KR100961547B1 - Hydraulic lifting device, the bracket and the method for changing bridge bearings using them - Google Patents

Abstract

PURPOSE: A hydraulic device for replacing a bearing apparatus and a bearing apparatus replacing method using the same are provided to minimize a jack installation space and enable manpower installation using multiple small-capacity hydraulic jacks. CONSTITUTION: A hydraulic device(100) for replacing a bearing apparatus comprises a hydraulic jack(120), a sliding unit(130), and a base unit(150). The hydraulic jack is positioned on the upper side of an abutment(102) or a pier(104) and lifts a girder(106) or a plate girder bridge(108). The sliding unit is arranged on the lower surface of the hydraulic jack and comprises an elastic rubber pad(132) and a Teflon plate(134). The base unit is located on the lower part of the sliding unit and places the hydraulic jack on the abutment or the pier. A sidewall(154) is formed along the girth of a base plate(152) placed on the abutment or the pier.

Description

HYDRAULIC LIFTING DEVICE, THE BRACKET AND THE METHOD FOR CHANGING BRIDGE BEARINGS USING THEM}

The present invention relates to a device and a method used to replace a bridge device provided in the bridge, and more particularly, having a sliding means and a base means in the lower portion of the hydraulic jack, the slab is displaced in one or two directions during the replacement of the bridge device The present invention relates to a hydraulic device for replacing a device, and to a method for replacing the device using the same.

In general, bridge structures are inevitably damaged due to heavy live loads such as frequent traffic of vehicles or trains, and longitudinal and transverse stretching of bridges due to temperature changes due to the nature of four seasons.

In particular, a bridge device connecting bridge superstructures, bridges, and alternating bridges is an important structural member, and breakage is frequently caused by excessive shock and stretching.

Therefore, the bridge device needs proper repair and reinforcement. To this end, after the lifting work of the upper structure, the bridge device is repaired and reinstalled with new materials.

For example, in the patent document No. 10-0762360, "B.P.C flat jack with excellent bridge support repair and reinforcement and bridge support precision construction method using the same", the existing hydraulic jack is used for abnormal behavior and support replacement of the superstructure. In order to improve the problem that the deviation of the steel pipe H-beam of the steel pipe occurs, and the correct setting of the upper and lower bearings with the existing bearing coordinate points and the diaphragm center cannot be set, jack top plate, spherical bearing part, It consists of a JPC flat jack for throttling and a teaching which consists of a hydraulic cylinder part and a screw screw height adjustment part, and the JPC flat jack for fixing. Such a conventional technique has a sliding function of a pot support and a spherical support function when all bridge supports are replaced, so that even if the longitudinal and transverse grooves of the bridge are large or the deflection of the superstructure is large. It can absorb rotational deformation smoothly, and it is possible to adjust the height difference of the geometry space of the bridge that occurs frequently through the screw screw. You can now make settings.

In addition, as another conventional technology, Patent Registration No. 10-0760833, "Individual prefabricated bracket and bridge superstructure support lifting method using the same" is proposed. This conventional technology is simple to manufacture a vertical plate-shaped individual assembly member capable of manpower transport, and to carry the personnel to the work site of the site without a separate reinforced scaffolding scaffolding and moving and mounting equipment to install the individual assembly member As the work, the upper structure of the bridge is raised, lifted and other repairs and reinforcements.

In addition, the intermediate connector of the filling material and the support member is installed in the space between the individual assembly bracket on one side and the individual assembly bracket on the other side, the intermediate connector is installed on both sides of the vertical steel plate, the vertical steel plate in the horizontal direction The steel plate is welded to form a hollow shape, and is fixed to the through holes located at the centers of the individual prefabricated brackets and the intermediate connecting members on both sides, thereby supporting and pulling up the bridge superstructure.

In addition, another conventional technology is proposed in the patent registration No. 10-0775451 "Spherical Bridge Impression Jack for maintenance and repair method using the same".

Such a conventional technique is a support member positioned on the upper surface of the piers, a spherical friction member having a spherical portion to be slid and coupled to the spherical groove formed on the upper surface of the support member, and slidably mounted on the upper surface of the spherical friction member A top slide member whose upper surface is supported by a bridge beam provided on a bottom surface of the bridge or a bottom surface of the bridge and a guide groove provided on the supporting member and having an upper end positioned in guide grooves formed on both sides of the top plate slide member to control horizontal displacement. It includes a control block.

And a guide chamber which is formed to be opened upward in the support member to receive fluid through a fluid hole communicating with the outside, and is separated along the axial direction from the support member on the upper side of the guide chamber and has a spherical groove on an upper surface thereof. The spherical member to be formed is configured to be inserted up and down in an airtight state.

However, all the existing methods related to the lifting of the upper structure of the bridge to replace the bridge device as described above were all one way to raise after installing the bracket, whether prefabricated or anchored in the lower piers or shifts.

