CN114481855A

CN114481855A - Support base capable of stably transferring bridge construction formwork

Info

Publication number: CN114481855A
Application number: CN202210231044.XA
Authority: CN
Inventors: 袁自娟
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-10
Filing date: 2022-03-10
Publication date: 2022-05-13

Abstract

The invention discloses a supporting base capable of stably transferring a bridge construction formwork, which comprises a supporting base, a pouring formwork, a support, a limiting frame, a motor, moving wheels and a guide rail, wherein an opening is vertically formed in the middle of the supporting base, the pouring formwork is arranged in the opening, telescopic mechanisms are respectively arranged on two sides above the opening, telescopic ends of the telescopic mechanisms are fixedly connected with the outer wall of the pouring formwork, the moving wheels are arranged on the side edge of the lower end face of the supporting base, and guide blocks are welded on the outer side of the pouring formwork below a lifting block. This can carry out support base that stably shifts to bridge construction die carrier compares with current bridge pouring die carrier, through setting up corresponding mobilizable support base, pours the shaping at the bridge and accomplishes the back, can carry out both sides to the die carrier and open to shift to the die carrier, reduced the dismantlement of die carrier and assemble the step once more, improve concatenation efficiency.

Description

Support base capable of stably transferring bridge construction formwork

Technical Field

The invention relates to the technical field of bridge construction formwork, in particular to a support base capable of stably transferring a bridge construction formwork.

Background

Before the bridge pillars are poured, a pouring mold frame needs to be erected at the position where the bridge pillars are poured, so that the poured concrete is shaped and solidified, and the bridge pillars with designed shapes are poured, for example, the application number of a comparison document 1 is as follows: CN201821594052.6, date of authorized announcement: 20190903A prefabricated bridge die carrier of T type, including side die carrier, end die carrier and end die carrier, the side die carrier includes two side bearer, and two side bearer are installed in the both sides of end die carrier, and the side bearer includes locking frame and side guide, and the side guide is with the side adaptation of the prefabricated bridge of T type, and the locking frame is a plurality of and evenly sets up along the length direction of side guide, and the locking frame includes support and locking plate, and the support links to each other with the side guide, and the support top is equipped with a draw-in groove, and the locking plate is pegged graft in the draw-in groove and links to each other with the support articulated formula. It has mainly been solved the locking plate and has linked to each other through the pivot articulated formula with the support, can effectively avoid strengthening rib density higher and locking plate to interfere, but it when using, has following problem:

1. the existing bridge construction formwork needs to be spliced and fixed before each bridge pillar is poured, needs to be disassembled again after pouring is finished, and is transferred to the next pouring station for splicing and pouring again, so that time and labor are consumed;

2. meanwhile, after the pouring is completed every time, the formwork needs to be dismantled, the splicing precision of the formwork is influenced, and the accurate pouring of the bridge strut is not facilitated.

Disclosure of Invention

The invention aims to provide a support base capable of stably transferring a bridge construction formwork, and aims to solve the problems that the existing bridge construction formwork in the market proposed by the background technology needs to be spliced and fixed before each bridge pillar is poured, needs to be disassembled again after the pouring is finished, needs to be transferred to the next pouring station for splicing and pouring again, is time-consuming and labor-consuming, and is not favorable for the accurate pouring of the bridge pillars because the formwork needs to be disassembled after each pouring is finished, so that the splicing precision of the formwork is influenced.

In order to achieve the purpose, the invention provides the following technical scheme: a supporting base capable of stably transferring a bridge construction formwork comprises a supporting base, a pouring formwork, a support, a limiting frame, a motor, a moving wheel and a guide rail, wherein an opening is vertically formed in the middle of the supporting base, the pouring formwork is arranged in the opening, telescopic mechanisms are respectively arranged on two sides above the opening, telescopic ends of the telescopic mechanisms are fixedly connected with the outer wall of the pouring formwork, the moving wheel is arranged on the side of the lower end face of the supporting base, a rotating shaft on the moving wheel is connected with the motor on the side edge of the supporting base, the guide rail is arranged below the moving wheel, the supporting wheel is arranged on the lower end face of the supporting base on the inner side of the moving wheel, splicing blocks for bolt butt joint are welded at the upper end and the lower end of a frame of the pouring formwork, a lifting block connected with a lifting rope is welded on the outer side of the pouring formwork at the top end, and a guide block is welded on the outer side of the pouring formwork below the lifting block, the guide block corresponds the setting with the inboard guide way of spacing, the lower extreme of spacing is equipped with the support, opening one side the welding of formwork frame middle part is pour to the die carrier, the welding of opening opposite side the welding of formwork frame middle part is pour to the die carrier frame have with the first butt joint piece that the butt joint cover corresponds the setting.

