KR101854765B1 - Slip form fot caisson - Google Patents

Abstract

According to the present invention, there is provided a slip foam for making a caisson for forming a caisson 1 extending in a height direction, comprising: a gantry tower 100 extending vertically along a forming direction of the caisson 1; A truss structure (200) rising or falling along the gantry tower (2); An ascending and descending portion 300 for raising or lowering the truss structure 200; A measuring unit 400 for measuring a level of the truss structure 200 and a reaction force applied to the ascending and descending portion 300; And a working deck (500) coupled to the truss structure (200) and providing a working space for forming the caisson (1).
According to the present invention, safety and efficiency of slipform operation can be improved.

Description

Technical Field [0001] The present invention relates to a slip form for making a caisson equipped with an automatic measurement system, and a method of measuring the level and reaction force of a slip form using the slip form.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of civil engineering, and more particularly to slip foams for construction of vertically extending structures such as caissons.

Caisson is a reinforced concrete structure used for construction of important facilities such as breakwaters and gravity walls (Fig. 1). The construction of the caisson is usually carried out by a dock or a dock of land and then carried to the site by hanging by a towing vessel or a crane line and installed as a breakwater or a cascading structure of a gravity type structure.

The construction of such a caisson has been carried out using a slip form. Slip form is a type of movable formwork which performs construction of a structure while the form is raised when the strength of the concrete exceeds the self - standing strength after the concrete is poured.

The prior literature on the fabrication of caisson using such a slip foam is as follows.

- Korean Patent Publication No. 10-2009-0085799

- Korean Patent Publication No. 10-2014-0085744

In order to fabricate a caisson using a slip foam, it is required that the slip foam move in the vertical direction. Conventionally, in order to check the level of the slip foam, the level of the slip foam was measured using a water- come.

However, such a conventional measurement method is difficult to accurately measure, and it is difficult to derive a numerical level in real time, which has hindered the operation safety of the slip foam.

It is an object of the present invention to improve the safety of slipform operation by measuring and monitoring the level and reaction force of the slip foam in real time.

Another object of the present invention is to improve the efficiency and safety of slip foam operation by providing a stable structure of rising and falling of the slip foam.

According to an aspect of the present invention, there is provided a slip foam for making a caisson for manufacturing a caisson extending in a height direction, the slip foam comprising: a gantry tower 100 extending vertically along a manufacturing direction of the caisson 1; A truss structure 200 rising or falling along the gantry tower 100; An ascending and descending portion 300 for raising or lowering the truss structure 200; A measuring unit 400 for measuring a level of the truss structure 200 and a reaction force applied to the ascending and descending portion 300; And a working deck (500) coupled to the truss structure (200) and providing a working space for forming the caisson (1).

In this case, the ascending and descending portion 300 is coupled to the gantry tower 100 and includes a jack rod 310 extending in the vertical direction along the gantry tower 100; A hydraulic jack 320 which is moved up and down along the jack rod 310 and which is fixed by gripping the jack rod 310 to provide a supporting force to the truss structure 200; A yoke beam 330 coupled transversely to the truss structure 200; And a sliding chair (340) for transmitting a supporting force provided by the hydraulic jack (320) to the yoke beam (330).

The jack rod 310 may be coupled to the gantry tower 100 by being coupled with the jack load reinforcing beam 311.

In addition, the hydraulic jack 320 includes an upper grip portion 321 for gripping the jack rod 310; A lower grip portion 322 which grips the jack rod 310 and is positioned below the upper grip portion 321; A piston 323 disposed between the upper grip portion 321 and the lower grip portion 322; And a cylinder head (324) accommodating the piston (323) and providing a hydraulic pressure to the piston (323).

The upper grip portion 321 includes an upper crimping portion 321b that is pressed against the jack rod 310; And an upper pressing force providing member 321a for providing a pressing force to the upper pressing portion 321b by receiving a downward force, wherein an upper surface of the upper pressing portion 321b is formed in an inclined shape, And the lower surface of the pressing force providing member 321a is formed in an inclined shape corresponding to the shape of the upper surface of the upper pressing portion 321b.

The lower grip part 322 includes a lower pressing part 322b pressed against the jack rod 310; And a lower pressing force providing member 322a for providing a pressing force to the lower pressing portion 322b by receiving a downward force, wherein an upper surface of the lower pressing portion 322b is formed in an inclined shape, And the lower surface of the pressing force providing member 322a is formed in an inclined shape corresponding to the shape of the upper surface of the lower pressing portion 322b.