However, the problem with this method is that anchor drilling is difficult to meet the structurally required drilling position and depth when the alternating or pier bars are interfered, and the prefabricated type is usually symmetrically assembled on the left and right sides of the piers. No construction is possible, and the pier is also impossible due to the outermost space narrow.

In addition, the hydraulic jacks used for replacing bridge bridges so far are cited hydraulic jacks and systems used for general structure lifting, not hydraulic bridges dedicated to bridge replacement, and are used for static lifting such as simultaneous lifting, lifting speed adjustment, and displacement control for asymmetric loads. It has been developed into a system suitable for short-term lifting of structures.

The original role of the bridge device is to be installed between the upper structure (slab) and the lower structure (pier) of the bridge to support the slab and to relieve the lateral displacement acting on the bridge when stretching due to the temperature displacement in the direction of the bridge or perpendicular to the bridge. It serves to reduce the impact of live loads.

These important chair units will be replaced with new ones for maintenance after a certain period of time, and will lose the inherent function of the chair units by using a normal hydraulic jack. That is, in the prior art, the installation of the replacement device using a hydraulic jack that raises the static structure without installing the device to attenuate it.

However, the bridge is divided into short span, continuous span, and the like, and the expansion and contraction occurs due to the temperature change. In addition, it usually takes several weeks to several months for the replacement of the bridge device. During this period, the bridge device loses its original function. Therefore, there is a risk of plate damage in the upper part of the bridge and the upper and lower parts of the bridge due to the upper live load and temperature displacement. high.

Therefore, in order to receive this, the hydraulic jack for the impression should be equipped with such a function in consideration of the direction of the chair arrangement.

In addition, in the past, the hydraulic jack was installed at the top of the pier or the shift to replace the bridge device. In the past, the girder-type bridges, such as PSC-BEAM and the plate-shaped bridge, which are installed in the past, have insufficient space to install the hydraulic jack. Hydraulic jacks were raised on the piers or on the front of the shifts, such as bracket mounting through anchor drilling or hook mounting brackets.

However, such a conventional perforated bracket has a problem in that it is impossible to obtain a desired reaction force due to the interference of internal reinforcement of bridges and bridges, and does not have a deep depth, thereby making structural weaknesses by drilling existing shifts and bridge piers. Hanging brackets are symmetrical in the piers and can be installed in some places. However, the mounting brackets cannot be installed because only one side is used. Therefore, the development of the support to solve this disadvantage is urgently circumstance.

The present invention is to solve the conventional problems as described above, the purpose is to install the hydraulic device after the bracket reinforcement in the conventional alternating or piers, one-way or two-way displacement, or installed in a fixed end to replace the device The present invention provides a hydraulic device for replacing a device, a support, and a method for replacing the device using the same, which are capable of serving a band of the device.

And another object of the present invention is to minimize the damage of the bridge structure by preventing the perforations for the existing structure anchor installation, when installing the bracket for mounting the hydraulic jack, it is possible to carry manpower consisting of prefabricated member, any girders as a prefabricated member The present invention provides a hydraulic device for replacing a bridge device, a support, and a method of replacing a bridge device using the same, which are excellent in applying to a bridge.

In addition, another object of the present invention is to install a small-capacity hydraulic jack can be installed by manpower reduction of the hydraulic jack load, minimizing the jack installation space by using a small-capacity hydraulic jack, improved bridge device easy to install the hydraulic jack on the shift and piers The present invention provides a replacement hydraulic device, a support, and a method of replacing a device using the same.

In order to achieve the above object, the present invention is located on the upper surface of the alternating or pier, hydraulic jack for lifting the girder or plate-shaped bridge of the upper side; Sliding means disposed on a lower surface of the hydraulic jack; And base means positioned on the lower side of the sliding means to seat the hydraulic jack on the alternating or pier and to allow or fix the one-way or two-way movement of the sliding means. The hydraulic jack raises the girder or the plate-shaped bridge by the hydraulic jack. During the replacement of the device, a hydraulic device for replacing the device is provided which is configured to cover the band of the device.

Therefore, the present invention can reduce the lateral displacement acting on the pier during expansion and contraction by the temperature displacement in the axial direction or the axial direction while supporting the slab, and reduce the impact caused by the upper live load during the replacement period of the throttle device.

In order to achieve the above object, the present invention, a plurality of linear members arranged transversely between the upper portion of the alternating or pier and the girder are assembled with bolts in the long hole, the lower portion is a hydraulic jack is disposed below Connecting rod; Located between the linear members of the connecting rod and assembled integrally with the connecting rod through a bolt, each comprising a plurality of side plates disposed opposite each other, each side plate has a lower side edge of the girder or plate-shaped bridge A bracket on which a right angle groove is seated and fixed; Positioned at each of the vertical corners of the seating grooves of the bracket, and protrudes a plurality of fitting pieces inserted into the gap between the side plates on one side, to secure the upper edge of the bracket by integrally fitting the upper edge of the side plates between the fitting plate. Acupressure plate; And an elastic rubber pad positioned inside the connecting rod and the acupressure plate and surrounding the lower edge of the girder or the plate-shaped bridge. To provide.

