KR20200033708A - Grip apparatus for tendon - Google Patents

Abstract

The present invention relates to a fixing apparatus to fix a tension member (10) with respect to a fixing target structure with a penetration hole formed in a core thereof. The tension member fixing apparatus comprises: a main body (100) having an upper penetration hole (101), a lower penetration hole (102), and an accommodation space therein; a wedge member (200) provided with a tension member penetration hole formed in a core thereof, formed to allow the lower end thereof to be supported by the fixing target structure or a lower portion of the main body (100), and installed in a cross-sectional structure in which the outer circumferential surface thereof becomes wider towards a lower side thereof; a middle member (300) provided with a wedge member fixing unit (301) formed on a lower portion thereof in a structure corresponding to the wedge member (200) to allow the wedge member (200) to be inserted thereinto to be fixed thereon, and installed to press the wedge member (200) by downward driving; and a stopping member (400) formed on the middle member (300) to be prevented from disturbing downward driving of the middle member (300) during downward driving of the middle member (300), and allow the middle member (300) to be stopped and supported on the main body (100) after completion of downward driving of the middle member (300) to restrict upward driving of the middle member (300) to maintain a pressing state of the middle member with respect to the wedge member (200). Slip loss of the tension member can be prevented, and separation of the wedge member can be prevented.

Description

Fixing member fixing device {GRIP APPARATUS FOR TENDON}

The present invention relates to the civil engineering field, and more particularly, to a fixing device for a tension member.

Tensile members and fixing devices are used for various civil structures such as PS girders and earth anchors.

1 and 2 show the structure of a conventional tension member fixing device.

With respect to the structure to be fixed with the through hole formed in the tension member, in order to fix the tension member 10, the tension member 10 is inserted into the wedge member 30 (also referred to as a 'cone'), and this is a fixing part of the body 40 The structure to settle in is generally used.

While the tension member 10 is tensioned upwards, the wedge member 30 does not play any role with respect to the tension member 10, but when the tensioning operation of the tension member 10 is completed and the tension member relaxes downward , Since the wedge member 30 is pressed inward while biting the tension member 10 and engaging the fixing portion of the main body 40, it is possible to prevent the lower relaxation drive of the tension member 10.

However, in such a conventional structure, during the relaxation of the tension member 10, it is not possible to prevent the tension member 10 from loosening to some extent until the wedge member 30 completely bites the tension member 10. It is called the loss of tension due to (silp).

Even if a single construction requires a large number of tension members, and the tension work of the tension member 10 requires considerable effort and cost, the loss of tension as described above is a factor that causes a great loss of construction cost and duration as a whole. Has been pointed out as a problem.

In addition, since the conventional structure is an unstable structure for fixing one tension member by one wedge member, there is also a problem that the tension member is released due to destruction of the wedge member when excessive compression force acts on the wedge member due to excessive tension. It has been pointed out.

The present invention has been drawn to solve the above problems, and it is an object of the present invention to provide a tension member fixing device that prevents slip loss of the tension member and prevents the wedge member from deviating.

In order to solve the above problems, the present invention in the fixing device for fixing the tensile member 10 with respect to the structure to be settled through hole is formed in the core, the upper through hole 101 and the lower through hole 102 is formed and In addition, the main body 100 having an accommodation space formed therein; A wedge member 200 formed in a cross-section structure in which a tensile member through-hole is formed in the core portion and a lower end is formed to be supported by the lower portion of the main body 100 or the anchoring target structure, and the outer circumferential surface gradually widens toward the lower side; The wedge member fixing part 301 is formed in a structure corresponding to the wedge member 200 at a lower portion so that the wedge member 200 is inserted and settled, and is installed to press the wedge member 200 by downward driving. Member 300; During the downward driving of the intermediate member 300, the downward driving of the intermediate member 300 is not disturbed, and after the downward driving of the intermediate member 300 is completed, the intermediate member 300 is hung on the main body 100 In order to maintain the pressing state of the intermediate member 300 against the wedge member 200 by restraining the upward driving of the intermediate member 300 as being supported, the locking means 400 formed in the intermediate member 300 It provides a tension member fixing device characterized in that it comprises a.

On the inner circumferential surface of the wedge member 200, it is preferable that a tooth portion 201 is formed to prevent the lower side of the tension member 10 from being detached.

