KR20170005260A - Method of insert injection molding between cowl crossbar and plastic component and corporate body by the same - Google Patents

Abstract

Disclosed are an insert injection bonding method of a cowl crossbar and a plastic accessory, and an insert injection assembly of the cowl crossbar and the plastic accessory thereby. The insert injection bonding method of a cowl crossbar and a plastic accessory according to the present invention comprises: a processing step of forming concave and convex portions in a joining region of a circumference of a cowl crossbar to be wrapped by plastic accessories; a preparation step of preparing a cowl crossbar in an injection mold; and an injection step of injecting the resin composition of the plastic accessory into an injection mold to make an integrated composite. According to the present invention, it is possible to form a rigid and heterogeneous coupling structure without separate fastening means such as bolts, nuts, or rivets to prevent stress concentration due to body vibration and external impact on the joint portion, and a plurality of brackets are inserted and injected into a cowl crossbar using an injection mold.

Description

TECHNICAL FIELD [0001] The present invention relates to a cowl crossbar and a plastic accessory, and more particularly to a cowl crossbar and an insert injection joint of plastic accessories,

The present invention relates to a method of injecting inserts of a cowl crossbar and a plastic accessory, and to an insert injection joint of a cowl crossbar and a plastic accessory, and more particularly to an insert injection joint of a cowl crossbar and a plastic accessory by using a combination of rigid and heterogeneous materials without separate fastening means such as bolts, A cowl crossbar is formed in which a plurality of brackets are insert-injected into a cowl crossbar at the same time by using a single injection mold to prevent stress concentration due to body vibration and an external impact on a joint portion by forming a structure and an insert injection- And an insert injection joint of the cow crossbar and the plastic accessory.

The COWL CROSS MEMBER is used as a skeleton to prevent warpage and distortion of the vehicle in the left and right direction and to enhance the durability of the car body. It provides a guide surface on which various electric parts of the instrument panel are mounted, .

The cowl cross member is made of a hollow pipe made of steel and has a cowl crossbar arranged in the transverse direction of the vehicle body in front of the driver's seat and the front passenger seat. The cowl cross member has a mounting bracket formed at both ends of the cowl crossbar, Respectively.

The cowl crossbar is coupled with a plurality of brackets for supporting a steering column, an instrument panel, an airbag device, and the like. Conventionally, a plurality of brackets are welded to a cowl crossbar made of a metal material. Recently, in the automobile manufacturing industry, a bracket made of a plastic material is applied to solve the weakening of welding strength due to vehicle vibration and to reduce the total weight of the vehicle .

In this connection, Korean Patent Laid-Open Publication No. 2005-0017204 discloses a support bracket structure for fixing a steering column of an automobile, and Japanese Laid-Open Patent Publication No. 2005-0017204 discloses a cowl crossbar which is screwed at a predetermined position of a cowl crossbar, And a support bracket coupled to one side of the support plate and made of a steel reinforcing plate to reinforce the rigidity of the support plate. The brake pedal is hingably connected to a lower portion of the support bracket.

Japanese Patent Application Laid-Open No. 2005-0017204 has an advantage in that the number of components is reduced by increasing the rigidity while reducing the weight of the support bracket for fixing the steering column and hinging the brake pedal portion at the lower portion thereof.

Korean Patent Publication No. 568710 discloses a structure of a center support bracket, and Korean Patent Publication No. 568710 discloses a cowl cross member having an upper end coupled to a cowl cross member, A pair of side portions extending downward from both ends of the upper end portion; A center support bracket integrally formed with a plastic material for connecting the middle portion of the side portion and allowing the mounting of the acoustic system, the upper portion having a bent shape for seating the cowl cross member And the upper end is formed with a through hole, and the rivet passes through the through hole and the cowl cross member through the washer to fix the cowl cross member to the upper end portion.

Patent No. 568710 discloses a method for manufacturing a molded product by integrally molding plastic using a plastic material so that it is possible to reduce the weight of the part to improve the fuel consumption and the vibration damping effect due to the characteristics of the plastic material itself. And there is no mold design cost for designing a large number of plates in the past, which is advantageous in reducing the cost of the product.

