KR102467424B1 - Doorframe structure with tightening binding and anti-vibration features - Google Patents

Abstract

The present invention relates to a doorframe with functions for reinforcing a binding force and preventing vibration, which is able to install a coupling reinforcement apparatus in a part between a left side surface unit, a right side surface unit, and an upper side of a doorframe body and a building wall, bind the doorframe body with the building wall by using cement material using a nano complex functional inorganic composition, improve the binding force between the doorframe body and the building wall, install an ant-vibration apparatus on a lower side of the doorframe body, and prevent vibration of the doorframe. According to the present invention, the doorframe structure comprises: a square doorframe body with a square opening unit formed in the center; binding reinforcement apparatuses respectively installed on a left side surface unit, a right side surface unit, and an upper side of the doorframe body; a base unit installed on a lower side of the doorframe body; an anti-vibration apparatus installed between the base unit and the doorframe body; and a cement material filling the part between the doorframe body and the building wall.

Description

Doorframe structure with tightening binding and anti-vibration features}

The present invention relates to a door frame structure having a bonding strength and anti-vibration function, and more specifically, a bonding reinforcing device is installed between the left and right side parts and the upper part of the door frame body and the water wall, and a nanocomposite functional inorganic composition is used. The bonding strength between the door frame body and the building wall is improved by bonding the door frame body and the building wall using cement pouring material, and a vibration isolator is installed on the lower part of the door frame body to prevent the door frame from vibrating. It relates to a door frame structure having an anti-vibration function.

In buildings where people live or work, doors or windows are installed in openings to block the inside of the building from the outside.

In order to install a door in the opening of a building, a door frame is installed, and the door frame is combined with a building wall using cement.

Recently, an increasing number of households install iron bars to exercise or install swings for children to play on the door frame installed in this way.

For reference, after attaching the iron bar holder to the door frame with a formst key, insert the iron bar holder of the door frame support into the iron bar holder to make it closely adhere to the door frame wall, and fasten the bolt so that the door frame support is fixed in such a way as to support the front and back sides of the door frame. The technology to do has been disclosed in "door frame exercise equipment" of Republic of Korea Registered Utility Model Registration No. 20-0488617 (notification date: February 27, 2019).

However, the conventional door frame including the above-mentioned Utility Model Registration No. 20-0488617 does not consider additionally increased load or vibration when using an iron bar or swing, which may cause a safety accident. There are issues of concern.

Registered utility model registration number 20-0488617

An object of the present invention is to solve the conventional problems as described above, by installing a bonding reinforcing device between the left and right side parts and the upper part of the door frame body and the gyeongmul wall, and using a nanocomposite functional inorganic composition to construct a cement casting. An object of the present invention is to provide a door frame structure having improved bonding strength and anti-vibration functions by coupling between the door frame body and the building wall by using the door frame body and the building wall.

Another object of the present invention is to provide a door frame structure having a function of strengthening binding force and preventing vibration of the door frame by installing a vibration isolator at the lower part of the door frame body to prevent vibration of the door frame.

As a means for achieving the above object, the configuration of the present invention includes a rectangular door frame body having a rectangular opening formed in the center, a coupling reinforcement device installed on the left and right side parts and upper part of the door frame body, and the door frame body. It is preferable to include a base part installed at the bottom, a vibration isolator installed between the base part and the door frame body, and a cement casting material filled between the door frame body and the building wall.

According to the configuration of the present invention, the coupling reinforcement device has a head portion formed at the rear end and a buried portion having a shape in which the width decreases from the head portion to the front end and a spiral projection is formed on the outer circumferential surface, and coupled to the head portion A cap, a connecting bar having a front end connected to the cap, a fixing part screwed to the rear end of the connecting bar, a reinforcing coil having a front end fixed to the cap, and a rear end of the reinforcing coil fixed to the center of the reinforcing coil. It is preferable if the connection bar is made including a support plate through which it passes.

In the configuration of this invention, it is preferable that a plurality of conical projections are formed on the rear surface of the support plate.

