KR100820596B1 - Trench-form - Google Patents

Abstract

A trench-form structure is provided to adjust draining slope of a trench foam accurately by screwing a support bolt with a support nut and then fixing the adjusted trench form firmly by a fixing nut. A trench-form structure comprises a trench form(30), a support bolt(40), a support nut(50), and a fixing nut(60). A trench is formed by a foundation concrete(10) distributed with foundation reinforcing bars(12), and a pressing concrete(20). The trench foam has a bottom foam(31) and side foams(32) integrated at ends of two sides of the bottom foam, and is formed with mounting holes(37). The support bolt has a head(42) vertically buried in the foundation concrete. The support nut adjusts the draining slope of the trench. The fixing nut is screwed with the support bolt to fix the trench foam. The support bolt has a notch(44) to guide shear rupture of the support bolt.

Description

Trench form structure {TRENCH-FORM}

1 is an exploded perspective view according to an embodiment of the present invention.

Figure 2 is a cross-sectional view of the coupling according to the embodiment of the present invention.

Figure 3 is an exploded cross-sectional view according to an embodiment of the present invention.

Figure 4a and 4b is a cross-sectional view showing the shear fracture and finishing work of the holding bolt according to an embodiment of the present invention.

* Description of the Related Art *

10 concrete concrete 12 concrete sphere

14: temporary rebar 20: pressed concrete

30: trench form 37: mounting hole

40: holding bolt 42: head

50: support nut 60: fixing nut

The present invention relates to a trench form structure, and more particularly, to a trench form structure that can easily adjust the height of the trench form to form a trench in which a precise drainage gradient is secured, and can economically expect cost reduction.

As is well known, trenches are formed into formwork in structures, especially underground structures, for draining condensate, infiltration and various wastewater into the sump.

Such a conventional trench is molded through the process of pouring pressed concrete in a state in which formwork consisting of a lumber or plywood is placed on concrete concrete, and the pressed concrete is cast and cured to be gradientd into a water collecting well, and then After demonstrating the formwork, finishing is done with plastering for waterproofing and grading.

The conventional trench constructed as described above has the following problems.

First, since the formwork forming the conventional trench is not fixed to the reinforcement of the concrete, not only could it be buried or deformed while being pushed by the side pressure of the pressed concrete, but it was not able to secure a precise gradient until the water collecting well, The formwork has been a problem that can not be modified for drainage.

Second, since the formwork forming the conventional trench is embedded in the pressed concrete as described above, it is not easy to demold after curing, and most of the formwork is broken when demolding, so that the reuse rate for the formation of other trenches is significantly decreased. There was a problem.

Third, when the conventional trench is not secured to the grade of the pressed concrete, a separate plastering work is required for securing the gradient, which leads to material cost and labor cost as well as delays in the air, thereby increasing the economic burden. There was a problem.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to easily adjust the height of the trench form to form a trench, a precise drainage gradient is secured, and can be expected to reduce the cost economically To provide a trenchform structure.

In order to achieve the above object, in the trench of a structure in which concrete reinforcement is formed by reinforcing concrete concrete and pressed concrete to drain various wastewater into a water collecting well, the bottom is formed to form a trench by pouring each concrete. Trench form formed of a foam and side foam integrally formed at both ends of the bottom form, the front and rear mounting holes vertically; A holding bolt having a head buried perpendicularly to concrete concrete so as to be mounted to the mounting hole of the trench foam, respectively; A support nut screwed to the support bolt to adjust a drainage gradient of the trench while supporting the bottom of the trench form; It includes; a fixing nut screwed to the holding bolt to fix the trench form adjusted by the support nut.

Here, the holding bolts, notches are formed to induce shear failure of the holding bolts exposed to the outside of the trench by the demoulding of the trench form, the notches are preferably formed along the outer peripheral surface of the holding bolts.

And it is preferable that the trench foam is formed integrally with the upper surface connecting the two side foams to act as a stress on the side pressure of the pressed concrete.

In addition, it is preferable that the head of the holding bolt is connected to the temporary reinforcing bar which is placed on the upper part of the concrete reinforcement and poured into concrete concrete, by welding joint.

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

First, Figure 1 is an exploded perspective view according to an embodiment of the present invention, Figure 2 is a cross-sectional view according to an embodiment of the present invention, Figure 3 is an exploded cross-sectional view according to an embodiment of the present invention, Figures 4a and 4b It is a cross-sectional view showing the shear fracture and finishing work of the strut bolt according to the embodiment of the present invention.

