KR20240047609A - A collection apparatus for crushed concrete materials and building method for elastic bridge span connection utilizing thereof - Google Patents

Abstract

The present invention accommodates longitudinal contraction or expansion between upper structures that are installed horizontally and continuously supported on the lower structure of a bridge, and maintains flatness by filling the gap between adjacent upper structures. The purpose is to provide a method for constructing expansion joints and a device for collecting concrete shreds generated during construction.
The upper part of the full width of the opposing surface of the upper structures is partially cut using a concrete cutter, and then the cut part is dug up with a concrete crusher. Concrete debris dust and debris in the form of large and small lumps generated in the process of preparing an accommodation space where expansion joints are installed in a buried manner. By collecting them into a high-pressure suction tank lorry waiting at the construction site using a mobile collection device, it not only prevents environmental pollution at the construction site, but also improves the working environment and constructability.

Description

A collection apparatus for crushed concrete materials and building method for elastic bridge span connection utilizing the same}

The present invention relates to the construction of an expansion joint that accommodates the longitudinal contraction or expansion action between the upper structures of a bridge and maintains flatness by filling the gap between adjacent upper structures, and the collection of concrete debris generated during the construction. It's about devices.

Bridges are constructed by casting on site, and on top of the lower structures arranged at equal intervals, the upper structures are manufactured and supplied in transportable unit lengths by a concrete manufacturer, and the horizontal upper structures are installed one after another, allowing people and vehicles to cross. I'm doing it.

Expansion joints are installed between the upper structures of such bridges to accommodate the contraction or expansion action that occurs in the length direction due to temperature changes in winter and summer or drying shrinkage.

Expansion joints are divided between upper structures that are installed horizontally in succession and supported on the lower structure of a bridge, that is, divided into left and right pairs of narrow steel plates divided in half across the full width of the opposing surfaces of adjacent upper structures. It is fixed and installed by welding with individual reinforcing bars and is installed in a buried manner.

In addition, the partitions use interlocking parts made of peaks and valleys arranged alternately on the opposing surfaces of the two adjacent superstructures to accommodate contraction and expansion actions and maintain flatness between the superstructures.

The construction of these expansion joints is approximately carried out at a stage after the bridge construction is completed.

The construction of bridge expansion joints involves partially cutting the upper part of the full width of the mutually opposing surfaces between the upper structures, which are placed flat on top of the lower structures in a completed bridge, to a certain depth using a concrete cutter at a certain width, and then partially cutting them to a certain depth using a concrete cutter. The cut portion is cut out with a concrete crusher to provide an accommodation space for installation of expansion joints. At this time, excessive dust is generated during the crushing of concrete, which causes the poor working environment and contaminates not only the construction site but also the surrounding environment. Therefore, the surrounding space of the upper structure is surrounded by an anti-spatter film, but it is fundamental to collect and dispose of the dust scattered into the atmosphere. There is no solution.

In addition, the concrete crushing debris generated during the crushing process of each opposing surface of the upper structures to prepare the accommodation space for the expansion joint is disposed of, that is, the concrete debris is scattered in the form of large and small lumps between the accommodation space and the reinforcing bars exposed at the bottom. There are many problems, such as poor constructability, as it is not easy to collect and process the shredded material, which requires workers to manually lift it out or dispose of it using a high-pressure washing method.

Republic of Korea Patent No. 10-1693767 Republic of Korea Patent No. 10-2039099

The present invention addresses the problem of flying dust from crushed concrete that occurs during the excavation of an accommodation space provided for the installation of expansion joints on the upper structure of a bridge, and makes it possible to more efficiently and effectively collect and dispose of crushed materials in the form of large and small lumps. To provide a collection device and a method of constructing bridge expansion joints using the collection device.

The present invention involves partially cutting the upper structures of a bridge using a concrete cutter and then digging up the cut part with a concrete crusher to create a receiving space where expansion joints are installed in a buried manner. Concrete crushed dust and large and small lumps are generated in the process. By collecting the shredded materials directly into a high-pressure suction tank lorry waiting at the construction site using a mobile collection device, it is possible to prevent flying dust and prevent environmental pollution at the construction work site, as well as improve the working environment and constructability. do.

According to the apparatus for collecting crushed concrete according to the present invention and the method of constructing a bridge expansion joint using the same, the flying dust and lump-shaped fragments generated during the excavation work of the accommodation space provided for the installation of the expansion joint of the upper structure of the bridge are removed. By allowing the mobile collection device to directly collect wet dust by forced suction in a tank lorry waiting at the construction site, it not only prevents environmental pollution in the surrounding area by improving the environment at the construction work site, but also solves the problem of workers' respiratory diseases and reduces lump-shaped shredded material. The processing is simple, which has the effect of improving constructability and workability.

