KR20190111525A - Through sleeve for wall retaining wall - Google Patents

Abstract

The present invention relates to a through sleeve for a retaining wall. The through sleeve for a retaining wall includes: a first sleeve (100) including a first fixing pin (121); a second sleeve (200) including a second fixing pin (221) to be inserted into a coupling hole (21) of a mold (20); and an elastic member (251) placed inside the first sleeve (100) and the second sleeve (200) to make the first sleeve (100) and the second sleeve (200) apply elastic force to the mold. According to the present invention, the through sleeve for a retaining wall is capable of lowering costs by being easily stored and transported with a volume reduced through the combination of a hanging protrusion and a first hanging part.

Description

Through sleeve for wall retaining wall {.}

The present invention relates to a through sleeve for a wall retaining wall, and more particularly, one end portion of the first circular pipe portion 110 is sealed to form a first end surface 120, and the first end surface 120 is formed. A first sleeve 100 in which a first fixing pin 121 is formed to be fitted into a fastening hole 11 of the formwork 10 at an outer center of the first sleeve 100; One end of the second circular tube 210 is sealed to form a cylinder with a second end surface 220. The other end side is inserted into the inner circumferential surface of the first circular tube part 110 and slides left and right. A second sleeve 200 having a second fixing pin 221 formed at an outer center of one end thereof so as to be fitted into the fastening hole 21 of the formwork 20; An elastic member 251 is provided inside the first sleeve 100 and the second sleeve 200 such that the first sleeve 100 and the second sleeve 200 add elastic force to the formwork. The first sleeve 100 and the second sleeve 200 are both elastically applied to both the outside and the two ends between the fastening holes (11, 21) formed in the mold (10, 20), the coupling of the mold (10, 20) The length is adjusted according to the interval, but the engaging jaw 160 is formed on the inner circumferential surface of the end of the first circular pipe portion 110 of the first sleeve 100 is opened, the second of the second sleeve 200 On the outer circumferential surface of the second end surface 220 side of the circular pipe portion 210, a first catching portion 260 that can be fastened corresponding to the locking jaw 160 is formed so that the first sleeve and the second sleeve are formed. It is characterized in that the length can be adjusted according to the spacing of the formwork while the elastic force is applied to both sides.

The walls of the building must have through-holes through which ventilation, air-conditioning, sprinklers, electrical wiring, sewage, air conditioning ducts, firefighters, gas pipes, and air conditioners pass.

In general, in order to make a through-hole in a building, after fixing a through-sleeve having a certain diameter and width inside the formwork, the concrete is poured to make a through-hole.

In the prior art, Korean Patent Laid-Open Publication No. 10-2009-0054790 proposes a through-sleeve which is adjustable in length by allowing the through-sleeve to be rotated by screwing a male and female into equal parts as shown in FIG. 1A. However, when mounting the through-sleeve inside the formwork with screw type, in order to increase the strength of the concrete wall inside the formwork, insert the through-sleeve, which is joined in the form of female and male, in the form of a certain size between the steel bars formed at regular intervals. It was difficult to fix the length by the exact height and width of the formwork to install the through-sleeve, and it was not fixed when adjusting the length by the width of the formwork with the through-sleeve in the position to be installed, even though it was inserted between the rebars. Only the entire through-sleeve body on the other side should be rotated to enable adjustment. This installation is difficult to install nails or fixtures for fixing in a state where the installation height of the through-sleeve is arbitrarily set inside the formwork where the space is narrow, and the rotation of the through-sleeve with female and male screws requires considerable force. In addition, this rotation and height adjustment in the narrow space was more difficult. In addition, when the sleeve is replaced due to a defective product, it is separated only by the rotating operation, so there is a difficulty in maintenance.

