CN219138493U - Main supporting ejector rod structure for membrane structure - Google Patents

Abstract

The utility model relates to the technical field of membrane structures, and provides a main support ejector rod structure for a membrane structure, which comprises a bottom plate, wherein the top of the bottom plate is fixedly connected with a main support ejector rod in the vertical direction, the top of the main support ejector rod is rotatably provided with an adjusting plate, two sides of the top of the adjusting plate are fixedly connected with support plates, an adjusting table is rotatably arranged between the two support plates, and the top of the adjusting table is fixedly provided with a mounting seat for fixing a support rod of the membrane structure. According to the utility model, the adjusting table can rotate back and forth under the action of the second adjusting component so as to drive the mounting seat to synchronously rotate back and forth, and meanwhile, the first adjusting component can enable the adjusting plate to rotate left and right and drive the adjusting table and the mounting seat to synchronously rotate left and right, so that the angle of the mounting seat can be changed bidirectionally, the mounting seat is suitable for fixing the membrane structure support rods in various inclined states, and the purpose of changing the mounting angle according to design is realized.

Description

Main supporting ejector rod structure for membrane structure

Technical Field

The utility model relates to the technical field of membrane structures, in particular to a main support ejector rod structure for a membrane structure.

Background

The membrane structure is a building and structure combined structure system, and is a narrow-space structure type which adopts high-strength flexible film materials and auxiliary structures to generate certain pretension in the membrane structure in a certain mode, forms a certain space shape under stress control, is used as a covering structure or a building main body, and has enough rigidity to resist external load.

At present, a main supporting ejector rod of a traditional membrane structure is used for being fixed with a vertical membrane structure supporting rod to play a role in supporting the membrane structure, but in some membrane structure designs with specific structures, the supporting rod of the membrane structure is not singly connected with the main supporting ejector rod at a vertical angle, and a certain angle of inclination can exist.

In the prior art, publication number CN213174174U provides a main supporting ejector rod structure of a membrane structure, which comprises a connecting base, a connecting frame rod arranged on the upper part of the connecting base, a movable connecting seat arranged on the upper part of the connecting frame rod, and an ejector rod seat structure arranged on the upper part of the movable adjusting seat; the angle of the node connecting rod of the main supporting ejector rod structure is convenient to adjust in the connecting structure, so that the angle can be changed according to the design, and the node connecting rod has good practicability.

However, in the above design, only the adjusting seat can be moved to rotate along the horizontal plane to change the angle, the direction of changing the angle is single, and the adjusting seat cannot be suitable for installing inclined struts in various membrane structure designs, so it is necessary to design a main supporting and ejecting rod structure for a membrane structure to solve the problem.

Disclosure of Invention

The utility model aims to provide a main supporting ejector rod structure for a membrane structure, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a membrane structure is with main tributary ejector pin structure, including the bottom plate, the top fixedly connected with of bottom plate is the main tributary ejector pin of vertical direction, and the top rotation of main tributary ejector pin is provided with the regulating plate, and the equal fixedly connected with extension board in top both sides of regulating plate, and rotates between two extension boards and be provided with the regulating table, and the top fixed mounting of regulating table has the mount pad that is used for carrying out fixedly with membrane structure branch, is provided with on the main tributary ejector pin and is used for making the regulating plate carry out left and right sides pivoted first regulation subassembly, is provided with on the extension board and is used for making the regulating table carry out back-and-forth pivoted second regulation subassembly.

Preferably, a reserved cavity is formed in the main support ejector rod, a first rotating shaft in the vertical direction is rotatably connected to the bottom of the inner wall of the reserved cavity through a bearing, and the top of the first rotating shaft penetrates through the main support ejector rod and is fixed to the bottom of the adjusting plate, so that the adjusting plate can be rotatably connected to the main support ejector rod along the horizontal plane.

Preferably, the first adjusting component comprises a first motor fixedly installed on one side of the bottom of the inner wall of the reserved cavity and provided with an upward output shaft, the tail end of the output shaft of the first motor is fixedly connected with a driving spur gear, a driven spur gear meshed with the driving spur gear is fixedly sleeved on the circumferential surface of the first rotating shaft, and the driving spur gear is driven to rotate when the output shaft of the first motor rotates, so that the effect of enabling the first rotating shaft and the adjusting plate to rotate left and right is achieved.

