CN111364785A

CN111364785A - Self-adaptive mechanical verticality adjusting inclined strut

Info

Publication number: CN111364785A
Application number: CN202010451935.7A
Authority: CN
Inventors: 龚剑; 吴联定; 房霆宸; 黄玉林; 杨佳林; 赵一鸣; 潘曦
Original assignee: Shanghai Construction Group Co Ltd
Current assignee: Shanghai Construction Group Co Ltd
Priority date: 2020-05-26
Filing date: 2020-05-26
Publication date: 2020-07-03
Anticipated expiration: 2040-05-26
Also published as: CN111364785B

Abstract

The invention provides a self-adaptive mechanical verticality adjusting diagonal bracing, which adopts a verticality monitor and a first rod section, an automatic adjusting device and a second rod section which are connected in sequence, wherein the verticality monitor is arranged on a supported member, the automatic adjusting device comprises a control system, a power system, a fine adjusting shaft, an adjusting gear and a driven wheel, two ends of the fine adjusting shaft are respectively in threaded connection with the first rod section and the second rod section, the thread directions of the two ends of the fine adjusting shaft are opposite, the control system controls the power system to drive the adjusting gear according to the verticality condition of the supported member measured by the verticality monitor, the adjusting gear drives the driven wheel, the driven wheel drives the fine adjusting shaft, the rotation of the fine adjusting shaft enables the first rod section and the second rod section to simultaneously move towards each other or away from each other, the adjustment of the distance between the first rod section and the second rod section is realized until the verticality of the supported member meets the requirement, the self-adaptive mechanical verticality adjustment device has the advantages that the self-locking function of the supported member is high in precision, high in efficiency and intelligent.

Description

Self-adaptive mechanical verticality adjusting inclined strut

Technical Field

The invention belongs to the technical field of building construction, and particularly relates to a self-adaptive mechanical verticality adjusting inclined strut.

Background

The prefabricated building has the advantages of convenience in construction, high engineering progress and environmental friendliness, and is more and more widely popularized and applied. In field installation construction, the installation precision, particularly the control precision of verticality, directly influences the construction quality of the whole structure.

At present, the perpendicularity adjusting and controlling method is generally adopted in a construction site for manual measurement and manual adjustment, the problems that the construction efficiency is low, the perpendicularity adjusting quality depends on the responsibility of operators and the like exist, and the construction quality and efficiency cannot be effectively guaranteed. Like "ZL 201610240387.7 self-adaptation bracing transfers the hydraulic pressure regulation pole that hangs down" the extension that has adopted hydraulic cylinder comes the length of control adjustment lever to reach the regulation effect, but hydraulic means has the hidden danger that leads to the hydraulic cylinder auto-lock insecure because of hydraulic oil leaks, has great influence to the precision of adjusting.

Therefore, there is a need to develop an adaptive automatic verticality adjusting device with a reliable self-locking function to automatically adjust the verticality of the supported component.

Disclosure of Invention

The invention aims to provide a self-locking high-precision, high-efficiency and intelligent self-adaptive mechanical verticality adjusting inclined strut, and solves the problems of low reliability, low efficiency, low precision, low automation degree and the like in the conventional verticality adjusting.

In order to solve the technical problems, the invention provides the following technical scheme:

an adaptive mechanically tuned droop brace, comprising: the verticality monitoring device comprises a verticality monitoring instrument, a first rod section, an automatic adjusting device and a second rod section, wherein the first rod section, the automatic adjusting device and the second rod section are sequentially connected, the verticality monitoring instrument is arranged on a supported member, one end of the first rod section is connected with the supported member, one end of the second rod section is connected with a horizontal fixed structure, the other end of the first rod section is connected with the other end of the second rod section through the automatic adjusting device, the automatic adjusting device comprises a control system, a power system, a fine adjusting shaft, an adjusting gear and a driven wheel, the control system is respectively connected with the verticality monitoring instrument and the power system, the power system drives the adjusting gear under the control of the control system, the adjusting gear is meshed with the driven wheel, the driven wheel is fixedly sleeved on the shaft body of the fine adjusting shaft, and two ends of the fine adjusting shaft are respectively in threaded connection with the first rod section and the second rod, and the thread directions at the two ends of the fine adjustment shaft are opposite, the control system controls the power system to drive the adjustment gear to rotate according to the perpendicularity condition of the supported member measured by the perpendicularity monitor, the adjustment gear drives the driven wheel to rotate, the driven wheel drives the fine adjustment shaft to rotate, the rotation of the fine adjustment shaft enables the first rod section and the second rod section to simultaneously move in opposite directions or move back to back, the adjustment of the distance between the first rod section and the second rod section is realized, and the perpendicularity of the supported member meets the requirement.

Preferably, in the above adaptive mechanical verticality adjusting diagonal brace, when the fine adjustment shaft rotates forward, the first rod section and the second rod section move respectively in a direction away from the fine adjustment shaft; when the fine adjustment shaft rotates reversely, the first rod section and the second rod section move towards the direction close to the fine adjustment shaft respectively.