On the other hand, Korean Patent Publication No. 10-0912278 has a structure for the formwork spacing support that can be used as the through-sleeve is inserted into the elastic body 251 inside the first sleeve 100 and the second sleeve 200 as shown in Figure 1b It is formed to be described as a technique that can adjust the spacing of the spacer variably, but when the elastic body 251 is inserted into the interior of the first sleeve 100 and the second sleeve 200 is assembled because it is thrown out in both ends It can not be supplied to the site in the state, and as shown in FIG. 1C, the first sleeve 100, the second sleeve 200, and the elastic body 251 are separated and supplied for each part to insert and assemble the elastic body 251 in the field. Since the construction method is selected to combine the formwork (10, 20), there is a problem that the loss of the elastic body is frequently difficult to construction, and occupies a large volume, which is inconvenient for storage and movement.

In addition, when the diameter of the first sleeve is increased, the phenomenon of crushing occurs due to the load of the concrete, there is also a problem that the cross section of the through sleeve is formed in an elliptical rather than circular.

Korean Patent Publication No. 10-2009-0054790 Korean Patent Publication No. 10-0912278 Korea Utility Model Publication No. 20-0476017 Japanese Utility Model Registration No. 3154893 Patent Application Publication No. 10-1247414

The present invention has been made to solve the above-described problems, the object of the present invention is to supply the through-sleeve simply assembled with only the first sleeve 100, the second sleeve 200 and the elastic member 251 to the field and in the field It is to provide a through-sleeve for wall retaining wall that can be simply fastened to the formwork fastening, the volume is easy to store or transport, and can reduce the manufacturing cost.

In order to solve the above problems, the present invention has a cylindrical shape in which one end of the first circular pipe part 110 is sealed to form a first end surface 120, and in the outer center of the first end surface 120. A first sleeve 100 in which a first fixing pin 121 is formed to be fitted into the fastening hole 11 of the formwork 10; One end of the second circular tube 210 is sealed to form a cylinder with a second end surface 220. The other end side is inserted into the inner circumferential surface of the first circular tube part 110 and slides left and right. A second sleeve 200 having a second fixing pin 221 formed at an outer center of one end thereof so as to be fitted into the fastening hole 21 of the formwork 20; An elastic member 251 is provided inside the first sleeve 100 and the second sleeve 200 so that the first sleeve 100 and the second sleeve 200 add elastic force to the mold. Both ends are fitted between the fastening holes 11 and 21 formed in the first and second fasteners 20, and an elastic member 251 is inserted into an inner central portion of the second end surface 220 of the second sleeve 200. An elastic member accommodating tube 250 is integrally formed, and an elastic member rod 150 inserted into the elastic member accommodating tube 250 is integrally formed at an inner central portion of the first end surface 120 of the first sleeve 100. The first sleeve 100 and the second sleeve 200 is formed to be adjusted to the length according to the gap between the mold (10, 20) while the elastic force is applied to both outside, the first sleeve 100 is opened The engaging jaw 160 is formed on the inner circumferential surface of the end portion of the first circular tube portion 110 of the second and second ends of the second circular tube portion 210 of the second sleeve 200. The outer peripheral surface of the (220) side, characterized in that the first engaging portion 260 which can be fastened in correspondence with the engaging shoulder 160 formed.

In addition, the locking jaw 160 of the first sleeve 100 and the first locking portion 260 formed with a second sleeve 200 that can be fastened corresponding to the locking jaw 160 is formed and simply coupled It is to provide a through sleeve for the wall retaining wall that can be conveniently operated without the use of tools or other materials.

In addition, a second catching part 261 is further formed on an outer circumferential surface of the other end of the second end surface 220 of the second sleeve 200 to be separated from the first catching part 260 and then to the first sleeve 100 and the first sleeve. It is to provide a through sleeve for the wall retaining wall that can prevent the two sleeve 200 is completely separated and separated.

In addition, the locking step 160 and the first locking portion 260 or the second locking portion 261 is formed of a multi-threaded thread to provide a through sleeve for the wall retaining wall is quickly coupled and separated by rotation.

