JPH11226376A - Container fixing mechanism for stirring and deaerating device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable positive transmission of a rotating force to a container without fabricating an engagement means on the container side and thereby, prolong the use life of the container. SOLUTION: In the stirring and deaerating device comprising a container 10 for storing a material, a container holder 5 for holding the container 10 and a drive mechanism for rotating and at the same time, revolving the container holder 15, the container 10 has a planar part 10a at the outside bottom part, and the container holder 5 has engaging protrusions 3 which come into contact with the planar part 10a of the container 10 at the inside bottom part. When the container holder 5 is actuated to rotate and revolve, the engaging protrusions 3 find their may into the planar part 10a of the container 10 and consequently, the container 10 is anchored in the container holder 5. Thus the container fixing mechanism I for the stirring deaerating device is of such a construction that the bite depth of the engaging protrusions 3 is smaller than the thickness of the bottom part of the container 10.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a container used in a stirring and defoaming apparatus for stirring and defoaming a hollow cylindrical container containing a material for stirring and defoaming by rotating and revolving. The present invention relates to a fixing mechanism, and more particularly, to a container fixing mechanism of a stirring and defoaming apparatus that can be used without performing a fixing process on a container.

[0002]

2. Description of the Related Art In general, as shown in FIG. 3, a stirring and defoaming apparatus 50 for stirring and defoaming materials such as synthetic resins, chemicals and chemical materials is a plastic hollow cylindrical container for accommodating the materials. 51, a holder 52 for fixedly holding the container 51, a rotation mechanism 53 for rotating the holder 52, a support portion 54 for supporting the rotation mechanism, and a revolving mechanism 55 for rotatably supporting the support portion 54. It is composed of

[0003] Since a large centrifugal force and gravitational force are applied to the container 51 when performing the stirring and defoaming operation, the holder 52 is used.
If the container 51 inside is not fixed to the holder 52, the rotation force from the holder 52 cannot be transmitted to the container 51. Therefore, the container 51 and the holder 52 are provided by various means.
Has been proposed to engage and fix the.

That is, as shown in FIG.
Has an engaging portion 51a formed on the container body 51B directly below the lid 51A. The engaging portion 51a includes a band portion 51b formed along the upper peripheral surface of the container body 51B,
Predetermined position of this band portion 51b (three places at equal intervals in the drawing)
And a notch fitting portion 51c provided at the bottom. The holder 52 has an engaging portion 51 a of the container 51.
Locking projection 52 provided on the upper end side as a locking portion for engaging with
a (three places at equal intervals in the drawing). Therefore, the notch fitting portion 51c of the container 51 is configured to be able to appropriately transmit the rotation force from the holder 52 by fitting to the locking projection 52a of the holder 52.

As shown in FIG. 5, an engaging portion 61a of a container 61 having another configuration is formed with a screw hole in a lid 61A of the container 61, and a screw 61c in the screw hole. A fixing bracket 61b having a U-shaped cross section is fixed. At the upper end position on the holder 62 side, notch engaging portions 62a, 62a to which the fixing fitting 61b is fitted are formed. Therefore, the position of the fixture 61b of the container 61 is fixed by being fitted to the notch engaging portions 62a, 62a of the holder 62, and the rotation force from the holder 62 can be appropriately transmitted. .

Further, as shown in FIG. 6, an engaging portion 71a of a container 71 having another structure uses a container 71 having a double bottom, and is engaged with a bottom portion 71b outside the double bottom. A hole 71c is formed. Further, convex portions 72a, 72a are formed on the bottom portion of the holder 72. Therefore, the protrusions 72 are provided in the engagement holes 71c, 71c of the container 71.
The container 71 is configured to be engaged with the holder 72 by fitting and engaging the a and 72a. Therefore, the rotation force from the holder 72 can be appropriately transmitted.

[0007]

However, the above-described conventional container and holder fixing means have the following problems.

The stirring and defoaming device is configured to revolve the container while revolving the container around a rotation axis at a predetermined speed. A large centrifugal force is applied to the container, and the rotation force from the holder is appropriately transmitted. Therefore, it is necessary to apply some processing to the container, which is inconvenient. Further, this is a factor that increases the manufacturing cost of the container and the holder.

[0009] Even if some engagement means is formed on the container, a large load is applied to the revolving and rotating container,
The engagement means formed on the container is easily broken, and the service life of the container has been shortened.

In the case where the bottom of the container has a double bottom and an engagement hole is formed, and the projection provided on the holder side is engaged with the engagement hole, the engagement hole engaging with the projection is large. Since the load is concentrated, if the container is used several times, the container may not be able to withstand use such as cracking of the container from the position of the engagement hole.