However, in Japanese Unexamined Patent Application Publication No. 2005-0017204 and No. 568710, holes are formed in the cowl crossbar and the bracket to fasten brackets made of different materials of plastic to metal cowl crossbars, and bolts, nuts, or rivets The coupling structure by the physical fastening means may be such that the rigidity of the coupling structure is long lasting as the stress due to vehicle vibration and external impact is concentrated on the hole into which the fastening means is inserted or the physical fastening means itself There was a problem that noise easily occurred.

In addition, in Patent Publication Nos. 2005-0017204 and 568710, a plurality of brackets for supporting a steering column, an instrument panel, an airbag device, and the like must be respectively formed. Therefore, an injection mold has to be separately prepared for each bracket, This increases the workload and the production cost.

(0001) Korean Patent Publication No. 2005-0017204 (published on February 22, 2005) (0002) Korean Patent Publication No. 568710 (Registered on Mar. 31, 2006)

SUMMARY OF THE INVENTION An object of the present invention is to provide a joining structure of a rigid and different material without separate fastening means such as bolts, nuts, or rivets to prevent stress concentration due to body vibration and external impact on a joining portion, A cow crossbar and a plastic injection fitting method for injection molding a plurality of brackets into a cross bar at the same time, and an insert injection joint of a cow crossbar and a plastic fitting by the method.

According to the present invention, said object is achieved by a method of manufacturing a cowl crossbar, comprising the steps of: forming a concavity and convexity in a joining region of a circumference of a cowl crossbar; Preparing the cowl crossbar in an injection mold; And an injection step of injecting the resin composition of the plastic accessory into the injection mold to make an integrated composite, wherein the cow crossbar and the plastic accessory are injection molded.

And in the processing step, the corrosive agent is brought into contact with the bonding region to form irregularities.

Wherein the processing step comprises: an etching step of forming irregularities by contacting a corrosive agent in the bonding region; And a neutralizing step of neutralizing the corrosive agent by bringing the neutralizing agent into contact with the bonded region.

In the processing step, it is possible to form irregularities by laser machining in the joining region.

The irregularities formed by the laser processing may be formed in a zigzag shape along the circumferential direction of the cow crossbar.

The processing step including: an insulating step of applying an insulating material to the bonding region; A laser step of forming irregularities on the joint region by laser processing; An etching step of etching a concave portion of the concavity and convexity by contacting a corrosive agent to the joint region; And a neutralizing step of neutralizing the corrosive agent by bringing the neutralizing agent into contact with the bonded region.

The preparing step includes a heating step of heating the bonding region with a heating element so that the fluidity of the resin composition penetrating between the concave and convex portions of the bonding region is maintained; And a seating step of transferring the cow crossbar to a transfer device and placing the cow crossbar on the injection mold.

The preparing step comprises a heating and conveying step of heating the bonding area with a heating element provided on the conveying device while conveying the cowl crossbar to the conveying device so that the fluidity of the resin composition permeating between the unevenness of the bonding area is maintained; And a placing step in which the carrying device places the cowl crossbar on the injection mold.

Said resin composition comprising 35 to 45 parts by weight of PA66; And 55 to 65 parts by weight of glass fiber, and the bonding region may be heated by the heating element to 250 to 300 degrees Celsius.

The conveying device includes: a body formed in a longitudinal direction of the cow crossbar; And a gripper provided on the body for gripping or placing the drawing crossbars and slidably moving in a direction away from or close to the body, wherein the heating element is opened in a direction in which the gripper moves away from the body, So as to surround the junction region during the step.

A rail may be formed along the longitudinal direction of the body, and a slider movably coupled to or separated from the rail may be formed on the heating element.

This object is achieved according to the present invention by an insert injection joint of a cowl crossbar and a plastic accessory made by a method of insert injection bonding of a cowl crossbar and a plastic accessory.