In addition, the width of the second locking portion 261 is formed to be wider than the width of the first locking portion 260 to prevent the first and second sleeves from joining to the end portion of the wall retaining wall through sleeve having a stable coupling structure To provide.

In addition, the multi-threaded thread is to provide a method for producing a through sleeve for the wall retaining wall having a beautiful appearance and inner tube by symmetrically formed a plurality of parsing surface without a thread at a predetermined interval.

In addition, the first end surface 120 and the second end surface 220 are bent inwardly into a circular groove at a position coinciding with the inner diameter of the first and second circular pipe parts 110 and 120 so that they can be easily separated by a force. And it is to provide a through sleeve for the wall retaining wall having a first, second bent grooves (122, 222) having a thin thickness.

In addition, first and second gripping portions 112 and 212 are formed along the outer circumferential surface of the other side of the first sleeve 100 and the second end surface side of the second sleeve 20, respectively, so that the operator can conveniently grip the hand. It is to provide a through sleeve for the wall retaining wall that can facilitate the operator's work without slipping.

In addition, the outer circumferential surface of the locking jaw 160 of the first sleeve 100 has a reinforcing jaw to prevent the sleeve from being pressed by the concrete load by the load of the concrete to provide a through sleeve for the wall retaining wall that can maintain a circular shape It is.

In addition, an air hole is formed in the end faces of the first and second sleeves 100 and 200 so that the sleeve can be easily contracted and expanded without receiving air resistance therein. To provide.

In addition, the first fixing pin 121 and the second fixing pin 221 has a tapered shape and a plurality of long and short stripes are alternately formed on the outer circumferential surface thereof so as to be fastened to the fastening holes 11 and 11 'of the dies 10 and 20 and the forcing. It is to provide a through sleeve for the wall retaining wall that can be tightly coupled to the fitting structure to be beautiful and solid construction.

As described above, according to the present invention, the through sleeve assembled simply with only the first sleeve 100, the second sleeve 200, and the elastic member 251 can be supplied to the field and can be simply fastened to the fastening hole of the formwork at the site. It has an effect.

In addition, by having a structure in which the first locking portion 260 formed on the locking jaw 160 and the second sleeve 200 which can be fastened corresponding to the locking jaw 160 of the first sleeve 100 are simply coupled. There is an effect that can work conveniently without the use of tools or other materials.

In addition, a second catching part 261 is further formed on an outer circumferential surface of the other end of the second end surface 220 of the second sleeve 200 to be separated from the first catching part 260 and then to the first sleeve 100 and the first sleeve. By preventing the two sleeves 200 is completely separated and separated there is an effect that the operator can work conveniently.

In addition, the first locking portion 260 is formed to form a second sleeve 200 that can be fastened corresponding to the engaging jaw 160 of the first sleeve 100 has a structure that is simply coupled to the tool or other materials There is an effect that you can work conveniently without using.

In addition, a second catching part 261 is further formed on an outer circumferential surface of the other end of the second end surface 220 of the second sleeve 200 to be separated from the first catching part 260 and then to the first sleeve 100 and the first sleeve. There is an effect that can prevent the two sleeves 200 is completely separated and separated.

In addition, the locking step 160 and the first locking portion 260 or the second locking portion 261 is formed of a multi-threaded thread has the effect of being quickly coupled and separated by rotation.

In addition, the width of the second locking portion 261 is formed to be wider than the width of the first locking portion 260 has the effect of having a stable coupling structure without being struck when the first and second sleeves are coupled to the end.

In addition, the multi-threaded screw thread has a plurality of parsing surfaces without a thread formed symmetrically at regular intervals to produce a beautiful through-wall sleeve for wall retaining wall.

In addition, the first end surface 120 and the second end surface 220 are bent inwardly into a circular groove at a position coinciding with the inner diameter of the first and second circular pipe parts 110 and 120 so that they can be easily separated by a force. And the first and second bending grooves 122 and 222 having a thin thickness are formed to have a beautiful and easy separation by a hammer or the like.

