KR102200886B1 - Method manufacturing for window profile - Google Patents

Abstract

The present invention relates to a method of manufacturing a profile for windows and doors, and more particularly, to produce a profile suitable for use by sequentially performing operations of moving, processing, cutting, inserting and fixing reinforcing materials in accordance with a set set value of the profile supplied sequentially. It relates to a method of manufacturing a profile for windows and doors.

Description

Manufacturing method of profile for windows {METHOD MANUFACTURING FOR WINDOW PROFILE}

The present invention relates to a method of manufacturing a profile for windows and doors, and more particularly, to produce a profile suitable for use by sequentially performing operations of moving, processing, cutting, inserting and fixing reinforcing materials in accordance with a set set value of the profile supplied sequentially. It relates to a method of manufacturing a profile for windows and doors.

In general, the profile is made of PVC material to have a bar-shaped longitudinal direction with a cross-section suitable for use.

Profiles produced in this way are processed according to the desired standard and design, and are used to manufacture window frames, windows, and shelves.

In addition, the windows are installed for lighting, ventilation, and access to the building, and are composed of a window on which a glass plate is mounted inside and a frame to fix the window, and the shelves are assembled with brothers that can store and support various items inside.

Therefore, in order to process the profile according to the purpose, grooves, cuttings, and reinforcements are used in combination with the profile made in a bar shape according to the standard.

In addition, in order to process multiple profiles according to the same product standard, each work is divided and produced through repetitive work, but it is difficult to manufacture according to the exact standard, high defect rate, and it takes a long time to manufacture. There is a problem.

As a prior art 1 for solving this problem, a “plastic profile cutting device” has been proposed.

The prior art is made so that the plastic profile can be cut by a pair of circular knives vertically advancing toward the product while moving at the same speed as the extrusion speed of the product.

However, in the prior art, only the profile can be cut in the vertical direction, and thus various directions and shapes cannot be cut according to the purpose.

In addition, as another prior art 2, a "profile transfer device for windows and doors" has been proposed.

In the prior art, the height of the gripper moving in the transverse direction can be adjusted so that the gripper and the profile for the window to be transported to be supplied to the lower part of the moving body can be stably brought into contact with each other so that they can be inserted into the cutter.

However, as the profile is simply fixed and then transferred, the profile of various specifications cannot be transferred, and there is a problem that it must be individually manipulated in accordance with the standard.

As described above, the prior art relates to transport for cutting vertically along a profile or simply inserting it into a cutter, and there is a problem in that a predetermined profile can be cut and transported.

In addition, there is a problem that it cannot be applied to profiles having various processing and specifications depending on the design.

Finally, if a separate process is required, there is a problem that the efficiency of the additional work is deteriorated because the work is performed by an operator.

Korean Patent Application Publication No. 10-1995-0013677 (1995.06.15.) Korean Patent Application Publication No. 10-2016-0031725 (2016.03.23.)

The present invention was conceived to solve the above problems, and an object of the present invention is to provide a method of manufacturing a profile for windows and doors capable of producing a profile for windows having a required size and size through sequential processing and cutting of the profile. To provide.

Another object of the present invention is to provide a method of manufacturing a profile for windows and doors that can be cut and processed by easily applying even if the specification of the profile is changed.

Another object of the present invention is to provide a method of manufacturing a profile for windows and doors that can sequentially manufacture grooves, cut surfaces, and drainage channels necessary for a profile for windows and doors, and whose specifications can be changed according to the intended use.

The present invention for achieving the object as described above is a supply step in which a plurality of profiles are seated on a first transport means, and supply the profiles sequentially by the first transport means at all times; A first processing step of selectively processing a groove in the profile supplied in the supply step through a first factory value on the slope; A cutting step of cutting the profile whose grooves are processed in the first processing step through a cutting device; A second processing step of processing a drainage passage through a second factory value on the rail of the profile cut in the cutting step; The profile cut in the cutting step and the profile formed with a drainage passage in the second processing step are introduced and transported through a second transport means to construct a finishing material.

It is preferable that a transfer means for transferring the profile is disposed between the supplying step, the first processing step, the cutting step, the second processing step, and the finishing step, respectively.

