JPH05116121A - Retaining mold matching mechanism of pressure cast molding device - Google Patents

Abstract

PURPOSE:To achieve accurate alignment and to prevent the mutual collapse of retaining molds, in constitution for matching and aligning the retaining molds of a pressure cast molding device, by arranging wedge-shaped contact bodies to the mutual bonding surfaces of the retaining molds and setting the same to a perfect contact state at the time of the adhesion of the retaining molds. CONSTITUTION:Porous bodies are arranged in the left and right retaining molds 3, 4 and upper and lower retaining molds 5, 7 of sanitary pottery to be covered with metal capsules and wedge-shaped contact parts 28 are constituted at the parts of the porous bodies in the retaining molds 3, 4, 5, 7 to be brought to an adhesion state. The wedge-shaped contact parts 28 are constituted, long so that all of rectangular edge parts become the wedge-shaped contact parts 28 and the left and right retaining molds 3, 4 are brought into contact with each other at first using the wedge-shaped contact parts 28 as guides to be positioned and, thereafter, the upper and lower retaining molds 5, 7 are aligned from above and below using the wedge-shaped contact parts 28 as guides.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a form matching mechanism of a pressure casting molding apparatus for molding a material such as sanitary ware before firing.

[0002]

2. Description of the Related Art Sanitary ware represented by toilet bowls and washbasins is manufactured by firing a raw material formed by a slurry casting method. A technique of performing pressure casting at the stage of casting the molded body has been conventionally known. For example, JP-A-3-69313, JP-A-3-67604, JP-A-3-69304, JP-A-3-81103, and JP-A-3-67.
The technique is disclosed in Japanese Patent Laid-Open No. 605 or Japanese Patent Laid-Open No. 3-83608.

[0003]

In the pressure casting manufacturing apparatus, the alignment positioning mechanism for joining the molds has conventionally been configured as shown in FIGS. 11 and 12. That is, the knock pins 6 are projected from the left and right molds 3 and 4 and the upper and lower molds 5 and 7 which are made of a porous body and a metal capsule, and knock pin holes 19 are drilled at the positions of the molds facing each other. , They were positioned by putting them together. However, in the case of the knock pin hole 19 and the knock pin 6, it is inevitable that a slight clearance gap must be provided for the insertion allowance and the removal allowance, which allows accurate alignment as a whole. There was a problem that it was not there. The present invention solves this point.

[0004]

The problems to be solved by the present invention are as described above, and the means for solving the problems will be described below. That is, in a configuration in which the molds of the pressure casting manufacturing apparatus in which the porous body is arranged on the inside and the metal body capsule covering the porous body is arranged on the outside are aligned and positioned, a wedge-shaped abutment body is arranged on the joint surface between the molds. However, the wedge-shaped abutment body is brought into a complete abutment state when the die frame is in close contact.

[0005]

Next, the operation of the present invention will be described. Left and right formwork 3.4
The upper and lower molds 5 and 7 are configured by arranging a porous body made of synthetic resin on the inside and coating a metal capsule on the outside. In the present invention, the wedge-shaped abutment bodies 8.9 and the wedge-shaped abutment portions 28 are provided on both sides of the mold, and both the wedge-type abutment bodies 8.9 and the wedge-shaped abutment portions 28 are brought into contact with each other. It was configured so that the molds would be in perfect contact with each other in the contacted state.

[0006]

EXAMPLES Next, examples will be described. 1 is a side view of the pressure casting molding production line, FIG. 2 is a plan view of the pressure casting molding production line, and FIG.
4 and a side view of a state in which it is divided into upper and lower molds 5 and 7, FIG.
Is a perspective view of the wedge-shaped abutment portion 28 exposed with the left and right molds 3 and 4 combined, FIG. 5 is a diagram showing the positional relationship between the upper and lower wedge-shaped abutment portions 28, and FIG. FIG. 7 is a plan view showing a wedge-shaped abutment body 9 provided on the mold, and FIG.
25 is a side cross-sectional view of FIG. 25, FIG. 8 is a side view of the upper and lower wedge-shaped abutments 8 and 9 with replaceable abutment surfaces 8a and 9a laid, and FIG. 10 is a side view of an example, FIG. 10 is a drawing showing an adjusting mechanism of a wedge-shaped abutment body, FIG. 11 is a side view showing a conventional alignment positioning mechanism constituted by a knock pin 6 and a knock pin hole 19, and FIG. 12 is a knock pin 6 and a knock pin hole. It is an enlarged view of 19 parts.