In addition, first and second gripping portions 112 and 212 are formed along the outer circumferential surface of the other side of the first sleeve 100 and the second end surface side of the second sleeve 20, respectively, so that the operator can conveniently grip the hand. There is an effect that the operator can facilitate the work without slipping.

In addition, the outer peripheral surface of the locking jaw 160 of the first sleeve 100 is provided with a reinforcing jaw has an effect that can prevent the sleeve from being crushed by the load of the concrete.

In addition, air holes are formed in the first and second end surfaces 120 and 220 of the first and second sleeves 100 and 200 so that the sleeves can be easily contracted and expanded without receiving air resistance therein to facilitate the operation. It can work.

In addition, the first fixing pin 121 and the second fixing pin 221 has a tapered shape and a plurality of long and short stripes are alternately formed on the outer circumferential surface thereof so as to be fastened to the fastening holes 11 and 11 'of the dies 10 and 20 and the forcing. Tightly coupled with the fitting structure has the effect of beautiful and solid construction.

Figure 1 is an example showing the structure and shape of a conventional through sleeve
2 is a front view and a cross-sectional view of the through-sleeve through-wall for the retaining jaw 160 and the first engaging portion 260 is separated and expanded by the elastic member 251 according to an embodiment of the present invention.
3 is a cross-sectional view and a state in which the locking step 160 and the first locking part 260 are coupled according to an embodiment of the present invention.
4 is a left perspective view and a right perspective view showing a state in which the first and second sleeves are separated in one embodiment of the present invention;
5 is a cross-sectional view illustrating a structure in which the elastic member 251 is inserted into the first and second sleeves according to an embodiment of the present invention.
Figure 6 is a parsing surface formed on the multi-threaded thread of the first and second sleeves in one embodiment of the present invention
Front view and exploded perspective view for explaining 270

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to the specific embodiments, it should be understood that it includes all changes, equivalents, and substitutes included in the spirit and scope of the present invention, and may be modified in various other forms. However, the scope of the present invention is not limited to the following examples.

Hereinafter, the present invention will be described in detail with reference to the drawings. Like reference numerals in the drawings denote like elements.

FIG. 2 is a front view and a cross-sectional view of a cross section of the wall retaining wall through-sleeve which is expanded by the elastic member 251 by separating the catching jaw of the wall retaining wall through-sleeve and the first catching part 260 according to an exemplary embodiment of the present invention. 3 is a front view (FIG. 3A) and a cross-sectional view (FIG. 3B) in a state where the locking jaw 160 and the first locking portion 260 are coupled as an embodiment of the present invention, and FIG. 4. 4 shows a left perspective view (FIG. 4A) and a right perspective view (FIG. 4B) showing a state in which the first and second sleeves are separated, and FIG. 5 shows elasticity inside the first sleeve 100 and the second sleeve 200. Another embodiment of the insertion member 251 is illustrated, and FIG. 6 shows a front view (FIG. 6A) and a separate perspective view (FIG. 6B) of a through sleeve for a wall retaining wall having a parsing surface formed therein as another embodiment. Doing.

Wall through-wall sleeve according to the preferred embodiment of the present invention is a cylindrical shape in which one end of the first circular pipe portion 110 is sealed to form a first end surface 120, the outside of the first end surface 120 A first sleeve 100 having a first fixing pin 121 formed at a center thereof so as to be fitted into the fastening hole 11 of the formwork 10; One end of the second circular tube 210 is sealed to form a cylinder with a second end surface 220. The other end side is inserted into the inner circumferential surface of the first circular tube part 110 and slides left and right. A second sleeve 200 having a second fixing pin 221 formed at an outer center of one end thereof so as to be fitted into the fastening hole 21 of the formwork 20; An elastic member 251 is provided inside the first sleeve 100 and the second sleeve 200 such that the first sleeve 100 and the second sleeve 200 add elastic force to the formwork. The first sleeve 100 and the second sleeve 200 are both elastically applied to both the outside and the two ends between the fastening holes (11, 21) formed in the mold (10, 20), the coupling of the mold (10, 20) The length is adjusted according to the interval, but the engaging jaw 160 is formed on the inner circumferential surface of the end of the first circular pipe portion 110 of the first sleeve 100 is opened, the second of the second sleeve 200 On the outer circumferential surface of the second end surface 220 side of the circular tube portion 210, a first catching portion 260 that can be fastened in correspondence with the locking step 160 is formed.

