JP2015511540A - Drainage hole drilling device - Google Patents

Abstract

Provided is a drilling device for a drain hole of a window frame frame. A perforation device for a drain hole of a window frame frame includes a code recognition means for recognizing an identification display corresponding to a barcode or serial number displayed on one side of the window frame frame and outputting a signal corresponding to the recognition result; A control server that receives a signal generated in the recognition means and outputs machining data; and a drain hole punch that drills a drain hole in a rail of the window frame frame under the control of the control server. To do. ADVANTAGE OF THE INVENTION According to this invention, a drain hole can be drilled automatically in a window door frame, and there exists an advantageous effect that a drain hole can be drilled by an automatic process.

Description

  The present invention relates to a drain hole drilling device, and more particularly to an apparatus for automatically drilling a drain hole on one side of a synthetic resin or metal window frame.

  In general, a window door refers to various windows and doors provided in openings such as windows and doorways in order to block the inside of a building from the outside. Door frames can be divided into wooden window frames and metal window frames depending on the materials used. Recently, plastic doors and window frames have been manufactured. In addition, polyvinyl chloride (P.V.C) .) May be made of synthetic resin.

  Polyvinyl chloride (P.V.C.) is a synthetic resin belonging to an organic polymer system produced by treating vinyl chloride with a peroxide catalyst in an aqueous suspension or emulsion. After mixing with agents, stabilizers and pigments, flexible products such as packaging films are manufactured.

  Here, the conventional drilling process of drain holes in the window frame is described. By operating a press or drill machine, the drain hole is processed at the lower part of the window frame of the synthetic resin or metal window frame. did.

  However, in the process according to the conventional technique, the worker has to process the drainage holes while moving the window frame to the processing site one by one, so that the operation speed is reduced and the operation is complicated. there were.

  For this reason, the drain hole is drilled using a single machine, but the standard is automatically recognized for the window frame to be supplied, processing data corresponding to this is generated, and automatic control is performed. Therefore, a drainage hole drilling device that drills drainage holes with high accuracy has been desired.

  The present invention has been devised in view of the above-described problems of the prior art, and its purpose is to automatically recognize the standard for the window frame supplied by one mechanical device. An object of the present invention is to provide a drainage hole drilling device capable of generating machining data corresponding to this and drilling drainage holes with high accuracy by automatic control.

  Another object of the present invention is to provide a drainage hole drilling device capable of drilling a drainage hole by an automatic process.

  In order to achieve the above-described object, the present invention recognizes an identification display corresponding to a bar code or serial number displayed on one side of a window frame, and outputs a signal corresponding to the recognition result. A control server that receives the signal generated by the code recognition means and outputs machining data; and a drain hole punch that drills a drain hole in the rail of the window frame frame under the control of the control server. A window frame frame drainage hole drilling device is provided.

  The drain hole punch 100 is slid in a horizontal direction toward the support members 70a and 70b that support one surface of the rail 210 of the window frame frame 200 and the support members 70a and 70b. Perforating members 80a and 80b having perforation punches 81a and 81b that perforate the drain holes 211 in the direction may be provided.

  The drain hole perforating apparatus of the present invention includes a first transport means 50 for transporting the support member and the perforation punch in the vertical direction, and the support member and the perforation member transported in the vertical direction by the first transport means 50 at the final position. 2nd conveyance means 90a and 90b which convey up and down once again may be provided.

  Each of the first transfer means 50 and the second transfer means 90a and 90b may be either an air cylinder or a hydraulic cylinder.

  The perforating members 80a and 80b include cylindrical transport pipes 82a and 82b, and perforation protrusions 83a and 83b in which perforated punches 81a and 81b that are horizontally engaged with the lower part of the transport pipe are disposed. It may be. The transport pipes 82a and 82b may be slid so as to approach the support pipes 71a and 71b by hydraulic pressure or air pressure supplied from the outside.

  In the drain hole punching device of the present invention, one end is supported by the inner wall of the transfer pipes 82a and 82b, and the other end is supported by the elastic member S supported by the inner walls of the support pipes 71a and 71b. Further, the transport pipes 82a and 82b may be returned to their original positions by the elastic member S.

  Furthermore, the drain hole punching device of the present invention may further include width direction transport means 110a and 110b for moving the support member and the punching member in the rail width direction corresponding to the rail position of the window frame frame. Good.

  As described above, according to the drain hole drilling device of the present invention, the drain hole can be drilled in the window frame using one mechanical device, and the drain hole can be drilled by an unattended automatic process. .

