KR101571937B1 - Mold assembly for piston producing - Google Patents

Abstract

According to the present invention, there is provided a piston assembly manufacturing mold for manufacturing a piston including a pin portion provided at an upper portion and a skirt portion inclined at a lower portion of the pin portion, the inner diameter of the skirt portion of the piston is formed while moving up and down, A guide portion provided with a locking protrusion for sliding movement; A sliding portion formed on one surface of the guide portion to form an outer diameter of the skirt portion of the piston while slidably moving in accordance with the upward and downward movement of the guide portion, An echo forming part for forming a deep grooved echo at a connection part between the pin part and the skirt part of the piston while sliding the outer side surface of the slide part according to the slide movement of the slide part, ; And a pin having a pin for machining a pinhole in the skirt portion of the piston, the pin having a pin portion formed on the piston by the pin while slidably moving on the outer side of the piston in close contact with the pin portion of the piston, The guide part is formed with a through hole through which the engaging protrusion provided on both sides of the guide part slide, and the engaging protrusion provided on both sides of the guide part slides into the moving hole when the guide part moves upward , And when the guide portion moves downward, it slides out of the moving hole and protrudes outward from both sides of the guide portion.
Therefore, a molding protrusion for molding a deep echo at the connection portion between the pin portion and the skirt portion of the piston is provided in the echo forming portion for slidingly moving the outer side surface of the slide portion according to the movement of the slide portion, so that the connection between the pin portion and the skirt portion A deep echo can be simply formed in the region, thereby reducing the weight of the piston.

Description

[0001] The present invention relates to a mold assembly for piston manufacturing,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mold assembly for manufacturing a piston, and more particularly, to a mold assembly for manufacturing a piston, which manufactures a piston while slidably moving to form each part of the piston while reducing the weight of the piston.

BACKGROUND ART [0002] Referring to the background art described in Korean Patent No. 1219268, an engine is a typical internal combustion engine that obtains the power by introducing air and fuel into a combustion chamber and burning it. A piston which reciprocates at a high speed is installed inside the cylinder of the engine. The installed piston receives a high-temperature and high-pressure combustion gas pressure generated in the combustion chamber and rotates the crankshaft through a connecting rod . Such a piston is constituted by a piston head, a boss portion, and a skirt portion and is manufactured by a piston mold apparatus.

1 is a perspective view showing an example of a conventional mold for manufacturing a piston. Referring to Fig. 1, a conventional mold apparatus 1 for manufacturing a piston includes an injection port 2 into which a molten metal for forming a piston is injected, and a molding space 3 for casting the piston by the molten metal injected through the injection port 2 (Not shown).

On the other hand, the weight of the reciprocating piston in the cylinder of the engine acts as an inertial force, which greatly affects the design strength and durability of the respective components (connecting rod, crankshaft, etc.) of the engine. Therefore, efforts have been made to reduce the weight of the piston to the boss portion and the skirt portion centering on the portion where the rigidity and durability are not largely affected. As a part of this effort, the piston boss portion and the skirt portion can be exemplified .

However, in order to reduce the piston boss portion and the skirt portion as described above, there is used a method in which a depression depression is formed in the piston boss portion, or a casting is performed so that the thickness of the skirt portion becomes thinner toward the lower end.

However, since the mold apparatus is formed in a straight line by its nature, it is necessary to combine the mold parts divided into the complicated pieces in order to mold the piston boss portion, the skirt portion and the piston boss portion, which are formed obliquely, The cost is increased, the casting process of the piston takes a long time, and the productivity of the work is deteriorated.

In addition, there is a limitation in reducing the weight of the piston because there is no component for forming a deep groove-like echo in the connection portion of the pin portion and the boss portion of the piston in order to reduce the weight of the piston.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a piston capable of easily forming a skirt portion of an inclined piston and capable of easily forming a deep echo at a connection portion between a pin portion and a skirt portion. And to provide a mold assembly for manufacturing a piston.

In order to accomplish the above object, the present invention provides a piston assembly for manufacturing a piston, the piston assembly including a pin portion provided at an upper portion thereof and a skirt portion inclined at a lower portion of the pin portion, A guide portion forming a sub-inner diameter and provided with a locking protrusion for sliding movement on both sides; A sliding portion formed on one surface of the guide portion to form an outer diameter of the skirt portion of the piston while slidably moving in accordance with the upward and downward movement of the guide portion, An echo forming part for forming a deep grooved echo at a connection part between the pin part and the skirt part of the piston while sliding the outer side surface of the slide part according to the slide movement of the slide part, ; And a pin having a pin for machining a pinhole in the skirt portion of the piston, the pin having a pin portion formed on the piston by the pin while slidably moving on the outer side of the piston in close contact with the pin portion of the piston, The guide part is formed with a through hole through which the engaging protrusion provided on both sides of the guide part slide, and the engaging protrusion provided on both sides of the guide part slides into the moving hole when the guide part moves upward , And when the guide portion moves downward, it slides out of the moving hole and protrudes outward from both sides of the guide portion.

