KR102619587B1 - Measuring device for length of window upper - Google Patents

Abstract

The present invention relates to a device for measuring the hanging size of the upper part of a window, and the present invention for realizing this includes a horizontal part located at the top of the upper part of the window, a horizontal part located at a right angle to the horizontal part and located on the outer surface of the upper part of the window, and the surface of the window. It is characterized by being comprised of a body consisting of a vertical portion provided with an indicator, and a measuring sphere that is selectively positioned on the display portion of the vertical portion to guide the locking dimension.

Description

{Measuring device for length of window upper}

The present invention relates to a device for measuring the engaging dimension of a window panel, and more specifically, to measure the engaging dimension of the upper part of a window panel that can accurately and easily measure the engaging dimension that allows the window panel to be stably coupled without being unnecessarily separated from the window frame. It's about devices.

In general, windows serve to isolate the indoors from the outdoors and at the same time allow sunlight and fresh air from outside to enter the indoor space, thereby enabling indoor ventilation.

Depending on the opening and closing method, windows include casement windows, non-sliding windows, and lift sliding windows, which use hardware with a lift function to lift and move the window onto a rail when opening and closing.

In these windows, non-slip windows are made up of 2 or 4 pairs of window frames, so when one side is pushed to open, the two pairs overlap. They have excellent soundproofing and thermal insulation performance due to their airtight design, and they adopt block-type rails. It operates by sliding the window pane from the window frame.

However, these non-glazed windows keep the gap between the window frame and the window frame to a minimum in order to improve soundproofing and insulation performance, so if the gap is too small, it may not be easy to remove when the window frame is completely separated from the window frame, such as for moving or cleaning. .

Therefore, while soundproofing and insulation performance are improved, the window frame and window panel require an appropriate locking size so that the window can be easily removed from the window frame when necessary. This locking size is determined by fitting the rail groove at the top of the window panel into the rail of the window frame. This refers to the length from the upper surface of the window panel to the bottom of the rail, which is the overlapping length of the and rail grooves.

On the other hand, if the window frame or window panel is manufactured incorrectly during the window manufacturing process, or if the window panel is incorrectly installed on the window frame during the window construction process, the engaging dimension between the window frame and window panel is not sufficiently secured, and the window panel may be damaged due to strong wind or vibration. There was a problem in that the windows could easily come off and be damaged or cause injuries due to the windows falling off.

Therefore, there is a need to check this locking size during the installation process of windows or when inspecting installed windows. Accordingly, conventionally, workers place the flat side of a ruler, a tool for measuring length, in close contact with the bottom of the rail and then use the ruler on the outer surface of the window. A marking was made on the same line as the horizontal surface, and the length from the upper surface of the window to the marking was measured again to confirm the hanging dimension.

However, measuring the engagement dimension using such a ruler had the problem that the engagement dimension could be measured inaccurately depending on the measurement environment or measurement method, and the measurement process was also not simple and inconvenient.

Republic of Korea Registered Utility Model Publication No. 20-0347416

The present invention was devised to solve the above-mentioned problems, by providing a measuring device that allows workers to easily and accurately measure the locking dimensions of window frames and window frames, thereby accurately measuring the locking dimensions during the installation process of windows or inspection of installed windows. The purpose is to provide a device for measuring the hanging size of the upper part of a window that can double the efficiency of window installation and inspection.

The technical problem to be solved by the present invention does not need to be limited to the technical problem mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the description below. You will be able to.

The device for measuring the hanging size of the upper part of a window according to the present invention for realizing the above-mentioned purpose has a horizontal part located at the top of the upper part of the window, and is located on the outer surface of the upper part of the window at a right angle to the horizontal part, and has a surface It is comprised of a body consisting of a vertical portion provided with a display portion, and a measuring sphere that is selectively positioned on the display portion of the vertical portion to guide the locking dimension.

More preferably, a groove may be formed inward toward the inner edge of the horizontal portion and the vertical portion.

More preferably, the vertical portion may be made of a magnetic material, and the measuring sphere may be made of a magnet.

More preferably, the measuring sphere may be composed of a cylindrical neodymium magnet.

More preferably, a storage groove may be formed in the vertical portion so that the measuring tool can be inserted and stored.

More preferably, a guide groove is formed through the display portion of the vertical portion, and the measuring sphere can be movably installed in the guide groove.

More preferably, the vertical portion may be made of a magnetic material, and the measuring sphere may be made of a magnet.