The main body 100, the wedge member 200 and the intermediate member 300 is preferably formed in a circular cross-sectional structure.

The upper locking jaw 103 is formed at the lower edge of the upper through hole 101 of the main body 100, and the intermediate member 300 is formed with a through hole through which a tension member is formed, and an outer circumferential surface is the main body 100. The through-hole insertion portion 310 is formed to be inserted into the upper through-hole 101; The locking means 400 formed in the through hole inserting portion 310 to be supported by the upper locking jaw 103; Including the wedge member fixing part 301 is formed therein, and the body inserting part 320 formed under the through hole inserting part 310 so that the outer circumferential surface is inserted inside the body 100. desirable.

In the rising state of the intermediate member in which the through hole inserting portion 310 is inserted into the upper through hole 101 of the main body 100, the upper edge portion of the main body inserting portion 320 is caught in the upper locking jaw 103 So, it is preferable that the cross-sections of the through hole insertion portion 310 and the body insertion portion 320 are formed in a stepped structure.

The engaging means 400 includes an elastic member 410 installed around the outer periphery of the through hole insertion portion 310, and during the downward driving of the intermediate member 300, the upper through hole of the main body 100 ( The elastic member 410 contracts inward so as not to interfere with the downward insertion driving of the through hole inserting part 310 to 101, and after completion of the downward driving of the intermediate member 300, the elastic member 410 ) Is expanded to the outside so as to be supported by the upper locking jaw 103 of the main body 100, the upward insertion driving of the through hole inserting portion 310 with respect to the upper through hole 101 of the main body 100 It is desirable to restrain.

The elastic member 410 is a ring-shaped structure that is open by cutting one side, an insertion groove 311 is formed around the outer periphery of the through hole inserting portion 310, and the elastic member 410 is driven to contract and expand. It is preferably installed in the insertion groove 311 to be possible.

It is preferable that an inclined portion 411 inclined inward toward the bottom is formed on the outer surface of the elastic member 410.

In the rising state of the intermediate member where the through hole inserting portion 310 is inserted into the upper through hole 101 of the main body 100, the insertion groove 311 of the upper through hole 101 of the main body 100 It is preferably formed to be exposed to the top.

The engaging means 400 includes an incision part 420 formed by an incision in the vertical direction of the through-hole insertion part 310, and before and during the downward driving of the intermediate member 300, the incision is made. Due to the portion 420, the through hole insertion portion 310, which is capable of contracting the upper portion, is inserted into the upper through hole 101 of the main body 100 and contracted, and the downward driving of the intermediate member 300 is completed. Afterwards, as the through-hole inserting portion 310 deviating from the restraint of the upper through-hole 101 of the main body 100 expands and recovers, the upper end of the through-hole inserting portion 310 has the upper locking jaw ( 103).

The locking means 400, the locking groove 430 formed inside the upper portion of the main body 100; It includes an elastic member 410 installed on the upper outer side of the intermediate member 300, and during the downward driving of the intermediate member 300, the intermediate member 300 for the upper through hole 101 of the main body 100 ) The elastic member 410 contracts to the inside so as not to interfere with the downward insertion driving, and after the downward driving of the intermediate member 300 is completed, the elastic member 410 expands outward to the locking groove 430 ), It is preferable that the upward driving of the intermediate member 300 with respect to the upper through hole 101 of the main body 100 is restricted.

The main body 100, the upper through-hole 101 is formed on the upper portion, the upper body 110 of a cylindrical structure with a lower opening; The lower through-hole 102 is formed in the lower portion, and the upper portion is opened, and the lower body 120 having a cylindrical structure coupled to the upper body 110 is preferably included.

In the main body 100, a plurality of installation holes 105 are formed so that the plurality of wedge members 200 and the intermediate members 300 are respectively installed, and the central body (in which the lower through holes 102 are formed in the lower part) 130); In addition to being installed to cover the upper surface of the central body 130, it is preferable to include a; upper cover 131, a plurality of the upper through-hole 101 is formed to communicate with the plurality of installation holes (105).

It is preferable that the lower locking jaw 104 is formed on the upper edge of the lower through hole 102 of the main body 100, and the lower end of the wedge member 200 is supported by the lower locking jaw 104.

