KR101822028B1 - Insulation Punching Device - Google Patents

Abstract

The present invention relates to a device for punching an insulating material, comprising: a punching member formed with a saw portion on a lower surface of a cylindrical shaped main body; and a mounting member installed in the punching member so that the punching member can be rotated by a driving means, thereby capable of simply punching an insulating material by using the saw portion formed in the punching member, remarkably reducing punching operation time of the insulating material by rotating the punching member by a motor tool or the like for punching, reducing a construction time by reducing a punching time in which an outlet box is exposed to the outside, and reducing fatigue of operators.

Description

{Insulation Punching Device}

The present invention relates to a heat insulator perforation apparatus, and more particularly, to a heat insulator perforation apparatus, which is capable of vertically perforating a heat insulator and providing an outlet box at a lower portion thereof so as to connect electric pipes, The present invention relates to a heat insulator perforation device for horizontally perforating a wall insulator through a wall.

Generally, when building a building using concrete, wiring for supplying electric power to various electrical and electronic devices and lighting equipment is mostly carried out through a concrete slab for floor or a concrete slab for ceiling.

That is, in all concrete buildings, a pipe such as a hollow pipe for electric wiring is installed in a ceiling slab or a floor slab of a building in consideration of appearance or fire, etc., .

A round, square or octagonal enclosed outlet box (or concrete box) is provided at each of the connection and the shortest end of the pipes to connect the wires wired through the pipe in the outlet box or to connect wires to lighting devices .

FIG. 1 is a bottom perspective view of an outlet box 101 according to the related art, and FIG. 2 is a sectional view showing a fixing structure of the outlet box 101 according to the prior art.

As shown in FIGS. 1 and 2, the outlet box 101 is formed in a hollow shape with its lower surface opened, a through hole 111 is formed in an upper surface thereof, and a pipe (not shown) An inner flange 120 formed by bending inward on the lower surface of the box body 110 and having a coupling hole 121 formed therein and a lower flange 120 formed on the lower side of the box body 110. [ And a cover 130 in which a wiring discharge hole 131 is formed at the center and a coupling slit 133 corresponding to the coupling hole 121 of the inner flange 121 is formed.

2, when the outlet box 101 is installed in the ceiling concrete slab 105, the outlet box 101 is placed in front of the concrete slab 105 before the concrete slab 105 is installed, Is fixed on the plywood die 103.

In this case, a temporary fixing member (not shown) such as a nail is inserted through the through hole 111 formed in the upper surface of the box body 110 and fixed on the plywood mold 103.

Meanwhile, in recent years, in order to insulate the building, a heat insulating material having a predetermined height is installed on the upper surface of the mold 103, and the outlet box 101 is located on the bottom surface of the heat insulating material.

Therefore, the heat insulating material is punctured such that the outlet box 101 is exposed to connect the electric wire to the outlet box 101.

The perforation of such a heat insulating material is not provided with a separate equipment or tool, so that the worker is manually punched using a knife or other tool.

As a result, the operation time of the heat insulating material is long, the worker's fatigue is increased, the work efficiency is lowered, and the construction period of the building is increased.

For example, a 'concrete puncher' is disclosed in Patent Document 1 below.

The concrete perforator according to the following Patent Document 1 is a conventional concrete perforator formed of a base having a power unit for rotating a drill, a power unit, a column and a column for allowing a drill to be moved, and a wheel and a base fixing bolt , And an angular measurement unit having a fan-shaped hole, a hole, and an angular indication scale formed on the upper surface of the base opposite to the wheel are integrally formed.

A bracket having an opening corresponding to the hole and a hole with the same horizontal center is integrally formed in front of the angle measuring table, and then a hole is formed downward and a hole having a hole coinciding with the hole of the angle measuring table is formed, And has an angle measuring table.

The brackets are positioned between the brackets, and the pins are inserted and fixed with a snap ring or a split pin so that the column is pivotally moved about the center of rotation with the pin as a center of rotation. After inserting the fixing bolts through the hole of the column and the hole of the angle measuring table, Two nuts fix the column to the angle measuring table.

The following Patent Document 2 discloses a " ceiling electric box ".

