JP2002192562A - Injection-molded article and injection mold - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily and inexpensively enhance stable weld strength without exerting effect on a region other than a weld part. SOLUTION: In an injection-molded article in which an interpolation member having mechanical rigidity larger than that of a resin material used in injection molding is interpolated, a local thick-walled part 4 is provided to the weld line generating place 3 of the part 1 surrounding the interpolation member.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a resin product in which a member having mechanical strength and rigidity such as a metal or ceramic, which is larger than a resin material, is inserted or post-press-fitted into the injection molded product. The present invention relates to an injection-molded product and an injection-molding mold in which a weld line generated is reinforced so that a weld crack is not caused even when another member is inserted into the injection-molded product.

[0002]

2. Description of the Related Art As shown in FIG. 29, in a resin product in which another member is inserted into an injection molded product consisting of a cylindrical portion and a rectangular parallelepiped, an insert metal member 81, which is another member, is inserted into a mold in advance and injection molding is performed. Gate 80 provided at one end of the product
Molding is generally performed in which a molten resin is injected from a mold.

In such a molded product, a gate 80 is used.
29, when there is an obstacle such as the insert fitting 81 in the flow direction of the molten resin when the molten resin is injected into the mold from the mold, the molten resin is diverted to one end left and right by the obstacle as shown by an arrow in FIG. After that, it joins again behind the obstacle to generate a weld line 82.

[0004] The weld line 82 is formed by forming a skin layer on each melt front (the end of the flow path of the resin) when the molten resin is diverted. However, the mechanical strength is often reduced by about 40% to 50% as compared with other parts even if they are merged again and apparently integrated. Particularly, in the case of a fiber-reinforced resin material, it is generally known that the dispersion of fibers in a molded product is cut at a weld portion, and the strength of the weld portion is significantly impaired. When a member such as a metal is press-fitted into a molded product having such a weld line and an external force is applied, cracks may occur at a weld line portion that is weak in strength.

[0005] In the insert molding, post-shrinkage occurs in the resin portion after molding. However, the insert fitting 81 whose mechanical rigidity is larger than that of the resin exists on the inner diameter side in the shrinking direction. The contraction of the resin is inhibited, and a tensile stress acts on the weld line 82. At this time, if the strength of the weld line 82 is weak against the tensile stress, weld cracking occurs.

[0006] As a method for improving the weld strength, generally, molding conditions such as injection pressure, holding pressure, resin temperature, and mold temperature are varied, and a gas (air) vent in the mold is provided. For example, the welding strength of the weld line portion is improved by such a method as described above.

Further, a method of locally increasing the mold temperature by using a special device such as electromagnetic induction heating or the like to promote welding of the weld line portion, or a special molding machine having two injection cylinders After the formation of the weld line,
There is a method in which the welding line is disturbed by alternately repeating pressurizing and depressurizing the resin from two injection cylinders to improve the welding strength.

[0008]

However, the conventional measures for improving the weld strength under the molding conditions of the prior art are susceptible to disturbances such as the performance of the molding machine and the melt viscosity characteristics of the resin, and are unstable. Further, if the molding conditions and the like are determined based on the weld strength, there is a possibility that the precision of other parts such as sink marks and warpage may be reduced.

On the other hand, the method using peripheral equipment such as electromagnetic induction heating or a special molding machine not only requires new equipment but also is difficult to be practically used due to restrictions on the shape of the molded product and the mold structure. is there.

[0010] In view of these problems, an object of the present invention is to provide a stable and easy increase in weld strength without affecting parts other than the weld portion.

A first object of the present invention is to reinforce the bonding of the resin in the weld portion by disturbing the flow of the resin and disturbing the fiber orientation and the molecular orientation.

A second object of the present invention is to eliminate the weld line by causing the molten resin separated by the core pin of the mold or the like to join and form a weld line and then flowing again.

[0013] A third object of the present invention is to disturb the flow of the resin, disturb the orientation of the fibers and the molecules, thereby strengthening the bonding of the resin in the weld portion and re-establishing the weld line still remaining. By flowing
To eliminate the weld line.

A fourth object of the present invention is to disperse the tensile stress acting on the weld line and prevent the crack from occurring at the weld line by reinforcing the weld line.

A fifth object of the present invention is to disperse and reduce the tensile stress acting on the weld line by reinforcing the weld line, disturb the resin flow, and disturb the fiber orientation and the molecular orientation. Thereby, the bonding of the resin in the weld portion is strengthened.

A sixth object of the present invention is to disperse and reduce the tensile stress acting on the weld line by reinforcing the weld line, and at the same time, the molten resin shunted by the core pins of the mold joins again to form a weld line. Is formed, and the weld line is eliminated by flowing again.

A seventh object of the present invention is to disperse and reduce the tensile stress acting on the weld line by reinforcing the weld line, disturb the resin flow, and disturb the fiber orientation and the molecular orientation. Accordingly, the bonding of the resin in the weld portion is strengthened, and the remaining weld line is caused to flow again to eliminate the weld line.

