JPS61227009A - Pressure molding device - Google Patents

Abstract

PURPOSE:To simultaneously release a molded part from a mold and charge stock to the mold by a structure wherein a molded part releasing device and a stock charging device are provided near and separate from a pressure molder main body and a mold transferring device is provided between both the releasing device and the charging device. CONSTITUTION:During the retreat movement of a pressurizing member 2 after the pressure molding, a molding tool 4 moves downwards together with the pressurizing member 2. During the downward movement of the molding tool 4, only the top half 4a abuts against an intermediate supporting member 8 and is checked in its downward movement and the top and bottom halves 4a and 4b, which consists of the molding tool 4, are separated from each other. After that, the top and bottom halves 4a and 4b are taken out to one and the other sides of a pressure molder main body 1 by means of a transferring device 7. At this time, a product is adhered to the top half 4a by all means due to the amount of release coating to the molding halves 4a and 4b, shapes of the halves or the like. The product is released from the top half 4a by a releasing device 6 at one side of the pressure molder main body and at the same time stock is charged to the bottom half 4b by a charging device 5 at the other side of the pressure molding main body. Finally, both the top and bottom halves 4a and 4b are returned in the interior of the molder main body 1 in order to perform the following pressure molding by the pressure molder main body 1.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention mainly relates to a pressure molding apparatus used for pressure vulcanization molding of rubber dough.

(Prior art) A forming mold that is separated into at least an upper mold and a lower mold is separated into upper and lower parts as the pressure member retires between a pressure member and a pressure receiving member that constitute a pressure molding machine main body. A molding apparatus is known in which a material is pressurized and formed in a cavity of a mold.

(Problem to be solved by the invention) However, in this method, the molds are taken out in the same position on one side of the pressure molding machine body in a vertically overlapping state, and after the product is taken out from the mold, the material is Work is underway to fill the tank. For this reason, the mold is removed from the pressure molding machine body for a relatively long period of time, including the time required to demold the molded product and the time required to then load dough into the mold. For this reason, there is an inconvenience that molding takes a long time.

(Means for Solving the Problems) An object of the present invention is to obtain a pressure molding device that does not have the above disadvantages. ) and the pressure receiving member (3), there is a mold (4) separated into at least an upper mold (4a) and a lower mold (4b).
) is provided so as to be separated vertically as the pressure member (2) retires, and the material is pressure-molded in the mold (4), in the pressure-forming machine body <1). A demolding device (6) for demolding the molded product from one mold (4a) or (4b) and the other mold (4b) or (4b) are installed at different positions adjacent to each other.
a) is provided with a loading device (5) for loading the dough, and between the pressure molding machine main body (1) and the demolding device, as well as the pressure molding machine and the loading device (9), one of the molds is (4a) (4
b) is provided with a transfer device @(D) for transferring.

(Function) To explain the function of the present invention in a case where a loading device (5) is provided on the − side of the pressure molding machine main body (1) and a demolding device (6) is provided on the other side, FIG. As shown in the figure, when the pressure member (2) is retired after pressure molding, the mold (4) moves downward with the pressure member (2), and during the downward movement, the upper mold (4a)
) only hits the intermediate support member (8) and is prevented from moving downward. Therefore, as shown in FIG. 12, the upper and lower molds (4a) and (4b) constituting the mold (4) are separated.

Next, the upper and lower molds (4a) and (4b) are taken out to the - side and the other side of the pressure molding machine main body (1) by the transfer device (7).

At this time, the product is ensured to adhere to the upper mold (4a) depending on the amount of release material applied to each mold (4a) (4b) or the shape of the mold.

In this case, the molded product always adheres to the upper mold (4a) and is taken out on one side, so when it is removed by the demolding device (6), it is simultaneously removed from the lower mold (5) by the loading device (5) on the other side. 4b)
Load the dough into. (Fig. 12d) Next, both molds (4aH4b') are transferred to the molding machine main body (1) by the transfer device (7>).
), and then pressure molding is performed in the pressure molding machine main body (1) as shown in FIG. 12a.

(Example) An example of implementing the present invention will be explained with reference to the attached drawings.

