DE202022102996U1 - Easy to lift assembled bridge pier - Google Patents

Abstract

-förmige Platte (212) umfasst, wobei im Inneren der

-förmigen Platte (212) die rechteckige Nut (211) vorgesehen ist, und wobei im Inneren der

-förmigen Platte (212) Rutschen Nr. 1 (210) vorgesehen sind, die in einer Anzahl von 4 bereitgestellt sind, und wobei im Inneren der Rutsche Nr. 1 (210) ein Schlitten (215) verschiebbar installiert ist, und wobei im Inneren des Schlittens (215) eine Schnecke (218) durch Gewinde installiert ist, und wobei am oberen Ende des Schlittens (215) eine geneigte Stange (216) fest installiert ist, und wobei auf einer Seite der geneigten Stange (216) eine Ausrichtungsplatte (217) fest installiert ist, und wobei auf einer Seite der Schnecke (218) ein Kegelrad Nr. 2 (220) fest installiert ist, und wobei auf einer Seite der Schnecke (218) ein Kegelrad Nr. 1 (219) eingreifend installiert ist, und wobei am oberen Ende des Kegelrades Nr. 1 (219) eine rotierende Stange (213) fest installiert ist, und wobei an vier Enden der

-förmigen Platte (212) eine feste Platte (214) fest installiert ist, und wobei die rotierende Stange (213) mit der festen Platte (214) drehbar verbunden ist, und wobei eine Seite der

-förmigen Platte (212) mit einer Seite der Fundamentträgerplatte (130) fest verbunden ist.

Easy to lift assembled bridge pier, characterized in that it comprises:
a foundation support plate (130), the upper end of the foundation support plate (130) being engaged with a rectangular pier column (120) by a central alignment mechanism (200), and the upper end of the rectangular pillar pillar (120) being engaged with a trapezoidal pier support platform (110) by steel rods , and wherein a coupling plate (150) is fixedly installed at the upper end of the trapezoidal pillar support platform (110), and wherein an anti-tilt mechanism (500) is installed by threads at the upper end of the foundation support plate (130), and wherein at the upper end of the trapezoidal pillar support platform ( 110) a hanging mechanism (300) is permanently installed, and
wherein a drainage mechanism (400) is provided inside the trapezoidal pillar support platform (110), and wherein inner slits (140) are uniformly provided inside the lower end of the trapezoidal pillar support platform (110) and the rectangular pillar column (120), respectively, and
wherein on the surface of the trapezoidal pillar support platform (110) and the rectangular pillar column (120), pouring holes (111) are provided uniformly, respectively;
a center alignment mechanism (200) having a chute #1 (210), a rectangular groove (211), and a

-shaped plate (212), wherein inside the

-shaped plate (212) the rectangular groove (211) is provided, and wherein inside the

-shaped plate (212), there are provided No. 1 chutes (210) provided in a number of 4, and inside the No. 1 chute (210) a carriage (215) is slidably installed, and inside of the carriage (215) a worm (218) is installed by threads, and an inclined rod (216) is fixedly installed at the upper end of the carriage (215), and on one side of the inclined rod (216) an alignment plate (217 ) is fixedly installed, and wherein a No. 2 bevel gear (220) is fixedly installed on one side of the worm (218), and a No. 1 bevel gear (219) is meshingly installed on one side of the worm (218), and wherein at the upper end of the bevel gear No. 1 (219) a rotating rod (213) is fixedly installed, and at four ends of the

-shaped plate (212), a fixed plate (214) is fixedly installed, and wherein the rotating rod (213) is rotatably connected to the fixed plate (214), and one side of the

-shaped plate (212) is firmly connected to one side of the foundation support plate (130).

Description

TECHNICAL AREA

The present invention relates to the technical field of the assembled bridge pier, particularly to an easy-lift assembled bridge pier.

STATE OF THE ART

The bridges generally refer to structures built on rivers, lakes and seas to allow vehicles and pedestrians to pass smoothly. To adapt to the modern and rapid development of the transportation industry, the bridges can also be figuratively applied to structures for crossing mountain streams, bad geology, or meeting other transportation needs that make traffic more convenient. A bridge generally consists of a superstructure, a substructure, supports and auxiliary structures. The superstructure is also called as the bridge span, which is the main structure for crossing the obstacles; the substructure includes a trapezoidal pier support platform, bridge piers and foundations; the supports are power transmission devices placed at the support point between the bridge span and the bridge piers or the trapezoidal pier support platform; the auxiliary structures are related to the bridgehead plate, conical slope protection, bank protection, diversion project, etc., and the middle supporting structure of the multi-span bridge is called the bridge pier. The bridge piers are divided into solid piers, columnar piers and curved piers, etc. According to the planar shape, the bridge piers can be divided into rectangular piers, pointed piers, round piers, etc. The materials for the construction of bridge piers can be wood, stone, concrete, reinforced concrete, steel, etc.