An eighth object of the present invention is to structurally couple and reinforce the weld line with respect to the tensile stress acting on the weld line, thereby reducing the tensile stress acting on the weld line. The purpose is to prevent cracks from occurring.

[0019] A ninth object of the present invention is to provide a weld crack.
Since it is easy to generate and progress from the end of the weld,
An object of the present invention is to reinforce both ends of a weld line to prevent the occurrence and progress of weld cracks.

A tenth object of the present invention is to disperse a tensile stress acting on a weld line to generate a weld crack,
Absorbs and eliminates welds while preventing progression.

[0021]

Means for Solving the Problems The above-mentioned problems are solved,
In order to achieve the object, the injection molded article according to the present invention is:
In an injection-molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, a locally thick portion is provided at a weld line occurrence portion in a portion surrounding the insertion member. It is characterized by:

Further, the injection mold according to the present invention comprises:
In an injection molding mold for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, a portion of the injection molded product surrounding the insertion member Is characterized in that it has a shape for forming a thick portion at a weld line occurrence position.

Further, the injection molded product according to the present invention is an injection molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted. A rib is provided along a weld line.

Further, the injection molding die according to the present invention comprises:
In an injection molding mold for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, a portion of the injection molded product surrounding the insertion member In which ribs are formed along the weld line.

Further, the injection molded article according to the present invention is an injection molded article in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted. It is characterized in that a local thick portion is provided at a weld line occurrence location, and a rib is provided along the weld line on the thick portion.

Further, the injection mold according to the present invention comprises:
In an injection molding mold for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, a portion of the injection molded product surrounding the insertion member And a shape for forming a local thick portion at a weld line occurrence position and forming a rib along the weld line on the thick portion.

The injection molded product according to the present invention is an injection molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted. It is characterized in that a plurality of ribs are provided in the vicinity of the weld line generation location so as to sandwich the weld line.

Further, the injection molding die according to the present invention comprises:
In an injection molding die for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, a portion of the injection molded product surrounding the insertion member In the vicinity of the location where the weld line occurs, a plurality of ribs are formed so as to sandwich the weld line.

Further, the injection molded product according to the present invention is an injection molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted. A plurality of ribs are provided in the vicinity of the weld line generation location so as to sandwich the weld line, and a locally thick portion is provided in the weld line generation location.

Further, the injection mold according to the present invention comprises:
In an injection molding die for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, a portion of the injection molded product surrounding the insertion member A plurality of ribs are formed in the vicinity of the weld line occurrence point so as to sandwich the weld line, and the weld line occurrence point has a shape for forming a locally thick portion.

The injection molded article according to the present invention is an injection molded article in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted. In the vicinity of the weld line occurrence location, while providing a plurality of ribs so as to sandwich the weld line,
A rib is provided along the weld line generation location.

Further, the injection molding die according to the present invention comprises:
In an injection molding mold for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, a portion of the injection molded product surrounding the insertion member A plurality of ribs are formed in the vicinity of the weld line occurrence point so as to sandwich the weld line, and the ribs are formed along the weld line occurrence point.

The injection molded product according to the present invention is an injection molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted. In the vicinity of the weld line occurrence location, while providing a plurality of ribs so as to sandwich the weld line,
It is characterized in that a local thick portion and a rib are provided along the weld line on the thick portion at the weld line occurrence location.

Further, the injection mold according to the present invention comprises:
In an injection molding mold for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, a portion of the injection molded product surrounding the insertion member A plurality of ribs are formed so as to sandwich the weld line in the vicinity of the weld line occurrence point, and a local thick part is formed at the weld line occurrence point, and further along the weld line on the thick part. Characterized by having a shape for forming a rib.

In addition, the injection molded article according to the present invention is an injection molded article in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted. And a rib intersecting the weld line.

Further, the injection mold according to the present invention comprises:
In an injection molding die for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, a portion of the injection molded product surrounding the insertion member In addition, it is characterized in that it has a shape for forming a rib crossing the weld line.

The injection molded product according to the present invention is an injection molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted. It is characterized in that lightening is provided at both ends of the weld line so that the wall remains.

Further, the injection mold according to the present invention comprises:
In an injection molding die for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, a portion of the injection molded product surrounding the insertion member At both ends of the weld line to form a lightened portion so that a wall remains.

The injection molded article according to the present invention is an injection molded article in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted. A rib extending along the weld line and a rib intersecting the weld line are provided, and a lightening is provided at at least one end of the weld line so that a wall remains.

Further, the injection mold according to the present invention comprises:
In an injection molding mold for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, a portion of the injection molded product surrounding the insertion member In addition, a rib is formed along the weld line and a rib intersecting the weld line, and a rib is formed so that a wall is left at at least one end of the weld line.

[0041]

Preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings.

(First Embodiment) FIG. 1 shows a first embodiment of the present invention.
FIG. 2 is a view showing an injection-molded product according to the embodiment of FIG.
FIG. 2 is a diagram showing a mold for molding the injection molded product shown in FIG. 1.

