JP2012041955A - Nut structure and embedded nut structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a nut structure that restrains a ratio of length to an inner diameter in a screw hole and adjusts a length for use according to the depth of a fixing hole.SOLUTION: The nut structure 20 includes: a first nut 21 on which a first screw hole 21a is formed; a second nut 22 on which a second screw hole 22a is formed; a connecting screw body 24 on which a first screw groove 24a screwed with the first screw hole 21a is formed at one end while leaving a part of the first screw hole 21a and a second screw groove 24a screwed with the second screw hole 22a is formed at the other end, respectively; and a sealing part 26 for holding a connection part between the first screw hole 21a and the first screw groove 24a in a watertight state.

Description

  The present invention relates to a nut structure used by being embedded in a casing, and an embedded nut structure including the nut structure.

Conventionally, in order to connect an anchor bolt to a housing, a member connectable to the anchor bolt is embedded in the housing.
For example, the fixing element fixing capsule described in Patent Document 1 has a structure in which an opening of a container main body containing an adhesive main agent is sealed with a cap obtained by solidifying a hardener and an inorganic material with a solid agent. . This capsule is inserted into a hole (fixed hole) formed in concrete, and when the rod-shaped member is inserted into this hole, the capsule is broken and the main agent and the solid agent are mixed. A rod-shaped member can be fixed to concrete.
However, this connection method using a capsule has a problem that a rod-like member cannot be repeatedly connected to concrete.

Further, in the anchor bolt fixing method described in Patent Document 2, the anchor bolt is inserted into the anchor hole in a state where the anchor sleeve is extrapolated to the anchor bolt having a tip-shaped tapered portion. And when the tapered swelled portion reaches the swelled bottom of the anchor hole, when the anchor sleeve is pressed toward the anchor hole side, the tip of the anchor sleeve is expanded by the tapered swelled portion. The anchor bolt will not come out of the anchor hole.
In this fixing method, play is likely to occur between the anchor bolt and the anchor sleeve and between the anchor sleeve and the anchor hole, and it is difficult to stably fix the anchor bolt to the housing.

  In order to solve the problem that the connection method using the capsule described in Patent Document 1 cannot be repeatedly connected and the problem that the fixing method described in Patent Document 2 is loose, the following connection structure has been studied. ing. This connection structure includes a nut member (nut structure) embedded in the housing and an anchor bolt that is screwed into the nut member. By comprising in this way, an anchor bolt can be repeatedly connected to a housing, suppressing backlash.

JP-A 63-142199 JP-A-6-65931

However, in the connection structure using the embedded nut member and the anchor bolt, the nut member is screwed with respect to the inner diameter of the screw hole formed inside in order to support the shearing force acting in the radial direction of the anchor bolt. It is necessary to make the length of this sufficiently long, for example, several times or more. Since a general threading cutter can form only a screw hole having a length of several tens mm, for example, a special tool is used to manufacture a long nut member having a diameter of 24 mm and a length of 150 mm. There is a need.
Further, since the holes formed in the housing are formed with various depths depending on construction conditions and dimensional errors, a nut member that can be used regardless of the depth of the holes is required.

  The present invention has been made in view of such problems, and it is possible to suppress the ratio of the length to the inner diameter in the screw hole and to adjust the length according to the depth of the fixing hole. It is an object of the present invention to provide a nut structure that can be formed and an embedded nut structure in which the nut structure is embedded in a casing.

In order to solve the above problems, the present invention proposes the following means.
The nut structure of the present invention includes a first nut in which a first screw hole is formed, a second nut in which a second screw hole is formed, and a part of the first screw hole. A connecting screw body in which a first screw groove to be screwed into the first screw hole is formed at one end, and a second screw groove to be screwed into the second screw hole is formed at the other end; And a sealing portion for holding a connection portion between the screw hole and the first screw groove in a water-tight manner.
According to this invention, the first nut and the second nut are adjusted by adjusting the axial range in which the second screw hole of the second nut and the second screw groove of the connecting screw body are screwed together. The distance to the nut changes.