Eg reveals the publication number CN108589514B a prefabricated assembled pier system with separate support mechanism and anti-seismic mechanism, based on the concept of damage controllable and earthquake-proof post-earthquake function recovery, the present invention develops a prefabricated assembled pier system with separated support mechanism and anti-seismic mechanism, which not only reduces the damage of the structure after the earthquake and increases the repair speed of the bridge piers after the earthquake, but also uses the prefabricated assembly connection, which greatly speeds up the construction of the bridge, ensures the construction quality and accuracy, and reduces the disturbance to the surrounding area. The bridge pier system has an important guiding role in promoting the use of prefabricated assembly technology in high-intensity regions. Because of this, it is known that the existing assembled bridge piers have met people's usage needs, but the following problems still remain.

The existing assembled bridge piers are connected by three-stage splicing, in the process, the pier support pillar and the base steel are slowly connected in the corresponding snapping process, and it is difficult to quickly find the designated hole at the bottom of the pier support pillar. Therefore, assembly is time-consuming and labor-intensive. Because of this, it is necessary to develop an easy-lift assembled bridge pier to solve the above-mentioned problems.

CONTENT OF THE PRESENT INVENTION

The present invention aims to provide an easy-lift assembled bridge pier to solve the prior art problems that the existing assembled bridge piers are connected by three-stage splicing, the pier support column and the base steel in the corresponding locking process slowly are connected, and it is difficult to quickly find the intended hole at the bottom of the pier support column, making assembly time-consuming and labor-intensive.

• eine Fundamentträgerplatte, wobei ins obere Ende der Fundamentträgerplatte eine rechteckige Pfeilersäule durch einen zentralen Ausrichtungsmechanismus einrastet,
• und wobei ins obere Ende der rechteckigen Pfeilersäule eine trapezförmige Pfeilerstützplattform durch Stahlstäbe einrastet, und wobei am oberen Ende der trapezförmigen Pfeilerstützplattform eine Kopplungsplatte fest installiert ist, und
• wobei am oberen Ende der Fundamentträgerplatte ein Kippsicherungsmechanismus durch Gewinde installiert ist, und wobei am oberen Ende der trapezförmigen Pfeilerstützplattform ein Aufhängemechanismus fest installiert ist, und wobei im Inneren der trapezförmigen Pfeilerstützplattform ein Entwässerungsmechanismus vorgesehen ist, und wobei im Inneren des unteren Endes der trapezförmigen Pfeilerstützplattform und der rechteckigen Pfeilersäule jeweils innere Schlitze gleichmäßig vorgesehen sind, und wobei an der Oberfläche der trapezförmigen Pfeilerstützplattform und der rechteckigen Pfeilersäule jeweils Gießlöcher gleichmäßig vorgesehen sind;
• einen zentralen Ausrichtungsmechanismus, der eine Rutsche Nr. 1, eine rechteckige Nut und eine
  
  -förmige Platte umfasst, wobei im Inneren der
  
  -förmigen Platte die rechteckige Nut vorgesehen ist, und wobei im Inneren der
  
  -förmigen Platte Rutschen Nr. 1 vorgesehen sind, die in einer Anzahl von 4 bereitgestellt sind, und wobei im Inneren der Rutsche Nr. 1 ein Schlitten verschiebbar installiert ist, und wobei im Inneren des Schlittens eine Schnecke durch Gewinde installiert ist, und wobei am oberen Ende des Schlittens eine geneigte Stange fest installiert ist, und wobei auf einer Seite der geneigten Stange eine Ausrichtungsplatte fest installiert ist, und wobei auf einer Seite der Schnecke ein Kegelrad Nr. 2 fest installiert ist, und wobei auf einer Seite der Schnecke ein Kegelrad Nr. 1 eingreifend installiert ist, und wobei am oberen Ende des Kegelrades Nr. 1 eine rotierende Stange fest installiert ist, und wobei an vier Enden der
  
  -förmigen Platte eine feste Platte fest installiert ist, und wobei die rotierende Stange mit der festen Platte drehbar verbunden ist, und wobei eine Seite der
  
  -förmigen Platte mit einer Seite der Fundamentträgerplatte fest verbunden ist, dabei wird zuerst die rechteckige Pfeilersäule auf der Fundamentträgerplatte montiert, die rechteckige Pfeilersäule wird durch einen Kran gehoben und nähert sich dem kombinierten Block des Stahlstabs auf der Fundamentträgerplatte an, und der Boden der rechteckigen Pfeilersäule wird schnell auf den Stahlstab ausgerichtet, die Skalenlinien auf der
  
  -förmigen Platte helfen dem Bedienungspersonal dabei, den Abstand der Ausrichtungsplatte einzustellen, so dass die Ausrichtungsplatte gleichzeitig die Außenseite der rechteckigen Pfeilersäule festklemmt, um eine Stützfunktion zu erzielen, auf die Weise werden die Stabilität der rechteckigen Pfeilersäule und die Montageeffizienz verbessert.

