KR20230011452A - Anchor assembly that increases the fixing force of anchor pipes using threaded threads - Google Patents

Abstract

The present invention relates to an anchor assembly having the fixing force of an anchor pipe increased using a screw thread when the anchor pipe positioned in an anchor hole and an anchor bolt inserted into the anchor pipe are connected while a machine or a structure is fixed to concrete. One or more cut portions are formed in a lower portion of the anchor pipe positioned in the anchor hole. When a user rotates the anchor bolt using the anchor bolt inserted into the inner space of the anchor pipe and using a bolt thread formed on the outer circumference of the anchor bolt and a screw thread formed on the inner circumference of the anchor pipe, the bolt thread and the screw thread are engaged with each other so that the cut portions formed in the lower portion of the anchor pipe can extend outward, and thus the extending portions can be fixed to the anchor hole. Depending on circumstances, a silicone capsule can be additionally used to increase the fixing force of the anchor pipe.

Description

Anchor assembly that increases the fixing force of anchor pipes using threaded threads}

The present invention relates to an anchor assembly, and relates to an anchor that increases the fixing power of the anchor pipe by using a screw thread when connecting an anchor pipe positioned in an anchor hole and an anchor bolt inserted into the anchor pipe when a machine or structure is fixed to concrete. It's about assembly.

First, looking at the prior art,

In general, anchor bolts are a common name for bolts that connect structures such as steel structures or wooden pillars, steel girders of bridges, and concrete or reinforced concrete foundations, and various types are provided depending on the purpose of use, and they are simply Looking at it, it can be classified into three types, which can be classified into buried type, strong and chemical anchor bolts.

In the case of the buried anchor bolt, the ground is dug to a certain depth, one end of the bolt is inserted, and then concrete is poured and installed, and is mainly used when installing a street light post.

The strong anchor bolt is a bolt with a tapered wedge at the bottom and an upper portion of the wedge, the lower end of which is cut to a certain length, and a male thread is formed at the top. When the wedge is inserted into the hole and then the upper end of the bolt is hit, the bolt enters the wedge and the cut portion in the tapered portion of the wedge is widened and fixed in the form of digging into the formed hole. It is the most commonly used.

The chemical anchor bolt is a two-component type, in which a hole is formed in the concrete surface while the adhesive and the hardener are stored in the tube, the chemical tube is inserted into the hole, and then the bolt is hit and the chemical tube floats while the adhesive and the hardener are mixed. by which the bolt is fixed.

However, in the case of a conventional strong anchor bolt, the anchor bolt is inserted into the drilled anchor insertion hole, and then the bolt is hit to widen the tapered portion by the wedge. There was a problem with the irregular fixing force of the anchor bolt that uniform fixing force could not be provided as the impact strength of the worked differently depending on the working time.

In addition, due to the secondary problem that the anchor bolt may be damaged when the anchor bolt is forcibly hit to compensate for the above problem, there is a problem in that workability is reduced due to an increase in working time.

In addition, the chemical anchor bolt has the advantage of maintaining a constant strength compared to the strong anchor bolt, but has a problem in that the strength cannot be maintained while the chemical liquid is hardened, increasing the working time.

Accordingly, in the related art, 'anchor bolt' of registration number 20-0375859, 'high tension anchor' of registration number 10-0681888, 'anchor bolt' of publication number 20-2014-0000433, and 'anchor' of publication number 10-2016-0127948 Although 'bolts and their construction methods' have been disclosed, the above problems are still not being improved.

The present invention has been devised to solve the above-mentioned problems of the prior art, and by using an anchor bolt inserted into the inner space of the anchor pipe, one or more incisions are formed in the lower part of the anchor pipe located in the anchor hole. When the user rotates the anchor bolt using the bolt screw thread formed on the outer circumference of the anchor bolt and the screw thread formed on the inner circumference of the anchor pipe, the bolt screw thread and the screw thread are engaged and the incision formed at the lower part of the anchor pipe expands outward, and the expanded portion It was completed as a technical task with an emphasis on providing an anchor assembly that can be fixed to the anchor hole and can increase the fixing power of the anchor pipe by additionally using silicon capsules depending on use.

Therefore, in the present invention, in an anchor assembly composed of an anchor bolt and an anchor pipe inserted into and installed in an anchor hole formed in the concrete to fix a machine or structure to the concrete, the anchor bolt is anchored using a separate operating member at the top. A rotating member for rotating the bolt, a bolt screw thread is formed on the outer circumference of the lower part, an inner space inside the anchor pipe, a screw thread corresponding to the bolt screw thread on the inner side of the lower part, and one or more incisions in the longitudinal direction on the lower part An anchor assembly that increases the fixing power of an anchor pipe using a screw thread, characterized in that a portion is formed, is characterized by its technical features.