In the drawings, (1) is a pressure molding machine body in which a pressure receiving member (3) and a pressure member (3) are vertically opposed to each other, and (4) is a pressure molding machine body supported on the pressure member (3). The mold shown in the figure is for molding a cored oil seal, and the upper mold (4a) has a plurality of through holes (4a-
1) and a core (4a-3) that vertically penetrates through the through hole (4al) and is movable up and down. Outer frame (4a-2) and core (4
a-3) and includes a frame plate (4b-2) provided with an annular protrusion (4b-1) that is inserted into the molding space A. (5) is a device for loading dough into a mold (4) installed on the negative side of the pressure molding machine body (1), and (6) is a mold installed on the other side of the pressure molding machine body (1). (4) is a demolding device for demolding the molded product; (7) is the pressure molding machine body (1);
) and demolding device (6) and the pressure molding machine body (1)
and the loading device (5), respectively.
) and a transfer device for moving the lower die (4b). To explain these in more detail below, the pressure member (2) is moved forward and backward relative to the pressure receiving member (3) by a hydraulic system (9), and the pressure forming machine main body (1 ) is provided with a table aG protruding from the - side thereof, an underframe a is provided which is engaged with the table (10) by claws ai+ ai+ on both sides and is movable along the table (10), and the underframe (+
A lower mold (4b) is fixed on the underframe (121) and the mold (4) is interposed between the underframe (121 and the molding machine main body (1)) as the mold (4) moves downward together with the pressure member (2). The lower mold (4b) is loaded by the piston cylinder as the moving device (υ).
5) Moved it up.

(8) In (8), when the mold (4) moves downward with the pressure member (2) provided on the pressure molding machine body (1),
During its downward movement, it catches only the upper mold (4a) and transports it to the lower mold (
The upper mold (4a) left on the intermediate support member (8) is moved to the demolding device (6) by the piston cylinder as the moving device (7). moved to the side.

The tip of the piston cylinder serving as the moving device (7) has a through hole 0 formed in the upper mold (4a) as shown in Fig. 3.
The upper die (4a) is connected to the moving device (7) by the engagement of the hook piece a@ with the through hole 03.

As shown in FIG. 1 and FIGS. 8 to 10, the loading device (5) loads the dough a into the annular protrusion (4b-1
), a supply device (5b) that supplies the core metal a-1 to the jig (5a) provided on the bottom surface thereof, and a supply device (5b) provided on the top surface of the jig (5a) that supplies the core metal a-1 to the jig (5a) Jig (5a)
An extrusion tool (5) that extrudes the upper dough a onto the lower mold (4b)
C). To explain this in detail, the jig (5a) consists of a frame plate (5a-2) equipped with a through hole (5a-1) facing the annular protrusion (4b-1) provided on the lower mold (4b), Each through hole (5a-1) is provided with an O-ring (5a-3) to support the core metal a-1.

The supply device (5b) is connected to the table ■ as shown in FIG.
It consists of an underframe (5b-3) provided on an elevating frame (5b-2) that is moved up and down by an elevating device (5b-1) supported by a piston cylinder (5b-3). 4
) and is provided so as to be freely protrusive and retractable on the lower surface of the jig (5a), and in particular, the piston cylinder has its root connected to the elevating frame (5b-
When retreating from the jig (5a) by engaging the cam groove 09 (151) formed on the side surface of the lifting frame (5b-2) with the cam groove 09 formed on the side surface of the lifting frame (5b-2). ,
The underframe (5b-3) has a criminal record so that it is easy to place the core metal a-1 on the underframe (5b-3).

Furthermore, on the upper surface of the underframe (5b-3), there is a positioning protrusion (5t) facing the through hole (5a-1) as shown in FIG.
l-4), and a core metal a-1 is formed on the protrusion (5b-4).
I decided to include it.

The extrusion tool (5C) has a frame (5 cm
3), and the underframe (5cm3) is a pressure receiving member (3).
A piston cylinder (ID) with its root supported pivotally on the side and connected between the underframe (5 cm3) and the pressure receiving member (3) faces onto the jig (5a), and a state in which it is retracted from this and its top surface is open. The supply device I (
5b), the core metal a-1 was loaded into the lower die (4b), and then the rubber fabric a-2 was manually loaded into the jig (5a).

The demolding device (6) removes the core (4) provided in the upper mold (4a).
a-3), the first pusher piece (6a) faces the lower surface of the upper mold (4a), and the second pusher piece (6b) faces the upper surface of the upper mold (4a).
),! : Consists of a frame (6C) that receives the molded product a that has been demolded, and when the core (4a-1) is pressed down with the second pusher piece (6b), the molded product is removed from the core as shown in Figure 4. (4a-3)
When the core (4a-3) is pressed upward, the molded product bulges outward due to its elasticity. Outer frame (4a-2
), it is separated from the core (, 4a-3) and the underframe (6C
) is accepted above. In Fig. 12, [phase] is a scraper for conveying this molded product to the next process, (1!J
1 indicates a detection device consisting of a phototube or the like for detecting the remaining molded product attached to the core (4a-3).

In the illustrated example, as shown in Fig. 2, the pressure molding machine body (1) is equipped with a cover frame (2) that covers the pressure receiving member (2), and when the pressure member (3) is moved upward, the underframe (Along with 121, the mold (4) entered the cover frame ■ and airtightly sealed the inside of the cover frame ω with the seal ring @ on its circumferential surface.Therefore, the inside of the cover frame (not shown), the circumferential surface of the mold (4) is in a vacuum state, and pressure molding is performed under such a vacuum, which may cause problems such as air being drawn into the molded product and creating bubbles. There is no.

