JP2000033901A - Pouring device for fluid such as powder - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate pouring operation by sucking a fluid to be poured by generating the negative pressure inside a pump caused by the elevation of a piston of a pouring pump with a pouring nozzle mounted on its tip, and squeezing the fluid by lowering the piston of the pump. SOLUTION: A piston shaft 6 is elevated by operating an elevating/lowering cylinder 5. A rotary valve 40 located below a supply tank 7 is opened, and a control valve 15 on a lower end of the piston shaft 6 operates a cylinder 16 and holds it in an open condition. The pressure inside a pouring pump 3 becomes negative, and a powder in a supply tank 7 and the piston shaft 6 is transferred into the pouring pump 3. The powder is easily dropped by operating a compressed air ejection mechanism 35 to eject the compressed air from ejection nozzles 36a, 36b, 36c. Then, the control valve 15 is closed, a slide valve 21 is opened, and then, the elevating/lowering cylinder 5 is operated to pour the powder in the pouring pump 3 into a container A through a nozzle 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an injection device for injecting a fluid such as powder or liquid into a predetermined container.

For example, when a predetermined amount of fine powder such as carbon black is injected into a container, the amount is measured by appropriate means, an injection tube is inserted into the container, and injection is performed using the tube. Have been.

[0003]

However, this method requires a lot of trouble and has a problem that fine powder is scattered at the time of injection to contaminate the vicinity. In view of the above, an object of the present invention is to provide an apparatus for injecting a fluid such as powder, which can inject a fixed amount extremely efficiently and accurately without contaminating the vicinity.

[0004]

According to a first aspect of the present invention, there is provided an injection pump having an injection nozzle at a tip thereof, a piston shaft connected to a piston of the injection pump and having a hollow shaft. A fluid supply tank for powder or the like attached to the upper end of the piston shaft is provided, and an on-off valve is attached to the hollow hole. By raising the piston of the infusion pump, the pressure inside the infusion pump is reduced and the on-off valve is opened. To suck the fluid in the supply tank and lower the injection pump piston.
The fluid in the injection pump is injected into the container through an injection nozzle.

In the present invention having the above-described structure, by raising the piston of the infusion pump, the inside of the pump becomes a negative pressure, and the fluid in the supply tank is sucked through the hollow piston shaft and moves into the infusion pump. . Then, by lowering the piston of the pump, the stored fluid is injected into a predetermined container from the injection nozzle.

According to a second aspect of the present invention, the infusion pump includes:
An ascending and descending cylinder for the suction pump piston is connected, and the piston of the cylinder is attached to the piston shaft of the infusion pump.

According to the present invention having the above-described structure, the piston for raising and lowering the piston of the infusion pump is connected to the cylinder, and the piston of the cylinder is attached to the piston shaft of the infusion pump. The piston can be reliably moved up and down.

A third aspect of the present invention is characterized in that an air bleeding passage for injecting a fluid is formed in the injection nozzle, and a filter is attached to the passage.

In the present invention having the above-described structure, when the powder is discharged from the injection nozzle, the powder discharged along with the discharged air is filtered by the filter, and only the air is discharged, so that the discharge of the powder is suppressed. Therefore, contamination of the vicinity is prevented.

A fourth invention is characterized in that a pressurized air injection nozzle is mounted at an appropriate position in the hollow portion of the piston shaft.

According to the present invention having the above-described structure, by injecting compressed air into the fluid, the fluid can be fluidized and clogging can be prevented.

A fifth aspect of the present invention is characterized in that a weighing supply hopper is provided opposite to the fluid supply tank, and a predetermined filling amount is measured each time and supplied to the supply tank.

According to the present invention having the above-described structure, an accurate amount can always be filled by measuring the amount of filling each time and supplying the measured amount into the supply tank.