The conveying means comprises a conveying part having a guide rail formed on an upper portion and having a sensing means for sensing the profile on the front side, and a picker part which is coupled to the guide rail and fixing and conveying the profile located on the front side. The picker unit includes a moving member seated on the guide rail and moving in the longitudinal direction, a contact member coupled to the moving member and exposed to the front to close one surface of the profile, and movable along the length direction of the contact member. It is preferable to include a fixing member coupled to the other surface of the profile and installed on the contact member, and a control unit controlling the fixing member to move the fixing member along the longitudinal direction of the contact member to fix the profile.

The first transport means and the second transport means include a shelf, a plurality of transfer rails disposed at regular intervals along the column direction of the table and installed in a row direction on an upper surface of the shelf, and a longitudinal direction of the transfer rail Consisting of a fixing member disposed at regular intervals along the line, into which the width of the profile seated in the column direction of the transfer rail is inserted, and a first guide plate installed at the end of the shelf to which the end of the profile is in close contact It is desirable.

The first factory value is installed on a first table having a first seating plate on which the rear and lower surfaces of the profile are seated, and on the front and upper surfaces of the first table, respectively, so that the front and upper surfaces of the profile are in close contact with each other. And a first fixing means for fixing to the first seating plate, and being installed on the first table so as to be positioned on the front surface of the first seating plate so as to be able to move in the three-axis direction, and at the end, the front and lower surfaces of the profile A first processing means to which a first processing blade for processing a groove is rotatably coupled, and installed on the first table so as to be located on the rear surface of the first seating plate so as to be able to move in three axial directions, and the end of the profile It is preferable that the first processing blade for processing the groove on the rear surface and the upper surface is made of a second processing means rotatably coupled.

The cutting device includes a second table having a second seating plate on which the rear and lower surfaces of the profile are seated, and are installed on the front and upper surfaces of the second table, respectively, so that the front and the upper surfaces of the profile are in close contact with each other. A cutting means having a second fixing means fixed to the second seating plate, and a cutting blade installed on the first table so as to be positioned on the rear surface of the second seating plate, and cutting the profile by moving and rotating in four axes The cutting means includes a first moving plate coupled to the second table in a height adjustable manner, and a second moving plate coupled to the first moving plate and moving along the width direction of the profile. , It is preferably made of a harmonic drive coupled to the second moving plate and rotating the cutting blade fixed to the end.

The second factory value includes a third table having a third seating plate on which the front and lower surfaces of the profile are seated, and the third table is installed on an upper end of the third table to closely contact the rear and upper surfaces of the profile. A drainage path processing means provided with a third fixing means for fixing to the seating plate and a second processing blade installed on the upper end of the third table and moving in the vertical and longitudinal directions of the profile, and processing the drainage path on the rail of the profile It is preferably made of.

The second processing device and a conveyor means selectively installed in the conveying means to move the profile, the conveyor means is rotatably coupled to the support at regular intervals, the belt fastening groove is formed at the other end A plurality of rollers, one or more disposed between the plurality of rollers is rotatably coupled to the support, rotated by power and a power molar with a belt fastening groove formed at the other end, and two adjacent to the belt fastening groove It is preferable that it comprises a plurality of belts connecting the two rollers, the rollers, and the power molar, and a second guide plate which is movably coupled at an end of the support so as to selectively adhere to the end of the profile.

According to the method of manufacturing a profile for windows and doors according to the present invention, it is possible to manufacture a profile for windows and doors having a required size and size through sequential processing and cutting of the profile.

According to the present invention, even if the specification of the profile is changed, it is advantageous in that cutting and processing are possible by easily applying it.

According to the present invention, there is an advantage in that grooves, cut surfaces and drainage channels necessary for a profile for windows and doors can be sequentially manufactured, and cutting and processing can be easily changed according to standards according to the intended use.

Another object of the present invention is that the transfer means can be easily fixed and moved according to the width even if profiles of different standards are supplied by controlling through a control unit.

Another object of the present invention is to process grooves for various purposes on four sides (up, down, front, rear) of the profile by a first processing device capable of three-axis movement, and two-axis movement and one-axis rotation There is an advantage of being able to variously cut the cut surface of the profile by this possible cutting device.

Another object of the present invention has the advantage of being able to process a drainage passage capable of inducing and discharging water to a profile for windows and doors.

