KR200386508Y1 - Prestressed steel beam composed by coupling the lower girder imtroduced with compressive force and the upper girder introduced with tensile force - Google Patents

Abstract

       The present invention relates to a prestressed steel beam which is manufactured so that prestress is introduced by rigidly connecting the upper and lower girder while introducing a compressive force to the lower girder after installing the upper and lower girder up and down. It can be used for all load supports and is designed to be applied to reinforcement of structures.

       The manufacturing method of the pre-stressed steel beam is to install the upper and lower girder up and down, but a pair of support brackets at regular intervals below the lower flange of the upper girder, and to install the lower girder in the support bracket, but one side or The lower flange of the upper girder and the upper flange of the upper girder which are connected to each other while the compressive force introduction device is installed on both sides, and then the compressive force is introduced to the lower girder by using the compression force introducing device, and the upper girder is connected to each other while the tensile force is introduced to the upper girder. The present invention relates to a method of manufacturing prestressed steel beams which are formed so that prestresses are formed by forming a rigid connection part which is rigidly connected to each other.

Description

Prestressed steel beam composed by coupling the lower girder imtroduced with compressive force and the upper girder introduced by introducing a compressive force to the lower girder of the upper and lower girder while introducing a tensile force to the upper girder. with tensile force}

       The present invention relates to a prestressed steel beam fabricated so that prestress is introduced into the entire upper and lower girder by rigidly connecting the upper and lower girders and introducing a compressive force to the upper girder while introducing a compressive force to the lower girder. The stress corresponding to the stress generated by the predetermined working load is pre-introduced into the steel beam so that the structure is installed by using the steel beam, and the stress generated by the working load by the pre-introduced stress when the load is applied. It is designed to be offset and can be used for all load supports such as bridges, beams and bridges of buildings, and can be applied to repair and reinforcement of structures.

       The prestressed steel beam is installed at regular intervals on the lower portion of the lower flange of the upper girder, and the lower girder is installed between the support brackets, a compression force introduction device is installed at one or both ends of the lower girder, and the compression force The prestressed steel beam is made to introduce the prestress as a whole by introducing the hydraulic force gradually into the introduction device to introduce the compressive force to the lower girder and to firmly connect the flanges of the upper and lower girder while the tensile force is introduced to the upper girder.

       The method of manufacturing the prestressed steel beam is to install the upper and lower girders up and down, but a pair of support brackets at regular intervals below the lower flange of the upper girder, and to install the lower girder in the support bracket, one side of the lower girder or After the compression force introduction device is installed on both sides, the lower flange and the lower girder of the upper girder are connected to each other while the upper girder is in contact with each other while the compression force is introduced to the lower girder by using the compression force introduction device. The upper flange is manufactured to introduce prestress by forming a rigid connection part for rigidly connecting each other up and down.

       An object of the present invention is to install a compression force introduction device at one end or both ends of the lower girder installed in the lower part of the upper girder, and while using the compression force introduction device to introduce a compressive force to the lower girder while the upper girder has a tensile force is introduced Pre-stressed steel beams in which prestresses are introduced as a whole by connecting the flanges of the girder are manufactured, and the prestress is again used in the steel beams by using a compression force introduction device that is already installed when the load capacity of the steel beams is reduced. It is to provide an advantageous method of manufacturing a steel beam in the repair reinforcement surface to be introduced to reinforce the load capacity of the steel beam.

       Conventionally, after installing a reaction force band of a constant size, a pair of beams are installed on the reaction force band, and a hydraulic jack is installed between the beam and the beam, and then hydraulic pressure is applied to the hydraulic jack to push the beam to the left and right, so that a certain amount of the beam is provided. The camber, that is, manufactured using the method of introducing prestress, and the beam must be bent by using hydraulic force, and therefore, a larger reaction force to withstand the hydraulic force must be separately installed. Since a large-area workshop is required, and the manufactured beam is very large, there are many inconveniences in terms of manufacturing cost, difficulty in manufacturing, and transport problems, such as being inconvenient in the method of transporting on site.

