KR100862601B1 - Protection cover For Screw - Google Patents

Abstract

The present invention relates to a threaded portion protection cover, specifically, to form a locking portion coupled to the screw portion on the coupling portion coupled to the threaded portion of the protection member,

It is formed locally on the coupling part, so that when the protective cover is coupled to the member to be protected, the latching part and the threaded part of the member to be held can be locally engaged. The present invention relates to a threaded protective cover that can be simplified to shorten the time for fastening and disengaging with the member to be protected and to simplify the entire manufacturing process of the protective cover.

Rebar, connection, rebar connector, screw part, cover, protective cover

Description

Protection cover For Screw

1 is an exploded perspective view showing the connection structure of each rebar through the rebar connector

Figure 2 is an enlarged cross-sectional view showing that the concrete flows into the threaded portion of the reinforcing connector when the concrete is placed without the thread protection cover in the state where the reinforcing connector is located in the formwork

3a and 3b is a view showing the structure of the conventional threaded protective cover and the coupling process with the reinforcing connector

4 is a view showing another conventional protective cover, showing a threaded protective cover formed with a threaded portion on the coupling portion;

5 is a partially enlarged cross-sectional view showing a state in which concrete is placed and the reinforcing connector is coupled to the screw-type protective cover in the formwork;

6 to 14 is a view of the present invention,

Figure 6 is a view showing the coupling process between the thread cover and the reinforcing bar connector

7a to 7c is a view showing the arrangement of the locking portion

8 is a view showing a state before inserting the threaded protective cover to the reinforcing connector

9 is a view showing a deformation state of the engaging portion and the engaging portion in the process of the threaded protective cover is coupled to the rebar connector

10 is a view showing a state in which the threaded protective cover is fully coupled

11 is a partially enlarged cross-sectional view showing a state in which the concrete connector is placed in the formwork to place the reinforcing bar connector coupled to the thread protection cover

12 is a view showing a second embodiment of the present invention showing a state in which the threaded portion of the protective cover coupled to the rebar

13 is a view showing a third embodiment of the present invention showing a state in which the engaging portion is formed on both the inner and outer peripheral surfaces of the coupling portion;

<Description of the symbols for the main parts of the drawings>

  100: rebar connector 200: rebar

  10: thread protection cover 12: coupling portion

  14 flange portion 16 locking portion

In general, concrete structures are used together with reinforcing bars to reinforce the insufficient tensile strength of concrete, thereby forming a basic skeleton.

Since the reinforcing bar is manufactured in a limited state to a specific length according to the specification of the original manufacturer, the construction site is used to the required length by cutting or connecting these reinforcing bars to a suitable length.

The method of connecting the reinforcing bar and reinforcing bar is largely connected with each other through the latching method of tying steel wires together using metal wires, the press welding method by heating and pressurizing, and the screw connection with a separate rebar coupler. There is a mechanical joint.

Recently, a mechanical joint method using a coupler is widely used.

To explain the mechanical joint in more detail, as shown in FIG. 1, the male thread part 210 is machined at one end of each of the rebars 200, and the internal thread 110 is formed on the inner circumferential surface of the hollow connector 100. After processing, the male threaded portion 210 of each reinforcing rod 200 is connected by screwing to both sides of the reinforcing connector 100, the connection is easier than other methods, and the advantages of ensuring the robustness of the connection portion have.

In the state where each reinforcing bar is connected through the mechanical joint method, since the stress is concentrated on the threaded portion 210 of each reinforcement 200, in particular, the tensile strength of the threaded portion 210 should be ensured.

Therefore, when damage occurs in the threaded portion 210 of the rebar 200, there is a condition that can not be used.

However, large and small breakages are frequently generated in the threaded portion 210 of the rebar 200 due to the collision with the external structure in the process of transporting the produced rebar 200 to the site or construction in the field.

The damage of the screw portion is generated not only in the reinforcing bar but also in the reinforcing bar connector 100, the damage of the screw unit 110 of the reinforcing bar connector 100 is particularly generated in the construction process of the building.

For example, if you want to connect the reinforcing bars in the vertical direction from the column in the process of laying the concrete column, place the reinforcing connector in the formwork for the column in advance, put concrete in the formwork and harden it, then connect the external reinforcing bar to the reinforcing connector. Is carried out in a manner.

To describe the process in more detail, as shown in FIG. 2, first, one of the reinforcing bar connectors is screwed to one end of the column supporting rebar 200-1 located in the pillar formwork (F).

At this time, the other end surface of the reinforcing connector 100 is in close contact with the formwork (F) inner wall when the concrete (C) is poured after removing the formwork (F), the hollow portion of the reinforcing connector 100 is exposed to the outside on the column To be possible.