The present invention has been made in view of the above-mentioned problems, and it is possible to use a general-purpose product without performing any processing on the container side, and to surely transmit the rotation force to the container. It is an object of the present invention to provide a container fixing mechanism of a stirring and defoaming device capable of extending the service life of a container.

[0012]

In order to achieve the above object, the present invention provides a hollow cylindrical container for storing a material to be stirred and defoamed, a container holder for holding the container, and the container holder. And a drive mechanism for revolving and revolving, the agitating and defoaming device that agitates and defoams the material by an operation in which the container revolves and revolves, wherein the container has a flat portion on the outer bottom surface. The container holder has an engagement projection at the bottom of the inner surface thereof, which is in contact with the flat part of the container, and the engagement projection bites into the flat part of the container by centrifugal force when the container holder rotates and revolves. The container is fixed to its container holder,
The engagement protrusion has a biting dimension smaller than a thickness dimension of a bottom portion of the container.

[0013] The engagement projection may be formed on at least the peripheral edge of the inner bottom surface of the container holder when the flat portion of the container is formed on at least the peripheral edge of the outer bottom surface of the container. good.

Further, it is convenient that the engaging projection is formed on a board-like body detachably provided at the bottom of the inner surface of the container holder.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings. 1A is a perspective view showing a main part of the container fixing mechanism, FIG. 1B is a cross-sectional view showing a main part of the container fixing mechanism, and FIG. 2A shows another form of the engagement protrusion. Sectional drawing, (b) is a perspective view which shows another form of an engagement protrusion.

As shown in FIG. 1, the container fixing mechanism 1 used in the agitating and defoaming apparatus has an engaging projection 3 provided at the bottom of the inner surface of the container holder 5 as a main component. The container fixing mechanism 1 includes a disk 2 as a disk-shaped body, an engagement protrusion 3 formed on a peripheral portion of the disk 2, and fixing means 4 for fixing the disk 2 to a container holder 5. I have.

The container 10 fixed by the container fixing mechanism 1 is made of plastic or wood containing a material for stirring and defoaming without any special processing for fixing to the container holder 5. Alternatively, a material formed of a member such as paper may be used as it is, and any material having a flat portion 10a at the bottom of its outer surface may be used.

The engaging projection 3 is formed such that its biting dimension is smaller than the thickness dimension of the bottom of the container 10. It is configured to have a height that does not penetrate into the inside of the container 10 when the engagement protrusion 3 bites into the container 10. The number of the engaging projections 3 is equal to eight in the drawing, but it is sufficient if three or more are provided.
Any number may be used as long as the number is such that it can bite into Oa and be fixed to the container holder 5 and appropriately transmit the rotation force from the container holder 5 to the container 10 side. Further, the installation position of the engagement protrusion 3 may be any position at which the container 10 can appropriately transmit the rotation force from the container holder 5 such as a cross shape.

The engaging projections 3 are formed of metal if the container 10 is made of plastic, paper or wood, and if the material of the container 10 is metal, the container 1
It is desirable to be formed of a metal harder than the metal of zero.

The engaging projections 3 are arranged so as to abut on a flat portion 10a formed on the peripheral edge of the bottom of the outer surface of the container 10, which is used when the container 10 rotates and revolves. This is because it is convenient when a large centrifugal force acts and the container 10 is appropriately fixed.

Further, the fixing means 4 of the disk 2 is configured to be fixed to the bottom of the inner surface of the holder 5 using screws, but when the container 10 is operated to rotate and revolve, a large load is applied. Therefore, in order to prevent the disk 2 from rotating, for example, a square hole may be formed in the center of the disk 2, and a convex portion fitted to the square hole may be provided on the container holder 5 side. Alternatively, screw holes may be formed at a plurality of positions of the disk 2 and screwed to the bottom of the inner surface of the container holder.

The disk 2 has a square shape (triangle,
Square, pentagon, hexagon, polygon). further,
The mounting position of the engaging projection 3 may be formed directly on the bottom of the inner surface of the container holder 5.

Therefore, when the container 10 is fixed by the container fixing mechanism 1, the following operation is provided. A material to be stirred and defoamed is stored in the container 10 and held in the container holder 5,
The container holder 5 is operated so as to rotate while revolving. At this time, when 300 g of the material is stored in the container 10, a force of about 500 G acts on the container 10 and the container 10
Is pressed down with a force of about 150 kg. for that reason,
The tip side of the engaging projection 3 is in contact with the container 10 (the flat portion 10).
a), and the rotation force from the container holder 5 is applied to the container 10.
Can be properly communicated to the side.

The engaging projections 3 bite into the flat portion 10a of the container 10 each time the stirring and defoaming operation is performed.
Since the engagement protrusion 3 has a biting dimension smaller than the thickness of the bottom of the container 10, a load that may damage the container is not concentrated on the contact position of the container 10. Therefore, it is possible to repeatedly use the container 10 for the stirring and defoaming operation for a long time without damaging the container 10.