       The present invention is proposed to improve the above problems, install a support bracket at regular intervals on the lower portion of the lower flange of the upper girder, and install a lower girder between the support bracket, one end of the lower girder or A compression force introduction device is installed at both ends, and hydraulic pressure is gradually introduced to the compression force introduction device so that the flanges of the upper and lower girder are firmly connected while the tension force is introduced to the upper girder while introducing the compression force to the lower girder. The prestressed steel beam made to introduce the rest does not need to install a separate reaction force, and it is solved by introducing a compression force to the lower girder of the girders installed on the upper and lower sides by using a compression force introduction device, and the reaction force is also supported on the lower part of the upper girder. Bracket acts as a reaction force There is no need to install the reaction force of the steel beam, and if the load capacity is lowered in the steel beam itself after a certain period of time after installing the structure using the steel beam manufactured as described above, the compressive force is applied again to the lower girder by using the compression force introduction device installed in the steel beam. When introduced, the tensile force is automatically introduced to the upper girder to provide a prestress is introduced to the entire steel beam to provide a load-bearing strength to extend the durability of the structure to provide a method of manufacturing a prestressed steel beam.

       The present invention is to install a support bracket 11 at regular intervals in the lower portion of the lower flange 22 of the upper girder 20, and install a lower girder 30 between the support bracket 11, the lower girder A compression force introduction device 40 is installed at one end or both ends of the 30, and a hydraulic force is gradually introduced to the compression force introduction device 40 to introduce a compression force to the lower girder 30 while a tension force is introduced to the upper girder. The prestressed steel beam 10 is manufactured so that the prestress is introduced as a whole by rigidly connecting the flanges of the upper and lower girder 20 and 30 in the state.

       The pre-stressed steel beam 10 is manufactured by installing upper and lower girders 20 and 30 up and down, but installing support brackets 11 in a pair at a lower distance from the lower flange 22 of the upper girder 20. The lower girder 30 is installed in the support bracket 11, but the compression force introduction device 40 is installed on one side or both sides of the lower girder, and then the lower girder 30 is formed using the compression force introduction device 40. The lower flange 22 of the upper girder 20 and the upper flange 31 of the lower girder 30 in which the upper and lower girders 20 and 30 are in contact with each other while the tensile force is introduced into the upper girder while introducing a compressive force into the upper girder. ) Is a prestressed steel beam 10 that is formed so that the pre-stress is introduced by forming a rigid connection part 12 for rigidly connecting each other up and down.

       Hereinafter, with reference to the accompanying drawings the configuration and operation of the present invention in detail as follows.

       1 is a view showing the manufacturing of the prestressed steel beam of the present invention as a whole, the upper and lower girders (20, 30) is installed up and down, but the support bracket (11) in a pair at regular intervals below the lower flange (22) of the upper girder Install the lower girder 30 in the support bracket 11, but install the compression force introduction device 40 on one side or both sides of the lower girder 30, and then use the compression force introduction device 40. The lower flange 22 and the lower girder 30 of the upper girder 20 in which the upper and lower girders 20 and 30 are in contact with each other while a compressive force is introduced to the upper girder while introducing a compressive force to the lower girder 30. The prestressed steel beam 10 is formed so that the pre-stress is introduced by forming a rigid connection part 12 for rigidly connecting the upper flange 31 of each other.

       In addition to the function to support the support bracket 11 when the compressive force is introduced to the lower girder 30 by the compression force introduction device 40 serves as a reaction force to the lower girder 30 by the compression force introduction device 40 When a compressive force is introduced, a reaction force is generated in the lower girder 30 by the support bracket 11 serving as the reaction force, so that the compressive stress is generated in the lower girder.

       The compression force introduction device 40 is to push the lower girder, such as a screw jack, in addition to the hydraulic jack to generate a compressive stress in the lower girder.