1 is a block diagram showing a method of manufacturing a profile for windows and doors according to the present invention
2 is a conceptual diagram showing an arrangement state according to the present invention,
3 is a perspective view showing a transfer means according to the present invention,
4 is a perspective view showing a first transport device and a second transport device according to the present invention,
5 is a perspective view showing a first factory value according to the present invention,
6 is a perspective view showing a cutting device according to the present invention,
7 is a perspective view showing a second factory value according to the present invention,
8 is a perspective view showing a conveyor means according to the present invention.

Hereinafter, a method of manufacturing a profile for windows and doors according to the present invention will be described in detail together with the accompanying drawings.

1 is a block diagram showing a method for manufacturing a profile for windows and doors according to the present invention, FIG. 2 is a conceptual diagram showing an arrangement state according to the present invention, and FIG. 3 is a perspective view showing a conveying means according to the present invention, Figure 4 is a perspective view showing a first transport device and a second transport device according to the present invention, Figure 5 is a perspective view showing a first factory value according to the present invention, Figure 6 shows a cutting device according to the present invention One perspective view, Figure 7 is a perspective view showing a second factory value according to the present invention, Figure 8 is a perspective view showing the conveyor means according to the present invention.

As shown in Figs. 1 to 8, the present invention relates to a method of manufacturing a profile for windows and doors, and more particularly, operations of moving, processing, cutting, inserting and fixing reinforcing materials in accordance with a set set value of a profile supplied sequentially. It relates to a method of manufacturing a profile for windows and doors that proceeds sequentially to produce a profile suitable for use.

To this end, the present invention provides a supply step (S10), a first processing step (S20), a cutting step (S30), a second processing step (S40), and a finishing step (S50) so that the profile can be sequentially processed according to the intended use. Consists of

In the supplying step (S10), a plurality of profiles are mounted on the first transportation means 10, and the profiles are supplied sequentially by the first transportation means 10 at all times.

In the first processing step (S20), a groove is selectively processed through the first processing device 20 on the slope of the profile supplied in the supply step (S10).

In the cutting step (S30), the profile on which the groove is processed in the first processing step (S20) is cut through a cutting device (30).

In the second processing step (S40), a drainage passage is processed on the rail of the profile cut in the cutting step (S30) through a second processing device (40).

In the finishing step (S50), the profile cut in the cutting step (S30) and the profile formed with a drainage passage in the second processing step (S40) are introduced and transported through the second transport means 50 to construct a finishing material. do.

Accordingly, while moving each step sequentially, groove processing, cutting processing, drainage processing, and finishing processing are performed on the profile.

And it is disposed between the supply step (S10), the first processing step (S20), the cutting step (S30), the second processing step (S40) and the finishing step (S50) to transfer the profile Means 60 are included.

The transfer means 60 is composed of a transfer part 61 and a picker part 62 to transfer the profile.

The conveying part 61 has a guide rail 61a formed on the top, and a sensing means 61b for detecting the profile on the front side.

The picker part 62 is coupled to the guide rail 61a, and fixes and transports the profile located on the front side.

At this time, the picker part 62 is a moving member 63 that is seated on the guide rail 61a and moves in the longitudinal direction, and is coupled to the moving member 63 to be exposed to the front side so that one surface of the profile is in close contact. A contact member 64 and a fixing member 65 that is movably coupled along the longitudinal direction of the contact member 64 to be in close contact with the other surface of the profile and are installed on the contact member 64, and the fixing member ( It consists of a control unit 66 that controls the profile to be fixed by moving 65) along the longitudinal direction of the contact member 64.

That is, when the transfer means 60 detects the profile by the detection means 61b, the picker unit 62 is operated by the control unit 66.

In addition, the picker part 62 moves the fixing member 65 in the longitudinal direction in a state in which one surface of the profile is in close contact with the contact member 64 to be in close contact with the other surface of the profile to be fixed.

In this way, in a state in which the profile is fixed through the contact member 64 and the fixing member 65, the moving member 63 may move the profile by moving in the longitudinal direction along the guide rail 61a.

In addition, the fixing member 65 is controlled by the control unit 66 when the contact member 64 moves in the longitudinal direction, so that the profiles of various sizes having different widths can be easily fixed and moved.

In addition, the picker portion 62 is movable by fixing any one portion along the longitudinal direction of the profile.

Accordingly, the picker unit 62 may be moved by fixing the profiles having different widths of 30 to 370 mm according to a set setting value.

The first transport means (10), the first processing device (20), the cutting device (30), the second processing device (40), the second transport means (50) and the transport means (60) A controller 71 to control is further included.

