KR101819339B1 - Apparatus for process of frame - Google Patents

Abstract

The present invention relates to a window frame processing apparatus, which comprises a transfer roller disposed on a mounting unit of a work table and spaced apart from a transfer direction of a frame to be processed, for supporting and transferring the frame to be processed, An object to be processed is brought into close contact with the contact unit by applying an external force to the frame to be processed so that the frame to be processed can be fixedly positioned so that the frame can be stably supported and conveyed, It is possible to prevent the destruction of the target frame.
According to the present invention, when an external force by a push unit is applied to a frame to be processed, the frame to be processed is held in contact with and supported by the position fixing unit, and the contact unit is brought into close contact with the frame, It is possible to stabilize the position and to improve the accuracy of the work during the perforation work.

Description

[0001] APPARATUS FOR PROCESS OF FRAME [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a window frame processing apparatus, and more particularly, to a window frame processing apparatus that stably supports respective frames to be processed to form window frames and enables effective perforation work to be performed on the frames to be processed .

Generally, a window frame is installed in an opening or an entrance of an outer wall of a building. The window frame is used as an inflow passage for introducing outside air into or out of the building (building). Such a window frame is formed by combining the respective frames to be processed to form a frame, and a glass or the like is inserted into the central space of the frame.

Each of the frames to be processed forming such a window frame is made up of a plurality of openings for coupling and functional improvement. These openings are formed in a frame to be machined through a punching operation using a frame machining device.

Generally, a frame processing apparatus supports a frame to be processed which forms a window frame, and can perform a perforation work after fixing the frame to be processed. Such a general frame machining apparatus has a problem in that it is difficult to stably fix the frame to be machined, thereby reducing the accuracy in the perforation work.

In addition, a general frame machining apparatus has a problem that it is difficult to stably support and feed the frame to be machined, and the frame to be machined is damaged when the machining operation or the feed operation is performed.

As a related art, Korean Patent No. 10-1318399 entitled " Window milling assembly assembly groove processing apparatus "

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for stably supporting and transporting a frame to be processed, And to provide a window frame processing device capable of preventing breakage.

It is another object of the present invention to provide a window frame processing apparatus capable of stably fixing a position of a frame to be processed, thereby increasing the accuracy of the work during the perforation work.

The solution to the problem of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a window frame processing apparatus including a work table on which a plurality of support units are disposed at positions spaced apart from each other, and a mounting unit for mounting a frame to be processed is provided at an upper end of the support units; A feed roller which is disposed on the mounting unit so as to be spaced apart from the mounting unit in a feeding direction of the frame so as to be able to be mounted on the mounting unit so as to be conveyed; A pushing unit provided on the stationary unit to apply an external force to the frame to be processed so that the frame to be processed can be moved to the stationary unit side while the frame is stopped; A contact unit provided on one side of the mounting unit such that the frame to be processed is in close contact with the moving object frame and the mounting unit side when an external force is applied by the pushing unit and the position of the frame to be processed is fixed; And a perforated unit for elevating and lowering at least one opening in the positionally fixed frame to be processed.

Further, according to the present invention, there is provided a movement guide panel disposed on a movement guide panel of a work table and capable of being moved, and by supporting the frame to be processed in close contact with the contact unit, And a position fixing unit for increasing the position fixing force of the target frame.

Further, the position fixing unit is resiliently connected to the contact unit, and when the external force by the push unit is released, the state is restored to a state before the position movement is performed by elasticity, And an elastic member capable of being detached from the contact unit.

Further, when the external force is applied by the pushing unit, the cohesion unit is moved to and brought into close contact with the frame to be processed supported by the position fixing unit, and an external force is applied to the opposite side to which the external force is applied, It is possible to fix the position of the light emitting diode.

The tight contact unit may include a contact member disposed between the frame to be processed and the close contact unit to increase the contact force with the frame to be processed.