In the through-wall sleeve for wall retaining wall of the present invention, the first sleeve 100 and the second sleeve 200 as shown in FIG. It is inserted into a structure that can be easily adjusted in length by the elastic force and the material is used as a metal and plastic material.

 The first sleeve 100 has a cylindrical shape in which one end of the first circular pipe part 110 is sealed to form a first end surface 120, and a mold 10 is formed at an outer center of the first end surface 120. The first fixing pin 121 is formed to be fitted to the fastening hole 11 of the.

In addition, the one end of the second sleeve 200 of the second circular tube 210 is sealed to form a second end surface 220 is formed, the other end side to the inner peripheral surface of the first circular tube portion 110. Inserted and operated left and right, the second fixing pin 221 is formed in the outer center of the one end portion to be fitted in the fastening hole 21 of the formwork (20).

As described above, the elastic body may be inserted into the first sleeve 100 and the second sleeve 200 as shown in FIGS. 2B, 5A, and 5B.

As shown in FIG. 5A, an elastic body 251 of a circular coil is inserted into an interior of the first circular pipe part 110 of the first sleeve 100 and an interior of the second circular pipe part 210 of the second sleeve 200. As shown in FIG. 5B, an elastic body 251 of a circular coil is inserted between the inside of the first circular pipe part 110 of the first sleeve 100 and the other end of the second end surface 220 of the second sleeve 200. Can be configured.

The locking jaw 160 is formed on the inner circumferential surface of the end of the first circular pipe part 110 of the first sleeve 100 of the present invention, and the second circular pipe part 210 of the second sleeve 200 is formed. On the outer circumferential surface of the second end surface 220 side of the first engaging portion 260 that can be fastened corresponding to the locking step 160 is formed. Features of the present invention as described above is assembled as shown in Figure 4a when the engaging jaw 160 of the first sleeve and the first engaging portion 260 of the second sleeve is coupled by mutual rotation of the first and second sleeves. Since the overall length of the through-sleeve becomes smaller, it is easy to store or move, so there is an advantage that the logistics cost is reduced. In addition, in the prior art as shown in FIG. 1b, it is possible to reduce the installation time at the construction site and to prevent the elastic member 251 from being lost by solving the disadvantage of being assembled at the factory and using the assembly at the site. The assembled product as shown in Figure 3a is sandwiched between the formwork (10, 20) of the field, the locking jaw 160 of the first sleeve and the first locking portion of the second sleeve fastened by mutual rotation of the first and second sleeves. 260 is separated and is opened by the elastic member is inserted into the fastening holes (11, 21) of the mold (10.20) to the first and second fixing pins (121, 221) can be easily installed. This can eliminate the inconvenience of storing or transporting the elastic body 251 and the sleeve (100, 200) as shown in Figure 1b.

In the inner central portion of the second end surface 220 of the second sleeve 200 of the present invention, a tubular elastic member accommodation tube 250 into which the elastic member 251 is inserted is integrally formed, and the first sleeve (The inner end portion of the first end surface 120 of 100 may further include an integrally formed elastic member rod 150 inserted into the elastic member receiving tube 250. The structure as described above is a tubular shape. Since the elastic member rod 150 is inserted into the elastic member accommodation tube 250 of the first sleeve 100 and the second sleeve 200, the first sleeve 100 and the second sleeve 200 are operated stably without a flow when assembled, and are assembled to a formwork to form a through sleeve. It does not apply to the concrete load to act as a rib in, and the winding radius of the metal chain coil spring is reduced to have the effect of reducing the material cost.

