KR101560226B1

KR101560226B1 - T block for window frame within auto balancing

Info

Publication number: KR101560226B1
Application number: KR1020150079306A
Authority: KR
Inventors: 황석진
Original assignee: (주)태양광창호
Priority date: 2015-06-04
Filing date: 2015-06-04
Publication date: 2015-10-14

Abstract

The present invention relates to a window, and more particularly, to a window, which is installed in a window and is inserted into a window without using a fixing means such as a bolt to block dust, noise and rainwater from the outside from entering the room, And to minimize the heat loss, thereby realizing an auto-balancing function.
Conventionally, the mohair is inserted into the lower part of the window frame to block foreign substances such as dust from entering into the room. However, since it is possible to block foreign substances such as the US from entering the room to some extent, The present invention provides a vacuum cleaner having a mounting portion fixed to an upper surface of a window frame, a support portion having a compartment structure in which an insertion groove is formed so that the mohair can be coupled to both sides of the upper portion, Wherein the lower end of the attachment portion is formed by a structure of a superimposed light beam having a wide upper side and a narrower lower side, And the lower end of the attachment portion has a first contact end or a round And an elastic member is inserted and coupled between the inner side surface of the rail and the outer side surface of the support portion, wherein one side of the elastic member is fixed to the inner side of the rail And the other side of which is provided with a plurality of wave protrusions so as to be pressed against the outer surface of the support part; A plurality of buffer parts forming a hollow space at the center so as to buffer the pressure generated between the rail and the support part; And a seating part formed in a flat surface so as to be able to be seated on the upper surface of the attachment part. The present invention proposes a window teablock in which an auto-balancing function is implemented.
In the present invention, foreign matter such as dust, rain, noise and the like are prevented from flowing into the room from the outside by the mohair contacting the outer surface of the window frame to the teblock coupled between the rails of the window frame, And the like. In addition, the teblock can be easily inserted into the rails by the attaching portion having the upper light blocking structure, and the teblock is inserted and fixed by forming the step on the lower both sides of the window frame. By positioning the teblock as a center, it is possible to compensate for the poor airtightness due to the position non-conformity. In addition, it is possible to prevent the teblock from being twisted by forming a double compartment structure constituting a support portion and to form a drain hole for discharging water or overflowing water caused by condensation from the inside of the window frame to the divided second compartment, Drainage ability can be satisfied at the same time.

Description

T block for window frame within auto balancing.

The present invention relates to a window, and more particularly, to a window, which is installed in a window and inserted into a window without using fixing means such as a bolt to prevent dust, noise and rainwater from entering the room from entering the room, And to minimize the heat loss, thereby realizing an auto-balancing function.

1, a window frame 11 is slidably seated on a plurality of rails 10a formed on an upper side of a window frame 10. The window 11 is slidably mounted on a lower side of the rail 10a, And a mohair 13 for preventing dust or the like from entering the room from the outside is formed on both inner side surfaces of the receiving groove 12 Respectively.

Therefore, when the window frame 11 is opened and closed while sliding, the front end of the mohair 13 provided inside the receiving groove 12 is brought into contact with both sides of the rail 10a to be conveyed, .

However, such a conventional structure has a problem that foreign substances such as dust can be prevented to some extent from entering into the room, but is introduced into the room without blocking rainwater or noise.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide an air conditioner which is installed in a window and is inserted into a window without using fixing means such as a bolt, And an object of the present invention is to provide a window teablock in which an auto-balancing function is realized so that heat loss can be minimized by performing heat insulation during cooling and heating.

The present invention provides an automotive teablock having an attachment portion fixed to an upper surface of a window frame, a supporting portion having an insertion groove formed at both sides of the upper portion to allow the mohair to be engaged and having a compartment structure, Wherein a lower end of the attachment portion is formed by a top-down structure having a wide upper side and an inverted trapezoid with a narrow lower side, Wherein the lower end of the attachment portion is formed of any one of a first contact end in which the obliquely formed side faces a straight line or a second contact end in a round phase or a third contact end in a multi-stage round phase, And an elastic member is inserted and coupled between the outer surface of the support and the outer surface of the support, and the elastic member can be pressed on the inner surface of the rail at one side and the outer surface of the support at the other side A plurality of corrugated protrusions; A plurality of buffer parts forming a hollow space at the center so as to buffer the pressure generated between the rail and the support part; And a seat portion that is formed in a flat surface so as to be seated on an upper surface of the attachment portion.

In the present invention, foreign matter such as dust, rain, noise and the like are prevented from flowing into the room from the outside by the mohair contacting the outer surface of the window frame to the teblock coupled between the rails of the window frame, And the like.

