KR101718660B1 - Lens molding apparatus having the circular border - Google Patents

Abstract

The present invention relates to a device for molding a lens having a circular border. More particularly, the device according to the present invention comprises: an upper mold including a main injection path for raw materials formed at the central portion thereof; a lower mold corresponding to the upper mold; an upper core formed in the upper mold; a lower core formed in the lower mold to correspond to the upper core; a molding groove section formed in the lower core for molding a lens having a circular top end so that the circular border of a lens may be formed along the outer circumference of the top end; a molding protrusion section formed in the upper core and protruding therefrom so as to form the top end of the lens; and a feed connecting section for connecting the main injection path with the molding groove section to feed the raw materials. According to the present invention, it is possible to produce a lens having a circular border with ease and to allow mass production per time of molding, thereby improving the productivity and product quality.

Description

[0001] The present invention relates to a lens forming apparatus having a circular rim,

The present invention relates to a lens forming apparatus, and more particularly, to a lens forming apparatus that forms a lens and has a rim for mounting, and has a rounded rim so that the molten raw material can be easily injected and formed, To a lens molding apparatus having a circular rim that can be improved.

Generally, vehicle lamps such as vehicle headlights and tail lights are manufactured by applying LED as a light source, and have advantages of high luminance, excellent electric characteristics and long service life compared to the conventional bulbs used before.

However, considering that the light emitted from the LED is in the form of a point light source having high linearity, the LED lamp requires a lens configuration for diffusing and irradiating the light.

Such a lens is manufactured by a mold. In the conventional lens manufacturing mold, an injection groove is formed inside a core formed in a block shape, and the synthetic resin material is filled in the injection groove and solidified, so that a lens can be manufactured.

Conventionally, as disclosed in Japanese Patent Application No. 10-1088294, when a mold for a lens forming process is combined with two plates having an embossed or embossed surface, a raw material is injected in a state in which a molding space is formed, do.

However, the lens to be molded is formed to have a hemispherical body convex in one direction, and it is difficult to mount the lens in an accurate position when installed in a vehicle or a frame.

In order to solve this problem, a separate apparatus and process for placing a molded lens and double-injecting a mounting jaw or a rim are provided on the edge of the lens.

However, as the two processes are performed through two apparatuses to form one lens, the cost is increased and the manufacturing time is increased.

Accordingly, there is an urgent need to develop a lens having a circular rim, which is capable of easily forming a rim, improving quality, and improving productivity.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a method of manufacturing an upper mold, a lower mold corresponding to the upper mold, A lower mold formed in the lower mold so as to correspond to the core, a molding groove formed in the lower core to mold a lens having a circular upper end and forming a circular rim along the outer periphery of the upper end, A molding protrusion formed to protrude to form an upper end portion of the lens, and a supply connection portion connecting the main injection path and the molding groove portion to supply a raw material, thereby easily manufacturing a lens having a circular rim, It is possible to manufacture a large quantity of products by the molding of the number of times, so that the productivity can be improved and the quality of the product can be improved The present invention provides a lens molding apparatus having a circular rim.

According to an aspect of the present invention, there is provided a method of manufacturing a semiconductor device, including: forming an upper mold having a main injection path of a raw material in a central portion thereof, a lower mold corresponding to the upper mold, an upper core formed in the upper mold, A molding groove portion formed in the lower core for molding a lens having a circular upper end and forming a circular rim of the lens along the outer periphery of the upper end portion; And a supply connection portion for connecting the main injection path and the forming groove portion to supply the raw material.

Preferably, the supply connection portion supplies the raw material supplied from the main injection path to the upper side of the molding groove portion through the inside of the upper core.

A plurality of pairs of the upper core and the lower core are formed, and the supply connection portion connects the main injection path to one or more selected ones of the plurality of core pairs.

In addition, a plurality of pairs of the upper core and the lower core are formed, and the core is divided into a plurality of core groups each having a predetermined number.

The supply connection unit connects the main injection path to one or more selected ones of the plurality of core groups.

Further, the plurality of core pairs of the core group are arranged in an even number, and the supply connection portion supplies the raw materials to the molding groove portions of the core pairs at the central axes of the arranged core pairs.

The supply connection portion may include a block installation groove formed in the lower mold below the main injection passage, a connection groove for selectively connecting the main injection passage and the molding groove of the lower core, A connecting block formed with an injection path, and a block mounting portion for attaching / detaching the connecting block to / from the block mounting groove.