Meanwhile, the elastic body 251 is described as having a shape in which the coil spring having a small winding radius is accommodated in the elastic member receiving tube 250 as shown in FIG. 3B, but the winding radius is larger than the outer diameter of the elastic member receiving tube 250. The large coil spring may be configured to be inserted into the outer side of the elastic member receiving tube (250). In addition, the elastic member receiving tube 250 for receiving the elastic member 250 is integrally formed in the interior of the first sleeve 100 and the elastic member rod 150 is integrally formed in the interior of the second sleeve 200 It is obvious that the configuration to be changed is easily configured by a person skilled in the art.

In addition, the outer peripheral surface of the other end of the second end surface 220 of the second sleeve 200 of the present invention is characterized in that the second locking portion 261 that can be fastened corresponding to the locking step 160 is further formed. do.

As described above, when only the first catching part 260 is formed, the first catching part 260 and the catching jaw 171 are released and separated by the first sleeve 100 and the second sleeve by the elastic member 251. (200) has the advantage of preventing the rebound to bounce off each other The present invention having such a feature has the function of a safety device that can be used safely by the operator in the construction phenomenon.

The catching jaw 160 and the first catching part 260 or the second catching part 261 of the present invention are characterized by being formed with multi-threaded threads.

The principle of the screw is that when the paper of a right triangle is wound on a cylinder, the curve created by the oblique plane of the right triangle becomes a spiral, which is called a “screw curve.” Also, the angle of inclination of the screw curve (β) is called 'lead'. Angle, which is the distance traveled in the axial direction when the screw is rotated about its axis. A screw made of one coil made of two or more 'screws' Screws with two or more threads, classified as two-threaded, three-threaded, etc. according to the number of threads of the spiral, and the larger the number of lines, the larger the lead angle. In this case, since L = n ㅧ P, L = P in a single thread, and a multi-threaded screw has little rotation, so that the screw can be tightened or loosened quickly. As shown in FIGS. 2 and 4, a multi-threaded screw having six threads is formed on the locking jaw 160, the first locking portion 260, and the second locking portion 261. The hooking jaw 160 and the first catching portion 260 can be combined or separated six times faster than a screw thread, and the product shown in FIGS. 2 and 6 of the present invention is 1/6. Only by rotating, the locking step 160 and the first locking portion 260 can be combined and separated, as well as being firmly coupled.The number of multi-threaded screws can vary depending on the size of the diameter of the pipe, If necessary, the number can be adjusted.

The width of the second locking portion 261 of the present invention is characterized in that it is formed wider than the width of the first locking portion 260. The structure as described above has the advantage that the pipe through-hole formed in the wall has a stable coupling structure and is formed in a straight line because the connecting portion is not struck by the load even when the first and second sleeves are coupled to the ends. In addition, a portion of the second catching portion 261, which is the other end of the second sleeve 200 having a cylindrical shape as compared to the second end surface 220, is easily pressed by a load. Therefore, the present invention has the effect of preventing the sleeve from being crushed by the load of concrete by widening the width of the second locking portion 261 to serve as a tendon.

As shown in Figure 6 of the present invention, the multi-threaded thread is characterized in that the parsing surface without a thread is formed symmetrically at a predetermined interval. Such a configuration has the advantage of producing a beautiful product that does not appear such a flaw appearing formed in the through-sleeve product connection portion of the mold in the manufacturing process.