The slip foam for making a caisson may have a saw-toothed surface in contact with the jack rod 310 in the upper and lower pressing parts 321b and 322b.

The piston 323 extending downward by hydraulic pressure is received in the cylinder head 324 and the upper surface of the cylinder head 324 supports the upper pressing force providing member 321a. For example.

The measuring unit 400 includes a measurement sensor 410; And a transmission / reception unit 420 for transmitting the measurement value measured by the measurement sensor 410 to the server 10.

The measurement sensor 410 includes a level measurement sensor 411 for measuring a predetermined reference level and a distance between the truss structure 200 and the reference level. And a reaction force measuring sensor (412) for measuring a reaction force provided by the truss structure (200) to the hydraulic jack (320).

The level measuring sensor 411 includes a laser displacement gage 411a coupled to the sliding chair 340; And a reflection part 411b installed at the reference level and reflecting the laser emitted from the laser displacement gage 411a.

In addition, the reaction force measuring sensor 412 may be a load cell installed in the sliding chair 340, and may be a slip foam for making a caisson.

Also, the working deck 500 may include a first deck 510 coupled to an upper portion of the truss structure 200; A second deck 520 coupled to a lower portion of the truss structure 200; And a third deck 530 coupled to a lower portion of the second deck 520.

According to another aspect of the present invention, there is provided a method of measuring the level of a slip foam using a slip foam for making a caisson, wherein the level information (a) generated by the level measurement sensor 411 is transmitted to the transceiver 420 (S100) of transmitting the data to the server (10) using the first step (S100); And a second step (S200) of transmitting the level information (a) to a terminal (20) connected to the server (10) by wire or wireless communication. The slip foam for making a caisson A method of measuring the level of the foam is provided.

According to another aspect of the present invention, there is provided a method of measuring a reaction force of a slip foam using a slip foam for making a caisson, wherein the reaction force information b generated by the reaction force measurement sensor 412 is transmitted to the transceiver 420 To the server (10) using the first step (A100); And a second step (A200) of transmitting the reaction force information (b) to a terminal (20) connected to the server (10) by wire or wireless communication, wherein the reaction force information (b) Or the alarm signal (c) is generated in the terminal (20) when the reference reaction force information (b1) stored in the terminal (20) is larger than the reference reaction force information A method of measuring is provided.

According to the present invention, safety and efficiency of slipform operation can be improved.

According to the present invention, an automation system for enhancing the safety of slipform operation can be constructed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a form of a caisson applied by a slip foam according to the present invention; FIG.
2 is a block diagram of a slip foam according to an embodiment of the present invention;
3 illustrates a configuration of a first deck according to an embodiment of the present invention.
4 illustrates a configuration of a second deck according to an embodiment of the present invention;
5 illustrates a configuration of a third deck according to an embodiment of the present invention.
6 is a view showing a configuration of a truss structure according to an embodiment of the present invention.
7 is a view showing a combined structure of a truss structure and a gantry tower according to an embodiment of the present invention.
8 is a view showing a configuration of a hydraulic jack according to an embodiment of the present invention.
9 is a view showing a process of gripping a jack rod by a hydraulic jack according to an embodiment of the present invention.
10 is a view showing a process of releasing the grip to the jack rod of the hydraulic jack according to the embodiment of the present invention.
11 illustrates a slip form having a level measurement sensor according to an embodiment of the present invention.
12 illustrates a laser displacement meter of a level measurement sensor according to an embodiment of the present invention.
13 is a view showing a reaction force measuring sensor according to an embodiment of the present invention.
14 is a view showing a load cell (strain gauge) among reaction force measurement sensors according to an embodiment of the present invention.
15 is a diagram illustrating a configuration of a measurement unit, a server, and a terminal according to an embodiment of the present invention.

A slip foam for making a caisson equipped with an automatic measurement system according to the present invention and a method of measuring a level and reaction force of a slip foam using the slip foam will be described in detail with reference to the accompanying drawings, The same or corresponding components are denoted by the same reference numerals, and redundant description thereof will be omitted.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

The present invention relates to a slip foam which is a movable die for the formation of a vertically extending structure (hereinafter collectively referred to as " caisson ") such as a caisson 1.