In the nut structure, the second screw groove of the connecting screw body is configured to be screwed into the second screw hole, leaving a part of the second screw hole. And an adjustment screw body that is screwed from the opposite side of the second screw hole of the second nut to the second screw hole. More preferably.
According to this invention, the second nut and the adjusting screw are adjusted by adjusting the axial range in which the adjusting screw body and the second screw groove are engaged with the second screw hole of the second nut. The distance to the body changes.

In the nut structure, it is more preferable that the adjustment screw body is provided with a large-diameter portion whose outer diameter is larger than the outer diameter of the second screw groove.
In the nut structure described above, it is more preferable that the sealing portion includes at least one of resin, rubber, oil and fat, and a weld connection portion.
In the nut structure described above, it is more preferable that the sealing portion is a flange portion that is provided on the coupling screw body and is in watertight contact with an edge portion of the first screw hole.

The embedded nut structure according to the present invention includes a housing provided with a reference surface through which a fixing hole is opened, and the first nut is positioned on the opening side of the fixing hole in the fixing hole. The nut structure according to any one of the above, wherein an end opposite to the nut is in contact with a bottom of the fixing hole, and a fixing member that fixes an outer surface of the nut structure in the fixing hole It is characterized by providing these.
According to the present invention, the nut member is positioned by the fixing member in a state where the nut structure is vertically positioned in the fixing hole by bringing the end of the nut structure opposite to the first nut into contact with the bottom of the fixing hole. Fix the structure in the fixing hole.

In the present invention, according to the nut structure of the first aspect, since the distance between the first nut and the second nut, that is, the total length of the nut structure is changed, the nut structure is changed according to the depth of the fixing hole. Can be used by adjusting the length. Further, since the first nut and the second nut are connected in the axial direction, the ratio of the length of the nut to the inner diameter of the screw hole is suppressed, and a nut structure including the nut is easily manufactured. can do.
The sealing portion can prevent liquid or the like from entering the first screw hole through the connecting portion between the first screw hole and the first screw groove.
Moreover, according to the nut structure of Claim 2, it can be adapted even when the fixing hole is formed deeper.
According to the nut structure of the third aspect, for example, when another member is sandwiched between the second nut and the large diameter portion, the adjustment screw body can be made difficult to move in the axial direction. .
Moreover, according to the nut structure of Claim 4, the connection part of a 1st screw hole and a 1st screw groove can be hold | maintained more reliably watertight.
According to the nut structure of the fifth aspect, the connection portion between the edge portion of the first screw hole and the flange portion can be more securely held in a watertight manner.
According to the embedded nut structure of the present invention as set forth in claim 6, the first screw hole of the first nut can be accurately arranged with respect to the housing.

It is side surface sectional drawing of the nut structure of 1st Embodiment of this invention. It is front sectional drawing of the embedded nut structure of this embodiment provided with the nut structure. It is a figure explaining the manufacturing method of the embedded nut structure. It is front sectional drawing explaining the modification at the time of manufacture of the embedded nut structure. It is side surface sectional drawing which shows the modification of the nut structure. It is side surface sectional drawing which shows the modification of the nut structure. It is side surface sectional drawing which shows the modification of the nut structure. It is front sectional drawing of the embedded nut structure of 2nd Embodiment of this invention. It is sectional drawing of the cutting line AA in FIG.

(First embodiment)
Hereinafter, a nut structure according to a first embodiment of the present invention will be described with reference to FIGS.
As shown in FIG. 1, the nut structure 20 includes an upper nut (first nut) 21, a middle nut (second nut) 22, and a lower nut (second nut) 23 formed in a polygonal cylindrical shape. And connecting screw bodies 24 and 25 for connecting the upper nut 21 and the middle nut 22, and the middle nut 22 and the lower nut 23, respectively, and screw holes (first screw holes) formed in the inner peripheral surface of the upper nut 21. 21a and a sealing portion 26 for holding a connection portion between the screw groove 24a formed in the connecting screw body 24 in a watertight manner.