1 and 2, the present invention is formed to form the trench (T) by the casting of the concrete concrete 10 and the pressed concrete 20, the mounting hole 37 in the front and rear vertical To support the bottom of the trench foam 30 and the support bolt 40 mounted in the mounting hole 37 of the trench foam 30 and embedded in the concrete concrete 10, and the bottom of the trench foam 30. A support nut 50 screwed to the support bolt 40 to adjust the drainage gradient of the trench T and a fixing nut 60 screwed to the support bolt 40 to fix the trench form 30. Include.

Referring to FIG. 1, the trench form 30 is formed of a rectangular parallelepiped having a predetermined length to form a trench T for draining various wastewaters, and the trench form T is shown in FIG. 2. A bottom foam 31 forming a bottom surface of T), side foams 32 formed perpendicular to both ends of the bottom foam 31, and an upper foams connecting upper ends of the side foams 32 ( 33) is integrally formed. In particular, the trench foam 30 is made of a synthetic resin it is preferable that the bottom foam 31 and the side foam 32 and the upper surface foam 33 is injection molded to be made into the interior of the hollow. Therefore, compared with the conventional plywood formwork, the trench form 30 of the present invention is easily demolded from the concrete concrete 10 and the pressed concrete 20. The front and rear surfaces of the trench foam 30 as described above are shielded by the front foam 34 and the rear foam (not shown).

In addition, as shown in FIG. 1, the upper end of the side foam 32 described above, the convex portion 32a is integrally formed along the longitudinal direction, so that a grating (not shown) covering the upper portion of the trench T is formed. The mounting recess 22 is formed to be seated.

The upper foam 33 connecting the upper ends of the two side foams 32 acts as a stress so that the side foam 32 is not pushed inward by the side pressure of the pressed concrete 20 to be poured. That is, the upper foam 33 is horizontally connected to support the inner side surfaces of the both side foam 32 to act as a stress on the side pressure of the pressed concrete 20, thereby reducing the overall form deformation of the trench foam 30 Will be prevented.

As shown in FIG. 1, mounting holes 37 are vertically drilled in front and rear of the trench foam 30, and the mounting holes 37 support the bottom foam 31 to vertically support the top foam 33. It is preferable to drill the support plate 36 connected to

As shown in Figure 1, the holding bolt 40 is to prevent the flow of the trench form 30 is mounted to the mounting hole 37, the head 42 is disposed downwardly is embedded in the concrete concrete 10 The head 42 of the support bolt 40 is connected to the temporary reinforcing bar 14 arranged in a lattice on the upper part of the concrete reinforcement 12 by welding to be embedded in the concrete concrete 10. Accordingly, the holding bolt 40 is firmly fixed to the concrete concrete 10 to prevent the trench form 30 from flowing in the left and right or front and rear directions.

The notch 44 is formed along the outer circumferential surface of the lower portion adjacent to the head 42 of the support bolt 40, and the notch 44 is exposed to the outside of the trench T formed by the trench form 30. The bolt 40 is sheared off. That is, as shown in Figure 4a, by shaking the left and right while hitting the upper portion of the holding bolt 40, such as a hammer, the holding bolt 40 exposed to the outside of the trench (T) while being broken around the notch 44 is You will fall away.

The support nut 50 is screwed to the lower portion of the support bolt 40 to support the bottom surface of the trench form 30. Since the height of the trench form 30 is adjusted according to the screwing of the support nut 50. The precise drainage of the trench (T) is secured. That is, when lowering the front of the trench T, the drainage of the trench T is adjusted or the trench form 30 is loosened or tightened while the support nut 50 supporting the front bottom surface of the trench form 30 is lowered. Loosen or tighten the support nut 50 supporting the rear bottom of the) to adjust the drainage gradient of the trench (T). Accordingly, the height of the trench form 30 is adjusted only by adjusting the screw of the support nut 50 to secure the drainage gradient of the trench T precisely and easily. Here, the support washer 52 is interposed between the bottom of the trench form 30 and the support nut 50 to stably and broadly support the bottom of the trench form 30.

As described above, the trench form 30 whose height is adjusted by screwing the support nut 50 is firmly fixed by the fixing nut 60, and the fixing nut 60 is screwed at the upper end of the holding bolt 40. Since it is coupled to the upper surface 33 of the trench form (T), it is firmly fixed to the trench form (30). Here, it is preferable to prevent the loosening of the fixing nut 60 by the loosening prevention washer 62 interposed between the fixing nut 60 and the trench form 30.