When the operator inputs a set value, the controller 71 is set and controlled to sequentially perform operations such as processing, cutting, and transferring the profile at each step.

At this time, it is preferable that the controller 71 is provided with an interface through which an operator can input a set value and check the input information.

Through this, each step is controlled by the controller 71, and the operation is performed organically according to the production of the profile.

Next, in each step, the first transport means 10, the first processing device 20, the cutting device 30, the second processing device 40, and the 2 The transportation means 50 will be described in detail.

First, the first transport means 10 and the second transport means 50 have the same configuration, but are arranged at an initial position for sequentially supplying the profile and at a last position to which the profile is supplied. do.

At this time, the arrangement direction of the first transport means 10 and the second transport means 50 is changed according to the inflow direction of the profile.

The first transport means 10 and the second transport means 50 include shelves 11 and 51, transport rails 12 and 52, fixing members 13 and 53, and a first guide plate 14 and 54. ).

Prior to this, since the first transport means 10 and the second transport means 50 have the same configuration, a description will be made through the configuration of the first transport means 10.

The shelf 11 is formed by assembling a frame to be supported on the ground.

A plurality of transfer rails 12 are disposed on the upper surface of the shelf 11 at regular intervals along the column direction of the shelf 11 and are installed in a row direction.

Here, the transfer rail 12 is made of a belt chain, rollers, etc., and moves along a certain path in the row direction.

At this time, it is preferable that the plurality of transfer rails 12 are operated simultaneously.

A plurality of fixing members 13 are disposed at regular intervals along the length direction of the transfer rail 12, and the width of the profile seated in the column direction of the transfer rail 12 is inserted.

The fixing member 13 is formed in a pair on both side surfaces according to the width of the profile, and both side surfaces of the profile are inserted and fixed.

The first guide plate 14 is installed at the end of the shelf 11 so that the end of the profile is in close contact.

Here, the first guide plate 14 is configured to elevate and descend along the height direction of the shelf 11 so that the profile is selectively in close contact or the profile can be moved.

Accordingly, the first guide plate 14 is in close contact with the profile introduced to the end of the shelf, so that the initial starting position can be equally adjusted.

In this way, the profile is seated on the transfer rail 12 in a column direction, and is fixed by the fixing member 13.

In addition, when the transfer rail 12 is moved, the profile can be transferred by moving in the row direction.

Next, the first processing device 20 includes a first table 21, a first fixing means 22, a first processing means 23, and the like so that long grooves, grooves, perforations, etc. can be processed on the conveyed profile. It consists of a second processing means (24).

The first table 21 is provided with a first seating plate 21a on which the rear and lower surfaces of the profile are seated.

The first table 21 is formed by combining frames with each other.

And the first seating plate (21a) consists of a "b"-shaped cross-sectional shape so that the rear and lower surfaces of the profile are seated, and the central part of the first seating plate (21a) is the first processing means (23) and the It is made open so that the four sides of the profile can be processed by the second processing means 24.

The first fixing means 22 are installed on the front and upper surfaces of the first table 21, respectively, and fix the profile to the first mounting plate 21a by intimate contact with the front and upper surfaces.

The first fixing means 22 is installed on the first table 21 so that the profile can be in close contact with the profile through longitudinal movement.

At this time, the first fixing means 22 fixes the profile to the first seating plate 21a through vertical movement at the top of the profile and forward/backward movement at the front of the profile.

The first processing means (23) is installed on the first table (21) so as to be located on the front surface of the first seating plate (21a) and can be moved in the three-axis direction, and at the end, the front and lower surfaces of the profile The first machining blade 25 for machining the groove is rotatably coupled.

The second processing means (24) is installed on the first table (21) so as to be located on the rear surface of the first seating plate (21a) and can be moved in the three-axis direction, and at the ends, the rear and upper surfaces of the profile The first processing blade 25 for processing the groove is rotatably coupled.

In this way, the first processing means 23 and the second processing means 24 have the same configuration, and are located on the front and rear surfaces of the first seating plate 21a, respectively.

At this time, the first processing means 23 and the second processing means 24 are three-axis movement in the front/rear, up/down, and left/right directions, and the first cutting edge 25 is Rotate so that the front/lower surface and the rear/upper surface of the profile can be processed.

And the first fixing means (22), the first processing means (23) and the second processing means (24) are controlled by the controller (71) to set the first profile according to the operator's set value. After fixing to the plate (21a), it operates sequentially so that the groove can be processed according to the set position of the profile.