The overall structure of the pressure casting line will be described with reference to FIGS. 1 and 2. In the plan view of the pressure casting molding apparatus shown in FIG. 2, the mold conveying line 11 is arranged on the right side and the molded body conveying line 12 is arranged on the left side.
The pressure casting manufacturing apparatus is arranged at an intermediate position between the mold conveying line 11 and the molded body conveying line 12 and is constituted by the pressurizing machine frame 2. A sludge stand A that supplies sludge to the pressure casting manufacturing apparatus is laid and arranged in the pressure casting manufacturing apparatus. The pressurizing machine frame 2 and the sludge stand A constitute a molding station. The mold conveyed on the mold conveyance line 11 is conveyed to the molding station, and the pressurizer frame 2 is conveyed from the mold branch line 32.
The mold is placed and fixed inside. Further, the formwork transfer line 11 is divided into a formwork transfer line 11a and a formwork transfer line 11b by a branching section T, and the formwork part number is discriminated to enter the molded product branching line 13 or the formwork transfer line as it is. It is determined whether or not the mold storage line is reached after passing through 11a.

Inside the pressurizer frame 2, a form frame composed of left and right form frames 3 and 4 and upper and lower form frames 5 and 7 is fixed, and the up and down pressing cylinders 14 and 17 and the left and right pressing cylinders 15 and 16 are fixed.
It is pressed by and the pressurized sludge is injected into the inside, and the sludge adheres to the mold. The left and right molds 3 and 4 and the upper and lower molds 5 and 7 are each composed of a porous body arranged inside and a metal capsule covering the outside thereof. After inking, demolding work is performed inside the press frame 2,
The molded body 1 is joined to the molded body conveying line 12 from the molded body branch line 13. The sludge stand A is provided with a sludge pressure pump, a temporary sludge storage tank, and the like.

As shown in FIGS. 1 and 2, the orbit widths of the form transfer line 11 and the form branch line 32 are narrow, and as shown in FIGS. 1 (a) and 1 (b), the form is narrow. It is placed on the carrier 30 and conveyed. Then, the molded body 1 after completion of molding is carried by being mounted on a molded body mounting carriage 31 having a wide track between the molded body branch line 13 and the molded body conveying line 12 and having a wide rut distance. FIG. 1C shows a state in which the molded body 1 after molding is removed from the mold and mounted on the molded body mounting carriage 31. The mold is basically composed of left and right molds 3 and 4 and upper and lower molds 5 and 7, and the left and right pressing cylinders 15 and 16 for pressing the left and right molds 3 and 4 and the upper and lower molds 5 and 7, respectively.
And the vertical pressing cylinders 14 and 17 press the mold.

An embodiment of the sanitary ware form matching mechanism shown in FIGS. 3, 4, and 5 will now be described. The left and right molds 3 and 4 and the upper and lower molds 5 and 7 are each configured by arranging a porous body inside and covering the outside with a metal capsule. Wedge-shaped abutment portions 28 are respectively formed on the porous bodies in the formwork, and when the left and right formworks 3 and 4 and the upper and lower formworks 5 and 7 are aligned, the wedge-shaped abutment portions 28 are formed. Are all in close contact with each other. The wedge-shaped abutment portion 28 of the embodiment has a long structure so that the rectangular edges are all wedge-shaped abutment portions. As shown in FIG. 4, the left and right molds 3 and 4 are first brought into contact with each other by using the wedge-shaped abutment portions 28 as guides and positioned, and then the upper and lower molds 5 and 7 are guided from above and below to the wedge-shaped abutment portion 28. Is configured to match.