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In the mold assembly for manufacturing a piston according to the present invention, the slide portion includes a first slide unit that slides on one side of the guide portion, and a second slide unit that slides on the other side of the guide portion that faces the first slide unit The first slide unit and the second slide unit may be provided with a first engagement protrusion and a second engagement protrusion on the inner side of the first slide unit and the second slide unit, The first slide unit and the second slide unit may have a first through hole and a second through hole through which the pin passes, and the first slide unit and the second slide unit may have a first through hole and a second through hole, And the outer surfaces of the first slide unit and the second slide unit may be inclined from the upper portion to the lower portion.

Wherein the echo forming unit includes a first echo forming unit that slides along an outer surface of the first slide unit at an outer surface of the first slide unit and a second echo forming unit that slides along an outer surface of the second slide unit at an outer surface of the second slide unit, And the first eco-molding unit and the second eco-molding unit may include a first molding protrusion and a second molding protrusion for molding the echoes of the piston, It can be formed to protrude.

The first eco-molding unit and the second eco-molding unit may have first through-holes and second through-holes through which the pins pass, and the first eco-molding unit and the first eco- A first moving groove and a second moving groove through which the first and second engaging portions move, and a first and a second edge where the first and second engaging portions are engaged, respectively.

Wherein the first pin forming unit includes a first pin forming unit for forming a first pin forming surface of the piston while being slid to the left and right at one side of the guide portion and a second pin forming unit for slidably moving the second pin forming unit from the other surface of the guide portion facing the first pin forming unit, And a second pin forming unit for forming a pin portion of the piston, wherein the first pin forming unit and the second pin forming unit may be formed with a first insertion hole and a second insertion hole into which the pin is inserted .

The mold assembly for manufacturing a piston according to the present invention includes a molding protrusion for molding a deep echo at a connection portion between a pin portion of a piston and a skirt portion of an echo molding portion that slides along an outer surface of a slide portion as the slide portion moves, A deep echo can be easily formed at the connection portion between the pin portion and the skirt portion of the piston, and the deep echo can be easily formed at the connection portion between the pin portion and the skirt portion of the piston, thereby reducing the weight of the piston.

1 is a perspective view showing a conventional mold for manufacturing a piston.
2 is a view schematically showing a configuration of a mold assembly for manufacturing a piston according to an embodiment of the present invention.
3 is a schematic partial cross-sectional view illustrating a process of manufacturing a piston using the mold assembly for manufacturing a piston shown in FIG.
4 is an enlarged cross-sectional view of the slide portion and the echo forming portion shown in Fig.
FIG. 5 is a view showing a state in which the guide part shown in FIG. 2 moves while moving the slide part.
6 is a view showing a state in which the eco-forming unit is moved while the slide unit shown in Fig. 5 moves.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings, and the inventor should appropriately define the concept in order to describe its invention in the best possible way The present invention should be construed in accordance with the spirit and concept of the present invention.

FIG. 2 is a view schematically showing a configuration of a mold assembly for manufacturing a piston according to an embodiment of the present invention. FIG. 3 is a schematic partial cross-sectional view of a process of manufacturing a piston using the mold assembly for manufacturing a piston shown in FIG. Fig. 5 is a view showing a state in which the slide portion is moved while the guide portion shown in Fig. 2 is moved. Fig. 6 is a sectional view of the slide shown in Fig. 5 And the eco-forming unit is moved while being further moved.

2 to 6, a mold assembly 100 for manufacturing a piston according to the present invention includes a fin portion 12 provided at an upper portion thereof and a skirt portion 14 sloped at a lower portion of the fin portion 12, And includes a guide portion 110, a slide portion 120, an echo forming portion 130, and a pin supporting portion 140 for manufacturing the piston 10.

The guide portion 110 slides up and down to form the inner diameter of the skirt portion 12 of the piston 10. On both sides of the guide part 110, a locking protrusion 112 is provided and the locking protrusion 112 is inserted or protruded outward from both sides of the guide part 110.

The guide part 110 is formed with a movement hole 110a through which the locking protrusion 112 provided on both sides of the guide part 110 slides. The engaging protrusions 112 provided on both sides of the guide part 110 slide to move into the moving hole 110a when the guide part 110 moves upward and the guide part 110 And slides to the outside of the moving hole 110a and protrudes outward from both sides of the guide part 110 when moving downward.