Furthermore, the inside welding of butt joint cover has the second butt joint piece with the butt joint of first butt joint piece, the second butt joint piece outer end butt joint cover is inside to be connected with the toothed disc through the pivot that resets, the outside integrated into one piece of toothed disc has the chucking frame that is used for fixing first butt joint piece, the inboard of chucking frame outer end is equipped with the press head.

Furthermore, the outer end of the first butt joint block is provided with a stirring frame connected with the gear disc in a meshed mode, the outer side of the first butt joint block is provided with a pressing hole correspondingly formed in the pressing head, a butt joint rod capable of moving transversely is arranged inside the pressing hole, the outer end of the butt joint rod corresponds to the butt joint hole in the second butt joint block, and the upper portion of the outer end of the butt joint rod is arranged in an inclined mode.

Furthermore, the upper portion of butt joint hole is equipped with and accomodates the groove, the inside of accomodating the groove is equipped with vertically movable locking lever, the lower extreme of locking lever with the lockhole of seting up on the butt joint pole corresponds the setting, the locking lever lower extreme is located one side of pressing the hole is the slope form setting.

Further, the opening is inboard the lowest end the mounting groove has been seted up in the outside of pouring the die carrier, the inside of mounting groove is equipped with the bottom shrouding that can reciprocate, the upper end welding of bottom shrouding has the connecting rod, the interlude of connecting rod is in the anticreep hole on mounting groove upper portion, the lower part of bottom shrouding is equipped with the fixed orifices.

Further, the welding of the inside wall of the formwork of pouring has a carriage, the inside wall slope column structure of carriage, the carriage top is equipped with the fixed frame of reinforcing bar.

Furthermore, the inner wall department of carriage has seted up the spigot, the spigot with the guide block of the fixed frame lower part of reinforcing bar corresponds the setting, it is inboard to pour the die carrier the internal diameter of carriage from last to degressive in proper order down.

Further, one side welding of the fixed frame inner wall of reinforcing bar has first linking arm, the opposite side welding of the fixed frame inner wall of reinforcing bar has the second linking arm, first linking arm with all run through on the second linking arm and be equipped with the through hole.

Furthermore, the outer end of the first connecting arm is integrally formed with a butt-joint column, the outer end of the butt-joint column is inserted into the adjusting hole formed in the end part of the second connecting arm, an adjusting groove is formed in the upper end face of the butt-joint column, and a screw corresponding to the adjusting groove is connected to the second connecting arm in a threaded manner.

Compared with the prior art, the invention has the beneficial effects that: compared with the existing bridge pouring formwork, the supporting base capable of stably transferring the bridge construction formwork can open two sides of the formwork and transfer the formwork after the bridge pouring molding is finished by arranging the corresponding movable supporting base, so that the disassembling and re-assembling steps of the formwork are reduced, and the splicing efficiency is improved;

1. the bottom of the pouring die carrier is provided with a supporting base, the inner side of the supporting base is connected with the pouring die carrier through a telescopic mechanism, the pouring die carrier can be unfolded towards two sides, and the supporting base is combined with the limiting frame, when the supporting base drives the pouring die carrier to move, a guide groove in the inner side of the limiting frame is limited by a guide block on the upper portion of the pouring die carrier, the unfolded movement of the pouring die carrier is realized, meanwhile, two sides of the top of the pouring die carrier are provided with lifting blocks, the lifting blocks can limit the movement of the pouring die carrier, and the telescopic mechanism can be a hydraulic rod, an electric telescopic rod or other devices capable of achieving the telescopic function as well;