In order to achieve the above objective, the present invention uses the following technical solution: an easy-to-lift assembled bridge pier, comprising:

• a foundation support plate, the upper end of the foundation support plate being snapped into place by a rectangular pier column by a central alignment mechanism,
• and wherein a trapezoidal pillar support platform is engaged to the upper end of the rectangular pillar column by steel rods, and a coupling plate is fixedly installed at the upper end of the trapezoidal pillar support platform, and
• wherein an anti-tip mechanism is installed by threads at the upper end of the foundation support plate, and a hanging mechanism is fixedly installed at the upper end of the trapezoidal pillar support platform, and a drainage mechanism is provided inside the trapezoidal pillar support platform, and wherein inside the lower end of the trapezoidal pillar support inner slits are uniformly provided on the platform and the rectangular pillar pillar, respectively, and casting holes are uniformly provided on the surface of the trapezoidal pillar supporting platform and the rectangular pillar pillar, respectively;
• a central alignment mechanism containing a chute #1, a rectangular groove, and a
  
  -shaped plate covers, being inside the
  
  -shaped plate the rectangular groove is provided, and being inside the
  
  -shaped plate chutes No. 1 are provided, which are provided in a number of 4, and inside the chute No. 1, a carriage is slidably installed, and inside the carriage, a worm is installed by threads, and wherein at an inclined rod is fixedly installed at the upper end of the carriage, and an alignment plate is fixedly installed on one side of the inclined rod, and a No. 2 bevel gear is fixedly installed on one side of the worm, and a bevel gear is fixedly installed on one side of the worm No. 1 is installed meshing, and at the upper end of the bevel gear No. 1 a rotating rod is fixedly installed, and at four ends of the
  
  -shaped plate a fixed plate is fixedly installed, and wherein the rotating rod is rotatably connected to the fixed plate, and one side of the
  
  -shaped plate is fixed to one side of the foundation support plate, at which the rectangular pillar column is first assembled on the foundation support plate, the rectangular pillar column is lifted by a crane and approaches the combined block of steel bar on the foundation support plate, and the bottom of the rectangular pillar column is quickly aligned with the steel rod, the scale lines on the
  
  -shaped plate help the operator to adjust the distance of the alignment plate, so that the alignment plate clamps the outside of the rectangular pillar column at the same time to achieve a supporting function, thus improving the stability of the rectangular pillar column and the assembly efficiency.

Preferably, a triangular groove is provided on both sides of the coupling plate, and a clamping groove is provided at the top end of the coupling plate to form a wooden peg snap-in structure, thereby achieving stable assembly.

Preferably, the suspension mechanism comprises a hollow suspension ring, a fixing pad and a No. 2 chute, inside the hollow suspension ring is provided the No. 2 chute, and inside the No. 2 chute a clamp plate is slidably installed, and at the bottom a connecting rod is fixedly installed at the end of the clamping plate, and a first spring is fitted on the outside of the connecting rod, and a hollow slot is provided inside the connecting rod, and an elastic piece is fixedly installed inside the hollow slot, and wherein on the both sides of the elastic piece a limit block is fixedly installed, and one side of the connecting rod is fixed to one side of the trapezoidal pillar support platform to prevent the hook in the inner gap of the hollow suspension ring from swaying, and thus the trapezoidal pillar support platform or the rectangular pillar column while of the lifting process varies, thus avoiding the disturbance of the alignment.

Preferably, a fixing pad is fixedly installed on one side of the clamp plate, with one side of the limit block being an inclined surface and the other side being a plane, with the fixing pad, the fixation of the hook is improved, so that the clamp plate is pushed to the upper limit position. Preferably, the dewatering mechanism comprises a through groove, a funnel groove and a filter screen, with the funnel grooves being provided evenly at the upper end of the through groove, and a connecting pipe being fixedly installed at both ends of the through groove, and a bending pipe being plug-installed on one side of the connecting pipe is, and a valve is rotatably installed on one side of the bending pipe, and the through groove and the funnel groove are provided inside the trapezoidal pier support platform to prevent rainwater from accumulating and corroding the steel bar, and the service life of the steel bars in the trapezoidal pier support platform, the rectangular pier column and the foundation support plate.

Preferably, at the upper end of the funnel groove, the filter screen is installed embedding, and pores are uniformly provided inside the filter screen to prevent the impurities from accumulating inside the piping, thus avoiding the occurrence of the clogging.

Preferably, the anti-tilt mechanism includes a second spring, a support bracket and a hollow slide rod, with a first annular plate and a second annular plate fixedly installed on one side of the support bracket, respectively, and inside the first annular plate and the second annular plate the second spring is permanently installed, and being on a Side of the second spring, a concave plate is fixedly installed, and one side of the support bracket is connected by threads to one side of the foundation support plate, to avoid the rectangular pillar column from collapsing and overturning quickly, thereby keeping the second spring a safe distance from the holds the ground, the evacuation of people is facilitated.

Preferably, on one side of the first annular plate and the second annular plate, the hollow slide bar is fixedly installed, and inside the hollow slide bar, a No. 1 bar is slidably installed to prevent the second spring from bending.