The apparatus for processing a frame of a window according to the present invention having the above-described structure includes a transfer roller disposed on a mounting unit of a work table and spaced apart from the transfer direction of the frame to be processed, The pushing unit is brought into close contact with the contact unit by applying an external force to the frame to which the pushing unit is stopped and the position of the frame to be processed is fixed so that the frame can be stably supported and conveyed, And the effect of preventing the destruction of the frame to be processed during the transfer operation.

According to the present invention, when an external force by a push unit is applied to a frame to be processed, the frame to be processed is held in contact with and supported by the position fixing unit, and the contact unit is brought into close contact with the frame, It is possible to stabilize the position and to improve the accuracy of the work during the perforation work.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 and 2 are perspective views for explaining a window frame processing apparatus according to an embodiment of the present invention.
3 is a cross-sectional view illustrating an embodiment of the present invention.
4 is a cross-sectional view illustrating an elastic member employed in another embodiment of the present invention.
5 is a cross-sectional view for explaining opening formation by perforation unit in an embodiment of the present invention.

Hereinafter, a cosmetic case according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 and 2 are perspective views for explaining a window frame machining apparatus according to an embodiment of the present invention, FIG. 3 is a sectional view for explaining an embodiment of the present invention, and FIG. 4 is a cross- FIG. 5 is a cross-sectional view for explaining opening formation by perforation unit in an embodiment of the present invention. FIG.

As shown in these drawings, a window frame processing apparatus according to the present invention includes a work table 100, a conveying roller 200, a push unit 300, a perforation unit 400, and a contact unit 600 .

The work table 100 includes a plurality of support units 102 arranged apart from each other and a mounting unit 101 provided at the upper end of the support units 102. The work table 100 allows the mounting frame 101 to be mounted with a frame A to form a window frame. The mounting unit 101 of the work table 100 is longer than both sides of the frame A so that the frame A can be stably mounted.

The work table 100 includes the conveying roller 200 disposed in the stationary unit 101 so that the frame A can be conveyed along the stationary unit 101. [ In the work table 100, the stationary unit 101 is elongated along the conveying direction of the frame A so that the frame A can be stably placed and transported.

The conveying roller 200 is provided in a space formed in the stationary unit 101. The conveying roller 200 is moved along the conveying direction of the frame A to be processed so that the frame A can be conveyed to the perforator unit 400 while the frame A is stationary Are spaced apart.

The conveying roller 200 rotates when it contacts the frame A when the frame A is conveyed, thereby increasing the conveying force during conveyance. The conveying roller 200 is provided in the stationary unit 101 to increase the conveying force, thereby enabling stable support and conveyance of the frame A to be processed.

Referring to FIG. 3, the push unit 300 moves the frame A to one side of the stationary unit 101 in a stopped state. The push units 300 are provided in the mounting unit 101 of the work table 100 and are spaced apart from each other. The push unit 300 applies an external force to the frame A when the frame A is stopped.

The frame A to be processed which receives the external force from the push unit 300 is moved by its external force and brought into close contact with the contact unit 600 provided on one side of the stationary unit 100. The push unit 300 is driven according to an operation signal by a user to exert an external force on the frame A or release its external force.

For operation of the push unit 300, the present invention may further include a switch (not shown), and the push unit 300 may be operated by the electrical signal of the switch. The switch may control the operation of the push unit 300 and may control the operation of the conveying roller 200.

For example, when the user generates an operation signal through the switch, the rotation of the conveyance roller 200 is stopped, and the conveyance of the frame A to be processed is stopped. At this time, the push unit 300 is operated to apply an external force to the frame A to be processed. The frame A to which the external force is applied is tightly fixed to the tightening unit 600 to be fixed in position and the perforation unit 600 is operated to form an opening in the frame A to be processed.

The switch may be provided to individually drive and control the conveying roller 200, the push unit 300, the contact unit 600, and the perforation unit 400, respectively. On the other hand, a driving signal may be generated so that each of the devices can be uniformly driven by a driving method predetermined by a user. The present invention may include a controller (not shown) so that each of the devices can be driven and controlled, and the user can preset the operation of the devices (constituents) in the controller.

