CN214401418U - Bridge beam slab handling frame convenient to adjust for bridge construction - Google Patents

Abstract

The utility model provides a bridge beam slab handling frame is used in bridge construction convenient to adjust, includes the handling frame body, this internal rotation of handling frame is connected with first dwang and second dwang, first cylinder of fixedly connected with and second cylinder on first dwang and the second dwang respectively, and first cylinder and second cylinder transmission are connected with same transmission band, this internal fixed mounting of handling frame has two baffles, and the transmission band passes two baffles, fixedly connected with die-pin between two baffles, and sliding connection has the regulating block on the die-pin, regulating block with transmission band fixed connection, the second slot hole has been seted up at the top of handling frame body, and the regulating block moves about in the second slot hole, the first vortex pole of fixedly connected with on the second dwang, one side of handling frame body is rotated and is connected with the third dwang. The utility model discloses simple structure, convenient to use removes the regulation about being convenient for, and is convenient for go up and down, makes things convenient for people to use.

Description

Bridge beam slab handling frame convenient to adjust for bridge construction

Technical Field

The utility model relates to a be convenient for remove and adjust bridge beam slab handling frame technical field, especially relate to a bridge is bridge beam slab handling frame for bridge construction convenient to adjust.

Background

The bridge is a conventional building, and a plurality of devices and devices related to the bridge are provided, wherein one of the devices and devices is a bridge beam slab operating frame. Bridge beam slab handling frame is used in bridge construction in the existing market, at the in-process that uses, be not convenient for adjust bridge beam slab handling frame is used in bridge construction to influenced the normal use of bridge beam slab handling frame is used in bridge construction, also reduced the work efficiency of bridge beam slab handling frame is used in bridge construction with this.

The existing bridge beam plate operating frame is inconvenient to move and adjust and has no better lifting function.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: the bridge beam and plate operating frame for bridge construction is convenient to adjust and aims to solve the problem that the existing bridge beam and plate operating frame is inconvenient to move and adjust and does not have a better lifting function.

The technical scheme of the utility model is that: a bridge beam plate operation frame convenient to adjust for bridge construction comprises an operation frame body, wherein a first rotating rod and a second rotating rod are connected in the operation frame body in a rotating mode, a first cylinder and a second cylinder are fixedly connected to the first rotating rod and the second rotating rod respectively, the first cylinder and the second cylinder are connected with a same transmission belt in a transmission mode, two partition plates are fixedly installed in the operation frame body, the transmission belt penetrates through the two partition plates, a supporting rod is fixedly connected between the two partition plates, an adjusting block is connected to the supporting rod in a sliding mode, the adjusting block is fixedly connected with the transmission belt, a second long hole is formed in the top of the operation frame body, the adjusting block moves in the second long hole, a first scroll rod is fixedly connected to the second rotating rod, a third rotating rod is rotatably connected to one side of the operation frame body, a first turbine is fixedly connected to one end of the third rotating rod, and the first turbine is meshed with the first scroll rod, the right side fixed mounting of handling frame body has first layer board, and fixed mounting has first motor on the first layer board, the output shaft and the third dwang fixed connection of first motor, the top fixed mounting of regulating block has the base, and the equal fixed mounting in top both ends of base has the support, the bottom fixed mounting of handling frame body has four support columns, and the bottom of four support columns all is equipped with the universal wheel, the base internal rotation is connected with the fourth dwang, the both ends of fourth dwang first bevel gear of fixedly connected with and second bevel gear respectively, fixedly connected with second worm on the fourth dwang.

Preferably, the top of base is rotated and is connected with the fifth dwang, the one end fixedly connected with second turbine of fifth dwang, and the second turbine meshes with the second worm, and the top fixed mounting of base has the second motor, and the output shaft and the fifth dwang fixed connection of second motor rotate respectively in two supports and are connected with first screw rod and second screw rod, and the one end of first screw rod and second screw rod passes two supports respectively and extends to in the base.

Preferably, one end of each of the first screw and the second screw is fixedly connected with a third bevel gear and a fourth bevel gear respectively, and the third bevel gear and the fourth bevel gear are meshed with the first bevel gear and the second bevel gear respectively.

Preferably, first slot holes are formed in one side of each of the two supports, lifting cylinders are connected to the first screw rods and the second screw rods in a threaded mode, first threaded holes are formed in one ends of the two lifting cylinders, and the two first threaded holes are matched with the first screw rods and the second screw rods respectively.