1. 1. mit der Anordnung des zentralen Ausrichtungsmechanismus begrenzen vier Ausrichtungsplatten die rechteckige Pfeilersäule in einem bestimmten Bereich, um die Mittelposition schnell und genau zu finden, so dass die rechteckige Pfeilersäule und die Fundamentträgerplatte miteinander kombiniert sind, durch eine Drehung der rotierenden Stange klemmen die Ausrichtungsplatten gleichzeitig die Außenseite der rechteckigen Pfeilersäule fest, zugleich kann eine Stützfunktion erzielt werden, um die Stabilität der rechteckigen Pfeilersäule und die Montageeffizienz zu verbessern;
2. 2. mit der Anordnung des Aufhängemechanismus gleitet die Klemmplatte im Inneren der Rutsche Nr. 2 nach oben, um den Haken zu verstärken, dadurch wird es verhindert, dass der Haken im inneren Spalt des hohlen Aufhängerings schwankt und somit die trapezförmige Pfeilerstützplattform oder die rechteckige Pfeilersäule während des Hebeprozesses schwankt, auf die Weise wird die Beeinträchtigung der Ausrichtung vermieden;
3. 3. mit der Anordnung des Entwässerungsmechanismus wird angesammeltes Wasser auf der Brückenplatte durch die Löcher nach unten abgeführt und tritt durch die Trichternut in die Durchgangsnut ein, die Durchgangsnut führt das Wasser von dem Biegerohr nach außen ab, um die Stabilität der Erde in der Nähe von der Fundamentträgerplatte beizubehalten, auf die Weise wird es verhindert, dass sich Regenwasser ansammelt und den Stahlstab korrodiert, und die Lebensdauer der Stahlstäbe in der trapezförmigen Pfeilerstützplattform, der rechteckigen Pfeilersäule und der Fundamentträgerplatte wird verlängert;
4. 4. mit der Anordnung des Kippsicherungsmechanismus schützt die konkave Platte die Außenseite der rechteckigen Pfeilersäule, bei Naturkatastrophen wie Erdbeben wird Kippen der rechteckigen Pfeilersäule vermieden, durch ein Puffern der zweiten Feder an der Seitenfläche wird es vermieden, dass die rechteckige Pfeilersäule schnell einstürzt und kippt, dadurch, dass die zweite Feder einen Sicherheitsabstand zu dem Boden hält, wird die Evakuierung der Personen erleichtert.

Compared to the prior art, the present invention has the following advantageous effects:

1. 1. With the arrangement of the central alignment mechanism, four alignment plates limit the rectangular pillar pillar in a certain area to find the center position quickly and accurately, so that the rectangular pillar pillar and the foundation support plate are combined with each other, through a rotation of the rotating rod, the alignment plates clamp at the same time the outside of the rectangular pillar pillar firmly, at the same time, a support function can be achieved to improve the stability of the rectangular pillar pillar and the assembly efficiency;
2. 2. With the arrangement of the hanging mechanism, the clamping plate slides up inside the No.2 chute to strengthen the hook, thereby preventing the hook from swaying in the inner gap of the hollow hanging ring, and thus the trapezoidal pillar support platform or the rectangular pillar column oscillates during the lifting process, thus avoiding alignment deterioration;
3. 3. With the arrangement of the drainage mechanism, accumulated water on the bridge plate is discharged down through the holes and enters the through groove through the funnel groove, the through groove discharges the water from the bending pipe to the outside to ensure the stability of the earth near maintaining the foundation support plate, thus preventing rainwater from accumulating and corroding the steel bar, and prolonging the service life of the steel bars in the trapezoidal pillar support platform, the rectangular pillar column and the foundation support plate;
4. 4. With the arrangement of the anti-tilt mechanism, the concave plate protects the outside of the rectangular pillar pillar, natural disasters such as earthquakes prevent the rectangular pillar pillar from tipping, buffering the second spring on the side face avoids the rectangular pillar pillar from collapsing and tipping quickly, by keeping the second spring at a safe distance from the ground, the evacuation of people is facilitated.

character list

• 1 Fig. 12 shows a structural front view of the present invention.
• 2 Figure 12 shows a structural side view of the present invention.
• 3 Fig. 12 shows a front sectional view of the drainage mechanism according to the present invention.
• 4 Fig. 12 shows a structural plan view of the central alignment mechanism according to the present invention.
• 5 12 shows an enlarged schematic diagram of the partial structure at location A in FIG 1 of the present invention.
• 6 Figure 12 shows a side sectional view of the suspension mechanism according to the present invention.
• 7 Fig. 12 shows a structural plan view of the anti-tilt mechanism according to the present invention.
• 8th Fig. 12 shows a structural plan view of the coupling plate according to the present invention.

Reference List

110

Trapezoidal pier support platform

111

pouring hole

120

Rectangular pillar column

130

foundation support plate

140

Inner slot

150

coupling plate

151

Triangular groove

152

clamping groove

200

Central alignment mechanism

210

Slide #1

211

Rectangular groove

212

-shaped plate

213

rotating rod

214

Solid Plate

215

Sleds

216

Inclined Pole

217

alignment plate

218

Snail

219

Bevel gear #1

220

Bevel gear #2

300

hanging mechanism

310

Hollow hanging ring

311

mounting pad

312

Slide #2

313

clamp plate

314

Elastic piece

315

First feather

316

connecting rod

317

hollow slot

318

boundary block

400

drainage mechanism

410

through groove

411

funnel groove

412

filter screen

413

bending pipe

414

connecting pipe

415

Valve

500

anti-tilt mechanism

510

second spring

511

support bracket

512

Hollow slide bar

513

Rod #1

514

First annular plate

515

concave plate

516

Second annular plate

DETAILED DESCRIPTION

In connection with figures in the embodiment of the present invention, the technical solutions in the embodiment of the present invention will be explained clearly and fully in the following. Obviously, the illustrated embodiments are not all embodiments but only part of embodiments of the present invention. All other embodiments obtained by those skilled in the art based on the embodiments in the present invention without creative works should be considered as being within the scope of the present invention.