Preferably, in the above adaptive mechanical verticality adjusting diagonal bracing, the first rod section includes a first section, a second section and a manual adjusting device, one end of the first section is connected to the supported member, one end of the second section is connected to the automatic adjusting device, the other end of the first section is connected to the other end of the second section through the manual adjusting device, and the manual adjusting device adjusts the verticality of the supported member by adjusting the distance between the first section and the second section.

Preferably, in foretell adaptive machinery transfers bracing that hangs down, manual adjusting device includes manual adjusting screw, twist grip and a pair of dead bolt, manual adjusting screw's both ends respectively with first subsection and second subsection threaded connection, just the screw thread opposite direction at manual adjusting screw's both ends, twist grip fixed cover is located on manual adjusting screw's the axle body, manual adjusting screw is equipped with a plurality of bolt holes along self interval, first subsection with the tip of being connected manual adjusting screw on the second subsection is equipped with corresponding bolt hole respectively, through dead bolt with manual adjusting screw respectively with first subsection and second subsection fixed connection.

Preferably, in the above adaptive mechanical tilt brace, the end of the first rod segment for connecting to the supported member is provided with a hook for connecting to the supported member.

Preferably, in the above adaptive mechanical verticality adjusting diagonal bracing, a hook for connecting with the horizontal fixing structure is arranged at an end part of the second rod section for connecting with the horizontal fixing structure.

Preferably, in the above adaptive mechanical verticality adjusting diagonal bracing, a protective housing is further included, the protective housing is fixed to the second rod section, and the power system, the control system, the adjusting gear, the driven wheel and the fine adjustment shaft are respectively installed in the protective housing.

Preferably, in the above-mentioned self-adaptive mechanical vertical adjustment bracing, the protective cover is of a tubular structure, one end face of the tubular structure is fixedly sleeved on the second rod section, the other end face of the tubular structure is provided with a through hole for the joint of the first rod section and the fine adjustment shaft to pass through, the control system is installed on the inner surface of the other end face of the tubular structure, the power system is installed on the inner surface of one end face of the tubular structure, and the adjustment gear is installed at the output part of the power system.

Preferably, in the above adaptive mechanical tilt strut, a pitch of the manual adjustment screw is greater than a pitch of the fine adjustment shaft.

Preferably, in the above adaptive mechanical tilt adjusting brace, an outer diameter of the adjusting gear is smaller than an outer diameter of the driven wheel.

Preferably, in the above adaptive mechanical verticality adjusting diagonal bracing, the power system is a motor reducer or a hydraulic motor.

According to the technical scheme disclosed above, compared with the prior art, the invention has the following beneficial effects:

in summary, the invention provides a self-adaptive mechanical verticality adjusting diagonal bracing, which adopts a verticality monitor, a first rod section, an automatic adjusting device and a second rod section which are connected in sequence, wherein the verticality monitor is arranged on a supported member, one end of the first rod section is connected with the supported member, one end of the second rod section is connected with a horizontal fixed structure, the automatic adjusting device comprises a control system, a power system, a fine adjusting shaft, an adjusting gear and a driven wheel, the control system is respectively connected with the verticality monitor and the power system, the power system drives the adjusting gear under the control of the control system, the adjusting gear is meshed with the driven wheel, the driven wheel is fixedly sleeved on the shaft body of the fine adjusting shaft, and two ends of the fine adjusting shaft are respectively in threaded connection with the first rod section and the second rod section, and the thread directions at the two ends of the fine adjustment shaft are opposite, the control system controls the power system to drive the adjustment gear to rotate according to the verticality condition of the supported member measured by the verticality monitor, the adjustment gear drives the driven wheel to rotate, the driven wheel drives the fine adjustment shaft to rotate, the rotation of the fine adjustment shaft enables the first rod section and the second rod section to simultaneously move in opposite directions or move back to back, the distance between the first rod section and the second rod section is adjusted until the verticality of the supported member meets the requirement, therefore, the self-adaptive mechanical verticality adjustment with the self-locking function of the supported member is high in precision, efficiency and intelligence, and the problems of low reliability, low efficiency, low precision, low automation degree and the like in the conventional verticality adjustment are solved. In addition, compared with the prior art that the length of the inclined strut is controlled by adopting the extension of the hydraulic oil cylinder, the hydraulic device has the hidden trouble that the self-locking of the hydraulic oil cylinder is unreliable due to the leakage of the hydraulic oil, and has great influence on the adjustment precision; according to the self-locking type self-adaptive mechanical vertical-adjustment inclined strut, the adjusting gear and the driven wheel which are meshed with each other are adopted, so that the power of a power system can be transmitted to the fine adjustment shaft, the reliable self-locking of the fine adjustment shaft can be realized, and the stability and the safety of the self-adaptive mechanical vertical-adjustment inclined strut are improved.

Drawings

Fig. 1 is a schematic structural diagram of a self-adaptive mechanical verticality adjusting diagonal bracing according to the present invention.

Fig. 2 is a schematic view of the structure of the first segment of the first pole segment.

Fig. 3 is a schematic structural diagram of the automatic adjusting device.