[0014]

Embodiments of the present invention will be described below with reference to the drawings. In the figure, an injection device 1 for a fluid such as powder has an injection pump 3 having an injection nozzle 2 attached to the tip thereof, and a cylinder 5 for raising and lowering a piston 4 of the injection pump 3.
And a hollow piston shaft 6 common to the injection pump 3 and the elevating cylinder 5, and a fluid (hereinafter simply referred to as powder) supply tank 7 attached to the upper end of the piston shaft. Is done. Reference numeral 8 denotes a mechanism for supplying powder or the like to the supply tank 7.

As shown in FIG. 2, the injection nozzle 2 has a large-diameter flange portion 10 for fitting the upper end of a container into which the powder is injected, for example, a bag body A, and hermetically attaching the same, and an injection pipe provided at the center. 1
1 and a filter 12 attached around the injection tube 11. Reference numeral 13 denotes an air vent passage.

The piston shaft 6 has a hollow structure and is located in the piston 4 of the infusion pump 3 attached to the lower end thereof.
The valve 15 is connected to a valve opening / closing cylinder 16 via a connecting rod 17, and a valve opening / closing solenoid valve 18 is provided in a pressure air supply passage for the valve opening / closing cylinder 16.

Reference numeral 20 denotes an opening / closing cylinder of a slide valve 21 for opening / closing a passage connecting the injection pump 3 and the injection nozzle 2, and a hydraulic oil switching electromagnetic valve 22 is provided in a pressure air supply passage for the opening / closing cylinder 20. . Note that 2 in the figure
Reference numeral 3 denotes an oil switching valve for the pump elevating cylinder 5, such as a hydraulic solenoid valve.

The above-mentioned powder supply mechanism 8 includes the weighing supply hopper 3.
0, a weight measuring device of the hopper 30, for example, a load cell 31, and a vibrating conveyor 32 for supplying the powder and the like in the hopper 30 to the supply tank 7. Reference numeral 33 denotes a telescopic tube that connects the vibration conveyor 32 and the supply tank 7.

Reference numeral 35 denotes a pressurized air ejection mechanism for preventing clogging of the powder supply passage.
6a, 36b and 36c are arranged. 37a, 37b, 3
7c denotes an electromagnetic on-off valve, 38a and 38b denote pressure air supply pipes, and 38c denotes a flexible pipe connecting the two, and one pressure air supply pipe 38a is connected to the piston shaft 6 so as to be able to move up and down. . The injection nozzle 36a is connected to the supply tank 7
And is mounted tangentially as shown in FIG. 3 and pressurized air is blown downward. The injection nozzle 36b is mounted at an appropriate position on the piston shaft 6, and the nozzle 36c is mounted below the injection pump 3. The mounting procedures are all the same, and the description is omitted. In the figure, 40 is the supply tank 7
2 shows a rotary valve arranged at the lower part of FIG.

In the above configuration, the flange 1 of the injection nozzle 2
Attach the required container A to 0. At this time, the piston shaft 6 is lowered by the operation of the lifting cylinder 5, and the piston 4 of the infusion pump 3 is at the lowered position. The sliding on-off valve 21
Is in a state where the passage is closed. In this state, a required amount of the powder in the powder supply mechanism 8 is supplied to the supply tank 7 by the vibration of the vibration conveyor 32. However, the amount is measured by the decrease amount of the load cell 31.

Next, at the time of powder injection, the lifting cylinder 5 is operated to raise the piston shaft 6. At this time, the rotary valve 40 below the supply tank 7 is opened, and the open / close valve 15 at the lower end of the piston shaft operates the cylinder 16 to hold the open state. As a result, the pressure in the chamber of the injection pump 3 becomes negative, and the powder in the supply tank 7 and the powder in the piston shaft 6 move into the injection pump 3. At this time, the compressed air ejection mechanism 35 is operated to eject the compressed air from the ejection nozzles 36a, 36b, 36c, so that the powder can be easily dropped.