More preferably, the horizontal portion and the vertical portion may be formed as a plate-shaped unit.

More preferably, the horizontal portion and the vertical portion may be configured individually and rotatably coupled to each other.

More preferably, it may be configured to be coupled to the top of the vertical portion through a hinge in a state where the rear end of the horizontal portion overlaps.

More preferably, a locking groove may be recessed on one side of the vertical portion in the longitudinal direction so that the rotating horizontal portion can be seated and fixed.

The device for measuring the hanging size of the upper part of a window according to the present invention as described above has the following effects.

That is, when measuring the hanging dimensions of a window frame and a window frame using a measuring device consisting of a body and a measuring sphere, the horizontal part of the body is brought into close contact with the upper surface of the window frame, the vertical part of the body is brought into close contact with the outer surface of the window frame, and then the vertical part is moved on the display part. By touching the measuring sphere to the bottom of the rail and checking the value on the display according to the position of the measuring sphere to determine the jamming dimension, the jamming dimension can be measured accurately without error, and the jamming dimension can be measured simply and quickly. This has the effect of further improving measurement efficiency.

In addition, the effects of the present invention described in this way are naturally exerted by the composition of the described contents regardless of whether the inventor is aware of it, so the above-described effects are only a few effects according to the described contents, and all effects recognized or existing by the inventor It should not be accepted as written.

In addition, the effect of the present invention should be further understood by the overall description of the specification, and even if it is not described in explicit sentences, a person skilled in the art in the technical field to which the described content pertains will be able to achieve such effect through this specification. If it is an effect that can be recognized as an effect, it should be viewed as the effect described in this specification.

Figure 1 is a perspective view showing a device for measuring a jamming dimension according to an embodiment of the present invention.
Figure 2 is a perspective view of the main part illustrating a state in which a locking size measuring device is placed at the connection between the window frame and the window panel to measure the locking size according to an embodiment of the present invention.
Figure 3 is a side cross-sectional view of the main part illustrating a state in which a locking size measuring device is placed at the connection between the window frame and the window panel to measure the locking size according to an embodiment of the present invention.
Figure 4 is a front cross-sectional view of the main portion illustrating a state in which a locking size measuring device is placed at the connection portion between the window frame and the window panel to measure the locking size according to an embodiment of the present invention.
Figure 5 is an enlarged view illustrating the contact state between a window frame and a locking dimension measuring device according to an embodiment of the present invention.
Figure 6 is a perspective view of the main part illustrating a locking dimension measuring device according to another embodiment of the present invention.
Figure 7 is a perspective view of the main part illustrating a device for measuring a locking dimension according to another embodiment of the present invention.

Hereinafter, the configuration and operation according to a preferred embodiment of the present invention will be described in detail with reference to the attached drawings.

This is intended to provide a detailed description so that a person skilled in the art of the present invention can easily practice the contents of the present invention, and does not mean that the technical idea and scope of the present invention are limited. .

In addition, when adding reference numerals to components in each drawing, it should be noted that the same components are indicated with the same reference numerals as much as possible even if they are shown in different drawings, taking into account the configuration and operation of the present invention. Therefore, specially defined terms may vary depending on the intention or custom of the user or operator, and the definitions of these terms should be judged based on the content throughout this specification.

First, the device for measuring the catching size of the upper part of a window according to the present invention can be broadly divided into a body consisting of a horizontal part and a vertical part and a measuring sphere located in the vertical part to guide the catching size, and each component is shown in the drawings illustrated below. Looking at it in more detail, it is as follows.

First, the body 100 is,

As illustrated in Figures 1 and 2, a horizontal portion 110 in contact with the upper surface of the window frame 300 is formed on one side so that it can be installed at the upper edge of the window frame 300, and on the other side, the upper part of the window frame 300 is formed. A vertical portion 120 is formed in contact with the outer surface of , and the horizontal portion 110 and the vertical portion 120 are connected to each other to form a right angle.

The horizontal portion 110 and the vertical portion 120 of the body 100 may be configured in a plate shape with a thin thickness and a predetermined width for convenience of carrying and reduction of weight.

On the front upper side of the vertical part 120 of the body 100, a plurality of scales or various symbols or each other are maintained at regular intervals in a predetermined area starting from a point coincident with the line extending from the bottom of the horizontal part 110. A display unit 121 made of different colors, etc. may be provided, and a measuring sphere 200, which will be described later, is selectively positioned on the display unit 121, and the stopping dimension T can be measured through a selected point of the measuring sphere 200. can be judged.

