KR101747602B1 - Isostatic pressing device and press processing method using the same - Google Patents

Abstract

And is capable of making it difficult to directly contact foreign objects generated from the object to be processed with an apparatus constituting the apparatus such as a pressure vessel, and a pressure treatment method using the same.
The isometric pressure applying apparatus 100 is provided with a cylindrical pressure vessel 1 in which openings 1a and 1b are formed at both ends in the axial direction and arranged in a transverse arrangement, (For example, a food having a shell) pressurized, for example, as a first pressure medium from the outside into the pressure vessel 1 abolished by the pressure vessel 1, . The isostatic pressing device 100 includes a bucket 6 having a hole 13a at an upper portion thereof and accommodating the object to be processed and provided inside the pressure vessel 1. [ In the bucket 6, at least a second pressure medium, for example, brine is introduced. The specific gravity of the first pressure medium is smaller than the specific gravity of the object to be treated. The specific gravity of the second pressure medium is not less than the specific gravity of the first pressure medium.

Description

Technical Field [0001] The present invention relates to an isostatic pressing device and an isostatic pressing device,

The present invention relates to an isovolumic pressure device for pressurizing a material to be processed placed in a pressure vessel with a liquid pressure medium, and a pressure treatment method using the same.

This type of apparatus has heretofore been described in, for example, Patent Document 1 below. The related art is constituted as follows. The object to be processed is put together with a pressure medium such as water in a cylindrical pressure vessel in which the lower end opening is closed by a lower cover and the object to be processed in the pressure vessel is pressurized with an isotropic pressure by pressing the piston from the upper end opening . Such a device using a piston is called a piston direct pressure isostatic pressing device. There is an apparatus in which the upper end opening is closed by an upper lid instead of the piston and the pressure medium is pressurized from the outside into the pressure vessel to pressurize the object to be processed with an iso-pressure, and this apparatus is an external pressurizing isostatic pressing apparatus It is called. Examples of the material to be treated include metal powders, ceramic powders, foods and the like. When the metal powder and the ceramic powder are subjected to isostatic pressing, a homogeneous (non-directional) compression molded article is obtained.

Japanese Patent Application Laid-Open No. 2010-94709

However, the above-described apparatus for pressurizing the object to be processed with iso-pressure has the following problem to be solved. Foreign matter is generated from the object to be processed in the course of the pressurizing treatment. This foreign matter is largely classified into a small specific gravity and a large specific gravity. There is no particular problem with a foreign object having a relatively small specific gravity. However, a foreign object having a large specific gravity is damaged by a seal portion of a pressure vessel, a pressure vessel . Therefore, it is necessary to make foreign matter having a large specific gravity difficult to come into direct contact with the device constituting the isostatic pressing device such as a pressure vessel. When the metal powder, the ceramic powder, or the like is the article to be treated, the foreign matter generated is debris or dust. When the food is the article to be treated, the foreign matter generated is, for example, shell or moss. Among the above-mentioned foreign matter, fragments of metallic powder and ceramic powder or shell of shellfish are foreign matters having a large specific gravity, and dust and moss are foreign matters having a small specific gravity.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide an isovolumic pressure applying device having a structure that makes it possible to make foreign objects generated from a material to be processed difficult to come into direct contact with an apparatus constituting a device such as a pressure vessel, And to provide a pressurizing treatment method used.

The iso-pressure applying apparatus according to the present invention includes a tubular pressure vessel provided with openings at both ends in the axial direction and arranged in a transverse arrangement, applying pressure to the first pressure medium in the liquid contained in the pressure vessel, An apparatus for pressurizing an object to be processed placed in a pressure vessel, comprising: a pressure vessel for pressurizing the object to be processed placed in a pressure vessel; a bucket having a hole at an upper portion thereof and accommodating the object to be processed and installed in the pressure vessel; The specific gravity of the first pressure medium is smaller than the specific gravity of the object to be processed, and the specific gravity of the second pressure medium is not less than the specific gravity of the first pressure medium.

Further, a pressurizing method of the present invention is a pressurizing method using the above-described iso-pressure applying apparatus, comprising: a to-be-processed water receiving step of putting the to-be-processed object and the second pressure medium into the bucket; And a bucket storing step of putting the bucket in which the second pressure medium is inserted into the pressure vessel from the opening, and applying pressure to the first pressure medium placed in the pressure vessel and putting the pressure vessel together with the bucket in the pressure vessel A pressurizing process for pressurizing the object to be processed, a bucket extracting process for extracting the pressurized object from the pressure container, and a step for extracting the pressurized object from the inside of the bucket And a step of taking out the object to be taken out.

