KR101942181B1 - Embedded type support fixture for earthquake-proof - Google Patents

Abstract

The interior of the building is embedded in a ceiling, a wall, and a floor of the building according to the present invention. The interior of the building is selectively opened to engage with the threaded portion of the object to be supported, thereby damping the upward / downward, forward / backward, .
The embedding type support for internal dust proofing includes a housing having a receiving space formed therein and housing a threaded portion with a receiving space opened in a state of being located inside a ceiling, a wall, and a floor of the building; A retaining plate for retaining the ceiling, the wall, and the bottom of the building in a state of being embedded in the ceiling, the wall, and the bottom of the building; an elastic member having an elastic restoring force built in the inside of the accommodation space; And an engaging portion for engaging with the engaging portion.

Description

{Embedded type support fixture for earthquake-proof}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an inertially buried support for supporting a support object such as a hanger for supporting a gas pipe, a fire pipe or the like to a ceiling or a wall.

The present invention relates to a buried support for an internal combustion engine, which is capable of shortening a construction time and reducing a construction cost by being embedded in a connecting member previously installed at the time of building construction.

The present invention relates to a buried support for an internal combustion engine, which is embedded in a floor, a ceiling, a wall, etc., and is selectively opened to the interior of a building to absorb shock and vibration when an earthquake occurs.

The present invention relates to a support structure for an internal combustion engine capable of absorbing not only upward and downward vibration of a support object but also an elastic restoring force even in the forward / backward and leftward / rightward directions.

The present invention relates to a buried support for an internal combustion engine, which can be engaged only by a simple process of screwing to a support object.

In general, piping fixtures for vibration and earthquake are used to fix various pipes of buildings and basement of apartments and high-rise buildings. They are used for insert plates or hangers installed on the ceiling of basement, various penetrating sleeves for building walls By keeping the piping at a certain distance from the ceiling or the wall and maintaining the horizontal and vertical condition of the piping constant, the pipe is protected by preventing the pipeline from loosening, sagging, and breakage caused by fluid flow in the piping, earthquake and vibration.

Accordingly, conventionally, a pipe fixing device for supporting a pipe by using a U-bolt or a shoe for fixing the pipe or a general hanger is commonly used.

However, since such a piping fixing device is exposed to an external impact due to an earthquake or vibration, damage or breakage of the piping is frequent. Therefore, as shown in FIG. 1, a pipe supporting member 11 and 12 and a U-bolt 13 which is fastened to the outside of the pipe support members 11 and 12. As shown in FIG.

At this time, the pipe support member (11) surrounding the lower portion of the pipe is supported by a steel frame, a hanger, and a concrete upper plate, and is made of a rubber material such as a waste tire in order to absorb shocks caused by earthquake or vibration.

Further, since the pipe support member 12 surrounding the upper portion of the pipe is disposed at the front side and is supported by the U bolts 13, it is made of a synthetic resin having a hard and flame-retardant property to withstand the compressive load of the pipe during the U bolt tightening Loses.

However, the conventional pipe fixing device 10 has a problem that the external shock caused by an earthquake or vibration, the vibration due to the fluid flow in the pipe, and the impact of the expansion and contraction are partially solved and the impact is transmitted as it is, .

Accordingly, in Korean Patent Laid-Open No. 10-2010-0066099, as shown in Fig. 2, a pipe installed in a section steel, a concrete upper plate, and a through sleeve is covered to provide elasticity to the pipe, thereby directly absorbing the impact caused by an earthquake or vibration to protect the pipe Which is provided with an anti-seismic packing.

However, the conventional pipe fixing device absorbs the impact generated between the earthquake-resistant packing and the piping, and when the length of the pipe itself fluctuates, the pipe itself can not be supported with fluidity. Therefore, .

Accordingly, Korean Utility Model Publication No. 20-2016-0000689 discloses an oil tight pipe clamp device for rapidly absorbing vibrations generated by an earthquake wave as shown in FIG. 3 to prevent breakage of the pipe.

Korean Patent Laid-Open No. 10-2011-0004645 also discloses an inner hose pipe hanger capable of buffering shock waves that are floated in the left and right direction as well as longitudinal shock waves as shown in Fig.

However, in the prior art disclosed in FIGS. 3 and 4, since concrete anchor bolts or bolts are inserted and installed after concrete is placed on the floor, ceiling, and wall of a building, .