This display unit 121 may be provided not only on the upper front side of the vertical portion 120 but also on the upper rear side of the vertical portion 120, and may be provided together on the upper front and rear sides of the vertical portion 120 and used selectively. .

The vertical portion 120 of the body 100 may be configured to have the same width as the horizontal portion 110, but the vertical portion 120 is wider than the horizontal portion 110 for a stable grip as the worker grips it by hand. It is desirable that it is composed of width.

The body 100 does not need to have a set standard, but as an example, the width of the horizontal part 110 is approximately 8 mm, the length of the horizontal part 110 is approximately 70 mm, and the width of the vertical part 120 is is configured to be approximately 20 mm, and the length of the vertical portion 120 is configured to be approximately 150 mm, thereby improving the operator's portability and convenience of measurement along with the convenience of manufacturing.

Meanwhile, in order to measure the hanging dimension (T), the horizontal part 110 of the body 100 is brought into contact with the upper upper part of the window 400, and the vertical part 120 of the body 100 is placed on the upper outer surface of the window 400. ) must be brought into contact with the inner edge of the body 100 outside the upper edge of the window 400. In this case, the edge of the window 400 is formed by two profiles meeting at an angle and welding, so there is no burr due to welding at the edge. A protruding surface may be formed, and such a burr or protruding surface may interfere with the inner edge of the body 100, preventing the horizontal portion 110 of the body 100 from accurately contacting the upper upper part of the window 400. , the vertical portion 120 of the body 100 may not be in contact with the upper outer surface of the window 400, which may result in inaccurate measurement of the engaging dimension (T).

Therefore, the present invention forms a groove 130 of a predetermined shape that is depressed inward to a predetermined depth at the inner edge formed by the horizontal portion 110 and the vertical portion 120 of the body 100, as illustrated in FIG. 5. By doing so, as described above, even if there are burns or protruding surfaces at the corners of the window 400, the horizontal portion 110 and the vertical portion 120 of the body 100 are in exact contact with the corners of the window 400, so that the engaging dimension (T) Measurements can be made accurately.

The horizontal portion 110 and the vertical portion 120 of the body 100 according to the present invention may be configured as an integrated piece, as illustrated in FIG. 1, and the horizontal portion 110 and the vertical portion 120 may be individually constructed. In this state, the rear end of the horizontal portion 110 and the top of the vertical portion 120 may be coupled to each other so that the horizontal portion 110 and the vertical portion 120 form a right angle.

For example, although not shown in the drawing, when the horizontal part and the vertical part are formed separately, a protrusion is formed at the rear end of the horizontal part, and a protrusion groove is formed at the top of the vertical part so that the protrusion of the horizontal part can be inserted, so that the protrusion and the protrusion groove are formed. Through coupling, the horizontal and vertical parts may be combined to form a right angle.

As another example, for ease of storage and portability of the measuring device, the rear end of the horizontal part and the top of the vertical part may be hinged and coupled so that the horizontal part rotates from the vertical part.

That is, as illustrated in FIG. 6, the upper rear surface of the vertical portion 120a of the body 100a overlaps with the rear upper surface of the horizontal portion 110a, and then they are joined using the hinge 140 to move the horizontal portion from the vertical portion 120a. As the part 110a is configured to be rotatable, when using the measuring device, the horizontal part 110a and the vertical part 120a are spread apart so as to be perpendicular, and when not using the measuring device, the horizontal part 110a is rotated in the opposite direction. By rotating and folding the vertical portion 120a and the horizontal portion 110a in one direction, the body 100a can be conveniently stored or moved.

Here, the horizontal part 110a is preferably rotated within a right angle range when rotated from the vertical part 120a, so for this purpose, a locking groove 123 is formed on the upper surface of the vertical part 120a from the longitudinal outer side to the inner side. The locking groove 123 has a size and shape that can seat and accommodate the rotating horizontal portion 110a, and is formed in a recessed form on the surface of the horizontal portion 110a, so that the inner bottom of the locking groove 123 is formed. The surface of the vertical portion 120a is configured to form a step in the plane.

Therefore, when the horizontal part 110a, which is at a right angle from the vertical part 120a, is rotated downward toward the vertical part 120a, the horizontal part 110a is seated in the locking groove 123 formed in the vertical part 120a, and the vertical part 120a is rotated downward. (120a) It can be caught on a step with the surface and fixed without further rotation.