The main improvement of the present invention is a measuring part 400 for measuring the level and reaction force of the slip foam in the structure of the slip foam, and an ascending and descending part 300 for performing the slip foam up or down operation.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

The slip foam for making a caisson according to an embodiment of the present invention includes a gantry tower 100 extending vertically along the forming direction of the caisson 1, a truss structure 200 rising or falling along the gantry tower 100, A measurement unit 400 for measuring the reaction force applied to the level and the ascending and descending section 300 of the truss structure 200 and the truss structure 200 for raising or lowering the structure 200, And a work deck 500 for providing a work space for forming the door 1 (Figs. 2 and 6).

The truss structure 200 is supported by the gantry tower 100 and is raised or lowered along the gantry tower 100 by the ascending and descending section 300. In addition, the work deck 500 is supported.

The working deck 500 provides a working space for forming the caissons 1 and includes a first deck 510 (FIG. 3) coupled to the top of the truss structure 200, And a third deck 530 (FIG. 5) coupled to the bottom of the second deck 520 (FIG. 4) and the second deck 520.

The first deck 510 is a work space located on the uppermost layer of the slip foam, and serves as a concrete or reinforcing bar supplying place.

The second deck 520 is a work space coupled to a lower portion of the truss structure 200, and serves as a place for performing reinforcing steel assembly or concrete pouring work.

The third deck 530 is a work space coupled to a lower portion of the second deck 520 and serves as a work space for performing the surface treatment work of the caisson 1.

The contents of the work performed in the first deck, the second deck and the third deck are in accordance with the work order for forming the caissons 1, and thus it is possible to sequentially carry out work while raising the slip form.

The formation of the caisson 1 using such a slip foam can achieve the object of the work efficiency and the air shortening.

The ascending and descending portion 300 connects the gantry tower 100 and the truss structure 200 and also raises and lowers the truss structure 200 (Figs. 6 and 7).

In order to perform such a role, the ascending and descending section 300 is connected to the gantry tower 100 and is vertically moved along the jack rod 310 and the jack rod 310 extending in the vertical direction along the gantry tower 100 A hydraulic jack 320 that grips the jack rod 310 to provide a supporting force to the truss structure 200 by being fixed and a yoke beam 330 and a hydraulic jack 320 which are coupled to the truss structure 200 in the transverse direction, And a sliding chair 340 for transmitting the supporting force to the yoke beam 330 (FIG. 7).

The jack rod 310 may be coupled to the gantry tower 100 in combination with the jack rod reinforcing beam 311.

The hydraulic jack 320 grips the jack rod 310 to secure the support force to the truss structure 200.

To this end, the hydraulic jack 320 includes an upper grip portion 321 for gripping the jack rod 310, a lower grip portion 322 located below the upper grip portion 321, an upper grip portion 321 And a cylinder head 324 that receives the piston 323 and the piston 323 disposed between the upper grip portion 322 and the lower grip portion 322 and provides the hydraulic pressure to the piston 323 (FIG. 8).

The upper grip portion 321 includes an upper pressing portion 321b to be pressed against the jack rod 310 and an upper pressing force providing member 321a to provide a pressing force to the upper pressing portion 321b by receiving a downward force. The upper surface of the upper pressing part 321b is formed in an inclined shape and the lower surface of the upper pressing force providing member 321a is formed in an inclined shape corresponding to the shape of the upper surface of the upper pressing part 321b.

Accordingly, when the downward force is applied to the upper pressing force providing member 321a, the downward force provided by the upper pressing force providing member 321a and the upper pressing portion 321b, And acts as a pressing force for gripping the rod 310.

The upper pressing force providing member 321a is connected to the yoke beam 330 with the sliding chair 340 as a whole and the yoke beam 330 supports the load of the truss structure 200, The load can be provided by the pressing force of the upper press portion 321b (Fig. 9).

The upper pressing force providing member 321a is supported by the cylinder head 324 to be described later. When the piston 323 is extended to provide an upward force to the cylinder head 324, the provided upward force is transmitted to the upper pressing force providing member 321a And in this case, the pressing force acting as the grip force is released, so that the grip on the jack rod 310 of the upper pressing portion 321b can be released (FIG. 10).

The lower grip portion 322 has a structure corresponding to that of the upper grip portion 321 and the action of the lower grip portion 322 is the same as that of the upper grip portion 321. [

Specifically, the lower grip portion 322 includes a lower pressing portion 322b to be pressed on the jack rod 310 and a lower pressing force providing member 322a to provide a pressing force to the lower pressing portion 322b by receiving a downward force, The upper surface of the lower pressing part 322b is formed in an inclined shape and the lower surface of the lower pressing force providing member 322a is formed in an inclined shape corresponding to the shape of the upper surface of the lower pressing part 322b.

