KR101931966B1 - Automatic cutting apparatus of injection gate in engine cover robot injection process - Google Patents

Abstract

The present invention relates to an apparatus to automatically cut a gate of an injection material in a robot injection process of an engine cover (60), which comprises a worktable (10), a plurality of support units (20) and a cutting unit (30). The engine cover (60) is injection molded and transferred to be placed on the worktable (10). The support units (20) closely attach and fix the engine cover (60) in four directions to prevent the engine cover (60) transferred on an upper part of a worktable (10) from being horizontally moved. The cutting unit (30) allows a plurality of cutting blades (31) installed corresponding to a position of a plurality of gates (62), which protrude from the engine cover (60) in injection molding, to automatically cut the gates (62) while being horizontally moved after the engine cover (60) is fixed to restrict horizontal movement thereof by the support plates (20). Accordingly, provided are effects of neatly cutting the gates (62), preventing an uncut defect product, and completely cutting a resin injection hole by automatically cutting the gates (62) of the injection molded engine cover (60).

Description

TECHNICAL FIELD [0001] The present invention relates to an automatic cutter apparatus for cutting an injection gate in an engine cover robot injection process,

The present invention is for automatically cutting a gate formed on an engine cover manufactured by injection molding.

An engine cover is provided on the upper surface of the engine of the automobile to reduce the noise and vibration of the engine to improve ride comfort.

Generally, an engine cover is manufactured by injection molding, and is manufactured by injecting and curing a resin into a mold for injection molding. After completion of molding of the engine cover, a resin injection port (also called a "gate" It is necessary to cut it.

Conventionally, such a resin injection port has been cut by a worker, but there has been a problem that the resin injection port can not be cut neatly due to a mistake of the operator or an engine cover which is not cut is manufactured.

Korean Patent No. 10-1101923, " Vehicle engine cover "

SUMMARY OF THE INVENTION It is an object of the present invention to provide an automatic cutter of an injection molded gate for an engine cover robot injection process capable of automatically cutting a resin injection port of an engine cover to be injection-molded.

The present invention according to the above object is achieved by providing a work table 10 on which an engine cover 60 to be injected and transported is placed and a plurality of engine covers 60, The support plate 20 is fixed to the engine cover 60 in four directions and fixed to the support plate 20 so as to limit the lateral movement of the engine cover 60 and then protruded from the engine cover 60 during injection molding And a cutting portion 30 for cutting the gate 62 automatically while the plurality of cutting blades 31 installed at the positions of the plurality of formed gates 62 move left and right.

According to the present invention, the gate of the engine cover to be injection-molded is automatically cut so that the cutting of the gate is cleaned, and the resin injection port can be completely cut without failing due to uncut.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing the overall configuration of a gate automatic cutting apparatus according to an embodiment of the present invention;
2 is a plan view of an automatic gate cutting apparatus according to an embodiment of the present invention,
3 is a perspective view of an engine cover injection according to an embodiment of the present invention,
4 is a perspective view showing a state in which an engine cover injection molding is placed on a gate automatic cutting apparatus according to an embodiment of the present invention,
5 is a view for explaining the operation configuration of the gate cutter according to the embodiment of the present invention,
6 is a view for explaining in detail a mode in which a gate is cut by a cutting portion according to an embodiment of the present invention,
7 is a view for explaining a configuration in which the position where the engine cover injection object is placed is constant on the automatic gate cutting apparatus according to the embodiment of the present invention.

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

FIG. 3 is a view showing an engine cover according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view FIG.

In the present invention, the engine cover 60 manufactured by injection molding is molded together with a gate 62 for injecting resin into the mold when the engine cover 60 is manufactured. The resin cover 60, To an apparatus for automatically cutting an injection port.

The automatic cutting device for a gate 62 of the present invention is provided with a work table 10 on which an engine cover 60 to be injected and transported is placed and an engine cover 60 transferred to an upper portion of the work table 10 is moved left and right A plurality of support plates 20 are fixedly attached to the engine cover 60 in all directions and fixed to the support plate 20 so as to restrict the lateral movement of the engine cover 60, And a cutting portion 30 for automatically cutting the gate 62 while moving a plurality of cutting blades 31 that are provided in alignment with the positions of the plurality of gates 62 protruding from the gate.