The supply connection portion may include a block mounting groove formed in the lower mold below the main injection path, a plurality of branching grooves for connecting the main injection channel to all the molding groove portions, An opening / closing block provided at each branched end of the connection injection path, and an opening / closing part for opening / closing the corresponding end by moving the opening / closing block, wherein the opening / And the opening / closing block is moved by the opening / closing part so as to supply the raw material only to the molding groove of the lower core to be molded.

The communication control section includes a connection injection path formed in the lower mold to communicate the main injection path and each molding depression, an opening / closing block provided at an end of the connection injection path communicating with each molding depression, And an opening / closing part provided to open / close the connection injection path.

And a core rotating means for generating a centrifugal force by rotating the upper and lower cores forming the pair, and the lower core and the upper core rotated by the core rotating means are injected into the corresponding molding groove portion The raw material is filled from the edge of the molding groove portion.

The core rotating means includes an upper core mounting portion for rotatably mounting the upper core on the upper mold, a lower core mounting portion for rotatably mounting the lower core on the lower mold, A core sealing portion provided between the upper core and the lower core to seal the forming groove portion, and a lower sealing portion for sealing the upper and lower cores fixed to each other by the core detachable portion And a core rotating portion.

The lower core mounting portion may include a lower mounting hole formed in the lower mold for mounting the lower core, a lower bearing installed to rotate the lower core disposed in the lower mounting hole, a lower bearing installed in the lower mounting hole, A lower fixing frame positioned to cover an installation end of the core, and a lower fixing member for fixing the lower fixing frame to the lower mold to install the lower core rotatably.

The upper core mounting portion may include an upper mounting hole formed in the upper mold for mounting the upper core, an upper bearing installed to rotate the upper core positioned in the upper mounting hole, an upper bearing installed in the upper mounting hole, And an upper fixing member for fixing the upper fixing frame to the upper mold so as to allow the upper core to be rotatable.

The core detachable portion includes a detachable protrusion formed on one of the upper and lower cores, and a detachable groove formed on the other of the upper and lower cores to correspond to the detachment protrusion.

The core sealing part includes a core sealing ring positioned between the upper core and the lower core, and a core sealing groove formed in the upper core and the lower core such that a part of the core sealing and the rest of the core sealing are respectively seated.

The core rotating means may further include a core oscillating portion generating a vibration in the upper core and the lower core which form a pair.

And a core heating portion for heating the upper core and the lower core.

The core heating unit may include a lower heater for heating the lower core, an upper heater for heating the upper core, a power supply unit for applying power to the lower heater and the upper heater, A second temperature sensor for measuring the temperature of the upper core and a second temperature sensor for receiving the signals of the first temperature sensor and the second temperature sensor and controlling the power supply unit, And a heater control unit for maintaining the core at a constant temperature.

As described above, according to the lens molding apparatus having a circular rim according to the present invention, a lens having a circular rim can be easily manufactured, a large number of lenses can be manufactured in a single molding, productivity can be improved, It is a very useful and effective invention which makes it possible to improve the quality of products.

1 is a view showing a lens forming apparatus according to the present invention,
2 is a view showing a lower core and an upper core provided in a plurality of lens forming apparatuses according to the present invention,
3 is a view showing a plurality of lower cores and upper cores constituting the core group according to the present invention,
4 is a view showing a supply connection portion of the lens forming apparatus according to the present invention,
5 is a view showing another embodiment of the supply connection portion according to the present invention,
6 is a view showing another embodiment of the supply connection portion according to the present invention,
7 is a view showing a state in which a core rotating means is further provided in the lens forming apparatus according to the present invention,
8 is a view showing a state in which a core heating unit is further provided in the lens forming apparatus according to the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following detailed description, together with the accompanying drawings, is intended to illustrate exemplary embodiments of the invention and is not intended to represent the only embodiments in which the invention may be practiced. The following detailed description includes specific details in order to provide a thorough understanding of the present invention. However, those skilled in the art will appreciate that the present invention may be practiced without these specific details.

In some instances, well-known structures and devices may be omitted or may be shown in block diagram form, centering on the core functionality of each structure and device, to avoid obscuring the concepts of the present invention.

