KR20220068738A - Frame corner portion assemble structure of undeformed - Google Patents

Abstract

The present invention relates to a joint structure of an undeformed frame corner portion, which comprises: a guide connector (110) having guide pieces (111) formed symmetrically for accommodating a corner angle of a frame (1), wherein end portions of the guide pieces (111) are bent to form guide inclined grooves (112) respectively; and a pressurizing connector (120) having pressurizing pieces (121) which come in close contact with and are fixed to the guide pieces (111) of the guide connector (110), wherein both sides of the pressurizing pieces (121) are bent to form pressurizing inclined protrusion units (122) respectively which are to be inserted into the guide inclined grooves (112) of the guide pieces (111). The pressurizing connector (120) has support end portions (125) formed inclinedly at both sides thereof, wherein the support end portions (125) are pressed in a path of the frame (1) and have pressurizing screw holes (124) in the center thereof and a pressurizing bolt (123) passing through the pressurizing screw hole (124) is disposed to pressurize a support groove (113) of the guide connector (110). Therefore, the pressurizing inclined protrusion unit of the pressurizing piece is expanded in the path of the frame while passing through the guide inclined groove of the guide piece, thereby pressing the support end portion in to maintain a firm state of engagement, so that a complete state of joint can be continuously maintained. Accordingly, an assembling process can be simplified to enhance work efficiency and maximize assembling strength, thereby continuously maintaining the complete state of joint.

Description

Frame corner portion assemble structure of undeformed

The present invention relates to a non-deformation frame corner coupling structure, and more particularly, to a non-deformation frame corner coupling structure that enables simple, strong and efficient connection of a window frame or corner portion of a window.

In general, a window plays a role of letting outside light into the room and a role of properly ventilating the indoor air by introducing outside air. play a role in maintaining

Looking at the basic structure of such a window, a window frame divided into a vertical frame and a horizontal frame is connected to each other to form a frame, and the window frame is composed of a glass window coupled to the window frame.

And window frames are mainly products that have a 90° corner joint between vertical and horizontal frames. In various houses, apartments, officetels, shopping malls, offices, etc., a number of windows for the purpose of passage and ventilation and lighting are installed between the rooms. It is common to have a glass door to separate the veranda from the kitchen and utility room.

Such a window or glass door forms an installation space of a certain height on the wall, constructs a window frame having a rail on the inner wall of the installation space, and includes a plurality of window panes sliding along the rail inside the window frame. is the most common structure.

In recent years, it is common to extrude aluminum in the case of windows, cut the extruded aluminum profile, process it into a vertical frame and a horizontal frame, and assemble each corner of the vertical frame and horizontal frame to complete a rectangular frame shape.

The corner joint method is mainly used by welding and fitting using corner brackets. The welding method cuts the ends of the horizontal and vertical frames constituting the double window at a 45° angle and cuts the cut part at a 90° angle. This welding method involves many work processes and has the inconvenience of re-polishing the welding surface after welding.

Therefore, although the method of inserting the corner brackets is widely used, it is also a case of inserting the corner brackets into the horizontal and vertical frames and then using a strong external force to crush a part of the horizontal and vertical frames so that the corner brackets are integrated with each other. As the assembly is made as much as possible, a separate clamping process is required, and when this clamping process is performed, there is a disadvantage that a gap is usually generated in the assembly part, and a work of filling the gap with silicone or the like must be performed.

In the prior art, as disclosed in Korean Patent Registration No. 10-1387318 (public notice date 20140418), a corner piece of a metal material is respectively inserted to couple the corner parts of the first window frame and the first window frame, and the first window frame and It has a structure in which angles of a metal material are respectively inserted to reinforce the coupling of the corner portions of the first window frame.

However, since the structure of the corner piece is complicated and a separate angle needs to be installed, not only the working time is rather long but also the clamping work is inevitably required.

In addition, Korean Patent Application Laid-Open No. 10-2013-0093277, 'Corner coupling structure of frame part for windows', allows the manufacture of windows and doors of various shapes using a bracket that can be rotated to allow angle adjustment.