A sensor 40 for recognizing the engine cover 60 transferred from the upper portion may be installed at one side of the work table 10.

The detection sensor 40 may be used to detect whether the engine cover 60 is placed on the work table 10 and may be used when the engine cover 60 is not placed on the work table 10 In order to prevent the support plate 20 or the knife edge from operating.

A plurality of position fixing pins 50 may be installed to allow the engine cover 60 to be transferred to the correct position of the work table 10 together with the detection sensor 40.

The engine cover 60 manufactured by injection molding in the previous stage process is transferred to the position where the gate 62 is to be cut and the engine cover 60 is mounted on the cut portion 30 of the work table 10, A plurality of position fixing pins 50 are installed to allow the engine cover 60 to be always positioned at a predetermined position in accordance with the position where the cutting blade 31 is installed.

A plurality of mounting portions 64 for mounting the engine cover 60 to an automobile are protruded and formed on the rim of the engine cover 60. The mounting portion 64 is provided with a hole for screw connection, The mounting position 64 of the engine cover 60 which is lowered at the upper portion of the engine cover 60 is inserted into the position fixing pin 50 as shown in FIG. 7, .

A plurality of mounting portions 64 formed on the engine cover 60 are all fitted to the position fixing portion so that the engine cover 60 is placed in the correct position of the work table 10, At this time, the position fixing pin 50 may be provided with a weight sensor 52 for detecting the pressing by the engine cover 60 by fitting the mounting portion 64.

When the mounting portion 64 of the engine cover 60 is inserted into the position fixing portion, the weight sensor 52 senses the mounting position 64. When the mounting portion 64 is fully inserted into each of the position fixing pins 50, All of the weight sensors 52 sense this and confirm the correct position of the engine cover 60. After confirming that the engine cover 60 is set in the correct position, the support plate 20 and the cut portion 30 are operated.

The positioning of the engine cover 60 by the weight sensor 52 is for accurately cutting the gate 62 accurately and the support plate 20 or the cut portion 30 is formed in a state in which the engine cover 60 is not properly positioned When the gate 62 is operated, the gate 62 can not be cut in a flat shape, and even an uncut gate 62 is generated, thereby increasing the rate of generation of a defective product.

When the engine cover 60 is transported to the fixed position of the workbench 10 by the position fixing unit, the support plate 20 formed with the engine cover 60 is tightly fixed to the engine cover 60 from all directions.

After the engine cover 60 is transported, the support plate 20 is advanced in the direction of the engine cover 60 to firmly fix the engine bucker in all directions. At the rear of the support plate 20, A support cylinder 22 is provided.

The cutting blade 31 for cutting the gate 62 of the engine cover 60 is automatically fixed in a state in which the engine cover 60 is fixed so as not to move by the plurality of support plates 20 provided on the four sides of the work table 10 .

5 is a view for explaining the operation configuration of the cutting section 30 according to the embodiment of the present invention.

The cutting blade 31 is provided at the position of the gate 62 protruding from the engine cover 60 so that the cutting blade 31 is engaged with the engine cover 60 A moving cylinder 33 is provided for moving the cutting blade 31 to the cutting position of the gate 62 so that the cutting of the gate 62 by the cutting blade 31 is completed, 31 and a transfer plate 34 fixed to the transfer cylinder 33. The transfer plate 34 is moved at right angles to the moving direction of the cutting blade 31 and the gate 62 ) A cutting cylinder 35 is provided for cutting the gate 62 by the cutting edge 31 moved to the cutting position.

It is preferable that a plurality of cutting blades 31 are provided on the cut portions 30 in accordance with the number of the gates 62 protruding from the engine cover 60, The mounting position of the cutting blade 31 can be changed according to the position of the gate 62 that varies according to the specifications of the engine cover 60 Respectively.

The gate 62 is moved close to the engine cover 60 in the direction of the engine cover 60 by the moving cylinder 33 while the engine cover 60 is placed on the top of the workbench 10, 62) to the cutting position for cutting.

