JPS6027417A - Rotary wheel type continuous metal extruding device - Google Patents

Abstract

PURPOSE:To extrude and discharge the air and impurities sticking to a blank material to the outside of a passage and to extrude a product having good quality by constituting the projecting part of a shoe block to the fitted to a rotary wheel of the 2nd and 1st abutments which are grandually higher from the inlet for the blank material and providing a scraper before the 1st abutment. CONSTITUTION:When a rotary wheel 1 is rotated and a blank metallic material 9 is supplied into the circumferential groove 11 thereof, the material is thermally deformed by friction and is filled in an extruding passage 3. The air and impurities on the surface of a projecting part 24 in this stage are discharged through a discharge hole 7 just before the 2nd abutment 6. The material 9 is prevented from being carried forward in the passage 3 to the 1st abutment 5 and is extruded from a forming passage 4 punched in a feeder block 21, by which a product 10 is formed. The part of the material 9 near the inside surface of the groove 11 is extruded together with the impurities and air sticking thereto through the space between the abutment 5 and the inside surface of the groove 11 and is discharged to the outside of the passage 3.

Description

Detailed Description of the Invention (Industrial Application Field) This invention supplies a metal material into an extrusion passage formed in a circumferential groove of a rotating wheel, and extrudes a metal R product from a forming passage bored in a shoe block. This relates to a rotating wheel type continuous metal extrusion device that extrudes metal.

(Prior art) Conventionally, a shoe block b is brought close to the outer periphery of a rotary wheel a as shown in FIG. 1, and a metal material e is supplied into an extrusion passage d formed in a circumferential groove C of the rotary wheel a. A rotary wheel type continuous metal extrusion apparatus has been developed which extrudes and molds a metal product g from a molding passage f bored in a shoe block b.

In such a continuous metal extrusion device, the impurities m attached to the inner surface of the circumferential groove C or the outer surface of the metal blank e are not removed, but are extruded while being contained within the force fixed to the surface of the product. In addition, most of the air p existing in the gap between the circumferential groove C and the metal material e is discharged from the gap between the rotating wheel a and the shoe block 5, but it is not completely discharged.
It may be contained in the product g and extruded by being rolled up in the AM material. (FIG. 2) The entrainment of such impurities m and air p into the product g caused a deterioration in the quality of the product.

(Purpose of the invention) This invention was made in order to improve the above-mentioned drawbacks.It is a continuous rotating wheel type that can extrude high-quality metal products by completely removing the above-mentioned impurities and air. The purpose is to provide metal extrusion equipment.

(Structure of the Invention) A rotating wheel type continuous metal extrusion device according to the present invention includes:
The first part fits into the circumferential groove of the rotating wheel and bases the extrusion passage.
A gap is formed between the abutment and the inner surface of the circumferential groove, and a second abutment is provided that further protrudes above the shoe protrusion on the rear side in the wheel rotation direction than the first abutment,
A discharge hole that passes through the shoe block is opened on the rear side of the second abutment in the wheel rotation direction, and a scraper that substantially slides on the inner surface of the circumferential groove is provided in the circumferential groove on the front side of the first abutment in the wheel rotation direction. The above object is achieved by providing a protruding portion.

(Example) The present invention will be described in detail below based on an example shown in the drawings.

In the figure, 1 is a rotating wheel, and 2 is a shoe block. A circumferential groove 11 having a U-shaped cross section is recessed in the outer circumferential surface 12 of the rotating wheel 1 .

The shoe block 2 is composed of a feeder block 2] and segments 22.22. The surface of the shoe block 2 that faces the outer circumferential surface 12 of the rotary wheel 1 is formed as an opposing surface 23 having an arcuate outline and approximately the same radius as the rotary wheel 1.

On this facing surface 23, a protrusion 24 which is lower in height than the depth of the circumferential groove 11 of the rotary wheel 1 and which is approximately the same as lJ of the circumferential groove 11 is provided to protrude and fit into the circumferential groove 11. An extrusion passage 3 is formed in the circumferential groove 11.

The protrusion height of the protrusion 24 is formed to gradually increase from the rear side to the front side in the wheel rotation direction, and the height of the extrusion passage 3 from the material inlet to the second abutment 6 to be described later is the height of the material. is formed so that it gradually becomes smaller as it moves forward. Therefore, the cross-sectional area of the extrusion passage 3 in this region is from the rear side in the wheel rotation direction to the front side (I
It gradually becomes smaller as it goes to ll.