According to the anchor assembly of the present invention, which increases the fixing force of the anchor pipe using a screw thread, the incision formed at the bottom of the anchor pipe is expanded outward by the rotation of the anchor bolt, and the expanded portion is fixed to the anchor hole, and the anchor pipe It is an invention with a great effect, such as being able to increase the fixing force for the anchor pipe and anchor bolt by placing a silicon capsule at the bottom.

1 is a perspective view showing an anchor assembly according to the present invention;
Figure 2 is a perspective view showing another embodiment of Figure 1
Figure 3 is a front view showing the connection of Figure 2
Figure 4 is a front cross-sectional view showing the anchor pipe of Figure 3
Figure 5 is a front cross-sectional view showing the connection of Figure 3
Figure 6 is a front cross-sectional view showing the operation of Figure 5
Figure 7 is a front cross-sectional view showing the embodiment of Figure 6
Figure 8 is a front view showing another embodiment of Figure 3
Figure 9 is a front cross-sectional view showing the connection of Figure 8
10 is a front cross-sectional view showing the operation of FIG. 9
Figure 11 is a front view showing another embodiment of the anchor bolt of Figure 3
12 is a front cross-sectional view showing another embodiment of FIG. 3
Figure 13 is a front view showing the connection of Figure 12
14 is a front view showing the operation of FIG. 13
15 is a front cross-sectional view showing another embodiment of the anchor bolt of FIG. 3

Hereinafter, a preferred configuration and operation of the present invention for achieving the above object will be described with reference to FIGS. 1 to 15 with reference to the accompanying drawings.

The anchor assembly, which increases the fixing force of the anchor pipe using the thread of the present invention,

In an anchor assembly composed of an anchor bolt 100 and an anchor pipe 200 inserted and installed in an anchor hole 20 formed in the concrete to fix a machine or structure to the concrete, the anchor bolt 100 is at the top A rotating member 110 for rotating the anchor bolt 100 using a separate operating member, and a bolt thread 120 are formed on the outer circumference of the lower part, and an inner space 210 and , The screw thread 220 corresponding to the bolt screw thread 120 is formed on the inner side of the lower part, and one or more cutouts 230 are formed in the lower part in the longitudinal direction.

If the above invention is described in more detail,

A commonly used anchor assembly is inserted and installed into an anchor hole 20 formed in the concrete to fix a machine or structure to the concrete, and its components include an anchor bolt 100 and an anchor pipe 200.

Accordingly, in the present invention,

A rotating member 110 for rotating the anchor bolt 100 by a user using a separate operating member was formed on the upper part of the anchor bolt 100, and a bolt thread 120 was formed on the lower outer circumference.

The separate operating member is used by the user and corresponds to an operating member capable of rotating the anchor bolt 100 using the rotating member 110.

In the present invention, the rotating member 110 is formed in a polygonal shape, which is the head of a bolt, and this is not limited to that a circular shape and a polygonal shape may be formed in combination.

In addition, when the rotary member 110 of the present invention is formed in a polygonal shape, an impact drill or the like can be used as a separate operating member.

The upper and lower circumference radii of the anchor bolt 100 are formed to be the same.

The bolt thread 120 is formed on the outer circumference of the lower portion of the anchor bolt 100, and is formed only at the lower portion, or formed throughout the entirety except for the rotating member 110, or formed at a predetermined interval among the entirety except for the rotating member 110, and a number of Can be made into a dog.

An internal space 210 is formed inside the anchor pipe 200, and a thread 220 corresponding to the bolt thread 120 is formed on the inside of the lower portion, and at least one thread 220 is formed in the longitudinal direction of the anchor pipe 200 at the lower portion. A plurality of incisions 230 were formed.

The inner space 210 is formed penetrating the inside of the anchor pipe 200 and forms a space so that the anchor bolt 100 can be inserted.

The thread 220 is formed on the inside of the lower part and corresponds to the bolt thread 120.

The screw thread 220 may be formed only on a lower portion, the entire inner space 210, or a part of the inner space 210, similarly to the bolt screw thread 120.

One or more incisions 230 are formed in the longitudinal direction of the anchor pipe 200 and are incised to the inner space.

A screw thread 220 is formed inside the cutout 230 .

In addition, one or more double locking members protruding outward are formed on the outer circumference of the cutout 230 .

The double catching member is configured to increase the fixing force when the cutout 230 is expanded outwardly and fixed to the anchor hole 20.