2. the middle parts of the frames of the two pouring die frames are respectively provided with a butt joint sleeve and a first butt joint block, a second butt joint block in butt joint with the first butt joint block is welded inside the butt joint sleeve, a gear disc is arranged inside the butt joint sleeve through a reset rotating shaft, the effect of matching and connecting with a poking frame connected with the outer end of the first butt joint block is achieved, the rotation of a clamping frame is controlled through the gear disc, a pressing head is arranged on the inner side of the outer end of the clamping frame, the purpose of pushing a butt joint rod in a pressing hole on the first butt joint block is achieved, the butt joint rod is in butt joint with a lock hole through a lock rod, and the butt joint rod is locked with a butt joint hole in the second butt joint block;

3. the supporting frame with the inclined inner side wall is welded on the inner side wall of the pouring die set, the effect of supporting the reinforcing steel bar fixing frame is achieved, the inner diameter of the supporting frame on the inner side of the pouring die set is gradually decreased from top to bottom, the distance between two side edges of the reinforcing steel bar fixing frame is controlled by adjusting the distance between the first connecting arm and the second connecting arm on the inner side of the reinforcing steel bar fixing frame, and accordingly fixing of the reinforcing steel bar fixing frame at the corresponding supporting frame is achieved.

Drawings

Fig. 1 is a schematic front view of a support base and a pouring formwork of a support base for stably transferring a bridge construction formwork according to the present invention;

FIG. 2 is a schematic side view of a supporting base and a pouring formwork of the supporting base for stably transferring a bridge construction formwork according to the present invention;

fig. 3 is a schematic view of an expanded structure of a pouring formwork of a support base capable of stably transferring a bridge construction formwork according to the present invention;

fig. 4 is an enlarged structural view of a point a in fig. 1 of a support base capable of stably transferring a bridge construction formwork according to the present invention;

fig. 5 is an enlarged structural view of a point B in fig. 2 of a support base capable of stably transferring a bridge construction formwork according to the present invention;

FIG. 6 is a schematic view of a closed-state top-cut structure of a casting formwork of a support base capable of stably transferring a bridge construction formwork according to the present invention;

fig. 7 is an enlarged structural view of point C in fig. 6 of a support base capable of stably transferring a bridge construction formwork according to the present invention;

fig. 8 is an enlarged structural view of point D in fig. 7 of a support base capable of stably transferring a bridge construction formwork according to the present invention;

FIG. 9 is a schematic view of a top-cut structure of a support base for stably transferring a bridge construction formwork in an unfolded state of the casting formwork according to the present invention;

fig. 10 is an enlarged structural view of point E in fig. 9 of a support base for stably transferring a bridge construction formwork according to the present invention;

FIG. 11 is a schematic side sectional view of a support base for stably transferring a bridge construction formwork according to the present invention, shown in FIG. 1;

fig. 12 is an enlarged structural view of point F in fig. 11 of a support base for stably transferring a bridge construction formwork according to the present invention;

fig. 13 is a schematic structural view of a connecting frame of a support base capable of stably transferring a bridge construction formwork according to the present invention;

fig. 14 is an enlarged structural view of point G in fig. 13 of a support base capable of stably transferring a bridge construction formwork according to the present invention;

fig. 15 is a schematic sectional view showing a structure of a first connecting arm, a second connecting arm and a second butting block of a supporting base for stably transferring a bridge construction formwork according to the present invention;

fig. 16 is a schematic structural view of a pouring formwork and a bottom closing plate of a support base for stably transferring a bridge construction formwork according to the present invention;

fig. 17 is a schematic side sectional view of a pouring formwork and a bottom closure plate of a support base capable of stably transferring a bridge construction formwork according to the present invention.