Through this, through rotation of the first processing blade 25 and movement in the three-axis direction, grooves of various shapes such as long grooves, perforations, grooves, etc. are selectively processed in any part of the profile, and after the finishing material is combined, the bolt, It is made so that it can be fixed using a nut or the like.

Next, the cutting device 30 is composed of a second table 31, a second fixing means 32, and a cutting means 33 so as to cut the end of the profile.

The second table 31 includes a second table 31 provided with a second seating plate 31a on which the rear and lower surfaces of the profile are seated,

The second fixing means 32 are installed on the front and upper surfaces of the second table 31, respectively, and fix the profile to the second seating plate 31a by intimate contact with the front and upper surfaces.

In this case, since the second table 31 and the second fixing means 32 have the same configuration as the first table 21 and the first fixing means 22, detailed descriptions will be omitted.

The cutting means 33 is installed on the second table 31 so as to be located at the rear of the second seating plate 31a, and a cutting blade 37 for cutting the profile by moving and rotating in two axes is fixed. do.

Therefore, the cutting means 33 is composed of a first moving plate 34, a second moving plate 35, and a harmonic drive 36 to enable movement in the three-axis direction according to movement and rotation.

The first moving plate 34 is coupled to the first table 21 in a height adjustable manner.

The second moving plate 35 is coupled to the first moving plate 34 and moves along the width direction of the profile.

The harmonic drive 36 is coupled to the second moving plate 35 and rotates the cutting blade 37 fixed to the end.

That is, the cutting blade 37 is moved up/down by the first moving plate 34, and the front/rear moving in the width direction of the profile by the second moving plate 35 It is made and rotates through the harmonic drive 36, so that a total of three axes can be moved.

And the first moving plate 34, the second moving plate 35, the harmonic drive 36, and the cutting blade 37 are controlled by the controller 71, and the second seating plate 31a Cut the profile fixed to.

In this case, the cutting blade 37 can be changed in various directions through 3-axis movement and rotation to cut the cutting surface of the profile in various directions.

Next, the second processing device 40 is composed of a third table 41, a third fixing means 42, and a drainage processing means 43 so as to process a drainage passage on the rail of the profile.

The third table 41 is provided with a third seating plate 41a on which the front and lower surfaces of the profile are seated.

In this case, it is preferable that the profile of the third table 41 is sized to be stored therein.

In addition, the whole of the cut profile is seated in the third seating plate 41a.

The third fixing means 42 is installed on the upper end of the third table 41 to closely contact the rear surface and the upper surface of the profile to fix it to the third seating plate 41a.

Therefore, the third fixing means 42 is located at the top of the profile and is in close contact with the upper surface of the profile through an up/down movement, and is located at the rear of the profile and is positioned at the rear of the profile. It adheres to the back.

Through this, the front and the lower surfaces of the profile are in close contact with the third seating plate 41a, and the rear and upper surfaces of the profile are in close contact with each other by the third fixing means 42 to fix the four surfaces.

In addition, the third fixing means 42 is coupled to the third table 41 so as to be movable along the longitudinal direction of the profile, and can move in the longitudinal direction while the profile is fixed.

The drainage path processing means 43 is installed on the upper end of the third table 41 and moves in the vertical and longitudinal directions of the profile, and a second processing blade 44 for processing the drainage path is formed on the rail of the profile. do.

Therefore, the drainage path processing means 43 is installed on the third table 41 and moves vertically to adjust the depth to which the second processing blade 44 is inserted from the upper surface of the profile, and moves in the longitudinal direction. Through the processing of the drainage channel to the rail of the profile.

Through this, the drainage processing means 43 may form a flow path through which water is discharged by processing the drainage channel while moving along the length direction after the second processing blade 44 is inserted into the profile.

In addition, a conveyor means 70 selectively installed on the second processing device 40 and the transfer means 60 to move the profile is further included.

The conveyor means 70 is composed of a roller 71, a power molar 72, a belt 73, and a second guide plate 74 so as to move while the profile is seated.

The roller 71 is rotatably coupled to the support 75 at regular intervals, and a belt fastening groove 76 is formed at the other end thereof, and consists of a plurality.

Here, the support 75 is provided with the plurality of rollers 71 and is supported on the ground.