However, in the process of pouring concrete (C) in the formwork (F) as shown in the enlarged view of [Figure 2] concrete (C) through the gap between the formwork (F) and the reinforcing connector 100 hollow of the reinforcing connector 100 Part, that is, a phenomenon that flows into the threaded part 110 occurs.

Of course, as described above, although the inlet of the threaded portion 110 of the reinforcing connector 100 before the concrete is placed in close contact with the form (F), the state of adhesion is not fixed through a separate mechanical method.

Therefore, not only complete contact can not be made, but also when the concrete (C) hits the reinforcing connector 100 in the concrete pouring process, the reinforcing connector 100 is finely shaken due to the impact, which causes the reinforcing connector 100 There is no choice but to form a gap between the die (F).

When the concrete (C) flows into the rebar connector 100 as described above, the rebar connector 100 is completely blocked or the concrete (C) is hardened in a state where each screw bone of the screw portion is filled with the rebar 200 connected to the outside. This can not be concluded, eventually additional drilling should be carried out.

In addition, since the inlet of the screw unit 110 of the reinforcing connector 100 is embedded in concrete and is not exposed to the outside, it is difficult to find the exact perforation position in the drilling process.

In order to solve such a problem, Japanese Laid-Open Patent Publication No. 2001-152672 `` Rebar protection cap '' and the reinforcing bar for protecting the threaded portion 210 is coupled as wrapped around the threaded portion 210 of the rebar 200 as shown in Figure 3a A protective cover 10 and a protective cover 10 for a reinforcing connector for inserting the threaded portion 110 of the reinforcing connector 100 as shown in FIG. 3B to protect the screwing unit 110 have been proposed.

However, such a conventional thread protection cover is because the portion that is coupled to the reinforcement 200 and the reinforcing connector 100 is simply made of a cylindrical or cylindrical shape without a separate fastening structure, there is a risk of undesirably easy to fall out of the coupled state.

Of course, in order to prevent this by adjusting the inner or outer diameter of the protective cover to combine in the form of interference fit, but in this case it is difficult to separate, there is a problem that takes a lot of power and time to separate.

In order to solve the problem of the protective cover made in this form to form a threaded portion (S) to the coupling portion 12 is fitted to the reinforcement 200 or the reinforcing connector 100 as shown in FIG. A threaded protective cover 10 of the type which is screwed with 100 has been proposed.

Since the screw-type protective cover 10 is securely fastened due to the characteristics of the screw coupling, it is possible to prevent unwanted slipping away from the member to be protected, and at the same time, the separation can be easily performed to solve the problem of the protective cover described above.

In particular, when applied to the reinforcing connector 100 as shown in FIG. 5 to form a flange portion 14 at one end of the coupling portion 12, the flange portion 14 is coupled to the reinforcing connector 100 when the reinforcing connector To be in close contact with the periphery of the threaded portion (110) of the (100).

Accordingly, the concrete C may be prevented from flowing into the hollow part by the flange part 14 during the concrete pouring process.

However, such a threaded protective cover has the following problems in addition to the above advantages.

In this way, the coupling part 12 is inserted into the protected member 100 and 200, unlike the cylindrical protective cover which is simply moved in a linear direction to be coupled and separated, each thread S of the coupling part 12 is Since the protection member 100 and 200 are inserted while rotating along the spiral path of the screw unit 110 and 210, the time required for coupling and detaching the protective cover is increased.

For this reason, in the field where rapid work is required, the troublesome work is increased in the process of separating and combining the protective cover. In particular, when the protected member is large diameter or the length of the screw is long, it takes more time.

The present invention is proposed to solve the problems of the prior art as described above,

First, when combined with the member to be protected, an appropriate level of clamping force can be exerted through a separate locking part, thereby preventing unwanted disconnection from the member to be protected, and by fastening and separating by simple method. Its purpose is to provide a threaded protective cover that can minimize the time required.

Second, the purpose of the present invention is to provide a protective cover of the screw part which can simplify the overall manufacturing process of the protective cover by simplifying the structure and arrangement of the locking part and thus lowers the cost of the product.

The thread protection cover of the present invention proposed to achieve the above object,

An engaging portion coupled to the threaded portion of the member to be protected,

It is a basic configuration to include a locking portion formed on the surface of the engaging portion opposite to the threaded portion of the to-be-protected member and positioned to engage the threaded portion of the to-be-protected member.

And in this basic configuration, the engaging portion is formed in the singular or plural locally on the coupling portion is characterized in that the thread and the local locking of the protected member can be made.

