JP4739542B2 - High viscosity material filtration equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a process for producing a metal paste, an adhesive, a sealing agent and other high-viscosity materials, followed by kneading or dispersing treatment, etc., and then uniformizing the particle size or removing contaminants. The present invention relates to a high-viscosity material filtration apparatus used for processing.
[0002]
[Prior art]
When manufacturing metal paste and other high-viscosity materials, the processing material is filtered by a filtration device having a required mesh screen and a stirring blade rotating at the top of the mesh, so that the mesh exceeds # 400. When such highly accurate purification is required, the screen may be clogged, and the discharge amount may be extremely reduced. In such a case, a method has been adopted in which the supply side is airtight and the processing material is pressurized to the screen and pushed out from the screen. Since the pressure-resistant structure and airtight structure must be provided in each part such as the structure of the airtight lid, the entire apparatus becomes complicated and expensive, and it is difficult to degas even if bubbles are included in the processing material. There was a problem.
[0003]
[Problems to be solved by the invention]
The problem to be solved by the present invention is that it can be suitably used for a high-viscosity processing material as described above, and a good discharge amount can be obtained even with a mesh screen with a small mesh opening, and defoaming from the material can be easily performed. An object of the present invention is to provide a high-viscosity material filtering device .
[0004]
[Means for Solving the Problems]
According to the present invention, a high-viscosity treatment material supply port having an inlet portion inclined inwardly from above to below and a cylindrical inner portion communicating with the inlet portion is formed, and a lower portion of the supply port Provided with a screen device having a screen, and provided with a blade rotating at the lower end of a drive shaft provided above the supply port, pressing the high-viscosity treatment material against the screen and inscribed inward of the supply port, A receiving tank is located below the screen device, a suction space communicating with a vacuum source is formed on the receiving tank side, and the high-viscosity material passing through the screen is collected in the receiving tank. A filtration device is provided to solve the above problems.
[0005]
Further, according to the present invention, the suction device may be formed of an airtight box that houses the receiving tank, or the filtering device formed in the receiving tank itself by covering the upper surface of the receiving tank with an airtight lid. Provided to solve the above problems.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows an embodiment of the present invention. In the figure, a supply port (2) for charging a high-viscosity processing material is formed above the main body (1), and a screen above the slit plate (3) is formed below the supply port (2). A screen device (5) on which (4) is stacked is provided.
[0007]
As shown in FIG. 2, the supply port (2) has an inverted conical inlet portion (6) inclined inward from the top to the bottom and a cylindrical shape continuous to the lower end of the inlet portion (6). A flange (8) having an inner part (7) and formed at the outer end of the inlet part (6) is detachably attached to the base (9).
[0008]
The flange (10) formed at the lower end of the inner part (7) of the supply port (2) is detachably attached with the flange (11) of the screen device (5). 4) and the slit plate (3) are sandwiched between the flanges (10) and (11). An appropriate seal member is provided on the joint surface of each member.
[0009]
The slit plate (3) is formed in a thin plate shape having a substantially hexagonal hole (12) as shown in FIG. 4, but can be formed in other appropriately shaped holes or gaps, A screen (4) having a desired number of meshes is overlaid thereon depending on the processing material.
[0010]
The frame (13) provided above the main body (1) is provided with a motor (14), and a cylindrical coupling (16) is rotated around the motor shaft (15). Stopped and attached with screws (17). In the insertion hole (18) of the coupling (16), the upper end of the drive shaft (19) is inserted in a non-rotating state and fixed with a screw (20), and the lower end of the drive shaft (19) is It extends above the supply port (2) (FIG. 3).
[0011]
The lower end of the drive shaft (19) is provided with a blade (21) that rotates by pressing the high-viscosity processing material against the screen. The blade (21) is made of polyurethane rubber or other appropriate rubber material and is held by a blade holder (22). A square plate-like engagement protrusion (24) having a mounting hole (23) is formed at the center of the upper surface of the blade holder (22), and a receiving groove (25) engaged with the engagement protrusion (24). ) Having a connecting cylinder (26). The connecting cylinder (26) has a receiving hole (27) that is inserted in a non-rotating state at the lower end of the drive shaft (19), is fixed to the drive shaft by a screw (28), and the mounting hole (23 The blade holder (22) is attached by inserting a screw (29) into the bracket (FIG. 6).
[0012]
The small-diameter portion (30) formed on the drive shaft (19) is attached with a half flange (31) that is combined so as to sandwich the drive shaft (19) from both sides. A presser bolt (32) extending in the vertical direction is screwed to 31), and its tip is brought into contact with the lower end of the coupling (16). Thereby, when the processing material is pressed, the reaction force transmitted to the drive shaft (19) from the blade upward can be dispersed and supported.
[0013]
The supply port (2) is provided with a detent piece (33) extending in the radial direction so that the high-viscosity processing material supplied to the supply port (2) does not rotate with the rotation of the blade. It is designed to be inserted into the processing material.
[0014]
A receiving tank (34) is located below the screen device (5), and a suction space communicating with a vacuum source is formed on the receiving tank side, and the high-viscosity material that has passed through the screen is received. It collects in the tank.