In the figure: 1. a support base; 2. a telescoping mechanism; 3. pouring a mold frame; 4. a support; 5. a limiting frame; 6. a guide groove; 7. a motor; 8. a moving wheel; 9. a guide rail; 10. mounting grooves; 11. a bottom closing plate; 12. a connecting rod; 13. anti-drop holes; 14. a support wheel; 15. butting sleeves; 16. splicing blocks; 17. lifting the block; 18. a guide block; 19. a first butt joint block; 20. an opening; 21. a clamping frame; 22. resetting the rotating shaft; 23. a gear plate; 24. an adjustment groove; 25. a second butting block; 26. a pressing head; 27. pressing the hole; 28. a docking rod; 29. a butt joint hole; 30. a lock lever; 31. a receiving groove; 32. a lock hole; 33. a support frame; 34. a guide port; 35. fixing the steel bars; 36. a first connecting arm; 37. a second connecting arm; 38. an adjustment hole; 39. a fixing hole; 40. perforating holes; 41. a toggle frame; 42. a guide block; 43. a screw; 44. and (4) butting the columns.

Detailed Description

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-10;

example 1

A supporting base capable of stably transferring a bridge construction formwork comprises a supporting base (1), wherein an opening 20 is vertically formed in the middle of the supporting base 1, a pouring formwork 3 is arranged inside the opening 20, telescopic mechanisms 2 are respectively arranged on two sides above the opening 20, telescopic ends of the telescopic mechanisms 2 are fixedly connected with the outer wall of the pouring formwork 3, a moving wheel 8 is arranged on the side of the lower end face of the supporting base 1, a rotating shaft on the moving wheel 8 is connected with a motor 7 on the side edge of the supporting base 1, a guide rail 9 is arranged below the moving wheel 8, a supporting wheel 14 is arranged on the lower end face of the supporting base 1 on the inner side of the moving wheel 8, splicing blocks 16 for bolt butt joint are welded at the upper end and the lower end of the frame of the pouring formwork 3, a lifting block 17 connected with a lifting rope is welded on the outer side of the pouring formwork 3 at the top end, a guide block 18 is welded on the outer side of the pouring formwork 3 below the lifting block 17, the guide block 18 corresponds to a guide groove 6 on the inner side of a limiting frame 5, the lower end of the limiting frame 5 is provided with a support 4, the middle part of the frame of the pouring die carrier 3 at one side of the opening 20 is welded with a butt joint sleeve 15, the middle part of the frame of the pouring die carrier 3 at the other side of the opening 20 is welded with a first butt joint block 19 corresponding to the butt joint sleeve 15, the inside of the butt joint sleeve 15 is welded with a second butt joint block 25 butt jointed with the first butt joint block 19, the inside of the butt joint sleeve 15 at the outer end of the second butt joint block 25 is connected with a gear disc 23 through a reset rotating shaft 22, the outside of the gear disc 23 is integrally formed with a clamping frame 21 for fixing the first butt joint block 19, the inner side of the outer end of the clamping frame 21 is provided with a pressing head 26, the outer end of the first butt joint block 19 is provided with a toggle frame 41 engaged and connected with the gear disc 23, the outer side of the first butt joint block 19 is provided with a pressing hole 27 corresponding to the pressing head 26, the inside of the pressing hole 27 is provided with a butt joint rod 28 capable of moving transversely, the outer end of the butt joint rod 28 is arranged corresponding to a butt joint hole 29 on the second butt joint block 25, the outer end upper portion of butt joint pole 28 is the slope form setting, the upper portion of butt joint hole 29 is equipped with accomodates groove 31, the inside of accomodating groove 31 is equipped with vertically movable locking lever 30, the lower extreme of locking lever 30 corresponds the setting with the lockhole 32 of seting up on the butt joint pole 28, one side that locking lever 30 lower extreme is located pressing hole 27 is the slope form setting, through the setting of support base 1, can realize launching and removing two die carrier 3 of pouring after accomplishing, make things convenient for subsequent pouring work, simultaneously, through set up corresponding butt joint cover 15 and first butt joint piece 19 on two die carrier 3 of pouring, realize two and pour the preliminary fixings between the die carrier 3.