Preferably, the same lifting plate is fixedly connected between the two lifting cylinders, the lifting plate is movable in the first long hole, a fixed seat is fixedly mounted at the top of the lifting plate, a third screw rod is connected in the fixed seat in a rotating mode, and a first sliding rod is fixedly mounted in the fixed seat.

Preferably, the third screw is connected with two moving blocks in a threaded manner, the first slide bar is connected with two fixed rods in a sliding manner, and the two fixed rods are respectively fixedly connected with the two moving blocks.

Preferably, a second threaded hole is formed in one side of each of the two moving blocks, the two second threaded holes are matched with the third screw, a third long hole is formed in the top of the fixing seat, and the two fixing rods move in the third long hole.

Preferably, a spring seat is fixedly mounted in the fixing seat, a first spring is fixedly connected to the inner wall of the bottom of the spring seat, a spring plate is fixedly connected to one end of the first spring, two second sliding rods are fixedly connected to the inside of the fixing seat, and two ends of the spring plate are respectively connected with the two second sliding rods in a sliding manner.

Preferably, the inner wall of the top of the fixing seat is fixedly connected with a second spring, the second spring is matched with the spring plate, and the top of the spring plate is fixedly connected with a buffer column.

Preferably, a second supporting plate is fixedly mounted on the right side of the fixing seat, a third motor is fixedly mounted at the top of the second supporting plate, and an output shaft of the third motor is fixedly connected with the third screw rod.

Advantageous effects

1. According to the scheme, the first rotating rod, the second rotating rod, the first cylinder, the second cylinder, the transmission belt, the support rod, the adjusting block, the first scroll rod, the third rotating rod, the first motor and the first turbine are arranged, the output shaft of the first motor drives the third rotating rod to rotate, the third rotating rod drives the first scroll rod to rotate through the first turbine, the first scroll rod drives the second cylinder to rotate through the second rotating rod, the second cylinder drives the first cylinder to rotate through the transmission belt, the first cylinder drives the first rotating rod, and the transmission belt drives the adjusting block to slide on the support rod, so that the purpose of left-right movement adjustment is achieved;

2. according to the scheme, the fourth rotating rod, the first bevel gear, the second worm, the fifth rotating rod, the second turbine, the second motor, the first screw, the third bevel gear, the second screw, the fourth bevel gear, the two lifting cylinders and the lifting plate are arranged, the output shaft of the second motor drives the fifth rotating rod to rotate, the fifth rotating rod drives the second worm to rotate through the second turbine, the second worm drives the fourth rotating rod to rotate, the fourth rotating rod drives the first bevel gear and the second bevel gear to rotate, the first bevel gear and the second bevel gear drive the third bevel gear and the fourth bevel gear to rotate, the third bevel gear and the fourth bevel gear drive the first screw and the second screw to rotate, the first screw and the second screw drive the two lifting cylinders to move up and down, and the two lifting cylinders drive the lifting plate to move up and down, and the purpose of up-and-down lifting is achieved;

the utility model discloses simple structure, convenient to use removes the regulation about being convenient for, and is convenient for go up and down, makes things convenient for people to use.

Drawings

Fig. 1 is a schematic structural view of a bridge beam slab handling frame for bridge construction, which is provided by the utility model and is convenient to adjust;

fig. 2 is a schematic side view of a second scroll bar and a second turbine of the bridge beam slab handling frame for bridge construction, which is convenient to adjust according to the present invention;

fig. 3 is a schematic perspective view of an adjusting block of the bridge beam slab handling frame for bridge construction, which is convenient to adjust according to the present invention;

fig. 4 is a schematic perspective view of a lifting cylinder of a bridge beam slab handling frame for bridge construction, which is convenient to adjust according to the present invention;

fig. 5 is a schematic structural view of a part a of a bridge beam slab handling frame for bridge construction, which is convenient to adjust according to the present invention;

fig. 6 is the utility model provides a bridge construction is with bridge beam slab handling frame's B part schematic structure convenient to adjust.

