KR101265899B1 - Mold for piston manufacturing - Google Patents

Abstract

The present invention is a molten metal injection hole injecting the molten metal to form a piston, one side is connected to the molten metal inlet, the other side is connected to the molding space for casting the piston to move the molten metal injected into the molten metal inlet to the molding space A molded part in which a passage is formed; And an adjusting part provided in the moving passage and having a plurality of protrusions formed on one surface to control the fluidity of the molten metal injected into the molten metal inlet and introduced into the molding space. A through hole is formed through the insertion groove and the fastening means having a protruding locking jaw formed therein, and the control unit provides a mold for manufacturing a piston which is inserted into the insertion groove by the fastening means penetrating the through hole.
Therefore, the control unit is provided with a plurality of projections protruding in the moving passage through which the molten metal injected through the molten metal is moved, reducing the cross-sectional area of the molten metal to reduce the speed of the molten metal, the pressure rise at the position of the control portion, the density is increased It is possible to prevent the removal of low oxides or impurities and to prevent foreign matters from being mixed, and to improve the fluidity of the molten metal by reducing the vortices by controlling the filling speed and flow of the molten metal, thereby producing a piston with a reduced defective rate. By permanently using the control unit mounted on the moving passage without replacing, it can reduce the trouble and work time due to the replacement of the control unit, improve the convenience of the operator, and reduce the possibility of mold mold due to incorrect insertion of the existing filter. To reduce melt penetration into the mold, thereby reducing downtime. .

Description

Mold for piston manufacturing {Mold for piston manufacturing}

The present invention relates to a mold for manufacturing a piston, and more particularly, to a mold for manufacturing a piston to adjust the flowability of the molten metal flowing into the molding space for casting the piston control unit mounted on the moving passage of the molding unit for casting the piston.

In general, the engine is a representative internal combustion engine that is powered by the combustion of air and fuel into the combustion chamber. A piston that reciprocates at a high speed is installed inside the cylinder of the engine, and the installed piston serves to rotate the crankshaft through the connecting rod in response to the high temperature and high pressure combustion gas generated in the combustion chamber.

This piston has a crown and skirt and a pair of piston pin bosses and a pair of inserts. In the mold 1 for manufacturing a conventional piston, an injection hole 2 into which a molten metal for molding a piston is injected, a moving passage 3 through which the molten metal injected through the injection hole is transferred, and a molten metal transferred through the moving passage are injected. And a molding part 5 having a molding space 4 for casting a piston by the molten metal and a filter 6 for controlling the fluidity of the molten metal injected into the molding space.

 In the related art, a mesh net was mainly used as a filter 6 for controlling the fluidity of injected molten metal, and a mesh net serving as a filter is a mounting groove 3-1 formed at one side of the moving passage 3 through which the injected molten metal moves. ) To adjust the fluidity of the melt.

However, in the piston casting, a piston is uniformly formed because impurities contained in the molten metal are attached to the mesh network and a part of the mesh network is blocked by the attached impurities, and the molten metal is not constantly injected into the forming space 4. There was a problem not to be manufactured.

In addition, when separating the piston cast in the molding unit 5, the mesh mesh is attached to the piston to be separated, there is a problem that is separated with the piston, and thus the operator to the mesh groove mounting groove of the moving passage (3) Due to the frequent installation in 3-1), the work time was delayed.

The present invention is equipped with a control unit that can be used permanently without replacement in the moving passage in which the molten metal casting moves, to control the flowability of the molten metal moving to the molding space and to control the flow of the molten metal, the oxide or impurities by the control unit It is an object of the present invention to provide a mold for producing a piston which catches oil and prevents mixing of foreign substances.

The present invention is a molten metal injection hole injecting the molten metal to form a piston, one side is connected to the molten metal inlet, the other side is connected to the molding space for casting the piston to move the molten metal injected into the molten metal inlet to the molding space A molded part in which a passage is formed; And an adjusting part provided in the moving passage and having a plurality of protrusions formed on one surface to control the fluidity of the molten metal injected into the molten metal inlet and introduced into the molding space. A through hole is formed through the insertion groove and the fastening means having a protruding locking jaw formed therein, and the control unit provides a mold for manufacturing a piston which is inserted into the insertion groove by the fastening means penetrating the through hole.

A plurality of protrusions provided on one surface of the adjusting portion of the mold for manufacturing a piston according to the present invention may be alternately formed to cross each other, wherein the molding part is formed into a first molding body and a second molding body corresponding to the first molding body. The adjusting part may be provided on one surface of the moving passage of the first molding body or the moving passage of the second molding body, and the adjusting part of the second passage of the first molding body and the second molding body. Each may be provided in the movement passage.

In addition, in the mold for manufacturing a piston according to the present invention, an insertion hole into which the fastening means penetrating through the through hole of the moving passage may be formed on the rear surface of the adjusting part.

The mold for producing a piston according to the present invention has the following effects.

