JPH01165420A - Preparation of mat - Google Patents

Abstract

PURPOSE:To adhere surely a mat main body to a sheet material and to incorporate them in a body thereby, by placing the sheet material made of an unvulcanized rubber on the upper surface of which the mat main body is stacked, bringing a top force into tight contact with a bottom force, heating the sheet material and feeding a compressed air from an air opening set on the top force. CONSTITUTION:A mat main body 15 is stacked on a sheet material 14 made of an unvulcanized rubber, which is placed in a cavity 8 so as to be brought into contact with a bottom force 2. The top and bottom forces 1 and 2 are closed together and the bottom force 2 is heated up and held at about 145-155 deg.C. Vulcanization and molding of the sheet material 14 is thereby started. At the same time, when a compressed air (10-20kg/cm<2>) is pressed in a pressurizing chamber 3 from a path 4 of the top force 1 and a vacuum sucking force is generated in an air sucking path 13 of the bottom force 2, the upper face of the mat main body 15 is pressed by the compressed air pressed in the pressurizing chamber 3 and the mat main body is adhered integrally with the sheet material 14 which is softened under a molten state and under vulcanization. On the other hand, the outer bottom face of the sheet material 14 is completely and tightly adhered with the cavity face 8 of the bottom force 2 and a part of the sheet material 14 flows and penetrates into small holes 9 to form projections 16.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method for manufacturing a mat backed with a rubber sheet material used as a car mat or an entrance cloak.

(Prior art) In general, car mats installed inside automobiles include:
In order to have a beautiful appearance and a good feel, the mat body is made of pile fabric, etc., and in order to prevent slippage and make it waterproof, mats that are lined with a rubber sheet material are becoming popular. are doing.

To manufacture such a mat, a pair of upper and lower molds is used, and the sheet material made of unvulcanized rubber and the mat body are placed in a stacked state in the lower mold, and the upper and lower molds are sealed. A method is adopted in which the sheet material and the mat main body are bonded together by heating the material and supplying pressurized air into the sealed chamber, and using the thermal expansion pressure of the air.

(Problems to be Solved by the Invention) However, it is difficult to firmly bond and integrate the sheet material and the cloak body using only the expansion pressure of air due to heating of the mold. There was a problem in that it was not possible to form good anti-slip protrusions.

Furthermore, if the back surface of the sheet material is placed in a state where it is lifted from the molding surface of the mold, it becomes difficult to smoothly manufacture the mat.

The present invention provides a mat manufacturing method aimed at solving these problems.

(Means for Solving the Problems) In order to achieve the above object, the mat manufacturing method of the present invention includes an air suction passage and a plurality of small protrusion forming holes communicating with the cavity of the mold from the air suction passage. A sheet material made of unvulcanized rubber with the mat body layered on the upper surface is placed in the cavity of the lower mold provided, and then the upper mold is brought into close contact with the lower mold and the sheet material is heated. At the same time, pressurized air is supplied from the air supply port provided in the upper mold to adhere the mat body to the upper surface of the sheet material being vulcanized, while vacuum suction is applied to the small hole through the passage in the lower mold. It is characterized in that a portion of the sheet material is sucked into and filled into the bill by generating a force to form a protrusion.

(Function) Since the sheet material made of unvulcanized rubber is placed directly in the lower mold, heat transfer from the mold is carried out smoothly, the sheet material quickly softens to a molten state, and the upper mold melts. The mat body can be integrally bonded to the sheet material by the pressure of air supplied from the mold.

At this time, even if the mat body is brushed, the nap is pressed against the sheet material by air pressure without coming into contact with the mold, so that a beautiful appearance is maintained without any deformation.

In addition, since the lower mold has multiple small holes that communicate with the mold cavity via passages, the outer bottom surface of the sheet material is firmly attached to the cavity surface by the vacuum suction generated in the passages. At the same time, a portion of the protrusion is sucked into the small hole and filled into the small hole, thereby making it possible to accurately form a protrusion that is optimal for preventing slippage.

(Example) To explain an example of the present invention with reference to the drawings, (1) is an upper mold, (2) is a lower mold, and when these molds (1) and (2) are closed, There is a pressurized chamber (3) inside the upper mold (1).
) is formed.

The pressurizing chamber (3) is inserted into the upper mold (1) from a suitable position on the outer surface of the peripheral wall.
The lower opening end of the inner circumferential wall forms a pressurized air supply passageway (4) that communicates with
), and furthermore, a V-shaped annular protrusion (6) is provided protruding from the peripheral end of the opening where the inclined molded surface (5) is formed, and a suitable width is provided on the lower surface of the outer circumference of this protrusion (6). A circumferential groove (7) is carved.

On the other hand, the lower mold (2) is provided with a cavity (recess) (8) in its center corresponding to the pressurizing chamber (3), and a plurality of protrusions on the bottom surface of the cavity (8). A small hole for formation (9) and an appropriate concave pattern part 00) are formed as necessary, and a trapezoidal peripheral wall part (I1) is provided protruding from the outer periphery of the cavity (8). The outer peripheral surface of the inner wall portion (11) is made to face the inclined molding surface (5) of the upper mold (]) with a small distance therebetween, and the lower part of the outer peripheral surface is opposed to the annular protrusion (6). A V-shaped annular groove 02) is provided.

Further, this lower mold (2) is provided with an air suction passage 03) that communicates with the lower end of each of the small holes (9).
13) is connected and communicated with a suitable vacuum suction device (not shown).