At this time, the support 75 is made of the same height so that the profile can be transferred to the transfer means 60, the first transportation means 10 and the second transportation means 50.

In addition, two or more rollers 71 are formed with belt fastening grooves 76 spaced apart from each other at a predetermined interval, and the belt fastening grooves 76 are formed along the circumference of the roller 71.

One or more power molars 72 are disposed between the plurality of rollers 71 to be rotatably coupled to the support 75, rotate by power, and a belt fastening groove 76 is formed at the other end.

The power molar 72 is rotated by power while installed on the support 75, and is disposed between the rollers 71 so that the roller 71 can be rotated by the power molar 72. And, as an example, it is preferable to be arranged with 4 rollers and 1 power molar.

Through this, the four rollers are rotated by the rotational power of one power molar to move the seated profile in the rotational direction.

The belt 73 is coupled to the belt fastening groove 76 to connect the adjacent two rollers 71, the rollers 71, and the power molar 72.

Accordingly, the belt 73 is coupled to transmit the rotational force of the power molar 72 to the roller 71.

That is, the belt 73 has a circular shape, and is coupled to the belt fastening groove 76 of the roller 71 and the power molar 72 disposed on both sides to transmit rotational force.

The second guide plate 74 is coupled so as to be movable at the end of the support 75 so that the end of the profile is selectively contacted with each other.

Accordingly, the second guide plate 74 can adjust the position of the profile as the end of the profile protruding from the top of the roller 71 through the vertical movement and moving by the roller 71 is in close contact with each other.

This allows the ends of the plurality of profiles to be seated on the conveyor unit 70 to be transferred to the same position, so that the initial position can always be the same when moving through the transfer unit 60 or the like.

In addition, the conveyor means 70 is controlled by the controller 71 to control the moving distance and the moving speed of the profile.

Next, as described above, the profile supply step (S10), the first processing step (S20), the cutting step (S30), the second processing step (S40), and the finishing step (S50) are sequentially performed. The manufacturing process that is processed and cut while moving will be described.

First, in the supply step (S10), a plurality of the profiles are fixed to the first transport means (10).

Therefore, the operator prepares the profile before manufacturing by transporting a plurality of the profiles in the shape of a bar of 3m or more so as to be fixed to the fixing member 13 of the first transport means 10.

Here, in the profile fixed to the first transport means 10, a profile for a window and a window frame is fixed.

At this time, the controller 71 inputs information according to the standard of the profile fixed to the first transport means 10 and a processing set value of the profile according to the required use.

In addition, the profile seated on the first transport means 10 is in close contact with the first guide plate 14 to adjust the initial position at which the movement starts.

That is, the starting positions of the plurality of profiles are adjusted by the first guide plate 14 to move at the same position.

Thereafter, the first transport means 10 is controlled by the controller 71 to sequentially transport the plurality of profiles in the width direction.

As described above, in the first transport means 10, a plurality of the profiles are fixed, and preparation is made by setting the controller 71 according to the standard of the fixed profile.

And the profile conveyed by the first conveying means 10 is sensed by the conveying means 60, and the profile is fixed through the picker part 62, and then the profile along the guide rail 61a. It is conveyed in the longitudinal direction of

Here, the transfer means 60 is input to the controller 71 after fixing the profile through the picker unit 62 using information such as the size of the profile fixed to the first transportation means 10. The guide rail 61a is transferred to the first processing means 23 according to the set value.

At this time, in accordance with the first processing step (S20), the first processing means is controlled by the controller, and the first processing means 23 and the second processing on the four surfaces of the profile moved by the transfer means The groove is machined through means 24

Here, the groove of the profile is formed to perform coupling, fixing, insertion, etc. according to the purpose and design.

In this way, a groove is machined in the profile used for windows/windows in accordance with the set value set in the controller 71 in the bar-shaped profile.

In addition, the profile on which the groove is processed in the first processing step (S20) is moved to the cutting device 30 by the transfer means 60 disposed past the first processing means 23.

Here, the transfer means 60 is controlled by the controller 71 to adjust the length of the profile that is moved to the cutting device 30.

At this time, when the length of the profile is adjusted by the conveying means 60 through the cutting step (S30), the cutting device 30 is controlled to cut the profile.

Here, the cutting device 30 is controlled by the controller 71, and cutting is performed according to the direction, angle, and position of the profile.

Through this, in the cutting step (S30), a length and a cutting surface suitable for use and design of the profile are formed.

