CN210763959U - Diagonal prestressed reinforcement type crane crossbeam - Google Patents

Abstract

The utility model relates to a draw prestressing force strengthening rib formula hoist crossbeam to one side, the internal 1 group of crossbeam roof beam, 2 groups or multiunit prestressing force strengthening ribs that are equipped with of crossbeam roof beam, every group prestressing force strengthening rib comprises 6 prestressing force strengthening ribs, be located on the cross section of crossbeam roof beam body, first prestressing force strengthening rib, the slant of second prestressing force strengthening rib is symmetrical to be set up, third prestressing force strengthening rib, the slant of fourth prestressing force strengthening rib is symmetrical to be set up, the lower extreme of first prestressing force strengthening rib and second prestressing force strengthening rib is connected fixedly, be connected through the fifth strengthening rib that transversely sets up between third prestressing force strengthening rib lower extreme and the first prestressing force strengthening rib lower extreme, be connected through the sixth strengthening rib that transversely sets up between fourth prestressing force strengthening rib lower extreme and the second prestressing force strengthening rib lower extreme; the upper ends of the first prestressed reinforcing rib to the fourth prestressed reinforcing rib are respectively fixed with the upper part of the side surface of the beam body of the cross beam; and the fifth prestressed reinforcing rib and the sixth prestressed reinforcing rib are fixed with the bottom of the beam body of the cross beam.

Description

Diagonal prestressed reinforcement type crane crossbeam

Technical Field

The utility model relates to a draw prestressing force strengthening rib formula hoist crossbeam to one side.

Background

The crane is also called a traveling crane, a gantry crane and a crown block, and is indispensable hoisting equipment in factories. In use, the span of the crane beam cannot be too large, otherwise the beam is prone to bending. With the development of science and technology, the more the plant span is built, the more the span of the crane is required to be increased. The crane span increases, and the longitudinal section of crane crossbeam needs corresponding increase, guarantees crane crossbeam intensity. If the span of the cross beam is increased, the longitudinal section of the cross beam is not enlarged, the cross beam can sink when a heavy object is lifted by the crane, and the cross beam of the crane deforms or even breaks seriously.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a draw prestressing force rib formula crane crossbeam to one side can effectively improve the intensity of crane crossbeam.

The technical scheme for realizing the purpose of the utility model is as follows:

the utility model provides a draw structural formula hoist crossbeam to one side, has crossbeam roof beam body (1), its characterized in that: the beam body (1) is internally provided with 1 group, 2 groups or a plurality of groups of prestress reinforcing structures, each group of prestress reinforcing structures consists of 6 prestress reinforcing structures and is positioned on the cross section of the beam body (1), the device comprises a first prestress reinforcing structure (31), a second prestress reinforcing structure (32), a third prestress reinforcing structure (33) and a fourth prestress reinforcing structure (34), wherein the first prestress reinforcing structure and the second prestress reinforcing structure (32) are obliquely and symmetrically arranged, the lower ends of the first prestress reinforcing structure (31) and the second prestress reinforcing structure (32) are fixedly connected, the lower end of the third prestress reinforcing structure (33) is connected with the lower end of the first prestress reinforcing structure (31) through a transversely arranged fifth reinforcing rib (35), and the lower end of the fourth prestress reinforcing structure (34) is connected with the lower end of the second prestress reinforcing structure (32) through a transversely arranged sixth prestress reinforcing structure (36); the upper ends of the first prestress reinforcing structure (31), the second prestress reinforcing structure (32), the third prestress reinforcing structure (33) and the fourth prestress reinforcing structure (34) are respectively fixed with the upper part of the side surface of the beam body (1); the fifth prestress reinforcing structure (35) and the sixth prestress reinforcing structure (36) are fixed with the bottom of the beam body (1).

Further, the planes of the groups of prestressed reinforcement structures are parallel to each other.

Furthermore, in each group of prestress reinforcing structures, a first prestress reinforcing structure (31), a second prestress reinforcing structure (32), a third prestress reinforcing structure (33) and a fourth prestress reinforcing structure (34) are fixed with the upper part of the side surface of the beam body (1) through a prestress tensioning device (2), and the upper part of the side surface of the beam body (1) is correspondingly provided with a connecting hole.

Furthermore, in each group of prestressed reinforcement structures, a third prestressed reinforcement structure (33), a fourth prestressed reinforcement structure (34), a fifth prestressed reinforcement structure (35) and a sixth prestressed reinforcement structure (36) are integrated, the prestressed reinforcement structures penetrate through the first pulling plate (6), the second pulling plate (7) and the third pulling plate (8) and are folded into a V shape, the folded two sides form the third prestressed reinforcement structure (33) and the fourth prestressed reinforcement structure (34), the transverse edge between the first pulling plate (6) and the second pulling plate (7) forms the fifth prestressed reinforcement structure (35), and the transverse edge between the second pulling plate (7) and the third pulling plate (8) forms the sixth prestressed reinforcement structure (36); fifth prestressing force additional strengthening (35), sixth prestressing force additional strengthening (36) are fixed with crossbeam roof beam body bottom through first arm-tie (6), second arm-tie (7) and third arm-tie (8), correspondingly, crossbeam roof beam body bottom below is equipped with the backing plate, first arm-tie (6) or second arm-tie (7) or third arm-tie (8), crossbeam roof beam body bottom, the backing plate is fixed through prestressing force straining device, first arm-tie (6), second arm-tie (7) and third arm-tie (8), crossbeam roof beam body bottom, the backing plate is equipped with the connecting hole correspondingly.

Furthermore, in each group of prestressed reinforcement structures, a third prestressed reinforcement structure (33), a fourth prestressed reinforcement structure (34), a fifth prestressed reinforcement structure (35) and a sixth prestressed reinforcement structure (36) are integrated, the prestressed reinforcement structures penetrate through the first pulling plate (6), the second pulling plate (7) and the third pulling plate (8) and are folded into a V shape, the folded two sides form the third prestressed reinforcement structure (33) and the fourth prestressed reinforcement structure (34), the transverse edge between the first pulling plate (6) and the second pulling plate (7) forms the fifth prestressed reinforcement structure (35), and the transverse edge between the third pulling plate (7) and the third pulling plate (8) forms the sixth prestressed reinforcement structure (36); the fifth prestress reinforcing structure (35) and the sixth prestress reinforcing structure (36) are fixed to the bottom of the beam body of the cross beam through the first pulling plate (6), the second pulling plate (7) and the third pulling plate (8), and the first pulling plate (6), the second pulling plate (7), the third pulling plate (8) and the bottom of the beam body of the cross beam are fixedly welded.

Furthermore, the first prestress reinforcing structure (31) and the first prestress reinforcing structure (32) are integrated, and the prestress reinforcing structure penetrates through the second pulling plate (7) and is folded into a V shape to form two prestress reinforcing structures; the lower ends of the two prestress reinforcing structures are fixed with the bottom of the beam body of the cross beam through a second pulling plate (7).

Further, the prestress reinforcing structure is a prestress reinforcing rib.

Further, the prestress tension device is a tension bolt.

Further, the pulling plate is a high pulling plate or a low pulling plate; the top of the high pulling plate is connected with the top of the inner side of the beam body of the cross beam

The utility model discloses beneficial effect who has:

the beam body (1) of the utility model is internally provided with 1 group, 2 groups or a plurality of groups of prestress reinforcing structures, each group of prestress reinforcing structures consists of 6 prestress reinforcing structures and is positioned on the cross section of the beam body (1), the device comprises a first prestress reinforcing structure (31), a second prestress reinforcing structure (32), a third prestress reinforcing structure (33) and a fourth prestress reinforcing structure (34), wherein the first prestress reinforcing structure and the second prestress reinforcing structure (32) are obliquely and symmetrically arranged, the lower ends of the first prestress reinforcing structure (31) and the second prestress reinforcing structure (32) are fixedly connected, the lower end of the third prestress reinforcing structure (33) is connected with the lower end of the first prestress reinforcing structure (31) through a transversely arranged fifth reinforcing rib (35), and the lower end of the fourth prestress reinforcing structure (34) is connected with the lower end of the second prestress reinforcing structure (32) through a transversely arranged sixth prestress reinforcing structure (36); the upper ends of the first prestress reinforcing structure (31), the second prestress reinforcing structure (32), the third prestress reinforcing structure (33) and the fourth prestress reinforcing structure (34) are respectively fixed with the upper part of the side surface of the beam body (1); the fifth prestress reinforcing structure (35) and the sixth prestress reinforcing structure (36) are fixed with the bottom of the beam body (1). The utility model discloses a prestressing force additional strengthening that the slant symmetry set up in the crossbeam roof beam body to set up horizontal prestressing force additional strengthening between the prestressing force additional strengthening that the slant symmetry set up, prestressing force additional strengthening is latticed and distributes, can effectively improve the intensity of the crossbeam roof beam body, when increasing the crossbeam span, need not increase crossbeam longitudinal section, the crossbeam roof beam body still can satisfy the strength requirement, makes things convenient for the crossbeam to reform transform, effective reduce cost.

The utility model discloses among every group prestressing force additional strengthening, third prestressing force additional strengthening (33), fourth prestressing force additional strengthening (34), fifth prestressing force additional strengthening (35), sixth prestressing force additional strengthening (36) are as an organic whole, prestressing force additional strengthening passes first arm-tie (6), second arm-tie (7) and third arm-tie (8), it becomes the V font to roll over, the both sides of rolling up form third prestressing force additional strengthening (33) and fourth prestressing force additional strengthening (34), the horizontal limit between first arm-tie (6) and second arm-tie (7) forms fifth prestressing force additional strengthening (35), the horizontal limit between second arm-tie (7) and third arm-tie (8) forms sixth prestressing force additional strengthening (36); the fifth prestress reinforcing structure (35) and the sixth prestress reinforcing structure (36) are fixed with the bottom of the beam body of the cross beam through a first pulling plate (6), a second pulling plate (7) and a third pulling plate (8), correspondingly, a backing plate is arranged below the bottom of the beam body of the cross beam, and the first pulling plate (6), the second pulling plate (7) or the third pulling plate (8), the bottom of the beam body of the cross beam and the backing plate are fixed through a prestress tensioning device or fixed through welding; the first prestress reinforcing structure (31) and the first prestress reinforcing structure (32) are integrated, and the prestress reinforcing structure penetrates through the second pulling plate (7) and is folded into a V shape to form two prestress reinforcing structures; the lower ends of the two prestress reinforcing structures are fixed with the bottom of the beam body of the cross beam through a second pulling plate (7). The utility model discloses an above-mentioned fixed knot constructs, has guaranteed the reliability of being connected of prestressing force strengthening rib and the crossbeam roof beam body, and then effectively guarantees crossbeam roof beam body intensity.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The first embodiment is as follows:

as shown in fig. 1, 1 set of prestressed reinforcement structures is provided in the beam body 1, and in the implementation, the prestressed reinforcement structures adopt prestressed reinforcing ribs, each set of prestressed reinforcement structures is composed of 6 prestressed reinforcing ribs and is located on the cross section of the beam body 1 (i.e., on the illustrated cross section), wherein the first prestressed reinforcing ribs 31 and the second prestressed reinforcing ribs 32 are obliquely and symmetrically arranged, the third prestressed reinforcing ribs 33 and the fourth prestressed reinforcing ribs 34 are obliquely and symmetrically arranged, the lower ends of the first prestressed reinforcing ribs 31 and the second prestressed reinforcing ribs 32 are fixedly connected, the lower ends of the third prestressed reinforcing ribs 33 and the lower ends of the first prestressed reinforcing ribs 31 are connected through transversely arranged fifth reinforcing ribs 35, and the lower ends of the fourth prestressed reinforcing ribs 34 and the lower ends of the second prestressed reinforcing ribs 32 are connected through transversely arranged sixth reinforcing ribs 36; the upper ends of the first prestressed reinforcing rib 31, the second prestressed reinforcing rib 32, the third prestressed reinforcing rib 33 and the fourth prestressed reinforcing rib 34 are respectively fixed with the upper part of the side surface of the beam body 1; the fifth prestressed reinforcing rib 35 and the sixth prestressed reinforcing rib 36 are fixed to the bottom of the beam body 1. The first pre-stressed reinforcing rib 31 and the third pre-stressed reinforcing rib 33 are arranged in parallel, and the second pre-stressed reinforcing rib 32 and the fourth pre-stressed reinforcing rib 34 are arranged in parallel.

In each group of prestressed reinforcement structures, a first prestressed reinforcing rib 31, a second prestressed reinforcing rib 32, a third prestressed reinforcing rib 33 and a fourth prestressed reinforcing rib 34 are fixed with the upper part of the side surface of the beam body 1 through a tension bolt 2, and the upper part of the side surface of the beam body 1 is correspondingly provided with a connecting hole.

In each group of prestressed reinforcement structures, the third prestressed reinforcing rib 33, the fourth prestressed reinforcing rib 34, the fifth prestressed reinforcing rib 35 and the sixth prestressed reinforcing rib 36 are integrated (i.e., one prestressed reinforcing rib), the prestressed reinforcing ribs pass through the first pulling plate 6, the second pulling plate 7 and the third pulling plate 8 and are folded into a V shape, the third prestressed reinforcing rib 33 and the fourth prestressed reinforcing rib 34 are formed on the folded two sides, the fifth prestressed reinforcing rib 35 is formed on the transverse side between the first pulling plate 6 and the second pulling plate 7, and the sixth prestressed reinforcing rib 36 is formed on the transverse side between the second pulling plate 7 and the third pulling plate 8; the fifth prestressed reinforcing rib 35 and the sixth prestressed reinforcing rib 36 are fixed to the bottom of the beam body through the first pulling plate 6, the second pulling plate 7 and the third pulling plate 8, correspondingly, a backing plate is arranged below the bottom of the beam body, the first pulling plate 6, the second pulling plate 7, the third pulling plate 8, the bottom of the beam body and the backing plate are fixed through the tension bolt 5, and the first pulling plate 6, the second pulling plate 7, the third pulling plate 8, the bottom of the beam body and the backing plate are correspondingly provided with connecting holes. The first prestressed reinforcing ribs 31 and the first prestressed reinforcing ribs 32 are integrated, and the prestressed reinforcing ribs penetrate through the second pulling plate 7 and are folded into a V shape to form two prestressed reinforcing ribs; the lower ends of the two prestressed reinforcing ribs are fixed with the bottom of the beam body of the cross beam through the second pulling plate 7. The pulling plate is a high pulling plate or a low pulling plate; the top of the high pulling plate is connected with the top of the inner side of the beam body of the cross beam. In this embodiment, a short drawplate is used.

Example two:

the difference between the second embodiment and the first embodiment is that 2 groups of prestressed reinforcement structures are arranged in the beam body 1, and planes of the 2 groups of prestressed reinforcement structures are parallel to each other. The rest of the structure and the working principle are the same as those of the first embodiment.

Claims (9)

1. The utility model provides a draw prestressing force beaded type hoist crossbeam to one side has crossbeam roof beam body (1), its characterized in that: the beam body (1) is internally provided with 1 group, 2 groups or a plurality of groups of prestress reinforcing structures, each group of prestress reinforcing structures consists of 6 prestress reinforcing structures and is positioned on the cross section of the beam body (1), the device comprises a first prestress reinforcing structure (31), a second prestress reinforcing structure (32), a third prestress reinforcing structure (33) and a fourth prestress reinforcing structure (34), wherein the first prestress reinforcing structure and the second prestress reinforcing structure (32) are obliquely and symmetrically arranged, the lower ends of the first prestress reinforcing structure (31) and the second prestress reinforcing structure (32) are fixedly connected, the lower end of the third prestress reinforcing structure (33) is connected with the lower end of the first prestress reinforcing structure (31) through a transversely arranged fifth prestress reinforcing structure (35), and the lower end of the fourth prestress reinforcing structure (34) is connected with the lower end of the second prestress reinforcing structure (32) through a transversely arranged sixth prestress reinforcing structure (36); the upper ends of the first prestress reinforcing structure (31), the second prestress reinforcing structure (32), the third prestress reinforcing structure (33) and the fourth prestress reinforcing structure (34) are respectively fixed with the upper part of the side surface of the beam body (1); the fifth prestress reinforcing structure (35) and the sixth prestress reinforcing structure (36) are fixed with the bottom of the beam body (1).

2. The diagonal prestressed reinforcement beam of claim 1, wherein: the planes of the groups of prestress reinforcing structures are parallel to each other.

3. The diagonal prestressed reinforcement beam of claim 2, wherein: in each group of prestress reinforcing structures, a first prestress reinforcing structure (31), a second prestress reinforcing structure (32), a third prestress reinforcing structure (33) and a fourth prestress reinforcing structure (34) are fixed with the upper part of the side face of the beam body (1) through a prestress tensioning device (2), and the upper part of the side face of the beam body (1) is correspondingly provided with a connecting hole.

4. The diagonal prestressed reinforcement beam of claim 3, wherein: in each group of prestress reinforcing structures, a third prestress reinforcing structure (33), a fourth prestress reinforcing structure (34), a fifth prestress reinforcing structure (35) and a sixth prestress reinforcing structure (36) are integrated, the prestress reinforcing structures penetrate through a first pulling plate (6), a second pulling plate (7) and a third pulling plate (8) and are folded into a V shape, the third prestress reinforcing structure (33) and the fourth prestress reinforcing structure (34) are formed on the folded two sides, the fifth prestress reinforcing structure (35) is formed on the transverse side between the first pulling plate (6) and the second pulling plate (7), and the sixth prestress reinforcing structure (36) is formed on the transverse side between the second pulling plate (7) and the third pulling plate (8); fifth prestressing force additional strengthening (35), sixth prestressing force additional strengthening (36) are fixed with crossbeam roof beam body bottom through first arm-tie (6), second arm-tie (7) and third arm-tie (8), correspondingly, crossbeam roof beam body bottom below is equipped with the backing plate, first arm-tie (6) or second arm-tie (7) or third arm-tie (8), crossbeam roof beam body bottom, the backing plate is fixed through prestressing force straining device, first arm-tie (6), second arm-tie (7) and third arm-tie (8), crossbeam roof beam body bottom, the backing plate is equipped with the connecting hole correspondingly.

5. The diagonal prestressed reinforcement beam of claim 3, wherein: in each group of prestress reinforcing structures, a third prestress reinforcing structure (33), a fourth prestress reinforcing structure (34), a fifth prestress reinforcing structure (35) and a sixth prestress reinforcing structure (36) are integrated, the prestress reinforcing structures penetrate through a first pulling plate (6), a second pulling plate (7) and a third pulling plate (8) and are folded into a V shape, the third prestress reinforcing structure (33) and the fourth prestress reinforcing structure (34) are formed on the folded two sides, the fifth prestress reinforcing structure (35) is formed on the transverse side between the first pulling plate (6) and the second pulling plate (7), and the sixth prestress reinforcing structure (36) is formed on the transverse side between the second pulling plate (7) and the third pulling plate (8); the fifth prestress reinforcing structure (35) and the sixth prestress reinforcing structure (36) are fixed to the bottom of the beam body of the cross beam through the first pulling plate (6), the second pulling plate (7) and the third pulling plate (8), and the first pulling plate (6), the second pulling plate (7), the third pulling plate (8) and the bottom of the beam body of the cross beam are fixedly welded.

6. A cable-stayed prestressed reinforcement type crane beam according to claim 4 or 5, characterized in that: the first prestress reinforcing structure (31) and the second prestress reinforcing structure (32) are integrated, the prestress reinforcing structure penetrates through the second pulling plate (7) and is folded into a V shape, and two prestress reinforcing structures are formed; the lower ends of the two prestress reinforcing structures are fixed with the bottom of the beam body of the cross beam through a second pulling plate (7).

7. A cable-stayed prestressed reinforcement type crane beam according to any one of claims 1 to 5, characterized in that: the prestress reinforcing structure is a prestress reinforcing rib.

8. The diagonal prestressed reinforcement beam of claim 3 or 4, wherein: the prestress tension device is a tension bolt.

9. A diagonal prestressed reinforcement beam for crane according to any one of claims 4 or 5, characterized in that: the pulling plate is a high pulling plate or a low pulling plate; the top of the high pulling plate is connected with the top of the inner side of the beam body of the cross beam.

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