As described above, the present invention can reduce the damage to drill the alternating pier, and reduce the hydraulic jack capacity, thereby making it lighter in weight, making it possible to carry the manpower, and making both the width and the width to be assembled to fit the upper weight.

In order to achieve the above object, the present invention, the hydraulic jack is located on the upper surface of the alternating or pier, and the sliding surface and the base means on the lower surface of the hydraulic jack to install the hydraulic device; Carrying a plurality of linear members, side plates, acupressure plates and elastic rubber pads on a site-by-part basis for bolt assembly, and installing a support on the bottom of the girder or the plate-shaped bridge at the top of the hydraulic system; And actuating the hydraulic jack to lift a girder or plate bridge from the top of the shift or pier via a support, and replace the bridge device located therebetween. Provided is a method for replacing a device, in which the sliding of the girder or the plate-shaped bridge in the axial direction or the perpendicular direction of the girder is performed and the band of the device can be in charge.

Therefore, the present invention can reduce the lateral displacement acting on the piers during expansion and contraction by the temperature displacement in the axial or angular direction while supporting the slab, and reduce the impact due to the upper live load, during the replacement period of the apparatus This minimizes jack installation space, makes it easy to install hydraulic jacks on shifts and piers, and replaces the device.

According to the hydraulic device for replacing the device according to the present invention, the hydraulic device is installed after the bracket reinforcement in the conventional shift or the pier, and can be displaced in one direction or in both directions, or installed as a fixed end of the device during the replacement period of the device. You will be in charge of the band. Therefore, during the replacement period of the device, it is possible to alleviate the lateral displacement acting on the piers during expansion and contraction due to the temperature displacement in the axial or perpendicular direction while supporting the slab, and to reduce the impact caused by the upper live load.

According to the support for replacing the bridge device according to the present invention, when installing the bracket for mounting the hydraulic jack, to prevent the drilling of the existing structure anchor installation, to minimize the damage of the bridge structure, it is made of a prefabricated member, manpower transport is possible, prefabricated The member is excellent in any girder type bridge. Therefore, it is possible to reduce the damage of perforating the pier and piers, and to reduce the capacity of the hydraulic jack, so that the weight is lighter, and the transportation of manpower is possible.

In addition, according to the method of replacing the bridge device according to the present invention, it is possible to install a small amount of hydraulic jack by reducing the load of the hydraulic jack, and to minimize the installation space of the jack by using the small capacity hydraulic jack, it is easy to install the hydraulic jack on the shift and piers The chair can be replaced easily.

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

As shown in FIG. 1, the hydraulic device 100 for replacing a device for a bridge according to the present invention is located on the upper surface of the shift 102 or the bridge 104, and the girder 106 or the plate-shaped bridge on the upper side thereof ( A hydraulic jack 120 for lifting 108 is provided. Such a hydraulic jack 120 is operated using a conventional hydraulic force, it is to lift the structure of the upper side hydraulically.

And it has a sliding means 130 disposed on the lower surface of the hydraulic jack 120. The sliding means 130 is composed of an elastic rubber pad 132 in close contact with the lower surface of the hydraulic jack 120 and a Teflon plate 134 in close contact with the lower side thereof to damp the frictional force, and the elastic rubber pad 132. Supports the lower portion of the hydraulic jack 120 at a uniform pressure, and the Teflon plate 134 attenuates frictional force at the lower portion of the elastic rubber pad 132.

In addition, the hydraulic device 100 for replacing the seating device according to the present invention is located on the lower side of the sliding means 130 and the base means 150 for seating the hydraulic jack 120 to the alternating 102 or the pier 104; It is provided, the sliding means 130 and the base means 150, during the replacement period of the device (S), while supporting the slab while acting on the pier 104 during expansion and contraction by the temperature displacement in the axial direction or axial direction This reduces the lateral displacement and reduces the impact of the upper live load.

2 shows a structure in which such a hydraulic device 100 is composed of a bidirectional hydraulic device 100a having a circular base. In the bidirectional hydraulic device 100a as described above, the base means 150 protrudes upward along the edge of the circular base plate 152 and the circular base plate 152 mounted on the alternating 102 or the pier 104. In order to limit the moving area of the sliding means 130 therein, the structure includes an annular side wall 154 fixed by bolts 156.

Therefore, the teflon plate 134 of the sliding means 130 is lifted up the girder 106 or the plate-shaped bridge 108 by the hydraulic jack 120, and during the period of replacing the teaching device (S), the base plate 152 of the Sliding on the area partitioned by the annular side wall 154 in the upper direction in both the axial direction and the perpendicular direction of the axial axis to cover the band of the device (S).