According to the present invention, the concave and convex portions are formed on the outer circumferential surface of the cowl crossbar by the plastic accessories, and then the joint regions are locally heated and then injected with a plurality of brackets to form a solid heterogeneous body without any separate fastening means such as bolts, nuts, And a cowl crossbar for insert injection of a plurality of brackets into the cowl crossbar at the same time by using one injection mold and an insert injection of a plastic accessory It is possible to provide a joining method and thereby an insert injection joint of a cow crossbar and a plastic fitting.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic flow diagram of a method of injection injection bonding of a cowl crossbar and a plastic accessory of the present invention.
2 is a flow diagram of a method of insert injection bonding of a cowl crossbar and a plastic accessory in accordance with an embodiment of the present invention.
3 is a flow diagram of a method of insert injection bonding of a cowl crossbar and a plastic accessory according to another embodiment of the present invention.
Figure 4 is a flow diagram of a method of injection insert engagement of a cowl crossbar and a plastic accessory in accordance with another embodiment of the present invention.
Fig. 5 is a view showing the heating and conveying step of Fig. 3; Fig.
Figures 6 and 7 show the seating steps of Figure 3;
Fig. 8 is a view showing a state in which irregularities are formed in a joining region of the cowl crossbar in the etching step of Fig. 2; Fig.
Fig. 9 is a view showing a state in which irregularities are formed in the joining region of the cowl crossbar in the laser step of Fig. 4; Fig.
10 is a view showing an insert injection joint of a cowl crossbar of the present invention and a plastic accessory.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

The insert injection joint of the cow crossbar and the plastic accessory of the present invention and the insert injection joint of the cow crossbar and the plastic accessory of the present invention form a rigid and heterogeneous joint structure without separate fastening means such as bolts, nuts or rivets, Stress concentration due to body vibration and external impact is prevented and insert inserts a plurality of brackets at the cowl crossbar at the same time by using one injection mold.

2 is a flow chart of a method of injecting and inserting a cowl crossbar and a plastic accessory according to an embodiment of the present invention; Fig. 3 is a flowchart of the injection molding method of the present invention Fig. 4 is a flow chart of a method of insert injection bonding of a cowl crossbar and a plastic accessory according to another embodiment of the present invention, Fig. 5 is a cross- FIG. 8 is a view showing a state in which irregularities are formed in a joining region of the cowl crossbar in the etching step of FIG. 2. FIG. 9 is a cross- Fig. 10 is a view showing a state in which concave and convex portions are formed in a joining region of the cowl crossbar in the laser step of the cowl crossbar of the present invention, Product view showing an insert injection conjugate.

As shown in FIG. 1, the method of injecting inserts S100 of a cowl crossbar of the present invention and a plastic accessory of the present invention forms a rigid and heterogeneous bonding structure without separate fastening means such as bolts, nuts, or rivets, And the plurality of brackets are inserted and injected into the cow crossbar 110 at the same time by using one injection mold M. The machining step S110 and the preparation step S120 are the same, And an injection step (S130).

The COWL CROSS MEMBER is used as a skeleton to prevent warpage and distortion of the vehicle in the left and right direction and to enhance the durability of the car body. It provides a guide surface on which various electric parts of the instrument panel are mounted, .

The cowl cross member is made of a hollow pipe made of steel and has a cowl crossbar arranged in the transverse direction of the vehicle body in front of the driver's seat and the front passenger seat. The cowl cross member has a mounting bracket formed at both ends of the cowl crossbar, Respectively.

The cowl crossbar is coupled with a plurality of brackets for supporting a steering column, an instrument panel, an airbag device, and the like. Conventionally, a plurality of brackets are welded to a cowl crossbar made of a metal material. Recently, in the automobile manufacturing industry, a bracket made of a plastic material is applied to solve the weakening of welding strength due to vehicle vibration and to reduce the total weight of the vehicle .

In the related art, holes are formed in the cowl crossbars and the brackets to fasten brackets formed of different materials of plastics to cowl crossbars made of metal, and they are fastened by separate physical fastening means such as bolts, nuts, or rivets, There is a problem that the rigidity of the coupling structure is not maintained for a long time and noise is easily generated due to the concentration of stress due to vehicle vibration and external impact on the hole into which the fastening means is inserted or the physical fastening means itself.

In addition, since a plurality of brackets for supporting a steering column, an instrument panel, an airbag device, and the like are respectively formed in the related art, an injection mold has to be separately prepared for each bracket, have.

As shown in FIG. 1, in the method of injecting and inserting inserts of a cowl crossbar and a plastic accessory of the present invention (S100), a joining region (a joining region) in which the plastic accessories 120 are wrapped around the outer circumferential surface of the cowl crossbar 110 111 and the bonding region 111 in which the irregularities are formed is heated in the preparation step S120 and the resin composition of the cowl crossbar and the plastic accessories is injected in the injection step S130, .