       In addition, the compressive force introduction device 40 is maintained even after the introduction of the compressive force is applied to the structure using the steel beam 10 to a certain period of time when the load capacity of the steel beam 10 is already lowered It is a device for reinforcing the maintenance of the structure to ensure the stability of the structure to reinforce the load capacity to the steel beam 10 by introducing the pre-stress again using the installed compression force introduction device 40.

       On the other hand, when the structural stability is proved, after introducing the compressive force to the steel beam 10, the compressive force introduction device 40 may be removed and the filler member 50 may be inserted.

       The rigid connection portion 12 is a high tensile force is applied to the lower flange 22 of the upper girder and the upper flange 31 of the lower girder at the time when the tensile stress is introduced into the upper girder while the compressive stress is introduced into the lower girder 30. The compression stress introduced in the lower girder 30 is transferred to the upper girder 20 so that the tensile force is introduced to the upper girder so that the prestress is introduced as a whole. The upper and lower girder 20, 30 is to produce a pre-stressed steel beam 10, the upper part is a tensile force, the lower part is a compression force introduced.

       As described above, the upper portion is to produce a steel beam 10 in the form of a convex upwardly, that is, the tensile force, the lower compressive force acting, if the steel beam 10 produced in this way is installed on the bridge, the steel beam 10 When the load acting as a lower part is applied to the steel beam, the convex bowing downward is canceled by the steel beam made convex upward by the prestress introduced in the steel beam. It is to make it possible.

       The lower girder 30 has a shorter length than the upper girder 20 and is installed to be balanced over a predetermined distance from left to right around the center of the upper girder 20, and is disposed at the center of the upper girder 20. This is because if not installed in a balanced manner, stresses that may adversely affect the manufactured steel beams 10 may be introduced due to buckling due to an eccentric load during compression force introduction.

       2 is a cross-sectional view A-A of FIG. 1, in which a compression force introduction device 40 such as a hydraulic jack or a screw jack is installed at a lower portion of the lower flange 22 of the upper girder 20.

       3 is a cross-sectional view BB of FIG. 1, which is installed to contact the upper flange 31 of the lower girder 30 to be in contact with the lower flange 22 of the upper girder 20, and compressive force to the lower girder 30. While introducing the tensile force to the upper girder, the lower flange 22 of the upper girder 20 and the upper flange 31 of the lower girder 30 by steel or steel joint connection using a welding or high-tensile bolt It shows that the up and down girder is installed by using the connection portion (12).

       Figure 4 (a) (b) (c) (d) is a view showing a variety of examples of prestressed steel beams produced by using a method of manufacturing a prestressed steel beam of the present invention, produced by the method of FIG. Various embodiments of the prestressed steel beam 10 are shown.

       (a) is installed in the upper and lower girder (20, 30) up and down, but a pair of support brackets 11 are installed at a lower portion of the lower flange 22 of the upper girder 20 at a predetermined interval, the support bracket (11) While installing the lower girder 30 in the installation of the compression force introduction device 40 on one side of the lower girder 30, while introducing the compression force to the lower girder 30 using the compression force introduction device 40 Steel for rigidly connecting the lower flange 22 of the upper girder 20 and the upper flange 31 of the lower girder 30 to the upper girder while the upper and lower girder 20 and 30 are connected to each other while introducing a tensile force. Forming the connection portion 12 is to show that the prestressed steel beam 10 produced to introduce the prestress.

       (b) is to install the upper and lower girders (20, 30) up and down, but a pair of support brackets (11) at regular intervals below the lower flange (22) of the upper girder, and the lower girder in the support bracket After the compression force introduction device 40 is installed on both sides of the lower girder, the lower flange 22 and the lower girder of the upper girder in which the upper and lower girder are in contact with each other while the compression force is introduced to the lower girder using the compression force introduction device. The upper flange 31 of the girder is to show that it is a prestressed steel beam 10 made to form a pre-stress is formed by forming a rigid connection portion 12 to each other tightly connected to each other.