In the figure: 1. an operation frame body; 2. a first rotating lever; 3. a second rotating lever; 4. a first cylinder; 5. a second cylinder; 6. a conveyor belt; 7. a partition plate; 8. a support rod; 9. an adjusting block; 10. a base; 11. a support; 12. a first scroll bar; 13. a third rotating rod; 14. a first motor; 15. a first turbine; 16. a fourth rotating rod; 17. a first bevel gear; 18. a second bevel gear; 19. a second scroll bar; 20. a fifth rotating rod; 21. a second turbine; 22. a second motor; 23. a first screw; 24. a third bevel gear; 25. a second screw; 26. a fourth bevel gear; 27. a lifting cylinder; 28. a lifting plate; 29. a first long hole; 30. a fixed seat; 31. a third screw; 32. a first slide bar; 33. a moving block; 34. fixing the rod; 35. a third motor; 36. a spring seat; 37. a first spring; 38. a spring plate; 39. a buffer column; 40. a second slide bar; 41. a second spring.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, but not all embodiments.

Example one

Referring to fig. 1-6, a bridge beam slab handling frame convenient for bridge construction, comprising a handling frame body 1, wherein a first rotating rod 2 and a second rotating rod 3 are rotatably connected to the handling frame body 1, the first rotating rod 2 and the second rotating rod 3 are respectively and fixedly connected with a first cylinder 4 and a second cylinder 5, the first cylinder 4 and the second cylinder 5 are in transmission connection with a same transmission belt 6, two partition plates 7 are fixedly installed in the handling frame body 1, the transmission belt 6 passes through the two partition plates 7, a support rod 8 is fixedly connected between the two partition plates 7, a regulating block 9 is slidably connected on the support rod 8, the regulating block 9 is fixedly connected with the transmission belt 6, a second long hole is formed in the top of the handling frame body 1, the regulating block 9 is movably arranged in the second long hole, a first scroll rod 12 is fixedly connected to the second rotating rod 3, a third rotating rod 13 is rotatably connected to one side of the handling frame body 1, first turbine 15 of one end fixedly connected with of third dwang 13, first turbine 15 and the meshing of first worm 12 mutually, the right side fixed mounting of handling frame body 1 has first layer board, fixed mounting has first motor 14 on the first layer board, first motor 14's output shaft and third dwang 13 fixed connection, the top fixed mounting of regulating block 9 has base 10, the equal fixed mounting in top both ends of base 10 has support 11, the bottom fixed mounting of handling frame body 1 has four support columns, the bottom of four support columns all is equipped with the universal wheel, the base 10 internal rotation is connected with fourth dwang 16, the first bevel gear 17 of fixed connection and second bevel gear 18 are distinguished at the both ends of fourth dwang 16, fixedly connected with second worm 19 on the fourth dwang 16.

In this embodiment, the top of base 10 is rotated and is connected with fifth dwang 20, the one end fixedly connected with second turbine 21 of fifth dwang 20, second turbine 21 meshes with second worm 19 mutually, the top fixed mounting of base 10 has second motor 22, the output shaft and the fifth dwang 20 fixed connection of second motor 22, rotate respectively in two supports 11 and be connected with first screw 23 and second screw 25, the one end of first screw 23 and second screw 25 passes two supports 11 respectively and extends to in the base 10.

In this embodiment, one end of the first screw 23 and one end of the second screw 25 are fixedly connected with a third bevel gear 24 and a fourth bevel gear 26, respectively, and the third bevel gear 24 and the fourth bevel gear 26 are engaged with the first bevel gear 17 and the second bevel gear 18, respectively.

In this embodiment, first slot hole 29 has all been seted up to one side of two supports 11, and equal threaded connection has a lift section of thick bamboo 27 on first screw 23 and the second screw 25, and first screw hole has all been seted up to the one end of two lift sections of thick bamboos 27, and two first screw holes cooperate with first screw 23 and second screw 25 respectively.

In this embodiment, the same lifting plate 28 is fixedly connected between the two lifting cylinders 27, the lifting plate 28 is movably disposed in the first long hole 29, a fixing seat 30 is fixedly mounted at the top of the lifting plate 28, a third screw 31 is rotatably connected in the fixing seat 30, and a first slide bar 32 is fixedly mounted in the fixing seat 30.

In this embodiment, two moving blocks 33 are connected to the third screw 31 through threads, two fixing rods 34 are connected to the first sliding rod 32 in a sliding manner, and the two fixing rods 34 are respectively fixedly connected to the two moving blocks 33.

In this embodiment, a second threaded hole is all opened at one side of two moving blocks 33, and two second threaded holes all cooperate with the third screw rod, and a third slot hole is opened at the top of fixing base 30, and two fixing rods 34 all move in the third slot hole.