Throughout the specification, when an element is referred to as "comprising" or " including ", it is meant that the element does not exclude other elements, do. Further, the term "part" described in the specification means a unit for processing at least one function or operation. Also, the terms " a or ", "one "," the ", and the like are synonyms in the context of describing the invention (particularly in the context of the following claims) May be used in a sense including both singular and plural, unless the context clearly dictates otherwise.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions in the embodiments of the present invention, which may vary depending on the intention of the user, the intention or the custom of the operator. Therefore, the definition should be based on the contents throughout this specification.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a view showing a lens forming apparatus according to the present invention, FIG. 2 is a view showing a lower core and an upper core provided with a plurality of lens forming apparatuses according to the present invention, FIG. FIG. 4 is a view showing a supply connection portion of the lens forming apparatus according to the present invention, and FIG. 5 is a cross-sectional view illustrating another embodiment of the supply connection portion according to the present invention. 6 is a view showing still another embodiment of the supply connection portion according to the present invention. FIG. 7 is a view showing a state in which the core molding means is further provided in the lens forming apparatus according to the present invention, and FIG. 8 is a view showing a state in which a core heating unit is further provided in the lens forming apparatus according to the present invention.

As shown in the figure, a lens molding apparatus 10 having a circular rim has an upper mold 100, a lower mold 200, an upper core 300, a lower core 400, a molding groove 500, (600) and a supply connection (700).

A main injection path 110 of raw material is formed in the center of the upper mold 100 and a lower mold 200 corresponds to the upper mold 100.

The upper core 300 is formed on the upper mold 100 and the lower core 400 is formed on the lower mold 200 to correspond to the upper core 300.

The molding groove portion 500 is formed in the lower core 400 to mold the lens 20 having a circular upper end and is provided to form a circular rim 22 of the lens along the periphery of the upper end portion.

The molding protrusions 600 are formed in the upper core 300 and protrude to form the upper end of the lens 20. [

The supply connection portion 700 is provided to supply the raw material by connecting the main injection path 110 and the forming groove portion 500.

According to the lens molding apparatus 10 having such a circular rim, the lens 20 having the circular rim 22 can be molded.

The supply connection portion 700 supplies the raw material supplied from the main injection path 110 to the upper side of the molding groove portion 500 through the interior of the upper core 300.

Thus, the raw material in a molten state is injected from the upper side of the central portion of the forming groove portion 500.

Meanwhile, as shown in FIG. 2, a plurality of pairs of the upper core 300 and the lower core 400 are formed.

The supply connection unit 700 connects the main injection path 110 to one or more selected ones of the plurality of core pairs.

In other words, the plurality of core pairs are supplied simultaneously with the raw material by the supply connection portion 700, or supply only to the selected pair of cores, thereby manufacturing the lens 20 having the circular rim 22.

As shown in FIG. 3, a plurality of pairs of upper and lower cores 300 and 400 are formed, and are divided into a plurality of core groups 30, each having a certain number of units.

The supply connection unit 700 connects the main injection path 110 to one or more selected ones of the plurality of core groups 30 to form a lens having a circular rim 22 20) in a large amount.

Here, a plurality of core pairs of each core group 30 is arranged in an even number in a predetermined semi-regular state.

The core pairs of each of the core groups 30 are arranged at portions corresponding to the corners of the polygon. Eight cores of each core group 30 of the embodiment are arranged.

Each of these eight pairs of cores is arranged at the corners of the octagon.

The supply connection portion 700 supplies the raw materials to the forming groove portion 500 of each core pair at the center axis of the arranged core pairs.

Here, as shown in FIG. 4, the supply connection portion 700 includes a block installation groove 710, a connection block 720, and a block installation portion 730.

The block installation groove 710 is formed in the lower mold 200, which is the lower side of the main injection passage 110.

The connecting block 720 is detachably mountable to the block mounting groove 710 and is formed with a connection injection passage 722 for selectively connecting the main injection passage 110 and the forming groove portion 500 of the lower core 400 do.

The block mounting portion 730 is provided to attach and detach the connecting block 720 to and from the block mounting groove 710.

This connecting block 720 is detachably attached to the block mounting groove 710 by the fixing member 750.

5, the supply connection portion 700 'of another embodiment includes a block installation groove 710', a connection block 720 ', an opening / closing block 730', and an opening / closing guide 740 ' do.

The block mounting groove 710 'is formed in the lower mold 200, which is the lower side of the main injection passage 110.

