KR20100062151A - Temporary system for noise diminution - Google Patents

Abstract

PURPOSE: A temporary structure for reducing noise occurred when a form is separated is provided to prevent noise occurred when a slab form is separated by installing a shock absorbing member in an indoor space. CONSTITUTION: A temporary structure for reducing noise occurred when a form is separated comprises a form spacer and a shock absorbing member(20). The form spacer is embedded in a wall(1) in a horizontal direction. Corn nuts(11) are coupled to both ends of the form spacer. The shock absorbing member is coupled to the form spacer, and crosses a space formed by the wall.

Description

Temporary system for noise diminution

The present invention is a temporary structure for reducing the drop impact noise during formwork demoulding work, by preventing the noise during the slab formwork drop by installing a cushioning member using a formwork spacing to be installed to cope with the transverse pressure of the concrete when placing the wall formwork. It is about structure to do.

Formwork is a construction frame for concrete structures, which maintains constant formation and dimensions from the work of pouring concrete into concrete until it expresses strength, condensation and hardening, and prevents the leakage of water and the influence of outside air required for the hardening. It is a temporary structure to protect and support concrete.

Such formwork can bear all the loads such as its own load, raw concrete load, working load of materials and equipment, personnel, etc. during construction, impact of concrete pouring and concrete side pressure, and there is a gap from which concrete leaks before hardening. It must be assembled in a solid structure without.

However, the rigid coupling structure between the formwork members acts as a negative factor in the form demolding process after concrete curing. That is, since a certain level of adhesive force is generated between the concrete and the formwork, it is very difficult to remove formwork members such as wall formwork and slab formwork one by one while the formwork members are in strong contact with each other. As a result, air is delayed, molds are damaged, and safety accidents occur. Even if measures such as applying a separation material to the formwork are not satisfactory in terms of cost-effectiveness. .

Particularly, when the slab formwork is demolded, the risk of slab formwork is increased, and the noise is generated when the slab form is dropped, which is a cause of complaints of neighboring residents.

The present invention is to solve the above problems, to prevent the damage of the slab formwork and yoke and joist member by drop noise and drop impact when demolishing the slab formwork through a simple construction structure using the formwork gap retaining hole embedded in the wall The purpose is to ensure the safety of the workplace.

In the process of manufacturing concrete walls, formwork spacing zones (form- bolts, flat ties, snap ties, fasteners, etc.) are installed to withstand the transverse pressure of concrete. In the present invention, to solve the above problems by installing a buffer member made of any one or more of the rope, flat belt or mesh in the indoor space using the formwork spacing.

Accordingly, the present invention provides a specific installation structure of the buffer member (wire rope, mesh, etc.) according to the type of the mold spacing.

According to the present invention has the following effects.

1. Since a cushion member consisting of a rope or a net is installed in the indoor space, noise does not occur when the slab formwork is dropped off.

2. The shock absorbing member installed in the indoor space can prevent the fall accident of the slab formwork worker.

3. It is easy to install the temporary structure for reducing mold demoulding noise because it is installed by using the formwork gap retaining area, which is essential for wall making.

The present invention is a mold spacing (10) embedded in the wall (1) in the transverse direction; And a shock absorbing member (20) coupled to the formwork spacing (10) of the opposing wall (1) opposite both ends, so as to traverse a space formed by the opposing wall (1); It provides a hypothesis structure for formwork demoulding noise reduction comprising a. As the shock absorbing member 20, a rope, a net, or the like may be applied, and it is preferable to apply a material having good tensile stress and elasticity.

In the present invention, a specific coupling method between the formwork spacing 10 and the buffer member 20 can be changed according to the type of the formwork spacing 10, hereinafter, the present invention will be described in detail with the accompanying drawings. Let's do it.

1. First embodiment

1 shows a first embodiment of the hypothesis structure for reducing mold demoulding noise according to the present invention. The first embodiment is an embodiment in which the tie bolts are embedded and installed to form the mold spacing so that the cone nuts 11 are coupled to both ends to expose the cone nuts 11 on both sides of the wall 1. In this case, the bolt portion 31 is formed at one end, and the mold spacing 10 and the shock absorbing member 20 can be indirectly coupled using the connector 30 having the fastening ring 32 formed at the other end thereof. have. That is, the bolt part 31 of one end of the connector 30 is coupled to the nut 11 embedded in the wall 1, and the shock absorbing member 20 is fixed to the fastening ring 32 of the other end of the connector. It can be.

