JPH0798099A - Discharge method of high viscosity liquid material and device thereof - Google Patents

Abstract

PURPOSE:To discharge high viscosity liquid material cut in a block shape by blowing intermittently compressed gas in the high viscosity liquid material staying in a piping, on the way of the piping. CONSTITUTION:A compressed gas supplying pipe 6 is provided on a piping 5 extended from a high viscosity liquid material storing container 1 and on a piping 5 on the way of the piping. A high viscosity liquid material 2 reserved in the inside of the storing container 1 is pushed out from the storing container 1 by pressure which is applied by a compressor 3, and discharged through the piping 5 into a mix tank 11 in which solvent 13 is filled. On the way that high viscosity liquid material 2 transferred from the storing container 1 is passed through the supplying piping 5 and transferred to the mix tank 11, compressed gas is blown intermittently from the compressed gas blowing hole 9 of a compressed gas supplying pipe 6. Bubbles 14 having comparatively small volumes are formed in the initially blown compressed gas, the volume, thereof are gradually increased, and a gas phase reaching the inner wall of the piping is formed in the moving high viscosity liquid material 2 so as to cut the high viscosity liquid material 2 in a block-like shape.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for discharging a highly viscous liquid material, and more particularly to a method and an apparatus for intermittently discharging a highly viscous liquid material in a block-like shape.

[0002]

[Prior art and its problems] Synthetic rubber, plastic,
In the technical field handling adhesives, paints, foods, etc.,
A method of handling a high-viscosity liquid material as a material cut into blocks is adopted. For example, when manufacturing an organic solvent solution of a highly viscous liquid material such as silicone raw rubber, take out these highly viscous liquid materials from the manufacturing equipment or storage location, cut them into blocks, and put them in the organic solvent. And then mixed. Further, in the technical field of handling foods, a food material composed of a paste-like material containing starch or protein as a component is taken out from the storage location through a supply pipe, cut into blocks, and enclosed in a container. Conventionally, in order to cut such a highly viscous liquid material into a block shape, a cutting tool or a cutting jig similar to the cutting tool is used to perform cutting by mechanical means.

However, when the high-viscosity liquid material is a material having an adhesive property, the high-viscosity liquid material adheres to the surface of the cutting jig to deteriorate the cutting function, and in a remarkable case, the high-viscosity liquid material Sometimes the liquid material itself could not be cut. Further, when it is necessary to quantitatively discharge the block-shaped high-viscosity liquid material, it is necessary to wipe off or clean the high-viscosity liquid material adhering to the cutting jig each time. It was inferior in productivity. Further, when the high-viscosity liquid material changes its properties when exposed to the outside air like an adhesive, there is a problem that the quality of the high-viscosity liquid material itself is deteriorated.

[0004]

The present invention has reached the present invention as a result of extensive studies to solve the above problems. That is, an object of the present invention is to provide a method for ejecting a high-viscosity liquid material without the above problems and an apparatus therefor, in which the high-viscosity liquid material is quantitatively cut into a block shape, and An object of the present invention is to provide a method for discharging with high productivity and an apparatus therefor.

[0005]

Means for Solving the Problem and Its Action The present invention is to discharge a highly viscous liquid material through a pipe by intermittently blowing a pressurized gas into the highly viscous liquid material in the pipe in the middle of the pipe. A method for discharging a high-viscosity liquid material, a supply source of the high-viscosity liquid material, and a pipe extending from the supply source, characterized in that the high-viscosity liquid material is intermittently discharged in a block shape. And an intermittent discharge device for a highly viscous liquid material, characterized by comprising an intermittent supply pipe for pressurized gas disposed in the pipe midway.

The high-viscosity liquid material used in the present invention has a high viscosity and has little fluidity at room temperature, but it is a material that can be fluidized by pressurization, and in particular, It is a material that can be fed into a pipe-like pipe and transferred by pressurization. As such a highly viscous liquid material, a highly viscous liquid material,
There are high-viscosity semi-liquid materials, semi-liquid slurries, and semi-liquid pace-like materials. For example, high-viscosity diorganopolysiloxane, liquid polybutadiene, liquid polyisobutene called silicone gum or silicone raw rubber, etc. High viscosity synthetic polymers themselves, and mixtures of these synthetic polymers with other components, slurries of various polymer compounds,
High viscosity aliphatic or aromatic hydrocarbon oil, starch syrup,
An example is a pasty food containing starch or protein as a main component.