The ceiling electric box according to the following Patent Document 2 is an outlet box which is installed in a concrete slab of a building and enables wiring for power supply to various lighting equipment and the like, An inner flange formed by bending inward at a lower portion of the box body and having an engaging hole formed therein; an outer flange formed by bending the outer side of the box body, wherein, prior to the insertion of the concrete slab or the wall body, And a cover which is coupled to the inner flange and covers the lower surface of the box body. The cover body includes a cover body having a through-hole for penetrating the cover body.

Korean Utility Model Publication No. 20-1998-0029113 (published on August 5, 1998) Korean Patent Publication No. 10-2008-0010558 (published on January 31, 2008) Korean Patent Publication No. 10-2005-0112495 (published on November 30, 2005) Korean Patent Registration No. 10-1320465 (issued on October 23, 2013)

It is an object of the present invention to provide a heat insulating material punching apparatus capable of easily punching a heat insulating material applied to an upper portion of an outlet box to solve the above problems.

Another object of the present invention is to provide a heat insulating material punching device capable of increasing or decreasing the length of the perforated member according to the perforation length of the heat insulating material.

In order to accomplish the above object, a thermal insulator perforation apparatus according to the present invention comprises a perforated member having a serrated portion formed on a bottom surface of a cylindrical perforated member body; And a mounting member installed on the perforated member so that the perforated member is rotated by the driving means.

And a plurality of connection members provided to extend the length of the perforated member rotated by the mounting member.

Wherein the perforating member comprises: a perforated member body formed in a hollow cylindrical shape; A saw blade portion formed at one end of the perforated member body to perforate a heat insulating material; A discharge hole formed in the perforation body so that the heat insulating material punctured by the saw blade part is discharged to the outside; And a fixing hole formed on an upper portion of the main body to fix the mounting member.

Wherein the perforating member comprises: a perforated member body formed in a hollow cylindrical shape; A plurality of saw blades formed at one end of the perforated member body to perforate a heat insulating material; An inner saw blade extending integrally from the saw blade portion to the inside of the main body; And a discharge hole formed in the body so that the heat insulating material punctured by the saw blade part is discharged to the outside.

Wherein the connecting member comprises: a connecting member body having a hollow cylindrical shape; A first fastening portion formed at a lower portion of the connecting member main body to be coupled to an upper portion of the perforated member; A second fastening portion formed on an upper portion of the connecting member body so that the fastening member is engaged; And a discharge hole formed in the body so that the heat insulating material punctured by the saw blade part is discharged to the outside.

As described above, according to the heat insulating material perforating apparatus of the present invention, the saw part is formed in the perforating member, the heat insulating material can be easily drilled, and drilling operation time of the heat insulating material can be drastically It is possible to reduce the drilling time for exposing the outlet box to shorten the construction period and to combine a plurality of connecting members according to the length to be drilled so as to drill without any restriction according to the drilling length, The effect can be obtained.

1 is an exploded perspective view showing a conventional outlet box,
2 is a schematic sectional view showing a fixing structure of an outlet box according to the prior art,
FIG. 3 is an exploded perspective view showing a heat insulating material perforating apparatus according to a first preferred embodiment of the present invention,
FIG. 4 is an exploded perspective view showing a heat insulating material perforating apparatus according to a second preferred embodiment of the present invention, FIG.
FIG. 5 is a perspective view showing a heat insulating material perforating apparatus according to a third preferred embodiment of the present invention.
FIG. 6 is a perspective view showing a heat insulating material perforating apparatus according to a fourth preferred embodiment of the present invention.
FIG. 7 is an exploded perspective view showing a heat insulating material perforating apparatus according to a fourth preferred embodiment of the present invention. FIG.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a heat insulating material punching apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The heat insulator perforating apparatus according to a preferred embodiment of the present invention includes a perforated member 10 having a saw blade 12 formed on a bottom surface of a cylindrical perforated member body 11 such that the perforated member 10 is rotated by the driving means And a mounting member 20 installed on the perforated member 10.

The heat insulator perforating apparatus according to an embodiment of the present invention punctures a heat insulator so that an outlet box (or a concrete box) provided below the heat insulator (not shown) is exposed. In the present invention, 'heat insulator' Pink, and phenol foam, or heat insulators that block heat.

≪ Embodiment 1 >

The heat insulator perforating apparatus according to the embodiment of the present invention comprises a perforating member 10 for perforating a heat insulating material to a predetermined diameter and a mounting member 20 coupled to the perforated member 10 by a power tool such as an electric drill.