3A and 3B illustrate a structure in which the hydraulic device 100 includes a bidirectional hydraulic device 100a having a rectangular base. In the bidirectional hydraulic device 100a as described above, the base unit 150 has an upper portion along the edge of the rectangular base plate 152 'and the rectangular base plate 152' mounted on the alternating 102 or the pier 104. Protrudes to limit the movement area of the sliding means 130, and includes a rectangular sidewall 154 'fixed by bolts 156.

Therefore, the teflon plate 134 of the sliding means 130 is raised by the hydraulic jack 120, the girder 106 or the plate-shaped bridge 108, and during the period of replacing the seating device (S), the square base plate 152 ' In the upper part of the upper side), the area partitioned by the rectangular side wall 154 'is slid in both directions in the axial direction and the perpendicular direction of the axial direction to cover the band of the device S.

And the hydraulic device 100 for replacing the device according to the present invention may be made of a one-way hydraulic device (100b) having a circular base, as shown in Figures 4a and 4b.

Such a one-way hydraulic device (100b) is the teflon plate 134 is the sliding means 130 is in close contact with the elastic rubber pad 132 in close contact with the lower surface of the hydraulic jack 120 and the lower side thereof to damp the friction force. The base means 150 is a circular base plate 152 mounted on the alternating 102 or the pier 104, protrudes upward along the edge of the circular base plate 152 and the sliding therein. It has an annular side wall 154 that limits the area of movement of the means 130. In addition, the inner side of the annular side wall 154 has a structure including a pair of semi-moon-shaped guide plate 158a, 158b fixed to guide the movement of the hydraulic jack 120 in one direction.

This one-way hydraulic device (100b) is the hydraulic jack 120 during the period of lifting the girder 106 or the plate-shaped bridge 108 by the hydraulic jack 120 and replace the seating device (S), the half-moon guide plate 158a It is configured to cover the banding device (S) by sliding in one direction of the axial direction or perpendicular to the axial direction through the (158b).

In this case, the one-way sliding movement in the axial direction is the hydraulic jack 120 is moved in the axial direction between the straight edges (160a, 160b) of the half moon-shaped guide plate (158a, 158b) arranged side by side in the axial direction. In addition, the one-way sliding movement in the axial direction perpendicular to the straight edges 160a and 160b of the half moon-shaped guide plates 158a and 158b is disposed side by side in the axial direction to the hydraulic jack 120 in the axial direction. Move easily.

In addition, the hydraulic apparatus 100 for replacing the apparatus 100 according to the present invention may be formed of a one-way hydraulic apparatus 100b having a square base, as shown in FIGS. 5A and 5B.

The one-way hydraulic device 100b is composed of an elastic rubber pad 132 in close contact with the lower surface of the hydraulic jack 120 and a teflon plate 134 in which the sliding means 130 attenuates frictional force. The base means 150 is projected upward along the edge of the rectangular base plate 152 ', the rectangular base plate 152' mounted on the alternating 102 or the pier 104, the inner side from the inside It has a rectangular side wall 154 ′ which limits the area of movement of the sliding means 130. In addition, the structure includes a pair of rectangular guide plates 158a 'and 158b' fixed to guide the movement of the hydraulic jack 120 in one direction from the inside of the rectangular sidewall 154 '.

This one-way hydraulic device (100b) is a hydraulic jack 120 by the hydraulic jack 120 during the period of raising the girder 106 or the plate-shaped bridge 108 and replacing the seating device (S), the hydraulic jack 120 is the rectangular guide plate 158a ') (158b') is configured to slide in one direction in the axial direction or perpendicular to the axial direction to cover the band of the teaching device (S).

In this case, the one-way sliding movement in the axial direction is the hydraulic jack 120 in the axial direction when the straight edges 160a and 160b of the rectangular guide plates 158a 'and 158b' are arranged side by side in the axial direction. Direction, and the sliding movement in the direction perpendicular to the axial direction is that when the straight edges 160a and 160b of the rectangular guide plates 158a 'and 158b' are arranged side by side in the axial direction, the hydraulic jack 120 is interposed therebetween. Easily move in the direction perpendicular to the throttle.

In addition, the hydraulic apparatus 100 for replacing the teaching apparatus according to the present invention may be formed as a fixed end hydraulic apparatus 100c having a circular base, as shown in FIGS. 6A and 6B.

The fixed end hydraulic device 100c as described above is the sliding means 130 is an elastic rubber pad 132 in close contact with the lower surface of the hydraulic jack 120 and the Teflon plate 134 in close contact with the lower side to attenuate friction force. The base means 150 is a circular base plate 152 mounted on the alternating 102 or the pier 104, protrudes upward along the edge of the circular base plate 152 and the sliding therein. It has an annular side wall 154 that limits the area of movement of the means 130. In addition, the semicircular fixing plates 164a, 164b, 164c, and 164d which surround the hydraulic jack 120 in the inner side of the annular side wall 154 to limit horizontal movement are included.