2. Second Embodiment

Figure 2 shows a second embodiment of the hypothesis structure for reducing mold demoulding noise according to the present invention. The second embodiment is an embodiment in which a tie bolt is embedded as a formwork spacing for embedding and installed so that the bolt-shaped end 12 protrudes on both sides of the wall 1. In this case, the nut portion 33 is formed at one end, and the mold spacing 10 and the shock absorbing member 20 may be indirectly coupled using the connector 30 having the fastening ring 32 formed at the other end thereof. have. That is, the nut part 33 of one end of the connector 30 is coupled to the bolt-shaped end 12, and the shock absorbing member 20 can be fixed to the fastening ring 32 of the other end of the connector 30. will be.

3. Third embodiment

3 shows a third embodiment of the hypothesis structure for reducing mold demoulding noise according to the present invention. The third embodiment is an embodiment in which the snap tie installed to form the catching head 13 on both sides of the wall 1 is used as the formwork spacing. In this case, by using the connector 30 formed with a continuous hole 34 on the upper plate and a circular hole 35 on the lower surface of the plate, the mold spacing 10 and the buffer member 20 are indirectly coupled. Can be. That is, the mold spacing 10 may be inserted into the long hole 34 by lowering the connector 30 after the hook head 13 passes through the circular hole 35. The shock absorbing member 20 is fixed to the circular hole 35.

4. Fourth embodiment

4 illustrates a fourth embodiment of the hypothesis structure for reducing mold demoulding noise according to the present invention. The third embodiment is an embodiment in which a flat tie embedded into a form space is provided as a formwork spacing so that end portions formed with fastening holes 14 on both sides of the wall 1 protrude. The flat tie collectively refers to a kind of form tie, both ends of which are flat for application in the case where the wall formwork is the euro form or the aluminum form. The present embodiment is a direct coupling of the mold spacing 10 and the buffer member 20, the buffer member 10 is fixed to the fastening hole (14).

5. Fifth Embodiment

5 illustrates a fifth embodiment of the hypothesis structure for reducing mold demoulding noise according to the present invention. The fifth embodiment is also an embodiment in which the flat tie is applied as the formwork spacing retainer, but unlike the fourth embodiment, the formwork spacing retainer is formed by the connector 30 having hooks 36a and 36b formed at both ends. 10 and the shock absorbing member 20 is indirectly coupled structure. That is, the hook portion 36a at one end of the connector 30 is fixed to the fastening hole 14 formed at the end of the mold spacing 10, and the shock absorbing member 20 is formed at the other end of the connector 30. Can be fixed by hooking the hook portion (36b).

6. Sixth embodiment

6 shows a sixth embodiment of the hypothesis structure for reducing mold demoulding noise according to the present invention. This embodiment is an embodiment in which the stiffness reinforcement tube 37 is additionally included when the stiffness reinforcement of the formwork spacing 10 is required in the fifth embodiment.

On the other hand, the present invention two variable ring (37a, 37b) for adjusting the coupling length of the buffer member 20 by the knot; It provides a hypothesis structure for reducing the mold demolding noise, characterized in that the configuration further comprises. FIG. 7 illustrates a state in which a buffer member is knotted to two variable rings for adjusting the length of the buffer member. Specifically, the flat tie is applied as a mold spacing retainer, and hooks 36a and 36b are formed at both ends. An embodiment in which the formwork spacing and the buffer member is connected to each other through a connection member formed thereon. According to FIG. 7, the shock absorbing member 20 is pushed into one variable ring 37b, hooked onto one side hook portion 36b of the connecting member, and then pulled out again through the variable ring 37b. The knot of the shock absorbing member 20 was built in such a way that it fits into the variable ring 37a. By this knot, the length of the buffer member 20 can be adjusted by pulling or pushing it out.

As described above, the temporary structure for reducing formwork demoulding noise is installed after dismantling the wall formwork, and thus the installation and dismantling should be simple since the temporary facility is dismantled after demolishing the slab formwork. The present invention described above is a combination of ropes, safety nets, etc. in the formwork gap retaining zone which is essentially embedded in the construction process of concrete structures, its structure and installation and dismantling process is very simple, after demolding as shown in FIG. Supporting the falling slab formwork (3) stably in the indoor space, the slab formwork (3) hits the floor to generate a loud noise, and to prevent in advance the situation that the slab formwork, yoke, joist, etc. are damaged (falling damage) It becomes possible. (A) and (b) of FIG. 8 are side and plan views, respectively, of a temporary structure for reducing mold demoulding noise according to the present invention.