When a downward force is applied to the lower pressing force providing member 322a as described above, the provided downward force may be provided as a grip force to the jack rod 310 of the lower pressing portion 322b.

The upper contact portion 321b and the lower contact portion 322b may be formed in a sawtooth shape in contact with the jack rod 310 to increase the gripping force with respect to the jack rod 310 (FIG. 8).

The cylinder head 324 houses a piston 323 extending downward by hydraulic pressure, and the upper surface of the cylinder head 324 supports the upper pressing force providing member 321a.

Inside the cylinder head 324, an extension rod 326 extending together with the piston 323 can be partially accommodated (FIG. 8).

The extension rod 326 is restricted in flow by the engagement step 327 inside the cylinder head 324 and both ends of the extension rod 326 are in contact with the upper squeezing part 321b and the lower squeezing part 322b.

When the extension rod 326 contacts the upper squeezing portion 321b, the upper squeezing portion 321b in the non-squeezable space 325 is pushed up into the squeezable space.

When the extension rod 326 contacts the lower crimp portion 322b, the lower crimp portion 322b in the non-crimpable space 325 is pushed down into the crimpable space.

The measuring unit 400 measures the level and reaction force of the slip foam. Specifically, the measuring unit can numerically measure and monitor the level of each point of the truss structure 200 and the reaction force provided by the truss structure 200 to the hydraulic jack 320 in real time, To be secured.

The measurement unit 400 may include a measurement sensor 410 and a transceiver unit 420 for transmitting measured values measured by the measurement sensor 410 to the server 10 (FIG. 15).

The measurement sensor 410 includes a level measurement sensor 411 for measuring a predetermined reference level and a distance between the truss structure 200 and a reaction force measurement sensor 412 for measuring a reaction force provided by the truss structure 200 to the hydraulic jack 320 412).

The level measurement sensor 411 may include a laser displacement gage 411a coupled to the sliding chair 340 and a reflection unit 411b installed at the reference level and reflecting the laser emitted from the laser displacement gage 411a 11).

The reaction force measuring sensor 412 may be a load cell (strain gage) installed on the sliding chair 340.

The measured measurement information measured by the measurement sensor 410 is transmitted to the server 10 by the transceiver 420 and the measurement information transmitted to the server 10 is measured by the terminal 20 connected through wired / Information can be transmitted and displayed.

The operator can monitor the measurement information in real time while carrying only the terminal 20 and check whether the level and the reaction force of each point within the allowable range in the slip form operation are being operated.

Measurement information such as level information a or reaction force information b may be compared with predetermined reference level information a1 or reference reaction force information b1 and level information a or reaction force information b may be compared with reference It is possible to set the alarm signal c to be generated in the terminal 20 when the level information a1 or the reference reaction force information b1 is larger than the level information a1 or the reference reaction force information b1.

Hereinafter, a method of measuring the level of the slip foam using the slip foam for making a caisson according to an embodiment of the present invention will be described.

The method of measuring the slip form level includes a first step S100 of transmitting the level information a generated by the level measurement sensor 411 to the server 10 using the transceiver 420, And a second step (S200) of transmitting the level information (a) to the terminal 20 connected by wire or wireless communication.

Hereinafter, a method of measuring the reaction force of the slip foam using the slim foam for making a caisson according to an embodiment of the present invention will be described.

The method of measuring the reaction force of the slip form includes a first step A100 of transmitting the reaction force information b generated by the reaction force measurement sensor 412 to the server 10 using the transceiver 420, And a second step A200 of transmitting the reaction force information b to the terminal 20 connected by wire or wireless communication.

It is possible for the terminal 20 to generate the alarm signal c when the reaction force information b is larger than the reference reaction force information b1 stored in the server 10 or the terminal 20 as described above, The operation is the same even when the level information a is larger than the reference level information a1.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: Caisson
10: Server
100: Gantry tower
200: truss structure
300:
400:
500: Working Deck

Claims (15)