In addition, since it is unnecessarily protruded from a floor, a ceiling, and a wall of a building, it is not preferable in terms of space utilization.

In addition, since it is difficult to absorb the impact in the three-dimensional direction, there is a problem that the support object may be damaged.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems of the prior art as described above, and to provide a buried support for an internal combustion engine in which damage to an object to be supported is prevented by absorbing an impact when an earthquake occurs.

Another object of the present invention is to provide a method of reducing the construction time and reducing the construction cost by being embedded in a reinforced concrete embedded in concrete, a metal material having a long polygonal section, And to provide a buried support for an internal combustion engine.

Another object of the present invention is to provide a buried support for an internal combustion engine which is embedded in a floor, a ceiling, a wall or the like at the time of constructing a building, and selectively absorbs impacts and vibrations when an earthquake occurs, have.

It is still another object of the present invention to provide an embedded support for an internal combustion engine capable of absorbing not only upward / downward vibration but also forward / backward and leftward / rightward movement with elastic restoring force.

It is still another object of the present invention to provide a buried support for internal use capable of engaging with a support object by a simple process of screwing.

The interior of the building is embedded in a ceiling, a wall, and a floor of the building according to the present invention. The interior of the building is selectively opened to engage with the threaded portion of the object to be supported, thereby damping the upward / downward, forward / backward, .

The embedding type support for internal dust proofing includes a housing having a receiving space formed therein and housing a threaded portion with a receiving space opened in a state of being located inside a ceiling, a wall, and a floor of the building; A retaining plate for retaining the ceiling, the wall, and the bottom of the building in a state of being embedded in the ceiling, the wall, and the bottom of the building; an elastic member having an elastic restoring force built in the inside of the accommodation space; And an engaging portion for engaging with the engaging portion.

And a connecting member accommodating portion for accommodating a connecting member to be embedded in a ceiling, a wall, and a floor of the building so that the buried supporting member for the interior of the vehicle is held in a suspended state is provided at one side of the supporting plate.

The connecting member receiving portion has elastic restoring force and is formed in a plurality of the connecting member receiving portions.

The plurality of connection member receiving portions are configured to have different internal sizes from each other to selectively accommodate connection members of various sizes.

The receiving space is shielded by a stopper when the concrete buried type support is poured to prevent inflow of concrete. When the stopper is removed, the accommodating space is opened to the outside, and the threaded portion can be received.

The elastic member is characterized in that its outer diameter changes in the longitudinal direction.

The accommodating space includes an elastic generating space in which an elastic restoring force is generated in accordance with a position of a coupling hole that is in communication with the movement of the support object, and a rotation guide space for guiding the movement of the support object in the forward / backward direction and the left / .

The coupling member includes a coupling portion that is screwed with the threaded portion and a force transmitting portion that has a larger area than the coupling portion to allow a load of the supporting object coupled with the coupling portion to be transmitted to the elastic member.

Wherein the rotation guide space is configured to change the inner diameter size, and the smallest inner diameter size is larger than the outer diameter of the threaded portion.

The smallest inner diameter of the elastic member is formed to be larger than the smallest inner diameter of the elastic generation space.

The buried support base for dust proofing according to the present invention has an effect of absorbing shocks when an earthquake occurs and preventing the support object from being damaged.

In addition, when the building is constructed, it is embedded in a hanging state on a connecting member previously installed, so that it is possible to easily align the support for the internal buried type in the right position, shorten the construction period, and reduce the construction cost.

In addition, when the building is constructed, it is embedded in a floor, a ceiling, a wall, etc., and selectively opened to the inside so that it can be used in combination with the object to be supported, thereby improving the usability and drastically reducing the work flow.

In addition, since the elastic restoring force is generated not only in the up / down direction vibration but also in the front / rear and left / right direction vibration, the seismic performance is improved.