In FIG. 1, the injection-molded product is a cylindrical portion 1
And a rectangular parallelepiped portion 2, and a hole 5 for inserting another member is formed through the cylindrical portion 1. Between the cylindrical portion 1 and the rectangular parallelepiped portion 2, lightening is performed along the outer circumference of the cylindrical portion and the inner circumference of the rectangular parallelepiped portion.

On the other hand, in FIG.
It comprises a runner 6, a gate 7, a cavity 8, a core pin 9, and a lightening portion 10. The molten resin injected from the injection molding machine is injected into the cavity 8 through the gate 7 from the runner 6. When the gate 7 is provided on the end face of the cylindrical portion 1, the molten resin injected from the gate 7 is split by the core pins 9 in two directions. Further, the molten resin flows around the outer periphery of the core pin 9 and joins on the opposite side of the gate 7 to form the weld line 3.

In the molded article shown in FIG. 1, for example, when the basic thickness of the cylindrical portion 1 and the rectangular parallelepiped portion 2 is set to t = 2.0 mm, the basic thickness of the cylindrical portion 1 and the rectangular parallelepiped portion 2 is reduced to several mm in width including the location where the weld line 3 occurs. A local thick portion 4 having a thickness t of about 4.0 mm is provided over the entire portion. Gate 7 to cavity 8
Melt flows into the cylindrical portion 1 having a basic thickness t = 2.0 mm in a laminar flow state, and when reaching the locally thick portion 4, the cross-sectional area of the resin flow path changes. The flow behavior of the resin is disturbed. As a result, in the process in which the resin and the resin merge and the weld line 3 is formed, the welded portion of each part is
In addition to being distorted geometrically, even after the formation of the weld line 3, it flows to fill the thick portion 4, so that the weld line 3
Is disturbed and the weld strength is improved. In addition, since the mechanical rigidity is relatively improved by increasing the wall thickness, the weld strength can be improved.

(Second Embodiment) FIG. 3 shows a second embodiment of the present invention.
It is a diagram showing the shape of the injection-molded product according to the embodiment,
FIG. 4 is a diagram showing an injection molding die for molding the injection molded product shown in FIG.

As in the first embodiment described above, the molten resin injected from the runner 14 through the gate 15 is diverted by the core pin 16 to generate a weld line 12 on the opposite side of the gate 15. In the present embodiment, for example, in a molded product having a basic thickness t = 2.0 mm, the thickness t = 0.8 mm
A rib 13 of about 1.4 mm is provided along the weld line 12. If the thickness of the rib is sufficiently smaller than the basic thickness, the molten resin fills the rib 13 after filling the portion having the basic thickness first. By providing the rib 13 immediately above the weld line 12, the weld line 12 is provided.
Because resin flows further after formation. Weld line 12
Is absorbed into the rib 13 while being disturbed, and the weld strength is improved. In addition, the mechanical rigidity is relatively improved by the reinforcing effect of the rib, so that the weld strength can be improved.

Similarly, FIG. 5 shows an example of another injection-molded product 17 and FIG. 6 shows an example of another injection-molding mold 20. The same result can be obtained by connecting the rib 19 provided on the weld line 18 to the opposite wall, and the mechanical strength can be further improved by connecting the rib to the wall.

(Third Embodiment) FIG. 7 shows a third embodiment of the present invention.
FIG. 8 is a view showing a shape of an injection molded article 21 according to the embodiment, and FIG. 8 is a view showing an injection molding die 25 for molding the injection molded article shown in FIG.

As in the previous embodiments, the injection mold 25 is composed of a runner, a gate, a cavity and the like, and a weld line 22 is generated in the injection molded product 21. In the present embodiment, as shown in FIG. 7, for example, in a molded product in which the basic thickness t is set to 2.0 mm, the thickness t =
A local thick portion 23 of about 4.0 mm is provided, and a thick t = 0.8 mm on a weld line remaining in the thick portion 23.
A rib 24 of about .about.1.4 mm is added. By locally increasing the thickness, the cross-sectional area of the resin flow path changes and the resin flow behavior is disturbed, so that the weld line is also disturbed and the weld strength is improved. By providing the ribs 24 on the remaining weld lines, the resin flows further in the rib direction after the formation of the weld lines 22, so that the weld lines are absorbed in the ribs 24 and the weld strength is further improved. Further, the mechanical rigidity is relatively improved by the thickening and the reinforcing effect of the ribs, so that the weld strength is further improved.

FIG. 9 shows an injection-molded product 26 and FIG. 10 shows an injection-molding mold 30 as a similar embodiment. In this example, the thick portion 28
And a rib 29 are provided. The rib 29 in this example is connected to the wall on the opposite side from the local thick portion 28, and the mechanical rigidity can be improved as in the second embodiment.

(Fourth Embodiment) FIG. 11 is a view showing the shape of an injection-molded product 31 according to a fourth embodiment of the present invention, and FIG. 12 is a diagram showing the molding of the injection-molded product shown in FIG. Of an injection molding die 34 for use.