Referring to Figure 6,

The inside where the cutout 230 is formed is formed to become narrower toward the bottom.

Even if the anchor bolt 100 is inserted up to the top of the cutout 230, the inner and outer circumferences are formed to the same size, so no deformation of the anchor pipe 200 is made, but the anchor bolt 100 When rotated at 230, the incision 230 expands outward, and as a result, the expanded portion is fixed to the anchor hole 20.

It is introduced into the inner space 210 of the anchor pipe 200, and a silicone capsule 300 composed of a liquid composition in which polydimethylsiloxane, diorganopolysiloxane (liquid), and a catalyst is mixed is formed.

The silicone capsule 300 is such that the film is ruptured by an external force so that the liquid phase inside flows to the outside and the liquid phase hardens over time.

The inner liquid composition is a single curing agent or a mixture of a plurality of components including a curing agent, and the outer film is made of a synthetic resin material in which a plurality of components are mixed or a single mixed resin material.

The composition is composed of a mixture of 45 to 65 wt% of polydimethylsiloxane, 20 to 35 wt% of diorganopolysiloxane (liquid), and 0.01 to 0.3 wt% of a catalyst.

In the composition, the amount of the catalyst can be adjusted according to the purpose of use and the curing time of the silicone capsule, and accordingly, the amount of polydimethylsiloxane and diorgano-polysiloxane can be adjusted.

In addition, the mixed composition includes the first composition mixed according to the purpose and effect of the composition.

In the first composition, 1 to 1.2 wt% of sodium polyacrylate, 8 to 20 wt% of silicone oil, 1.5 to 8 wt% of methyloximino silane (MOS), and 0.2 to 3 wt% of vinyl oxymino silane (VOS) %, aerosol silica 2 ~ 15wt%, aminosilane 0.2 ~ 3wt% are mixed.

The basic composition (a composition in which polydimethylsiloxane, diorganopolysiloxane, and a catalyst are mixed) is mixed with the first composition at the same time, and then heated at a constant temperature to complete the composition.

In addition, in the case of the first composition, after simultaneously mixing with the basic composition or separately mixing the components of the first composition as described above, heating to a certain temperature, first drying using a dryer, and completely drying the first composition After the composition was heated to a constant temperature and secondarily dried using natural drying, the completely dried first composition was mixed with the basic composition to be finally completed through a heating step at a constant temperature.

After the first drying or after the first drying and the second drying, a catalyst may be added in a certain amount.

The film of the silicone capsule is made of a mixture of a plurality of components, but 50 to 70% by weight of nylon and MWNT (MultiWalled Nano Tube. Hereinafter referred to as 'multi-layered nanotube') 2 to 4% (0.1 g/ml) It is prepared by heating, processing, and extruding a mixture of 0.2% by weight of antioxidant and 1 to 5% by weight of dispersant.

The mixture may be heated, processed, and extruded in sequence, but for durability of the mixture, after primary processing, primary drying through a dryer, and secondary drying through natural drying by secondary processing of the primary dried mixture And it is possible to prepare a film by tertiary processing of the mixture completed with secondary drying and extruding the mixture completed with tertiary drying through a dryer.

In addition, the mixture includes 8 to 20% by weight of a styrenic resin composed of a copolymer of an unsaturated carboxylic acid compound, 10 to 15% by weight of a polyether ester resin, and a compound containing polyethylene glycol-diacrylate as a hydrophilic monomer A first mixture in which 3 to 7% by weight and 0.3 to 0.5% by weight of a fluorine compound is mixed is included.

Mixing of the mixture and the first mixture,

The coating may be prepared by simple mixing, but the first mixture may be mixed and used after a pretreatment before mixing with the mixture.

The pretreatment process for the first mixture,

After primary processing by mixing the first mixture, primary drying through a dryer, and secondary processing of the primary dried mixture to secondary drying through natural drying, mixing the first mixture with the above mixture to obtain a final After drying through a dryer, it can be extruded to prepare a film.

The silicone capsule is formed in a circular shape or a polygonal shape, or a circular shape in which one or more hollow portions are formed, or a polygonal shape in which one or more hollow portions are formed.

At least one double film is formed on the top or bottom or side view of the silicone capsule, or on the inner part where the hollow part is formed, which is the part where the silicone capsule comes into contact with an external force to the user or a part where a separate product having an external force is touched so that the silicone capsule is ruptured.

An air layer is formed inside the double layered film, and the thickness of the double layered film is formed thinner than that of the layer except for the above double layered film.

The double film formed thinly represents a single film thickness in contrast to a film formed in one layer.