Next, the on-off valve 15 is closed and the slide valve 21 is closed.
, The lifting cylinder 5 is operated, and the injection pump 3
, The powder in the injection pump 3 is injected into the container A via the nozzle 2. At this time, the carrier air is also transferred into the container together with the powder.
And is discharged from the exhaust hole 13. The filter can be prevented from being clogged by blowing compressed air from above the filter.

Next, the slide valve 21 is closed, the piston shaft 6 is pulled up as described above, and the powder in the supply tank 7 is transferred into the injection pump 3 by the negative pressure in the injection pump.
By repeating this, a predetermined amount of powder in the supply tank is supplied into the container A, and the operation is completed.

When the internal cleaning is required after the work is completed, the cleaning is easily performed by supplying the pressure cleaning liquid to the pressure air jetting mechanism 35 and jetting it from each of the nozzles 36a to 36c. Can be done.

[0025]

As described above, according to the present invention, a fluid as an injection material is sucked by the generation of a negative pressure inside the pump caused by the rise of the piston of the injection pump having the injection nozzle attached to the tip thereof, and Since the piston is pushed down by the lowering of the piston and injected into the container, the injection operation is easy. According to a second aspect of the present invention, a cylinder for raising and lowering the piston of the infusion pump is connected in series, and the piston of the cylinder is attached to the piston shaft of the infusion pump. It is very effective and the structure can be compact. According to the third aspect of the present invention, the injection nozzle is provided with a vent passage for injecting a fluid, and a filter is attached to the passage so that air injected together with the fluid can be discharged. In addition, it is possible to prevent the fluid from leaking to the outside when discharging the air. According to the fourth aspect of the present invention, the fluidity of the fluid is increased by attaching a pressurized air injection nozzle for giving fluid to the injection material in a hollow portion of the piston shaft, thereby increasing the fluidity of the fluid. It can be smooth. Further according to the fifth invention,
A weighing supply hopper is provided opposite to the fluid supply tank, and a predetermined filling amount is measured each time and supplied to the supply tank, so that the predetermined amount can be accurately injected.

[Brief description of the drawings]

FIG. 1 is an overall vertical sectional view of an apparatus for injecting a fluid such as powder of the present invention.

FIG. 2 is a longitudinal sectional view of an injection nozzle.

FIG. 3 is an explanatory view of how to attach a compressed air ejection nozzle.

[Explanation of symbols]

 Reference Signs List 1 Injection device for fluid such as powder 2 Injection nozzle 3 Injection pump 4 Injection pump piston 5 Lifting cylinder 6 Piston shaft 7 Fluid supply tank 8 Supply mechanism 12 Filter 13 Air vent passage 15 Open / close valve 30 Weighing supply hopper 35 Pressure Air ejection mechanism

Claims (5)

[Claims] 1. An injection pump having an injection nozzle mounted at a tip thereof, a piston shaft connected to a piston of the injection pump and having a hollow shaft, and a fluid supply tank for powder or the like mounted on an upper end of the piston shaft. An on-off valve is attached to the hollow hole. By raising the piston of the infusion pump, the inside of the infusion pump is set to a negative pressure, and the on-off valve is opened to suck the fluid in the supply tank, thereby lowering the infusion pump piston. Wherein the fluid in the injection pump is injected into the container through an injection nozzle. 2. The powder or the like according to claim 1, wherein a cylinder for raising and lowering a suction pump piston is connected to the injection pump, and the piston of the cylinder is attached to a piston shaft of the injection pump. Fluid injection equipment. 3. The injection of a fluid such as powder according to claim 1 or 2, wherein a passage for bleeding air during injection of the fluid is formed in the injection nozzle, and a filter is attached to the passage. apparatus 4. A pressure air injection nozzle is mounted at an appropriate position in a hollow portion of a piston shaft.
Or an apparatus for injecting a fluid such as powder according to 3. 5. The fluid supply tank is provided with a weighing supply hopper opposite thereto, and a predetermined filling amount is measured each time and supplied to the supply tank. Injection device for fluids such as powder.