A slide part 120 is provided on the outer side of the guide part 110. The slide part 120 forms the outer diameter of the skirt part 14 of the piston 10 while sliding along the upward and downward movement of the guide part 110.

The slide unit 120 is formed with a latching protrusion 120a for latching the latching protrusion 112 and a latching protrusion 120b protruded from the other surface of the slide unit 120.

The slide unit 120 includes a first slide unit 121 and a second slide unit 125. The first slide unit 121 is provided on one side of the guide unit 110 and forms an outer diameter of one side skirt portion 14 of the piston 10 while sliding on one side of the guide unit 110 The second slide unit 125 is provided on the other surface of the guide unit 110 facing the first slide unit 121 and slides on the other side of the guide unit 110, The outer diameter of the other side skirt portion 14 of the other side is formed.

The first slide unit 121 and the second slide unit 125 are provided with a first stopping protrusion 121a and a second stopping protrusion 125a and a first stopping part 121b and a second stopping part 125b, .

The first and second stopping protrusions 121a and 125a are provided on the inner surfaces of the first slide unit 121 and the second slide unit 125 respectively and the first stopping protrusions 121a And the engagement protrusion 112 of the guide portion 110 is engaged with the second stopping protrusion 125a.

The engaging protrusions 112 provided on both sides of the guide portion 110 are engaged with the first engaging protrusions 121a and the second engaging protrusions 125a, The slide unit 125 slides together with the guide unit 110.

The first latching part 121b and the second latching part 125b protrude from the outer surfaces of the first slide unit 121 and the second slide unit 125, respectively. The first engaging portion 121b and the second engaging portion 125b are inserted into the moving groove 130a of the echo forming unit 130 to slide the echo forming unit 130. The outer side surfaces of the first slide unit 121 and the second slide unit 125 are inclined downward from the top to the outer side of the first slide unit 121 and the second slide unit 125, The eco-forming unit 130, which slides on the outer surfaces of the first slide unit 121 and the second slide unit 125, also slides.

A first through hole 121c and a second through hole 125c are formed in the first slide unit 121 and the second slide unit 125 so that the pin 140a of the pin- do. The first through hole 121c and the second through hole 125c are formed in the first slide unit 121 and the second slide unit 125 so that the pin 140a of the pin- The pinhole 14a is formed in the skirt 14 of the piston 10 while moving.

The first slide unit 121 and the second slide unit 125 of the slide unit 120 are slidably moved by the first latching unit 121b and the second latching unit 125b, The forming part 130 forms a deep groove echo at a connection portion between the pin 12 and the skirt 14 of the piston 10. The inner surface of the echo forming part 130 is formed with a groove- A moving groove 130a through which the second engaging portion 125b and the second engaging portion 125b move is formed.

The echo forming unit 130 includes a first echo forming unit 131 and a second echo forming unit 132. The first echo forming unit 131 slides along the outer surface of the first slide unit 121 on the outer surface of the first slide unit 121 and the second eco forming unit 135 slides on the outer surface of the first slide unit 121, And slides along the outer surface of the first slide unit 135 from the outer surface of the second slide unit 125.

The first eco forming unit 131 and the second eco forming unit 135 are formed with inner first grooves 131a through which the first engaging part 121b and the second engaging part 125b move, And the second engaging portion 125b and the second engaging portion 125b are formed at both ends of the first moving groove 131a and the second moving groove 135a, It is preferable that the first step 131d and the second step 135d are formed.

A first molding protrusion 131b and a second molding protrusion 131b are formed in the upper end of the first eco molding unit 131 and the second eco molding unit 135, respectively, for molding the echo 16 in the piston 10, 135b are protruded.

Since the first molding protrusions 131b and the second molding protrusions 135b are formed in the first and second eco-molding units 131 and 135, The first shaping protrusion 131b and the second shaping protrusion 135b form an echo 16 having a deep groove in the piston 10 when the second eco-forming unit 135 slides upward.

The first echo forming unit 131 and the second eco forming unit 135 are provided with a first through hole 131c and a second through hole 135c through which the pin 140a of the pin forming unit 140, Is formed.

Since the first through hole 131c and the second through hole 135c are formed in the first eco forming unit 131 and the second eco forming unit 135, The pinhole 14a is formed in the skirt 14 of the piston 10 while sliding.