According to the present invention, it is possible to make it difficult for foreign substances to come into direct contact with the apparatus constituting the apparatus such as the pressure vessel, and to prevent the apparatus such as the pressure vessel from being damaged by the foreign matter generated from the object.

1 is a perspective view showing an iso-pressure applying apparatus according to an embodiment of the present invention.
2A is a plan view of the bucket, and Fig. 2B is a cross-sectional view taken along line XX of Fig. 2A.
Fig. 3 is a sectional view showing the bucket together with the rotating device, and Figs. 3a, 3b and 3c illustrate a total of three ways of rotating the bucket.
Fig. 4 is a cross-sectional view showing a state in which buckets filled with oysters and brine are introduced into a pressure vessel and centrifugal force is injected into the pressure vessels. Fig. 4A shows a state in which no pressure is applied to the pressure vessel, And the pressure is applied to the pressure vessel.
Fig. 5 is a view showing a modified example of the bucket shown in Fig. 2. Fig. 5A is a plan view of the bucket, and Fig. 5B is a YY sectional view of Fig.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. In the following description, the object to be treated is a oyster (food) having a shell, but the oyster is an example of the object to be treated, and the object to be treated is not limited to oysters. The food may be other than oysters, and an inorganic substance (inorganic powder) such as a metal powder or a ceramic powder may be used as the object to be treated.

(Constitution of Isostatic Pressing Device)

1, the configuration of the iso-pressure applying apparatus 100 according to the embodiment of the present invention will be described. Pressure compressing apparatus 100 according to one embodiment of the present invention includes a cylindrical pressure vessel 1 arranged in a transverse arrangement, a press frame 2, a water supply and drainage unit 3 having a tank 3a, A high-pressure pump unit 4, a control panel 5 for controlling them, and a bucket 6 to be processed. The bucket 6 is put into the pressure vessel 1 by the supply conveyor 7 and comes out of the pressure vessel 1 by the discharge conveyor 8. The pressure vessel 1 is moved in the press frame 2 and between the conveyors 7 and 8 by the slide device 9.

The openings 1a and 1b formed in both axial ends of the pressure vessel 1 are closed by the first lid 10 and the second lid 11 mounted on the press frame 2. [ 1, the second lid 11 has a large-diameter portion 11b (flange portion) and a small-diameter portion 11a, and an opening 1b of the pressure vessel 1 is provided with a small- Are closely adhered to each other. The configuration of the first lid 10 is the same as that of the second lid 11 and the small diameter portion 10a of the first lid 10 is closely inserted into the opening 1a of the pressure vessel 1. In the state that the openings 1a and 1b are closed by the lids 10 and 11, the spring water as the first pressure medium accumulated in the tank 3a is press-fitted into the pressure vessel 1 by the high-pressure pump unit 4 , The object to be processed (in this embodiment, oyster O (see Fig. 4A)) in the pressure vessel 1 is subjected to isostatic pressing treatment. That is, the isostatic pressing device 100 is one of the external pressure-increasing isostatic pressing devices for pressurizing the object to be processed with an isotropic pressure by press-fitting the first pressure medium from the outside into the pressure vessel. Further, the centrifugal force from the high-pressure pump unit 4 is injected into the pressure vessel 1 from an injection passage (not shown) formed in the first lid 10, for example.

Also, a piston direct pressure isostatic pressing apparatus may be used. In this case, for example, the second lid 11 becomes a piston. The length of the small diameter portion 11a of the second lid 11 is determined by design. The piston (the small diameter portion 11a of the second lid 11) is pushed by the hydraulic cylinder (not shown) or the like from the other opening 1b in the state that the opening 1a is closed by the first lid 10 The object to be processed in the pressure vessel 1 is pressurized to an iso-pressure with the pressure medium.

The bucket 6 will be described. 2A and 2B, the bucket 6 includes a cylindrical bucket body 12 having both axial end portions thereof closed and an upper portion thereof opened, and a bucket body 12 having an upper portion opened through the hinge 14, And a cover body 13 having an arc-shaped cross section mounted on the upper portion. The cover body 13 has a plurality of holes 13a formed therein. A bucket 18 according to a modified example of the bucket 6 is shown in Figs. 5A and 5B. As shown in Figs. 5A and 5B, the lid body 19 having the plurality of holes 19a has a flat plate shape. In this manner, instead of the lid 13 having a circular arc shape in section, a flat plate-like lid may be used. The lid body 19 is not simply mounted on the bucket body 12 through the hinge but is simply mounted on the bucket body 12. [ In this way, the lid body 19 detachably mounted on the upper portion of the bucket body 12 may be used.