The fixed end hydraulic device 100c is provided with four vandal-type fixed plates 164a and 164b during the period in which the girder 106 or the plate-shaped bridge 108 is lifted by the hydraulic jack 120 and the bridge device S is replaced. Constrain the (164c) (164d) is fixed to the edge of the hydraulic jack 120 to prevent movement, it is configured to act as a fixed end to assume the band of the teaching device (S).

In addition, the hydraulic apparatus 100 for replacing the apparatus according to the present invention may be formed as a fixed-end hydraulic apparatus 100c having a square base, as shown in FIGS. 7A and 7B.

The fixed end hydraulic device (100c) is such that the sliding means 130 is an elastic rubber pad 132 in close contact with the lower surface of the hydraulic jack 120 and the Teflon plate 134 is in close contact with the lower side thereof to attenuate frictional force. The base means 150 is projected upwardly along the edge of the rectangular base plate 152 ', the rectangular base plate 152' mounted on the alternating 102 or the pier 104, from the inside thereof. A rectangular side wall 154 ′ restricts the movement area of the sliding means 130. And four rectangular fixing plates 164a ', 164b', 164c ', and 164d' which surround the hydraulic jack 120 in the inner side of the rectangular sidewall 154 'to limit horizontal movement. to be.

The fixed end hydraulic device 100c is provided with four rectangular fixing plates 164a 'and 164b during the period of raising the girder 106 or the plate-shaped bridge 108 by the hydraulic jack 120 and replacing the seating device S. ') (164c') (164d ') is configured to be constrained to move by fixing the edge of the hydraulic jack 120, acting as a fixed end to cover the band of the teaching device (S).

And the upper portion of the hydraulic device for replacing the device 100 according to the present invention is provided with a support device replacement support 200 as shown in Figure 8a and 8b.

Such a support device replacement support 200 according to the present invention is provided with a straight connecting rod 210 disposed transversely between the upper portion of the alternating 102 or the pier 104 and the girder 106. . The linear connector 210 is a configuration in which a plurality of linear members 212 are assembled by overlapping bolts 220 on the long hole 214, it is structurally firmly reinforced through a plurality of linear members 212, The hydraulic jack 120 is arranged in the lower portion.

The linear connector 210 can be horizontally moved for adjusting the left and right positions of the bolt 220 by assembling the bolt 220 in the plurality of long holes 214 formed in the linear member 212.

And the support device replacement support 200 according to the present invention is located between the linear member 212 of the connecting table 210 is a bracket 240 which is integrally assembled with the connecting table 210 and the bolt 220. It is provided.

The bracket 240 includes a plurality of side plates 242, each of which is disposed opposite to each other at both ends of the connecting table 210, and each side plate 242 is disposed between the straight members 212 of the connecting table 210. It is sandwiched between and assembled to the connecting table 210 through the bolt 220. In addition, the side plates 242 have a structure in which right angled grooves 242a are fixed to both side edges of the girder 106 or the plate-shaped bridge 108.

In addition, the acupressure plate 250 is vertically positioned at the vertical corners of the right angle grooves 242a of the bracket 240, and the acupressure plate 250 is inserted into the gap between the side plates 242. Protrudes a number of upper and lower sides, the upper edge of the side plate 242 is integrally fixed between the fitting plate 252 is to structurally reinforce the upper edge of the bracket (240).

In addition, the support device replacement support 200 according to the present invention is located inside the connecting table 210 and the pressure plate 250 is an elastic rubber pad 260 surrounding the lower edge of the girder 106 or plate-shaped bridge 108 It includes. Such elastic rubber pad 260 provides a friction force between the lower edge of the girder 106 or the plate-shaped bridge 108 and the pressure plate 250 to enhance the adhesion.

As described above, the support device replacement support 200 according to the present invention has a plurality of linear members 212, the side plate 242, the pressure plate 250, and the elastic rubber pad 260 when replacing the device S. Star by field transport is assembled with bolts 220.

Therefore, it is possible to reduce the damage of drilling the alternating 102 and the pier 104, and to install a plurality of small hydraulic jacks 120 in the lower portion of the straight connecting rod 210, it is possible to reduce the capacity of the hydraulic jack 120, light weight It can be transported by manpower, and can be assembled to fit the upper weight, making it easy to adjust both width and width.

And the support device replacement support 200 according to the present invention further includes a height adjusting means 270 for adjusting the height of the hydraulic jack 120, as shown in Figure 9a and 9b. The height adjustment means 270 is fixed to the upper side of the screw 272 and the screw 272 positioned upright on the upper portion of the alternating 102 or piers 104 to support the lower portion of the hydraulic jack 120 And a nut 276 screwed to the support plate 274 and the screw 272, and adjusts the height of the hydraulic jack 120 on the support plate 274 by raising and lowering the screw 272 through the rotation of the nut 276. It is.