Figure 1 is a cross-sectional view showing a bridge upper structure completed by the present invention's concrete crushed material collection device and the bridge expansion joint construction method using the collection device.
Figure 2 (a) (b) (c) is an explanatory diagram showing the cutting and crushing process of the upper structure in the construction of bridge expansion joints according to the present invention,
(a) is the upper structure after the bridge installation is completed and before the construction of expansion joints.
(b) shows the upper parts of the upper structures facing each other being partially cut with a concrete cutter.
(c) shows the cut part of the upper structure being dug out with a concrete crusher to create a space to accommodate the expansion joint.
Figure 3 is a plan view showing a concrete crushing material collection device placed at a location outside the receiving space provided on the opposite surface of any one of the upper structures moving along the concrete crushing process.
Figure 4 is a longitudinal cross-sectional view cut along line AA of Figure 3, in which dust from crushed concrete generated when preparing a receiving space on the opposite side of the upper structure is collected in a wet manner through the suction end of the concrete crushed material collection device and collected into a tank lorry. There is also an explanation that appears.
Figure 5 is a plan view showing a concrete crushing material collection device placed at a location outside the receiving space provided on the opposite surface of any one of the upper structures moving along the concrete crushing process.
FIG. 6 is a longitudinal cross-sectional view cut along line BB of FIG. 5, showing the suction end of the concrete debris collection device receiving the concrete debris generated when preparing the receiving space on the opposite side of the upper structure, and the reinforcement exposed at the bottom of the receiving space. There is also an explanation showing how the material goes in and out between the rebars and is collected into a tank truck using high-pressure suction force.
Figure 7 is an explanatory diagram showing how the concrete crushed material is removed from the receiving space of the upper structure, the suction end of the concrete crushed material collection device is removed from the receiving space, and the expansion joint is fixed to the reinforcing bar exposed at the bottom of the receiving space by welding.
Figure 8 is an explanatory diagram showing the completion of the installation of expansion joints by filling the accommodation space of the upper structure with concrete.
Figure 9 is a process diagram of the bridge expansion joint construction method of the present invention.

Next, an embodiment of the present invention will be described. 1 to 9 illustrate in detail the apparatus for collecting crushed concrete according to the present invention and the method of constructing bridge expansion joints using the apparatus.

The present invention accommodates longitudinal contraction or expansion between upper structures that are installed horizontally and continuously supported on the lower structure of a bridge, and maintains flatness by filling the gap between adjacent upper structures. The aim is to provide a method of constructing expansion joints and a collection device for concrete debris generated during construction.

In the drawing, number 10 is a collection device for crushed concrete. This collection device 10 is installed in a mobile manner on any one of the superstructures 20 that are continuously installed, and is installed on the upper part of the full width of the mutually opposing surfaces of the superstructures 20 of the completed bridge, that is, In order to bury and install the expansion joint 30, crushing material or debris dust generated during the excavation process of the receiving spaces 22, which are provided with a predetermined width across the full width of each mutually opposing surface of the adjacent upper structures 20, are used for construction. Wet dust collection is performed using a tanker waiting at the site. At this time, reinforcing bars (RB) are exposed at the bottom of the accommodation space 22 of the upper structure 20 so that the expansion joint 30 is fixedly installed by welding.

The expansion joint 30 is divided into left and right halves across the full width of the mutually opposing surfaces of the adjacent upper structures 20, and consists of split pieces 32 of a pair of steel sheets, and reinforcing bars exposed at the bottom of the receiving space 22. (RB) and will be fixedly installed by welding and installed in a buried manner.

The collection device 10 is largely divided into a guide rail 12, a bogie 14, an elevating unit 16, and a suction unit 18 that is directly connected to a tank lorry waiting at the construction site.

First, the guide rail 12 is an accommodation space 22 provided on the inner upper surface of any one of the adjacent upper structures 20, that is, the upper portion of the full width of the opposing surface of the upper structures 20. It is erected along the longitudinal direction of the opposing surface of the upper structure 20 at a position outside of . At this time, the guide rail 12 has an optional length in consideration of the up and down traffic of the bridge.

The cart 14 is installed in the shape of a ship at its bottom and is installed in a mobile manner using a pair of wheels 14a that roll on the guide rail 12 so that the worker can use the bar handle 14b provided on the top of the cart 14. The collection device 10 will be moved to the concrete crushing position by manually pushing and pulling the handle.