It is a figure which shows the drain hole punch entirely. It is the schematic which shows that the support member and perforation member of a drain hole perforator descend | fall vertically first. It is the schematic which shows that the said supporting member and a piercing member descend | fall vertically to the final position secondary. It is the schematic which shows the state in which the punching member is conveying in the horizontal direction in the state which supported one surface of the rail of the window frame frame to which the support member of the drainage hole puncher was fixed. It is the schematic which shows the state immediately after the drainage hole was drilled by the punching member of the drainage hole puncher. It is sectional drawing which shows the window frame by which the drain hole was pierced. It is a top view which shows the drain hole punch by this invention.

  Specific details of other embodiments are disclosed in the detailed description and drawings.

  Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described in detail with reference to the accompanying drawings.

  However, the present invention is not limited to the embodiments described below, and can be realized in various different forms. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art to which the present invention pertains. The invention is defined only by the claims.

  The same or similar components are denoted by the same reference numerals throughout the specification.

  Hereinafter, a drain hole punch according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

  A drain hole perforator according to a preferred embodiment of the present invention will be described with reference to FIGS.

  FIG. 1 is a view generally showing a drain hole punch, and FIG. 2 is a schematic view showing that a support member and a punch member of the drain hole punch descend primarily vertically. These are the schematics which show the state immediately after the drainage hole was drilled by the punching member of the drainage hole puncher.

  Conventionally, in order to perforate the drain holes in the horizontal direction in the rails of the window frame frame, an operator manually performs the work using a drill or the like after placing the window frame frame on the work table. However, such manual work has different window frame frame specifications, so the position and size of the drain holes are different. As a result, if the operator cannot grasp the exact position and size, a defect occurs. There was a fear.

  Therefore, the present invention has been devised by developing a drainage hole drilling device that automatically drills a drainage hole in a window frame frame. For this purpose, information such as the position and size of the drain holes to be processed in the window frame frame carried into the drain hole punching device needs to be automatically given to the drilling device in advance. Use means such as code or RFID. That is, it has means for recognizing the information of the barcode attached to the window frame frame in advance, and the control unit transmits the information recognized in this way to the control unit, so that the control unit sets the drain hole punching device. Control and drill a drain hole of exact position and size. Since attaching a barcode to a window frame frame, reading out necessary information from the window frame, and the like are well-known techniques, a detailed description thereof will be omitted. A perforating apparatus will be described.

  A drain hole drilling device according to a preferred embodiment of the present invention recognizes an identification display corresponding to a barcode or serial number displayed on one side of a window frame and outputs a signal corresponding to the recognition result. Means, a control server that receives the signal generated in the code recognition means and outputs machining data, and a drain hole punch 100 that drills a drain hole in the rail of the window frame frame under the control of the control server. It is characterized by providing.

  The present invention supplies a window frame frame that requires processing to a drain hole punching device, and automatically recognizes the standard regarding information on the position and size of the drain hole to be processed in the window frame frame. Thus, machining data corresponding to this can be generated, and the drainage holes can be drilled with high precision by automatic control.

  The drain hole punch 100 includes a work table 20 having a pair of guide rods 10 attached to the upper side in the vertical direction, a transport frame 30 that slides up and down along the guide rods 10, and the pair of guides. A first conveying means 50 that is provided on a connecting member 40 that connects the upper ends of the rods 10 and that slides the conveying frame 30, and work frames 60a and 60b that are provided on the conveying frame 30 and slide up and down. And supporting members 70a and 70b that are fixed to the work frames 60a and 60b and support one surface of the rail 210 of the window frame frame 200 placed on the work table 20, and the work frames 60a and 60b. The drain holes 21 are slid in the horizontal direction toward the support members 70a and 70b and horizontally in the horizontal direction with respect to the other surface of the rail 210 on which one surface is supported. Piercing members 80a and 80b having perforation punches 81a and 81b, and second transport means 90a and 90b provided on the transport frame 30 for sliding the work frames 60a and 60b. .

  In the drain hole punch 100, the first transport unit 50 and the second transport units 90a and 90b are preferably either one of an air cylinder or a hydraulic cylinder.

  The support members 70a and 70b of the drain hole punch 100 according to the present invention are components that support the rail in order to drill the drain hole 211 in the side wall of the rail 210 of the window frame frame. Cylindrical support tubes 71a and 71b fixed in the direction, and support protrusions 72a and 72b that are attached to one end of the support tubes 71a and 71b in a vertical direction and support one surface of the rail 210. It is preferable to provide (refer FIG. 4).