As shown in FIG. 10, the plastic accessory 120 coupled to the cow crossbar 110 means a bracket for supporting a steering column, instrument panel, airbag device, or the like.

5 through 7, the bonding region 111 of the cowl crossbar 110 is a surface region of the cowl crossbar 110 to which the resin composition of the plastic component 120 contacts during the injection of the insert in the injection step S130 And is formed along the circumferential direction in a part of the longitudinal direction of the cow crossbar 110. [

The plastic accessories 120 may be insert-injected in a circumferential portion of a part of the cow crossbar 110 in the longitudinal direction of the cow crossbar 110 in the injection step S130, but the plastic accessories 120 are preferably inserted into the plastic accessories 120, Is formed so as to completely surround the circumferential direction in a part of the longitudinal direction of the cow crossbar 110.

As described above, a plurality of brackets for supporting a steering column, an instrument panel, and an airbag device are coupled to the cowl crossbar 110, so that a plurality of bonding regions 111 are provided. Each of the bonding regions 111 may have different areas.

As shown in FIG. 2, in the insert injection joint method (S100) of a cow crossbar and a plastic accessory according to an embodiment of the present invention, the machining step S110 includes an etching step S111 and a neutralizing step S112 .

The etching step S111 is a step of forming irregularities by contacting a corrosive agent to the bonding region 111. In the etching step S111, the bonding region 111 is brought into contact with an acidic aqueous solution such as hydrochloric acid, nitric acid or sulfuric acid.

When the acidic aqueous solution is brought into contact with the bonding region 111, grooves of several micrometers to several hundreds of micrometers in diameter due to corrosion are dispersively formed in the bonding region 111 of the metal, as shown in FIG. 8, In the junction region 111, irregularities are formed by the shape of dispersion of the grooves.

If grooves having a diameter of several micrometers to several hundreds of micrometers are dispersedly formed in the junction region 111 in the etching step S111, the resin composition injected into the junction region 111 by injection injection in the injection step S130 So that the dissimilar material of the plastic part 120 and the bonding area 111 after the insert injection is immersed into the grooves of several micrometers to several hundreds of micrometers in diameter dispersed in the bonding area 111 by bolts, The contact surface between the plastic part 120 and the joining area 111 forms a concave-convex shape, so that a strong binding force is formed.

The diameter, depth and spacing of the grooves caused by the corrosion action are controlled by the ratio of hydrochloric acid, nitric acid, sulfuric acid, etc. constituting the caustic, contact time and temperature.

Although not shown, the etching step S111 can corrode only the bonding region 111 by wrapping the plurality of bonding regions 111 using absorbing members (not shown) absorbing the caustic.

The absorbing member is fabricated by processing synthetic fibers having a slow chemical reaction with wool or acidic aqueous solution to a size that can cover the area of the joining region 111. In the etching step S111, the absorbing member is made of an acid such as hydrochloric acid, nitric acid, The bonding region 111 is etched by wrapping the bonding region 111 using a tool such as a forceps.

Of course, in the etching step S111, the surface of the cow crossbar 110 excluding the bonding region 111 may be surrounded by a protective member (not shown), and then the bonding region 111 may be corroded by dipping the substrate in an acidic aqueous solution . The protective member may be made of a chemical resistant tape resistant to corrosive agents.

The neutralization step (S112) is a step of neutralizing the corrosive agent by bringing the neutralizing agent into contact with the bonding region 111, and acid cleaning of the bonding region 111 by the neutralizing liquid is performed. The neutralizing solution may be a saturated aqueous solution of lime milk or a caustic aqueous solution.

2, a method (S100) of insert injection molding of a cowl crossbar and a plastic accessory according to an embodiment of the present invention is characterized in that, when the concavity and convexity formation is completed in the joining region 111 in the processing step (S110) (S120) is performed.

The preparing step S120 is a step of preparing the cow crossbar 110 in the injection mold M and includes a heating step S121 and a seating step S122.

The heating step S121 is a step of heating the joining region 111 with the heating element H so that when the joining region 111 is heated in the heating step S121, The flowability of the resin composition permeating between the concavities and convexities of the bonding region 111 is maintained.