The lifting unit 16 includes a lead screw 16a installed along one side from the bogie 14 toward the upper structure accommodation space 22, a handle 16b installed on the top of the lead screw 16a, and a handle 16b. It consists of a holder (16c) that moves up and down on the lead screw (16a), which rotates forward and backward by left and right rotation, and moves the suction unit (18) in and out of the receiving space (22) of the upper structure (20).

The suction unit 18 is installed as an extension from the tank lorry waiting at the construction site, and collects concrete dust and crushed matter generated when preparing the receiving space 22 of the upper structure 20 with high pressure suction force, and this high pressure The suction end 18b is installed at the end of the hose 18a, and the suction end 18b is fastened to the holder 16c of the lifting unit 16. At this time, the suction end (18c) is made of a rectangular fallopian tube, and its length is smaller than the combined width of the accommodation spaces (22) provided in the upper portions of the opposing surfaces of the adjacent upper structures (20), and is formed of reinforcing bars (RB). It has a narrower width than the space between the two, so it will be moved in and out of the receiving space 22 as well as between the reinforcing bars (RB) by the lifting unit 16 described above. At this time, the suction end 18b of the suction unit 18 is moved in and out of the receiving space 22 to be as close as possible to the bottom of the receiving space 22 when collecting lump-shaped shredded material, so as to more efficiently suction the lump-shaped shredded material. will be.

In addition, inside the suction end 18b of the suction unit 18, there is a spray nozzle 18c for collecting dust generated from crushed concrete in a wet manner when preparing the space 22 for receiving the upper mouth structure 20.

In addition, the collection device 10 is provided with a rack-and-pinion type power transmission system (DS) between the guide rail 12 of the collection device 10 and the bogie 14, and a motor mounted on the bogie 14 ( It can also be driven in an electric manner using the driving force transmitted from M).

The apparatus 10 for collecting crushed concrete according to the present invention uses a lifting unit 16 while moving along a guide rail 12 installed along one side of the receiving space 22 provided on the upper surface of the upper structure 20. When the suction unit 18 moves in and out of the receiving space 22 or between the reinforcing bars (RB) exposed on the floor of the receiving space 22, dust from the crushed concrete generated when preparing the receiving space 22 is collected in a wet dust collection box. By collecting shredded materials in the form of large and small lumps directly into tank trucks waiting at the construction site, environmental pollution at the construction site will be prevented, workers' working conditions will be improved, and work site finishing will be simplified.

Next, the method of constructing bridge expansion joints using the collection device of the present invention will be described with reference to FIG. 9.

The present invention is to partially cut (C) the upper portion of the full width of the mutually opposing surface of the upper structures (20), which are supported on the lower structure of the bridge and horizontally installed, with a concrete cutter, and then cut the outer side of the partial cut (C). The present invention provides a method of constructing an expansion joint for a bridge in which the expansion joint 30 is buried and installed in the receiving space 22 where the reinforcing bars (RB) are dug out with a concrete crusher and exposed at the bottom.

I will explain this in detail. First, the upper portions of the full width of the mutually opposing surfaces of the upper structures 20, which are continuously installed while supporting the lower structure, are cut to a depth where the reinforcing bars (RB) can be exposed using a concrete cutter, as shown in (a) of Figure 2. There is a cutting step (S100) of partial cutting (C).

Next, the collection device 10 is placed in the receiving space 22 of the upper structure 20 as shown in FIG. 3 at an inner position outside the partial cut C of the upper structure 20 prepared in the cutting step (S100). There is a wet dust collection preparation step (S200) prepared by arranging along the opposite surface of the upper structure 20 at the leaving position.

Next, there is an excavation step (S300) in which the cut portion (C) prepared in the cutting step (S100) is dug out using a concrete crusher to provide an accommodation space 22 for installing the expansion joint 30.

Immediately following the excavation step (S300), the collection device 10 is moved in the direction indicated by the arrow in FIG. 3, and dust generated from the crushed concrete when preparing the receiving space 22 is sucked into the collection device 10 as shown in FIG. 4. There is a dust collection step (S400) in which wet dust is collected using the spray nozzle 18C of the suction end 18b of the unit 18. At this time, the wet dust collected will be stored in a tank lorry waiting at the construction site through the high-pressure suction hose (18a).

Next, after the dust collection step (S400), the collection device 10 is moved in the direction indicated by the arrow in FIG. 5 while the suction end 18b of the suction unit 18 of the collection device 10 is moved to the lifting unit 16. ) using the handle 16b to go up and down between the reinforcing bars (RB) of the receiving space 22 as indicated by the arrow in FIG. There is a collection step (S500).