According to the discharge method of the present invention, when the above-mentioned high-viscosity liquid material is discharged through the pipe, a pressurized gas is blown into the high-viscosity liquid material inside the pipe to blow the high-viscosity liquid material. Is intermittently discharged in a shape cut into blocks, but the type of gas forming the pressurized gas used here is appropriately selected according to the type of high-viscosity liquid material, and is not particularly limited. . However, it is better to avoid flammable or toxic substances. Such gases include air, nitrogen gas,
Examples are helium gas, argon gas, carbon dioxide gas, and steam.

The pressure of the pressurized gas may be a pressure sufficient to blow the pressurized gas into the highly viscous liquid material and cut it, and it depends on the type and amount of the highly viscous liquid material. The pressure applied to the high-viscosity liquid material in the pipe, that is, the pressure higher than the pressure in the pipe is required.

Further, the amount of the pressurized gas blown in is appropriately adjusted and applied according to the kind and amount of the high-viscosity liquid material transferred through the pipe. Generally, the high-viscosity liquid material is 1,000 g. On the other hand, it is used in the range of 10 to 100,000 Ncc, preferably 50 to 50,000 Ncc.
Used within the range of.

The present invention will be described below with reference to the drawings. Figure 1
FIG. 2 is a schematic cross-sectional view showing one embodiment of a highly viscous liquid material discharge device of the present invention, and FIG. 2 is an enlarged cross-sectional view of the pressurized gas blowing portion in FIG. In this embodiment, a method for producing a solvent solution of a high-viscosity liquid material by delivering the high-viscosity liquid material into the mixing tank from the discharge device of the present invention will be described.

The discharge device for a highly viscous liquid material shown in FIG.
It comprises a high-viscosity liquid material supply pipe 5 extending from a high-viscosity liquid material storage container 1 which is a supply source of the high-viscosity liquid material, and a pressurized gas supply pipe 6 arranged in the pipe in the middle of the pipe. Highly viscous liquid material 2 stored inside the storage container 1
Is extruded from the container 1 by the pressure applied by the pressurizing device 3 and is discharged into the mixing tank 11 containing the solvent 13 through the highly viscous liquid material supply pipe 5. A pressurized gas supply pipe 6 is provided at the center of the pipe 5.
Is provided, and the pressurized gas blowing hole 9 located at the tip thereof is installed in the pipe 5 in the highly viscous liquid material to be transferred. The position of the pressurized gas supply pipe is not particularly limited, but it is generally preferable that the pressurized gas supply pipe is located between the central portion of the high-viscosity liquid material supply pipe and the high-viscosity liquid material discharge hole 10. The pressure of the pressurized gas is appropriately selected depending on the type and amount of the highly viscous liquid material used and is not particularly limited, but may be higher than at least the pressure applied to the inside of the highly viscous liquid material supply pipe. It is necessary. The shape of the pressurized gas blowing hole 9 is appropriately selected depending on the type and amount of the high-viscosity liquid material used, and is not particularly limited. For example, the shape shown in FIG. 2 is a preferable specific example.

The high-viscosity liquid material 2 transferred from the storage container 1 is transferred to the mixing tank 11 through the supply pipe 5 for supplying the high-viscosity liquid material 2 to the tip of the pressurized gas supply pipe. The pressurized gas is intermittently blown from the positioned pressurized gas blowing hole 9. The injected pressurized gas initially forms bubbles 14 of the pressurized gas having a relatively small volume in the high-viscosity liquid material, but the volume gradually increases, and the moving high-viscosity liquid material 2 By forming a gas phase that reaches the inner wall of the pipe in the inside, the highly viscous liquid material 2
Is cut into a block shape in the pipe 5. After that, the highly viscous liquid material 2 and the gas phase, which are cut into blocks, are transferred as they are while maintaining a constant volume. In this way, the high-viscosity liquid material 2 is discharged from the discharge hole 10 in a block shape and put into the mixing tank 11. Thereafter, the discharged highly viscous liquid material 2 is mixed with the solvent 13 in the mixing tank 11 to produce a solvent solution of the highly viscous liquid material.