On the downstream side of the discharge conveyor 8, a roller 15 shown in Fig. 3A is disposed. The bucket 6 taken out of the pressure vessel 1 by the discharge conveyor 8 is carried by the discharge conveyor 8 and stacked on the pair of right and left rollers 15 as shown in Fig. (The state shown in Fig. 3A). In this state, the bucket 6 is rotated mechanically (by using the power) or by 180 degrees around its axial center by gravity. Then, as shown in the right side of Fig. 3A, the lid body 13 rotates about the hinge 14 by its own weight and opens. The roller 15 is an example of a rotating device for rotating the bucket 6 taken out from inside the pressure vessel 1.

Other methods (devices) for rotating the bucket 6 are shown in Figs. 3B and 3C. 3B has a cylindrical bucket holding body 16a whose diameter is larger than that of the bucket body 12 and which is open at the upper part by the dimension of the lid body 13 of the bucket 6. [ And a rotation support point member 16b fixed to the outer surface of the bucket retaining member 16a. Further, the rotation support point member 16b is fixed to the stationary object which does not move. Like the roller 15 described above, the rotary device 16 is disposed on the downstream side of the discharge conveyor 8 (the same applies to the rotary device 17 shown in Fig. 3C).

The bucket 6 taken out from the inside of the pressure vessel 1 by the discharge conveyor 8 is put into the bucket holding body 16a (left state in Fig. 3B). In this state, the bucket retaining member 16a is rotated 180 degrees (turned over) around the rotation support point member 16b mechanically (using the force) or by gravity. Then, the lid body 13 rotates around the hinge 14 by its own weight and opens (the right side state in Fig. 3B). The bucket body 12 and the bucket holding body 16a do not largely move relative to each other due to the contact frictional force. The bucket body 12 and the bucket holding body 16a may be temporarily connected to each other so that the bucket body 12 does not move relative to the bucket holding body 16a.

Next, the rotating device 17 shown in Fig. 3C is provided with a pair of bucket holding bodies 17a having a circular arc shape with a diameter larger than that of the bucket body 12, and a pair of bucket holding bodies 17a, And a plurality of rollers 17b disposed between the rollers 17a and 18b. In addition, the pair of bucket holding bodies 17a are fixed to the stationary stationary body.

The bucket 6 taken out from the inside of the pressure vessel 1 by the discharge conveyor 8 is put into the rotating device 17 (left state in Fig. 3C). In this state, the bucket 6 is rotated 180 degrees about its axis center mechanically (using power) or with a force. Then, as shown in the right side of Fig. 3C, the lid body 13 rotates about the hinge 14 by its own weight and opens.

(Pressure treatment method of oyster using isostatic pressing device)

1, 4A, 4B, and the like, a method of pressing the oyster O using the isostatic pressing device 100 will be described.

The lid body 13 of the bucket 6 is opened so that the brine as the second pressure medium together with the oyster O (brine is larger in specific gravity than the core water) is inserted into the bucket body 12. At this time, a sufficient amount of brine is poured into the bucket body 12 so that the oyster O is completely submerged in the brine (the process water receiving step). As salt water, for example, seawater is used, but it is not limited to seawater.

The bucket 6 containing the oyster O and the brine is introduced into the pressure vessel 1 from the opening 1a of the pressure vessel 1 (bucket containing step). The pressure vessel 1 is slid in the direction of the press frame 2 and the first lid 10 and the second lid 11 are moved by a hydraulic cylinder The first lid 10 and the second lid 11 are closed by the openings 1a and 1b, respectively.