The connection block 720 'is detachably mountable to the block installation groove 710' and a plurality of branched connection injection passages 722 'for connecting the main injection passages 110 to all the installation recesses 500 are formed do.

The opening / closing block 730 'is provided at each branched end of the connection injection path 722', and the opening / closing member 740 'is provided to move the opening / closing block 730' to open / close the corresponding end.

The operation of the supply connection portion 700 'is described below. The opening / closing drive portion 740' closes the opening portion 730 'so as to close the end portion communicating with the molding groove portion 500 not forming the lens 20 And the raw material is supplied only to the molding groove portion 500 of the lower core 400 to be molded.

It is natural that the connection block 720 'is detachably attached to the block installation groove 710' by the fixing member 750 '.

As shown in FIG. 6, the communication control portion 700 '' of another embodiment is composed of a connection injection path 710 '', an opening / closing block 720 '', and an opening / closing drive portion 730 '.

The connection injection path 710 "is formed in the lower mold 200 to communicate the main injection path 110 and each molding trench 500.

The opening / closing block 720 "is installed at the end of the connection injection passage 710" communicating with each molding cavity 500.

The opening and closing guide portion 730 "is provided to open and close each of the molding groove portion 500 and the connection injection passage 710 " by moving the opening and closing block 720 ".

The open / close block 620 " is positioned so that the connection injection path 710 "communicates the main injection path 110 and the corresponding molding trench 500, According to the injection, a lens having a circular rim is formed in each of the molding trenches 500.

On the other hand, when one or more of the opening / closing blocks 720 " is raised by the opening / closing guide 730 ", since the communication with the molding groove part 500 is blocked, raw materials are not supplied and the lens is selectively manufactured .

7, the lens molding apparatus 10 having a circular rim has a core rotating means 800 for generating a centrifugal force by rotating a pair of upper and lower cores 300 and 400 .

The raw material injected into the forming groove portion 500 is filled from the edge of the forming groove portion 500 by the upper core 300 and the lower core 400 rotated by the core rotating means 800.

The core rotating means 800 includes a lower core mounting portion 810, an upper core mounting portion 820, a core attaching / detaching portion 830, a core sealing portion 840, and a core pivoting portion 850.

The lower core 400 may be rotatably installed on the lower mold 200 and the upper core 300 may be rotatably mounted on the upper mold 100. [ do.

The core detachable portion 830 detaches the upper core 300 and the lower core 400, which are overlapped with each other, to rotate in the same manner.

The core sealing portion 840 is provided between the upper core 300 and the lower core 400 to seal the molding groove 500.

The core rotation unit 850 is provided to rotate the upper core 300 and the lower core 400 fixed to each other by the core detachable unit 830.

The lower core mounting portion 810 includes a lower mounting hole 812, a lower bearing 814, a lower fixing frame 816, and a lower fixing member 818.

The lower installation hole 812 is formed in the lower mold 100 to install the lower core 300 and the lower bearing 814 is installed to rotate the lower core 300 located in the lower installation hole 812 .

The lower fixing frame 816 is positioned to cover the installation end of the lower core 300 located in the lower installation hole 812.

The lower fixing member 818 is provided to fix the lower fixing frame 816 to the lower mold 100 so that the lower core 300 can be rotated.

The upper core mounting portion 820 also includes an upper mounting hole 822, an upper bearing 824, an upper fixing frame 826, and an upper fixing member 828.

The upper mounting hole 822 is formed in the upper mold 100 to install the upper core 300 and the upper bearing 824 is installed to rotate the upper core 300 located in the upper mounting hole 822 .

And the upper fixing frame 826 is positioned to cover the installation end of the upper core 300 located in the upper installation hole 822. [

The upper fixing member 828 is provided for fixing the upper fixing frame 826 to the upper mold 100 so that the upper core 300 can be rotated.

The core detachable portion 830 includes a detachable protrusion 832 and a detachable groove 834.

The detachable protrusion 832 is formed on one of the upper core 300 and the lower core 400 and the detachable groove 834 is formed on the upper core 300 and the lower core 400 to correspond to the detachable protrusion 832 And is formed in the other one.

The core sealing portion 840 is composed of a core sealing ring 842 and a core sealing groove 844.

The core sealing ring 842 is positioned between the upper core 300 and the lower core 400 and the core sealing groove 844 is positioned between the upper core 300 and the lower core 400, (Not shown).

The core rotating means 800 further includes a core vibrating portion 860 for generating vibrations in the upper core 300 and the lower core 400 forming a pair.