In addition, the profile piece generated during cutting by the cutting device 30 is discharged to the outside after falling to the bottom.

In addition, the profile, which has been cut by the cutting device 30, is moved by the transfer means 60 disposed next to the cutting device 30.

That is, the conveying means 60 grasps both sides of the profile before cutting the profile, and is easily transported after cutting.

In this way, the entire length and the cut surface of the profile are cut according to the set values set in the controller 71 to produce a window frame and a profile for windows.

In addition, the cut-off profile is moved to the second transport means 50 or the second processing device 40 by the transfer means 60 and the conveyor means 70.

That is, the profile controlled by the controller 71 and classified according to the position and use of the profile to form a drainage channel moves to the drainage process device 43, and the profile that does not require a drainage channel is the second It is moved to the vehicle 50.

Accordingly, in the second processing step (S40), the profile cut by the cutting device 30 is moved to the drainage channel processing device 43.

Here, the drainage path processing device 43 fixes the profile, and then processes the drainage path along the lengthwise direction of the rail of the profile through the second processing blade 44.

In this way, the profile that needs a drainage channel according to the intended use is moved to the second transportation means 50 after processing the drainage channel, and the profile that does not require a drainage channel is directly moved to the second transportation means 50.

In addition, a finishing operation is performed by combining a finishing material, a reinforcing material, etc. to the profile seated on the second transport means 50 according to the finishing step S50.

That is, additional operations such as coupling and fixing of finishing materials and reinforcing materials, and mohair bonding are performed on the inside and outside of the profile.

Therefore, in the second transport means 50, after the operator couples the reinforcing material to the profile, the reinforcing material and the profile are fixed using a piece through a direct connection piece device.

In addition, by selectively combining the mohair to the profile to which the reinforcing material is bonded, the production of the window profile is completed.

In this way, it is controlled by the controller 71, and the profile is sequentially supplied by the transfer means 60, so that the profile can be manufactured according to an accurate design as groove processing, cutting, and drainage processing are performed. .

As described above, the rights of the present invention are not limited to the embodiments described above, but are defined by what is described in the claims, and various modifications and adaptations within the scope of the rights described in the claims by those of ordinary skill in the field of the present invention It is self-evident that you can do it.

10: first transportation means 11: lathe 12: transfer rail
13: fixing member 14: first guide plate
20: first processing device 21: first table 21a: first seating plate
22: first fixing means 23: first processing means
24: second processing means 25: first processing blade
30: cutting device 31: second table 31a: second seating plate
32: second fixing means 33: cutting means
34: first moving plate 35: second moving plate
36: Harmonic Drive
40: second processing device 41: third table 41a: third seating plate
42: third fixing means 43: drainage processing means
50: second transportation means 51: lathe 52: transfer rail
53: fixing member 54: first guide plate
60: conveying means 61: conveying part 61a: guide rail
61b: sensing means 62: picker portion
63: moving member 64: contact member
65: fixing member 66: control unit
70: conveyor means 71: roller 72: power molar
73: belt 74: second guide plate
75: support 76: belt fastening groove
80: controller

Claims (8)