The first bent groove 122 and the first end face 120 and the second end face 220 of the present invention may be separated to match the inner diameters of the first and second circular pipe parts 110 and 120. Two bending grooves 222 are characterized in that each is formed. The wall retaining wall through-sleeve of the present invention is installed between the formwork (10, 20) installed on both sides, and after the concrete is poured, the form is removed and the end surface as shown in Figure 2a, 120, 200 Press lightly with a hammer, etc., to easily and beautifully remove the end surfaces 120 and 200 by the first bent groove 122 or the second bent groove 222.

Reinforcing jaw 111 is provided on the outer circumferential surface of the locking jaw 160 of the first sleeve 100 of the present invention. The first sleeve 100 having a cylindrical shape has a structure in which a part of the locking jaw 160, which is the other end thereof, is more likely to be pressed by a load than the first end surface 120. Therefore, the present invention has the advantage of maintaining the circular shape by preventing the sleeve from being pressed by the load of the concrete by forming the reinforcing jaw 111 in the shape of a semi-circular strip on the outer peripheral surface of the locking jaw 160.

First and second gripping portions 112 and 212 are formed at right angles to the circumferential direction along the outer circumferential surface of the other side of the first sleeve 100 and the second end surface side of the second sleeve 200 of the present invention, respectively. It features. The configuration as described above helps the operator to facilitate the operation without the gripping phenomenon by hand conveniently, and has the advantage of serving as a tendon of the first sleeve 100 and the second sleeve 200. .

On the other hand, the first sleeve 100 may further form a tendon by extending or adding the grip portion 112 formed on the outer peripheral surface according to the size or length of the radius. The plurality of tendons are formed at a right angle with the circumferential direction in order to minimize the gap when the second sleeve 200 is coupled to the second sleeve 200, so that the gap between the first and the second sleeves may be increased when the radius of the sleeve is increased. By minimizing the play, it is possible to prevent the sleeve from being crushed by the load of the concrete. The tendon may be formed in plural at equal intervals in the circumferential direction, and may be formed in plural in the same direction as the circumferential direction. In addition, a plurality of inner sleeves of the second sleeve may be formed in the same direction as described above.

Air holes 123 and 223 are formed in any one of the first and second end surfaces of the first sleeve 100 and the second end surface of the second sleeve 200. The air hole helps to easily work by allowing the air to flow well when the first sleeve 100 and the second sleeve 200 are compressed or expanded during assembly or construction.

The first fixing pin 121 and the second fixing pin 221 of the present invention is tapered as shown in Figure 4a and characterized in that a plurality of long and short stripes alternately formed on the outer peripheral surface. As shown in FIG. 4A, the fixing pins 121 and 221 have a tapered shape, and a plurality of long and short stripes are alternately formed on the outer circumferential surfaces of the tapered fixing pins 121 and 221. The fastening holes (11, 11 ') and tightly coupled to the interference structure has the advantage that can be beautiful and solid construction.

On the other hand, the locking jaw 160 and the first locking portion 260 or the second locking portion 261 is formed by the screw thread formed by one skilled in the art rather than a multi-threaded thread once a round may be configured. have. In addition, the shape of the locking jaw and the first locking portion may be formed by symmetrically forming the first locking portion formed by the locking jaw and the groove of the rectangular shape without forming the thread. As such, the structure and the shape of the locking jaw and the first and second locking portions may be variously configured, and the thread, the locking jaw, the shape of the blackening portion, or the formed components may be modified in various forms by those skilled in the art.

10, 20: formwork
11, 21 fasteners
100: first sleeve
110: first round tube
111: reinforcement jaw
112: first gripper
120: first end surface
121: first fixing pin
122: first bending groove
123: first air hole
150: elastic member rod
160: hanging jaw
200: second sleeve
210: second round tube
212: second gripper
220: second end surface
221: second fixing pin
222: second bending groove
223: second air hole
250: elastic member receiving tube
251: elastic member
260: first catching part
261: second catching part
270: parsing plane

Claims (12)