In this embodiment, for example, the basic thickness t = 2.
For a molded product set to 0 mm, weld line 3
2, the thickness t = 0.8 mm to 1.4 m
A plurality of ribs 33 of about m are provided substantially parallel to the weld line. Normally, a tensile stress acts on the weld portion due to shrinkage of the resin after being cooled and solidified, and when the weld strength is insufficient for the tensile stress, a crack is generated in the weld portion. A plurality of ribs 33 are connected to the weld line 32 with the weld line 32 occurring therebetween.
Since the mechanical rigidity is improved by being provided substantially in parallel with the above, the tensile stress acting on the weld portion can be dispersed, and the occurrence of weld cracking can be suppressed.

(Fifth Embodiment) FIG. 13 is a view showing the shape of an injection-molded article 35 according to a fifth embodiment of the present invention, and FIG. 14 is a view for molding the injection-molded article shown in FIG. Is a view showing an injection molding die 39 for use.

As shown in FIG. 13, for example, the basic thickness t =
In the molded product set to 2.0 mm, the wall thickness t = 0.8 mm to 1.
A plurality of ribs 38 of about 4 mm are provided substantially parallel to the weld line 36. Normally, a tensile stress acts on the weld portion due to shrinkage of the resin after being cooled and solidified, and when the weld strength is insufficient for the tensile stress, a crack is generated in the weld portion. By providing the plurality of ribs 38 substantially in parallel with the weld line 36 with the weld line 36 occurring therebetween, the mechanical rigidity is improved, so that the tensile stress acting on the weld can be dispersed. Thus, the weld strength can be improved. Further, a local thick portion 37 having a thickness t of about 4.0 mm is provided over a width of several mm including the location where the weld line 36 is generated. By locally increasing the wall thickness, the cross-sectional area of the resin flow path changes, and the resin flow behavior is disturbed, so that the weld line is also disturbed and the weld strength is further improved. Further, since the mechanical rigidity is relatively improved by increasing the thickness, the weld strength can be further improved.

(Sixth Embodiment) FIG. 15 is a view showing the shape of an injection molded product 40 according to a sixth embodiment of the present invention, and FIG. 16 is a diagram for molding the injection molded product shown in FIG. Is a view showing an injection molding die 44 for use.

For example, in a molded product having a basic thickness t = 2.0 mm, a plurality of ribs 43 having a thickness t = about 0.8 mm to 1.4 mm are formed on the weld line with a weld line 41 occurring therebetween. 41 is provided substantially in parallel. In the weld, the resin usually shrinks after cooling and solidifying,
When a tensile stress acts and the weld strength is insufficient for the tensile stress, cracks occur in the weld portion. By providing the plurality of ribs 43 substantially parallel to the weld line 41 with the weld line 41 occurring therebetween, the mechanical rigidity is improved, so that the tensile stress acting on the weld can be dispersed. Thus, the weld strength can be improved.

Further, a rib 42 having a thickness t of about 0.8 mm to 1.4 mm is provided along the weld line 41 at the location where the weld line 41 is generated. By providing the rib 42 immediately above the weld line 41, the weld line 41 is provided.
Since the resin flows further in the direction of the ribs 42 after the formation, the weld line 41 is disturbed, and the weld strength is improved.
Further, the mechanical rigidity is relatively improved by the reinforcing effect of the ribs, so that the weld strength can be further improved.

As a similar embodiment, FIG. 17 shows an injection molded product 45, and FIG. 18 shows an injection molding die 49.
In this example, a plurality of ribs 48 and ribs 47 are formed along the weld line 46 with a weld line 46 occurring therebetween.
Are provided. The rib 47 in this example is connected to the wall on the opposite side from the location where the weld line 46 occurs,
Further improvement in mechanical rigidity is achieved.

(Seventh Embodiment) FIG. 19 is a view showing the shape of an injection-molded product 50 according to a seventh embodiment of the present invention, and FIG. 20 is a diagram for molding the injection-molded product shown in FIG. Is a view showing an injection molding die 55 for use.

For example, in a molded product having a basic thickness t = 2.0 mm, a plurality of ribs 54 having a thickness t of about 0.8 mm to 1.4 mm are formed on the weld line with a weld line 51 occurring therebetween. It is provided substantially parallel to 51. In the weld, the resin usually shrinks after cooling and solidifying,
When a tensile stress acts and the weld strength is insufficient for the tensile stress, cracks occur in the weld portion. By providing the plurality of ribs 54 substantially parallel to the weld line with the weld line 51 occurring therebetween, the mechanical rigidity is improved, so that the tensile stress acting on the weld portion can be dispersed, and as a result, In addition, the weld strength can be improved.

Further, the number m of the width of the weld line generation location
a locally thick portion 5 having a thickness t of about 4.0 mm over m
2 and a rib 53 having a thickness t of about 0.8 mm to 1.4 mm along a weld line 51 remaining in the thick portion.
Add. By locally increasing the thickness, the cross-sectional area of the resin flow path changes and the resin flow behavior is disturbed, so that the weld line 51 is also disturbed and the weld strength is improved. By providing the ribs 53 along the remaining weld lines 51, the resin flows further after the formation of the weld lines 51, so that the weld lines 51 are absorbed and the weld strength is further improved. Also, the mechanical rigidity is relatively improved due to the thickening and the reinforcing effect of the ribs.
It is possible to further improve the weld strength.