       Compression force introduction device 40 of Figure (a) (b) is intended to continue to maintain the use even after the introduction of the compression force for the maintenance management of the structure.

       (c) is to install the upper and lower girders (20, 30) up and down, but a pair of support brackets 11 are installed at a lower portion of the lower flange 22 of the upper girder at a predetermined interval, the lower girder 30 in the support bracket Install the compression force introduction device 40 on one side of the lower girder and then the upper and lower girder (20, 30) in the state in which the compression force is introduced to the lower girder 30 by using the compression force introduction device Remove the compressive force introduction device 40 while forming the pre-stress is introduced by forming a rigid connection portion 12 for tightly connecting the lower flange 22 of the upper girder and the upper flange 31 of the lower girder connected to each other up and down. It is a prestressed steel beam 10 in which the filler member 50 was inserted in the meantime.

       (d) is to install the upper and lower girder (20, 30) up and down, but a pair of support brackets 11 are installed in a pair at the bottom of the lower flange 22 of the upper girder, the lower girder 30 in the support bracket Install the compression force introduction device 40 on both sides of the lower girder 30, and then the upper and lower girders connected to each other in the state in which the compression force is introduced to the lower girder 30 using the compression force introduction device The compression force introduction device 40 is removed while the prestress is introduced by forming a rigid connection part 12 which tightly connects the lower flange 22 of the girder and the upper flange 31 of the lower girder to each other. It is a prestressed steel beam 10 into which the filler member 50 was respectively installed.

       Removing the compression force introduction device 40 of Figure (c) (d) and inserting the filler member 50 is the compression force introduction device 40 when the structure installed using the composite beam 10 is used for a short time ), And the filler member 50 is inserted, and the filler member 50 can be applied to the case where there is no problem even when the filler member 50 is used structurally.

       The upper and lower girders are in contact with each other, ie, the upper and lower flanges of the upper and lower girders are in contact with each other, or the upper flanges of the abdomen and the lower girder are in contact with each other. Alternatively, the abdomen of the upper girder and the abdomen with the upper flange of the lower girder removed are tightly connected to each other by welding or a high tension bolt or an "L" type steel sheet.

       Figure 5 is a view showing another embodiment of the prestressed steel beam of the present invention, after forming a groove of a constant size in the center of the lower flange of the steel beam, the compression force introducing device is installed on one side or both sides, and the lower portion between Prestressed steel to install girder and to introduce compression force to the lower girder by using the compression force introduction device and to introduce tension force to the upper girder and to connect the upper flange of the upper girder and the lower girder to pre-stressed steel show.

       Forming a groove of a certain size in a portion of the abdomen adjacent to the lower flange and the lower flange of the steel beam, and to install a lower girder in the groove is the height of the steel beam, that is, the height of the abdomen than the height of the general steel beam It may be applied to high steel beams, but this is not necessarily the case.

       The upper and lower girders are in contact with each other, ie the upper flange of the upper girder and the upper flange of the upper girder or the upper flange of the upper girder and the lower girder The abdomen in the state is welded up and down with each other, or firmly connected with high-strength bolt or "L" type steel plate.

       The compression force introduction device applied in this figure may be applied to one side or both sides, or the compression force introduction device may be removed and a filler member may be installed.

       In addition, the steel beam described in the present invention can be applied to all types of steel beams, such as H-beams, box girders, steel beams, girder formed of a steel sheet.

       The present invention is to install a support bracket at a predetermined interval at the bottom of the upper girder, install a compression force introduction device while installing a lower girder between the support brackets, the upper portion while introducing a compression force to the lower girder using the compression force introduction device The prestressed steel beam, which is made to introduce the prestress as a whole by introducing the tensile force to the girder, does not need to install a separate reaction table, and simply adopts the compressive force by using the support bracket and the lower girder to introduce the prestress. The area is also a method that can work in a smaller area than the conventional one, and is also a method that can work in the field, and even after the installation on the structure using the steel beam, the pre-stress is applied again using the compression force introduction device that is already installed in maintenance. Introduced easily The surface on which the reinforcement is in the maintenance of favorable due to economical and easy manufacture method prestressing steel beam production method can be produced efficiently.