Before completion of the downward driving of the intermediate member 300, the wedge member 200 prevents the tension member 10 from being pressed, and after the downward driving of the intermediate member 300 is completed, the wedge member ( To prevent the 200) from pressing the tension member 10, it is preferable that the wedge member 200 is provided with a gap maintaining member 203.

The wedge member 200 is formed by a combination of a plurality of pieces wedge member (210,220,230) that can be mutually spaced with respect to the tension member through-hole, the gap holding member (203), the intermediate member (300) Before the completion of the downward driving of the, the gap between the plurality of pieces wedge member (210,220,230) is narrowed to prevent pressing the tension member 10, and after the downward driving of the intermediate member 300 is completed, the plurality It is preferable that the gap between the pieces of wedge members 210, 220, and 230 is narrowed so as not to interfere with pressing of the tension member 10.

It is preferable that the gap-holding member 203 is a ring-shaped structure in which a trench portion is formed on one side.

The gap holding member 203 is installed inside the lower portion of the plurality of pieces wedge member (210,220,230), the plurality of pieces of the wedge member (210,220,230) outside the lower portion of the plurality of pieces wedge member (210,220,230) mutually separated It is preferable that the departure preventing member 202 for preventing is installed.

The present invention proposes a tension member fixing device that prevents slip loss of the tension member and prevents the wedge member from deviating.

1 and 2 are cross-sectional views related to driving of a conventional tension member fixing device.
3 or less shows an embodiment of a tension member fixing device according to the present invention,
Figure 3 is a cross-sectional view of the first embodiment and the wedge member of the body.
4 is a cross-sectional view of the first embodiment of the intermediate member.
5 is a plan view of the elastic member.
Figure 6 is a cross-sectional view of the elastic member.
7 to 9 is a use state diagram of the first embodiment of the locking means.
10 is a sectional view of a second embodiment of the main body.
11 is a plan view of a second embodiment of the body.
12 is a bottom view of a second embodiment of the body.
13 to 15 is a state of use of the second embodiment.
16 is a sectional view of a second embodiment of the intermediate member.
17 and 18 are use states of the second embodiment of the locking means.
19 and 20 are use states of the third embodiment of the locking means.
21 is a perspective view of a gap maintaining member.
22 is a perspective view of a wedge member provided with a gap maintaining member.
23 is a cross-sectional view of the wedge member provided with a gap maintaining member.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3 or less, the tension member fixing device according to the present invention is for fixing the tension member 10 with respect to a structure to be fixed (stripe, fixing plate, etc.) having a through hole of a tension member (tensile material) formed in the core. As a fixing device, it is configured to include a main body 100, a wedge member 200, an intermediate member 300, and a locking means 400.

The fixing device main body 100 is formed with an upper through hole 101 and a lower through hole 102, and an accommodation space is formed therein (FIG. 3).

The wedge member 200 is formed so that the through hole is formed in the tensile member at the core, and the lower end is formed to be supported by the lower portion of the main body 100 or the structure to be settled, and the outer circumferential surface is gradually widened toward the lower side (FIG. 3). ).

The conventional wedge member 30 has a feature in that the wedge member 30 is installed in the opposite direction, compared to the circumferential structure of the outer circumferential surface gradually narrowing toward the lower side.

The intermediate member 300 is formed with a structure corresponding to the wedge member fixing part 301 at the bottom so that the wedge member 200 is inserted and fixed, and presses the wedge member 200 by driving downward. Is installed (Fig. 4).

The locking means 400 does not interfere with the downward driving of the intermediate member 300 during the downward driving of the intermediate member 300, and after the downward driving of the intermediate member 300 is completed, the intermediate member 300 is attached to the main body 100. It is formed on the intermediate member 300 to restrain the upward driving of the intermediate member 300 in order to maintain the pressing state of the intermediate member 300 against the wedge member 200 as it is suspended and supported (FIGS. 5 and 6).

The operating principle of the tension member fixing apparatus according to the present invention will be described with reference to FIGS. 7 to 9 as follows.

When the tension member 10, the wedge member 200, and the intermediate member 300 are installed in the main body 100, when the intermediate member 300 is in an elevated state, the gap between the wedge members 200 is widened and the tension member ( The up and down driving of 10) is free (Fig. 7).