First, it is equipped with a control unit formed with a plurality of projections protruding in the moving passage through which the molten metal injected through the molten metal inlet flows, reducing the cross-sectional area of the molten metal to reduce the speed of the molten metal, resulting in a pressure rise at the position of the control portion to increase the density The removal of low oxides or impurities and the incorporation of foreign substances can be prevented.

Second, the control unit controls the filling speed and flow of the melt to reduce the vortex to improve the fluidity of the melt, thereby producing a piston with a reduced defective rate.

Third, by permanently using the control unit mounted on the moving passage without replacement, it is possible to reduce the hassle and work time due to replacement of the control unit, and improve the convenience of the operator.

Fourth, it is possible to eliminate the possibility of mold injection due to incorrect insertion of the existing filter, thereby reducing the penetration time of the molten metal in the mold can be reduced.

1 is a view showing a conventional mold for producing a piston.
Figure 2 is an exploded perspective view showing a mold for producing a piston according to an embodiment of the present invention.
3 is an exploded perspective view illustrating a mold for manufacturing a piston according to another embodiment of the present invention.
4 is a perspective view illustrating the control unit illustrated in FIGS. 2 and 3.
FIG. 5 is a view illustrating a state in which the adjusting unit illustrated in FIG. 4 is mounted to a molding unit of a mold for manufacturing a piston according to an exemplary embodiment of the present disclosure.

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 terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, It should be understood that there may be variations.

Hereinafter, with reference to the accompanying drawings in detail preferred embodiments according to the present invention, Figure 2 is an exploded perspective view showing a mold for manufacturing a piston according to an embodiment of the present invention, Figure 3 is another embodiment of the present invention 4 is an exploded perspective view illustrating a mold for manufacturing a piston according to the present invention, FIG. 4 is a perspective view illustrating the control unit illustrated in FIGS. 2 and 3, and FIG. 5 is a mold for manufacturing a piston according to an embodiment of the present disclosure. It is a figure which shows the state attached to the shaping | molding part of this.

2 to 5, the piston manufacturing mold 10 according to the embodiment of the present invention includes a molding part 100 and an adjusting part 200.

The molding part 100 includes a first molding body 110 and a second molding body 120. The first shaping body 110 and the second shaping body 120 are formed to correspond to each other, the first shaping body 110 and the second shaping body 120 has a structure that is detachably molded. .

Separation and combination of the first molding body 110 and the second molding body 120 is a separate cylinder member (not shown) coupled to the first molding body 110 and the second molding body 120. It is made by, and the first molding body 110 and the second molding body 120 are respectively separately coupled to a separate cylinder member (not shown) or separated or combined by one cylinder member (not shown) It is done.

A first molten metal inlet 112, a first moving passage 114, and a first molding space 116 are formed in the first molding body 110, and a second molten metal inlet is formed in the second molding body 120. 122, the second moving passage 124 and the second molding space 126 is formed.

The first injection molding body 110 and the second molding body 120 of the molding part 100 are molded by the operation of a cylinder member (not shown), so that a molten metal inlet ( 130 and the movement passage 140 and the molding space 150 is formed.

The molten metal for injecting the piston is injected into the molten metal injection hole 130 formed at the upper portion of the molding part 100 formed by combining the first molding body 110 and the second molding body 120.

The molding space 150 is a space for casting a piston composed of a crown, a skirt, a pair of piston pin bosses, and a pair of inserts using the molten metal injected into the molten metal inlet 130.

The moving passage 140 is a passage through which the injected molten metal moves, one side of the moving passage 140 is connected to the molten metal inlet 130, and the other side of the moving passage 140 casts a piston. Connected with 150.

The molten metal injected through the molten metal inlet 130 through the moving passage 140 formed inside the molding unit 100 in which the first molding body 110 and the second molding body 120 are molded. It is supplied to the molding space 150, the piston is manufactured in the molding space 150, the manufactured piston is to the outside when the first molding body 110 and the second molding body 120 is separated Will be discharged.

The moving passage 140 formed in the molding unit 100 controls the flowability of the molten metal flowing into the molding space 150, controls the flow of the molten metal, and reduces the cross-sectional area of the moving passage 140 at the position. The adjusting unit 200 is provided to increase the pressure to filter out low-density oxides or impurities contained in the molten metal. One surface of the control unit 200 is provided with a plurality of protrusions 210 for controlling the fluidity of the molten metal, controlling the flow, and filtering out oxides or impurities, and the plurality of protrusions 210 are alternately formed to cross each other. .

The adjusting part 200 of the first moving passage 114 of the first molding body 110 or the second moving passage 124 of the second molding body 120 constituting the molding part 100. It may be provided on one surface, or may be provided on one surface of the first moving passage 114 of the first molding body 110 and the second moving passage 124 of the second molding body 120, respectively.

The first movement groove 114 of the first molding body 110 is formed with a first insertion groove 115 is formed with a locking projection 117 protruding obliquely to one surface, of the second molding body 120 The second moving passage 124 is formed with a second insertion groove 125 in which a locking step 127 protruding obliquely to one surface is formed, and in the first insertion groove 115 and the second insertion groove 125. A first through hole 115-1 and a second through hole 125-1 through which the fastening means B penetrate are formed.