Referring to the overall coupling relationship of the trenchform structure of the present invention configured as described above in detail.

First, as shown in FIG. 1, in order to pour the concrete concrete 10, a pair of temporary reinforcing bars 14 are placed on top of the reinforced concrete reinforcing bars 12, where the temporary reinforcing bars 14 are formed in the trench T. It is preferable to be welded to the concrete reinforcement 12 by being disposed along the drainage direction.

The head 42 of the support bolt 40 is vertically seated and connected to the welding joint at the upper portion of the temporary reinforcing bar 14, and the support nut 50 is screwed to the lower portion of the support bolt 40. After that, the support washer 52 is coupled thereto.

Subsequently, the mounting hole 37 of the trench form 30 is mounted on the support bolt 40, and the height of the trench form 30 is adjusted while securing or draining the support nut 50. And inserting the anti-loosening washer 62 in the upper end of the holding bolt 50 and screwing the fixing nut 60 to firmly fix the trench form (30).

Next, as shown in FIG. 2, the concrete concrete 10 is poured so that the head 42 of the support bolt 40 is embedded, and then the pressed concrete 20 is poured to the upper portion to cure the entire trench T. It takes shape.

After curing in this way, as shown in Figure 3, after loosening the fixing nut 60 screwed to the holding bolt 40 to disassemble the anti-loosening washer 62, demold the trench form (30).

Subsequently, when the support washer 52 and the support nut 50 are disassembled, the support bolt 40 is exposed to the outside of the trench T as shown in FIG. 3, in which case the support bolt 40 is exposed as shown in FIG. 4A. When the upper part of the 40 to hit the hammer left and right, the holding bolt 40 is broken around the notch (44).

Since the head 42 is exposed while the grooves 16 are formed on the bottom surface of the trench T in which the holding bolts 40 are broken, the mortar (M) is applied to these grooves 16 to finish with FIG. 4B. Similarly, the construction of the trench T is completed.

The foregoing descriptions are merely illustrative of preferred embodiments of the present invention, and it is apparent that the present invention is not limited to the above-described embodiments and can be modified in various ways within the scope of the appended claims.

As described above, the present invention can precisely and easily adjust the drainage gradient of the trench form by screwing the support bolt and the support nut, and secure the precise drainage gradient by firmly fixing the adjusted trench form by the fixing nut. There is a very useful effect that can provide a complete trench.

In addition, according to the present invention it is possible to continuously cast concrete concrete and pressed concrete, there is an effect that can be expected to shorten the air.

In addition, the present invention is easy to install and demoulding the trench form not only need skilled skills, but also has the effect of increasing the recovery rate of the trench form can be expected to reduce the cost by the recycling rate.

Claims (5)

In the trench T of the structure in which the concrete reinforcement 12 is formed by placing concrete concrete 10 and pushed concrete 20 in which the concrete reinforcement is drained, and drains various wastewater into the sump. Consists of the bottom foam 31 and the side foam 32 integrally formed at both ends of the bottom foam 31 to form the trench (T) by pouring each of the concrete 10, 20, front, rear There is a trench form 30 perforated vertically mounting holes 37; A holding bolt 40 having a head 42 embedded in the concrete concrete 10 so as to be mounted to the mounting hole 37 of the trench form 30, respectively; A support nut 50 screwed to the support bolt 40 to adjust a drainage gradient of the trench T while supporting the bottom surface of the trench form 30; A fixing nut 60 screwed to the support bolt 40 to fix the trench form 30 adjusted by the support nut 50; Trench form structure comprising a. The method of claim 1, Trench form structure, characterized in that the notch 44 is formed in the holding bolt 40 to induce shear failure of the holding bolt 40 exposed to the outside of the trench (T) by the demoulding of the trench form (30). The method of claim 2, The notch 44 is a trench foam structure, characterized in that formed along the outer peripheral surface of the holding bolt (40). The method of claim 1, The trench foam 30 is a trench foam structure, characterized in that the upper surface (33) is formed integrally connecting the two side foam (32) to act as a stress on the side pressure of the pressed concrete (20). The method according to any one of claims 1 to 4, The head 42 of the support bolt 40 is a trench form, which is connected to the temporary reinforcing bar 14 which is placed on the upper part of the concrete reinforcement 12 and poured into the concrete concrete 10. rescue.

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