In the present embodiment, the upper nut 21, the middle nut 22, and the lower nut 23 are formed in the same shape. That is, the screw hole 21a of the upper nut 21, the screw hole (second screw hole) 22a formed in the middle nut 22, and the screw hole (second screw hole) 23a formed in the lower nut 23 have the same inner diameter. And the pitch is set.
The connecting screw body 24 and the connecting screw body 25 have a screw groove (first screw groove and second screw groove) 24a and a screw groove (first screw groove and second screw groove) 25a over the entire length. Each is formed.
The screw groove 24a of the connecting screw body 24 is screwed into the screw hole 21a with one end screwed into the screw hole 21a, leaving a part of the screw hole 21a in the upper nut 21, and leaving a part of the screw hole 22a in the middle nut 22. The other end is screwed to 22a. Similarly, one end of the screw groove 25 a of the connecting screw body 25 is screwed into a portion of the screw hole 22 a of the middle nut 22 where the screw groove 24 a is not screwed, and a part of the screw hole 23 a of the lower nut 23. Is screwed into the screw hole 23a.

The sealing portion 26 is disposed at a connection portion between the screw groove 24a and the end portion of the screw hole 21a. In the present embodiment, an adhesive formed of resin is used. The sealing portion 26 is disposed over the entire circumference at a predetermined position in the axis C direction in the screw groove 24a.
An adjusting screw body 27 is connected to the end of the lower nut 23 opposite to the side on which the connecting screw body 25 is screwed.
The adjustment screw body 27 has a screw groove (second screw groove) 27a and a large-diameter portion 27b provided at an end of the screw groove 27a. The large diameter portion 27b is formed in a disk shape whose outer diameter is larger than the outer diameter of the screw groove 27a. The screw groove 27 a is screwed into the screw hole 23 a of the lower nut 23 so that the large diameter portion 27 b is separated from the lower nut 23 by a predetermined distance.
The nut structure 20 configured as described above can change the length in the direction of the axis C by adjusting the range in which each screw hole and the screw groove are screwed together.

Then, the embedded nut structure of this embodiment provided with the nut structure 20 of the said embodiment is demonstrated. In the following embodiment, a case where the embedded nut structure is used for foundation construction of a building will be described as an example.
As shown in FIG. 2, the embedded nut structure 1 of the present embodiment includes a reinforced concrete (frame) 10 provided with a reference surface 12 through which the fixing hole 11 is opened, and the above-described nut structure disposed in the fixing hole 11. 20 and a grout material (fixing member) 30 for fixing the outer surface of the nut structure 20 in the fixing hole 11.

The fixing hole 11 is formed in the reinforced concrete 10 by boxing in which concrete is allowed to flow after placing the formwork, or by drilling using a concrete cutter or the like.
The nut structure 20 is arranged in the fixing hole 11 such that the upper nut 21 is positioned on the opening 11 a side of the fixing hole 11 and the large-diameter portion 27 b of the adjustment screw body 27 is in contact with the bottom surface of the fixing hole 11. ing. Further, the nut structure 20 is arranged so that the opening of the screw hole 21 a of the upper nut 21 faces upward, and the end surface on the opening side of the upper nut 21 is flush with the reference surface 12.
As the grout material 30, cement, mortar, or the like can be appropriately selected and used. The upper surface of the grout material 30 is configured to be flush with the reference surface 12 of the reinforced concrete 10.
As described above, the nut structure 20 is arranged in a state embedded in the reinforced concrete 10.

The reference surface 12 of the reinforced concrete 10, the top surface of the grout material 30, and the end surface of the upper nut 21 constitute a single plane as a whole, and a plate-like base material 41 is disposed on the one plane. A through hole 41a is formed in the base material 41 in the thickness direction.
On the base material 41, a screw member 42 having a screw groove 42a formed at the same outer diameter and pitch as the screw groove 24a and a flange 42b provided at one end of the screw groove 42a is disposed. And the collar part 42b is latched by the upper surface of the base material 41, and the base material 41 is being fixed on the reinforced concrete 10 by screwing the screw groove 42a to the screw hole 21a through the through-hole 41a.

Next, a method for manufacturing the nut structure 20 and the embedded nut structure 1 configured as described above will be described.
First, a fixed hole 11 having a predetermined depth is formed in the reinforced concrete 10 by drilling or the like.
Subsequently, one end of the connecting screw body 24 is screwed into the screw hole 21a while leaving a part of the screw hole 21a of the upper nut 21. At this time, the sealing portion 26 is disposed over the entire circumference at the connection portion between the upper nut 21 and the connecting screw body 24. Then, the nuts 22 and 23, the connecting screw body 25, and the adjusting screw body 27, which are additional members constituting the nut structure, are selected so that the total length of the nut structure becomes equal to the depth of the fixing hole 11, The nut structure 20 of this embodiment is configured by adjusting the range in which the screw hole and the screw groove are screwed together.