• einen leicht zu hebenden zusammengebauten Brückenpfeiler, umfassend Folgendes:
  • eine Fundamentträgerplatte 130, wobei ins obere Ende der Fundamentträgerplatte 130 eine rechteckige Pfeilersäule 120 durch einen zentralen Ausrichtungsmechanismus 200 einrastet, und wobei ins obere Ende der rechteckigen Pfeilersäule 120 eine trapezförmige Pfeilerstützplattform 110 durch Stahlstäbe einrastet, und wobei am oberen Ende der trapezförmigen Pfeilerstützplattform 110 eine Kopplungsplatte 150 fest installiert ist, und wobei am oberen Ende der Fundamentträgerplatte 130 ein Kippsicherungsmechanismus 500 durch Gewinde installiert ist, und wobei am oberen Ende der trapezförmigen Pfeilerstützplattform 110 ein Aufhängemechanismus 300 fest installiert ist, und wobei im Inneren der trapezförmigen Pfeilerstützplattform 110 ein Entwässerungsmechanismus 400 vorgesehen ist, und wobei im Inneren des unteren Endes der trapezförmigen Pfeilerstützplattform 110 und der rechteckigen Pfeilersäule 120 jeweils innere Schlitze 140 gleichmäßig vorgesehen sind, und wobei an der Oberfläche der trapezförmigen Pfeilerstützplattform 110 und der rechteckigen Pfeilersäule 120 jeweils Gießlöcher 111 gleichmäßig vorgesehen sind;
  • einen zentralen Ausrichtungsmechanismus 200, der eine Rutsche Nr. 1 210, eine rechteckige Nut 211 und eine
    
    -förmige Platte 212 umfasst, wobei im Inneren der
    
    -förmigen Platte 212 die rechteckige Nut 211 vorgesehen ist, und wobei im Inneren der
    
    -förmigen Platte 212 Rutschen Nr. 1 210 vorgesehen sind, die in einer Anzahl von 4 bereitgestellt sind, und wobei im Inneren der Rutsche Nr. 1 210 ein Schlitten 215 verschiebbar installiert ist, und wobei im Inneren des Schlittens 215 eine Schnecke 218 durch Gewinde installiert ist, und wobei am oberen Ende des Schlittens 215 eine geneigte Stange 216 fest installiert ist, und wobei auf einer Seite der geneigten Stange 216 eine Ausrichtungsplatte 217 fest installiert ist, und wobei auf einer Seite der Schnecke 218 ein Kegelrad Nr. 2 220 fest installiert ist, und wobei auf einer Seite der Schnecke 218 ein Kegelrad Nr. 1 219 eingreifend installiert ist, und wobei am oberen Ende des Kegelrades Nr. 1 219 eine rotierende Stange 213 fest installiert ist, und wobei an vier Enden der
    
    -förmigen Platte 212 eine feste Platte 214 fest installiert ist, und wobei die rotierende Stange 213 mit der festen Platte 214 drehbar verbunden ist, und wobei eine Seite der
    
    -förmigen Platte 212 mit einer Seite der Fundamentträgerplatte 130 fest verbunden ist, dabei wird zuerst die rechteckige Pfeilersäule 120 auf der Fundamentträgerplatte 130 montiert, die rechteckige Pfeilersäule 120 wird durch einen Kran gehoben und nähert sich dem kombinierten Block des Stahlstabs auf der Fundamentträgerplatte 130 an, durch ein Drehen der rotierenden Stange 213 treibt das Kegelrad Nr. 1 219 das Kegelrad Nr. 2 220 zur Rotation an, die Schnecke 218 rotiert, um den Schlitten 215 zum Gleiten im Inneren der Rutsche Nr. 1 210 anzutreiben, so dass die Ausrichtungsplatte 217 auf einer Seite der geneigten Stange 216 ständig dem Inneren der rechteckigen Nut 211 annähert, und der Boden der rechteckigen Pfeilersäule 120 wird schnell auf den Stahlstab ausgerichtet, die Skalenlinien auf der
    
    -förmigen Platte 212 helfen dem Bedienungspersonal dabei, den Abstand der Ausrichtungsplatte 217 einzustellen, die vier Ausrichtungsplatten 217 begrenzen die rechteckige Pfeilersäule 120 in einem bestimmten Bereich und werden ständig nach unten mit der Fundamentträgerplatte 130 kombiniert, dabei besteht eine einfache Bedienung, durch ein Drehen der rotierenden Stange 213klemmt die Ausrichtungsplatte 217 gleichzeitig die Außenseite der rechteckigen Pfeilersäule 120 fest, um eine Stützfunktion zu erzielen, auf die Weise werden die Stabilität der rechteckigen Pfeilersäule 120 und die Montageeffizienz verbessert.