As shown in FIG. 3, the perforated member 10 is formed of a hollow cylindrical perforated member body 11 having a predetermined diameter to perforate the heat insulating material.

The perforated member 10 includes a perforated member 11 formed in a hollow cylindrical shape, a saw blade 12 formed at one end of the perforated member 11 to perforate a heat insulating material, A fixing hole 14 formed in the upper portion of the perforation body 11 so that the mounting member 20 is fixed to the fixing hole 14 is formed in the hole 13 formed in the perforated member body 11 so that the heat- .

A saw blade portion 12 having a sawtooth shape is formed in the lower portion of the perforated member body 11 to puncture the heat insulating material.

The saw blade portion 12 may be formed into a shape distorted at a predetermined angle so that the heat insulating material is smoothly punched.

A plurality of discharge holes 13 are formed in the perforation body 11 to discharge the heat insulating material drilled when the heat insulating material is perforated. The discharge hole 13 discharges the perforated heat insulator so that the perforation of the heat insulator can be smoothly performed. And the discharge hole 13 is formed to discharge the perforated insulation. That is, after the perforation is completed, the discharge hole 13 is formed to discharge the heat insulating material contained in the perforated member body 11.

Needless to say, the discharge holes 13 may be formed in a spiral shape so that the heat insulating material is discharged more smoothly, and the discharge holes 13 are formed in the perforator main body 11 in two or more.

On the other hand, the discharge hole 13 is formed not only to discharge the perforated heat insulating material but also to a plurality of shapes such as elliptical shape, straight shape, arcuate shape, etc., so as to reduce the raw material and reduce frictional force with the heat insulating material.

A fixing hole 14 is formed in the upper portion of the perforated member body 11 to fix the mounting member 20 and the fixing hole 14 is formed at a different height so that the fixing pin 16 is fixed in an intersecting direction. do.

The mounting member 20 includes a mounting member body 21 formed in a hollow cylindrical shape, a fixing hole 22 formed in the lower portion of the main body to be coupled to the perforated member 10, And a mounting portion 24 fixed to the upper surface of the housing 21.

The mounting member 20 has a hollow cylindrical shape with its bottom surface opened and a mounting member body 21 is formed. The mounting surface of the mounting member main body 21 is closed. A fixing hole 22 corresponding to the fixing hole 14 of the puncturing member 10 is formed in the lower portion of the mounting member main body 21.

And a fixing pin (not shown) which is coupled to the fixing hole 14 of the perforated member 10 and the fixing hole 22 of the mounting member 20 is provided.

Needless to say, the perforated member 10 and the mounting member 20 can be fixed by fixing means such as bolts, nuts, and rivets in addition to the fixing pins.

A mounting portion 24 is fixed to an upper surface of the mounting member 20 so that an electric drill (not shown) is mounted. The mounting portion 24 includes a fixing protrusion 25 protruding from the upper surface of the mounting member 20, The fixing groove portion 26 is formed.

The fixing groove 26 is formed on the outer surface of the fixing protrusion 25 so that the electric drill or the like is firmly mounted.

≪ Embodiment 2 >

4 is an exploded perspective view showing a heat insulating material perforating apparatus according to a second preferred embodiment of the present invention.

As shown in FIG. 4, a heat insulating material puncturing apparatus according to a second embodiment of the present invention will be described using the same names and reference numerals as those of the first embodiment.

As shown in FIG. 4, the heat insulator perforation apparatus according to another embodiment of the present invention is for perforating the heat insulator at the side, and the length of the perforator 10 can be adjusted according to the length of the heat insulator.

The heat insulator perforation apparatus according to the second embodiment of the present invention further includes a plurality of connecting members 30 extending to extend the length of the perforated member 10 rotated by the mounting member 20.

The perforated member 10 has a hollow cylindrical body 11 formed therein and a saw blade 12 is formed on the bottom surface of the perforated member 11 to perforate the heat insulating material. A plurality of discharge holes 13 are formed.

On the other hand, the discharge hole 13 is formed not only to discharge the perforated heat insulating material but also to a plurality of shapes such as an elliptical shape, a straight shape, an arcuate shape, etc. to reduce the raw material and reduce the frictional force with the heat insulating material.