FIG. 21 shows an injection-molded product 56 and FIG. 22 shows an injection-molding mold 61 as a similar embodiment.
In this example, a plurality of ribs 60 and a rib 59 are provided along the thick portion 58 and the weld line 57 at the place where the weld line 57 occurs, with the place where the weld line 57 occurs. The rib 59 in this example is connected to the wall on the opposite side from the thick portion 58, and can further improve the mechanical rigidity.

(Eighth Embodiment) FIG. 23 is a view showing the shape of an injection-molded article 62 according to an eighth embodiment of the present invention, and FIG. 24 is a view for molding the injection-molded article shown in FIG. FIG. 6 is a view showing an injection molding die 65 for use.

As shown in FIG. 23, for example, the basic thickness t =
In a molded product set to 2.0 mm, a single or a plurality of ribs 64 having a thickness t of about 0.8 mm to 1.4 mm intersecting the weld line 63 are provided. Normally, a tensile stress acts on the weld portion due to shrinkage of the resin after being cooled and solidified, and when the weld strength is insufficient for the tensile stress, a crack is generated in the weld portion. By providing one or a plurality of ribs 64 at the location where the weld line 63 is generated so as to intersect the weld line 62, the weld line is structurally joined and reinforced, and the tensile stress acting on the weld line is reduced. Thereby, weld strength can be improved.

The injection molding die 65 shown in FIG. 24 has the same configuration as that of the previous embodiment, such as a runner, a gate, and a core pin. However, a plurality of ribs 64 provided to reinforce a weld portion are provided. The slide 66 is used to perform the undercut because the undercut occurs in the release direction.

(Ninth Embodiment) FIG. 25 is a view showing the shape of an injection-molded product 67 according to a ninth embodiment of the present invention, and FIG. 26 is a diagram showing the molding of the injection-molded product shown in FIG. Is a view showing an injection molding die 71 for use.

As shown in FIG. 25, for example, the basic thickness t =
In a molded product set to 2.0 mm, a cutout is provided at both ends of a weld line 68 such that a wall 69 having a thickness t of about 2.0 mm and a rib 70 connecting the plurality of walls 69 remain. Usually, tensile stress acts on the weld portion due to shrinkage of the resin after cooling and solidification, and when the weld strength is insufficient for this tensile stress, cracks occur starting from the end of the weld line 68, proceed. In the case where the lightening shape at the location where the weld line occurs is penetrated, the mechanical strength at the end of the weld line 68 is often insufficient. By providing a cutout at both ends of the weld line 68 so that the ribs 70 connecting the wall 69 and the plurality of walls 69 remain, the mechanical strength of both ends of the weld line 68 is reinforced, so that the weld line 68 acts on the weld portion. Therefore, the weld strength can be improved.

The injection mold 71 shown in FIG. 26 has the same configuration as that of the previous embodiment, such as a runner, a gate, and a core pin, but includes a wall 69 provided to reinforce a weld portion, and a plurality of walls. Since the space surrounded by the ribs 70 connecting the 69 is undercut in the mold release direction,
The slide 72 is used to process the undercut.

(Tenth Embodiment) FIG. 27 is a view showing a shape of an injection molded product 73 according to a tenth embodiment of the present invention, and FIG. 28 is a diagram for molding the injection molded product shown in FIG. FIG. 6 is a view showing an injection molding die 78 for use.

As shown in FIG. 27, for example, the basic thickness t =
In the molded product set to 2.0 mm, the wall thickness t = 0.8 mm to 1.4 mm along the weld line 74.
And a plurality of ribs 75 having a thickness t of about 0.8 mm to 1.4 mm are provided so as to intersect the weld line 74, and a thickness t = 2.
A wall 77 of about 0 mm is provided. After the resin is cooled and solidified, a tensile stress acts on the weld part due to the shrinkage of the resin, and when the weld strength is insufficient for the tensile stress, cracks occur and progress from both ends of the weld line 74 as starting points. I do. At a location where the weld line 74 occurs, the thickness t = 0.8 mm or more so as to be along the weld line 74.
By providing the rib 76 of about 1.4 mm, the weld line 74 is absorbed and eliminated by the rib 76, and the thickness t is set to 0.8 mm or more so as to intersect the weld line 74.
By providing a plurality of ribs 75 of about 1.4 mm, the weld line 74 is structurally reinforced, and a wall 77 having a thickness t of about 2.0 mm is provided on the end face of the lightening portion, thereby forming an end of the weld line 74. Prevent cracks generated from the parts. By combining the structures in this manner, the overall mechanical strength is improved, and as a result, the weld strength can be improved.

The mold 78 for injection molding shown in FIG. 28 has the same configuration as that of the previous embodiment, such as a runner, a gate and a core pin, but is sandwiched by a plurality of walls 75 provided to reinforce a weld portion. The undercut is processed by using the slide 79 because the space formed is undercut in the releasing direction.