Please refer 1 until 8th , the present invention provides an embodiment:

• an easily lifted assembled bridge pier comprising:
  • a foundation support plate 130, in which the upper end of the foundation support plate 130 is engaged with a rectangular pillar column 120 by a central alignment mechanism 200, and in which the upper end of the rectangular pillar column 120 is engaged with a trapezoidal pillar support platform 110 by steel rods, and at the upper end of the trapezoidal pillar support platform 110 a coupling plate 150 is fixedly installed, and an anti-tilt mechanism 500 is installed by threads at the upper end of the foundation support plate 130, and a suspension mechanism 300 is fixedly installed at the upper end of the trapezoidal pillar support platform 110, and a drainage mechanism 400 is provided inside the trapezoidal pillar support platform 110 , and inside the lower end of the trapezoidal pillar supporting platform 110 and the rectangular pillar column 120, respectively, inner slits 140 are uniformly provided, and wherein on the surface of the trapezoidal shaped pillar supporting platform 110 and the rectangular pillar column 120, casting holes 111 are provided uniformly, respectively;
  • a central alignment mechanism 200 comprising a chute no. 1 210, a rectangular groove 211 and a
    
    -shaped plate 212 includes, wherein inside the
    
    -shaped plate 212, the rectangular groove 211 is provided, and wherein inside the
    
    -shaped plate 212, No. 1 chutes 210 are provided, which are provided in number of 4, and inside the No. 1 chute 210, a carriage 215 is slidably installed, and inside the carriage 215, a worm 218 is screwed and an inclined rod 216 is fixedly installed at the upper end of the carriage 215, and an alignment plate 217 is fixedly installed on one side of the inclined rod 216, and a No. 2 bevel gear 220 is fixed on a side of the worm 218 is installed, and on one side of the worm 218 a bevel gear No. 1 219 is installed meshingly, and at the upper end of the bevel gear No. 1 219 a rotating rod 213 is fixedly installed, and at four ends of the
    
    -shaped plate 212 a fixed Plate 214 is fixedly installed, and wherein the rotating rod 213 is rotatably connected to the fixed plate 214, and one side of the
    
    -shaped plate 212 is fixed to one side of the foundation support plate 130, at first, the rectangular pillar column 120 is mounted on the foundation support plate 130, the rectangular pillar column 120 is lifted by a crane and approaches the combined block of steel bar on the foundation support plate 130, by rotating the rotating rod 213, the bevel gear #1 219 drives the bevel gear #2 220 to rotate, the worm 218 rotates to drive the carriage 215 to slide inside the chute #1 210, so that the alignment plate 217 on one side of the inclined rod 216 constantly approaches the inside of the rectangular groove 211, and the bottom of the rectangular pillar column 120 is quickly aligned with the steel bar, the scale lines on the
    
    -shaped plate 212 help the operator to adjust the distance of the alignment plate 217, the four alignment plates 217 limit the rectangular pillar column 120 in a certain area, and are constantly combined with the foundation support plate 130 down, with easy operation by rotating the rotating rod 213, the alignment plate 217 simultaneously clamps the outside of the rectangular pillar pillar 120 to achieve a supporting function, thus improving the stability of the rectangular pillar pillar 120 and assembling efficiency.

Preferably, a triangular groove 151 is provided on both sides of the coupling plate 150, and a clamping groove 152 is provided at the upper end of the coupling plate 150, at which time the bridge platform is stacked on the trapezoidal pier support platform 110, and at its bottom there is a matching with the coupling plate 150 Installation block installed, which snaps into the coupling plate 150 to form a wooden peg snap-in structure, achieving stable assembly.

Preferably, the suspension mechanism 300 comprises a hollow suspension ring 310, a mounting pad 311, and a chute #2 312, with the interior of the hollow suspension ring 310 having the chute #2 312, and the interior of the chute #2 312 being a clamping plate 313 is slidably installed, and a connecting rod 316 is fixedly installed at the lower end of the clamping plate 313, and a first spring 315 is fitted on the outside of the connecting rod 316, and a hollow slot 317 is provided inside the connecting rod 316, and wherein in an elastic piece 314 is fixedly installed inside the hollow slot 317, and a limit block 318 is fixedly installed on both sides of the elastic piece 314, and one side of the connecting rod 316 is fixedly connected to one side of the trapezoidal pillar support platform 110; the hook of the crane is clamped inside the hollow suspension ring 310, the hollow suspension ring 310 is pushed down, so that one side of the hollow suspension ring 310 compresses the hollow suspension ring 310, thus the limit block 318 compresses the elastic piece 314, and the limit block 318 is clamped on the inside of the hollow hanger ring 310, the clamp plate 313 slides up inside the No. 2 chute 312 to strengthen the hook, to prevent the hook from swaying in the inner gap of the hollow hanger ring 310 and thus the Trapezoidal pier support platform 110 or rectangular pier column 120 sways during the lifting process, thus avoiding the alignment disturbance.

Preferably, a fixing pad 311 is fixedly installed on one side of the clamping plate 313, with one side of the limit block 318 being an inclined surface and the other side being a plane, with the fixing pad 311 improving the fixing of the hook, and one side of the limit block 318 being through limits the hollow hanger ring 310 so that the clamp plate 313 is pushed to the upper limit position.