Feeder block 2 located at the innermost part of extrusion passage 3
A molding passage 4 is opened in 1. The forming passage 4 has orifices 41. A tie 43, which is formed as a chamber 42 and which determines the shape of the product next to the chamber 42, is placed in the feeder block 21 and is traced y4 to the opposite side of the shoe block 2.

Reference numeral 5 denotes a first abutment formed integrally with the feeder block 21, and is provided in a protruding manner so as to fit into the circumferential groove 11. The cross-sectional shape of the first abutment 5 is the same as the cross-sectional shape of the circumferential groove 11, and the inner surface of the circumferential groove 11 and the first
A slight gap W is formed between the abutment 5 and the abutment 5, and in the embodiment, the gap W is about 0.3 to 0.7 mm.

On the rear side of the first abutment 5 in the wheel rotation direction, a second abutment 6 is provided which further protrudes from the protrusion 24'' of the rotary wheel 2.

The second abutment 6 is protruded over its entire length in the middle direction of the protrusion 24, and its height is approximately 0.5 to 2 bars in the embodiment, with only a slight protrusion. Second
A discharge hole 7 for RJIing the inside of the shoe block 1 is opened just before the rear side of the abutment 6 in the wheel rotation direction. The opening shape of the discharge hole 7 on the surface side of the protrusion 24 is a rectangle that is elongated in the 113 direction of the protrusion 24.

A scraper 8 fitted into the circumferential groove 11 of the rotary wheel 1 is located on the front side of the first abutment 5 in the wheel rotation direction.
is attached protrudingly. Between the scraper 8 and the inner surface of the circumferential groove 11, only small gaps W and L are formed between the first abutment 5 and the inner surface of the circumferential groove 11, and the scraper 8 and the inner surface of the circumferential groove 11 are brought into substantially sliding contact. ing.

Next, a description will be given of a molding procedure for metal products using the rotating wheel type continuous metal extrusion device having one structure as described above.

The rotary wheel 1 is rotated in the direction of the arrow, and a rod-shaped metal material 9 made of metal such as aluminum, lead, or zinc is supplied into the circumferential groove 11. The metal material 9 is continuously pushed into the extrusion passage 3 by the contact friction force generated between the metal material 9 and the inner surface of the circumferential groove 11 by the rotation of the rotary wheel 1.

Impurities m are present on the outer surface of the metal material 9, the inner surface of the circumferential groove 11, and the surface of the protrusion 24, and the air p in the circumferential groove 11 is mixed with the remaining metal element 4 and 49 in the circumferential groove 11. Move forward inside the extrusion passage 3 (!1 direction ()-6111-7).

(Fig. 5) The metal purple 9 depends on the rotation of the rotating wheel 1 - UJ? Preheating occurs due to the friction generated between the groove 6 and the groove 11. and fills the extrusion passage 3. (Seventh [it) At this time, impurities m and air p are caught in the surface layer 5 of the kinkusori 9.

Impurities m, etc. caught near the surface of the protrusion 24 are discharged through the discharge hole 7.
and is discharged to the outside of the extrusion passage 3. 1- That is, the Ji part with the protrusion 24 of the gold F1 element 9 is the second abutment 6.
It is prevented from being carried to the front (Ill) in the wheel rotational direction, and is discharged 111i along with impurities m etc. from the exhaust hole 7 just in front of the 27th seat member 16. (FIG. 8) Therefore, the second anode 6 must be provided at a position where the metal blank 9 is sufficiently thermally deformed and fills the extrusion passage 3.

The protrusion height of the protrusion 24 in the circumferential groove is 11 at the rear in the wheel rotation direction.
Therefore, the height of the extrusion passage 3 gradually decreases toward the front, so the cross-sectional area of the extrusion passage 3 gradually decreases.
When the metal material 9 reaches the second abutment 6, the extrusion passage 3 is completely filled with the metal material 9, and the metal material 9 that has passed through the second abutment 6 is carried within the extrusion passage 3 toward the first abutment 5.

The impurity nl# caught near the inner surface of the circumferential groove 11 is
] It is discharged to the outside of the extrusion passage 3 through the gap W provided between the inner surface and the first abutment 5. (Fig. 9) That is, the gold Rt, tt 9 that has passed through the second abutment 6
iyI! is moved forward in the direction of wheel rotation by the first abutment 5. Feeder block 2 is prevented from swelling.
The gold EL product 10 is extruded from a molding passage 4 bored in the gold EL product 1 .