As shown in fig. 6 and 11-15;

example 2

The difference between the embodiment and embodiment 1 is that a supporting frame 33 is welded on the inner side wall of a casting mold frame 3, the inner side wall of the supporting frame 33 is of an inclined structure, a reinforcing steel bar fixing frame 35 is arranged above the supporting frame 33, a guide port 34 is formed in the inner wall of the supporting frame 33, the guide port 34 is arranged corresponding to a guide block 42 at the lower part of the reinforcing steel bar fixing frame 35, the inner diameter of the supporting frame 33 inside the casting mold frame 3 is gradually decreased from top to bottom, a first connecting arm 36 is welded on one side of the inner wall of the reinforcing steel bar fixing frame 35, a second connecting arm 37 is welded on the other side of the inner wall of the reinforcing steel bar fixing frame 35, through holes 40 are respectively formed in the first connecting arm 36 and the second connecting arm 37, a docking post 44 is integrally formed at the outer end of the first connecting arm 36, the outer end of the docking post 44 is inserted into an adjusting hole 38 formed at the end of the second connecting arm 37, an adjusting groove 24 is formed at the upper end surface of the docking post 44, a screw 43 corresponding to the adjusting groove 24 is connected to the second connecting arm 37 by a screw thread, through the fixed frame 35 of the reinforcing bar that sets up variable frame size, play the purpose of installing with the internal diameter from last to descending braced frame 33 cooperation in proper order, reach the spacing fixed to the reinforcing bar.

As shown in fig. 16-17;

example 3

The difference between this embodiment and embodiment 1 is, mounting groove 10 has been seted up in the inboard outside of pouring die carrier 3 of lower extreme of opening 20, the inside of mounting groove 10 is equipped with the bottom shrouding 11 that can reciprocate, the upper end welding of bottom shrouding 11 has connecting rod 12, the anticreep hole 13 on mounting groove 10 upper portion of interlude of connecting rod 12, the lower part of bottom shrouding 11 is equipped with fixed orifices 39, through setting up the bottom shrouding 11 that can reciprocate, after pouring die carrier 3 butt joint finishes, realize pouring the sealed of clearance department between 3 bottoms of die carrier and the ground, avoid when pouring, concrete slurry's revealing.

The working principle is as follows: when the support base capable of stably transferring the bridge construction formwork is used, as shown in fig. 3-4, a telescopic mechanism 2 at the inner side of the support base 1 pulls 2 casting formwork 3 outwards, a hoisting device tightens the 2 casting formwork 3 through a hoisting rope and a hoisting block 17, the support base 1 moves on a guide rail 9 through a moving wheel 8 at the bottom of the support base, moves the 2 casting formwork 3 to the next casting point, in the moving process of the 2 casting formwork 3, a guide block 18 at the outer side of the 2 casting formwork 3 slides in a guide groove 6 at the inner side of a limiting frame 5 to prevent the 2 casting formwork 3 from shaking, after the 2 casting formwork 3 moves to the casting point, as shown in fig. 1-10, the telescopic mechanism 2 at the inner side of the support base 1 pushes the 2 casting formwork 3 inwards, the 2 casting formwork 3 is contacted, namely, a first butt joint block 19 on one side casting formwork 3 enters a butt joint sleeve 15 on the other side casting formwork 3, and contacts with the second butt joint block 25 in the butt joint sleeve 15, in the process, the toggle frame 41 at the outer end of the first butt joint block 19 is meshed with the gear disc 23 in the butt joint sleeve 15, the gear disc 23 drives the clamping frame 21 at the outer end to rotate, the pressing head 26 in the clamping frame 21 enters the pressing hole 27 on the first butt joint block 19, the butt joint rod 28 in the pressing hole 27 is pushed by the pressing head 26 to compress the spring in the clamping frame and enter the butt joint hole 29 in the second butt joint block 25, in the process that the butt joint rod 28 enters the butt joint hole 29, the inclined end at the end part of the butt joint rod 28 contacts with the inclined end at the lower end of the locking rod 30 in the butt joint hole 29 and squeezes the locking rod 30 into the accommodating groove 31, when the locking hole 32 on the butt joint rod 28 moves to be right below the locking rod 30, the lower end of the locking rod 30 enters the locking hole 32 on the butt joint rod 28 under the pushing of the spring in the accommodating groove 31, further fixing the butt-joint rods 28, further pre-limiting 2 casting mould frames 3, and finally fixing the casting mould frames through the splicing blocks 16;