In the heating step S121, the heating body H may be formed of a heating coil provided to surround the bonding region 111. [

5B, when the heating element H is moved in the direction of approaching the cow crossbar 110, the heating region H is formed in the shape of an ∩ ' And the bonding region 111 is heated. Fig. 5 is a view of another embodiment of the present invention, but the heating element H can be formed in the same manner.

5 (b) shows the heat of the heating element H mainly heating the cowl crossbar 110 in the form of radiation. However, it is preferable that the heating region H is in contact with the bonding region 111 to transmit heat energy in the form of inter- Or the like.

A frame F is provided on the outside of the heating element H so that heat energy of the heating element H is transmitted only in the direction of the cowl crossbar 110 while fixing the heating element H as shown in FIG. do.

As shown in Fig. 2, when the heating step S121 is completed, the seating step S122 is performed.

The seating step S122 is a step of transferring the cowl crossbar 110 to the transfer device C and placing the cowl crossbar 110 on the injection mold M so that the heating element H is installed in the state shown in Figures 5A to 5C It can be understood as a state without. The conveyance of the cow crossbar 110 by the conveying device C in the seating step S122 will be described in detail in another embodiment of the present invention.

As shown in Fig. 2, when the seating step S122 is completed, the injection step S130 is performed. The injection step S130 is a step of injecting the resin composition of the plastic part 120 into the injection mold M to make a composite in which the cow crossbar 110 and the plastic part 120 are integrated, The insert is injected through injection of the resin composition after the upper mold is covered.

FIG. 10 shows an insert injection assembly 100 of a cowl crossbar and a plastic accessory in which a machining step S110, a preparation step S120 and an injection step S130 are completed.

10, the insert assembly 100 of the cowl crossbar and the plastic accessory manufactured by the method of injecting and inserting inserts (S100) of a cowl crossbar of the present invention and a plastic accessory comprises a single injection mold M A plurality of plastic fittings 120 are coupled as a rigid coupling structure along the longitudinal direction of the cow crossbar 110 by one insert injection through the inserts.

As shown in FIG. 3, an insert injection method (S200) of a cow crossbar and a plastic accessory according to another embodiment of the present invention, a processing step S210, a preparation step S220, and an injection step S230 .

The insert injection joint method (S200) of the cow crossbar and the plastic accessory according to another embodiment of the present invention is different from the embodiment of the present invention in the preparation step (S220). Therefore, a description of the processing step S210 performed in the same process will be omitted.

3, in the insert injection joining method (S200) of a cow crossbar and a plastic accessory according to another embodiment of the present invention, the preparing step S220 includes a heating conveying step S221 and a seating step S222 .

The heating conveyance step S221 is a step of heating the joining region 111 with the heating element H provided in the conveying device C while conveying the cowl crossbar 110 to the conveying device C, The movement of heat energy from the resin composition to the joining region 111 is suppressed in the subsequent injection step S230 which is performed after the joining region 111 is heated in the joining region 111 so that the fluidity of the resin composition penetrating between the concave- maintain.

Preferably, the bonding region 111 is heated to a temperature near the melting point of the resin composition through the heating element H in the heating and conveying step (S221).

As shown in Fig. 5 (a), the carrying apparatus C is configured to include a body B and a gripper (G). 5A shows a part of the transfer device C, the cowl crossbar 110 and the injection mold M and the right end of the cowl crossbar 110 is also grasped by the gripper G do.

5A, the body B is elongated in the longitudinal direction of the cowl crossbar 110, and a plurality of heating elements H are installed along the longitudinal direction. The body B is connected to a moving means (not shown) of a factory automation system to move the cowl crossbar 110 to the injection mold M.

The gripper G is configured to move the cowl crossbar 110 together with the body B and is symmetrical to each other at both ends of the body B. The gripper G comprises a vertical movement means G1 and a horizontal movement means G2.

The vertical movement means G1 is configured to move the cowl crossbar 110 toward or away from the heating body H and move in a direction perpendicular to the longitudinal direction of the body B,

Although not shown, the body B is provided with a pinion gear capable of reciprocating rotation by a motor, and a vertically moving means G1 is provided with a rack shaft engaged with the pinion gear, and reciprocating in the longitudinal direction .