In the case of the double-coated membrane, each is divided into an outer skin and an inner skin, but one or more protrusions may be formed on the inside of the outer skin.

In addition, an air layer may be formed or a certain amount of a catalyst may be located inside the double layered film.

The catalyst located in the double layer film is to control the curing time for the liquid composition when the silicone capsule is ruptured.

Description of the liquid composition described above may be simultaneously applied to the silicone capsule 300 and the external silicone capsule 310, and may be applied differently depending on use.

In addition, the silicon capsule 300 and the external silicon capsule 310 may be formed in a circular or elliptical or angular or semi-circular shape.

A protrusion 130 protruding downward is formed at the bottom of the anchor bolt 100.

One or more protrusions 130 are formed at the bottom of the anchor bolt 100, and the protrusions 130 press the silicon capsule 300 located in the inner space 210 of the anchor pipe 200 to The liquid phase inside the capsule 300 was allowed to flow to the outside.

The liquid phase serves to increase the fixing force of the anchor hole 20 and the anchor pipe 200 to the cutout 230 and to increase the fixing force between the anchor pipe 200 and the anchor bolt 100.

Referring to FIGS. 12 to 14,

Between the anchor bolt 100 and the anchor pipe 200, when the anchor bolt 100 is inserted into the inner space 210 of the anchor pipe 200, an external silicone capsule ( 310) is configured, and an external protrusion 140 that contacts the external silicon capsule 310 is configured on the outer circumference of the anchor bolt 100.

The external silicon capsule 310 is formed in the shape of a donut with a central portion penetrating, and is constructed between the anchor bolt 100 and the anchor pipe 200, and when the anchor bolt 100 and the anchor pipe 200 are coupled, It is located on the outer periphery of the anchor bolt 100.

When the anchor bolt 100 is inserted, the external protrusion 140 formed on the outer circumference of the anchor bolt 100 presses the external silicon capsule 310, and as shown in FIG. 14, the outer circumference of the anchor pipe 200 flows down through the

Referring to Figure 15,

The anchor bolt 100 has a bolt thread 120 formed on the outer circumference, but at the same time, a groove 150 of a certain depth may be formed or a through hole 150 may be formed in a spiral shape.

The groove and the through hole 150 allow the liquid phase of the silicon capsule 300 or the external silicon capsule 310 to flow in to increase the fixing force.

According to the present invention as described above, the incision formed at the bottom of the anchor pipe is expanded outward by the rotation of the anchor bolt, and the expanded extension is fixed to the anchor hole, and the silicon capsule is placed at the bottom of the anchor pipe to make the anchor pipe and can increase the fixing force for anchor bolts.

20 : Anchor
100: anchor bolt 110: rotating member 120: bolt thread
130: protrusion 140: external protrusion 150: groove or through hole
200: anchor pipe 210: inner space 220: thread
230: incision
300: silicon capsule 310: external silicon capsule

Claims (4)

In order to fix the machine or structure to the concrete, a rotating member 110 for rotating the anchor bolt 100 using a separate operating member at the top, and a bolt thread 120 on the outer circumference of the bottom are formed,
Inside the anchor pipe 200, an internal space 210, a screw thread 220 corresponding to the bolt screw thread 120 inside the lower part, and one or more cutouts 230 in the longitudinal direction are formed in the lower part. In the anchor assembly composed of the anchor bolt 100 and the anchor pipe 200, which is inserted and installed in the anchor hole 20 formed in the concrete,
A spiral through hole 150 is formed on the outer circumference of the anchor bolt 100,
The silicone capsule 300 is formed in a circular shape, a polygonal shape, a circular shape with one or more hollow portions, or a polygonal shape with one or more hollow portions, and a double film is formed on the top, bottom, side, or inner portion of the silicone capsule 300 where the hollow portion is formed. An anchor assembly that increases the fixing force of the anchor pipe using a screw thread, characterized in that it is.
According to claim 1,
An anchor assembly that increases the fixing force of the anchor pipe using a screw thread, characterized in that the inside where the cutout 230 is formed is formed to become narrower toward the bottom.
According to claim 1,
The silicone capsule 300 is introduced into the inner space 210 of the anchor pipe 200 and is composed of a liquid composition in which polydimethylsiloxane, diorganopolysiloxane (liquid phase), and a catalyst are mixed. Using a screw thread, characterized in that Anchor assembly with increased fixing power of anchor pipe.
According to claim 1,
An anchor assembly that increases the fixing force of the anchor pipe using a screw thread, characterized in that a protrusion 130 protruding downward is formed at the bottom of the anchor bolt 100.

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