In addition, the teblock can be easily inserted into the rails by the attaching portion having the upper light blocking structure, and the teblock is inserted and fixed by forming the step on the lower both sides of the window frame. By positioning the teblock as a center, it is possible to compensate for the poor airtightness due to the position non-conformity.

In addition, it is possible to prevent the teblock from being twisted by forming a double compartment structure constituting the supporting part, and to form a drain hole for discharging water or overflowing water caused by condensation from the inside of the window frame to the second compartment Drainage ability can be satisfied at the same time.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an assembled cross-sectional view schematically showing a conventional window block,
FIG. 2 is a perspective view of a window tee block in which an auto-balancing function is implemented,
Figures 3A-3 schematically illustrate various embodiments of teblocks,
Figures 4a and 4b are views of the window frame in a combined or disengaged state,
5A and 5B are views schematically showing that the teablock of the present invention is pressurized and installed on the rails provided on the rails,
6A to 6C schematically show a teblock fixed by an elastic member;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, a window tee block having an auto-balancing function according to the present invention includes an attachment portion fixed to an upper surface of a window frame, a support portion having insertion grooves formed at both sides of the window to allow the mohair to be engaged, And a head portion constituting an upper surface, and is installed for windshield, waterproofing and soundproofing.

At this time, the attachment portion 21 is formed so as to be pressed and inserted into the rails 41 and 42 without using a separate fixing means, and the lower end thereof is formed with a structure of upper light lower The lower side becomes a narrow inverted trapezoid.

Such an overhead contraction structure is proposed in the prior art in order to prevent lifting phenomenon occurring in a window block when the corner of the window frame is not neatly finished.

3A to 3C, the lower end of the attachment portion 21 may include a first contact end 21a having a sloped side surface formed in a straight line, 2 contact end 21b or a third contact end 21c forming a multi-stage round shape.

This is because when the window teablock of the present invention is coupled to the rails 41 and 42 without using any other fixing means, the tip of the attachment portion 21 is formed in a step formed on both lower sides of the rails 41 and 42 (43).

That is, because of the characteristics of the window work site, when the unexpected force is applied for quick operation or when the teblock is cured in winter, there is a high possibility that the tip of the attachment portion 21 is broken. Therefore, A plurality of embodiments are added such as a first contact end 21a in which the obliquely formed side is in a straight line or a second contact end 21b in a round shape or a third contact end 21c in a multi-step round shape.

As described above, since the present invention does not use a bolt for fixing, it is possible to reduce the height of a rail that can be generated when a hole is formed in the inner lower portion of the rail in the conventional product and the fixing member is fixed to the windshield member Side leakage can be prevented at the source.

The compartment structure of the support part 22 is composed of a first compartment 22a and a second compartment 22b which are formed so as to increase the resistance to lateral pressure and to increase the heat insulation effect. The second compartment 22b has drainability A drainage hole (not shown) for discharging moisture or rainwater caused by condensation or rain water over the inside of the window frame is formed. The air that has flown into the drain hole normally remains in the second compartment 22b and the upward movement is blocked, thereby improving airtightness.

In particular, the first compartment 22a and the second compartment 22b are formed in the shape of an empty tube on the inside as shown in FIG. 3D according to an embodiment of the present invention, It can be configured to be slidingly inserted and coupled.

In order to prevent the lower surface adhesion of the teblock 20 according to the present invention from being lowered due to a molding error occurring in the manufacturing process, the lower end of the attachment portion 21 is located at the upper end of the upper light- It is preferable to form a reverse trapezoid having a wide upper side and a narrower lower side. The attaching portion of the upper light blocking structure is tightly contacted with the lower surface between the rails 41 and 42 to improve airtightness.

5A and 5B, when the tieblock 20 is installed in a manner that the tieblock 20 is inserted and fixed by forming a step on both sides of the lower side of the rails 41 and 42 according to another embodiment of the present invention , The attachment portion 21 having the above-mentioned upper light blocking structure is inserted while being stepped over, so that a separate attachment means is not required.

At this time, if the teblock 20 is twisted to one side from the center, a gap is formed to degrade the airtightness. However, since the present invention is combined without attaching means, an autobalancing function It is possible to compensate for the poor airtightness due to the positional incompatibility.

4A and 4B, the present invention is characterized in that the mohair 30 is inserted into the insertion grooves 23 and 24 formed on both sides of the support portion 22 of the window teablock 20, And is fixed between the rails 41 and 42 of the window frame 40, the installation is completed.