1 is a perspective view showing a structure of a general pipe fixing device.
2 is a perspective view showing a piping fixing device having an earthquake-resistant packing disclosed in Korean Patent Laid-Open No. 10-2010-0066099.
3 is a perspective view showing the appearance of an oil pipe clamping device disclosed in Korean Utility Model Publication No. 20-2016-0000689.
Fig. 4 is a perspective view showing the appearance of an RO of a pipe hanger for an internal combustion engine disclosed in Korean Patent Laid-Open No. 10-2011-0004645.
5 is a perspective view showing the appearance of a buried support for an internal combustion engine according to the present invention.
6 is a vertical cross-sectional view showing the internal structure of the buried support for vibration proof according to the present invention.
7 is a longitudinal sectional view showing a state in which a supporting object is coupled to a buried support for vibration proof according to the present invention.
8 is a longitudinal sectional view showing left / right seismic action of the buried support for vibration proof according to the present invention.

5 (a) and 6 (b), a description will be given of the structure of a buried support for an internal combustion engine according to the present invention (hereinafter referred to as a buried support 100).

FIG. 5 is a perspective view showing an external appearance of a buried support 100 for an internal combustion engine according to the present invention, and FIG. 6 is a longitudinal sectional view showing the internal structure of the buried support 100 for an internal combustion engine according to the present invention.

Prior to this, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may appropriately define the concept of the term in order to describe its invention in the best possible way It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention, and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

As shown in the drawing, the buried support 100 according to the present invention is for supporting a support object (refer to reference numeral 10 in FIG. 7) in a state of being embedded in a wall, floor, ceiling of a building, Thereby preventing the support object 10 from being damaged.

In addition, the flush-type support 100 includes an elastic member 110 therein to generate an elastic restoring force against the movement of the support object 10. [

That is, the elastic member 110 is configured as a single unit so as to provide an elastic restoring force for the up / down direction, the front / rear direction, and the left / right direction of the support object 10.

Referring to the detailed structure of the flush-type support 100, a brace plate 130 is provided at an upper portion. The supporting plate 130 has a large area and is configured to hold the load of the supporting object 10 while keeping the embedded state in the walls, the floor, the ceiling, and the like.

In the embodiment of the present invention, the support plate 130 has a rectangular plate, and on both sides thereof, a connection member receiving portion 132 formed to be rounded upward is provided.

The connecting member receiving portion 132 is configured to receive a connecting member F buried in the concrete placed to form a ceiling, a floor, a wall or the like at the time of constructing a building, So that the embeddable support 100 can be kept hanging on the connecting member F. [

To this end, the connection member receiving portion 132 is opened in the direction facing each other, and after the connection member F is positioned inside, the connection member receiving portion 132 is struck in the direction of the connection member F So that the connection member F can be received.

It is preferable that the opened portion of the connecting member accommodating portion 132 is formed to be smaller than the outer diameter of the connecting member F in order to prevent the accommodated connecting member F from being detached.

Further, it is preferable that the edge of the opening portion of the connecting member receiving portion 132 is bent or rounded upward so that the connecting member F can be more easily received at the time of striking, It should be made of a material having a predetermined elasticity.

The connecting member receiving portions 132 are configured to have different inner diameters. This is for the purpose of selectively accommodating the connecting member F used in the building to be installed, since it can have various outer diameters.

Although the connecting member receiving portion 132 is configured to have a rounded shape by applying the connecting member F as a reinforcing bar in the embodiment of the present invention, the connecting member F may have a polygonal cross- When a long metal material, a wire, or the like is applied, it can be bent into various shapes as long as it is within a range to prevent it from being pulled out again after being hit and fitted.

A housing 120 is provided under the brace plate 130. The housing 120 is adapted to have a cylindrical shape in the embodiment of the present invention, and the upper ends thereof are integrally joined to the lower surface of the support plate 130 by welding or the like.

An accommodation space 125 is formed in the housing 120 so as to accommodate the upper portion of the support object 10 and the screw portion (refer to reference numeral 11 in FIG. 7) in the embodiment of the present invention.

The receiving space 125 is selectively shielded by the cap 140 so that the inflow of concrete or foreign matter is blocked and the screw portion 11 can be received when the cap 140 is removed.

The accommodation space 125 serves a different role divided into upper and lower portions. That is, the accommodation space 125 includes a rotation guide space 126 which is located at the lower portion and guides the movement of the support object 10 in the forward / backward direction and the left / right direction, And an elastic generating space 127 in which an elastic restoring force is generated according to the position of the coupling hole 150 that is linked to the movement of the support object 10.