5 (a), the horizontal moving means G2 is configured to hold or place the cowl crossbar 110 by pressing both end portions of the cowl crossbar 110. The horizontal moving means G2 includes a vertical movement means G1, (B) in the longitudinal direction.

Although not shown, the vertical moving means G1 is provided with a pinion gear capable of reciprocating rotation by a motor, and a horizontally moving means G2 is provided with a rack shaft engaged with the pinion gear, And is reciprocated.

In the factory automation system, the technology of picking up, moving and processing objects by automation by computer and industrial robots is a well-known technology in the automobile manufacturing industry, and a detailed description of the carrying device (C) will be omitted below.

As shown in Fig. 5 (a), the body B is provided with a plurality of heating elements H along the longitudinal direction. The heating element H has a structure for heating the bonding region 111 during the heating and conveying step S221 and includes a bonding region 111 surrounded by the bonding region 111 in a state in which the vertical moving means G1 is in proximity to the body B, ).

5 (b), the heating element H is formed in the shape of a "∩" shape in which the vertical moving means G1 is opened in a direction away from the body B, When the vertical movement unit G1 moves in a direction in which the vertical movement unit G1 approaches the body B in the state where the cross bar 110 is held, the junction region 111 is surrounded and the junction region 111 is heated.

5 (b) shows the heat of the heating element H mainly heating the cowl cross bar 110 in the form of radiation, but when the vertical moving means G1 moves in the direction of approaching the body B The thermal energy may be transferred in the form of an inter-solid conduction in direct contact with the junction region 111.

5 (a) and 5 (b), the heating element H is fixed and the heat energy of the heating element H is transmitted only in the direction of the cowl crossbar 110, A frame F is provided.

The body B may be provided with a rail R along the longitudinal direction and the frame F may be provided with a slider S movably coupled to or separated from the rail R. [

The cow crossbars 110, which are assembled in different types of vehicles, have different resources, and the junction areas 111 have different widths and numbers.

When the heating element H is moved or separated along the longitudinal direction of the body B through the rail R and the slider S, the heating element H is replaced by only the heating element H in the carrying device C, And may be used for preparing the crossbar 110 (S220).

6 and 7, the seating step S222 is a step of placing the cowl crossbar 110 on the injection mold M by the conveying device C, which includes the first seating step S222, 2 seating step (S222).

5, the cow crossbar 110 is heated in the bonding region 111 while being moved to the injection mold M by the transfer device C in the heating conveyance step S221, In the first seating step S222, the vertically moving means G1 descends to seat the cowl crossbar 110 on the lower mold of the injection mold M. 5 to 7, only the lower mold of the injection mold M is shown.

When the cowl crossbar 110 is placed on the injection mold M in the first seating step S222, the cowl crossbar 110 is fixed at a position where the insert is injected by a fixing device (not shown) provided on the lower mold.

As shown in FIG. 6, in the second seating step S222, the horizontal moving means G2 horizontally moves away from each other to release the pressing force of the gripper G with respect to the cowl crossbar 110.

In addition, in the second seating step S222, power supply to the heating element H is stopped, thereby completing the seating step S222. Thereafter, the conveying device C moves from the injection mold M to prepare the heating conveying step (S221) of the other cowl crossbar 110.

As shown in Fig. 3, when the seating step S222 is completed, the injection step S230 is performed. The injection step S230 is a step of injecting the resin composition of the plastic part 120 into the injection mold M to make a composite in which the cowl crossbar 110 and the plastic part 120 are integrated, After the upper mold is covered with the mold, insert injection is performed through injection of the resin composition.

5 to 7, in the lower mold shown in the injection mold M, the injection-molded portion into which the resin composition is injected is concave in a portion corresponding to the junction region 111. [

As described above, in heating and conveying step S221, the cow crossbar 110 is conveyed to the conveying device C, and at the same time, the bonding area 111 is heated by the heating element H provided in the conveying device C, The thermal energy of the bonding region 111 before the injection of the resin composition in the step S230 is advantageous in that most of the thermal energy is saved because the time of release through the atmosphere and the injection mold M is short.