Next, as shown in FIGS. 2A and 2B,
The engagement projection may have the following configuration. That is, as shown in FIG. 2 (a), the engaging projection 13 formed a through hole in advance from below the disk 12, and formed the through hole with a punch of a working tool or the like to form a projecting portion. It may be configured to be formed by burring.

Further, as shown in FIG. 2 (b), the engaging projection 23 may be formed so as to rise up at an acute angle on the peripheral side of the disk 22 so as to have a predetermined length. Although the engaging projections 23 are formed so as to be oriented radially toward the center of the disk 22, the engaging projections are turned 90 degrees or 45 degrees from the position shown in FIG. May be set. Further, the engagement projections 13 and 23 shown in FIGS. 2 (a) and 2 (b) are configured so that each of the engagement dimensions is smaller than the thickness of the bottom of the container 10 (see FIG. 1) to be used. Have been.

Further, the engaging projections 3, 13, 23 are
Of course, it may be configured to be formed on the entire disk or directly on the bottom of the inner surface of the container holder. Also,
The shape of the engagement protrusion may be any shape as long as it can bite into the flat part of the container. The acute angle of the tip of the engagement projection is not limited.

[0028]

As described above, the present invention has the following advantages because it is configured as described above. The container fixing mechanism of the stirring and defoaming device is provided with an engagement projection at a position inside the container holder that comes into contact with the flat portion of the outer peripheral bottom portion of the container, so that the container holder is operated to revolve while rotating. Then, since the engagement projections bite into the flat portion of the container due to the centrifugal force and are fixed, the rotation force from the container holder can be appropriately transmitted to the container.

Further, since the engagement projection is formed to have a size smaller than the thickness of the bottom of the container, even if the engagement projection is cut into the container, a load that may damage the container is not applied. Regardless, the load for fixing the container is appropriately applied. Therefore, it is possible to use a general-purpose container without performing any processing for engaging the container, and it is possible to greatly reduce the labor and manufacturing cost for processing.

Since the engagement protrusion is provided on the peripheral side of the container, a centrifugal force acts on the container, and when a large force is applied, the container can be fixed using the force appropriately. .

The engaging projection is formed on a disk-shaped body fixed to the bottom of the inner surface of the container holder, so that the disk-shaped body provided with an appropriate engagement projection corresponding to the type of the container can be appropriately attached and detached. Can be used. Further, even if the engagement projection is damaged, the replacement operation can be easily performed.

[Brief description of the drawings]

FIG. 1A is a perspective view showing a main part of a container fixing mechanism of the present invention, and FIG. 1B is a cross-sectional view showing a main part of the container fixing mechanism of the present invention.

2 (a) is an enlarged sectional view and a perspective view showing another embodiment of the engaging projection of the present invention, and FIG. 2 (b) is a perspective view showing still another embodiment of the engaging projection of the present invention. .

FIG. 3 is a perspective view showing the entire stirring and defoaming apparatus.

FIG. 4 is a perspective view showing a main part of a conventional container fixing mechanism.

FIG. 5 is a perspective view showing a main part of a conventional container fixing mechanism.

FIG. 6 is a sectional view showing a main part of a conventional container fixing mechanism.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Container fixing mechanism 2 Disk (disk-shaped body) 3 Engagement protrusion 4 Fixing means 5 Container holder 10 Container 12 Disk 13 Engagement protrusion 22 Disk 23 Engagement protrusion

Claims (3)

[Claims] 1. A container having a hollow cylindrical shape for storing a material to be stirred and defoamed, a container holder for holding the container, and a drive mechanism for rotating and revolving the container holder. In a stirring and defoaming apparatus that stirs and defoams the material by rotating and revolving, the container has a flat portion at the bottom of the outer surface thereof, and the container holder has a flat portion of the container at the bottom of the inner surface thereof. The container has an engaging projection that abuts, and when the container holder rotates and revolves, the engaging projection bites into a flat portion of the container due to centrifugal force, and the container is fixed to the container holder. A container fixing mechanism for a stirring and defoaming device, wherein a biting dimension is formed smaller than a thickness dimension of a bottom portion of the container. 2. The method according to claim 1, wherein the engaging projection is formed on at least a peripheral portion of a bottom portion of the inner surface of the container when the flat portion of the container is formed on at least a peripheral portion of a bottom portion of the outer surface of the container. The container fixing mechanism of the stirring and defoaming apparatus according to claim 1. 3. The stirring and defoaming device according to claim 1, wherein the engaging projection is formed on a board-like body detachably provided on a bottom portion of an inner surface of the container holder. Container fixing mechanism.