Next, after completing the shredded material collection step (S500), the collection device 10 is lifted from the receiving space 22 in the direction indicated by the arrow in FIG. 6, and the expansion joint 30 is exposed from the bottom of the receiving space 22. There is an expansion joint installation step (S600) in which the reinforced reinforcing bars (RB) are fixed by welding.

And finally, after completing the expansion joint installation step (S600), there is a finishing step (S700) in which concrete is poured into the receiving space 22 to embed the expansion joint 30, as shown in FIG. 8.

As described above, an embodiment of the present invention has been described, but the present invention is not limited thereto and may be modified within the scope stated in the claims.

10: Collection device
12: Guide rail
14: Bogie 14a: Wheel 14b: Bar handle
16: Lifting unit 16a: Lead screw 16b: Handle 16c: Holder
18: Suction unit 18a: High pressure suction hose 18b: Suction end 18c: Spray nozzle
20: Superstructure
22: Accommodation space
30: Expansion joint
DS: Drivetrain

Claims (6)

The upper part of the full width of the opposing surface of the upper structures, which are supported horizontally and installed continuously on the lower structure of the bridge, is partially cut using a concrete cutter, and the cut portion is dug out with a concrete crusher to accommodate the expansion joints where the expansion joints are installed in a buried manner. As a device for collecting concrete fragments generated during the preparation process,
A guide rail installed along the longitudinal direction of the opposing surface on the inner upper surface of any one of the adjacent upper structures;
A bogie that moves by rolling a pair of left and right wheels provided on the bottom along the guide rail; and
A lifting unit is provided on one side of the cart toward the upper structure accommodation space, and is installed to extend from a tank lorry waiting at the construction site to go up and down using this lift unit to remove concrete dust and crushed matter generated when preparing the accommodation space with high-pressure suction force. A device for collecting crushed concrete, characterized in that the suction unit is installed to move in and out of the receiving space. According to paragraph 1,
The lifting unit includes a lead screw installed along one side of the bogie, a handle installed on the top of the lead screw, and a holder that moves up and down on the lead screw that rotates forward and backward with left and right rotation of the handle, and to which the suction unit is fastened. A device for collecting crushed concrete. According to paragraph 1,
The suction unit is installed as an extension from a tank lorry waiting at the construction site and consists of a high-pressure hose that collects concrete dust and crushed matter generated when preparing the receiving space for the above-mentioned structure with high-pressure suction force, and a suction end installed at the end of this high-pressure hose. A device for collecting crushed concrete that is moved in and out of the rebar as well as inside and outside the accommodation space. According to paragraph 3,
The apparatus for collecting crushed concrete further includes a spray nozzle installed inside the suction end of the suction unit to collect dust generated from crushed concrete in a wet manner when preparing the receiving space. According to paragraph 1,
A rack-and-pinion type power transmission system is provided between the guide rail and the bogie, and the bogie is driven in an electric manner using a drive motor mounted on the bogie. The upper part of the full width of the mutually opposing surfaces of the upper structures, which are supported horizontally and installed continuously on the lower structure of the bridge, is partially cut with a concrete cutter, and then the outside of the cut is dug out with a concrete crusher, and the reinforcement bars are exposed at the bottom. A method of constructing an expansion joint for a bridge in which the expansion joint is installed in a space using a buried method,
A cutting step of partially cutting the full width upper portion of the opposing surface of the upper structure using a concrete cutter;
A wet dust collection preparation step of arranging the concrete crushed material collection device along the opposing surface of the upper structure at an inner position beyond the partial cutting of the upper structure prepared in the cutting step;
An excavation step of digging out the partial cut prepared in the cutting step using a concrete crusher to provide the accommodation space for installing the expansion joint:
A dust collection step of moving immediately following the excavation step and wet-collecting dust generated from crushed concrete when preparing the receiving space using the crushed concrete collection device;
After the dust collection step, a crushed material collection step of moving the suction end of the concrete crushed material collection device up and down between reinforcing bars of the receiving space and forcibly sucking and collecting the concrete crushed material generated in the excavation step into a tank lorry;
After completing the crushed material collection step, an expansion joint installation step of lifting the concrete crushed material collection device from the receiving space and fixing the expansion joint to the reinforcing bars on the floor of the receiving space by welding; and
A method of constructing a bridge expansion joint including a finishing step of pouring concrete into the accommodation space after completing the expansion joint installation step to embed the expansion joint.