Next, as shown in FIG. 3, the upper nut 21 is positioned on the opening 11 a side of the fixing hole 11 in the fixing hole 11, and the large-diameter portion 27 b of the adjusting screw body 27 contacts the bottom surface of the fixing hole 11. Arrange to touch. At this time, the end face of the upper nut 21 is disposed on the same plane as the reference plane 12.
The liquid grout material before curing is poured into the fixing hole 11 so that the grout material does not enter the upper nut 21. Since the sealing portion 26 is disposed at the connection portion between the nut 21 and the connecting screw body 24, the liquid grout material is prevented from flowing into the upper nut 21.
By leaving in this state for a predetermined period of time, the liquid grout material is cured to become a grout material 30 as shown in FIG. As described above, the embedded nut structure 1 of the present embodiment is manufactured.

As described above, according to the nut structure 20 of the present embodiment, by adjusting the range in the axis C direction in which the screw hole 22a of the middle nut 22 and the screw groove 24a of the connecting screw body 24 are screwed together, The distance between the upper nut 21 and the middle nut 22 changes and the overall length of the nut structure 20 changes. For this reason, according to the depth of the fixing hole 11, the length of the nut structure 20 can be adjusted and used.
The nut structure 20 has a structure in which nuts 21, 22, and 23 are connected in the axis C direction. Therefore, the nuts 21, 22, and 23 are provided with the nuts 21, 22, and 23 without suppressing the ratio of the lengths of the nuts 21, 22, and 23 to the inner diameters of the screw holes 21a, 22a, and 23a and using a special tool as in the conventional connection structure. The nut structure 20 can be easily manufactured.
The sealing portion 26 can prevent the liquid grout material 30 from entering the screw hole 21a of the upper nut 21 through the connecting portion between the screw hole 21a and the screw groove 24a.

Since the adjustment screw body 27 screwed into the lower nut 23 is provided, the present invention can be adapted even when the fixing hole 11 is formed deeper.
Since the adjustment screw body 27 is provided with the large diameter portion 27b, when the grout material 30 is injected and cured between the lower nut 23 and the large diameter portion 27b, the adjustment screw body 27 is moved in the direction of the axis C. Can be difficult to move to.
Moreover, since the adhesive agent formed with resin is used as the sealing part 26, the connection part of the screw hole 21a and the screw groove 24a can be hold | maintained more reliably watertight.

The nut structure 20 can be configured to be sufficiently long with respect to the inner diameter of the screw hole 21a by connecting a plurality of nuts in the axis C direction. For this reason, it is possible to improve the durability against the shearing force acting in the direction orthogonal to the axis C.
According to the embedded nut structure 1 of the present embodiment, the nut structure 20 is moved vertically in the fixing hole 11 by bringing the large-diameter portion 27b of the adjusting screw body 27 into contact with the bottom of the fixing hole 11. The nut structure 20 is fixed in the fixing hole 11 by the grout material 30 in the positioned state. Therefore, the screw hole 21 a of the upper nut 21 can be accurately arranged with respect to the reinforced concrete 10.

When the embedded nut structure 1 is manufactured, the screw member 42 may be screwed into the upper nut 21 before the liquid grout material is injected into the fixing hole 11 as shown in FIG. . At this time, it is preferable that the screw member 42 is connected to the upper nut 21 in a watertight manner by sandwiching an O-ring 45 or the like between the upper nut 21 and the flange portion 42 b of the screw member 42.
By performing such a procedure, it is possible to reliably prevent the liquid grout material from flowing into the upper nut 21.

Moreover, in the said embodiment, a nut structure can be made into various structures as demonstrated in the following FIGS.
For example, the nut structure 50 shown in FIG. 5 is configured such that the lower nut 23, the connecting screw body 25, and the adjusting screw body 27 in the nut structure 20 of the first embodiment are not provided. Even if the nut structure 50 has such a simple configuration, the axis of the nut structure 50 can be adjusted by adjusting the range in which the screw hole 22a of the middle nut 22 and the screw groove 24a of the connecting screw body 24 are screwed together. The length in the C direction can be changed.
In this modification, the number of nuts provided in the nut structure may be any number as long as it is two or more. In this case, a connecting screw body for connecting the number of nuts provided in the nut structure is provided. Provided in the nut structure.