In this embodiment, a spring seat 36 is fixedly installed in the fixed seat 30, a first spring 37 is fixedly connected to an inner wall of a bottom of the spring seat 36, a spring plate 38 is fixedly connected to one end of the first spring 37, two second sliding rods 40 are fixedly connected to the fixed seat 30, and two ends of the spring plate 38 are respectively connected to the two second sliding rods 40 in a sliding manner.

In this embodiment, the inner wall of the top of the fixing base 30 is fixedly connected with a second spring 41, the second spring 41 is matched with the spring plate 38, and the top of the spring plate 38 is fixedly connected with a buffer column 39.

In this embodiment, the right side of the fixing base 30 is fixedly provided with a second supporting plate, the top of the second supporting plate is fixedly provided with a third motor 35, and an output shaft of the third motor 35 is fixedly connected with the third screw 31.

Example two

Referring to fig. 1-6, a bridge beam slab handling frame convenient for bridge construction, comprising a handling frame body 1, a first rotating rod 2 and a second rotating rod 3 are rotatably connected to the handling frame body 1, the first rotating rod 2 and the second rotating rod 3 are respectively welded and connected with a first cylinder 4 and a second cylinder 5, the first cylinder 4 and the second cylinder 5 are in transmission connection with a same transmission belt 6, two partition plates 7 are welded and installed in the handling frame body 1, the transmission belt 6 passes through the two partition plates 7, a support rod 8 is welded and connected between the two partition plates 7, an adjusting block 9 is slidably connected on the support rod 8, the adjusting block 9 is welded and connected with the transmission belt 6, a second long hole is formed in the top of the handling frame body 1, the adjusting block 9 is movable in the second long hole, a first scroll rod 12 is welded and connected on the second rotating rod 3, one side of the handling frame body 1 is rotatably connected with a third rotating rod 13, one end welded connection of third dwang 13 has first turbine 15, first turbine 15 and the meshing of first worm 12 mutually, the right side welded mounting of handling frame body 1 has first layer board, welded mounting has first motor 14 on the first layer board, first motor 14's output shaft and third dwang 13 welded connection, the top welded mounting of regulating block 9 has base 10, the equal welded mounting in top both ends of base 10 has support 11, the bottom welded mounting of handling frame body 1 has four support columns, the bottom of four support columns all is equipped with the universal wheel, the base 10 internal rotation is connected with fourth dwang 16, there are first bevel gear 17 and second bevel gear 18 at the both ends of fourth dwang 16 welded connection respectively, welded connection has second worm 19 on the fourth dwang 16.

In this embodiment, the top of base 10 is rotated and is connected with fifth dwang 20, the one end welded connection of fifth dwang 20 has second turbine 21, second turbine 21 meshes with second worm 19 mutually, base 10's top welded mounting has second motor 22, second motor 22's output shaft and fifth dwang 20 welded connection, rotate respectively in two supports 11 and be connected with first screw 23 and second screw 25, the one end of first screw 23 and second screw 25 passes two supports 11 respectively and extends to in the base 10, second motor 22's output shaft can drive fifth dwang 20 and rotate.

In this embodiment, one end of each of the first screw 23 and the second screw 25 is connected to a third bevel gear 24 and a fourth bevel gear 26 by welding, the third bevel gear 24 and the fourth bevel gear 26 are engaged with the first bevel gear 17 and the second bevel gear 18, respectively, and the first bevel gear 17 and the second bevel gear 18 can drive the third bevel gear 24 and the fourth bevel gear 26 to rotate.

In this embodiment, first slot hole 29 has all been seted up to one side of two supports 11, and equal threaded connection has a lift section of thick bamboo 27 on first screw rod 23 and the second screw rod 25, and first screw hole has all been seted up to the one end of two lift sections of thick bamboos 27, and two first screw holes cooperate with first screw rod 23 and second screw rod 25 respectively, and first screw rod 23 and second screw rod 25 can drive two lift sections of thick bamboos 27 and reciprocate.

In this embodiment, the same lifting plate 28 is welded between the two lifting cylinders 27, the lifting plate 28 is movably disposed in the first long hole 29, a fixing seat 30 is welded to the top of the lifting plate 28, a third screw 31 is rotatably connected to the fixing seat 30, a first slide bar 32 is welded to the fixing seat 30, and the two lifting cylinders 27 can drive the lifting plate 28 to move up and down.

In this embodiment, two moving blocks 33 are connected to the third screw 31 through threads, two fixing rods 34 are connected to the first sliding rod 32 in a sliding manner, the two fixing rods 34 are respectively connected to the two moving blocks 33 in a welding manner, and the two moving blocks 33 can drive the two fixing rods 34 to approach or separate from each other.