Preferably, the dewatering mechanism 400 includes a through groove 410, a funnel groove 411, and a filter screen 412, with the funnel grooves 411 being uniformly provided at the upper end of the through groove 410, and a connecting pipe 414 being fixedly installed at both ends of the through groove 410, and wherein on a bending pipe 413 is installed inserting one side of the connecting pipe 414, and a valve 415 is rotatably installed on one side of the bending pipe 413, and the through groove 410 and the funnel groove 411 are provided inside the trapezoidal pillar support platform 110, thereby collecting water of the bridge plate is discharged downward through the holes and enters the through groove 410 through the funnel groove 411, the through groove 410 discharges the water from the bending pipe 413 to the outside to maintain the stability of the earth near the foundation support plate 130 on which way it is prevented that rainwater r accumulates and corrodes the steel bar, and the life of the steel bars in the trapezoidal pier support platform 110, the rectangular pier column 120 and the foundation support plate 130 is prolonged. Preferably, the filter screen 412 is installed embedding at the upper end of the funnel groove 411, with inside the filter screen 412 Pores are provided uniformly, while the filter screen 412 catches and filters the impurities in the rainwater to prevent the impurities from accumulating inside the pipe, thus avoiding the occurrence of the clogging.

Preferably, the anti-tilt mechanism 500 includes a second spring 510, a support bracket 511, and a hollow slide rod 512, with a first annular plate 514 and a second annular plate 516 fixedly installed on a side of the support bracket 511, respectively, and inside the first annular plate 514 and the second annular plate 516, the second spring 510 is fixedly installed, and a concave plate 515 is fixedly installed on one side of the second spring 510, and one side of the support bracket 511 is connected by threads to one side of the foundation support plate 130, while the support bracket 511 is installed on the foundation support plate 130 accordingly, and the concave plate 515 protects the outside of the rectangular pillar pillar 120, natural disasters such as earthquakes prevent the rectangular pillar pillar 120 from tilting, by buffering the second spring 510 on the side surface, it is avoided that the rectanglei ge pillar column 120 quickly collapses and tilts, because the second spring 510 keeps a safe distance from the ground, the evacuation of people is facilitated.

Preferably, on one side of the first annular plate 514 and the second annular plate 516, the hollow slide rod 512 is fixedly installed, and inside the hollow slide rod 512, a No. 1 rod 513 is slidably installed, with the No. 1 rod 513 sliding in the hollow slide rod 512 so that the extension of the second spring 510 is controlled in a certain range to prevent the second spring 510 from bending.

-förmigen Platte 212 helfen dem Bedienungspersonal dabei, den Abstand der Ausrichtungsplatte 217 einzustellen, die vier Ausrichtungsplatten 217 begrenzen die rechteckige Pfeilersäule 120 in einem bestimmten Bereich und werden ständig nach unten mit der Fundamentträgerplatte 130 kombiniert.Working principle: the rectangular pillar column 120 is lifted by a crane and approaches the combined block of steel bar on the foundation support plate 130, by rotating the rotating rod 213, the bevel gear No.1 219 drives the bevel gear No.2 220 to rotate, the Auger 218 rotates to drive the carriage 215 to slide inside the No. 1 chute 210, so that the alignment plate 217 on one side of the inclined rod 216 constantly approaches the inside of the rectangular groove 211, and the bottom of the rectangular pillar column 120 becomes fast aligned with the steel rod, the scale lines on the

-shaped plate 212 help the operator to adjust the distance of the alignment plate 217, the four alignment plates 217 limit the rectangular pillar column 120 in a certain area, and are combined with the foundation support plate 130 all the time downward.

The hook of the crane is clamped inside the hollow suspension ring 310, the hollow suspension ring 310 is pushed down, so that one side of the hollow suspension ring 310 compresses the hollow suspension ring 310, thus the limit block 318 compresses the elastic piece 314, and the limit block 318 is clamped on the inside of the hollow hanging ring 310, the clamp plate 313 slides up inside the No. 2 chute 312 to strengthen the hook, the water enters the through groove 410 through the funnel groove 411, the through groove 410 guides that Water from the flex pipe 413 to the outside, and the filter screen 412 catches and filters the impurities in the rainwater.

In this case, the bridge platform is stacked on the trapezoidal pier support platform 110, and an installation block matching the coupling plate 150 is installed on its bottom, which snaps into the coupling plate 150 to form a wooden tenon snap-in structure, and the support bracket 511 is correspondingly installed on the foundation support plate 130 installed, the concave plate 515 protects the outside of the rectangular pillar pillar 120, in natural disasters such as earthquakes, the rectangular pillar pillar 120 is prevented from toppling, by buffering the second spring 510 on the side surface, the rectangular pillar pillar 120 is prevented from rapidly collapsing and tipping, and the second spring 510 maintains a safe distance from the ground.