A fastening portion 15 formed of a threaded portion is formed on the upper portion of the perforated member body 11 so that the connecting member 30 is fastened to the inside of the upper surface of the perforated member body 11 so that the connecting member 30 is engaged.

The fastening portion 15 is formed in a female screw shape to fasten the connecting member 30 to the inside of the perforated member 11.

That is, in the perforated member 10, the fastening portion 15 is formed on the upper portion of the perforated member 11 so that the connecting member 30 is fastened.

The mounting member 20 is formed in a hollow cylindrical shape having an open top and bottom, and a lower coupling portion (not shown) is formed at a lower portion of the mounting member 20 so as to be coupled to the coupling member 30.

A mounting portion 24 is provided on the upper surface of the mounting member 20. The mounting portion 24 includes a fixing protrusion 25 protruding with a predetermined size for mounting an electric drill or the like and fixing protrusions 25 A plurality of fixing holes 26 are formed on the outer surface of the base plate 26.

The connecting member 30 is formed with a connecting member body 31 in a hollow shape having a predetermined diameter. The connecting member main body 31 is formed in a hollow cylindrical shape with open upper and lower surfaces.

A first fastening part 32 in the form of male thread is formed on the lower part of the connecting member 30 so as to be coupled with the puncturing member 10 or another connecting member 30, 30 are formed in the second fastening portion 33 in the form of a female screw.

The first and second fastening portions 32 and 33 of the connecting member 30 provided at the uppermost end of the plurality of connecting members 30 are fastened to the connecting member fixing holes 37 And a plurality of discharge holes 35 are formed in the connecting member main body 31 of the connecting member 30. [

In addition, the discharge hole 35 is formed so as to discharge the heat-insulating material to be drilled, and to form a plurality of the heat-insulating material in an elliptical shape, a straight-line shape, an arcuate shape, etc. to reduce the raw material and reduce the frictional force with the heat insulating material.

≪ Third Embodiment >

5 is a perspective view of a heat insulating material perforating apparatus according to a third preferred embodiment of the present invention.

The heat insulating perforation apparatus according to the third embodiment of the present invention shown in FIG. 5 comprises the perforated member 10 and the mounting member 20 as in the first embodiment, and uses the same names and reference numerals And a description thereof will be omitted.

5, a saw blade 12 is formed in the perforated member 10, and the saw blade 12 has an inner saw blade 12a which is thicker than the thickness of the perforated member 11 of the perforated member 10, Are integrally formed.

The saw blade portion 12 and the inner saw blade 12a are made of one saw blade and the saw blade portion 12 protruding inward of the perforated member body 11 is described as an inner saw blade 12a .

The inner saw blade 12a protrudes to the inside of the perforated member 11 so that the diameter of the perforated heat insulating material is drilled to have a smaller diameter so that the heat insulating material can smoothly move into the perforated member main body 11. [

That is, the inner saw blade 12a is perforated so that the heat insulating material to be perforated is perforated with a diameter smaller than that of the perforated member body 11, and the heat insulating material is freely moved in the perforated member main body 11. [

<Fourth Embodiment>

FIG. 6 is a perspective view of a heat insulating material perforating apparatus according to a fourth preferred embodiment of the present invention, and FIG. 7 is an exploded perspective view showing a heat insulating material perforating apparatus according to a fourth preferred embodiment of the present invention.

6 and 7, in the heat insulating perforation apparatus according to the fourth embodiment of the present invention, the perforated member main body 11 and the saw blade portion 12 of the perforated member 10 are detachably coupled to each other, The same components as those in the third embodiment will be described using the same names and reference numerals, and a duplicate description will be omitted.

The heat insulator perforation apparatus according to the fourth embodiment is provided with a saw blade 12 separated at one end of a perforated member 11 of a perforated member 10. An inner saw blade 12a protruding inward is formed integrally with the saw blade portion 12 and a male threaded portion 12b is integrally formed at a lower portion of the saw blade portion 12. [

In addition, a fastening part 15 of a female screw type is formed at one end of the perforated member body 11 of the perforated member 10 so that the saw blade part 12 is engaged.

In addition, cemented carbide or diamond is coated on the saw blade portion 12 according to the third embodiment and the fourth embodiment so as to drill a heat insulating material having high strength.