According to the configuration of the present invention, the anti-vibration device includes an upper anti-vibration plate installed on the lower part of the door frame body, a central fixing bolt penetrating the door frame body and the upper anti-vibration plate, a nut coupled to the central fixing bolt, and a base part A lower anti-vibration plate installed above, a set anchor for fixing and coupling the lower anti-vibration plate to the foundation, a small hydraulic cylinder installed between the upper anti-vibration plate and the lower anti-vibration plate, and the upper anti-vibration plate in parallel with the small hydraulic cylinder An anti-vibration spring installed between the anti-vibration plate and the lower anti-vibration plate, an anti-vibration stopper bolt passing through the door frame body and the upper anti-vibration plate and having a lower end fixed to the set anchor, and the anti-vibration stopper bolt to the door frame body and the upper anti-vibration plate. It is preferable to include a stopper nut for fixing.

According to the configuration of the present invention, the earthquake-resistant stopper bolt maintains a distance between the earthquake-resistant stopper bolt and the lower anti-vibration plate when weak vibration occurs, but when the vibration is strong, the lower end of the earthquake-resistant stopper bolt is moved to the lower anti-vibration plate. It is preferable if it is supported in contact with.

According to the present invention, a bonding reinforcing device is installed between the left and right side parts and upper part of the door frame body and the building wall, and the door frame body and the building wall are bonded using a cement casting material using a nanocomposite functional inorganic composition. The coupling force between the body and the building wall is improved, and vibration of the door frame can be prevented by installing a vibration isolator on the lower part of the door frame body.

1 is a block diagram of a door frame structure having a function of strengthening bonding force and preventing vibration according to an embodiment of the present invention.
2 is a perspective view of a coupling reinforcement device of a door frame structure having a function of enhancing coupling force and preventing vibration according to an embodiment of the present invention.
3 is a cross-sectional view of a coupling reinforcement device having a door frame structure having a function of enhancing coupling force and preventing vibration according to an embodiment of the present invention.
4 is a cross-sectional view of a vibration isolator having a door frame structure having functions of strengthening bonding force and preventing vibration according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to explain in detail enough that a person skilled in the art to which this invention pertains can easily practice this invention. Other objects, features, and operational advantages, including the object, action, and effect of this invention, will become clearer by the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred embodiments to help those skilled in the art to understand among various possible examples, and the technical spirit of the present invention is not necessarily limited or limited only by the presented embodiments. Instead, various changes, additions, and modifications including equivalents or substitutes are possible within the scope of the technical spirit of the present invention.

In addition, the expression of terms or words used in the specification and claims of the present application are defined based on the principle that the inventor can appropriately define the concept of terms in order to best explain his or her invention. , It should not be construed as limited to ordinary or dictionary meanings, but should be interpreted as meanings and concepts consistent with the technical spirit of the present invention. As an example, a singular expression includes a plurality of expressions unless the context clearly indicates otherwise, and an expression related to a direction is set based on a position shown on the drawing for convenience of explanation, and is “connected” or “connected”. The expression "to be" includes not only a direct connection or connection, but also a connection or connection through another component in the middle.

1 is a block diagram of a door frame structure having a function of strengthening bonding force and preventing vibration according to an embodiment of the present invention.

As shown in FIG. 1, the configuration of the door frame structure having the function of strengthening bonding force and preventing vibration according to an embodiment of the present invention includes a rectangular door frame body 10 having a rectangular opening formed in the center, The coupling reinforcing device 20 installed on the left and right side parts and upper part of the door frame body 10, the base part 30 installed on the lower part of the door frame body 10, the base part 30 and the door frame body ( 10), a vibration isolator 40 installed between the door frame body 10 and the building wall 60, and a cement casting 50 filled between them.

The cement casting 50 uses a highly durable inorganic polymer-based mortar composed of 80 parts by weight of cement, 20 parts by weight of a nanocomposite functional inorganic composition, and 15 to 17 parts by weight of water.

The nanocomposite functional inorganic composition includes 40 to 80 parts by weight of polydimethylsiloxane, 5 to 40 parts by weight of octyltriethoxysilane, 1 to 5 parts by weight of rosin, 1 to 10 parts by weight of a plasticizer, 1 to 10 parts by weight of a filler, oxidized It contains 0.1 to 1 part by weight of an inhibitor and 0.1 to 5 parts by weight of nano-silica, and a particle size of 150 nm to 850 nm is used.

2 is a perspective view of a door frame coupling reinforcement device having a function of strengthening bonding force and preventing vibration according to an embodiment of the present invention, and FIG. 3 is a perspective view of a door frame having a function of enhancing bonding strength and preventing vibration according to an embodiment of the present invention. It is a cross-sectional view of the coupling reinforcement device of.