       1 is a view showing a whole manufacturing a prestressed steel beam of the present invention.

       FIG. 2 shows a cross section A-A of FIG. 1. FIG.

       3 shows a section B-B of FIG. 1.

       Figure 4 (a) (b) (c) (d) is a view showing a variety of examples of prestressed steel beams produced by using a method of manufacturing a prestressed steel beam of the present invention.

       5 is a view showing another embodiment of a prestressed steel beam of the present invention.

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

         10: prestressed steel sheet 11: support bracket

         12: steel connection part

         20: upper girder 21: upper girder upper flange

         22: upper girder lower flange

         30: lower girder 31: lower girder upper flange

         32: Lower girder lower flange

         40: compression force introduction device

         50: filler member

Claims (7)

       The upper and lower girders are installed up and down, and a pair of support brackets are installed in a pair at a lower portion of the lower flange of the upper girder, and a lower girder is installed between the support brackets, but a compression force introduction device is installed between the lower girder and the support brackets. The lower girder of the upper and lower girders, characterized in that the upper girder is made of a rigid connection portion for tightly connecting the upper and lower girder installed in contact with the upper and lower in the state in which the tensile force is introduced while the compression force is introduced to the lower girder by using the compression force introduction device. Prestressed steel beam with prestressed by rigidly connecting the upper and lower girders while introducing compressive force to the upper girder while introducing compressive force.        The upper and lower girders are installed up and down, and grooves of a predetermined size are formed in the lower flange of the upper girder, a compression force introducing device and a lower girder are installed in the grooves, and a compression force is introduced into the lower girder using the compression force introducing device. The upper and lower girders are introduced into the upper girder while the upper girder is pressed against the upper girder while the compressive force is introduced to the upper and lower girder, which is characterized in that the upper and lower girders are rigidly connected to the upper and lower girders. Prestressed steel beam with prestressed steel connection.        The method according to claim 1 or 2,        The lower girder has a shorter length than the upper girder, and the compression force is introduced into the lower girder of the upper and lower girder, while the upper and lower girder have a tensile force introduced to the upper girder. Prestressed steel beam with prestressed by tightly connecting upper and lower girder.        The method according to claim 1 or 2,        The compression force introducing device is a hydraulic jack or a screw jack, the steel connection portion is to be introduced into the upper girder lower tension girder, characterized in that the steel joint is connected up and down using a welding or high-tensile bolt, so that the tension force is introduced to the upper girder. Prestressed steel beam with prestressed by tightly connecting upper and lower girder.        The method of claim 1,        The support bracket supports the lower girder at the time of introducing the compressive force, and at the same time, the upper girder while introducing the compressive force to the lower girder of the upper and lower girder, characterized in that it also performs the role of the reaction zone so that the compressive stress is introduced into the lower girder when the compressive force is introduced. Prestressed steel beam with prestressed by rigidly connecting upper and lower girder while allowing tensile force to be introduced.        The method according to claim 1 or 2,        The compression force introducing device is installed between the lower girder and the support bracket so that only the one side of the lower girder is installed, or the lower girder of the upper and lower girder is characterized in that it is installed at both ends, so that the tensile force is also introduced to the upper girder. Prestressed steel beam with prestressed by tightly connecting upper and lower girder.        The method according to claim 1 or 2,       The compression force introduction device is removed after the introduction of the compression force to the lower girder, and the upper and lower girder while firmly connecting the upper and lower girder while introducing the compression force to the lower girder of the upper and lower girder, characterized in that the replacement insert into the filler member Prestressed steel beam with prestress.