When the intermediate member 300 is driven downward while the tension member 10 is tensioned upward, the gap between the wedge members 200 is narrowed and the tension member 10 is pressed (FIG. 8).

The locking means 400 does not interfere with the downward driving of the intermediate member 300 during the downward driving of the intermediate member 300.

When the downward driving of the intermediate member 300 is completed, as the intermediate member 300 is caught and supported by the main body 100 by the locking means 400, the upward driving of the intermediate member 300 is restricted, and the wedge member 200 ) Is pressed against the intermediate member 300 (Fig. 9).

This has the following effects.

First, it is possible to prevent the loss of tension due to slip when the tension member is relaxed.

When the tension member 10 is tensioned upwards and the intermediate member 300 is driven downward by a hydraulic jack or the like, the wedge member 200 compresses the tension member 10 by the above-described action (wedge member 30). (The tension member 10 is completely bitten), the wedge member 200 is pressed by the intermediate member 300, and the intermediate member 300 is supported by the main body 100 by the locking means 400 Therefore, the upper compression state is maintained.

Even if the tension member 10 is relaxed in this state (even if the application of the tension is released), the pressing state with respect to the tension member 10 is maintained according to the above principle, so that the conventional slip does not occur. It can prevent tension loss.

Second, there is little fear of the tension member detachment due to damage or separation of the wedge member 30.

As described above, since the wedge member 200 and the intermediate member 300 are housed in the main body 100 to form a stably fixed structure, the wedge member 200 or the tension member 10 itself is damaged or wedge Although the tension member may be detached due to the breakage of the region between the member 200 and the tension member 10, it is not possible to cause the tension member to detach as the wedge member protrudes outward as in the prior art.

Hereinafter, embodiments of the specific structure of the tension member fixing apparatus according to the present invention will be described.

On the inner circumferential surface of the wedge member 200, a toothed portion 201 is formed to prevent the lower side of the tension member 10 from coming off.

As described above, since the wedge member 200 in the present invention is installed in the opposite direction to the conventional wedge member 30, the direction of the upper teeth is also formed to face the opposite direction.

The main body 100, the wedge member 200 and the intermediate member 300 are preferably formed in a circular cross-sectional structure for ease of manufacture and construction.

The lower locking jaw 104 may be formed on the upper edge of the lower through hole 102 of the main body 100, or the lower locking jaw 104 may not be formed (the inner peripheral surface and the main body of the lower through hole 102) (100) if the inner wall is coplanar).

In the former case, the lower end of the wedge member 200 is supported by the lower locking jaw 104 (FIG. 9, etc.), and in the latter case, the lower end of the wedge member 200 faces the structure to be settled (seating plate, etc.). It is supported in contact.

In the former case, since the wedge member 200, the intermediate member 300, etc. are inserted into the body 100 and have a closed structure, the wedge member 200, the intermediate member 300, and the like are outside the body 100 It has the advantage of achieving a more stable structure because there is no fear of being separated.

Hereinafter, three embodiments related to the locking means 400 will be described.

First, the first embodiment related to the locking means 400 is a case where the elastic member 410 and the upper locking jaw 103 are used (FIGS. 7 to 15).

The upper through hole 101 of the main body 100 is formed to be located inside the inner wall of the main body, so that the upper locking jaw 103 is formed below the edge of the upper through hole 101.

The intermediate member 300 includes a through-hole inserting part 310 formed such that a through-hole of a tension material is formed inside and an outer circumferential surface is inserted into an upper through-hole 101 of the main body 100; A locking means 400 formed in the through hole inserting portion 310 to be supported by the upper locking jaw 103; In addition to the wedge member fixing portion 301 is formed therein, the outer peripheral surface is inserted into the inside of the body 100, the body insertion portion 320 formed under the through-hole insertion portion 310; is configured to include.

That is, the intermediate member 300 is configured to be configured by the through hole inserting portion 310 and the body inserting portion 320, and the locking means 400 drives the through hole inserting portion 310 downward (upper through hole 101). ) Is allowed, while the upper driving jaw 103 is caught and supported during the upward driving.