As shown in FIGS. 2 and 3, the door frame coupling reinforcement device 20 having a function of strengthening coupling force and preventing vibration according to an embodiment of the present invention has a head portion 21a formed at the rear end and a head portion 21a. A buried portion 20 having a shape in which the width decreases toward the front end of the portion 21a and having a spiral protrusion 21b formed on the outer circumferential surface, a cap 22 coupled to the head portion 21a, and the cap A connecting bar 23 having a front end connected to 22, a fixing part 24 screwed to the rear end of the connecting bar 23, and a reinforcing coil 25 having a front end fixed to the cap 22 and a support plate 26 fixed to the rear end of the reinforcing coil 25 and through which the connecting bar 23 passes through the center.

A stopper 23a is formed at the front end of the connecting bar 23.

The reinforcing coil 25 is formed in a spiral shape to increase a contact area between the doorframe 10 and the cement casting 50 filled between the building wall and at the same time provide a buffering force. In addition, an adhesive coating layer is formed on the outer circumferential surface of the reinforcing coil 25, so that it is firmly coupled to the cement casting 50.

The rear surface of the support plate 26 has a structure in which a plurality of conical protrusions 26a are formed.

4 is a cross-sectional view of a vibration isolator for a door frame having functions of strengthening bonding force and preventing vibration according to an embodiment of the present invention.

As shown in FIG. 4, the configuration of the anti-vibration device 30 of the door frame having a function of strengthening bonding force and preventing vibration according to an embodiment of the present invention is an upper anti-vibration plate installed on the lower part of the door frame body 10 ( 31), the central fixing bolt 32 passing through the door frame body 10 and the upper anti-vibration plate 31, the nut 33 coupled to the central fixing bolt 32, and the base part 30 The lower anti-vibration plate 34 installed above, the set anchor 35 for fixing and coupling the lower anti-vibration plate 34 to the foundation 30, and the upper anti-vibration plate 31 and the lower anti-vibration plate 34 A small hydraulic cylinder 36 installed between, an anti-vibration spring 37 installed between the upper anti-vibration plate 31 and the lower anti-vibration plate 34 in parallel with the small hydraulic cylinder 36, and the door frame A seismic stopper bolt 38 having a lower end fixed to the set anchor 35 through the body 10 and the upper anti-vibration plate 31 and the anti-seismic stopper bolt 38 are connected to the door frame body 10 and the upper anti-vibration plate. It consists of a stopper nut 39 for fixing to (31).

The anti-vibration device 30 supports the load from the door frame body 10 and blocks or dampens longitudinal vibration and lateral jingling applied from the door frame body 10 to the ground.

The upper anti-vibration plate 31 is formed in a plate shape and is configured to come into contact with the lower part of the door frame body 10 . The upper anti-vibration plate 31 is made of a metal material. Alternatively, the upper anti-vibration plate 31 may be formed of a composite structure of a rubber material and a metal material. For example, the upper anti-vibration plate 31 may be formed in a form in which a rubber material surrounds a metal material in a sandwich form. The metal material is in charge of durability and rigidity, and the rubber material reduces impact.

The central fixing bolt 32 passes through the lower part of the door frame body 10 and the upper dust-proof plate 31 and is coupled with the nut 33 to fix the upper dust-proof plate 31 to the door frame body 10.

The lower anti-vibration plate 34 is formed in a plate shape and is placed on the upper part of the base part 30. The lower anti-vibration plate 34 may be made of a metal material, or the lower anti-vibration plate 34 may be made of a composite structure of a rubber material and a metal material. For example, the upper anti-vibration plate 31 may be formed in a form in which a rubber material surrounds a metal material in a sandwich form. The metal material is in charge of durability and rigidity, and the rubber material reduces impact.

The small hydraulic cylinder 36 connects the lower part of the upper anti-vibration plate 310 and the upper part of the lower anti-vibration plate 34 and supports the longitudinal pressure applied from the upper part. The outer shape of the small hydraulic cylinder 36 may be configured in an arch shape with a narrow top and a wide bottom to increase stability.

The anti-vibration spring 37 connects the lower part of the upper anti-vibration plate 31 and the upper part of the lower anti-vibration plate 34 and supports the longitudinal pressure applied from the upper part, and the upper anti-vibration plate 31 and the lower anti-vibration plate 34 ) to dampen the longitudinal vibration applied from it. In addition, the anti-vibration spring 37 also dampens lateral vibration.