  Further, the perforating members 80a and 80b of the drain hole perforator 100 according to the present invention are formed by the perforating punches 81a and 81b sliding in the horizontal direction while the support members 70a and 70b support one surface of the rail 210. A drain hole 211 is drilled in the rail 210.

  That is, cylindrical conveyance pipes 82a and 82b that are slid in the horizontal direction with respect to the work frame 60, and perforation protrusions 83a and 83b provided with perforation punches 81a and 81b that are attached to the lower ends of the conveyance pipes in the horizontal direction. (See FIG. 4).

  Here, the transport pipes 82a and 82b are preferably configured to slide so as to approach the support pipes 71a and 71b by hydraulic pressure or air pressure supplied from the outside, and one end portion of the transport pipes 82a and 82b is transport pipe 82a, 82b is further provided with an elastic member S that is supported by the inner wall of 82b and whose other end is supported by the inner walls of the support pipes 71a and 71b. By returning to the original position by the elastic force of the elastic member S, it becomes possible to drill another drain hole 211 on the other surface of the other rail 210 that is continuously conveyed.

  Hereinafter, a process of drilling the drain holes 211 in the rails 210 of the window frame frame 200 using the drain hole punch 100 according to an embodiment of the present invention will be described in detail with reference to FIGS.

  FIG. 2 is a schematic view showing that the support member and the perforation member of the drain hole perforator are vertically lowered vertically, and FIG. 3 is a view where the support member and the perforation member are secondarily perpendicular to the final position. FIG. 4 is a schematic view showing that the perforation member is being transported in the horizontal direction in a state where one surface of the rail of the window frame frame to which the support member of the drain hole perforator is fixed is supported. It is the schematic which shows a state.

  FIG. 5 is a schematic view showing a state immediately after the drainage hole is drilled by the punching member of the drainage hole puncher, and FIG. 6 is a cross-sectional view showing the window frame in which the drainage hole is drilled. FIG. 7 is a plan view showing a drain hole punch according to the present invention.

  First, referring to FIG. 2, first, a window frame frame 200 to be processed for drilling a drain hole 211 on the upper surface of the work table 20 is moved to a predetermined position. At this time, the window frame frame 200 may be firmly supported during machining using a separate fixing means (not shown). With the window frame 200 being disposed at a predetermined position on the work table 20, the transport frame 30 is primarily lowered by the first transport means 50 (see FIG. 2), and the second transport means 90a, 90b. To lower the work frame 60 again to the final position (see FIG. 3).

  2 and 3, after the transport frame 30 is first lowered by the first transport means 50, the work frame 60 is lowered again to the final position by the second transport means 90 a and 90 b, so that Although the lowering to the final position with high accuracy is intended, the first conveyance unit 50 may be configured and controlled so that the conveyance frame 30 reaches the final position at one time.

  As shown in FIGS. 3 and 4, when the work frame 60 has reached the final position, the drain hole 211 can be immediately drilled on the other surface of the rail 210 as long as the punching punches 81 a and 81 b slide. Descends to the maximum.

  Next, as shown in FIGS. 4 and 5, with the support members 70 a and 70 b supporting one surface of the rail 210, the transfer pipe 82 a and the transfer pipe 82 a, are supplied by hydraulic pressure or air pressure supplied from the outside through the inflow hole H. 82b is slid so as to approach the support pipes 71a and 71b while being pushed in one direction (right direction in the figure), and the punching punches 81a and 81b attached to the punching protrusions 83a and 83b move to the rail. A drain hole 211 is formed in 210.

  In FIG. 5, an unexplained symbol O is an airtight O-ring.

  Here, it has been shown that the transport pipes 82a and 82b are transported by hydraulic pressure or air pressure supplied from the outside through the inflow hole H, but the rotation shaft of the motor is operated by the rotational force of the motor. A pinion is disposed on the outer peripheral surface of the transport pipes 82a and 82b, and the racks and pinions are operated so that the transport pipes 82a and 82b are slid. May be.

  In addition, the conveyance frame 30 and the work frame 60 have been shown to move down by being slid by an air cylinder or a hydraulic cylinder, respectively. You may comprise so that the flame | frame 60 may be slid.

  Finally, when the drainage hole 211 has been drilled on the other surface of the rail 210 as described above, when the hydraulic pressure or air pressure supplied from the outside through the inflow hole H is released, one end is conveyed. The inner walls of the transfer pipes 82a and 82b receive elastic force by the elastic member S supported by the inner walls of the pipes 82a and 82b and the other end of the pipes 82a and 82b. The tubes 82a and 82b return to their original positions.