Next, description will be made on the embodiment shown in FIGS. 6, 7, and 8. In this embodiment, a mold is shown for forming a molded body 26 of a pottery tank such as a low tank laid in a flush toilet. The lower mold 23 and the upper mold 25 are also
Both are composed of a porous body inside and a metal capsule covering the periphery thereof. Then, the molded body 26 of the mold is inlaid inside. Then, the wedge-shaped abutment body 9 is projected on the upper surface of the lower mold 23, and the wedge-shaped abutment bodies 8 and 9 are projected on the lower surface of the upper mold 25. Further, the upper mold 25 and the lower mold 23 are configured to be completely in close contact with each other at a position where they are completely in contact with each other.

As shown in FIG. 8, the wedge type abutting bodies 8.9 attached to the upper mold 25 and the wedge type abutting bodies 9 attached to the lower mold 23 are attached to exchangeable abutting surfaces 8a. 9a is arranged, and if only this part is worn, it can be replaced. As a result, even if the number of times of use increases, the mold can always be accurately meshed. In the embodiment of FIG. 9, the wedge-shaped abutment bodies 8 and 9 are configured to have two wedge surfaces. By providing the two wedge surfaces in this manner, the wedge-shaped abutment bodies 8 and 9 can be centrally arranged.

FIG. 10 shows an embodiment in which the positions of the wedge-shaped abutments 8 and 9 can be finely adjusted. In this case, the adjustment bolt seats 18 and the adjustment bolts 20 are provided on the porous bodies of the left and right molds 3 and 4, and the wedge-shaped abutment body 9 can be fixed to the left and right molds 3 and 4 by the fixing bolts 21. . As a result, the fixing bolt 21 can be loosened, the adjusting bolt 20 can be rotated, the wedge-shaped abutment body 9 can be adjusted to the specified position, and the fixing bolt 21 can be fixed again.

[0014]

Since the present invention is configured as described above, it has the following effects. That is, since the knock pin 6 conventionally determines the combined position of the molds, the molds may be displaced because the dimensions of the knock pin 6 and the knock pin hole 19 require a clearance. However, by constructing the alignment positioning portion by the wedge-shaped abutment bodies 8 and 9 and the wedge-shaped abutment portion 28 as in the present invention, it is possible to eliminate such a drawback of the conventional technique.

[Brief description of drawings]

FIG. 1 is a side view of a pressure cast molding production line of the present invention.

FIG. 2 is a plan view of a pressure casting molding production line.

[FIG. 3] Forming molds for the toilet bowl are left and right molds 3 and 4 and upper and lower molds 5.
・ Side view of the state divided into 7 and 7.

FIG. 4 is a perspective view showing a state where the wedge-shaped abutment portions 28 are exposed in a state where the left and right molds 3 and 4 are combined.

FIG. 5 is a view showing a positional relationship between upper and lower wedge-shaped contact portions 28.

FIG. 6 is a plan view showing a wedge-shaped abutment body 9 provided on a tank molding frame.

FIG. 7 is a side sectional view of the tank molding forms 23 and 25.

FIG. 8: Upper and lower wedge-shaped abutment bodies 8.9 and replaceable abutment surfaces 8a
The side view of the state where 9a was laid.

FIG. 9 is a side view of an embodiment having a two-sided wedge-shaped abutment body.

FIG. 10 is a view showing an adjusting mechanism of a wedge-shaped abutment body.

FIG. 11 is a side view showing a conventional alignment positioning mechanism constituted by knock pins 6 and knock pin holes 19.

FIG. 12 is an enlarged view of the knock pin 6 and the knock pin hole 19.

[Explanation of symbols]

 A Sludge stand T Bifurcation 1 Molded body 2 Pressurizer frame 3,4 Left and right formwork 5,7 Upper and lower formwork 8,9 Wedge type abutment 28 Wedge type abutment

Claims (1)

[Claims] 1. In a structure for aligning and positioning a mold of a pressure casting manufacturing apparatus in which a porous body is placed inside and a metal capsule covering the porous body is placed outside, a wedge-shaped abutment is applied to a joint surface between the molds. A mold aligning mechanism for a pressure casting molding apparatus, wherein a body is arranged and the wedge contacting body is brought into a completely contacting state when the mold is closely contacted.