In addition, Korea Patent Publication No. 10-0719619, 'Combination structure of reinforced core material for frame for PVC windows', in order to manufacture lightweight windows, frames for windows and doors are made of PVC material, , to prevent the lightweight PVC frame from being bent by external forces.

However, since the conventional coupling structure of the frame for windows including the prior art applies a bolting coupling method using bolts and pieces to combine the frame, the bracket, and the reinforcing core, a hole for bolting is formed. There is a problem in that the aesthetics is deteriorated along with the decrease in productivity due to the bolting process, such as the process of doing so.

Therefore, the main object of the present invention is to simplify the assembly process to improve work efficiency as well as to improve assembly strength so that a firm and perfect bonding state can be continuously maintained. is to provide

In order to achieve the above object, the non-deformation frame corner coupling structure of the present invention includes a guide connector in which a guide piece is symmetrically formed to accommodate the corner angle of the frame, but the end of the guide piece is bent to form a guide inclined groove, respectively; It is composed of a pressure coupler in which the pressing piece is fixed in close contact with the guide piece of the guide connector, and both sides of the pressure piece are bent to form pressure inclined protrusions to be inserted into the guide inclined groove of the guide piece, wherein the pressure connector is inclined at the support end on both sides. Formed so that the support end is inserted into the passage of the frame, a pressure screw hole is drilled in the center and a pressure bolt for screwing the pressure screw hole is provided to press the support groove of the guide connector, thereby firmly maintaining the fastening state It is a basic feature in terms of its technical configuration to be configured so that it can be

Therefore, in the non-deformation frame corner coupling structure of the present invention, when the corner connectors are inserted into the guide passages of the frame, respectively, and the pressure connectors are coupled to the guide connectors while pressing the pressure bolts, the pressure inclination of the pressing pieces into the guide inclined grooves of the guide pieces. As the protrusion comes out, it expands in the passage of the frame and at the same time, the support end is press-fitted to maintain a solid jamming state, so that the perfect bonding state can be continuously maintained. It has the effect of continuously maintaining the perfect bonding state by maximizing the

1 is a perspective view showing a coupling state of one side of a non-deformation frame corner coupling structure according to the present invention.
Figure 2 is a perspective view showing one side of the coupling structure of the non-deformation frame corner coupling structure cut away according to the present invention.
Figure 3 is a side view showing a coupling state of one side of the non-deformation frame corner portion coupling structure according to the present invention.
Figure 4 is a cross-sectional view showing the coupling state of both sides of the non-deformation frame corner portion coupling structure according to the present invention.
5 is a front view showing a corner connector of a non-deformation frame corner coupling structure according to the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 5, the non-deformation frame corner coupling structure of the present invention forms the guide piece 111 symmetrically to accommodate the corner angle of the frame 1, but bends the end of the guide piece 111 The guide connector 110 in which the guide inclined groove 112 is formed, respectively, and the pressure piece 121 are fixed in close contact with the guide piece 111 of the guide connector 110, and the pressure piece is pressed to the end of the pressure piece 121. It is composed of a pressure connector 120 inserted into the guide inclined groove 112 of the guide piece 111 by forming the inclined protrusion 122 .

The guide connector 110 is made of an aluminum material and symmetrically forms the guide piece 111 to accommodate the corner angle of the frame 1, and forms an elastic groove 114 inside the guide piece 111 of the symmetrical center. It is ideal to form the support groove 113 outside the center of symmetry.

In addition, it is preferable that the guide piece 111 forms elastic bent portions 115 at both ends, respectively, and the guide inclined grooves 112 are formed in an outward direction, respectively.

Furthermore, the guide connector 110 forms a reinforcing block 116 accommodating it according to the size of the guide passage 10 of the frame 1 on the guide piece 111, but the reinforcing block 116 is formed inside the center of symmetry It is preferable to do

The pressure connector 120 is inserted into the guide inclined groove 112 of the guide piece 111 by forming a pressure inclined protrusion 122, but drilling a pressure screw hole 124 in the center and provided with a pressure bolt 123, Since the end of the pressure bolt 123 advances to the support groove 113 of the guide connector 110 by penetrating the pressure screw hole 124 to press the guide connector 110, the guide inclined groove 112 of the guide piece 111 ), when the pressure inclined protrusion 122 inserted into the exiting part comes out, the width of the guide connector 110 and the pressure connector 120 is widened, and at the same time, the support end 125 of the pressure connector 120 is inserted into the passage of the frame (1). (10) It is preferable to insert it into the inner circumferential surface to maintain a solid fixed state.