In this embodiment, the second threaded holes are all opened at one side of the two moving blocks 33, the two second threaded holes are all matched with the third screw rod, the third long hole is opened at the top of the fixing seat 30, the two fixing rods 34 are all movable in the third long hole, and the spiral direction of the two second threaded holes is opposite to the spiral direction of the third screw rod.

In this embodiment, a spring seat 36 is welded in the fixed seat 30, a first spring 37 is welded on the inner wall of the bottom of the spring seat 36, one end of the first spring 37 is welded with a spring plate 38, two second sliding rods 40 are welded in the fixed seat 30, two ends of the spring plate 38 are respectively connected with the two second sliding rods 40 in a sliding manner, and the spring plate 38 can slide on the two second sliding rods 40.

In this embodiment, the inner wall of the top of the fixing seat 30 is welded with a second spring 41, the second spring 41 is matched with the spring plate 38, the top of the spring plate 38 is welded with a buffer column 39, and the buffer plate 39 can compress the first spring 37 through the spring plate 38.

In this embodiment, the second layer board is installed in the right side welding of fixing base 30, and third motor 35 is installed in the top welding of second layer board, and the output shaft and the third screw rod 31 welded connection of third motor 35, the output shaft of third motor 35 can drive third screw rod 31 and rotate.

When the device is used, when a beam plate is placed on the buffer column 39, the buffer column 39 is pressed to extrude the spring plate 38 and compress the first spring 37, meanwhile, the spring plate 38 vertically slides up and down on the two second slide bars 40, so as to achieve the purpose of buffering, the third motor 35 is started simultaneously, the output shaft of the third motor 35 drives the third screw 31 to rotate, the third screw 31 drives the two moving blocks 33 to approach or separate from each other, the two moving blocks 33 drive the two fixing bars 34 to approach each other and fix the beam plate, when left and right adjustment is needed, the first motor 14 is started, the output shaft of the first motor 14 drives the third rotating rod 13 to rotate, the third rotating rod 13 drives the first worm 12 to rotate through the first turbine 15, the first worm 12 drives the second cylinder 5 to rotate through the second rotating rod 3, the second cylinder 5 drives the first cylinder 4 to rotate through the transmission belt 6, the first cylinder 4 drives the first rotating rod 2, the transmission belt 6 drives the adjusting block 9 to slide on the supporting rod 8, so that the purpose of left-right movement adjustment can be achieved, when the up-down movement is needed, the second motor 22 is started, the output shaft of the second motor 22 drives the fifth rotating rod 20 to rotate, the fifth rotating rod 20 drives the second worm 19 to rotate through the second turbine 21, the second worm 19 drives the fourth rotating rod 16 to rotate, the fourth rotating rod 16 drives the first bevel gear 17 and the second bevel gear 18 to rotate, the first bevel gear 17 and the second bevel gear 18 drive the third bevel gear 24 and the fourth bevel gear 26 to rotate, the third bevel gear 24 and the fourth bevel gear 26 drive the first screw 23 and the second screw 25 to rotate, the first screw 23 and the second screw 25 drive the two lifting cylinders 27 to move up and down, and the two lifting cylinders 27 drive the lifting plate 28 to move up and down, so that the purpose of up-down movement can be achieved.

The above descriptions are only preferred embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to, replaced or changed.

Claims (10)

1. The utility model provides a bridge beam slab handling frame is used in bridge construction convenient to adjust, includes handling frame body (1), its characterized in that: the operation frame comprises an operation frame body (1), wherein a first rotating rod (2) and a second rotating rod (3) are rotationally connected in the operation frame body (1), a first cylinder (4) and a second cylinder (5) are fixedly connected on the first rotating rod (2) and the second rotating rod (3) respectively, the first cylinder (4) and the second cylinder (5) are in transmission connection with the same transmission belt (6), two partition plates (7) are fixedly installed in the operation frame body (1), the transmission belt (6) penetrates through the two partition plates (7), a supporting rod (8) is fixedly connected between the two partition plates (7), an adjusting block (9) is connected on the supporting rod (8) in a sliding manner, the adjusting block (9) is fixedly connected with the transmission belt (6), a second long hole is formed in the top of the operation frame body (1), the adjusting block (9) is movable in the second long hole, a first worm rod (12) is fixedly connected on the second rotating rod (3), one side of the operation frame body (1) is rotatably connected with a third rotating rod (13), one end of the third rotating rod (13) is fixedly connected with a first turbine (15), the first turbine (15) is meshed with the first worm (12), a first supporting plate is fixedly installed on the right side of the operation frame body (1), a first motor (14) is fixedly installed on the first supporting plate, an output shaft of the first motor (14) is fixedly connected with the third rotating rod (13), a base (10) is fixedly installed at the top of the adjusting block (9), supports (11) are fixedly installed at both ends of the top of the base (10), four supporting columns are fixedly installed at the bottom of the operation frame body (1), universal wheels are arranged at the bottoms of the four supporting columns, a fourth rotating rod (16) is rotatably connected in the base (10), and a first bevel gear (17) and a second bevel gear (18) are respectively fixedly connected at both ends of the fourth rotating rod (16), and a second scroll rod (19) is fixedly connected to the fourth rotating rod (16).