The rotation guide space 126 is configured to vary the inner diameter size, and the smallest inner diameter is formed to be larger than the outer diameter of the threaded portion 11. This is to extend the range of motion of the threaded portion 11 by making it possible to rotate while minimizing interference when the threaded portion 11 inserted through the rotation guide space 126 and fixed to the elastic generating space 127 moves.

An elastic member 110 is provided in the accommodation space 125. The elastic member 110 is configured to have an elastic restoring force. The elastic member 110 has an outer diameter varying in the up / down direction as shown in FIG. 6, and has an approximately elliptical shape in the embodiment of the present invention.

This is to allow the elastic member 110 to generate an elastic restoring force in all directions such as upward / downward, forward / backward, and left / right directions with respect to the screw portion 11.

More specifically, the center portion in the height direction of the elastic member 110 has the largest outer diameter and is configured to have an outer diameter slightly smaller than or equal to the inner diameter of the elastic generating space 127.

Therefore, when the elastic member 110 deforms due to the movement of the threaded portion 11 and comes into contact with the inner wall surface of the elastic generating space 127 while having the elastic restoring force of the up / down direction, It is possible to generate an elastic restoring force in all directions such as a direction.

The lower end of the elastic member 110 may be formed to have an outer diameter larger than an inner diameter of the rotation guide space 126 so as not to escape downward through the rotation guide space 126.

The coupling member 150 is inserted into the upper side of the elastic member 110. The coupling portion is configured to be screwed with the screw portion 11 in a state of being elastically supported by the elastic member 110. The upper portion is configured to have an outer diameter larger than that of the lower portion to limit the upward departure of the elastic member 110 .

The coupling member includes a coupling part 152 screwed to the threaded part 11 and a supporting object 152 coupled to the coupling part 152 with a larger area than the coupling part 152. [ And a force transmitting portion 154 for allowing a load of the elastic member 10 to be transmitted to the elastic member.

The engaging portion 152 has a tubular shape and internally has a female thread corresponding to the pitch and the size of the thread portion 11 and is screwed to the thread portion 11. [

A force transmitting portion 154 is provided above the engaging portion 152. The force transmitting portion 154 has a larger cross-sectional area than the engaging portion 152 and is configured to have an outer diameter larger than the upper outer diameter of the elastic member 110 so that the elastic member 110 is prevented from falling upward .

Therefore, when the screw portion 11 is engaged with the engaging portion 152 and the tensile force is applied in the downward direction, the lower edge of the engaging portion 152 can generate an elastic restoring force to the elastic member 110.

Hereinafter, the operation of the buried support 100 will be described with reference to FIGS.

7 is a longitudinal sectional view showing a state in which the support object 10 is coupled to the buried support 100 for dust proofing according to the present invention. A longitudinal section showing the rightward seismic action is shown.

First, a buried support 100 is prepared as shown in FIG. At this time, the lower surface of the flush-type supporter 100 should be blocked by the stopper 140. After checking the size of the connection member F disposed to form the ceiling, the wall, the floor, etc. of the building, (132) to receive the connecting member (F) therein.

Generally, the connecting members F are spaced apart at regular intervals with the same size, but FIG. 5 shows an example to show how connecting members F having different outer diameters can be combined.

Therefore, even if the connecting member F is accommodated in only one of the pair of connecting member receiving portions 132, the buried supporting member 100 can be suspended without falling.

When the concrete is poured, the buried support 100 is embedded in the concrete as shown in FIG. 6, and the receiving space 125 can be opened to the outside by removing the stopper 140.

An upper portion of the support object 10 is inserted into the opened accommodation space 125. In the embodiment of the present invention, the support object 10 adopts a pipe hanger for supporting a pipe P for guiding gas, fire water, etc. to flow.

The supporting object 10 includes a threaded portion 11 which is elongated in the upward and downward direction and has a male thread on the outer surface thereof and a pair of threaded portions 11 on the threaded portion 11, And a tubular height-adjusting pipe 14 is located between the pair of nuts 12. The nut 12 is screwed into the nut 12,

The pair of nuts 12 and the height adjusting tube 14 form a height adjusting portion H and the nut 12 is tightened or loosened to adjust the position of the height adjusting tube 14 to the length of the screw portion 11 Direction.