The mohair 30 provided in the upper insertion slots 23 and 24 of the support portion 22 of the teblock 20 is fixed to the outer side of the window frames 50 and 51 coupled to the rails 41 and 42 Thereby preventing foreign matter such as dust from entering the room from the outside.

In addition, the window frames 50 and 51 are configured such that foreign substances are prevented from being primarily introduced by the mohair 50a and 51a in contact with the rails 41 and 42, The foreign matter or rainwater is prevented from being introduced into the room from the outside by the mohair 30 and the front end of the mohair 30 is attached to the outer side of the window frames 50, The interference with the sliding movement of the window frames 50 and 51 does not occur, so that the operability due to the sliding of the window frames 50 and 51 does not deteriorate.

In this case, since the conventional window block has a rectangular head structure, there is a problem that a latching phenomenon occurs at the time of assembly, or the head portion 27 at the uppermost end is broken and the airtightness is significantly lowered. To prevent this, The head portion 27 is formed to have a round structure so that the window frame coupled to the teblock 20 can ride over without damaging the top portion of the teblock 20.

That is, it is preferable that the head portion 26 is formed so that both sides of the window frame are inclined so as to form a constant angle of alpha ° and beta ° so that the window frame is easy to ride on, and the upper side is formed in three stages so as to be horizontal.

In order to prevent the water flowing between the lower part of the rail 41 (42) and the teblock (20) from freezing when the autobalancing function is no longer necessary or to prevent the teblock from rising, 6C, a separate elastic member 60 may be inserted to fix the teblock.

The elastic member 60 includes a contact portion 61 having a plurality of corrugated protrusions formed on one side of the inner side of the rails 41 and 42 and the other side of the elastic member 60 on the outer side of the support portion 22 so as to be pressed on the outer side thereof. A plurality of buffer parts 62 forming a hollow space at the center so as to buffer the pressure generated between the rails 41 and 42 and the support part 22; And a seating part 63 formed in a flat surface so as to be able to be seated on the side surface of the attaching part 21.

Therefore, the teblock 20 is firmly fixed by the force that is inserted between the rails 41 and 42 and the support portion 22 in a state in which the tight contact portion 61 is squeezed, .

Moreover, the elastic member 60 inserted into the window frame prevents the front and rear flow of the window frame, and has a side effect of forcibly disassembling the window frame from the outside.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. will be.

20: Tiblock 21: Attachment
21a: first contact end 21b: second contact end
21c: third contact end 22:
22a: first compartment 22b: second compartment
23, 24: insertion groove 26: head portion
60: elastic member 61:
62: buffer part 63: seat part

Claims

A mounting portion fixed to an upper surface of the window frame, a support portion having a compartment structure in which an insertion groove is formed to allow the mohair to be coupled to both sides of the upper portion, and a head portion formed as a rounded upper surface, In a block for a window,
The lower end of the attaching portion 21 has an inverted trapezoid which is wide in the upper side and narrow in the lower side due to the structure of upper light lowering and the lower end of the attaching portion 21 is formed in the shape of a straight line 1 contact end 21a or a rounded second contact end 21b or a third contact end 21c forming a multi-stage round phase,
An elastic member 60 is inserted between the inner side surface of the rails 41 and 42 and the outer side surface of the support portion 22 and one side of the elastic member 60 is connected to the inner side surface of the rails 41 and 42 (61) formed with a plurality of corrugated protrusions so as to be pressed against the outer surface of the support part (22); A plurality of buffer parts 62 forming a hollow space at the center so as to buffer the pressure generated between the rails 41 and 42 and the support part 22; And a seating part (63) formed to be flat so as to be seated on a side surface of the attachment part (21).

The method according to claim 1,
A step 43 is formed on both lower sides of the rails 41 and 42 and a first contact end 21a or a second contact end 21b formed on the tip of the attachment portion 21, (21c) is inserted in such a manner that it is inserted over the step (43) by a pressing force applied from the upper side.

The method according to claim 1,
The compartment structure of the support portion 22 is composed of a first compartment 22a and a second compartment 22b which are formed so as to increase the resistance to lateral pressure and the heat insulation effect,
Wherein the second compartment (22b) is formed with a drain hole for discharging water generated by condensation or overflowing rainwater from the inside of the window frame to the outside in order to improve drainage performance.

The method of claim 3,
Wherein the first compartment (22a) and the second compartment (22b) are formed in an inner tube shape and are slidably inserted into the inside of the support part.

The method according to claim 1,
The head part (26) is formed such that the window frame is inclined so as to form a constant angle of? ° and? Degrees on both sides so that the window frame is easy to ride on, and the upper side is formed in three stages so as to be horizontally aligned. Tibbles for use.

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