  Furthermore, with reference to FIG. 6, the window frame 200 in which the drain holes 211 are perforated will be described. In general, the window frame frame 200 has the same cross-sectional shape in the longitudinal direction. A waterstop claw 220 is disposed in the longitudinal direction on the outermost wall on the indoor side, and an insect repellent net is disposed on the outermost wall on the outdoor side. Insect net rails 230 are provided, and a plurality of rails 210 are provided between the waterstop claws 220 and the insect net rails 230.

  Since a large number of rails 210 are provided in this manner, the drain holes 211 must be drilled in each rail 210. Therefore, a large number of support members 70a and 70b and a large number of drilling members 80a and 80b corresponding to these support members 70a and 70b. And the plurality of perforating members 80a and 80b may be simultaneously operated to simultaneously perforate the drain holes 211 in the respective rails 210, and the respective perforating members 80a and 80b may be sequentially operated to Alternatively, the drain holes 211 may be sequentially drilled in the rail 210.

  In addition, since the standards differ depending on each window frame frame 200, the position in the width direction of the rail 210 on the work table on which the drain hole 211 is drilled differs, and the support members 70a and 70b and the drilling member 80a in the width direction. , 80b may be provided with separate conveying means 110a, 110b in the width direction (see FIG. 1).

  That is, by driving the conveying means 110 and 110b in the width direction, the work frames 60a and 60b, the support members 70a and 70b, and the perforating members 80a and 80b are slid, whereby the rail 210 on the work table. The drain hole 211 is accurately drilled so as to correspond to the width direction.

  In FIG. 7, unexplained symbol R is a transport roller that transports the window frame frame 200 in the longitudinal direction while supporting the window frame frame 200 from below. The window frame is carried into the drain hole punching apparatus of the present invention by the transport roller, and is transported for the subsequent process in a state where the drain hole is drilled.

  Those having ordinary knowledge in the technical field to which the present invention pertains can understand that the present invention can be implemented in different specific forms without changing the technical idea or essential features thereof. .

10: guide bar 20: work table 30: transport frame 40: connecting member 50: first transport means 60a, 60b: work frame 70a, 70b: support member 80a, 80b: punching member 81a, 81b: punching punch 90a, 90b: Second conveying means 100: Drain perforator 110a, 110b: Width direction conveying means 200: Window frame frame 210: Rail 211: Drain hole O: Airtight O-ring R: Conveying roller S: Elastic member

Claims (8)

Code recognition means for recognizing the identification display corresponding to the barcode or serial number displayed on one side of the window frame and outputting a signal corresponding to the recognition result;
A control server that receives the signal generated in the code recognition means and outputs machining data;
A drain hole punch for punching a drain hole in the rail of the window frame frame under the control of the control server;
A drainage hole drilling device for a window frame frame, comprising: The drain hole perforator (100)
Support members (70a, 70b) for supporting one surface of the rail (210) of the window frame frame (200);
Perforating members (80a, 80b) having perforated punches (81a, 81b) that are slid horizontally toward the support members (70a, 70b) and that perforate drain holes (211) horizontally in the rail (210). )When,
The apparatus for punching a drain hole of a window frame frame according to claim 1. First conveying means (50) for conveying the support member and the perforated punch in the vertical direction;
Second transport means (90a, 90b) for transporting the supporting member and the punching member transported in the vertical direction by the first transport means (50) in the vertical direction again to the final position;
The perforation device for drainage holes of the window frame frame according to claim 2, comprising: The first conveying means (50) and the second conveying means (90a, 90b)
3. The apparatus for punching a drain hole of a window frame frame according to claim 2, wherein each of the holes is an air cylinder or a hydraulic cylinder. The perforating members (80a, 80b)
Cylindrical transport pipes (82a, 82b);
Perforation protrusions (83a, 83b) provided with perforation punches (81a, 81b) engaged horizontally in the lower part of the transport pipe;
The perforation device for drainage holes of the window frame frame according to claim 2, comprising:   6. The drainage of the window frame according to claim 5, wherein the transport pipes (82 a, 82 b) are slid so as to approach the support pipes (71 a, 71 b) by hydraulic pressure or air pressure supplied from the outside. Hole drilling device. One end is further provided with an elastic member (S) supported by the inner wall of the transfer pipe (82a, 82b) and the other end is supported by the inner wall of the support pipe (71a, 71b),
The apparatus for punching a drain hole of a window frame frame according to claim 6, wherein the transport pipe (82a, 82b) is returned to its original position by the elastic member (S).   The window frame according to claim 2, further comprising width direction conveying means (110a, 110b) for moving the support member and the punching member in the width direction of the rail corresponding to the rail position of the window frame frame. Frame drain hole punching device.

Images