Subsequently, the water supply / drainage unit 3 is operated to inject the decanter 51 into the pressure vessel 1. FIG. 4A shows a state in which the decanter 51 is injected into the pressure vessel 1. The oyster O remains in the state of being accommodated in the bucket 6 because the brine 52 has a specific gravity larger than that of the natural water so that the oyster O is kept immersed in the salt water 52 in the bucket 6. Then, the high-pressure pump unit 4 is operated to pressurize the centrifugal water 51 into the pressure vessel 1, and pressurize the oyster O with iso-pressure for a predetermined time (pressure treatment process). This state is shown in Fig. 4B. Since the inside and outside of the bucket 6 are communicated by the hole 13a, the pressure reliably acts on the oyster O. [

When the pressurizing process is completed, the lids 10 and 11 are removed by retracting the first lid 10 and the second lid 11 with respect to the pressure vessel 1, and the pressure vessel 1 is slid to the conveyor side . Then, the bucket 6 into which the pressurized oyster O is put is taken out from the inside of the pressure vessel 1 (bucket taking-out step).

The bucket 6 is loaded on a pair of left and right rollers 15 (see Fig. 3A) by the discharge conveyor 8. Then, the bucket 6 is turned upside down mechanically (using power) or with a force to rotate the bucket 6 by 180 degrees about its axis. Then, as shown in the right side of Fig. 3A, the lid body 13 rotates about the hinge 14 by its own weight and opens. As a result, the pressurized oyster O drops off from the inside of the bucket body 12 together with the brine 52 and is taken out (the object to be processed is taken out).

Oyster O is sterilized by pathogenic bacteria, viruses are inactivated, and shells are easily peeled off by the aforementioned pressing treatment. Since the brine 52 as the second pressure medium is maintained in the bucket 6, the brine (52) is supplied to the inner surface of the pressure vessel 1, the pump constituting the high-pressure pump unit 4, 52 are hardly brought into contact with each other, it is possible to prevent these devices from being corroded by the salt contained in the brine 52. [ In addition, since the oyster O is retained in the bucket 6, the peeled shell remains in the bucket 6. Therefore, it is possible to prevent the shell of the oyster O from being directly in contact with the pressure vessel or being mixed with a device such as a pump constituting the high-pressure pump unit 4. [

(Modified example)

In the above-described embodiment, an example in which hexadecane is used as the first pressure medium and salt water having a specific gravity larger than that of the natural pressure is used as the second pressure medium, that is, as a second pressure medium, The specific gravity of the second pressure medium may be equal to the specific gravity of the first pressure medium. 4A, when the specific gravity of the second pressure medium is smaller than the specific gravity of the first pressure medium, it is considered that the second pressure medium is discharged out of the bucket 6 from the hole 13a of the bucket 6 However, if the specific gravity of the first pressure medium and the specific gravity of the second pressure medium are the same, the second pressure medium put in the bucket 6 is discharged out of the bucket 6 in the course of the pressure treatment by the first pressure medium Because it does not go out easily. The fact that the second pressure medium does not easily come out of the bucket 6 means that foreign matter from the object to be processed is hard to escape out of the bucket 6.

Further, in the above-described embodiment, brine (water containing salt) is used as the second pressure medium, but a permeate having a specific gravity not less than the specific gravity may be used. Further, in the case of desalting the oyster (O), it is also possible to use saline-adjusted salt water. Further, when it is desired to make an oyster flavor, a flavor having a specific gravity not less than the specific gravity One water (water containing fragrance) may be used. In addition, an inexpensive decanter is suitable as the first pressure medium, but ozone sterilized water or the like may be used in place of simple decanter.

In order to put salt water in the bucket 6, it is based on the man-made (man-made) method, but it is also possible to automatically put the salt water into the bucket 6 instead of the manpower. In this case, the control panel 5 controls the injection of the brine into the bucket 6. That is, the control panel 5 may have a function of controlling the injection timing of the brine into the bucket 6 and the injection amount thereof.

(Action / effect)

According to the isovolumic pressure applying device and the pressure treatment method using the same of the present invention, not only one type of liquid is used as the pressure medium, but the first pressure medium having a specific gravity smaller than the specific gravity of the object to be processed and the first pressure medium The first pressure medium is introduced into the pressure vessel by using two kinds of pressure media such as a second pressure medium which is a liquid having a specific gravity equal to or higher than the specific gravity and the second pressure The bucket is accommodated in the pressure vessel by accommodating the medium. Since the specific gravity of the first pressure medium is smaller than the specific gravity of the object to be treated, the object to be processed and the foreign matter generated therefrom are hard to escape from the bucket. Further, even if the specific gravity of the second pressure medium is made to be equal to or greater than the specific gravity of the first pressure medium, the object to be processed and the foreign matter generated therefrom are hard to escape from the bucket. As a result, the foreign matter generated from the object to be processed can be confined in the bucket, making it possible to make it difficult for foreign matter to directly contact the apparatus constituting the apparatus such as the pressure vessel. Thus, it is possible to prevent a device such as a pressure vessel from being damaged by foreign matter generated from the object to be treated.