One end of the first circular pipe part 110 is sealed to form a cylindrical shape having a first end surface 120. The outer end of the first end surface 120 is inserted into the fastening hole 11 of the formwork 10. A first sleeve 100 having a first fixing pin 121 formed thereon; One end of the second circular tube 210 is sealed to form a cylinder with a second end surface 220. The other end side is inserted into the inner circumferential surface of the first circular tube part 110 and slides left and right. A second sleeve 200 having a second fixing pin 221 formed at an outer center of one end thereof so as to be fitted into the fastening hole 21 of the formwork 20; An elastic member 251 is provided inside the first sleeve 100 and the second sleeve 200 such that the first sleeve 100 and the second sleeve 200 add elastic force to the formwork. The first sleeve 100 and the second sleeve 200 are both elastically applied to both the outside and the two ends between the fastening holes (11, 21) formed in the mold (10, 20), the coupling of the mold (10, 20) The length is adjusted according to the interval,
A locking jaw 160 is formed on an inner circumferential surface of the end portion of the first circular pipe part 110 of the first sleeve 100 that is opened, and a second of the second circular pipe part 210 of the second sleeve 200 is formed. On the outer circumferential surface of the end surface 220 side wall through-wall sleeves, characterized in that the first engaging portion 260 is formed that can be fastened corresponding to the locking step 160 The method according to claim 1,
An inner central portion of the second end surface 220 of the second sleeve 200 is integrally formed with a tubular elastic member receiving tube 250 into which the elastic member 251 is inserted. The through sleeve for the wall retaining wall, characterized in that the inner end of the first end surface 120 further comprises an integrally formed elastic member rod 150 is inserted into the elastic member receiving tube (250). The method according to claim 1 or 2,
Penetration for the wall retaining wall, characterized in that the second circumferential surface of the second end surface 220 of the second sleeve 200 is further formed with a second catching portion 261 that can be fastened corresponding to the locking jaw 160. sleeve. The method according to claim 3,
The locking jaw 160, the first locking portion 260, the second locking portion 261 is formed of a multi-threaded thread through the wall retaining wall, characterized in that has a structure that is quickly coupled and separated by rotation sleeve. The method according to claim 4,
The width of the second catching portion 261 is formed to be wider than the width of the first catching portion 260, the wall retaining wall, characterized in that the first and second sleeves have a stable coupling structure without being struck at the end Through sleeve. The method according to claim 5,
The multi-threaded thread is a through sleeve for the wall retaining wall, characterized in that the threaded parsing surface is formed symmetrically at regular intervals. The method according to claim 1,
The first end face 120 and the second end face 220 are bent inwardly at a position coinciding with the inner diameters of the first and second circular pipe parts 110 and 120 so that they can be easily separated by a force. A through-wall sleeve for wall retaining wall, comprising: first and second bending grooves 122 and 222 having a thin thickness. The method according to claim 1,
The outer sleeve of the engaging jaw 160 of the first sleeve 100 is provided with a reinforcing jaw (111) is a through sleeve for the wall retaining wall, characterized in that the sleeve is prevented from being pressed by the load of the concrete. The method according to claim 1,
First and second gripping parts 112 and 212 are formed along the outer circumferential surface of the other side of the first sleeve 100 and the second end surface side of the second sleeve 200, respectively. . The method according to claim 1,
Through-holes for wall retaining wall, characterized in that the air hole (123, 223) is formed in any one of the first and second end surfaces of the first sleeve (100) or the second end surface of the second sleeve (200). The method according to claim 1,
The first fixing pin 121 and the second fixing pin 221 has a tapered shape and a plurality of long and short streaks alternately formed on the outer circumferential surface of the wall retaining wall through sleeve. The method according to claim 2,
An elastic member accommodating tube 250 accommodating the elastic member 250 is integrally formed at an inner center of the first end surface 120 of the first sleeve 100, and the elastic member rod 150 is formed of the first member. A through sleeve for wall retaining wall, characterized in that formed integrally with the inner center of the second end surface 220 of the two sleeves (200).

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