1. A slip foam for making a caisson for forming a caisson (1) extending in a height direction,
A gantry tower (100) extending vertically along the formation direction of the caisson (1);
A truss structure 200 rising or falling along the gantry tower 100;
An ascending and descending portion 300 for raising or lowering the truss structure 200;
A measuring unit 400 for measuring a level of the truss structure 200 and a reaction force applied to the ascending and descending portion 300; And
And a working deck (500) coupled to the truss structure (200) and providing a working space for forming the caisson (1)
The ascending and descending portion 300
A jack rod (310) coupled to the gantry tower (100) and extending in a vertical direction along the gantry tower (100);
A hydraulic jack 320 which is moved up and down along the jack rod 310 and which is fixed by gripping the jack rod 310 to provide a supporting force to the truss structure 200;
A yoke beam 330 coupled transversely to the truss structure 200; And
And a sliding chair (340) for transmitting a supporting force provided by the hydraulic jack (320) to the yoke beam (330)
The jack rod 310 is coupled to the gantry tower 100 in combination with a jack rod reinforcing beam 311,
The measuring unit 400
A measurement sensor 410; And
And a transceiver 420 for transmitting the measurement value measured by the measurement sensor 410 to the server 10,
The measurement sensor (410)
A level measurement sensor 411 for measuring a predetermined reference level and a distance of the truss structure 200; And
And a reaction force measuring sensor (412) for measuring a reaction force that the truss structure (200) provides to the hydraulic jack (320)
The level measurement sensor 411,
A laser displacement gage 411a coupled to the sliding chair 340; And
And a reflector (411b) installed at the reference level and reflecting the laser emitted from the laser displacement gage (411a).
delete delete The method according to claim 1,
The hydraulic jack (320)
An upper grip portion 321 for gripping the jack rod 310;
A lower grip portion 322 which grips the jack rod 310 and is positioned below the upper grip portion 321;
A piston 323 disposed between the upper grip portion 321 and the lower grip portion 322; And
A cylinder head 324 accommodating the piston 323 and supplying hydraulic pressure to the piston 323;
Wherein the slip foam is a slip foam.
5. The method of claim 4,
The upper grip portion 321
An upper pressing part 321b pressed against the jack rod 310; And
And an upper pressing force providing member (321a) for providing a pressing force to the upper pressing portion (321b) by receiving a downward force,
The upper surface of the upper pressing portion 321b is formed in an inclined shape,
Wherein a lower surface of the upper pressing force providing member 321a is formed in an inclined shape corresponding to a shape of an upper surface of the upper pressing portion 321b.
6. The method of claim 5,
The lower grip portion 322
A lower crimping portion 322b pressed against the jack rod 310; And
And a lower pressing force providing member (322a) for providing a pressing force to the lower pressing portion (322b) by receiving a downward force,
The upper surface of the lower crimping portion 322b is formed in an inclined shape,
Wherein a lower surface of the lower pressing force providing member 322a is formed in an inclined shape corresponding to a shape of an upper surface of the lower pressing portion 322b.
The method according to claim 6,
The upper pressing portion 321b and the lower pressing portion 322b
Wherein a contact surface with the jack rod (310) is formed in a sawtooth shape.
8. The method of claim 7,
The cylinder head 324 houses the piston 323 extending downward by hydraulic pressure,
And the upper surface of the cylinder head (324) supports the upper pressing force providing member (321a).
delete delete delete The method according to claim 1,
Wherein the reaction force measuring sensor (412) is a load cell provided on the sliding chair (340).
The method according to claim 1,
The working deck (500)
A first deck 510 coupled to the top of the truss structure 200;
A second deck 520 coupled to a lower portion of the truss structure 200; And
A third deck 530 coupled to a lower portion of the second deck 520;
Wherein the slip foam is a slip foam.
A method for measuring the level of a slip foam using the slip foam for making a caisson according to claim 1,
A first step (S100) of transmitting the level information (a) generated by the level measurement sensor (411) to the server (10) using the transceiver (420); And
A second step (S200) of transmitting the level information (a) to the terminal (20) connected to the server (10) by wire or wireless communication;
Wherein the slip foam is used to measure the level of the slip foam.
A method of measuring a reaction force of a slip foam using a slip foam for making a caisson according to claim 12,
A first step (A100) of transmitting reaction force information (b) generated by the reaction force measuring sensor (412) to the server (10) using the transceiver (420); And
And a second step (A200) of transmitting the reaction force information (b) to the terminal (20) connected to the server (10) by wire or wireless communication,
Wherein the alarm signal (c) is generated in the terminal (20) when the reaction force information (b) is larger than the reference reaction force information (b1) stored in the server (10) or the terminal (20) A method of measuring the reaction force of a slip foam using a slip foam for fabrication.

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