[0015]
The suction space can be formed in various ways. In the embodiment shown in FIG. 1, an airtight box (35) for receiving the receiving tank (34) is provided at the lower part of the main body (1), and the box is formed. By connecting (35) to a vacuum source such as a vacuum pump (P), the inside of the box (35) is used as a suction space (36). The receiving tank (34) is opened and removed by opening the lid (37) of the box (35), and a roller for guiding the movement of the receiving tank (34) at the bottom of the box (35). (38)... Are provided. Moreover, a viewing window (not shown) for seeing through the inside of the box is formed in an appropriate part such as a side surface of the box (35).
[0016]
FIG. 7 shows another embodiment of the present invention, which does not have a box for forming a suction space as shown in the above embodiment. That is, the suction space (36) is formed as a space of the receiving tank itself between the receiving tank (34) and the lid (39) by covering the upper surface of the receiving tank (34) with an airtight lid (39). The lid (39) is provided with a vacuum pump (P) for sucking the space, and the lid has a supply port (2), a slit plate (3), A screen device (5) having a screen (4) is provided.
[0017]
The blade (21) inserted into the supply port (2), the drive shaft (19) rotating the blade (21), etc., drive the drive shaft (19) via appropriate transmission means. Is supported by a drive head (41) to which a motor (40) is attached. The drive head (41) is moved up and down by a lifting cylinder (42) such as a hydraulic cylinder. In the embodiment shown in the figure, the lid (39) and the drive head (41) are coupled by an appropriate coupling means (not shown), and the lid (39) is lifted and lowered by the lifting cylinder (42). However, the lid (39) and the drive head (41) may be provided separately. The lid and the driving bed are separated or connected with play in the vertical direction, and the driving head (41) is moved up and down while the blade is rotating to adjust the pressing force of the processing material by the blade (21). You may be able to do it.
[0018]
Thus, after the kneading or dispersing process is performed, when the high-viscosity processing material (43) is supplied to the supply port (2), the blade (21) is rotated as if it were a screen print. The processing material is pressed against the screen (4) in the same manner as the squeegee used. Further, since the supply port (2) is blocked by the high-viscosity processing material itself, and is sucked by a vacuum action to the suction space side provided below the screen device, the processing material is made of the screen. Even when the mesh number is small, such as # 400, # 500, etc., the mesh easily passes through the screen and is collected in the receiving tank.
[0019]
Using the filtration apparatus shown in FIG. 1, the case where the treatment is performed while sucking with a vacuum source as in the present invention is compared with the case where no vacuum is used. In the case of the present invention, the screen is clogged. The discharge amount of about 3 to 6 times was obtained without any problem, and the bubbles in the treatment material could be surely removed.
[0020]
【The invention's effect】
The present invention is configured as described above, and a suction space communicating with a vacuum source is provided below the screen device, and a vacuum is applied while pressing a high-viscosity processing material against the screen of the screen device with a blade. Since suction is performed by the action, even a screen having a large mesh number and a small mesh can be efficiently discharged, and at the same time, a high-viscosity material can be deaerated. In addition, the blades etc. can be easily removed, cleaned, replaced, etc. by loosening the bolts etc. that secure the drive shaft etc., and are easy to handle, simple in construction and economical. A high viscosity material filtration device is obtained.
[Brief description of the drawings]
FIG. 1 is a partially sectional front view showing an embodiment of the present invention.
FIG. 2 is an enlarged sectional view of a part of FIG.
FIG. 3 is an enlarged sectional view mainly showing a drive shaft portion.
FIG. 4 is a plan view of a slit plate.
FIG. 5 is a perspective view mainly showing a supply port portion.
FIG. 6 is an exploded perspective view mainly showing a blade portion.
FIG. 7 is an explanatory diagram showing another embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Main body 2 Supply port 3 Slit plate 4 Screen 5 Screen device 16 Coupling 19 Drive shaft 21 Blade 22 Blade holder
26 Connecting cylinder 33 Non-rotating piece 34 Receiving tank 35 Box 36 Suction space 39 Lid

Claims (5)

A screen device having a high-viscosity processing material supply port having an inlet portion inclined inwardly from above and a cylindrical inner portion communicating with the inlet portion, and having a screen below the supply port And a blade that rotates in contact with the inner part of the supply port by pressing the high-viscosity processing material against the screen at the lower end of the drive shaft provided above the supply port. A high-viscosity material filtering device in which a receiving tank is located, a suction space communicating with a vacuum source is formed on the receiving tank side, and the high-viscosity material that has passed through the screen is collected in the receiving tank. The high-viscosity material filtering device according to claim 1, wherein the suction space is formed by an airtight box, and the receiving tank is accommodated in the box. The high-viscosity material filtering device according to claim 1, wherein the suction space is formed in the receiving tank itself by covering an upper surface of the receiving tank with an airtight lid. The high viscosity according to claim 1, wherein an upper end of the drive shaft is connected to a motor shaft through a coupling, and a blade holder for holding the blade is connected to a lower end of the drive shaft through a connecting cylinder. Material filtration equipment . The high-viscosity material filtering device according to claim 1, wherein the supply port is provided with a detent piece so as to prevent rotation of the supplied high-viscosity processing material.

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