The bonding region 111 is heated to a temperature near the melting point of the resin composition through the heating element H in the heating and conveying step S221 so that the thermal energy of the resin composition injected into the injection mold M Is prevented from being transferred to the bonding region 111 and the fluidity of the resin composition permeating between the concavities and the protrusions of the bonding region 111 is maintained so that the resin composition can be easily penetrated into the grooves in units of micrometers between the concavities and the convexities .

On the other hand, if the bonding region 111 is heated to a temperature higher than the melting point of the resin composition through the heating element H in the heating and conveying step S221, the bonding region 111 is formed in the injection step S230, Is transferred to the resin composition, the flowability of the resin composition penetrating between the concavities and the protrusions of the bonding region 111 is improved, and the resin composition penetrates into the grooves more rapidly in micro units between the concavities and the convexities.

Preferably, the resin composition comprises 35 to 45 parts by weight of PA66 and 55 to 65 parts by weight of glass fiber, and the bonding region 111 is heated by the heating element H at 250 to 300 degrees Celsius.

PA66 is an engineering plastic material that is lighter in weight and lighter in density than metals, and has higher strength. The composite material of PA66 and glass fiber can satisfactorily satisfy the weight reduction and high strength characteristics as automobile parts.

The injection molding temperature of the PA 66 is 280 ° C. to 300 ° C. When the bonding region 111 is heated by the heating element H from 250 ° C. to 300 ° C., the thermal energy of the resin composition injected into the injection mold M Area 111 can be sufficiently prevented.

As shown in FIG. 4, in the insert injection joining method (S300) of a cow crossbar and a plastic accessory according to another embodiment of the present invention, irregularities due to laser processing are applied to the joining region 111 in the processing step (S310) .

4, in a method S300 of insert injection bonding of a cowl crossbar and a plastic accessory according to another embodiment of the present invention, the processing step S310 includes an insulation step S311, a laser step S312, An etching step S313, and a neutralization step S314.

The insulating step S311 is a step of applying an insulating material to the bonding region 111, and the insulating material may be made of a chemical resistant tape resistant to the caustic.

The laser step S312 is a step of forming irregularities in the joining region 111 by laser machining. FIG. 9 shows an enlarged view of the shape of the groove V formed in the joining region 111 by laser machining.

9, the shape of the groove V formed in the bonding region 111 is such that the resin composition infiltrating the groove in the injection step S330 and the concavo-convex structure of the bonding region 111 are bonded to the plastic component 120, Are formed in a zigzag shape in which they are staggered in the circumferential direction so as to simultaneously support the cowl crossbar 110 in the longitudinal direction and the circumferential direction.

In the laser step S312, the state in which the insulating material is applied is maintained in the remaining bonding region 111 except for the groove (V) portion formed by the laser processing.

The etching step S313 is a step of etching the concave portion of the concave and convex portions by contacting the corrosive agent to the bonding region 111. The concave portions of the concavity and convexity are etched in the bonding region 111 excluding the groove V formed by the laser processing, As the state is maintained, only the inside of the groove V formed by the laser processing is corroded by the caustic agent, and the inside of the groove V is expanded.

If the inside of the groove V formed by the laser processing in the etching step S313 is corroded by the corrosive agent and the inside of the groove V is expanded, injection into the joining region 111 is performed by injection injection in the injection step S330. So that the dissimilar materials of the plastic part 120 and the bonding area 111 after the injection of the insert are separated by separate physical fastening means such as bolts, nuts or rivets The contact surface between the plastic part 120 and the joining area 111 forms a concave-convex shape, so that a strong binding force is formed.

Although not shown, the etching step S313 may be performed by selectively inserting only the inside of the groove V in the bonding region 111 by wrapping the plurality of bonding regions 111 using the absorptive member (not shown) It can corrode.

The absorbing member is fabricated by processing synthetic fibers having a slow chemical reaction with wool or an acidic aqueous solution to a size that can cover the area of the joining region 111. In the etching step S313, the absorbing member is made of an acid such as hydrochloric acid, nitric acid, The bonding region 111 is etched by wrapping the bonding region 111 using a tool such as a forceps.

Of course, in the etching step S313, the surface of the cow crossbar 110 excluding the bonding region 111 may be surrounded by a protective member (not shown), and then the substrate may be corroded by immersing it in an acidic aqueous solution. The protective member may be made of a chemical resistant tape resistant to corrosive agents.