[0013]

[Embodiment 1] In a discharge device for highly viscous liquid material according to the present invention shown in FIGS. 1 and 2, dimethylpolysiloxane raw rubber (William plasticity 170) is used as the highly viscous liquid material, and pressure is 7 kg / cm ² of nitrogen gas was used. All operations in this example were performed at room temperature. The high-viscosity liquid material container 1 in which the dimethylpolysiloxane raw rubber 2 is housed in
This dimethylpolysiloxane raw rubber 2 was continuously fed into the highly viscous liquid material supply pipe 5 by applying a pressure of Kg / cm ² . Here, dimethylpolysiloxane raw rubber 2
Was transferred at a flow rate of 1,000 g / min. The nitrogen gas on / off control valve 8 was turned on, and 100 cc of nitrogen gas having a pressure of 7 kg / cm ² was blown into the transferred dimethylpolysiloxane raw rubber from the pressurized gas blowing hole 9. Next, the nitrogen gas on / off control valve 8 was turned off to interrupt the nitrogen gas blowing. After 30 seconds, the nitrogen gas on / off control valve 8 is turned on, and the nitrogen gas is set to 1 in the same manner as above.
I blew in 00cc. Hereinafter, the blowing of the nitrogen gas and the interruption thereof were repeated. After a while, the block-shaped dimethylpolysiloxane raw rubber 15 began to be intermittently discharged from the discharge hole 10. The discharged block-shaped dimethylpolysiloxane raw rubber 15 is xylene 13 which is a solvent.
The mixture dropped intermittently into the mixing tank 11 in which was put, and was stirred and rapidly dissolved in this xylene. By this method, a xylene solution of dimethylpolysiloxane raw rubber could be efficiently produced.

An octamethylcyclotetrasiloxane solution of dimethylpolysiloxane raw rubber was prepared in the same manner as in the above example except that octamethylcyclotetrasiloxane was used instead of xylene. The block-shaped dimethylpolysiloxane raw rubber was rapidly dissolved in octamethylcyclotetrasiloxane, and an octamethylcyclotetrasiloxane solution of dimethylpolysiloxane raw rubber could be efficiently produced.

[0015]

As described above, the method and apparatus for discharging a high-viscosity liquid material according to the present invention, when discharging a high-viscosity liquid material through a pipe, add it to the high-viscosity liquid material in the pipe midway through the pipe. By intermittently blowing the pressurized gas, the discharge operation is intermittently performed in a shape obtained by cutting the high-viscosity liquid material into blocks.
In addition, the ejection can be performed with high productivity. Moreover, since this highly viscous liquid material does not come into contact with the outside air, foreign matter does not mix in and the quality of the highly viscous liquid material itself does not deteriorate.

[Brief description of drawings]

FIG. 1 is a schematic cross-sectional view showing a highly viscous liquid material discharge device of the present invention.

FIG. 2 is an enlarged cross-sectional view of a pressurized gas blowing portion.

[Explanation of symbols]

 1 High-viscosity liquid material storage container 2 High-viscosity liquid material 3 Pressurizing device 4 Pressurizing plate 5 High-viscosity liquid material supply pipe 6 Pressurized gas supply pipe 7 Pressurized gas pressure and flow rate control valve 8 On / off control valve 9 Injection hole for pressurized gas 10 Discharge hole for highly viscous liquid material 11 Mixing tank 12 Stirrer 13 Solvent 14 Bubble for pressurized gas 15 Block-shaped highly viscous liquid material

Claims (2)

[Claims] 1. When the high-viscosity liquid material is discharged through a pipe, a pressurized gas is intermittently blown into the high-viscosity liquid material inside the pipe to cut the high-viscosity liquid material into blocks. A method for ejecting a highly viscous liquid material, characterized in that the material is ejected intermittently in the shape described above. 2. A high-viscosity liquid material supply source, a pipe extending from the supply source, and an intermittent supply pipe for pressurized gas disposed in the pipe in the middle of the pipe. Intermittent dispensing device for viscous liquid materials.