening, and the vacuum
Located on the pad cover, inside the filling nozzle and inside the packaging material
Exhaust pipe that communicates with the
A vacuum generator connected to the exhaust pipe,
A three-way switching valve is connected between the
Switch the three-way switching valve between the gas-liquid separation tank and the drain
A liquid filling device characterized in that it is located between the exhaust pipe and the drain pot . 2. The method according to claim 1 , wherein said flow rate detecting means is a mass flow meter.
A shut-off valve is installed on the downstream side of the mass flow meter,
When a predetermined amount of raw water flow is detected, the shut-off valve
The liquid filling apparatus according to claim 1, wherein supply of the stock solution to the material is stopped . 3. An air release near the base of the packaging material is confirmed.
A pressure sensor for attaching to the exhaust pipe,
Packaging material table filled with undiluted solution to bleed packaging material
The liquid filling apparatus according to claim 1, further comprising a packaging material press for pressing the surface .