The method of replacing a device for replacing the device S through the hydraulic device 100 for replacing the device according to the present invention configured as described above and the linear connecting table 210 will be described.

The method of replacing the device according to the present invention, as shown in Figure 10a and 10b, 11a and 11b, 12a, to position the hydraulic jack 120 on the upper surface of the shift 102 or the pier 104, The sliding means 130 and the base means 150 is positioned on the lower surface of the hydraulic jack 120 to install the hydraulic apparatus 100.

As described above, the step of installing the hydraulic apparatus 100 includes the two-way hydraulic apparatus 100a, the one-way hydraulic apparatus 100b, and the fixed-end hydraulic apparatus 100c on the shift 102 or the pier 104 as shown in FIG. 12B. ) To install multiple.

In the installation of the hydraulic device 100 as described above, the bidirectional hydraulic device 100a slides the hydraulic jack 120 in both the axial direction and the perpendicular direction of the throttle through the sliding means 130 and the base means 150. It is to cover the band of the device (S), the one-way hydraulic device (100b) is to slide the hydraulic jack 120 in one direction of the axial direction or perpendicular to the axial direction, the fixed end hydraulic device (100c) is a hydraulic jack ( 120) to act as a fixed end.

After the installation of the hydraulic device 100, a plurality of linear members 212, side plates 242, acupressure plates 250, and elastic rubber pads 260 are transported on a site-by-part basis to assemble the bolts 220. And, as shown in Figure 10a, 11a and 12a, the step of installing the support 200 in the lower portion of the girder 106 or the plate-shaped bridge 108 in the upper portion of the hydraulic device (100).

The step of installing the support 200 is installed on-site as a prefabricated, without damaging the shift 102 and the pier 104, the weight is lighter, it is possible to transport the manpower, made prefabricated according to the upper weight width and width It is convenient to adjust all of them.

Next, the hydraulic jack 120 is operated to lift the girder 106 or the plate-shaped bridge 108 from the top of the shift 102 or the pier 104, and replace the stool device S located therebetween. This is done. The step of replacing the chair device (S) is the sliding jack 130 and the base during the period of raising the girder 106 or the plate-shaped bridge 108 by the hydraulic jack 120 and replacing the chair device (S). The means 150 allow the slab on the girder 106 or the plate-shaped bridge 108 to slide on the alternating 102 or the pier 104 in the axial direction or the perpendicular direction of the axial direction and to cover the band of the throttling device S. Do it.

Therefore, during the replacement period of the bridge device (S), while supporting the slab, it is possible to alleviate the lateral displacement acting on the bridge 104 during expansion and contraction due to the temperature displacement in the direction of the bridge or perpendicular to the bridge, and reduce the impact caused by the upper live load. .

In addition, the method of replacing the teaching apparatus according to the present invention is installed on the lower plate of the height adjusting means 270, the support plate 274 and the screw 272 and the nut 276, the hydraulic device 100 Adjusting the height of the) may further include.

Through the height adjustment step, the hydraulic apparatus 100 and the linear connecting table 210 may be closely attached to the lower edges of the girder 106 or the plate-shaped bridge 108, and the step generated in the hydraulic jack 120 may be effectively removed. .

As described above, the present invention, after reinforcing the support 200 to the conventional shift 102 or the pier 104, install the hydraulic apparatus 100, installed to be displaceable in one direction or in both directions, or to a fixed end Installed so that during the replacement of the device (S), it is possible to cover the band of the device (S).

Therefore, while supporting the slab during the replacement period of the bridge device (S), it is possible to alleviate the lateral displacement acting on the bridge 104 during expansion and contraction due to the temperature displacement in the direction of the bridge or perpendicular to the bridge, and reduce the impact caused by the upper live load.

In addition, the present invention when installing the support 200 for mounting the hydraulic jack 120, to prevent damage to the bridge structure to prevent drilling, such as the existing structure anchor installation, made of prefabricated member is possible to carry the manpower, prefabricated member It is suitable for any girder bridge.

Therefore, it is possible to reduce the damage of drilling the shift 102, the pier 104, and to reduce the capacity of the hydraulic jack 120, the weight is lighter, and the transportation of manpower is possible, and the width and width can be adjusted by prefabricating to the upper weight. Is convenient.

In addition, the present invention can be used by the small capacity hydraulic jack 120, the installation of manpower by reducing the load of the hydraulic jack 120, minimizing the jack installation space by using the small capacity hydraulic jack 120, shift 102 and piers It is easy to install the hydraulic jack 120 in the 104, and can easily replace the teaching device (S).

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Accordingly, such improvements and modifications are within the scope of the present invention as long as they are obvious to those skilled in the art.

1 is an exploded perspective view showing a hydraulic device for replacing the teaching apparatus according to the present invention.

Figure 2 is a side cross-sectional view and plan view showing a structure consisting of a two-way hydraulic device of the circular base for replacing the hydraulic device according to the present invention.