In addition, it is preferable to form a locking protrusion 124 at the top of the vertical portion 120a to prevent further rotation when the horizontal portion 110a is at a right angle to the vertical portion 120a and is in a horizontal state. .

In addition, in another embodiment, when the horizontal part 110a is rotated from the vertical part 120a, the rotation angle of the horizontal part 110a is limited to a right angle range by an angle limiting protrusion provided on the vertical part 120a, or The facing joint surfaces of the vertical part 120a and the horizontal part 110a may be coupled to each other through the engagement of gears so that the horizontal part 110a can rotate from the vertical part 120a in steps in a right angle range.

The measuring sphere 200 is,

It is located on the display portion 121 in the vertical portion 120 (120a) of the body 100 (100a) described above and serves to guide the engaging dimension (T).

That is, as shown in FIGS. 3 and 4, the horizontal portion 110 is seated on the top of the window 400 with the rail 310 of the window frame 300 inserted into the rail groove 410 of the window 400, The vertical portion 120 is brought into close contact with the upper outer surface of the window 400, and then the measuring sphere 200 is moved on the display portion 121 provided on the vertical portion 120 to come into contact with the lower end of the rail 310. The locking dimension (T) can be determined by separating the body 100 from the window frame 300 and checking the scale of the display unit 121 where the measuring sphere 200 is placed.

Here, the measuring sphere 200 may be configured in various shapes, and is preferably configured in a cylindrical shape so that the point where it meets the bottom of the rail 310 can be clearly determined.

The measuring sphere 200 is made of a magnetic material so that it can be freely moved and fixed on the display part 121 of the vertical part 120, and the measuring sphere 200 is made of a magnet, thereby measuring by magnetic force. The sphere 200 may be configured to be easily attached and detached from the vertical portion 120.

The measuring sphere 200 is preferably made of a cylindrical neodymium magnet so as to have strong magnetic force and not be unnecessarily separated from the vertical portion 120.

The measuring sphere 200 may be stored in the lower part of the vertical portion 120.

That is, as illustrated in FIG. 1, a storage groove 122 of a predetermined shape and size corresponding to the shape of the measuring sphere 200 is formed in the lower part of the vertical portion 120, thereby preventing the use of the measuring sphere 200. In this case, the measuring tool 200 can be stored by inserting it into the storage groove 122.

For example, the storage groove 122 may be recessed to a predetermined depth on the surface of the vertical portion 120 to have a space in which the measuring sphere 200 can be accommodated. The storage groove 122 is another example of the vertical portion 120. It may be in a form that penetrates the surface of (120). In this case, even if the length of the receiving groove 122 is the same or greater than the length of the measuring sphere 200, the width of the receiving groove 122 is that of the measuring sphere 200. It is preferable that the measuring sphere 200, which is smaller than the diameter and is inserted into the storage groove 122, does not unnecessarily penetrate the storage groove 122 and come off.

Meanwhile, as another example in which the measuring sphere 200 can be fixed to the vertical part 120, as illustrated in FIG. 7, an inner and outer surface along the longitudinal direction of the vertical part 120 is formed on the front surface of the upper part of the vertical part 120. A guide groove 125 of a predetermined length penetrating is formed, and the guide groove 125 is formed on the display unit 121, and the measuring sphere 200 is movably connected to this guide groove 125. You may.

That is, the measuring sphere 200 is configured in a cylindrical shape, and the extension portion extending from one side of the cylindrical measuring sphere 200 penetrates the guide groove 125 and is connected to the locking hole 210 located on the back of the guide groove 125. As it is configured to be fixed, the measuring sphere 200 can be moved along the guide groove 125 and the locking dimension (T) can be confirmed through the position of the measuring sphere 200 after the movement has been completed.

Here, the vertical part 120 is made of a magnetic material, and the measuring sphere 200 is made of a magnet, so that the measuring sphere 200, which moves along the guide groove 125, moves through magnetic force to the display part 121 of the vertical part 120. ) can also be configured to be fixed on the top.

In addition, the extension part of the measuring sphere 200 and the engaging part 210 are coupled through a coupling method such as screw fastening, and when the engaging part 210 is separated from the extending part, the measuring sphere 200 is in the guide groove 125. can be separated.

The process of measuring the engaging dimension using the engaging dimension measuring device according to an embodiment of the present invention configured as described above is as follows.