The fin-shaped portion 140 performs the processing of the pinhole 14a in the skirt portion 14 of the piston 10. The pin attaching part 140 is spaced apart from both sides of the guide part 110 and is slid in the left and right direction so that pin holes 14a are formed in the pin part 12 and the skirt part 14 of the piston 10, . The fin 140a of the skirt portion 14 is formed by a pin 140a provided on the pin supporting portion 140 and the fin 140a is slid to the left and right on the pin supporting portion 140 The pinhole 14a is formed in the skirt portion 14 while moving along the pinhole 14a.

The pin supporting portion 140 includes a first fin forming unit 141 and a second fin forming unit 145. The first fin forming unit 141 slides left and right on one side of the guide unit 110 to form one surface of the fin 12 of the piston 10 and the second fin forming unit 145 forms The other side of the pin portion 12 of the piston 10 is formed while sliding left and right on the other side of the guide portion 110 facing the first fin forming unit 141.

The first fin forming unit 141 and the second fin forming unit 145 are respectively provided with a first pin 141a and a second pin 145a for forming a pin hole 14a in the skirt portion 14 And a first insertion hole 141b and a second insertion hole 145b through which the first pin 141a and the second pin 145a are inserted are formed.

The eccentric molding portion 130 slidingly moves along the outer surface of the slide portion 120 in accordance with the movement of the slide portion 120, It is possible to easily form the deep echo 16 at the connection portion between the pin portion 12 and the skirt portion 14 of the piston 10 due to the provision of the molding protrusions 131b and 135b for molding the deep echo 16 in the piston 10. [ So that the weight of the piston 10 can be reduced.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Mold Assembly for Manufacturing Piston 110:
112: engaging protrusion 120:
121: first slide unit 125: second slide unit
130: echo forming unit 131: first echo forming unit
135: second eco-forming unit 140: pin attaching part
141: first fin forming unit 145: second fin forming unit

Claims (7)

And a skirt portion provided at an upper portion of the pin portion and inclined at a lower portion of the pin portion, the piston assembly comprising:
A guide portion for forming an inner diameter of the skirt portion of the piston while being moved up and down, and having a locking protrusion for sliding movement on both surfaces thereof;
A sliding portion formed on one surface of the guide portion to form an outer diameter of the skirt portion of the piston while slidably moving in accordance with the upward and downward movement of the guide portion,
An echo forming part for forming a deep grooved echo at a connection part between the pin part and the skirt part of the piston while sliding the outer side surface of the slide part according to the slide movement of the slide part, ; And
And a pin attaching part having a pin for machining a pin hole in the skirt portion of the piston and forming a pin portion in the piston by the pin while slidably moving from the outside of the piston to the pin portion of the piston,
The guide part is formed with a moving hole through which the locking protrusion provided on both sides of the guide part slide,
The locking protrusions provided on both sides of the guide portion slide to the inside of the moving hole when the guide portion moves upward and slide out of the moving hole to protrude outward from both sides of the guide portion when the guide portion moves downward Wherein the mold assembly comprises:
delete The method according to claim 1,
The slide portion
A first slide unit that slides on one side of the guide unit,
And a second slide unit slidably moving on the other surface of the guide portion opposed to the first slide unit,
Wherein the first slide unit and the second slide unit are provided on the inner side surfaces thereof with a first engaging jaw and a second engaging jaw to which the engaging projection is engaged,
Wherein the first slide unit and the second slide unit have a first engagement portion and a second engagement portion protruding outwardly,
Wherein the first slide unit and the second slide unit have a first through hole and a second through hole through which the pin passes.
The method of claim 3,
Wherein the outer surface of the first slide unit and the outer surface of the second slide unit are formed to be inclined from the upper portion to the lower portion.
The method of claim 1, 3, or 4,
The echo-
A first eco-molding unit slidably moving along an outer surface of the first slide unit at an outer surface of the first slide unit,
And a second eco-molding unit slidably moving along an outer surface of the second slide unit at an outer surface of the second slide unit,
Wherein the first eco-forming unit and the second eco-molding unit are formed at an upper end thereof with a first forming projection and a second forming stone protruding from the upper end of the first echo-forming unit and the second echo-forming unit, for forming an echo of the piston.
The method of claim 5,
Wherein the first echo forming unit and the second eco forming unit are formed with first through holes and second through holes through which the pins pass, Wherein the first engaging portion and the second engaging portion are formed with a first moving groove and a second moving groove in which the first engaging portion and the second engaging portion are engaged, Mold assembly for manufacturing.
The method according to claim 1,
The pin-
A first fin forming unit which forms a first fin surface of the piston while slidably moving left and right on one side of the guide,
And a second fin forming unit which forms a pin portion of the piston while slidably moving left and right on the other surface of the guide portion opposed to the first fin forming unit,
Wherein the first fin forming unit and the second fin forming unit are formed with first insertion holes and second insertion holes into which the pins are inserted.

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