It should be understood by those skilled in the art that the present invention is not limited to the details of the exemplary embodiments. Moreover, the present invention can be embodied in other detailed embodiments without departing from the spirit or essential characteristics of the present invention. Because of this, the embodiments should be considered as examples rather than limitations from every point of view. The scope of the present invention is defined by the claims rather than the description. Therefore, all changes that come within the meaning and scope of the equivalent terms of the claims are to be embraced within the scope of the present invention. Any reference signs in the claims shall not be construed as limiting the claims concerned.

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• CN 108589514B [0003]

Claims (8)

An easy-to-lift assembled bridge pier, characterized in that it comprises: a foundation support plate (130), the upper end of the foundation support plate (130) being engaged with a rectangular pier column (120) by a central alignment mechanism (200), and the upper end of the rectangular pillar column (120) engages a trapezoidal pillar support platform (110) by steel rods, and wherein at the upper end of the trapezoidal pillar support platform (110) a coupling plate (150) is fixedly installed, and wherein at the upper end of the foundation support plate (130) an anti-tilt mechanism (500) is installed by threads, and a suspension mechanism (300) is fixedly installed at the upper end of the trapezoidal pillar support platform (110), and a drainage mechanism (400) is provided inside the trapezoidal pillar support platform (110), and wherein inside the lower end the trapezoidal pier support platform (110) and inner slits (140) are uniformly provided on the surface of the trapezoidal pillar support platform (110) and the rectangular pillar pillar (120) respectively; a center alignment mechanism (200) having a chute #1 (210), a rectangular groove (211), and a

-shaped plate (212), wherein inside the

-shaped plate (212) the rectangular groove (211) is provided, and wherein inside the

-shaped plate (212), there are provided No. 1 chutes (210) provided in a number of 4, and inside the No. 1 chute (210) a carriage (215) is slidably installed, and inside of the carriage (215) a worm (218) is installed by threads, and an inclined rod (216) is fixedly installed at the upper end of the carriage (215), and on one side of the inclined rod (216) an alignment plate (217 ) is fixedly installed, and wherein a No. 2 bevel gear (220) is fixedly installed on one side of the worm (218), and a No. 1 bevel gear (219) is meshingly installed on one side of the worm (218), and wherein at the upper end of the bevel gear No. 1 (219) a rotating rod (213) is fixedly installed, and at four ends of the

-shaped plate (212), a fixed plate (214) is fixedly installed, and wherein the rotating rod (213) is rotatably connected to the fixed plate (214), and one side of the

-shaped plate (212) is firmly connected to one side of the foundation support plate (130). Easy to lift assembled bridge pier claim 1 , characterized in that a triangular groove (151) is provided on both sides of the coupling plate (150), wherein a clamping groove (152) is provided at the upper end of the coupling plate (150). Easy to lift assembled bridge pier claim 1 , characterized in that the suspension mechanism (300) comprises a hollow suspension ring (310), a fixing pad (311) and a chute #2 (312), inside the hollow suspension ring (310) the chute #2 (312) and wherein inside the No. 2 chute (312) a clamping plate (313) is slidably installed, and a connecting rod (316) is fixedly installed at the lower end of the clamping plate (313) and on the outside of the connecting rod (316) a first spring (315) is fitted, and wherein a hollow slot (317) is provided inside the connecting rod (316), and wherein an elastic piece (314) is fixedly installed inside the hollow slot (317), and wherein a limit block (318) is fixedly installed on both sides of the elastic piece (314), and one side of the connecting rod (316) is fixedly connected to one side of the trapezoidal pillar support platform (110). Easy to lift assembled bridge pier claim 3 , characterized in that a fixing pad (311) is fixedly installed on one side of the clamping plate (313), one side of the limit block (318) being an inclined surface and the other side being a plane. Easy to lift assembled bridge pier claim 1 , characterized in that the drainage mechanism (400) has a through groove (410), a funnel groove (411) and a filter screen (412), wherein at the upper end of the through groove (410) the funnel grooves (411) are uniformly provided, and wherein at the a connecting pipe (414) is fixedly installed at both ends of the through groove (410), and a bending pipe (413) is plug-installed on one side of the connecting pipe (414), and a valve (415) is installed on one side of the bending pipe (413) rotatably installed, and wherein the through groove (410) and the funnel groove (411) are provided inside the trapezoidal pillar supporting platform (110). Easy to lift assembled bridge pier claim 5 , characterized in that the filter screen (412) is installed embedded at the upper end of the funnel groove (411), wherein inside the filter screen (412) pores are uniformly provided. Easy to lift assembled bridge pier claim 1 , characterized in that the anti-tilt mechanism (500) comprises a second spring (510), a support bracket (511) and a hollow slide rod (512), on one side of the support bracket (511) each having a first annular plate (514) and a second annular plate (516) are fixedly installed, and inside of the first annular plate (514) and the second annular plate (516) the second spring (510) is fixedly installed, and wherein on one side of the second spring (510) a concave plate (515) is fixedly installed and one side of the support bracket (511) is threadedly connected to one side of the foundation support plate (130). Easy to lift assembled bridge pier claim 7 , characterized in that on one side of the first annular plate (514) and the second annular plate (516) the hollow slide rod (512) is fixedly installed, inside the hollow slide rod (512) a No. 1 rod (513) slidable is installed.

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