Next, the present invention will be explained in detail.

As shown in Fig. 12a, when the pressure member (2) is withdrawn after pressure forming, the mold (4) moves downward along with the pressure member (2), and during the downward movement, Only the upper die (4a) hits the intermediate member (8) and prevents its downward movement.

Therefore, as shown in FIG.
) is taken out to the - side and the other side of the pressure molding machine main body (1) by the moving device (7>) as shown in FIG. 12C.

After that, the lower mold (4b) is moved upward by the hydraulic device (9) that pushes up the loading device (9), and the jig (5a
) and when moving it upward, the dough a prepared in the jig (5a) is pressed against the extrusion tool (5a).
- The core (4a-3) is pushed down by the second pushing piece (6b) on the force-forming machine (6) side as shown in FIG. The molded product is removed from the upper mold (4a) by moving the core (4a-3) upward using the first push piece (6a).

Thereafter, the upper and lower molds (4a, 4b) are returned to the molding machine body (1) by the moving device (7') as shown in FIG. 12e.

After returning the upper and lower molds (4a) (4b), the molded product on the underframe (6C) is sent onto the conveyor (2). As shown in Fig. 12, while pressure forming is being performed in the pressure forming machine main body (1), the loading device <5) is in the underframe (5b
-3) Load the core metal a-1 onto the underframe (5b
-3) is moved upward to load the core metal a-1 onto the jig (5a), and at the same time, place the rubber fabric a-2 on the core metal a-1 loaded into the jig (5a). Demolding device! In (6), both the push pieces (6a) and (6b) are moved back to a predetermined position, and the upper die (4a) is placed on standby between them in a position where the upper die (4a) can be received. By repeating this operation, pressure molding is performed in sequence. As shown in the figure, when the demolding device (6) and loading device N (5) are provided on the - side and the other side of the pressure molding machine main body (1), the work in the device (ω (6) is separated). It has the benefit of improving work efficiency.

In the illustrated example, heat sources Q30 including heat transfer and other heat sources (not shown) are provided on the upper and lower surfaces of the mold (4) to enable pressure vulcanization molding.

In other words, heat is generated on the surface of the pressure receiving member (3) facing the mold (4)!
While fixing the lto, a lower mold (4b) was attached to the upper surface of the underframe (lΦ) via a heat source ■.

For products that perform pressure vulcanization in this way, when the mold (4) is removed from the pressure molding machine main body (1), the upper mold (4a) is separated from the heat source (1) and cooled. However, by shortening the time required for loading and demolding the dough, the temperature drop in the mold can be suppressed as much as possible, and the time required for pressure vulcanization can be shortened accordingly.

(Effects of the Invention) As described above, according to the present invention, a demolding device for demolding the molded product from one mold and a loading device for loading dough into the other mold are installed at different positions close to the pressure molding machine main body. equipment,
In addition, a transfer device was installed to transport the mold between the pressure molding machine main body, the demolding device, the pressure molding machine, and the loading device, so that the pressure molding could be performed after pressure molding in the pressure molding machine main body. The molded product can be removed from the mold and the dough can be loaded at the same time at different positions close to the pressure molding machine body, which has the effect of shortening the working time compared to conventional pressure molding equipment.

[Brief explanation of drawings]

The drawings show one example of carrying out the present invention. Fig. 1 is a side view of one example of carrying out the present invention, Fig. 2 is a sectional view taken along the line ■-■, and Fig. 3 is an enlarged side view of the demolding device. Figure 4 is the IV-I
V-line diagram Figures 5 to 7 are operating state diagrams, Figures 8 to 10 are operating state diagrams of the loading device, Figure 11 is an enlarged cross-sectional side view of a part of the mold, and Figure 12 is an enlarged cross-sectional side view of a part of the mold. The figure is an explanatory diagram illustrating the operation of the entire device. (1)...Pressure molding machine body (7)...Pressure receiving member (
3)... Pressure member (4)... Molding mold (5)
... Loading device (6) ... Demolding device (7)
...Transfer device Fig. 1■ Fig. 2 Fig. 3 Fu2 Fig. 5 Fig. 6 Fig. 7 Fig. 4

Claims (1)

[Claims] A mold that can be separated into at least an upper mold and a lower mold is provided between the pressure member and the pressure receiving member constituting the pressure molding machine main body so that the mold is separated into upper and lower parts as the pressure member retires from work, and the molding In a device that pressure-forms material in a mold, a demolding device for demolding the molded product from one mold and a loading device for loading dough into the other mold are located at different positions near the main body of the pressure-forming machine. What is claimed is: 1. A pressure molding device comprising: a pressure molding device; and a transfer device for transferring one mold and the other mold between the pressure molding machine main body, a demolding device, and a pressure molding machine and a loading device.