The through-hole insertion part 310 is inserted into the upper through-hole 101 of the main body 100, and the intermediate member is raised, so that the upper edge portion of the main-body insertion part 320 is caught by the upper locking jaw 103, through-hole When the cross sections of the insertion portion 310 and the body insertion portion 320 are formed in a stepped structure, there is an advantage that it is possible to easily secure the correct position of the intermediate member 300 during the tensioning and fixing operations.

Here, the locking means 400 permits the locking means 400 to drive downwardly through the insertion portion 310 (insertion drive to the upper through hole 101), while the upper locking jaw ( 103) any structure to be hung and supported, it can be implemented by the elastic member 410 installed around the outer periphery of the through-hole insertion portion 310, as shown in FIGS.

During the downward driving of the intermediate member 300, the elastic member 410 contracts inward so as not to interfere with the downward insertion driving of the through hole inserting portion 310 with respect to the upper through hole 101 of the main body 100.

After completion of the downward driving of the intermediate member 300, the elastic member 410 expands to the outside so as to be supported by the upper locking jaw 103 of the body 100, the upper through hole 101 of the body 100 The upward insertion driving of the through-hole insertion portion 310 is restrained.

The elastic member 410 has a ring-shaped structure that is open by cutting one side, an insertion groove 311 is formed around the outer periphery of the through-hole inserting part 310, and the elastic member 410 is inserted to enable contraction and expansion driving. When taking the structure installed in the groove 311, there is an effect such as that the installation of the elastic member 410 is easy, that the contraction and expansion of the elastic member 410 is more stable (Fig. 5). .

When the inclined portion 411 inclined inward toward the bottom of the elastic member 410 toward the bottom is formed, the point is that the contraction drive that does not interfere with the downward insertion driving of the through-hole insertion portion 310 is easy, after the expansion driving It has the effect of being stably supported by the upper locking jaw 103 (Fig. 6).

In the rising state of the intermediate member where the through-hole inserting part 310 is inserted into the upper through-hole 101 of the main body 100, the insertion groove 311 is exposed to the top of the upper through-hole 101 of the main body 100. In the case of taking the formed structure, during the coupling operation (tensile preparation operation) of the intermediate member 300 with respect to the main body 100, the through hole inserting portion of the intermediate member 300 in the upper through hole 101 of the main body 100 ( 310), the upper elastic member 410 can be coupled to the insertion groove 311 of the through-hole insertion unit 310 in the state of being exposed to the upper portion, so that tension preparation is easy (Fig. 7). .

Second, the second embodiment related to the locking means 400 is a case of using the incision 420 and the upper locking jaw 103 (FIGS. 16 to 18).

Here, the locking means 400 is configured to include a cutting portion 420 formed by the incision in the vertical direction of the through-hole insertion portion 310.

When the incision part 420 is formed by cutting one or several places of the through-hole insertion part 310 formed on the upper part of the intermediate member 300 along the vertical direction, the gap between the incision parts 420 is narrowed or widened. Accordingly, the upper portion of the through-hole insertion portion 310 may contract or expand (FIG. 16).

Therefore, before the start of the downward driving of the intermediate member 300 and during the downward driving, the through hole inserting part 310 whose upper portion is contractable due to the incision part 420 is inserted into the upper through hole 101 of the main body 100 to contract. (Fig. 17), and after completion of the downward driving of the intermediate member 300, the through-hole insertion portion 310 out of the confinement of the upper through-hole 101 of the main body 100 expands and is restored to its original shape. Accordingly, the upper end of the through-hole insertion portion 310 can be caught and supported by the upper locking jaw 103 (FIG. 18).

Third, the third embodiment related to the locking means 400 is a case where the elastic member 410 and the locking groove 430 are used (FIGS. 19 and 20).

Here, the locking means 400 is a locking groove 430 formed inside the upper portion of the main body 100; It is configured to include an elastic member 410 installed on the upper outer side of the intermediate member 300.

In the case of this embodiment, since the upper locking jaw 103 is not required as in the above two embodiments, it does not matter even if the inner periphery of the upper through hole 101 of the main body 100 and the inner wall of the main body 100 are located on the same plane. .

During the downward driving of the intermediate member 300, the elastic member 410 contracts inward so as not to interfere with the downward insertion driving of the intermediate member 300 with respect to the upper through hole 101 of the main body 100 (Fig. 19). .