Hereinafter, embodiments of a specific configuration and operation of the present invention will be described with reference to the configuration illustrated in the drawings.

For reference, the following detailed description and drawings of the present invention have been described and illustrated with reference to the embodiments applied to reinforcing bars and reinforcing bars, but the scope of the present invention is not limited thereto. It can be applied to all products that have a threaded part in.

[FIG. 6] to [FIG. 11] relate to a first embodiment of the present invention, which shows an embodiment in which a protective cover is applied to a rebar connector, and FIG. 12 is an embodiment applied to rebar as a second embodiment. 13 is a view showing the third embodiment.

The thread protection cover 10 of the present invention basically includes a coupling part 12 and a locking part 16 as shown in FIG. 6.

The coupling part 12 is a cylindrical shape having a space formed therein as a whole, the outer diameter is manufactured to be substantially the same as the inner diameter of the hollow portion, that is, the screw portion 110 of the reinforcing connector 100.

And the length of the coupling portion 12 is made to less than half the length of the rebar connector 100 so that the reinforcing bar is not disturbed by the coupling portion 12 when coupled to the other side of the rebar connector (100).

In this case, since the possible number of hooking portions 16 to be described later is different according to the length of the coupling portion 12, the appropriate tightening force generated according to the number of the locking portions 16 when manufacturing the coupling portion 12 is different. It is preferable to determine in advance the length of the coupling part 12.

In addition, the material of the coupling portion 12, but using a synthetic resin material, using a relatively soft material (軟 質) to form a thin thickness of the coupling portion 12, the engaging portion in the coupling or separation process with the rebar connector 100 Whenever 12 crosses each thread of the rebar connector 100, the diameter of the coupling part 12 is easily deformed so that the coupling part 12 can be smoothly moved without being caught by the screw part 110. .

And the flange portion 14 is integrally provided at the end of the coupling portion 12 opposite to the side inserted into the reinforcing connector 100.

When the flange portion 14 is installed in the formwork to install the reinforcing connector 100 in the formwork, blocking the inlet of the screw portion 110 of the reinforcing connector 100, at the same time, the coupling part 12, Is to prevent too much being inserted into the rebar connector 100.

That is, when the coupling part 12 is inserted into the rebar connector 100, the flange portion 14 is in close contact with the inlet rim surface of the threaded portion (110).

And the thickness of the flange portion 14 even if the flange portion 14 is in close contact with the reinforcing connector 100, even if the coupling portion 12 is pushed further to produce a degree that does not deform.

And the handle 18 is formed on the outer surface of the flange portion 14 to help the quick coupling and separation of the protective cover (10).

The shape of the handle 18 is not limited to that shown in the drawings and may be applied in a modified form, such as a ring shape for placing a finger.

At this time, the handle 18 should be manufactured so as not to protrude from the flange portion 14,

The reason is that if the rebar connector 100 is positioned in the formwork F while the handle 18 is protruded, a gap is formed between the flange portion 14 and the formwork F by the handle.

Therefore, when concrete (C) is poured in this state, the concrete invades into the gap between the flange portion 14 and the formwork F, and when the formwork F is later removed, the flange portion 14 is buried in the concrete. This is because the protective cover 10 can not be removed.

Thus, the threaded portion protection cover 10 of the present invention made up of the coupling portion 12 and the flange portion 14 is coupled to the reinforcing connector 100 by the engaging portion 16 to be described later when coupled to the reinforcing connector 100 Guaranteed.

The engaging portion 16 is formed in the form of a projection on the outer surface of the engaging portion 12, unlike the conventional threaded protective cover is formed with a threaded portion over the entire coupling portion 12, the engaging portion 16 Are locally formed on the coupling part 12, i.e., only at any particular location.

The locking portion 16 is to form a curved surface as shown in the enlarged view of Figure 7a, the engaging portion 16 in the process of inserting the coupling portion 12 into the rebar connector 100 of each of the rebar connector 100 Allow the thread to ride smoothly.

And as shown in FIG. 10, the width W of the locking portion 12 is manufactured to a size that can be inserted into the screw bone of the screw portion 110 of the reinforcing connector 100, the locking portion 16 is a reinforcing connector It is inserted into the threaded bone 112 of (100) to be caught by the thread 114.

And the height (H) of the locking portion 16 is made to be less than the depth of the screw bone (H-1) when the locking portion 12 is inserted into the screw bone 112 between the locking portion 12 and the screw bone 112 The coupling part 12 is prevented from being crushed due to the height difference.