A supply step (S10) in which a plurality of profiles are mounted on the first transport means (10) and sequentially supply the profiles by the first transport means (10);
A first processing step (S20) of selectively processing a groove on the profile supplied in the supply step (S10) through a first processing device 20 on the slope;
A cutting step (S30) of cutting the profile whose grooves are processed in the first processing step (S20) through a cutting device (30);
A second processing step (S40) of processing a drainage passage on the rail of the profile cut in the cutting step (S30) through a second processing device (40);
The profile cut in the cutting step (S30) and the profile formed with a drainage passage in the second processing step (S40) are introduced into the finishing step (S50) of constructing a finishing material by transporting through the second transport means (50). Done,
The first processing device 20,
A first table 21 on which the rear and lower surfaces of the profile are seated and provided with a first seating plate 21a,
First fixing means (22) installed on the front and upper surfaces of the first table (21), respectively, for fixing the profile to the first seating plate (21a) by intimate contact with the front and upper surfaces;
It is installed on the first table 21 so as to be located on the front surface of the first seating plate 21a and is capable of moving in three axial directions, and at the end, a first processing blade for processing grooves on the front and lower surfaces of the profile ( 25) the first processing means 23 rotatably coupled,
It is installed on the first table 21 so as to be located on the rear surface of the first seating plate 21a and is capable of moving in three axial directions, and at the end, a first processing blade for processing grooves on the rear and upper surfaces of the profile ( 25) is made of a second processing means 24 rotatably coupled,
The first mounting plate (21a) is made of a "b"-shaped cross-sectional shape, the central portion of the first mounting plate (21a) by the first processing means (23) and the second processing means (24) It is made open so that the four sides of the profile can be processed,
The second processing device 40,
A third table 41 having a third seating plate 41a on which the front and lower surfaces of the profile are seated,
A third fixing means (42) installed on the upper end of the third table (41) and fixing the rear surface and the upper surface of the profile to the third seating plate (41a),
A second processing blade installed on the upper end of the third table 41 and moving in the vertical and longitudinal directions of the profile, but moving along the longitudinal direction after being inserted into the profile to process a drainage passage on the rail of the profile ( Method of manufacturing a profile for windows and doors, characterized in that consisting of 44) formed drainage processing means (43).
The method of claim 1,
Transfer means disposed between the supplying step (S10), the first processing step (S20), the cutting step (S30), the second processing step (S40), and the finishing step (S50) to transfer the profile (60) A method of manufacturing a profile for windows and doors, characterized in that it contains. The method of claim 2,
The transfer means 60,
A guide rail 61a is formed on the upper side, and a transfer part 61 on which a sensing means 61b for sensing the profile is formed on the front side,
It is coupled to the guide rail (61a), consisting of a picker portion 62 for fixing and transporting the profile located in the front,
The picker portion 62,
A moving member 63 mounted on the guide rail 61a and moving in the longitudinal direction,
A close contact member 64 that is coupled to the moving member 63 and exposed to the front surface so that one surface of the profile is in close contact with the moving member 63,
A fixing member 65 that is movably coupled along the longitudinal direction of the contact member 64 to be in close contact with the other surface of the profile, and
A profile for windows and doors, characterized in that it is installed on the contact member 64 and comprises a control unit 66 that moves the fixing member 65 along the longitudinal direction of the contact member 64 to fix the profile. Method of manufacturing.
The method of claim 1,
The first transportation means 10 and the second transportation means 50,
Shelves (11,51),
A plurality of transfer rails 12 and 52 disposed at regular intervals along the column direction of the shelves 11 and 51 on the upper surfaces of the shelves 11 and 51 and installed in the row direction,
A plurality of fixing members (13, 53) arranged at regular intervals along the longitudinal direction of the transfer rails (12, 52) and into which the width of the profile seated in the column direction of the transfer rail is inserted,
A method of manufacturing a profile for windows and doors, characterized in that comprising a first guide plate (14,54) installed at the ends of the shelves (11,51) to which the ends of the profile are in close contact.
delete The method of claim 1,
The cutting device 30,
A second table 31 provided with a second seating plate 31a on which the rear and lower surfaces of the profile are seated,
A second fixing means (32) installed on the front and upper surfaces of the second table (31) and fixing the profile to the second seating plate (31a) by intimate contact with the front and upper surfaces;
It is installed on the second table 31 so as to be located at the rear of the second seating plate 31a, and a cutting blade 37 for cutting the profile by moving and rotating in two axes is fixed to the cutting means 33 Done,
The cutting means 33,
A first moving plate 34 coupled to the second table 31 to enable height adjustment,
A second moving plate 35 coupled to the first moving plate 34 and moving along the width direction of the profile,
A method of manufacturing a profile for windows and doors, comprising a harmonic drive (36) coupled to the second moving plate (35) and rotating the cutting blade (37) fixed to an end.
delete The method of claim 2,
A conveyor means 70 selectively installed on the second processing device 40 and the transfer means 60 to move the profile is further included,
The conveyor means 70,
A plurality of rollers 71 rotatably coupled to the support 75 at regular intervals and having a belt fastening groove 76 formed at the other end thereof,
At least one is disposed between the plurality of rollers (71) is rotatably coupled to the support (75), the power molar 72 rotated by power and formed with a belt fastening groove 76 at the other end,
A plurality of belts 73 coupled to the belt fastening groove 76 and connecting the adjacent two rollers 71 and the rollers 71 and the power molar 72,
A method of manufacturing a profile for windows and doors, characterized in that it comprises a second guide plate (74) which is movably coupled at the end of the support (75) so that the end of the profile is in close contact with each other.

Images