A nut structure 60 shown in FIG. 6 includes a middle nut 61 and connecting screw bodies 62 and 63 instead of the middle nut 22 and connecting screw bodies 24 and 25 of the nut structure 20 of the first embodiment. .
The middle nut 61 has an outer diameter larger than that of the middle nut 22 and an inner diameter of a thread groove 61 a formed in the middle nut 61.
The connecting screw body 62 has the above-described screw groove 24 a formed at one end and a screw groove 62 a that is screwed into the screw groove 61 a of the middle nut 61 at the other end. Further, the connecting screw body 62 is provided with a flange portion 62b having a larger diameter than the screw groove 62a between the screw groove 24a and the screw groove 62a.
Similarly, in the connecting screw body 63, a screw groove 63a that is screwed into the screw groove 61a of the middle nut 61 is formed at one end, and the above-described screw groove 25a is formed at the other end. Further, the connecting screw body 63 is provided with a flange portion 63b having a diameter larger than that of the screw groove 63a between the screw groove 63a and the screw groove 25a.

Even in the case of the upper nut 21 and the middle nut 61 having different inner diameters as in this modification, the nut structure 60 can be configured by being connected to each other by using the connecting screw body 62.
Further, since the outer diameter of the middle nut 61 is set larger than the outer diameter of the upper nut 21, when the grout material 30 is injected around the nut structure 60 and hardened, the nut structure 60 is further moved in the direction of the axis C. Can be difficult.

The nut structure 70 shown in FIG. 7 does not include the sealing portion 26 in the nut structure 60 of the modified example, and the flange portion 62b provided in the connecting screw body 62 is watertight at the edge of the screw hole 21a of the upper nut 21. It is comprised so that it may contact | abut.
In this modification, the flange part 62b comprises a sealing part.
By configuring the nut structure 70 in this way, the connection portion between the edge portion of the screw hole 21a and the flange portion 62b can be more securely held in a watertight manner.

(Second Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIG. 8 and FIG. 9. However, the same parts as those of the above embodiment are denoted by the same reference numerals, and the description thereof will be omitted. explain.
As shown in FIGS. 8 and 9, the embedded nut structure 2 of the present embodiment includes a nut structure 80 instead of the nut structure 20 in the embedded nut structure 1 of the first embodiment. The nut structure 80 includes an upper nut 81, the aforementioned O-ring 45, and an adjustment screw body 82 instead of the upper nut 21, the sealing portion 26, and the adjustment screw body 27 of the nut structure 20.

In the upper nut 81, a plurality of spacers 81 a extending toward the inner surface of the fixing hole 11 are formed on the outer peripheral surface of the upper nut 21. The tip of the spacer 81 a is in contact with the inner surface of the fixing hole 11 or is slightly separated from the inner surface of the fixing hole 11. Here, the spacer 81a may be integrated with the upper nut 21 or integrated by welding or the like, or connected by a screw type structure or the like so that the protruding dimension from the upper nut 21 can be finely adjusted, and the length is variable. It is good.
A gap is formed between the adjacent spacers 81a, and the liquid grout material flows into the lower portion of the fixing hole 11 through this gap.
An O-ring 45 is sandwiched between the upper nut 81 and the middle nut 22 and is sealed so that a liquid grout material does not flow into the upper nut 81.
A support portion 82a protruding in a dome shape is formed on the surface of the large-diameter portion 27b of the adjustment screw body 82 on the side opposite to the screw groove 27a.

As described above, according to the embedded nut structure 2 of the present embodiment, the ratio of the length to the inner diameter is suppressed in the screw holes 21a, 22a, and 23a, and the length is adjusted according to the depth of the fixing hole 11. Can be used.
Furthermore, since the upper nut 81 and the adjustment screw body 82 are provided, the nut structure 80 can be positioned by being supported by the tip of the spacer 81a and the support portion 82a, and the nut structure 80 can be stabilized in the fixing hole 11.