Only one locking portion 16 may be formed at any one point on the coupling portion 12, or a plurality of locking portions 16 may be formed on the surfaces symmetrical to each other among the coupling portions 12 as shown in FIGS. 7A and 7B.

In the case of forming one catching part 16 on the mutually symmetrical surface as shown in FIG. 7A, each latching part 16 is positioned at both end sides of the coupling part 12, as shown in the drawing, and the reinforcing connector 100 is provided. When coupled to the fastening force by each engaging portion 16 is preferably to be applied to the coupling portion 12 as wide as possible.

In addition, the arrangement of the engaging portion 16 is to be formed at intervals along the circumference of the coupling portion 12, as shown in Fig. 6 and 7c, but the same thread as the female screw of the reinforcing connector 100 (h When coupled to the reinforcing bar connector 100 is combined so as to be coupled as if screwed together occurs.

In this case, when the two or more catching portions 16 are to be formed, the gap between the catching portions 16 is calculated in advance before manufacturing, and each catching portion 12 is completely inserted into the rebar connector 100. Part 16 should be inserted into each of the threaded bone of the reinforcing connector 100 threaded portion (110) correctly.

In addition, the material of the locking portion 16 uses a soft synthetic resin material similar to the coupling portion 12.

As the soft material is used, the coupling part 12 is manufactured in a cylindrical shape instead of a cylindrical shape, and even though the deformation of the diameter is not performed well, each locking part 16 is caught in the process of passing over the thread. 16) By allowing the deformation itself, the coupling portion 12 can be inserted smoothly.

Since the engaging portion 16 is formed in a simple protrusion shape, it is possible to integrally form the coupling portion 12 and the flange portion 14 at the same time without forming the coupling portion 12 separately.

Next will be described the operation and effects of the present invention according to the above configuration.

If you want to insert the screw protection cover 10 in the threaded portion 110 of the reinforcing connector 100 as shown in Figure 8, first place the coupling portion 12 in the inlet of the threaded portion 110 of the reinforcing connector 100 .

In that state, simply holding the handle or the flange 14 and pushing in a straight direction, as shown in FIG. 9, the coupling part 12 is inserted into the threaded part 110 of the reinforcing connector 100 and the coupling part 12 in the process. Each catching portion 16 protruding from the rod is passed over each thread 114 of the rebar connector 100 in turn.

In addition, in this process, as the enlarged view, the engaging portion 12 including the engaging portion 16 is pressed by the thread 114 to change the shape so that each engaging portion 12 can smoothly ride over the thread.

When the coupling part 12 is completely inserted into the rebar connector 100 through this process, the flange part 14 abuts against the rebar connector 100 as shown in FIG. 10, and thus the coupling part 12 is no longer inserted. Do not.

In this state, as shown in the enlarged view of FIG. 10, each engaging portion 16 is fitted to each threaded bone 112 of the rebar connector 100, and the threaded slope 114a (flank) at the corresponding position. It comes into contact with and hangs.

That is, because the locking portion 16 is formed locally on the coupling portion 12, the local fastening is also made with the thread 114 of the reinforcing connector 100.

Since the threaded portion protection cover 10 is fastened to the reinforcing connector 100 by the locking portion 16, the phenomenon in which the threaded portion cover 10 is undesirably pulled out is prevented.

In addition, since the engaging portion 16 is not only disposed on the coupling portion 12 in plurality, but also corresponding to the same screw thread (h) as the female screw of the rebar connector 100 to which the engaging portions 16 are coupled. As a result, the effect of joining is as if it were screwed together.

In this state, as shown in FIG. 11, the reinforcing connector 100 is placed in the formwork F, and the concrete C is poured, even if an impact is applied to the flange portion 14 by the poured concrete C. The protective cover 10 is not shaken by the fastening force of the locking portion 16, so that the phenomenon that concrete C is introduced between the flange portion 14 and the reinforcing connector 100 does not occur.

And when removing the screw protection cover 10 from the reinforcing connector 100, the handle is separated by simply pulling in a straight direction by the same process as the previous coupling process.

Of course, when the screw portion protection cover 10 is rotated at the time of coupling and detachment of the threaded portion protection cover 10 and the reinforcing connector 100 of the present invention, the coupling portion 16 is moved along the screw bone of the reinforcing connector 100, It can be combined and separated.

However, this method takes a lot of time to combine and separate and should not be used unless it is a special case.

As described above, the fastening force is ensured through the engaging portion 16 and at the same time, the coupling portion 12 can be separated and coupled with the reinforcing connector 100 by simply moving the front and rear linearly, thereby moving the conventional threaded protection along the spiral path. It is one of the biggest features of the present invention to solve the problem of rise in separation time generated in the cover.