after the pouring mold frame 3 is fixed, as shown in fig. 6 and fig. 11-15, the distance between the two side frames of the corresponding reinforcing steel bar fixing frame 35 is adjusted according to the inner diameter of the supporting frame 33 inside the pouring mold frame 3 from top to bottom, that is, the two side frames of the reinforcing steel bar fixing frame 35 are pressed inward, so that the docking post 44 on the first connecting arm 36 inside the reinforcing steel bar fixing frame 35 moves in the adjusting hole 38 inside the second connecting arm 37, the distance of the docking post 44 is observed through the scale mark on the docking post 44, after the inner diameter of the supporting frame 33 corresponding to the inside of the pouring mold frame 3 is moved, the screw 43 on the second connecting arm 37 is screwed, the screw 43 abuts against the adjusting groove 24 on the docking post 44, so as to adjust the distance between the two side frames of the reinforcing steel bar fixing frame 35, and the rest of the reinforcing steel bar fixing frames 35 are adjusted according to the inner diameter of the corresponding supporting frame 33 inside the pouring mold frame 3 according to the corresponding steps, after the adjustment is finished, the steel bars are vertically placed into the pouring die set 3, the steel bar pressing fixing frames 35 are placed into the pouring die set 3 according to the sizes of the corresponding supporting frames 33, namely, the penetrating holes 40 in the first connecting arms 36 and the second connecting arms 37 on the inner sides of the bottom steel bar pressing fixing frames 35 are sleeved on the steel bars, the guide blocks 42 at the lower parts of the steel bar pressing fixing frames 35 are aligned with the guide ports 34 on the supporting frames 33, the steel bar pressing fixing frames 35 slide down into the pouring die set 3, the supporting frames 33 corresponding to the bottom of the pouring die set 3 drag the steel bar pressing fixing frames 35, and at the moment, the steel bar pressing fixing frames 35 with the rest sizes are placed into the pouring die set 3 according to the same steps and are in contact with the corresponding supporting frames 33 in the pouring die set 3;

after the fixing frame 35 of the reinforcing bar is installed, as shown in fig. 1 and fig. 16-17, the upper connecting rod 12 of the bottom sealing plate 11 is inserted into the anti-falling hole 13 on the lower mounting groove 10 of the casting formwork 3, and the bottom of the bottom sealing plate 11 is contacted with the ground, then the bolt in the fixing hole 39 on the bottom sealing plate 11 is screwed, the bolt tightly pushes the lower part of the mounting groove 10 through the bottom sealing plate 11, and the limiting of the connecting rod 12 is combined, so that the gap between the casting formwork 3 and the ground can be sealed, and finally, the casting can be performed from the top of the casting formwork 3.

It should be understood that the terms "central," "longitudinal," "transverse," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, that the present invention is used with reference to the particular orientation or position shown in the drawings, that the standard components used in the present invention are commercially available, that the specific components are custom-made from the specification and drawings, that the specific connections between the various components are made by conventional means such as bolts, rivets, welding, etc., that the machines, components and devices are well known in the art, the conventional model, together with the circuit connections, are conventional in the art and will not be described in detail here.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes, modifications, equivalents, and improvements may be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a can stabilize support base that shifts to bridge construction die carrier, includes support base (1), pours die carrier (3), support (4), spacing (5), motor (7), removes wheel (8) and guide rail (9), its characterized in that: an opening (20) is vertically formed in the middle of the supporting base (1), a pouring die set (3) is arranged inside the opening (20), telescopic mechanisms (2) are respectively arranged on two sides above the opening (20), the telescopic ends of the telescopic mechanisms (2) are fixedly connected with the outer wall of the pouring die set (3), a moving wheel (8) is arranged on the side of the lower end face of the supporting base (1), a rotating shaft on the moving wheel (8) is connected with a motor (7) on the side edge of the supporting base (1), a guide rail (9) is arranged below the moving wheel (8), a supporting wheel (14) is arranged on the lower end face of the supporting base (1) on the inner side of the moving wheel (8), splicing blocks (16) for bolt butt joint are welded at the upper end and the lower end of the frame of the pouring die set (3), a lifting block (17) connected with a lifting rope is welded at the outer side of the pouring die set (3) at the top end, the welding of the outside of pouring die carrier (3) of lifting by crane piece (17) below has guide block (18), guide block (18) correspond the setting with guide way (6) of spacing (5) inboard, the lower extreme of spacing (5) is equipped with support (4), opening (20) one side the welding of pouring die carrier (3) frame middle part has butt joint cover (15), opening (20) opposite side the welding of pouring die carrier (3) frame middle part have with first butt joint piece (19) that butt joint cover (15) correspond the setting.