When the external force is applied by the push unit 300, the close unit 600 is brought into close contact with the object frame A on the side of the stationary unit 101, And is provided on one side of the mounting unit 101 so as to be fixed. The tight fitting unit 600 has a length along the feeding direction of the frame A and can stably come into close contact with the frame A to be processed.

The tight fitting unit 600 may be provided on one side of the mounting unit 101 and form a length across a whole area of one side of the mounting unit 101 of the work table 100. Meanwhile, the adhering unit 600 may be provided in one section of one side of the stationary unit 101.

The perforated unit 400 forms a plurality of openings in the frame A to be processed when the frame A to be processed in the stopped state is in close contact with the close contact unit 600 and fixed in position. The perforation unit 400 moves up and down the frame A to form the opening through a perforation operation.

The perforation unit 400 may be provided on the work table 100. Meanwhile, the perforation unit 400 may be provided separately from the work table 100. The puncture unit 400 may be used in place of the opening to be formed.

The present invention is characterized in that the transfer roller 200 is provided on the mounting unit 101 of the work table 100 so as to be spaced apart from the transfer direction of the frame to be processed A, And the pushing unit 300 is brought into close contact with the contact unit 600 by applying an external force to the frame A to which the pushing unit 300 has been stopped to fix the position of the frame to be processed, So that it is possible to prevent the destruction of the frame to be processed during the perforation work or the transfer work in the frame processing step.

Meanwhile, the apparatus for processing a window frame according to the present invention further includes a position fixing unit 500 for increasing the position fixing force of the frame A to be processed. The position fixing unit 500 is moved or fixed in position by the movement guide panel 501 provided in the mounting unit 101 of the work table 100. [

The position fixing unit 500 is in contact with the lower surface of the frame A to support the frame A to be processed. The position fixing unit 500 contacts the lower surface of the frame A to be contacted with the conveying roller 200 and guides the conveyance of the frame A to be processed.

The position fixing unit 500 is brought into contact with the lower surface of the frame to be processed A and guides the movement so that the frame A to be processed is prevented from being detached from the work table 100 during transportation Derive an advantage.

The position fixing unit 500 is fixed to the perforation unit 400 by supporting the frame A to be processed in close contact with the contact unit 600 The position fixing force of the frame to be processed A is increased.

The position fixing unit 500 may be moved in a sliding manner through a slot formed in the movement guide panel 501. It is preferable that the position fixing unit 500 is provided on the guide panel 501 using bolts and nuts through elongated holes formed in the movement guide panel 501.

For example, when the position fixing unit 500 is fixed to the movement guide panel 501 and the push unit 300 applies an external force to the frame A, the position fixing unit 500 , The current position is maintained in a state of being in contact with the lower surface of the frame A to be processed.

At this time, the position fixing unit 500 maintains the position against the external force, so that the position fixing force transmitted to the frame to be processed A increases. Therefore, the frame A to be processed is stably fixed in the mounting unit 101 of the work table 100. The contact unit 600 is moved by a user so as to be in contact with the frame A to apply an external force to both sides of the frame A to be processed.

On the other hand, when the pushing unit 300 applies an external force to the frame to be processed A, the position fixing unit 500 can move, and in a state of supporting the frame A to be processed, (600). At this time, the position fixing unit 500 supports the frame A, which is in close contact with the tightening unit 600, and fixes the position of the frame A, The effect of preventing the frame A from being deformed or moved is derived.

The window frame processing apparatus according to the present invention is characterized in that when an external force by the push unit 300 is applied to the frame A to be processed, the frame A to be processed is brought into contact with the position fixing unit 500 And the tightening unit 600 is brought into close contact with the frame A to increase the position fixing force so that the position of the frame A can be stably fixed and the accuracy of the work during the perforation can be improved I have.

Referring to FIG. 4, the position fixing unit 500 may further include an elastic member 700. The position fixing unit 500 may be resiliently connected to the adhesion unit 600 by an elastic member 700. 4A, the elastic member 700 is loosened when the external force by the push unit 300 is released, and the elastic member 700 is in a state before the position fixing unit 500 is moved due to elasticity To be restored. Therefore, the elastic member 700 allows the frame to be processed A to be removed from the contact unit 600.