In addition, by forming the locking portion 16 locally on the coupling portion 12, the overall structure and manufacturing process of the protective cover 10 is simplified compared to the prior art in which the thread is formed on the coupling portion 12 as a whole. Is another feature of.

The structure of the present invention described above can be modified in various ways, Figure 12 is a view showing a second embodiment of the present invention.

The second embodiment is a case where the present invention is applied to the reinforcement 200 rather than the reinforcing bar connector, the basic concept that the engaging portion 16 is formed in the cylindrical coupling portion 12 is the same, but the engaging portion 16 Unlike the previous embodiment formed on the outer peripheral surface of the coupling portion 12 is characterized in that formed on the inner peripheral surface of the coupling portion 12.

That is, the coupling part 12 is coupled in a form surrounding the threaded portion 210 of the rebar 200 from the outside, and each locking portion 16 is a threaded portion 210 of the rebar 200 located inside the coupling portion 12. The fastening is made in the form of hanging.

The screw portion protection cover 10 of such a structure is to be applied to the place where the screw portion is exposed to the outside, such as reinforcing bars or bolts, the locking portion 16 can be the same structure and arrangement as in the previous embodiment.

And while the protective cover described in the previous embodiment had a concrete inlet blocking function through the flange portion 14, since the protective cover of the present embodiment is merely for the protection of the threaded portion 210 of the reinforcing bar 200 flange portion 14 ) Does not have to be provided.

However, if you do not have a handle can also be used as a substitute.

In this embodiment, as in the previous embodiment, simply by pushing the protective cover in a straight direction, the fastening is made through the locking action between the engaging portions 16 and the reinforcing steel 200 and the threaded portions 210, and the same effect as the separation. Is done through.

13 is a view showing a third embodiment of the present invention in addition to the second embodiment, the basic configuration is the same as the previous two embodiments, the engaging portion 16 is the inner peripheral surface and outer peripheral surface of the coupling portion 12 Characterized in both formed on.

As the engaging portion 16 is formed in this form, there is an advantage that it can be used for both the reinforcing connector 100 and the reinforcing bar 200 as one protective cover.

Although the protective cover of this configuration cannot be used for the reinforcing bars and reinforcing bars of the same size because of the thickness (T) of the coupling portion 12, by adjusting the thickness (T) of the coupling portion 12 outside the coupling portion 12 Reinforcing bar connector of the standard to match the diameter, the reinforcing bars to fit the inner diameter of the coupling portion 12 can be used in parallel.

Therefore, there is an advantage that the material saving effect can be obtained compared to the previous two embodiments that must be manufactured separately for the reinforcing rod and rebar connector.

The locking portion 16 of this embodiment can also have the same structure and arrangement as the previous two embodiments.

Various features of the thread protection cover of the present invention described above can be implemented by various modifications and combinations by those skilled in the art, but such modifications and combinations are caught when engaging with the member to be protected by locally forming the engaging portion in the coupling portion If it is related to the configuration and the purpose to make the local locking with the screw portion of the additional to-be-protected member, it should be determined that it belongs to the protection scope of the present invention.

As described above, the thread protection cover according to the present invention,

First, due to the fastening force between the screw portion and the engaging portion of the member to be protected, an appropriate level of clamping force is exerted, and the protective cover is coupled to the member to be protected by simply moving the cover part by a locking portion formed locally on the engaging portion. Compared to the above, there is an advantage that the process and time of coupling and separation of the protective cover is reduced.

Secondly, as the locking portion is locally located on the coupling portion and the locking mechanism itself is simplified, the entire manufacturing process of the protective cover is not only easy, but also the product cost of the protective cover is lowered.

Claims (4)

delete An engaging portion coupled to the threaded portion of the member to be protected, It includes a locking portion formed on the surface of the coupling portion facing the threaded portion of the member to be protected so as to be caught on the threaded portion of the member to be protected, The locking portion is formed in a protrusion shape and is locally positioned on the coupling portion along a thread line corresponding to the screw line of the to-be-protected member, so that when it is combined with the to-be-protected member, it is positioned on the screw bone of the screw portion so that a local catch can be made. Threaded protective cover. The method of claim 2, Wherein the coupling portion is made of a cylindrical shape, the engaging portion is a thread protection cover, characterized in that formed on both the outer peripheral surface and the inner peripheral surface. The method of claim 2, Where the opposite of the portion of the coupling portion that is inserted into the threaded portion of the protected member, when coupled to the protected member, the screw portion protection cover, characterized in that it further comprises a flange portion in contact with one end of the protected member .

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