The control unit 200 has the same shape as the first insertion groove 115 and the second insertion groove 125, the insertion hole into which the fastening means (B) is inserted into the rear surface of the control unit 200 220 is formed. Since the adjusting unit 200 has the same shape as the first insertion groove 115 and the second insertion groove 125, sliding to the first insertion groove 115 and the second insertion groove 125. It is inserted, and is mounted on the first moving passage 114 and the second moving passage 124 by the fastening means (B).

Since the locking jaws 117 and 127 are formed in the first moving passage 114 and the second moving passage 124, the fastening means B is used in the first insertion groove 115 and the second insertion groove 125. The control unit 200 is prevented from being separated by the locking step (117, 127) and the fastening means (B).

The fluidity of the molten metal moving to the movement passage 130 is controlled by the plurality of protrusions 210 protruding from one surface of the control portion 200 mounted on the movement passage 140 of the molding portion 100 and the flow is controlled. It is controlled and also filters out impurities or oxides that may be contained in the molten metal. The control unit 200 not only plays a role of filtering impurities or oxides, but also fluidity and molten metal injected into the molding space 150 including the first molding space 116 and the second molding space 126. It plays a role in controlling the flow of water.

Referring to the process of manufacturing a piston using the piston 10 for manufacturing a piston according to an embodiment of the present invention.

When the separated first molding body 110 and the second molding body 120 that are integrally formed by the operation of the cylinder member (not shown) constituting the molding part 100 for casting the piston, the molding part 100 The molten metal for casting the piston is injected into the molten metal injection hole 130 formed in the upper portion of the).

The molten metal injected into the molten metal inlet 130 is moved to a molding space 150 for casting a piston through the movable passage 140 connected to the molten metal inlet 130, and the molten metal is provided in the movable passage 140. The fluidity is controlled by the protrusion 210 of the controller 200, the flow is controlled, and the impurities or oxides containing the molten metal are filtered out.

The molten metal moved into the molding space 150 is cooled in the molding space 150 and is made of a piston having a crown, a skirt, a pair of piston pin bosses and a pair of inserts, and when the piston is manufactured, the molding part ( The piston formed while the first molding body 110 and the second molding body 120 of 100 are separated is separated from the molding part 100.

Accordingly, the adjusting unit 200 is formed with a plurality of protrusions 210 protruding from the moving passage 140 through which the molten metal injected through the molten metal inlet 130 moves, thereby reducing the cross-sectional area of the molten metal to increase the speed of the molten metal. Reduces the pressure of the control unit 200 to increase the pressure to prevent the removal of low-density oxide or impurities and foreign matters mixed, the control unit 200 to control the filling rate and flow of the melt to reduce the vortex By improving the fluidity of the molten metal, thereby making it possible to manufacture a piston with a reduced defective rate, by permanently using the control unit 200 mounted on the moving passage 140 without replacement, to replace the control unit 200 Reduces the hassle and work time, improves the operator's convenience, eliminates the possibility of mold defects due to incorrect insertion of existing filters, and thereby Less time can be saved.

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 exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10: mold for piston production 100: molding part
110: first molding body 112: the first molten metal inlet
114: first moving passage 115: first insertion groove
116: first molding space 117: locking jaw
120: second molding body 122: injection of the second molten metal
124: second moving passage 125: second insertion groove
126: second molding space 127: locking jaw
130: molten metal inlet 140: movement passage
150: molding space 200: control unit
210: protrusion

Claims (6)

A molten metal injection hole into which a molten metal for molding a piston is injected is formed, and one side is connected to the molten metal inlet, and the other side is connected to a molding space for casting a piston to move a molten metal injected into the molten metal inlet into the molding space. Forming part; And
And a control unit provided in the moving passage and having a plurality of protrusions formed on one surface to control the fluidity of the molten metal injected into the molten metal inlet and introduced into the molding space.
The through-hole is formed in the moving passage of the forming portion through the insertion groove and the fastening means is formed through the engaging projection protruding obliquely to one surface, the adjustment portion is inserted by the fastening means is inserted into the insertion groove sliding through the through hole Mold for manufacturing pistons.
The method according to claim 1,
A plurality of protrusions provided on one surface of the adjusting unit are formed staggered to cross each other.
The method according to claim 1,
The molding part includes a first molding body and a second molding body formed to correspond to the first molding body,
The adjusting unit is a mold for manufacturing a piston provided on one surface of the movement passage of the first molding body or the movement passage of the second molding body.
The method according to claim 3,
The control unit is a mold for producing a piston which is provided in each of the passage passage of the first molding body and the movement passage of the second molding body.
delete The method according to claim 1,
Mold for manufacturing a piston is formed in the rear of the adjustment portion is inserted hole is inserted into the fastening means penetrating the through hole of the moving passage.

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