The measures for improving the weld strength by the molding conditions are susceptible to disturbances such as the performance of the molding machine and the melt viscosity characteristics of the resin and are unstable. Further, if the molding conditions and the like are determined based on the weld strength, there is a possibility that the precision of other parts such as sink marks and warpage may be reduced. On the other hand, according to the methods of the first to tenth embodiments, a stable effect can be obtained without affecting other parts.

In addition, compared to a method using a special apparatus or a special molding machine, the same or more effects can be obtained at a low cost and simply.

As described above, according to the above-described embodiment, the local thick portion is provided at the location where the weld line is generated, so that the flow of the resin is disturbed, and the orientation of the fibers and the orientation of the molecules are disturbed. Thereby, it is possible to strengthen the bonding of the resin in the weld portion.

Further, since the ribs are provided along the weld line, the molten resin separated by the core pins of the mold and the like again join to form a weld line, and then the resin flows further to the rib side. The weld line can be absorbed and eliminated by the rib.

Further, by providing a local thick portion at the weld line occurrence location and providing a rib along the weld line on the thick portion, the flow of the resin is disturbed, and the orientation of the fiber and the molecular orientation are reduced. By disturbing the orientation, the bonding of the resin in the weld part is strengthened, and the still remaining weld line is caused to flow again to the rib side,
The weld line can be absorbed and eliminated in the rib provided on the thick portion.

Further, by disposing a plurality of ribs with the weld line interposed therebetween, the weld line is reinforced, thereby dispersing and reducing the tensile stress acting on the weld line, and preventing cracks generated on the weld line. Is possible.

Further, by disposing a plurality of ribs on both sides of the weld portion and providing a locally thick portion at the location where the weld line is generated, the tensile stress acting on the weld line can be dispersed and reduced, and the weld line can be reduced. By providing a locally thick portion at the location of occurrence, the flow of the resin is disturbed, and the orientation of the fibers and the orientation of the molecules are disturbed, so that the bonding of the resin in the weld portion can be strengthened.

Further, a plurality of ribs are arranged with the weld portion interposed therebetween, a local thick portion is provided at a location where a weld line is generated, and a rib is provided along a weld line on the thick portion. Dispersing and reducing the tensile stress acting on the line, disturbing the resin flow by providing a local thick part at the weld line occurrence point,
By disturbing the orientation of the fibers and the orientation of the molecules, the bonding of the resin in the weld part is strengthened, and the weld line still remaining in the thick part is caused to flow again to the rib side,
The weld line can be absorbed and eliminated in the rib provided on the thick portion.

Further, by providing a single or a plurality of ribs intersecting with the weld line, the location where the weld line occurs can be more locally joined and reinforced to reduce the tensile stress acting on the weld line. Thus, it is possible to prevent cracks occurring at the weld line.

Further, since a weld crack is likely to occur starting from the end of the weld portion, the lightening is provided so that walls are left at both ends of the weld line, thereby reducing the tensile stress acting on the weld portion. The weld line can be reinforced to prevent the occurrence and progress of weld cracks.

Further, by providing ribs extending along the weld line and ribs intersecting the weld line, and providing a lightening so as to leave a wall at at least one end of the weld line, the tensile stress acting on the weld line can be dispersed. ,
It is possible to absorb and eliminate the weld by the ribs along the weld line while reducing and preventing the occurrence and progress of the weld crack.

[0084]

As described above, according to the present invention,
A stable effect of improving the strength of the weld portion without affecting other parts can be obtained.

In addition, compared to a method using a special apparatus or a special molding machine, the same or more effects can be obtained at low cost and simply.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an injection molded product having a locally thick portion according to a first embodiment of the present invention.

FIG. 2 is a diagram illustrating an injection molding die for molding an injection molded product having a locally thick portion according to the first embodiment of the present invention.

FIG. 3 is a diagram illustrating an injection-molded product having a rib along a weld line according to a second embodiment of the present invention.

FIG. 4 is a diagram illustrating an injection molding die for molding an injection molded product having a rib along a weld line according to a second embodiment of the present invention.

FIG. 5 is a diagram illustrating another injection-molded product having a rib along a weld line according to a second embodiment of the present invention.

FIG. 6 is a view for explaining another injection molding die for molding another injection molded product having a rib along a weld line according to a second embodiment of the present invention.

FIG. 7 is a diagram illustrating an injection-molded product having a locally thick portion and a rib along a weld line according to a third embodiment of the present invention.

FIG. 8 is a diagram illustrating an injection molding die for molding an injection molded product having a locally thick portion and a rib along a weld line according to a third embodiment of the present invention.

FIG. 9 is a diagram illustrating another injection molded product having a locally thick portion and a rib along a weld line according to a third embodiment of the present invention.

FIG. 10 is a diagram illustrating an injection mold for molding another injection molded product having a locally thick portion and a rib along a weld line according to a third embodiment of the present invention. .