At this time, the cutting blade 31 is installed on the plate 32 upwardly and the moving cylinder 33 is provided below the plate 32, so that the plate 32 with the cutting blade 31 installed by the operation of the moving cylinder 33 Moves toward the engine cover 60 and moves to the cutting position.

The cutting blade 31, the plate 32 and the moving cylinder 33 are again provided on the conveying plate 34 and a plurality of moving cylinders 33 may be installed on the conveying plate 34. [

As shown in FIG. 5, two conveying plates 34 are provided in the upper and lower layers as shown in FIG. 5, and cutting blades 31 provided at positions facing each other are installed on the conveying plate 34 so as to operate together.

In one embodiment of the present invention, the engine cover 60 is generally rectangular in shape, and a plurality of ice-gating gates 62 are formed inside the engine cover 60.

The gate 62 formed at the positions facing each other inside the engine cover 60 is cut at a time by the cutting edge 31 provided on the same feed plate 34. For this purpose, And two cutting cylinders 35 are provided to allow the first and second cylinders 34 to cross each other.

The cutting cylinder 35 is constructed so as to individually cut the gate 62 formed at the opposite position inside the engine cover 60 by the respective cutting edges 31 provided on the feed plate 34 And the transfer plate 34 are moved so as to intersect with each other, the gate 62 in all the directions inside the engine cover 60 can be cut.

FIG. 6 is a detailed view showing a mode in which the gate 62 is cut by the cutting edge 31 of the present invention.

The cutting blade 31 is moved to the cutting position by the moving cylinder 33 and then the feed plate 34 is operated by the cutting cylinder 35 to automatically cut the gate 62 by the cutting blade 31 After the gate 62 is cut, the cutting cylinder 35 and the moving cylinder 33 are operated in the direction opposite to the cutting, and the cutting blade 31 is placed at the position of the work table 10.

While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments but should be determined by the scope of the appended claims and equivalents thereof.

(10) - work table (20) - support plate
(22) - Supporting cylinder (30) - Cutting part
(31) - cutting blade (32) - plate
(33) - transfer cylinder (34) - transfer plate
(35) - cutting cylinder (40) - detection sensor
(50) - Locating pin (52) - Weight sensor
(60) - engine cover (62) - gate
(64) - Installation section

Claims (5)

A work table 10 on which an engine cover 60 to be injection-molded is placed,
A plurality of support plates 20 are configured to closely contact the engine cover 60 on all sides so that the engine cover 60 transferred to the upper portion of the work table 10 does not move left and right,
A plurality of cutting blades 31 provided in alignment with the positions of a plurality of gates 62 protruded from the engine cover 60 during injection molding after the engine cover 60 is fixed to the left and right by the support plate 20, And a cutting portion 30 for automatically cutting the gate 62 while moving to the left and right,
The cutting portion 30 is provided with two conveying plates 34 and two cutting cylinders 35 and is provided with a cutting blade 31 provided at a position facing the cutting blade 30 and fixed to one conveying plate 34, Wherein the two installed transfer plates (34) are operated so as to intersect with each other so that the gate (62) inside the engine cover (60) is cut at a time.
The method according to claim 1,
The cutting portion 30 is provided with a plurality of cutting blades 31 in alignment with the position of the gate 62 protruding from the engine cover 60,
The movement of moving the cutting blade 31 to the cutting position of the gate 62 so that the cutting blade 31 is close to the engine cover 60 and the cutting of the gate 62 by the cutting blade 31 is completed, A cylinder 33 is provided,
A transfer plate 34 to which the transfer cylinder 33 is fixed is provided,
A cutting cylinder 35 for moving the feed plate 34 at right angles to the moving direction of the cutting blade 31 and cutting the gate 62 by the cutting blade 31 moved to the cutting position of the gate 62 is provided Wherein the injection molding machine comprises an injection molding machine.
The method according to claim 1,
Wherein a detection sensor (40) for recognizing the engine cover (60) transferred from the upper portion is installed at one side of the work table (10).
The method according to claim 1,
A plurality of position fixing pins 50 (50) for positioning the engine cover (60) so that the position where the engine cover (60) is transferred to the cut portion (30) of the work table (10) Wherein the injection molding machine is provided with an injection molding machine.
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