That is, the metal material 9 blocked by the first abutment 5 changes direction, enters the chamber 42 through the orifice 41, is shaped by the die 43, and is extruded. The part of the gold P6 material 9 in the extrusion passage 3 near the inner surface of the circumferential groove 11 is discharged to the outside of the extrusion passage 3 together with impurities In and air P while remaining attached to the first abutment 5 and the inner surface of the groove surface 1 of the groove 11. . (Fig. 1O) Following and 1st
It is blocked by the abutment 5 and extruded into the molding passage 4 It 9 t. l, impurity m.

The molded metal product 10 is of good quality and does not contain air (P).

A scraper 8 is placed on the front side of the first abutment 5 in the wheel rotational direction and is brought into approximately sliding contact with the inner surface of the circumferential groove 11 so that the gap between the first abutment 5 and the inner surface of the circumferential groove 11 is smaller than 1'+ii W. It is provided protrudingly within the circumferential groove 11. Therefore, the 9th part of Kinku Sogetsu attached to the inner surface of the circumferential groove IJ
”, scraped by scraper 8 to remove impurities In
, are removed together with air p.

This invention has the following configuration.
In addition to the IJ, a core made of a non-metal such as copper metal or glass is continuously passed through the shoe block 2, and the gold F and material are extruded as the core passes through to form a composite product. Rotating wheels can also be implemented in 17-metal extrusion equipment (Z).

(Effect of the invention) This invention has the above-mentioned features, and has a metal surface,
Even if the air present in the circumferential groove is brought in with the impurities and l adhering to the inner surface of the wheel circumferential structure and the segment protrusion holes i... and l, and is drawn into the gold F1 purple material, the impurities will be removed from the metal element. Since the metal is discharged out of the extrusion passage along with a part of the metal, the fully bent material extruded from the forming passage is only of high quality and does not contain any impurities, resulting in extruded metal products of extremely good quality. .

[Brief explanation of drawings]

Fig. 1 is a vertical cross-sectional view of a conventional example, Fig. 2 is a cross-sectional view of a product manufactured by the conventional apparatus, Fig. 3 is a longitudinal cross-sectional view of a main part of an example of a part of the present invention, and Fig. 4 is a perspective view of the sliding surface of the shoe block, FIG. 5 is a sectional view taken along the line C-C in FIG. 3, FIG. 6 is a sectional view taken along the line C-C in FIG. 3, and FIG. Cross-sectional view, Figure 8 Figure 3 D-D cross-sectional view, Figure 9 is Figure 3 C
FIG. 8 is a cross-sectional view taken along line C-C and FIG. 1. Rotating wheel, 2. Shoe block, 3. Extrusion passage, 4. Molding passage, 5. 1st abutment, 6. 2nd abutment, 7. Discharge hole, 8. Sclero (, 9...Gold elemental phase, 10...Metal product, 11...Peripheral groove, 24...Protrusion, m...Impurity, p...Air.

Claims (2)

[Claims] (1) An extrusion passage is formed by a circumferential groove recessed in the outer peripheral surface of the rotating wheel and a protrusion protruding from the sliding surface of the shoe block and fitted into the groove, and the extrusion passage is In a rotating wheel type continuous metal extrusion device that supplies a metal material to a shoe block and extrudes a metal product from a forming passage bored in a shoe block, a first abutment that fits into a circumferential groove and bases the extrusion passage; A second abutment is provided which further protrudes above the protrusion on the rear side in the wheel rotational direction than the first abutment, with a gap formed between the second abutment and the inner surface, and a second abutment is provided on the rear side in the wheel rotational direction from the second abutment. A rotary wheel characterized in that a discharge hole passing through the shoe block is opened, and a first abutment (1st abutment) also has a scraper protruding into the circumferential groove that substantially slides into contact with the inner surface of the circumferential groove on the front side in the wheel rotation direction. Continuous metal extrusion equipment〇 (2) The protrusion protruding from the sliding contact surface of the rotating wheel is formed so that the height gradually increases from the material inlet to the second abutment installation part as it moves forward in the rotational direction of the rotating wheel. Claim 1 characterized in that
Rotating wheel type continuous metal extrusion device as described in .