FIG. 11 is a diagram illustrating an injection-molded product having a plurality of ribs across a weld line according to a fourth embodiment of the present invention.

FIG. 12 is a diagram illustrating an injection molding die for molding an injection molded product having a plurality of ribs across a weld line according to a fourth embodiment of the present invention.

FIG. 13 is a view for explaining an injection-molded product having a plurality of ribs and a locally thick portion at a weld line occurrence location with a weld line interposed therebetween according to a fifth embodiment of the present invention.

FIG. 14 shows an injection mold for molding an injection-molded product having a plurality of ribs and a locally thick portion at a weld line occurrence location with a weld line interposed therebetween according to a fifth embodiment of the present invention. FIG.

FIG. 15 is a diagram illustrating an injection-molded product having a plurality of ribs and a rib extending along a weld line with a weld line interposed therebetween according to a sixth embodiment of the present invention.

FIG. 16 is a diagram illustrating an injection mold for molding an injection-molded product having a plurality of ribs and a rib extending along the weld line with a weld line interposed therebetween according to a sixth embodiment of the present invention.

FIG. 17 is a diagram illustrating another injection-molded product having a plurality of ribs and a rib extending along the weld line with a weld line interposed therebetween according to the sixth embodiment of the present invention.

FIG. 18 is a diagram illustrating an injection molding die for molding another injection molded product having a plurality of ribs and a rib extending along the weld line with a weld line interposed therebetween according to the sixth embodiment of the present invention. is there.

FIG. 19 illustrates an injection-molded product having a plurality of ribs and a locally thick portion at a weld line occurrence location with a weld line interposed therebetween and a rib extending along the weld line according to a seventh embodiment of the present invention. FIG.

FIG. 20 is a view showing a seventh embodiment of the present invention, in which an injection-molded article having a plurality of ribs, a locally thick portion at a weld line occurrence position, and a rib along the weld line with a weld line interposed therebetween is formed. FIG. 4 is a view for explaining an injection molding die for performing the following.

FIG. 21 is another injection-molded product having a plurality of ribs and a locally thick portion at a weld line occurrence location with a weld line interposed therebetween according to a seventh embodiment of the present invention, and further having a rib along the weld line. FIG.

FIG. 22 shows an injection-molded product having a plurality of ribs and a locally thick portion at a weld line occurrence location with a weld line interposed therebetween and a rib along the weld line according to a seventh embodiment of the present invention. FIG. 6 is a view for explaining another injection molding die for performing the following.

FIG. 23 is a view for explaining an injection-molded product having a rib crossing a weld line according to an eighth embodiment of the present invention.

FIG. 24 is a view illustrating an injection molding die for molding an injection molded product having a rib intersecting a weld line according to an eighth embodiment of the present invention.

FIG. 25: At both ends of a wellness line, in order to reinforce both ends of a weld line according to a ninth embodiment of the present invention,
It is a figure explaining the injection-molded article provided with lightening so that a wall might remain.

FIG. 26 is a diagram illustrating a method for reinforcing both ends of a weld line according to the ninth embodiment of the present invention.
It is a figure explaining an injection-molding metallic mold for molding an injection-molded article provided with lightening so that a wall may remain.

FIG. 27 is a view illustrating a rib along a weld line, a rib crossing the weld line, and an injection-molded product provided with a wall at an end face of a lightening portion according to a tenth embodiment of the present invention.

FIG. 28 shows an injection molding die for molding an injection molded product having ribs along a weld line, ribs intersecting the weld line, and a wall at an end face of a lightening portion according to a tenth embodiment of the present invention. FIG.

FIG. 29 is a diagram illustrating a resin product in which a member having a higher mechanical rigidity than a resin material used for injection molding according to the related art is inserted into an injection molded product.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Cylindrical part of an injection molded article 2 Rectangular part of an injection molded article 3 Weld line 4 Local thick part 5 Hole to insert another member 6 Runner 7 Gate 8 Cavity 9 Core pin 10 Lightening part 11 Injection molded article 12 Weld Line 13 Rib 14 Runner 15 Gate 16 Core pin 17 Injection molded product 18 Weld line 19 Rib 20 Injection molding die 21 Injection molded product 22 Weld line 23 Local thick part 24 Rib 25 Injection molding die 26 Injection molded product 27 Weld Line 28 Local Thick Part 29 Rib 30 Injection Mold 31 Injection Mold 32 Weld Line 33 Rib 34 Injection Mold 35 Injection Mold 36 Weld Line 37 Local Thick Part 38 Rib 39 Injection molding die 40 Injection molded product 41 Weld line 42 Rib 4 Rib 44 Injection mold 45 Injection mold 46 Weld line 47 Rib 48 Rib 49 Injection mold 50 Injection mold 51 Weld line 52 Local thick part 53 Rib 54 Rib 55 Injection mold 56 Injection Molded product 57 Weld line 58 Local thick part 59 Rib 60 Rib 61 Injection molding die 62 Injection molded product 63 Weld line 64 Rib 65 Injection molding die 66 Slide 67 Injection molded product 68 Weld line 69 Rib 70 Rib 71 Injection Mold 72 Slide 73 Injection Molded Product 74 Weld Line 75 Rib 76 Rib 77 Wall 78 Injection Mold 79 Slide 80 Gate 81 Insert Metal 82 Weld Line