The core vibrating unit 860 can vibrate the upper core 300 and the lower core 400 forming the pair, and can more effectively fill the injected raw material into the molding groove unit 500.

It is preferable that the core vibrating unit 860 vibrates the upper core 300 and the lower core 400 that are paired by the vibration motor.

Further, as shown in FIG. 8, the core 900 further includes a core 900 for heating the upper core 300 and the lower core 400.

The core heating portion 900 is composed of a lower heater 910 and an upper heater 920, a power supply portion 930, a first temperature sensor 940, a second temperature sensor 950 and a heater control portion 960 .

A lower heater 910 is provided for heating the lower core 400, and an upper heater 920 is provided for heating the upper core 300.

The power supply unit 930 is provided to apply power to the lower heater 910 and the upper heater 920.

The first temperature sensor 940 is provided for measuring the temperature of the lower core 400 and the second temperature sensor 950 is provided for measuring the temperature of the upper core 300.

The heater control unit 960 receives the signals of the first temperature sensor 940 and the second temperature sensor 950 and controls the power supply unit 930 so that the lower heater 910 and the upper heater 920 And maintained at a constant temperature.

10: lens forming apparatus 100: upper mold
110: main injection path 200: lower mold
300: upper core 400: lower core
500: molding groove part 600:
700, 700 ', 700 ": feed connection 800: core rotating means
900: core is heated

Claims (10)

An upper mold in which a main injection path of a raw material is formed in a central portion;
A lower mold corresponding to the upper mold;
An upper core formed on the upper mold;
A lower core formed on the lower mold to correspond to the upper core;
A molding groove portion formed in the lower core for molding a lens having an upper end rounded and forming a circular rim of the lens along the outer periphery of the upper end;
A molded protrusion formed on the upper core to protrude to form an upper end of the lens; And
And a supply connection portion for connecting the main injection path and the forming groove portion to supply raw material,
A plurality of pairs of the lower core and the upper core are formed,
The supply connection unit
Connecting the main injection path to one or more selected ones of the plurality of core pairs,
The supply connection unit
A block mounting groove formed in the lower mold below the main injection path;
A connection block detachably mountable to the block mounting groove and having a connection injection path for selectively connecting the main injection path and the molding groove of the lower core; And
And a block mounting portion for detachably attaching the connecting block to the block mounting groove. delete delete An upper mold in which a main injection path of a raw material is formed in a central portion;
A lower mold corresponding to the upper mold;
An upper core formed on the upper mold;
A lower core formed on the lower mold to correspond to the upper core;
A molding groove portion formed in the lower core for molding a lens having an upper end rounded and forming a circular rim of the lens along the outer periphery of the upper end;
A molded protrusion formed on the upper core to protrude to form an upper end of the lens; And
And a supply connection portion for connecting the main injection path and the forming groove portion to supply raw material,
A plurality of pairs of the lower core and the upper core are formed, and are divided into a plurality of core groups,
The supply connection unit
Connecting the main injection path to one or more selected ones of the plurality of core groups,
The supply connection unit
A block mounting groove formed in the lower mold below the main injection path;
A connection block detachably mountable to the block mounting groove and having a connection injection path for selectively connecting the main injection path and the molding groove of the lower core; And
And a block mounting portion for detachably attaching the connecting block to the block mounting groove. delete 5. The method of claim 4,
A plurality of core pairs of the core group are arranged in an even number,
Wherein the supply connection portion supplies the raw materials from the center axis of the arranged core pairs to the molding groove portions of each pair of cores. delete The method according to claim 1 or 4,
And core rotating means for rotating the upper core and the lower core to form a centrifugal force,
And the raw material injected into the molding groove portion by the upper core and the lower core rotated by the core rotating means is filled from the edge of the molding groove portion. 9. The apparatus according to claim 8,
An upper core mounting part for rotatably mounting the upper core on the upper mold;
A lower core mounting part for rotatably mounting the lower core on a lower mold;
A core attaching / detaching unit for attaching / detaching the upper and lower cores which are overlapped with each other so as to rotate equally;
A core sealing part provided between the upper core and the lower core to seal the molding groove; And
And a core pivoting portion for rotating the upper core and the lower core mutually fixed by the core detachable portion. The method according to claim 1 or 4,
And a core for heating the upper core and the lower core, wherein the core further comprises a circular rim.

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