The anti-vibration stopper bolt 38 passes through the lower part of the door frame body 10 and the upper anti-vibration plate 31 and is coupled with the stopper nut 39 to be fixed to the door frame body 10 and the upper anti-vibration plate 31.

The clearance (d) between the earthquake-proof stopper bolt 38 and the lower anti-vibration plate 34 is adjusted, and the clearance (d) between the earthquake-resistant stopper bolt 36 and the lower anti-vibration plate 34 is the door frame body to be installed. The load of (10) and the additional impact load are set differently. The earthquake-resistant stopper bolt 38 maintains a distance d between the earthquake-resistant stopper bolt 36 and the lower anti-vibration plate 34 when weak vibration occurs, but when the vibration is strong, the earthquake-resistant stopper bolt ( 36) is configured so that the lower end of the lower anti-vibration plate 34 is supported while absorbing shock and retaining the bearing capacity. That is, when the supporting force of the small hydraulic cylinder 36 and the anti-vibration spring 37 collapses due to strong vibration, the anti-vibration stopper bolt 38 may come into contact with the lower anti-vibration plate 34 to maintain the supporting force.

The operation of the door frame having the function of strengthening bonding force and preventing vibration according to an embodiment of the present invention according to the above configuration is as follows.

First, the base part 30 is installed by excavating the bottom surface where the door frame is installed.

Next, after the anti-vibration device 40 is installed on the upper part of the base part 30, the door frame body 10 is placed on the top of the anti-vibration device 40, and the anti-vibration device 40 and the door frame body 10 are installed. combine

Subsequently, after embedding the embedded portion 21 of the coupling reinforcement device 20 in the building wall 60 corresponding to the left and right side parts and the upper portion of the door frame body 10, the coupling reinforcement device is used by using the connecting bar 23 By combining (20) with the door frame body (10), the bonding force between the door frame body (10) and the building wall (60) is increased.

Next, the door frame body 10 and the building wall 60 are formed by filling and curing the space between the door frame body 10 and the building wall 60 using a cement casting 50 using a nanocomposite functional inorganic composition. tightly bonded between

10: door frame body 20: coupling reinforcement device
30: foundation 40: anti-vibration device
50: cement casting 60: building wall

Claims (7)

A rectangular doorframe body having a rectangular opening formed in the center;
Combined reinforcing devices installed on the left and right side parts and the upper part of the door frame body;
A base part installed below the door frame body;
A vibration isolator installed between the foundation and the door frame body;
It includes a cement casting material filled between the door frame body and the building wall,
The coupling reinforcement device,
A head part is formed at the rear end, and the embedding part has a spiral protrusion formed on the outer circumferential surface in a form in which the width becomes narrower from the head part to the front end;
A cap coupled to the head, a connecting bar having a front end connected to the cap,
A fixing part screwed to the rear end of the connecting bar;
A reinforcing coil having a front end fixed to the cap;
A door frame having a bonding force reinforcement and anti-vibration function, characterized in that it comprises a support plate fixed to the rear end of the reinforcing coil and through which the connecting bar passes through the center. delete delete According to claim 1,
A door frame having a function of strengthening bonding force and preventing vibration, characterized in that a plurality of conical protrusions are formed on the rear surface of the support plate. According to claim 1,
The anti-vibration device,
An upper anti-vibration plate installed on the lower part of the door frame body;
A central fixing bolt penetrating the door frame body and the upper anti-vibration plate;
A nut coupled to the central fixing bolt;
A lower anti-vibration plate installed on the foundation,
A set anchor for fixing and coupling the lower anti-vibration plate to the foundation;
A small hydraulic cylinder installed between the upper anti-vibration plate and the lower anti-vibration plate;
An anti-vibration spring installed between the upper anti-vibration plate and the lower anti-vibration plate in parallel with the small hydraulic cylinder;
An earthquake-resistant stopper bolt having a lower end fixed to the set anchor by penetrating the door frame body and the upper anti-vibration plate;
A door frame having a bonding strength and anti-vibration function, characterized in that it comprises a stopper nut for fixing the earthquake-resistant stopper bolt to the door frame body and the upper vibration plate. According to claim 5,
The earthquake-proof stopper bolt maintains a distance between the earthquake-proof stopper bolt and the lower vibration-proof plate when weak vibration occurs, but when the vibration is strong, the lower end of the earthquake-resistant stopper bolt is supported by abutting the lower vibration-proof plate. A door frame with enhanced binding force and anti-vibration function. delete

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