Further, since the object to be treated is placed in the pressure vessel in a state of being put in the bucket, the handling property of the object to be treated is excellent. In addition, when the object to be processed is a food, the pressure medium (second pressure medium) in the bucket can be easily discharged every time the food pressurizing treatment is performed.

The bucket includes a bucket body into which the object to be processed and a second pressure medium are inserted and a lid having a hole which is detachably attached to the upper portion of the bucket body through a hinge, It is preferable that a rotating device for axially rotating the bucket taken out from the container is provided in the iso-pressure applying device. According to this, the pressurized object to be processed can be easily taken out from the pressure vessel.

When the object to be treated is food, it is preferable to use water containing salt or fragrance as the second pressure medium. The use of water containing salt or flavor imparted to the food as the second pressure medium makes it possible to impart the flavor and aroma of the salt to the food, thereby improving the value of the food. In this case, if salt or the like is contained in the pressure medium, the durability of an apparatus constituting the iso-pressure device such as a pressure vessel, a high-pressure pump, and a pressure reducing valve is lowered. However, Is difficult to get out of the bucket, so this problem is unlikely to occur.

Although the embodiment of the present invention and its modifications have been described above, it goes without saying that various modifications can be made within the range that can be considered by those skilled in the art.

1: Pressure vessel
1a, 1b:
2: Press frame
3: Water supply and drainage unit
4: High pressure pump unit
5: Control Panel
6: Bucket
10: First cover
11: Second cover
12: Bucket body
13:
13a: hole
14: Hinge
15: Roller (rotating device)
51: Centrifuge (pressure medium)
52: brine (second pressure medium)
100: Isometric pressure device
O: Oyster (food)

Claims (7)

A cylindrical pressure vessel in which openings are formed at both ends in the axial direction and arranged in a transverse arrangement, a pressure is applied to the first pressure medium in the liquid contained in the pressure vessel, Is an isostatic pressing device,
And a bucket having an opening in its upper portion and accommodating the object to be processed and installed in the pressure vessel,
At least a second pressure medium is introduced into the bucket,
The specific gravity of the first pressure medium is smaller than the specific gravity of the object to be processed,
Wherein the specific gravity of the second pressure medium is equal to or greater than the specific gravity of the first pressure medium. The method according to claim 1,
The bucket
A bucket body into which the object to be processed and the second pressure medium are inserted,
And a cover body having the hole mounted on the upper portion of the bucket body,
Further comprising a rotating device for axially rotating the bucket taken out from the inside of the pressure vessel. 3. The method according to claim 1 or 2,
Wherein the second pressure medium is a water containing salt, and the object to be processed is a food. 3. The method according to claim 1 or 2,
Wherein the second pressure medium is a water containing a perfume, and the object to be processed is a food. 3. The method according to claim 1 or 2,
Characterized in that the object to be processed has a shell. A pressure treatment method using the isostatic pressing device according to claim 1,
The object to be processed containing the object to be processed and the second pressure medium into the bucket,
A bucket containing step of putting the object to be processed and the bucket into which the second pressure medium is inserted from the opening into the pressure vessel,
A pressure treatment step of applying pressure to the first pressure medium placed in the pressure vessel to pressurize the object to be processed placed in the pressure vessel together with the bucket,
A bucket taking-out step of taking out the bucket into which the pressurized processed object is placed from the inside of the pressure vessel,
And a process for removing the object to be processed from the inside of the bucket by using the isostatic pressing device. A pressure treatment method using the isostatic pressing device according to claim 2,
The object to be processed containing the object to be processed and the second pressure medium into the bucket,
A bucket containing step of putting the object to be processed and the bucket into which the second pressure medium is inserted from the opening into the pressure vessel,
A pressure treatment step of applying pressure to the first pressure medium placed in the pressure vessel to pressurize the object to be processed placed in the pressure vessel together with the bucket,
A bucket taking-out step of taking out the bucket into which the pressurized processed object is placed from the inside of the pressure vessel,
And a process for removing the object to be processed from the inside of the bucket,
In the process for taking out the object,
Rotating the bucket to rotate the bucket and turning the cover body mounted on the upper portion of the bucket body through the hinge by its own weight around the hinge to drop the pressurized processed object from the inside of the bucket, Wherein the isostatically pressurizing device is used.

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