On the other hand, an approximately "U" shaped seating portion 15 is attached to the right side of the height adjusting pipe 14. The seat portion 15 is upwardly opened to allow the piping P to be seated therein.

A separation preventing portion 17 is provided on the upper right side of the seating portion 15. The departure prevention portion 17 is kept in a state of being in contact with the upper outer surface of the pipe P seated on the seating portion 15 so as to restrict the pipe P from being detached to the outside of the seating portion 15. [

The release preventing portion 17 is applicable in various forms as long as it is in a state of being in contact with the outer surface of the pipe P and can be prevented from being separated.

6, when the plug 140 is removed in a state where the buried support 100 is embedded in the concrete, the screw 11 is lifted upwards and inserted into the accommodation space 125.

7, when the threaded portion 11 is rotated to be screwed with the engaging portion 152, the supporting object 10 is lowered downward by a predetermined height by a load, and the elastic restoring force So that up / down seismic resurfacing is possible.

 8, when the support object 10 rocks left / right and front / back due to an earthquake, the interference is minimized by the rotation guide space 126 as shown in FIG. 8, At this time, the elastic member 110 comes into contact with the wall surface of the elastic generating space 127 to generate an omnidirectional elastic restoring force, thereby performing an earthquake-proof function.

The scope of the present invention is not limited to the above-described embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the scope of the present invention.

10. Supported object 11. Screw
12. Nut 14. Height adjustment tube
15. Seat part 17. Departure preventing part
100. Embedding type support for dust proofing 110. Elastic member
120. Housing 125. Capacity space
126. Rotation guide space 127. Elastic space
130. Support plate 132. Connection member accommodating portion
140. Plug 150. Coupling port
152. Coupling portion 154. Force transmitting portion
F. Connecting member H. Height adjusting portion
P. pipe

Claims (11)

delete 1. A buried type support for an internal combustion engine in which an up / down, front / rear, and left / right direction vibrations are attenuated by an elastic restoring force when an earthquake occurs,
A housing which is embedded in a ceiling of a building, a wall, a floor, and the like, has a housing which accommodates one side of an object to be supported, the housing space formed therein being selectively opened to the lower side, An elastic member embedded in the accommodation space so as to have an elastic restoring force, and an engagement hole that is elastically supported by being screwed to one side of the support object passing through the elastic member,
Wherein the support object comprises:
A screw portion having a male screw on its outer surface and engaging with the engagement portion,
A pair of nuts screwed on the threaded portion from the outside of the housing,
A height adjusting pipe located between the pair of nuts and capable of adjusting the position of the nut by tightening or loosening the nut,
A mounting portion attached to one side of the height adjusting pipe in an opened state upward to seat the pipe,
And a departure prevention portion for maintaining the state of contact with the upper outer surface of the pipe seated on the seat portion to restrict the departure of the pipe.
[3] The apparatus according to claim 2,
And a connecting member accommodating portion for accommodating a connecting member to be embedded in the ceiling, the wall, and the floor of the building, so as to maintain a state in which the buried support for abatement is held.
The connector according to claim 3,
And a plurality of elastic restoring forces are formed.
The connector according to claim 4,
Wherein the connecting members are configured to have different internal sizes to selectively accommodate connecting members of various sizes.
6. The apparatus according to claim 5,
The buried support for anti-dusting is shielded by a cap when the concrete is poured to prevent the inflow of concrete,
And a threaded portion is openable to the outside when the plug is removed.
4. The buried support according to claim 3, wherein the elastic member has a shape whose outer diameter changes in the longitudinal direction.
8. The apparatus according to claim 7,
A rotation guide space for guiding movement of the support object in the forward / backward direction and the left / right direction,
And an elastic generating space in which an elastic restoring force is generated in accordance with a position of a coupling hole linked with the movement of the support object.
The connector according to claim 8,
An engaging portion threadably engaged with the threaded portion,
And a force transmitting portion having an area larger than that of the coupling portion to transmit a load of the support object coupled with the coupling portion to the elastic member.
10. The embedded type abutment according to claim 9, wherein the rotation guide space is configured to change the inner diameter size, and the smallest inner diameter size is larger than the outer diameter of the threaded portion.
11. The elastic member according to claim 10, wherein the smallest inner diameter of the elastic member
And the inner diameter of the elastic generating space is larger than the smallest inner diameter of the elastic generating space.

Images