The neutralization step S314 is a step of neutralizing the corrosive agent by bringing the neutralizing agent into contact with the bonding region 111, and acid cleaning of the bonding region 111 by the neutralizing liquid is performed. The neutralizing solution may be a saturated aqueous solution of lime milk or a caustic aqueous solution.

According to the present invention, unevenness is formed in the joining region 111 of the outer circumferential surface of the cow crossbar 110 wrapped by the plastic accessory 120, and then the joining region 111 is locally heated and then a plurality of brackets and inserts are injected, The cowl crossbar 110 is formed by using one injection mold M, and the cowl crossbar 110 is fixed to the cowl crossbar 110 by using a single injection mold M, (S100, S200, S300) of a plastic part and a cowl crossbar for inserting and ejecting a plurality of brackets at the same time, thereby providing an insert injection assembly 100 of a cowl crossbar and a plastic accessory.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

S100, S200, S300: Insert injection bonding method
S110, S210, S310: Processing step
S111, S313: etching step
S112, S314: neutralization step
S311: Isolation step
S312: laser step
S120, S220, S320: preparation step
S121: heating step
S221: Heating and conveying step
S122, S222:
S130, S230, S330: injection step
100: injection combination
110: Cow Crossbars 120: Accessories
111: junction region V: groove
C: transport device H: heating element
B: Body F: Frame
R: Rail S: Slider
G: Gripper
G1: Vertical movement means
G2: Horizontal moving means

Claims (12)

A machining step of forming concave and convex portions in a joining region of the outer circumferential surface of the cow crossbar to be wrapped by the plastic accessories;
Preparing the cowl crossbar in an injection mold; And
And injecting the resin composition of the plastic accessory into the injection mold to produce an integrated composite. The method according to claim 1,
And a step of forming a concavo-convex portion by contacting a corrosive agent to the joint region in the machining step. The method according to claim 1,
The processing step includes:
An etching step of forming irregularities by contacting a corrosive agent to the joint region; And
And a neutralizing step of neutralizing the corrosive agent by contacting the bonding region with a neutralizing agent. The method according to claim 1,
And the concave and convex portions are formed by laser machining in the joining region in the machining step. 5. The method of claim 4,
Wherein the concavity and convexity formed by the laser processing are formed in a zigzag shape along the circumferential direction of the cowl crossbar. The method according to claim 1,
The processing step includes:
An insulating step of applying an insulating material to the junction region;
A laser step of forming irregularities on the joint region by laser processing;
An etching step of etching a concave portion of the concavity and convexity by contacting a corrosive agent to the joint region; And
And a neutralizing step of neutralizing the corrosive agent by contacting the bonding region with a neutralizing agent. The method according to claim 1,
In the preparation step,
A heating step of heating the junction region with a heating element so that fluidity of the resin composition permeating between the projections and recesses of the junction region is maintained; And
And placing the cowl crossbar on the injection mold by transferring the cowl crossbar to a transfer device. ≪ RTI ID = 0.0 > 8. < / RTI > The method according to claim 1,
In the preparation step,
A heating and conveying step of heating the joining region with a heating element provided in the conveying device while conveying the cowl crossbar to a conveying device so that fluidity of the resin composition permeating between the concavities and convexities of the joining area is maintained; And
Wherein the transfer device comprises a mounting step of placing the cowl crossbar on the injection mold. 9. The method according to claim 7 or 8,
In the resin composition,
35 to 45 parts by weight of PA66; And
55 to 65 parts by weight of glass fiber,
Wherein the bonding region is heated by the heating element to 250 to 300 degrees Celsius. 9. The method of claim 8,
The transport apparatus includes:
A body longitudinally formed in the cow crossbar; And
And a gripper provided on the body for holding or laying the crossbars and slidingly moving in a direction away from or closer to the body,
Wherein the heating element is opened in a direction away from the body so that the gripper surrounds the bonding area during the heating and transporting step. 11. The method of claim 10,
A rail is formed along the longitudinal direction of the body,
Wherein a slider is movably coupled to or separated from the rail on an upper side of the heating element. An insert injection joint of a cow crossbar and a plastic accessory manufactured by the method of injection injection of a cow crossbar and a plastic accessory of claim 1.

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