Figure 3a is an exploded perspective view showing a structure consisting of a two-way hydraulic device of the quadrilateral base replacement device according to the present invention.

Figure 3b is a side cross-sectional view and a plan view showing the structure of the hydraulic device for replacing the device according to the invention consists of a two-way hydraulic device of the square base.

Figure 4a is an exploded view showing the structure of the hydraulic device for replacing the device according to the present invention consists of a one-way hydraulic device of the circular base.

Figure 4b is a side cross-sectional view and plan view showing a structure consisting of a one-way hydraulic device of the circular base of the replacement device according to the present invention.

Figure 5a is an exploded view showing the structure of the hydraulic device for replacing the device according to the present invention consists of a one-way hydraulic device of the square base.

Figure 5b is a side cross-sectional view and a plan view showing the structure of the hydraulic device for replacing the device according to the present invention consists of a one-way hydraulic device of the rectangular base.

Figure 6a is an exploded view showing the structure of the hydraulic device for replacing the device according to the present invention consists of a fixed end hydraulic device of a circular base.

Figure 6b is a side cross-sectional view and a plan view showing a structure consisting of a fixed-end hydraulic device of the circular base of the replacement device according to the present invention.

Figure 7a is an exploded view showing the structure of the hydraulic device for replacing the device according to the present invention consists of a fixed end hydraulic device of the square base.

7B is a side cross-sectional view and a plan view showing a structure in which the hydraulic device for replacing a device according to the present invention consists of a fixed end hydraulic device of a square base.

Figure 8a is a front exploded view showing the structure of the support for replacing the teaching apparatus according to the present invention.

Figure 8b is an exploded side view showing the structure of the support for replacing the teaching apparatus according to the present invention.

Figure 9a is a front sectional view showing the hydraulic device for replacing the device, the support for replacing the device and the height adjustment means according to the present invention.

Figure 9b is a side cross-sectional view showing a hydraulic device for replacing the device, a support for replacing the device and the height adjustment means according to the present invention.

Figure 10a is a side cross-sectional view of the hydraulic device for replacing the device, the support for replacing the device and the height adjustment means is mounted on the shift.

10B is a front sectional view of the hydraulic device for replacing the device, the support for replacing the device and the height adjusting means mounted on the shift in accordance with the present invention.

Figure 11a is a side cross-sectional view of the hydraulic device for replacing the device, the support for replacing the device and the height adjustment means mounted on the piers according to the present invention.

11B is a front sectional view of the hydraulic device for replacing the device, the support for replacing the device and the height adjusting means mounted on the bridge according to the present invention.

Figure 12a is a front sectional view of the hydraulic device for replacing the device, the support for replacing the device and the height adjustment means mounted on the plate-shaped bridge according to the present invention.

12B is an explanatory view in which a hydraulic device for replacing a bridge device according to the present invention is mounted on a plurality of shifts or piers as a two-way hydraulic device, a one-way hydraulic device, or a fixed-end hydraulic device.

Description of the Related Art

100 ...... Hydraulic replacement device 100a ..... Bidirectional hydraulics

100b ...... One-way hydraulics 100c ...... Fixed-end hydraulics

102 ...... Shift 104 ...... Pier

106 ...... Girder 108 ...... Platform Bridge

120 ...... Hydraulic jack 130 ...... Sliding means

132 ...... Elastic rubber pad 134 ...... Teflon plate

150 ...... base means 152,152 '...... base plate

154,154 '...... sidewall 156,220 ...... bolt

158a, 158a ', 158b, 158b' ..... Guide plate 160a, 160b ..... Straight edge

164a, 164a ', 164b, 164b', 164c, 164c ', 164d, 164d' .... fixed plate

200 ...... Support for replacing the device

210 ..... straight connecting rod 212 ..... straight member

214 ..... long hole 240 ..... bracket

242 ..... shroud 242a ..... right angle groove

250 ..... pressure plate 252 ..... mounting plate

260 ..... Elastic rubber pad 270 ..... Height adjustment means

272 ..... screw 274 ....

276 ..... Nut S ...... Stool

Claims (10)