3 to 7, an operation method of a heat insulating material punching apparatus according to a preferred embodiment of the present invention will be described.

The heat insulating perforator according to the present invention includes a mold for curing concrete and an outlet box for supplying electricity to the upper surface of the mold.

A heat insulating material having a predetermined thickness is applied to the upper side of the outlet box, and the heat insulating material is punctured such that the outlet box is exposed when the heat insulating material is completely applied.

The worker places a heat insulating material perforating device made up of the perforating member 10 and the mounting member 20 at the point where the outlet box is installed and connects the driving means such as an electric drill to the mounting portion 24 of the mounting member 20.

Since the mounting portion 24 is formed with a plurality of fixing grooves 26, it is firmly coupled to a power tool such as an electric drill.

As the power tool is rotated in the state where the driving means is mounted, the mounting member 20 and the perforated member 10 are rotated.

Since the saw blade portion 12 is formed in the lower portion of the perforated member 10, the heat insulating material is perforated by the saw blade portion 12, and the perforated thermal insulating material flows into the perforated member 10.

The heat insulating material introduced into the perforated member 10 causes the debris generated during the perforation to be discharged to the outside through the discharge hole 13 so that the perforated member 10 is rotated more smoothly.

Meanwhile, as shown in FIG. 4, the heat insulator perforation apparatus punctures the heat insulator even in the horizontal direction. When the outlet box and the electric pipe are horizontally connected, the insulator is horizontally punched.

That is, the operator joins the at least one connecting member 30 to the perforating member 10, and the connecting portion 30 of the connecting member 30 and the connecting portion 15 of the perforating member 10, And fasten the fastening portion 33 with a length appropriate for the length to be drilled.

As the one or more connecting members 30 are fastened between the perforated member 10 and the mounting member 20, the heat insulating material can be perforated even when the perforation length of the heat insulating material is 1 m or more.

That is, when the beam formed between the column and the column is formed to have a width of approximately 400 to 500 cm, if the heat insulating material is provided on the outer surface of the beam, the length of the heat insulating material is approximately 1 m. So that the heat insulating material can be perforated.

When the perforation length of the heat insulating material is approximately 1 m or more, the operator sequentially joins the plurality of connecting members 30, and the connecting member 30 has a plurality of connecting members 30) can be combined.

In the state where the connecting member 30 is coupled with the desired length, the operator drills the heat insulating material while rotating the perforated member 10, the connecting member 30, and the mounting member 20 as the power tool is operated.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

10: perforated member 11: perforated member main body
12: saw blade portion 12a: inner saw blade
12b: screw portion 13: discharge hole
14: fixing hole 15: fastening portion
16: Fixing pin
20: mounting member 21: mounting member main body
22: fixing hole 24: mounting portion
25: Fixing projection 26: Fixing groove
30: connecting member 31: connecting member main body
32: first fastening part 33: second fastening part
37: connecting member fixing hole 35: exhaust hole

Claims (5)

And a saw blade portion 12 formed in a saw-tooth shape to puncture a heat insulating material is provided at one end of the perforated member main body 11, and the saw blade portion 12 A plurality of discharge holes 13 are formed in a spiral shape in the perforated member main body 11 so that the heat insulating material to be perforated is discharged to the outside and a fastening part 15 made of threaded parts is provided inside the upper part of the perforated member main body 11 A perforated member 10;
And a mounting member body 21 mounted on the perforated member 10 so that the perforated member 10 is rotated by the driving means. A plurality of fixing holes 22 are provided in a lower part of the main body 21 and a fixing protrusion 25 protruding from the upper surface of the mounting member main body 21 to be mounted on the driving means, A mounting member (20) having a mounting portion (24) composed of a mounting portion (26);
A connecting member main body 31 having a hollow cylindrical shape with open top and bottom is provided to extend the length of the perforated member 10 to be rotated, A second fastening part 33 in the form of a female screw is provided on the upper part of the connecting member main body 31 so that the mounting member 20 is engaged with the first fastening part 32. [ And a discharge hole 35 formed in the connecting member body 31 for discharging the heat insulating material punctured by the saw blade 12 of the perforated member 10 to the outside, And a plurality of connecting members (30) having a connecting member fixing hole (37) at a position corresponding to the fixing hole (22) of the mounting member (20).
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