Moreover, since the support end 125 of both sides of the pressure connector 120 is formed to be inclined so that the support end 125 is fastened to the passage 10 of the frame 1 in a barb shape, it is ideal to obtain a strong support force. .

Here, the pressure connector 120 is formed of a stainless steel (SUS - Special Use Steel) material that does not generate elasticity or deformation, and the distance between the guide connector 110 made of aluminum is widened to increase the distance between the guide connector 110 and the pressure connector 120 . It is preferable to expand the width of the pole so that it can be firmly coupled.

In addition, it is ideal to use a range bolt as the pressure bolt 123 .

The operation of the present invention will be described as follows.

The frame (1) for windows and doors is cut at 45 degrees and groove processing is performed so that the corner connector 100 and the pressure bolt 123 can be easily fastened from the outside.

When the grooving is completed, the guide piece 111 and the pressure piece 121, which are in the temporary coupling state of the corner connector 100, are inserted into the guide passage 10 of the frame 1, respectively, so that the frames 1 on both sides form a right angle. concatenated to achieve

Here, the pressing bolt 123 screwed with the pressing screw hole 124 of the pressing connector 120 of the corner connector 100 is advanced to the support groove 113 of the guide connector 110 to press the guide connector 110 and pressurize it. When the connector 120 is spaced apart, the pressure inclined protrusion 122 of the pressure connector 120 exits the guide inclined groove 112 of the guide connector 110 and expands as the width expands to maintain a solid support state. .

Moreover, the pressure inclined protrusion 122 of the pressure connector 120 inserted into the guide inclined groove 112 of the guide connector 110 also exits, and the inclined support end 125 is the passage 10 of the frame 1 at the same time. ) to induce a stronger support state, so that the perfect bonding state can be continuously maintained.

Although the present invention has been shown and described in relation to specific embodiments in the above description, it is common knowledge in the art that various modifications and changes are possible without departing from the spirit and scope of the invention as defined by the claims. Anyone who has it will know it easily.

1: frame 10: guide passage
100: corner connector 110: guide connector
111: guide piece 112: guide inclined groove
113: support groove 114: elastic groove
115: elastic bent part 116: reinforcing block
120: pressure connector 121: pressure piece
122: pressure inclined projection 123: pressure bolt
124: pressure screw hole 125: support end

Claims (3)

A guide connector 110 in which the guide piece 111 is symmetrically formed to accommodate the corner angle of the frame 1, but the end of the guide piece 111 is bent to form a guide inclined groove 112, respectively;
The pressing piece 121 is fixed in close contact with the guide piece 111 of the guide connector 110 , and both sides of the pressure piece 121 are bent to insert the pressure slope into the guide inclined groove 112 of the guide piece 111 . It consists of a pressure connector 120 in which each of the protrusions 122 is formed,
The pressure connector 120 forms the support end 125 inclined on both sides so that the support end 125 is press-fitted into the passage 10 of the frame 1, but the pressure screw hole 124 is drilled in the center and pressurized. A non-deformation-free frame corner coupling structure, characterized in that it has a pressing bolt 123 penetrating through the screw hole 124 and configured to press the support groove 113 of the guide connector 110. Frame corner joint structure.
The method of claim 1,
The guide connector 110 forms an elastic groove 114 on the inside of the center of symmetry of the guide piece 111 and embeds the support groove 113 on the outside of the center of symmetry to form an integral body, but at least one guide piece 111 Non-deformation frame corner portion coupling structure, characterized in that configured by forming an elastic bent portion (115).
The method of claim 1,
The material of the guide connector 110 is made of aluminum, and the material of the pressure connector 120 is made of stainless steel.

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