Preferably, a second rotating shaft in the left-right axial direction is rotatably connected between the two support plates through a bearing, and the adjusting table is fixedly sleeved on the second rotating shaft, so that the adjusting table can be connected in a front-back rotating manner between the two support plates.

Preferably, the second adjusting component comprises a second motor fixedly installed on one side of one support plate, the tail end of an output shaft of the second motor is fixedly connected with a drive bevel gear, one side of the second rotating shaft penetrates through the support plate and is fixedly connected with a driven bevel gear meshed with the drive bevel gear, and when the output shaft of the second motor rotates, the drive bevel gear is driven to rotate, so that the adjusting table and the mounting seat can rotate forwards and backwards.

Preferably, one side of one of the support plates is fixedly connected with a protective shell, and the driven bevel gear and the driving bevel gear are both positioned in the protective shell so as to prevent other objects from stirring into the driven bevel gear and the driving bevel gear in rotation.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the adjusting table can rotate back and forth under the action of the second adjusting component so as to drive the mounting seat to synchronously rotate back and forth, and meanwhile, the first adjusting component can enable the adjusting plate to rotate left and right and drive the adjusting table and the mounting seat to synchronously rotate left and right, so that the angle of the mounting seat can be changed bidirectionally, the mounting seat is suitable for fixing the membrane structure support rods in various inclined states, and the purpose of changing the mounting angle according to design is realized.

2. The utility model prevents other objects from stirring into the driven bevel gear and the driving bevel gear in rotation through the arrangement of the protective shell, thereby playing a role in safety and attractive appearance.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic side view of the structure of the present utility model;

FIG. 3 is a schematic view of the cross-sectional structure of FIG. 2 taken along the line A-A in accordance with the present utility model;

FIG. 4 is a partially disassembled schematic illustration of the present utility model;

in the figure: 1. a bottom plate; 2. a main supporting mandril; 3. an adjusting plate; 4. a support plate; 5. an adjustment table; 6. a mounting base; 7. reserving a cavity; 8. a first rotating shaft; 9. a first motor; 10. a driving spur gear; 11. a driven spur gear; 12. a second rotating shaft; 13. a driven bevel gear; 14. a second motor; 15. a drive bevel gear; 16. and (5) protecting the shell.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

It will be apparent that numerous specific details are set forth in the following description in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced in other ways than as described herein, and therefore the present utility model is not limited to the specific embodiments of the present disclosure.

Referring to fig. 1-4, the present utility model provides a main supporting ejector rod structure for a membrane structure: including bottom plate 1, the top fixedly connected with of bottom plate 1 is the main tributary ejector pin 2 of vertical direction, the top rotation of main tributary ejector pin 2 is provided with regulating plate 3, the equal fixedly connected with extension board 4 in top both sides of regulating plate 3, and rotate between two extension boards 4 and be provided with regulating table 5, the top fixed mounting of regulating table 5 has the mount pad 6 that is used for carrying out fixed with membrane structure branch, be provided with on the main tributary ejector pin 2 and be used for making regulating plate 3 carry out left and right rotation's first adjusting component, be provided with on the extension board 4 and be used for making regulating table 5 carry out fore-and-aft pivoted second adjusting component, membrane structure's branch can carry out fixed mounting with mount pad 6 in the vertically state, and can make regulating table 5 carry out fore-and-aft rotation in order to drive mount pad 6 and carry out synchronous front-and-back rotation under the effect of second adjusting component, simultaneously first adjusting component can make regulating plate 3 carry out left-and-right rotation, and drive regulating table 5 and mount pad 6 carry out synchronous left-right rotation, make the angle of mount pad 6 can carry out two-way change, with the membrane structure under the state of being applicable to all kinds of inclination carries out the change, the fixed mounting according to the design change.

Referring to fig. 3, a reserved cavity 7 is formed in the main supporting rod 2, a first rotating shaft 8 in a vertical direction is rotatably connected to the bottom of the inner wall of the reserved cavity 7 through a bearing, and the top of the first rotating shaft 8 penetrates through the main supporting rod 2 and is fixed to the bottom of the adjusting plate 3, so that the adjusting plate 3 can be rotatably connected to the main supporting rod 2 along a horizontal plane.