That is, in the window installation process of installing the window 400 on the window frame 300, or in the window inspection process of checking the installation status of the window 400 on the window frame 300 after the installation of the window is completed, the window frame 300 The engaging dimension is the overlapping length between the rail 310 of the window frame 300 and the rail groove 410 of the window 400 to prevent the upper part of the window 400 from being separated unnecessarily from the rail 310 of the window. (T) needs to be checked.

Therefore, when it is necessary to check the engaging dimension (T), the engaging dimension measuring device according to an embodiment of the present invention is used. Looking at the process, as shown in FIG. 2, the inside of the horizontal portion 110 of the body 100 The surface is seated on the front or rear upper surface of the window frame 300 based on the rail groove 410, and the inner surface of the vertical portion 120 is brought into contact with the front or rear outer surface of the window frame 300 to form the window frame 300. Ensure that the outer surface of the front or rear edge of the body 100 and the inner surface of the edge of the body 100 are in close contact with each other.

Thereafter, as shown in FIG. 3, the measuring sphere 200 is moved from the display part 121 of the vertical portion 120 to the bottom of the rail 310 so that the outer circumference of the measuring sphere 200 is in contact with the bottom of the rail 310. While doing so, the measuring sphere 200 is fixed on the display portion 121 of the vertical portion 120.

In such a state, after separating the body 100 from the window frame 300, checking the position of the measuring sphere 200 and the value of the display part 121 corresponding to the display part 121 of the vertical part 120, the window frame 300 and the engaging dimension (T) of the window 400 can be accurately confirmed.

Therefore, in the process of installing the window 400 on the window frame 300, the hanging dimension (T) can be easily and accurately checked to improve the completeness of construction, or the window 400 installed on the window frame 300 after construction is completed. ), the jamming dimension (T) can be easily and accurately checked during the inspection process of the window to check the condition of the window, thereby improving the efficiency of the inspection.

As described above, it goes without saying that the detailed description of the present invention can include descriptions of specific embodiments. Therefore, the scope of the described content need not be limited to the described embodiments, and should be determined by the claims described later as well as equivalents to these claims.

100, 100a: body 110, 110a: horizontal part
120, 120a: vertical portion 121: display portion
122: Storage groove 123: Locking groove
124: Locking jaw 125: Guide groove
130: Groove 140: Hinge
200: measuring hole 210: catching hole
300: window frame 310: rail
400: window 410: rail groove
T: Engagement dimension

Claims (11)

When the rail 310 formed inside the upper part of the window frame 300 is inserted into the rail groove 410 formed at the center of the upper surface of the window 400, from the upper surface of the window 400 to the bottom of the rail 310 In the device for measuring the length of the locking dimension (T),
A horizontal portion 110 placed on the upper surface of the window 400 is integrally formed at a right angle to the horizontal portion 110 and is placed on the outer surface of the upper portion of the window 400, and a display portion 121 is provided on one surface. A plate-shaped body 100 made of a vertical portion 120 of a magnetic material provided with; and
It is made of a cylindrical neodymium magnet and is attached and detachable to the display unit 121 of the vertical portion 120. It touches the bottom of the rail 310 vertically and has a scale when attached to the display unit 121. It includes a measuring sphere (200) for determining the locking dimension (T),
A groove 130 is formed at the inner edge of the horizontal portion 110 and the vertical portion 120 to prevent interference with burrs generated at the upper edge of the window 400,
A device for measuring the hanging size of the upper part of a window, characterized in that a storage groove 122 is formed on the vertical portion 120 so that a portion of the measuring sphere 200 can be fixed and stored in a penetrating state. delete delete delete delete According to claim 1,
A guide groove 125 is formed through the display portion 121 of the vertical portion 120, and the guide groove 125 is installed so that the measuring sphere 200 can move. . delete delete According to claim 1,
A device for measuring the hanging dimension of the upper part of a window, in which the horizontal portion (110a) and the vertical portion (120a) are individually constructed and rotatably coupled to each other. According to clause 9,
A device for measuring the hanging size of the upper part of a window panel, which is coupled to the top of the vertical part (120a) through a hinge (140) with the rear end of the horizontal part (110a) overlapping. According to claim 10,
A device for measuring the locking size of the upper part of a window, wherein a locking groove 123 is recessed on one longitudinal side of the vertical portion 120a so that the rotating horizontal portion 110a can be seated and fixed therein.

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