As mentioned above, although 1st Embodiment and 2nd Embodiment of this invention were explained in full detail with reference to drawings, the concrete structure is not restricted to this embodiment, The structure of the range which does not deviate from the summary of this invention Changes are also included. Furthermore, it goes without saying that the configurations shown in the embodiments can be used in appropriate combinations.
For example, in the first embodiment, a polygonal nut is used as the upper nut 21, but a ring nut may be used instead.
In the first embodiment, an adhesive formed of resin is used as the sealing portion 26. However, instead of this, the sealing portion may be configured to include at least one of resin, rubber, oil and fat, and a welding connection portion (a portion where the screw groove 24a and the screw hole 21a are connected by welding). Good. Specific examples of the sealing portion include a coating material and an O-ring.
Also in the second embodiment, such a sealing portion can be used instead of the O-ring 45.

In the first and second embodiments, the large-diameter portion 27b is formed in a circular shape when viewed in the thickness direction of the large-diameter portion 27b. However, the shape of the large-diameter portion 27b when viewed in the thickness direction is not limited to a circle, and may be an elliptical shape or a polygonal shape as long as the maximum dimension in the radial direction is larger than the outer diameter of the screw groove 27a.
Further, in both the first embodiment and the second embodiment, the reference surface 12 is set to be substantially the same height as the upper surface of the reinforced concrete 10. However, for example, the reference surface 12 is set about 30 mm above the upper surface of the reinforced concrete 10. For example, the reference surface 12 may be moved up and down from the upper surface of the reinforced concrete 10.
In both the first and second embodiments, the screws need not all be in the same direction. For example, the screw groove 62a or the screw groove 63a may be a reverse screw. Good.
In the first embodiment and the second embodiment, the case where the embedded nut structure is used for foundation construction of a building has been described as an example. However, the embedded nut structure is not limited to this, and for example, furniture It can also be used for residential use. In this case, resin or the like can be used as the fixing member.

  In the first embodiment and the second embodiment, the lengths of the nuts in the axis C direction may be different from each other.

1, 2 Embedded nut structure 10 Reinforced concrete (frame)
11 Fixing hole 11a Opening 12 Reference surface 20, 50, 60, 70, 80 Nut structure 21, 81 Upper nut (first nut)
21a Screw hole (first screw hole)
22, 61 Middle nut (second nut)
22a, 23a, 61a Screw hole (second screw hole)
23 Lower nut (second nut)
24, 25, 62, 63 Connecting screw body 24a, 25a Screw groove (first screw groove, second screw groove)
26 Sealing portion 27, 82 Adjustment screw body 27a, 62a Screw groove (second screw groove)
27b Large diameter part 30 Grout material (fixing member)

Claims (6)

A first nut formed with a first screw hole;
A second nut formed with a second screw hole;
A first screw groove that is screwed into the first screw hole leaving one part of the first screw hole is at one end, and a second screw groove that is screwed into the second screw hole is at the other end. Each formed connecting screw body,
A sealing portion for holding a connection portion between the first screw hole and the first screw groove in a water-tight manner;
A nut structure characterized by comprising: The second screw groove of the connecting screw body is configured to be screwed into the second screw hole leaving a part of the second screw hole,
An adjustment screw body having the second screw groove at one end and screwed from the side opposite to the side on which the connection screw body is screwed into the second screw hole of the second nut. The nut structure according to claim 1, further comprising:   The nut structure according to claim 2, wherein the adjustment screw body is provided with a large-diameter portion having an outer diameter larger than an outer diameter of the second screw groove.   The nut structure according to any one of claims 1 to 3, wherein the sealing portion includes at least one of resin, rubber, oil and fat, and a weld connection portion.   The said sealing part is a flange part which is provided in the said screw body for a connection, and contact | abuts the edge part of the said 1st screw hole watertightly, The Claim 1 characterized by the above-mentioned. Nut structure. A housing provided with a reference surface in which a fixing hole is opened;
The first nut is disposed in the fixing hole so that the first nut is positioned on an opening side of the fixing hole, and an end portion opposite to the first nut is in contact with a bottom portion of the fixing hole. The nut structure according to any one of 1 to 5;
A fixing member for fixing the outer surface of the nut structure in the fixing hole;
An embedded nut structure characterized by comprising:

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