Figure 1 shows a first embodiment of the hypothesis structure for reducing formwork demoulding noise according to the present invention.

Figure 2 shows a second embodiment of the hypothesis structure for reducing mold demoulding noise according to the present invention.

Figure 3 shows a third embodiment of the hypothesis structure for reducing formwork demoulding noise according to the present invention.

Figure 4 shows a fourth embodiment of the hypothesis structure for reducing formwork demoulding noise according to the present invention.

Figure 5 shows a fifth embodiment of the hypothesis structure for reducing formwork demoulding noise according to the present invention.

Figure 6 shows a sixth embodiment of the hypothesis structure for reducing mold demoulding noise according to the present invention.

Figure 7 shows a state in which the buffer member is knotted in two variable rings for adjusting the length of the buffer member.

8 illustrates a state using a hypothesis structure for reducing mold demoulding noise according to the present invention.

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

1: wall 2: wedge pin

3: slab formwork

10: die spacing area 11: cone nut

12: bolt type end 13: hook

14: fastener

20: buffer member

30: connector 31: bolt portion

32: fastening ring 33: nut

34: long hole 35: round hole

36a, 36b: hook portion 37a, 37b: variable ring

38: Rigidity Overlay

Claims (9)

A formwork spacing 10 embedded in the wall 1 in the transverse direction; And A shock absorbing member (20) coupled to the formwork spacing (10) of the opposing wall (1), the both ends being disposed across the space formed by the opposing wall (1); Hypothesis structure for formwork demoulding noise reduction comprising a. In claim 1, The shock absorbing member 20 is a formwork demoulding noise blocking structure, characterized in that any one or more of the rope, flat belt or mesh. The method of claim 1 or 2, The formwork spacing 10 is a tie bolt is installed so that the cone nut 11 is coupled to both ends to expose the cone nut 11 on both sides of the wall (1), One end of the bolt portion 31 is screwed with the cone 11 is formed, the other end is formed with a fastening ring 32, the coupling between the mold spacing 10 and the buffer member 20 An intermediate connector 30; It is configured to include more The buffer member 20 is a hypothesis structure for reducing the formwork demoulding noise, characterized in that fixed to the fastening ring (32). The method of claim 1 or 2, The formwork spacing 10 is a tie bolt installed so that the bolt-shaped end 12 protrudes on both sides of the wall, A nut part 33 is formed at one end and is coupled to the bolt-shaped end 12, and a fastening ring 32 is formed at the other end thereof, so as to form a coupling between the formwork gap holder 10 and the buffer member 20. An intermediate connector 30; It is configured to include more The buffer member 20 is a temporary structure for reducing the formwork demoulding noise, characterized in that fixed to the fastening ring (32). The method of claim 1 or 2, The formwork spacing 10 is a snap tie installed so that the engaging head 13 is formed on both sides of the wall, A long hole 34 on the upper surface of the plate and a circular hole 35 on the lower surface of the plate are continuously formed, and a connector 30 which mediates the coupling between the formwork gap holding member 10 and the buffer member 20; It is configured to include more The mold spacing 10 is inserted into the long hole 34 and fixed as the connector 30 is lowered after passing the locking head 13 through the circular hole 35. The buffer member 20 is a temporary structure for reducing the formwork demoulding noise, characterized in that fixed to the circular hole (35) fixed. The method of claim 1 or 2, The formwork spacing 10 is a flat tie installed so that the end formed with a fastening hole 14 on both sides of the wall protrudes, The buffer member 20 is a temporary structure for reducing the formwork demoulding noise, characterized in that fixed to the fastening hole (14). The method of claim 1 or 2, The formwork spacing 10 is a flat tie installed so that the end formed with a fastening hole 14 on both sides of the wall protrudes, A connection member (30) having hooks (36) formed at both ends as a member for mediating coupling between the formwork gap holding member (10) and the buffer member (20); It is configured to include more Hook portion (36a) of one end of the connector 30 is fixed to the fastening hole (14), The buffer member 20 is a temporary structure for reducing the mold demoulding noise, characterized in that fixed to the hook portion (36b) on the other end of the connector 30. In claim 7, A rigid reinforcement overlay pipe 38 inserted into and coupled to an end portion of the mold spacing retention zone 10 and having a through hole communicating with the fastening hole 14 at both sides; Hypothesis structure for formwork demoulding noise reduction, characterized in that further comprises a. The method of claim 1 or 2, Two variable rings (37a, 37b) for adjusting the coupling length of the buffer member 20 by a knot; Hypothesis structure for formwork demoulding noise reduction further comprises a.

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