Continued on the front page (72) Inventor Kenji Higashiyama 3-30-2 Shimomaruko, Ota-ku, Tokyo F-term in Canon Inc. (reference) 4F202 AG28 CA11 CB01 CK11

Claims (20)

[Claims] 1. An injection-molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein a local thickness is formed at a weld line generating portion in a portion surrounding the insertion member. An injection molded product characterized by having a meat portion. 2. An injection molding die for molding an injection molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein said insert member surrounds said insert member. An injection molding die having a shape for forming a thick portion at a weld line occurrence portion of an injection molded product. 3. An injection molded product for inserting an insertion member having a higher mechanical rigidity than a resin material used for injection molding, wherein a rib is provided along a weld line in a portion surrounding the insertion member. An injection molded article characterized by the following. 4. An injection molding die for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted. An injection molding die having a shape for forming a rib along a weld line of a part of an injection molded product. 5. An injection-molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein a local thickness is formed at a weld line generating portion surrounding the insert member. An injection-molded article comprising a thick portion and a rib along the weld line on the thick portion. 6. An injection molding die for molding an injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted. Injection characterized in that it has a shape for forming a local thick portion at a weld line occurrence portion of an injection molded product portion and for forming a rib along the weld line on the thick portion. Mold for molding. 7. An injection-molded product for inserting an insertion member having a higher mechanical rigidity than a resin material used for injection molding, wherein the weld is formed near a weld line generating portion in a portion surrounding the insertion member. An injection-molded product characterized by having a plurality of ribs sandwiching a line. 8. An injection molding die for molding an injection-molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein the insert member surrounds the insert member. An injection molding die having a shape for molding a plurality of ribs so as to sandwich the weld line in the vicinity of a weld line occurrence portion of an injection molded product. 9. An injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein the weld is formed in a portion surrounding the insertion member in the vicinity of a weld line generation point. An injection-molded article characterized in that a plurality of ribs are provided so as to sandwich a line, and a locally thick portion is provided at a position where the weld line occurs. 10. An injection molding die for molding an injection-molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein said insert member surrounding said insert member is provided. A plurality of ribs are formed so as to sandwich the weld line in the vicinity of the weld line occurrence portion of the injection molded product, and the weld line occurrence portion has a shape for forming a local thick portion. A mold for injection molding. 11. An injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted. An injection-molded article characterized in that a plurality of ribs are provided so as to sandwich a line, and ribs are provided along the weld line occurrence location. 12. An injection mold for molding an injection-molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein said insert member surrounds said insert member. A plurality of ribs are formed so as to sandwich the weld line in the vicinity of the weld line occurrence portion of the injection molded part, and the ribs are shaped to form the ribs along the weld line occurrence portion. Mold for injection molding. 13. An injection molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein the weld is formed in a portion surrounding the insert member in the vicinity of a weld line generation point. Injection, wherein a plurality of ribs are provided so as to sandwich a line, and a locally thick portion is provided at a position where the weld line occurs, and a rib is further provided along the weld line on the thick portion. Molding. 14. An injection mold for molding an injection-molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein the insert member surrounding the insert member is provided. A plurality of ribs are formed so as to sandwich the weld line in the vicinity of the weld line occurrence portion of the injection molded product, and the weld line occurrence portion has a locally thick portion, and An injection molding die having a shape for forming a rib along the weld line. 15. An injection molded product for inserting an insertion member having a higher mechanical rigidity than a resin material used for injection molding, wherein a rib intersecting a weld line is provided in a portion surrounding the insertion member. An injection-molded article characterized by the following. 16. An injection molding die for molding an injection molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted. An injection mold having a shape for forming a rib intersecting a weld line in a part of an injection molded product. 17. An injection molded product in which an insertion member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein walls are left at both ends of a weld line in a portion surrounding the insertion member. Injection-molded product characterized by having a lightening. 18. An injection molding die for molding an injection-molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein the insert member surrounding the insert member is provided. An injection molding die having a shape in which a hollow portion is formed at both ends of a weld line of an injection molded product so that a wall remains. 19. An injection molded product for inserting an insertion member having a higher mechanical rigidity than a resin material used for injection molding, wherein a rib and a weld along a weld line are provided at a portion surrounding the insertion member. An injection-molded article characterized in that a rib intersecting with the line is provided, and a lightening is provided so that a wall remains at at least one end of the weld line. 20. An injection molding die for molding an injection molded product in which an insert member having a higher mechanical rigidity than a resin material used for injection molding is inserted, wherein the insert member surrounding the insert member is provided. In the injection-molded part, a rib along a weld line and a rib intersecting with the weld line are formed, and the rib has a shape for forming lightening such that a wall remains at at least one end of the weld line. Mold for injection molding.