In order to enable the adjusting plate 3 to rotate left and right, in some embodiments, it is proposed that the first adjusting component includes a first motor 9 fixedly installed at one side of the bottom of the inner wall of the reserved cavity 7 and having an upward output shaft, a driving spur gear 10 is fixedly connected to the end of the output shaft of the first motor 9, a driven spur gear 11 meshed with the driving spur gear 10 is fixedly sleeved on the circumferential surface of the first rotating shaft 8, the driving spur gear 10 is driven to rotate when the output shaft of the first motor 9 rotates, and the driving spur gear 10 can drive the driven spur gear 11 to rotate synchronously through the cooperation of teeth, so that the first rotating shaft 8 and the adjusting plate 3 rotate left and right.

The specific connection mode between the adjusting table 5 and the two support plates 4 is as follows, the two support plates 4 are rotatably connected with a second rotating shaft 12 in the left-right axial direction through a bearing, and the adjusting table 5 is fixedly sleeved on the second rotating shaft 12, so that the adjusting table 5 can be connected in a front-back rotation manner between the two support plates 4.

In order to enable the adjusting table 5 to rotate back and forth, in some embodiments, the second adjusting assembly includes a second motor 14 fixedly installed on one side of one of the support plates 4, a driving bevel gear 15 is fixedly connected to an end of an output shaft of the second motor 14, a driven bevel gear 13 meshed with the driving bevel gear 15 is fixedly connected to one side of the rotating shaft 12, when the output shaft of the second motor 14 rotates, the driving bevel gear 15 can be driven to rotate through tooth cooperation to drive the driven bevel gear 13 and the rotating shaft second 12, so that the adjusting table 5 and the mounting seat 6 can rotate back and forth, and an angle at which the membrane structure support rod is connected with the mounting seat 6 is changed.

In addition, one side of one support plate 4 is fixedly connected with a protective shell 16, and the driven bevel gear 13 and the driving bevel gear 15 are both positioned in the protective shell 16, so that other objects are prevented from being stirred into the driven bevel gear 13 and the driving bevel gear 15 in rotation, and the safety and the attractive effects are achieved.

Claims (6)

1. The utility model provides a membrane structure is with main tributary ejector pin structure, includes bottom plate (1), its characterized in that: the top fixedly connected with of bottom plate (1) is main tributary ejector pin (2) of vertical direction, and the top rotation of main tributary ejector pin (2) is provided with regulating plate (3), and the equal fixedly connected with extension board (4) in top both sides of regulating plate (3), and rotates between two extension boards (4) and be provided with adjustment platform (5), and the top fixed mounting of adjustment platform (5) has mount pad (6) that are used for carrying out fixedly with membrane structure branch, is provided with on main tributary ejector pin (2) and is used for making regulating plate (3) carry out left and right sides pivoted first adjusting part, is provided with on extension board (4) and is used for making adjustment platform (5) carry out fore-and-aft pivoted second adjusting part.

2. A primary support ram structure for a membrane structure according to claim 1, wherein: a reserved cavity (7) is formed in the main support ejector rod (2), a first rotating shaft (8) in the vertical direction is rotatably connected to the bottom of the inner wall of the reserved cavity (7) through a bearing, and the top of the first rotating shaft (8) penetrates through the main support ejector rod (2) and is fixed with the bottom of the adjusting plate (3).

3. A primary support ram structure for a membrane structure according to claim 2, wherein: the first adjusting component comprises a first motor (9) which is fixedly arranged at one side of the bottom of the inner wall of the reserved cavity (7) and has an upward output shaft, the tail end of the output shaft of the first motor (9) is fixedly connected with a driving spur gear (10), and the circumferential surface of the first rotating shaft (8) is fixedly sleeved with a driven spur gear (11) meshed with the driving spur gear (10).

4. A primary support ram structure for a membrane structure according to claim 1, wherein: the two support plates (4) are rotatably connected with a second rotating shaft (12) in the left-right axial direction through bearings, and the adjusting table (5) is fixedly sleeved on the second rotating shaft (12).

5. A primary support ram structure for a membrane structure according to claim 4, wherein: the second adjusting component comprises a second motor (14) fixedly arranged on one side of one support plate (4), the tail end of an output shaft of the second motor (14) is fixedly connected with a driving bevel gear (15), and one side of the second rotating shaft (12) penetrates through the support plate (4) and is fixedly connected with a driven bevel gear (13) meshed with the driving bevel gear (15).

6. A primary support ram structure for a membrane structure according to claim 5, wherein: one side of one support plate (4) is fixedly connected with a protective shell (16), and the driven bevel gear (13) and the driving bevel gear (15) are both positioned in the protective shell (16).

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