2. The bridge beam and slab handling frame convenient to adjust for bridge construction of claim 1, wherein: the top of base (10) is rotated and is connected with fifth dwang (20), one end fixedly connected with second turbine (21) of fifth dwang (20), second turbine (21) mesh mutually with second worm (19), the top fixed mounting of base (10) has second motor (22), the output shaft and the fifth dwang (20) fixed connection of second motor (22), it is connected with first screw rod (23) and second screw rod (25) to rotate respectively in two supports (11), the one end of first screw rod (23) and second screw rod (25) passes two supports (11) respectively and extends to base (10) in.

3. The bridge beam and slab handling frame convenient to adjust for bridge construction of claim 2, wherein: one end of each of the first screw (23) and the second screw (25) is fixedly connected with a third bevel gear (24) and a fourth bevel gear (26) respectively, and the third bevel gear (24) and the fourth bevel gear (26) are meshed with the first bevel gear (17) and the second bevel gear (18) respectively.

4. The bridge beam and slab handling frame convenient to adjust for bridge construction of claim 2, wherein: first slot hole (29) have all been seted up to one side of two supports (11), and equal threaded connection has a lift section of thick bamboo (27) on first screw rod (23) and second screw rod (25), and first screw hole has all been seted up to the one end of two lift sections of thick bamboos (27), and two first screw holes cooperate with first screw rod (23) and second screw rod (25) respectively.

5. The bridge beam and slab handling frame convenient to adjust for bridge construction of claim 4, wherein: the lifting device is characterized in that the same lifting plate (28) is fixedly connected between the two lifting cylinders (27), the lifting plate (28) is movable in the first long hole (29), a fixed seat (30) is fixedly mounted at the top of the lifting plate (28), a third screw rod (31) is rotatably connected in the fixed seat (30), and a first sliding rod (32) is fixedly mounted in the fixed seat (30).

6. The bridge beam and slab handling frame convenient to adjust for bridge construction of claim 5, wherein: the third screw rod (31) is in threaded connection with two moving blocks (33), the first sliding rod (32) is in sliding connection with two fixing rods (34), and the two fixing rods (34) are respectively and fixedly connected with the two moving blocks (33).

7. The bridge beam and slab handling frame convenient to adjust for bridge construction of claim 6, wherein: second threaded holes are formed in one sides of the two moving blocks (33), the two second threaded holes are matched with the third screw rod, a third long hole is formed in the top of the fixing seat (30), and the two fixing rods (34) are movable in the third long hole.

8. The bridge beam and slab handling frame convenient to adjust for bridge construction of claim 5, wherein: the spring seat (36) is fixedly mounted in the fixed seat (30), a first spring (37) is fixedly connected to the inner wall of the bottom of the spring seat (36), a spring plate (38) is fixedly connected to one end of the first spring (37), two second sliding rods (40) are fixedly connected in the fixed seat (30), and two ends of the spring plate (38) are respectively in sliding connection with the two second sliding rods (40).

9. The bridge beam and slab handling frame convenient to adjust for bridge construction of claim 5, wherein: the top inner wall of the fixed seat (30) is fixedly connected with a second spring (41), the second spring (41) is matched with the spring plate (38), and the top of the spring plate (38) is fixedly connected with a buffer column (39).

10. The bridge beam and slab handling frame convenient to adjust for bridge construction of claim 5, wherein: the right side fixed mounting of fixing base (30) has the second layer board, and the top fixed mounting of second layer board has third motor (35), the output shaft and third screw rod (31) fixed connection of third motor (35).

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