2. The support base capable of stably transferring the bridge construction formwork according to claim 1, wherein: the inside welding of butt joint cover (15) has second butt joint piece (25) with first butt joint piece (19) butt joint, second butt joint piece (25) outer end butt joint cover (15) are inside to be connected with toothed disc (23) through pivot (22) that resets, the outside integrated into one piece of toothed disc (23) has and is used for chucking frame (21) fixed to first butt joint piece (19), the inboard of chucking frame (21) outer end is equipped with press head (26).

3. The support base capable of stably transferring the bridge construction formwork according to claim 2, wherein: the outer end of first butt joint piece (19) be equipped with dial frame (41) that gear disc (23) meshing is connected, the outside of first butt joint piece (19) seted up with press head (26) correspond press hole (27) that set up, the inside of pressing hole (27) is provided with but lateral shifting's butt joint pole (28), the outer end of butt joint pole (28) with butt joint hole (29) on second butt joint piece (25) correspond the setting, the outer end upper portion of butt joint pole (28) is the slope form setting.

4. The support base capable of stably transferring the bridge construction formwork according to claim 3, wherein: the upper portion of butt joint hole (29) is equipped with and accomodates groove (31), the inside of accomodating groove (31) is equipped with vertically movable locking lever (30), the lower extreme of locking lever (30) with lockhole (32) of seting up on butt joint pole (28) correspond the setting, locking lever (30) lower extreme is located press one side of hole (27) to set up for the slope form.

5. The support base capable of stably transferring the bridge construction formwork according to claim 1, wherein: opening (20) inboard lower extreme mounting groove (10) have been seted up in the outside of pouring die carrier (3), the inside of mounting groove (10) is equipped with bottom shrouding (11) that can reciprocate, the upper end welding of bottom shrouding (11) has connecting rod (12), the interlude of connecting rod (12) is in anticreep hole (13) on mounting groove (10) upper portion, the lower part of bottom shrouding (11) is equipped with fixed orifices (39).

6. The support base capable of stably transferring the bridge construction formwork according to claim 1, wherein: the inner wall welding of pouring die carrier (3) has carriage (33), the inside wall slope column structure of carriage (33), carriage (33) top is equipped with the fixed frame of reinforcing bar (35).

7. The support base capable of stably transferring the bridge construction formwork according to claim 6, wherein: guide opening (34) have been seted up to the inner wall department of carriage (33), guide opening (34) with guide block (42) of the fixed frame of reinforcing bar (35) lower part correspond the setting, it is inboard to pour die carrier (3) the internal diameter of carriage (33) is from last to degressive in proper order down.

8. The support base capable of stably transferring the bridge construction formwork according to claim 7, wherein: the welding of one side of the fixed frame of reinforcing bar (35) inner wall has first linking arm (36), the welding of the opposite side of the fixed frame of reinforcing bar (35) inner wall has second linking arm (37), first linking arm (36) with all run through on second linking arm (37) and be equipped with through-going hole (40).

9. The support base capable of stably transferring the bridge construction formwork according to claim 8, wherein: the outer end of the first connecting arm (36) is integrally formed with a butt column (44), the outer end of the butt column (44) is inserted into an adjusting hole (38) formed in the end of the second connecting arm (37), an adjusting groove (24) is formed in the upper end face of the butt column (44), and a screw (43) correspondingly arranged with the adjusting groove (24) is connected to the second connecting arm (37) in a threaded mode.