After completion of the downward driving of the intermediate member 300, the intermediate member 300 for the upper through hole 101 of the main body 100 as the elastic member 410 expands to the outside and is supported by the hanging groove 430 The upward driving of is constrained (FIG. 20).

Embodiments related to the specific structure of the elastic member 410 may be in accordance with the above-described embodiment, the elastic member 410 may be directly installed on the upper outer surface of the intermediate member 300, the upper outer surface of the intermediate member 300 It may be inserted into a separate installation groove formed in.

Hereinafter, a case where one tension member is installed in the tension member fixing device and a case where a plurality of tension members are installed will be described.

In the former case, the main body 100 includes an upper through hole 101 formed at an upper portion, and an upper body 110 having a cylindrical structure with an open lower portion; The lower through hole 102 is formed in the lower portion, and the upper portion is opened, and the lower body 120 having a cylindrical structure coupled to the upper body 110 by screwing or the like is configured to include (FIGS. 7 to 9). .

In the latter case, the main body 100 is provided with a plurality of installation holes 105 such that a plurality of wedge members 200 and an intermediate member 300 are respectively installed, and a central body having a lower through hole 102 formed therein ( 130); In addition to being installed to cover the top surface of the central body 130, a plurality of upper through holes 101 formed to communicate with a plurality of installation holes 105, 131; is configured to include (Figs. 11 to 15 ).

In both of the above cases, the embodiments of the above-described locking means 400 can be stably applied.

On the other hand, the tension member fixing device according to the present invention, as shown in Figures 7 to 9, if the intermediate member 300 is installed in a vertical structure located on top of the wedge member 200, there is no problem, If the opposite structure is installed in a vertically inclined structure or a structure inclined to one side, the following problems may occur.

Since there is no separate means for maintaining the gap between the inside of the wedge member 200 and the tension member 10, before the downward driving of the intermediate member 300 is completed, the wedge member 200 is tensioned in advance. When the member 10 starts to be pressed, and the intermediate member 300 is forcibly driven in this state to the side of the structure to be settled (the lower side of FIGS. 7 to 9), the wedge member 200 bites the tension member 10 and settles. The problem is that tension force loss due to slip occurs as it enters the target structure.

In order to prevent such a problem, before the downward driving of the intermediate member 300 is completed, the wedge member 200 is prevented from pressing against the tension member 10, and after the downward driving of the intermediate member 300 is completed, the wedge In order not to interfere with the member 200 pressing the tension member 10, it is necessary to install a separate gap holding member 203 on the wedge member 200 (FIGS. 21 to 23).

When such a gap maintaining member 203 is installed, even if the tension member fixing device according to the present invention is installed in any direction (angle) with respect to the structure to be fixed, before the downward driving of the intermediate member 300 is completed, Since the wedge member 200 prevents the tension member 10 from being pressed, there is an effect of completely preventing the loss of tension due to slip.

The wedge member 200 is generally formed by a combination of a plurality of pieces of wedge members 210, 220, and 230, each of which is capable of adjusting mutual spacing around a tensile member through hole (FIG. 22).

In this case, before the completion of the downward driving of the intermediate member 300, the gap maintaining member 203 prevents the gap between the plurality of piece wedge members 210, 220, and 230 from being narrowed, thereby preventing the tension member 10 from being pressed, and the intermediate member After completion of the downward driving of the 300, the gap between the plurality of piece wedge members 210, 220, and 230 is narrowed and installed in a structure that does not interfere with pressing the tensile member 10.

Specifically, such a gap-holding member 203 may be implemented by a steel (plate spring) or the like having a ring-shaped structure in which the opening portion 204 is formed on one side (FIG. 21).

Here, the reason that the trim portion 204 should be formed on one side of the ring-shaped structure spacing member 203 is, after completion of the downward driving of the intermediate member 300, the gap between the plurality of pieces wedge member (210,220,230) This is because the gap maintaining member 203 must also be able to be shrunk so as not to be narrowed and prevent the compression of the tension member 10.

The spacing maintaining member 203 is preferably installed for a stable structure inside the plurality of engraving wedge members 210, 220, and 230. In this case, the separation preventing member 202 ( It is preferable for convenience of work to prevent mutual separation of the plurality of pieces wedge members 210, 220, and 230 by installing O-rings.