4 (b), when the external force is applied by the push unit 300, the elastic member 700 is compressed and the position fixing unit 500 is moved to move the processing target frame A Can be brought into close contact with the tight contact unit 600. Therefore, by automatically moving the position of the frame A to be processed after the opening of the frame A to be processed in the perforation process, the frame to be processed A can be stably Lt; / RTI >

Referring to FIG. 5, the adhering unit 600 can be moved toward the frame A to be processed and brought into close contact with the frame A through drive control by a user. The adhesion unit 600 may be detached from the frame A to be processed together with the push unit 300 after forming the opening in the frame A to be processed.

When the contact unit 600 is removed from the frame A and the external force by the push unit 300 is released, the frame to be processed A is transferred along the stationary unit 101. At this time, the processing object frame A is conveyed while being in contact with the position fixing unit 500, and the position fixing unit 500 guides the movement stably.

By repeating this process, repetitive puncturing can be performed on the frame A and a plurality of openings can be formed. At this time, the push unit 300, the adhesion unit 600, and the perforation unit 400 can be made through an electric signal by the switch operation of the user. The push unit 300, the contact unit 600, and the perforation unit 400 can exert an external force by the hydraulic pressure method and can move up and down.

The tight contact unit 600 may further include a contact member 601 disposed between the object frame and the close contact unit to increase the contact force with the frame to be processed. The contact member 601 may be made of a rubber pad or the like and may be made of a material capable of increasing the adhesion.

The push unit 300 and the contact unit 600 apply an external force to the frame A to be supported and fixed by the position fixing unit 500 so that the position of the frame A to be processed By increasing the clamping force, it is possible to increase the accuracy of the work during the perforation work for forming the opening in the frame A to be processed, and stable position fixation is possible.

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 exemplary embodiments, but, on the contrary, It is obvious.

100: Work table 200: Feed roller
300: push unit 400: perforation unit
500: Position fixing unit 600:
700: elastic member

Claims (5)

A work table in which a plurality of support units are disposed at positions spaced apart from each other, and a mounting unit for mounting a workpiece frame is provided at an upper end of the support units;
A feed roller which is disposed on the mounting unit so as to be spaced apart from the mounting unit in a feeding direction of the frame so as to be able to be mounted on the mounting unit so as to be conveyed;
A pushing unit provided on the stationary unit to apply an external force to the frame to be processed so that the frame to be processed can be moved to the stationary unit side while the frame is stopped;
A contact unit provided on one side of the mounting unit such that the frame to be processed is in close contact with the moving object frame and the mounting unit side when an external force is applied by the pushing unit and the position of the frame to be processed is fixed;
A perforated unit for elevating and forming at least one opening in the frame to be processed fixed; And
And a movable frame provided on the movement guide panel disposed on the work table, the movable frame being positionally movable, and supporting the frame to be processed in close contact with the contact unit, the position of the frame to be processed And a position fixing unit for increasing the fixing force,
The position fixing unit contacts the lower surface of the frame to be contacted with the conveying roller and guides the conveyance of the frame to be processed so as to prevent the frame to be separated from the work table during conveyance,
Wherein the position fixing unit moves in a sliding manner through a slot formed in the movement guide panel. delete The method according to claim 1,
The position fixing unit includes:
When the external force by the push unit is released, the state is restored to a state before the positional movement is performed by the elasticity, so that the object frame can be removed from the contact unit And an elastic member for elastically deforming the window frame. The method according to claim 1,
Wherein the tightly-
So that an external force is applied to the opposite side to which the external force is applied so that the position of the frame to be processed is fixed Wherein the window frames are formed in a frame shape. The method according to claim 1,
Wherein the tightly-
And an urging member which is disposed between the frame to be processed and the close contact unit and increases the contact force when the frame is in close contact with the frame to be processed.

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