A hydraulic jack 120 positioned on the upper surface of the alternating 102 or pier 104 and lifting the girder 106 or the plate-shaped bridge 108 on its upper side; Sliding means (130) disposed on a lower surface of the hydraulic jack (120); And a base means positioned at the lower side of the sliding means 130 to seat the hydraulic jack 120 on the alternating 102 or the pier 104, and to allow or fix the sliding means 130 in one direction or in both directions. 150, including, during the period of lifting the girder 106 or the plate-shaped bridge 108 by the hydraulic jack 120 and replacing the chair device (S), so as to cover the band of the chair device (S) Is composed, The sliding means 130 is composed of an elastic rubber pad 132 in close contact with the lower surface of the hydraulic jack 120, and a Teflon plate 134 in close contact with the lower side of the hydraulic jack 120 to attenuate frictional force. The base means 150 protrudes upward along the edges of the circular base plate 152 or the square base plate 152 'and the base plates 152 and 152' mounted on the alternating 102 or the piers 104. Including an annular side wall 154 or a rectangular side wall 154 ′ restricting the movement area of the sliding means 130 therein, During the period in which the girder 106 or the plate-shaped bridge 108 is lifted by the hydraulic jack 120 and the seating device S is replaced, the band of the seating device S is moved by sliding in both directions in the axial direction and the perpendicular direction of the axial direction. The hydraulic device for replacing the device, characterized in that configured to handle. The method of claim 1, The inner side of the annular side wall 154 to further include a pair of vandal guide plate (158a, 158b) fixed to guide the movement of the hydraulic jack 120 in one direction, The inside of the rectangular side wall (154 ') replacement of the device for the device characterized in that it further comprises a pair of rectangular guide plates (158a', 158b ') fixed to guide the movement of the hydraulic jack 120 in one direction. Hydraulic system. The method of claim 1, The inner side of the annular side wall 154 further includes four vandal-type fixing plates 164a, 164b, 164c, and 164d surrounding the hydraulic jack 120 to limit horizontal movement. Four rectangular fixing plates 164a ', 164b', 164c 'and 164d' are further included in the rectangular sidewall 154 'to limit the horizontal movement by surrounding the hydraulic jack 120. The hydraulic device for replacing the device, characterized in that. According to any one of claims 1 to 3, wherein the hydraulic system A plurality of straight members 212 disposed transversely between the top of the alternating 102 or the pier 104 and the girder 106 are assembled with bolts 220 on the long holes 214, and the lower portion thereof. The straight jack 210 is disposed in the hydraulic jack 120; Located between the linear members 212 of the connecting table 210, the connecting table 210 is integrally assembled with the bolt 220, a plurality of side plates 242 disposed opposite each other of the connecting table 210, respectively. Each side plate 242 includes a bracket 240 formed with a right angle groove 242a to which both side edges of the girder 106 or the plate-shaped bridge 108 are seated and fixed; Located in the vertical corners of the right angle groove 242a of the bracket 240, and protrudes a plurality of fitting plates 252 inserted into the interval between the side plates 242 on one side, the side plates between the fitting plate 252 Acupressure plate 250 for reinforcing the upper edge of the bracket 240 by integrally fixing the upper edge of the bracket (240); And It includes an elastic rubber pad 132 which is located inside the connecting table 210 and the pressure plate 250 to surround the lower edge of the girder 106 or the plate-shaped bridge 108, and when replacing the assembly device (S) The hydraulic device for replacing a device, characterized in that the site is carried by the girder 106 or the plate-shaped bridge 108 to be installed in the lower support device replacement support assembly. 5. The support plate of claim 4, wherein the screw 272 is placed upright on the alternating 102 or the pier 104 and the support plate is fixed to the upper side of the screw 272 to support the lower portion of the hydraulic jack 120. 274 and a nut 276 screwed to the screw 272, the height adjusting means for adjusting the height of the hydraulic jack 120 by raising and lowering the screw 272 through the rotation of the nut 276 The hydraulic device for replacing the device, characterized in that it further comprises a). Position the hydraulic jack 120 on the upper surface of the alternating 102 or the pier 104, the sliding means 130 and the base means 150 on the lower surface of the hydraulic jack 120 to position the hydraulic device 100 Installing; A plurality of linear members 212, side plates 242, pressure plate 250 and the elastic rubber pad 132 is carried on site by parts to assemble the bolt 220, the girder 106 in the upper portion of the hydraulic device (100) Or installing the support 200 in the lower portion of the plate-shaped bridge (108); And The hydraulic jack 120 is operated to lift the girder 106 or the plate-shaped bridge 108 from the upper portion of the alternating 102 or the pier 104 through the support 200, and the intersecting device S located therebetween. Replacing; during the period of raising the girder 106 or the plate bridge 108 by the hydraulic jack 120 and replacing the seat device S, the girder 106 or the plate bridge 108 of the Sliding in the axial direction or perpendicular to the axial direction to be made and to be in charge of the band of the device (S), The step of installing the hydraulic device 100, the sliding means 130 and the base means 150 using the hydraulic device 100 according to any one of claims 1 to 3, the hydraulic jack 120 Sliding in both directions in the axial direction and the perpendicular direction of the throttle to the two-way hydraulic device (100a) to be in charge of the band of the device (S), and the hydraulic jack 120 by sliding in one direction of the axial direction or perpendicular to the throttle One-way hydraulic device 100b to be in charge of the band of the device (S) and the fixed end hydraulic device (100c) to be in charge of the band of the device (S) by acting as a fixed end to the hydraulic jack 120 How to replace the bridge device, characterized in that to be installed in a plurality of shift 102 or pier 104. delete delete delete delete

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