In order to mold a mat using the upper and lower molds (1) and (2) configured in this way, a sheet material 04) made of unvulcanized rubber is required.
The mat body 0ω, which is smaller than the sheet material side, is superimposed on top of the mat body 0ω, and placed and stored in the cavity (8) so that the sheet material side is in contact with the lower mold (2).

Note that the sheet material 04) and the mat body 05) are temporarily bonded in advance so that they can be easily handled.

Next, when the upper and lower molds (1) and (2) are closed, the sheet material side and the periphery of the mat body 05) are formed on the inclined molding surface (5) of the upper mold (1) and the V-shaped protrusion ( 6) and lower mold (2)
is compressed and deformed between the outer peripheral surface of the peripheral wall portion (11) and the annular groove 02).

In this state, when the lower mold (2) is heated and maintained at about 145 to 155°C, vulcanization molding of the sheet material side is started. Simultaneously with this heating, pressurized air (10 to 20 kg/cJ) is injected into the pressurizing chamber (3) from the passage (4) of the upper mold (1), and the air suction passage θ3) of the lower mold (2) When a vacuum suction force is generated inside 1. The upper surface of the mat main body θ9 is pressed by the pressurized air injected into the pressurizing chamber (3), and while it is bonded integrally with the sheet material side that is being vulcanized and softened to a molten state by heating, the outer bottom surface of the sheet material 04) is completely adhered to the surface of the cavity (8) of the lower mold (2) due to the vacuum suction force, and a part of the sheet material side flows and penetrates into the small hole (9). is filled to form a protrusion θe.

Further, when the lower mold (2) is provided with a concave pattern (10), a portion of the sheet material 04) melts and fills the concave pattern 00).

Further, between the inclined molding surface (5) and the 7-shaped protrusion (6) of the upper mold (1), and the outer peripheral surface of the peripheral wall (11) of the lower mold (2) and the annular groove Q2). The outer peripheral edges of the sheet material 04) and the mat main body 05) arranged on the mat body 05) are firmly pressed between their upper and lower opposing surfaces to form a strong and thin bank-like bulge 0'7). The peripheral edge of the sheet material 04) slightly protruding from the peripheral edge of the mat main body 05) is melted and adhered to the peripheral edge surface of the mat main body 05), thereby strengthening the raised side of the peripheral edge of the mat main body surface.

Note that the excess peripheral edge on the sheet material side flows into the circumferential groove (7) of the upper mold (1) and becomes a part.

As shown in Fig. 3.4, the thus manufactured mat has a rubber sheet material 04) on the back side of the mat body (15) having a raised surface 08) over the circumferential end surface of the mat body 05). It is integrally backed by vulcanization and has a shape in which a bank-like bulge 07) is formed on the outer periphery and a large number of anti-slip protrusions 06) are protruded from the back surface.

(Effects of the Invention) As described above, according to the mat manufacturing method of the present invention, the lower mold is provided with an air suction passage and a plurality of small holes for forming protrusions communicating from the passage to the cavity of the mold. A sheet material made of unvulcanized rubber with a mat body layered on the upper surface was placed in the cavity, and then the upper mold was brought into close contact with the lower mold, the sheet material was heated, and the sheet material was placed in the upper mold. By supplying pressurized air from the air supply port, the mat body is integrally bonded to the upper surface of the sheet material being vulcanized, while the sheet material is bonded by generating vacuum suction force in the small holes through the passage of the lower mold. A portion of the unvulcanized rubber is inhaled and filled into the bill to form the protrusion, and since the sheet material made of unvulcanized rubber is placed directly in the lower mold, heat transfer from the mold is prevented. This process is carried out smoothly and the sheet material can be quickly softened into a molten state, and the mat body is firmly bonded to the sheet material by the melting of the sheet material during vulcanization by the pressure of air supplied from the upper mold. It is something that can be transformed into

At this time, even if the mat body is brushed, the nap does not come into contact with the mold, and a mat with high commercial value that maintains its original shape and exhibits a beautiful appearance can be obtained.

. In addition, since the lower mold has a plurality of small holes that communicate with the mold cavity via air suction passages, the outer bottom surface of the sheet material can be precisely molded by the vacuum suction generated in the passages. It can be brought into close contact with the mold cavity surface, and therefore, the back side of the sheet material can be formed into a beautiful surface with good precision according to the cavity surface, and a part of the sheet material is sucked into the small holes during vulcanization. It is possible to accurately form a well-shaped anti-slip protrusion.

[Brief explanation of the drawing]

The drawings show an example of the present invention, and FIG. 1 is a longitudinal sectional view of the upper and lower molds before mat molding, FIG. 2 is a longitudinal sectional view during molding, and FIG. 3 is a simplified perspective view of the obtained mat. figure,
FIG. 4 is an enlarged sectional view of the peripheral portion thereof. (1)... Upper mold, (2)... Lower mold, (3)...
- Pressurization chamber, (4)... Pressure air supply passage, (8)...
・Cavity, (9)...small hole, 03)...air suction passage, circle...sheet material, aω...mat body.

Claims (1)

[Claims] A sheet material made of unvulcanized rubber on which a mat body is stacked on the upper surface is placed in the cavity of a lower mold, which is provided with an air suction passage and a plurality of small holes for forming protrusions that communicate from the passage to the cavity of the mold. Then, the upper mold is brought into close contact with the lower mold, the sheet material is heated, and pressurized air is supplied from the air supply port provided in the upper mold to cover the upper surface of the sheet material during vulcanization. While bonding the mat bodies together, by generating a vacuum suction force in the small holes through the passage of the lower mold, a part of the sheet material is sucked into and filled into the small holes to form protrusions. A method for producing a mat characterized by: