CN219061006U - Hydraulic composite damping reinforcing structure - Google Patents

Abstract

The utility model discloses a hydraulic composite damping reinforcing structure, which belongs to the technical field of iron tower reinforcement, and is characterized in that a damping telescopic rod and a fixing piece are arranged, the damping telescopic rod and the fixing piece are connected in a rotating way, the length of the damping telescopic rod is adjusted, the damping telescopic rod is prevented from being lengthened and shortened, compared with the traditional steel rope tensioning mode, the requirement on a field can be effectively reduced under the condition that the reinforcing strength is ensured, the hydraulic composite damping reinforcing structure can be adjusted according to actual conditions, the application range is wide, active, quick and accurate single-pipe tower reinforcing work is realized, the hydraulic composite damping reinforcing structure has high practicability, the damping telescopic rod is configured as a hydraulic rod, the fixing piece is configured as a steel pipe, the load and the wind pressure of a tower body are not increased through the coupling of the hydraulic rod and the steel pipe, the vibration is reduced, and the friction force is converted into internal energy.

Description

Hydraulic composite damping reinforcing structure

Technical Field

The utility model relates to the technical field of iron tower reinforcement, in particular to a hydraulic composite damping reinforcement structure.

Background

At present, with the development of communication technology and the expansion and sharing needs of an operator network system, the demands of a ceiling system are increased on the basis of the original design bearing load of a single-pipe tower, the bearing capacity of the single-pipe tower can be improved by reinforcing the single-pipe tower, the implementation problems such as station acquisition caused by newly built towers are avoided, and the method has great economic and social benefits, and the existing traditional steel cable reinforcing mode has larger demands on sites and cannot meet the demands in many places.

The prior art is as shown in the Chinese patent publication No. CN112482820A, wherein the single-pipe tower reinforcing device comprises a single-pipe tower, a first reinforcing device and a second reinforcing device are sequentially arranged on the outer surface of the single-pipe tower from top to bottom, each of the first reinforcing device and the second reinforcing device comprises a plurality of reinforcing blocks fixed on the surface of the single-pipe tower, supporting blocks are fixed on the reinforcing blocks of the second reinforcing device, and the outer ends of the supporting blocks are connected with the reinforcing blocks of the first reinforcing device at the same vertical position into a triangular structure through a first tensioning device, so that the supporting blocks are horizontally arranged; the outer end of the supporting block is connected with a foundation balancing weight arranged at the periphery of the bottom of the single-pipe tower through a second tensioning device, and the second tensioning device is vertically arranged.

The length between the tensioning devices is quickly adjusted through rotation connection and being provided with pulling among the tensioning devices in the patent documents, manual interference is needed, and a convenient reinforcing scheme capable of being convenient to control and adjust is lacked.

Disclosure of Invention

The utility model provides a hydraulic composite damping reinforcing structure, which is characterized in that a damping telescopic rod is rotationally connected with a fixing piece, and the length and the rotation adjusting angle of the damping telescopic rod are adjusted to adjust a tensioning device in real time.

To achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a hydraulic pressure composite damping reinforced structure, includes damping telescopic link and/or mounting, the one end of damping telescopic link rotate connect in on the single-tube tower, the other end of telescopic link with the mounting rotates to be connected, the other end of mounting rotates to be connected on the single-tube tower or the other end of mounting rotates to be connected on the fixed block, the fixed block is fixed subaerial.

The utility model has the preferable technical scheme that the damping telescopic rod comprises a damping telescopic rod, a fixed piece and a fixed piece, wherein the damping telescopic rod is arranged on the outer wall of the single-pipe tower; the rotating piece comprises a connector and a connecting strip, and the connecting strip is rotationally connected to the connector; the reinforcing block is provided with a plurality of connecting ports.

The preferable technical scheme of the utility model is that the damping telescopic rod is provided with a first hydraulic rod and also comprises a fixed block; one end of the first hydraulic rod is connected to the reinforcing block through the rotating piece, the reinforcing block is fixed to the single-pipe tower, the rotating piece is installed on the reinforcing block, and the other end of the first hydraulic rod is fixed to the fixing block.

The preferable technical scheme of the utility model is that the rotating piece comprises a first connecting head and a first connecting strip; the first connector is fixed on the reinforcing block, one end of the first connecting strip is rotationally connected to the first connector, and the other end of the first connecting strip is fixed on the first hydraulic rod.

The preferable technical scheme of the utility model is that the damping telescopic rod is provided with a second hydraulic rod, and the fixing piece is provided with a first steel rod and a second steel rod; one end of the second hydraulic rod is rotationally connected to the single-pipe tower through the rotating piece, the rotating piece is fixed to the single-pipe tower through the reinforcing block, the other end of the second hydraulic rod is fixed to the first steel rod, the other end of the first steel rod is fixed to the single-pipe tower through the reinforcing block, the first steel rod is horizontally arranged, and the second hydraulic rod, the first steel rod and the single-pipe tower form a right-angle triangle structure; one end of the second steel rod is rotationally connected to the first steel rod through the rotating piece, and the other end of the second steel rod is rotationally connected to the fixed block through the rotating piece.

The preferable technical scheme of the utility model is that the rotating piece comprises a second connector, a third connector, a fourth connector, a second connecting strip, a third connecting strip and a fourth connecting strip; the second connector is fixed on the reinforcing block, one end of the second connecting strip is rotationally connected to the second connector, and the other end of the second connecting strip is fixed on the second hydraulic rod; the third connector is fixed at one end of the first steel rod far away from the single-pipe tower, one end of the third connecting strip is rotationally connected to the third connector, and the other end of the third connecting strip is fixed on the second steel rod; the fourth connector is fixed on the fixed block, one end of the fourth connecting strip is rotationally connected to the fourth connector, and the other end of the fourth connecting strip is fixed on the second steel rod.

The preferable technical scheme of the utility model is that the damping telescopic rod is provided with a third hydraulic rod and a fourth hydraulic rod, and the fixing piece is provided with a third steel rod; one end of the third hydraulic rod is rotationally connected to the single-pipe tower through the rotating piece, the rotating piece is fixed to the single-pipe tower through the reinforcing block, the other end of the third hydraulic rod is fixed to the fourth hydraulic rod, the other end of the fourth hydraulic rod is fixed to the single-pipe tower through the reinforcing block, the fourth hydraulic rod is horizontally arranged, and the third hydraulic rod, the fourth hydraulic rod and the single-pipe tower form a right-angle triangle structure; one end of the third steel rod is rotationally connected to the fourth hydraulic rod through the rotating piece, and the other end of the third steel rod is rotationally connected to the fixed block through the rotating piece.

The preferable technical scheme of the utility model is that the rotating piece comprises a fifth connector, a sixth connector, a seventh connector, a fifth connecting strip, a sixth connecting strip and a seventh connecting strip; the fifth connector is fixed on the reinforcing block, one end of the fifth connecting strip is rotationally connected to the fifth connector, and the other end of the fifth connecting strip is fixed on the third hydraulic rod; the sixth connector is fixed at one end of the fourth hydraulic rod, which is far away from the single-pipe tower, one end of the sixth connecting strip is rotationally connected to the sixth connector, and the other end of the sixth connecting strip is fixed on the third steel rod; the seventh connector is fixed on the fixed block, one end of the seventh connecting strip is rotationally connected to the seventh connector, and the other end of the seventh connecting strip is fixed on the third steel rod.

The preferable technical scheme of the utility model is that the damping telescopic rod is provided with a fifth hydraulic rod and a sixth hydraulic rod, the fixing piece is provided with a fourth steel rod, and the reinforcing block is provided with a first reinforcing block and a second reinforcing block; the fifth hydraulic rod is rotationally connected to the single-pipe tower through the rotating piece, the other end of the fifth hydraulic rod is fixed to the fourth steel rod, the fourth steel rod is horizontally arranged, the other end of the fourth steel rod is fixed to the single-pipe tower through the first reinforcing block, one end of the sixth hydraulic rod is fixed to the fourth steel rod, the other end of the sixth hydraulic rod is rotationally connected to the single-pipe tower through the rotating piece, the rotating piece is fixed to the single-pipe tower through the second reinforcing block, and the fifth hydraulic rod, the sixth hydraulic rod and the fourth steel rod form a triangular structure.

The preferable technical scheme of the utility model is that the rotating piece comprises an eighth connector, a ninth connector, an eighth connecting strip and a ninth connecting strip; the eighth connector is fixed on the first reinforcing block, one end of the eighth connecting strip is rotationally connected to the eighth connector, and the other end of the eighth connecting strip is fixed on the fifth hydraulic rod; the ninth connector is fixed on the second reinforcing block, one end of the ninth connecting strip is rotationally connected to the ninth connector, and the other end of the ninth connecting strip is fixed on the sixth hydraulic rod.

The beneficial effects of the utility model are as follows:

(1) Through being provided with damping telescopic link and mounting to rotate between damping telescopic link and the mounting and be connected, damping telescopic link adjusts length, rotates and connects angle of adjustment, prevents that damping telescopic link can't lengthen and shorten, can be adjusted according to actual conditions to the demand in place for traditional cable wire tensioning mode can effectual reduction under the circumstances of guaranteeing reinforcement intensity, application scope is wide, has realized initiative, quick, accurate single-tube tower reinforcement work, has very high practicality.

(2) The hydraulic rod is coupled with the steel pipe, so that the load and the wind pressure of the tower body are not increased.

Drawings

FIG. 1 is a schematic view of an example of an overall structure of a hydraulic composite damping reinforcement structure according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of an example II of the overall structure of a hydraulic composite damping reinforcement structure according to an embodiment of the present utility model;

FIG. 3 is a schematic illustration of an example of an overall structure of a hydraulic composite damping reinforcement structure according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of an example of an overall structure of a hydraulic composite damping reinforcement structure according to an embodiment of the present utility model;

in the figure:

1. a single-tube tower; 2. a first hydraulic lever; 3. a first connector; 4. a first connecting bar; 5. a second hydraulic lever; 6. a first steel rod; 7. a second steel rod; 8. a second connector; 9. a third connector; 10. a fourth connector; 11. a second connecting bar; 12. a third connecting bar; 13. a fourth connecting bar; 14. a third hydraulic lever; 15. a fourth hydraulic lever; 16. a third steel rod; 17. a fifth connector; 18. a sixth connector; 19. a seventh connector; 20. a fifth connecting bar; 21. a sixth connecting bar; 22. a seventh connecting bar; 23. a fifth hydraulic lever; 24. a sixth hydraulic lever; 25. a fourth steel rod; 26. a first reinforcing block; 27. a second reinforcing block; 28. an eighth connector; 29. a ninth joint; 30. an eighth connecting bar; 31. a ninth connecting bar; 32. a fixed block; 33. and (5) reinforcing the block.

Detailed Description

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

The utility model provides a hydraulic composite damping reinforcing structure which comprises a single-pipe tower 1, a damping telescopic rod and/or a fixing piece, wherein one end of the damping telescopic rod is rotationally connected to the single-pipe tower 1, the other end of the damping telescopic rod is rotationally connected with the fixing piece, the other end of the fixing piece is rotationally connected to the single-pipe tower 1 or the other end of the fixing piece is rotationally connected to a fixing block 32, and the fixing block 32 is fixed on the ground.

Example 1

The damping telescopic link includes first hydraulic stem 2, and first hydraulic stem 2 rotates to be connected on single-pipe tower 1, and the other end is fixed on fixed block 32 for first hydraulic stem 2 adjustment length makes first hydraulic stem 2 angle of adjustment through rotating the piece, and first hydraulic stem 2 itself can adjust into taut state, also can be through angle of adjustment and length damping.

As shown in fig. 1, the concrete installation mode is that a reinforcing block 33 is fixed on the single-pipe tower 1, a first connector 3 is fixed on the reinforcing block 33, a first connecting bar 4 is fixed on the first connector 3, and the other end of the first connecting bar 4 is fixed on a first hydraulic rod 2, so that the first hydraulic rod 2 is rotationally connected on the single-pipe tower 1, and the other end of the first hydraulic rod 2 is fixed on a fixed block 32.

Example two

The damping telescopic rod comprises a second hydraulic rod 5, a fixing piece comprises a first steel rod 6 and a second steel rod 7, the first steel rod 6 is fixed on the single-tube tower 1, two ends of the second hydraulic rod 5 are respectively connected to the single-tube tower 1 and fixed on the first steel rod 6 in a rotating mode, two ends of the second steel rod 7 are respectively connected to the first steel rod 6 and the fixing block 32 in a rotating mode, the first steel rod 6 is horizontally arranged on the single-tube tower 1, the first steel rod 6, the second hydraulic rod 5 and the single-tube tower 1 are combined to form a right triangle structure, the second steel rod 7 is vertically arranged between the first steel rod 6 and the fixing block 32, the length is adjusted through the second hydraulic rod 5, the second hydraulic rod 5 is connected with the first steel rod 6 and the single-tube tower 1 in a rotating mode, the second steel rod 7 is connected with the first steel rod and the fixing block 32 in a rotating mode, the adjusting angle is adjusted through the fixing of the first steel rod 6, and the adjusting process is more stable.

As shown in fig. 2, the concrete installation mode is that the second connector 8 is fixed on the single-pipe tower 1 through the reinforcing block 33, the second connecting bar 11 is fixed on the second connector 8, the second hydraulic rod 5 is fixed on the other end of the second connecting bar 11, and the other end of the second hydraulic rod 5 is fixed on one end of the first steel rod 6 far away from the single-pipe tower 1. The first steel pole 6 is horizontally fixed on the single-pipe tower 1 through the reinforcing block 33, two ends of the second steel pole 7 are respectively connected with the third connecting strip 12 and the fourth connecting strip 13, the third connecting strip 12 is fixed on the third connecting head 13, the third connecting head 13 is fixed on one end, far away from the single-pipe tower 1, of the first steel pole 6, and the fourth connecting head 10 is fixed on the fixing block 32.

Example III

As shown in fig. 3, the damping telescopic rod includes a third hydraulic rod 14 and a fourth hydraulic rod 15, the fixing member includes a third steel rod 16, the rotating member includes a fifth connector 17, a sixth connector 18, a seventh connector 19, a fifth connecting bar 20, a sixth connecting bar 21 and a seventh connecting bar 22, and the installation mode and principle are the same as those of the second embodiment except that the first steel rod 6 is replaced by the fourth hydraulic rod 15, and the length can be adjusted through the fourth hydraulic rod 15, so that the adjustment angle range of the third hydraulic rod 14 and the third steel rod 16 is larger.

Example IV

The damping telescopic rod comprises a fifth hydraulic rod 23 and a sixth hydraulic rod 24, the fixing piece comprises a fourth steel rod 25, the fourth steel rod 25 is horizontally fixed on the single-tube tower 1, the fifth hydraulic rod 23 and the sixth hydraulic rod 24 are rotationally connected to two sides of the fourth steel rod 25 to form a triangular structure, and the damping telescopic rod is more stable.

As shown in fig. 4, in a specific installation method, one end of the fifth hydraulic rod 23 is rotatably connected to the first reinforcing block 26 through the eighth connector 28 and the eighth connecting bar 30, the other end of the fifth hydraulic rod is fixed to the fourth steel rod 25, the fourth steel rod 25 is horizontally fixed to the single-tube tower 1, one end of the sixth hydraulic rod 24 is rotatably connected to the second reinforcing block 27 through the ninth connector 29 and the ninth connecting bar 31, the other end of the sixth hydraulic rod 24 is fixed to the fourth steel rod 25, and the first reinforcing block 35 and the second reinforcing block 36 are respectively fixed to the side wall of the single-tube tower 1 and are located at two sides of the fourth steel rod 25.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the utility model. The utility model is not to be limited by the specific embodiments disclosed herein, and other embodiments are within the scope of the utility model as defined by the claims of the present application.

Claims (10)

1. The utility model provides a hydraulic pressure composite damping reinforced structure, includes single-pipe tower (1), its characterized in that:

including damping telescopic link and/or mounting, the one end of damping telescopic link rotate connect in on single-tube tower (1), the other end of telescopic link with the mounting rotates to be connected, the other end of mounting rotates to be connected on single-tube tower (1) or the other end of mounting rotates to be connected on fixed block (32), fixed block (32) are fixed subaerial.

2. The hydraulic composite damping reinforcement structure of claim 1, wherein:

the single-pipe tower comprises a single-pipe tower body (1) and is characterized by further comprising a rotating piece and a reinforcing block (33), wherein the reinforcing block (33) is arranged on the outer wall of the single-pipe tower body (1), and the rotating piece is arranged on the damping telescopic rod, the fixing piece and the fixing block (32);

the rotating piece comprises a connector and a connecting strip, and the connecting strip is rotationally connected to the connector;

the reinforcing block (33) is provided with a plurality of connecting ports.

3. The hydraulic composite damping reinforcement structure of claim 2, wherein:

the damping telescopic rod is provided with a first hydraulic rod (2) and further comprises a fixed block (32);

one end of the first hydraulic rod (2) is connected to the reinforcing block (33) through the rotating piece, the reinforcing block (33) is fixed to the single-pipe tower (1), the rotating piece is installed on the reinforcing block, and the other end of the first hydraulic rod (2) is fixed to the fixing block (32).

4. A hydraulic composite damping reinforcement structure according to claim 3, characterized in that:

the rotating piece comprises a first connecting head (3) and a first connecting strip (4);

the first connecting head (3) is fixed on the reinforcing block (33), one end of the first connecting strip (4) is rotationally connected to the first connecting head (3), and the other end of the first connecting strip is fixed on the first hydraulic rod (2).

5. The hydraulic composite damping reinforcement structure of claim 2, wherein:

the damping telescopic rod is provided with a second hydraulic rod (5), and the fixing piece is provided with a first steel rod (6) and a second steel rod (7);

one end of the second hydraulic rod (5) is rotationally connected to the single-pipe tower (1) through the rotating piece, the rotating piece is fixed to the single-pipe tower (1) through the reinforcing block (33), the other end of the second hydraulic rod (5) is fixed to the first steel rod (6), the other end of the first steel rod (6) is fixed to the single-pipe tower (1) through the reinforcing block (33), the first steel rod (6) is horizontally arranged, and the second hydraulic rod (5), the first steel rod (6) and the single-pipe tower (1) form a right-angled triangle structure;

one end of the second steel rod (7) is rotationally connected to the first steel rod (6) through the rotating piece, and the other end of the second steel rod (7) is rotationally connected to the fixed block (32) through the rotating piece.

6. The hydraulic composite damping reinforcement structure of claim 5, wherein:

the rotating piece comprises a second connector (8), a third connector (9), a fourth connector (10), a second connecting strip (11), a third connecting strip (12) and a fourth connecting strip (13);

the second connector (8) is fixed on the reinforcing block (33), one end of the second connecting strip (11) is rotatably connected to the second connector (8), and the other end of the second connecting strip is fixed on the second hydraulic rod (5);

the third connector (9) is fixed at one end of the first steel rod (6) far away from the single-pipe tower (1), one end of the third connecting strip (12) is rotatably connected to the third connector (9), and the other end of the third connecting strip is fixed on the second steel rod (7);

the fourth connector (10) is fixed on the fixed block (32), one end of the fourth connecting strip (13) is rotatably connected to the fourth connector (10), and the other end of the fourth connecting strip is fixed on the second steel rod (7).

7. The hydraulic composite damping reinforcement structure of claim 2, wherein:

the damping telescopic rod is provided with a third hydraulic rod (14) and a fourth hydraulic rod (15), and the fixing piece is provided with a third steel rod (16);

one end of the third hydraulic rod (14) is rotationally connected to the single-pipe tower (1) through the rotating piece, the rotating piece is fixed to the single-pipe tower (1) through the reinforcing block (33), the other end of the third hydraulic rod (14) is fixed to the fourth hydraulic rod (15), the other end of the fourth hydraulic rod (15) is fixed to the single-pipe tower (1) through the reinforcing block (33), the fourth hydraulic rod (15) is horizontally arranged, and the third hydraulic rod (14), the fourth hydraulic rod (15) and the single-pipe tower (1) form a right triangle structure;

one end of the third steel rod (16) is rotationally connected to the fourth hydraulic rod (15) through the rotating piece, and the other end of the third steel rod (16) is rotationally connected to the fixed block (32) through the rotating piece.

8. The hydraulic composite damping reinforcement structure of claim 7, wherein:

the rotating piece comprises a fifth connector (17), a sixth connector (18), a seventh connector (19), a fifth connecting strip (20), a sixth connecting strip (21) and a seventh connecting strip (22);

the fifth connector (17) is fixed on the reinforcing block (33), one end of the fifth connecting strip (20) is rotatably connected to the fifth connector (17), and the other end of the fifth connecting strip is fixed on the third hydraulic rod (14);

the sixth connector (18) is fixed at one end of the fourth hydraulic rod (15) far away from the single-pipe tower (1), one end of the sixth connecting strip (21) is rotatably connected to the sixth connector (18), and the other end of the sixth connecting strip is fixed on the third steel rod (16);

the seventh connector (19) is fixed on the fixed block (32), one end of the seventh connecting strip (22) is rotatably connected to the seventh connector (19), and the other end of the seventh connecting strip is fixed on the third steel rod (16).

9. The hydraulic composite damping reinforcement structure of claim 2, wherein:

the damping telescopic rod is provided with a fifth hydraulic rod (23) and a sixth hydraulic rod (24), the fixing piece is provided with a fourth steel rod (25), and the reinforcing block (33) is provided with a first reinforcing block (26) and a second reinforcing block (27);

the fifth hydraulic rod (23) is rotationally connected to the single-pipe tower (1) through the rotating piece, the other end of the fifth hydraulic rod (23) is fixed on the fourth steel rod (25), the fourth steel rod (25) is horizontally arranged, the other end of the fourth steel rod (25) is fixed on the single-pipe tower (1) through the first reinforcing block (26), one end of a sixth hydraulic rod (24) is fixed on the fourth steel rod (25), the other end of the sixth hydraulic rod (24) is rotationally connected to the single-pipe tower (1) through a rotating piece, the rotating piece is fixed on the single-pipe tower (1) through a second reinforcing block (27), and the fifth hydraulic rod (23), the sixth hydraulic rod (24) and the fourth steel rod (25) form a triangular structure.

10. The hydraulic composite damping reinforcement structure of claim 9, wherein:

the rotating piece comprises an eighth connector (28), a ninth connector (29), an eighth connecting strip (30) and a ninth connecting strip (31);

the eighth connector (28) is fixed on the first reinforcing block (26), one end of the eighth connecting strip (30) is rotatably connected to the eighth connector (28), and the other end of the eighth connecting strip is fixed on the fifth hydraulic rod (23);

the ninth connector (29) is fixed on the second reinforcing block (27), one end of the ninth connecting strip (31) is rotatably connected to the ninth connector (29), and the other end of the ninth connecting strip is fixed on the sixth hydraulic rod (24).

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