In the above, the case where the tension member as the tension member 10 is applied to a structure to be settled such as a band, a fixing plate, etc. has been described, but it can be widely and effectively applied to the fixing of various tension members such as wires of a cable-stayed bridge.

The above is merely a description of some of the preferred embodiments that can be implemented by the present invention, so, as is well known, the scope of the present invention should not be construed as being limited to the above embodiments, and the present invention described above. It will be said that both the technical idea and the technical idea together with the fundamental are included in the scope of the present invention.

10: tension member 100: main body
101: upper through hole 102: lower through hole
103: upper locking jaw 104: lower locking jaw
105: installation hole 110: upper body
120: lower body 130: central body
131: upper cover 200: wedge member
201: tooth 202: departure prevention member
203: Spacing member 300: Intermediate member
310: through hole insertion portion 311: insertion groove
320: main body insertion portion 400: locking means
410: elastic member 411: inclined portion
420: incision 430: jamming groove

Claims (18)

In the fixing device for fixing the tensile member 10 with respect to the structure to be settled through hole formed in the core,
The upper through-hole 101 and the lower through-hole 102 is formed, and the main body 100 having an accommodation space formed therein;
A wedge member 200 formed in a cross-sectional structure in which a tensile member through-hole is formed in a core portion and a lower end is formed to be supported by the lower portion of the main body 100 or the fixing target structure, and an outer circumferential surface is gradually widened toward the lower side;
The wedge member fixing part 301 is formed in a structure corresponding to the wedge member 200 at a lower portion so that the wedge member 200 is inserted and settled, and is installed to press the wedge member 200 by downward driving. Member 300;
During the downward driving of the intermediate member 300, the downward driving of the intermediate member 300 is not disturbed, and after the downward driving of the intermediate member 300 is completed, the intermediate member 300 is hung on the main body 100 In order to maintain the pressing state of the intermediate member 300 against the wedge member 200 by restraining the upward driving of the intermediate member 300 as being supported, the locking means 400 formed in the intermediate member 300 ; Tensile member fixing device comprising a. According to claim 1,
Tensile member fixing device, characterized in that the inner peripheral surface of the wedge member 200 is formed with a toothed portion 201 for preventing the lower separation of the tension member (10). According to claim 1,
The main body 100, the wedge member 200 and the intermediate member 300 is a tension member fixing device, characterized in that formed in a circular cross-sectional structure. According to claim 1,
The upper locking jaw 103 is formed below the edge of the upper through hole 101 of the main body 100,
The intermediate member 300,
In addition to the through hole is formed in the tension material, the through hole insertion portion 310 is formed so that the outer peripheral surface is inserted into the upper through hole 101 of the main body 100;
The locking means 400 formed in the through hole inserting portion 310 to be supported by the upper locking jaw 103;
The wedge member fixing part 301 is formed therein, and the body inserting part 320 formed below the through hole inserting part 310 so that the outer circumferential surface is inserted inside the body 100;
Tensile member fixing device comprising a. According to claim 4,
In the rising state of the intermediate member in which the through hole inserting portion 310 is inserted into the upper through hole 101 of the main body 100, the upper edge portion of the main body inserting portion 320 is caught in the upper locking jaw 103 The cross section of the through-hole insertion portion 310 and the main body insertion portion 320 is a tension member fixing device, characterized in that formed in a stepped structure. According to claim 4,
The engaging means 400 includes an elastic member 410 installed around the outer periphery of the through-hole insertion portion 310,
During the downward driving of the intermediate member 300, the elastic member 410 is inward so as not to interfere with the downward insertion driving of the through hole inserting portion 310 with respect to the upper through hole 101 of the main body 100. Shrink,
After completion of the downward driving of the intermediate member 300, the elastic member 410 expands to the outside so that it is supported by the upper locking jaw 103 of the main body 100, thereby penetrating the upper portion of the main body 100. Tensile member fixing device, characterized in that for restraining the upward insertion drive of the through-hole insertion portion 310 with respect to the ball (101). The method of claim 6,
The elastic member 410 is a ring-shaped structure that is open by cutting one side,
An insertion groove 311 is formed around the outer periphery of the through hole insertion portion 310,
The elastic member 410 is a tension member fixing device, characterized in that installed in the insertion groove 311 to enable contraction and expansion driving. The method of claim 7,
The elastic member 410, the outer surface of the tension member fixing device characterized in that the inclined portion 411 is formed inclined toward the lower side. The method of claim 7,
In the rising state of the intermediate member through which the through hole inserting part 310 is inserted into the upper through hole 101 of the main body 100,
Tensile member fixing device, characterized in that the insertion groove 311 is formed to be exposed to the upper portion of the upper through hole 101 of the main body 100. According to claim 4,
The engaging means 400,
The incision portion 420 formed by the incision in the vertical direction of the through-hole insertion portion 310,
Before and during the downward driving of the intermediate member 300, the through hole inserting part 310, which is capable of contracting the upper part due to the incision part 420, is inserted into the upper through hole 101 of the main body 100. Inserted and contracted,
After completion of the downward driving of the intermediate member 300, the through-hole insertion portion (as the through-hole insertion portion 310 out of the restraint of the upper through-hole 101 of the main body 100 expands and recovers to its original shape) 310) the tension member fixing device, characterized in that the upper end is supported by the upper locking jaw (103). According to claim 1,
The engaging means 400,
A locking groove 430 formed inside the upper portion of the main body 100;
It includes an elastic member 410 installed on the upper outer side of the intermediate member 300,
During the downward driving of the intermediate member 300, the elastic member 410 contracts inward so as not to interfere with the downward insertion driving of the intermediate member 300 with respect to the upper through hole 101 of the main body 100. ,
After completion of the downward driving of the intermediate member 300, as the elastic member 410 expands to the outside and is supported by the engaging groove 430, the upper through hole 101 of the main body 100 is Tensile member fixing device, characterized in that the upward drive of the intermediate member 300 is constrained. According to claim 1,
The main body 100,
The upper through hole 101 is formed on the upper portion, the upper body 110 of a cylindrical structure with an open lower portion;
The lower through-hole 102 is formed in the lower portion, and the upper portion is opened, and the lower body 120 having a cylindrical structure coupled to the upper body 110;
Tensile member fixing device comprising a. According to claim 1,
The main body 100,
A plurality of installation holes 105 are formed so that the plurality of wedge members 200 and the intermediate members 300 are respectively installed, and the central body 130 in which the lower through holes 102 are formed at the bottom;
In addition to being installed to cover the upper surface of the central body 130, the upper cover 131 is formed with a plurality of the upper through hole 101 to communicate with the plurality of installation holes 105;
Tensile member fixing device comprising a. According to claim 1,
The lower locking jaw 104 is formed on the upper edge of the lower through hole 102 of the main body 100,
Tensile member fixing device, characterized in that the lower end of the wedge member 200 is supported by the lower locking jaw 104. According to claim 1,
Before completion of the downward driving of the intermediate member 300, the wedge member 200 prevents the tension member 10 from being pressed, and after the downward driving of the intermediate member 300 is completed, the wedge member ( The fixing member fixing device characterized in that the gap maintaining member 203 is installed in the wedge member 200 so that 200) does not interfere with the pressing of the tension member 10. The method of claim 15,
The wedge member 200 is formed by a combination of a plurality of pieces wedge member (210,220,230) that can be mutually space-adjustable around the tensile member through hole,
The gap-holding member 203 prevents the tension between the plurality of pieces of wedge members 210, 220, and 230 is narrowed before the downward driving of the intermediate member 300 is completed, thereby compressing the tension member 10, After completion of the downward driving of the intermediate member 300, the gap between the plurality of pieces wedge member (210,220,230) is narrowed, the tension member fixing device characterized in that installed so as not to interfere with pressing the tension member (10) . The method of claim 16,
The gap-holding member 203 is a tension member fixing device, characterized in that the ring-shaped structure with a tung portion (204) formed on one side. The method of claim 17,
The gap holding member 203 is installed inside the lower portion of the plurality of pieces wedge member (210,220,230), the plurality of pieces of the wedge member (210,220,230) outside the lower portion of the plurality of pieces wedge member (210,220,230) mutually separated Tensile member fixing device, characterized in that the departure preventing member 202 for preventing is installed.

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