Fig. 4 is a schematic view of a manual adjustment device.

In the figure: 1-verticality monitor, 2-first rod section, 2.1-first section, 2.2-second section, 2.3-manual adjusting device, 2.3.1-manual adjusting screw, 2.3.2-rotary handle, 2.3.3-bolt hole, 3-automatic adjusting device, 4-second rod section, 5-supported member, 6-horizontal fixing structure, 7-control system, 8-power system, 9-fine adjusting shaft, 10-adjusting gear, 11-driven wheel, 12-hook and 13-protective housing.

Detailed Description

The invention is described in further detail below with reference to the figures and specific examples. The technical contents and features of the present invention will be described in detail below with reference to the embodiments illustrated in the accompanying drawings. It is further noted that the drawings are in greatly simplified form and are not to precise scale, merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention. For convenience of description, the directions of "up" and "down" described below are the same as the directions of "up" and "down" in the drawings, but this is not a limitation of the technical solution of the present invention.

Referring to fig. 1 to 4, the present embodiment discloses an adaptive mechanical verticality adjusting diagonal brace, including: perpendicularity monitor 1 and the first pole section 2, automatic regulating device 3 and the second pole section 4 that connect gradually, the perpendicularity monitor 1 sets up on by supporting member 5, the one end of first pole section 2 is connected by supporting member 5, the one end of second pole section 4 is connected on horizontal fixed knot constructs 6, the other end of first pole section 2 and the other end of second pole section 4 pass through automatic regulating device 3 connects, automatic regulating device 3 can be based on the straightness circumstances of hanging down of being supported member 5 that the straightness monitor 1 surveyed, is adjusted by the straightness that hangs down of supporting member 5 through adjusting the distance between first pole section 2 and the second pole section 4. The automatic adjusting device 3 comprises a control system 7, a power system 8, a fine adjusting shaft 9, an adjusting gear 10 and a driven wheel 11, wherein the control system 7 is respectively connected with the verticality monitor 1 and the power system 8, the power system 8 drives the adjusting gear 10 under the control of the control system 7, the adjusting gear 10 is meshed with the driven wheel 11, the driven wheel 11 is fixedly sleeved on the shaft body of the fine adjusting shaft 9, two ends of the fine adjusting shaft 9 are respectively in threaded connection with the first rod section 2 and the second rod section 4, the thread directions of the two ends of the fine adjusting shaft 9 are opposite, the control system 7 controls the adjusting gear 10 to be driven to rotate by the power system 8 according to the verticality condition of the supported member 5 measured by the verticality monitor 1, the adjusting gear 10 drives the driven wheel 11 to rotate, the driven wheel 11 drives the fine adjusting shaft 9 to rotate, the rotation of the fine adjustment shaft 9 enables the first rod section 2 and the second rod section 4 to move towards each other or away from each other at the same time, so that the distance between the first rod section 2 and the second rod section 4 can be adjusted until the verticality of the supported member 5 meets the requirement.

The invention provides a self-adaptive mechanical verticality adjusting diagonal bracing, which adopts a verticality monitor 1 and a first rod section 2, an automatic adjusting device 3 and a second rod section 4 which are sequentially connected, wherein the verticality monitor 1 is arranged on a supported member 5, one end of the first rod section 2 is connected with the supported member 5, one end of the second rod section 4 is connected with a horizontal fixing structure 6, the automatic adjusting device 3 comprises a control system 7, a power system 8, a fine adjusting shaft 9, an adjusting gear 10 and a driven wheel 11, the control system 7 is respectively connected with the verticality monitor 1 and the power system 8, the power system 8 drives the adjusting gear 10 under the control of the control system 7, the adjusting gear 10 is meshed with the driven wheel 11, the driven wheel 11 is fixedly sleeved on the shaft body of the fine adjusting shaft 9, two ends of the fine adjusting shaft 9 are respectively in threaded connection with the first rod section 2 and the second rod section 4, and the thread directions of the two ends of the fine adjustment shaft 9 are opposite, the control system 7 controls the power system 8 to drive the adjustment gear 10 to rotate according to the verticality condition of the supported member 5 measured by the verticality monitor 1, the adjustment gear 10 drives the driven wheel 11 to rotate, the driven wheel 11 drives the fine adjustment shaft 9 to rotate, and the rotation of the fine adjustment shaft 9 enables the first rod section 2 and the second rod section 4 to simultaneously move in opposite directions or move in opposite directions, so that the distance between the first rod section 2 and the second rod section 4 is adjusted until the verticality of the supported member 5 meets the requirement, thereby realizing high-precision, high-efficiency and intelligent self-adaptive mechanical verticality adjustment of the supported member 5, and solving the problems of low reliability, low efficiency, low precision, low automation degree and the like in the conventional verticality adjustment. In addition, by adopting the adjusting gear 10 and the driven wheel 11 which are meshed with each other, the power of the power system 8 can be transmitted to the fine adjusting shaft 9, the stable self-locking of the fine adjusting shaft 9 can be realized, and the stability and the safety of the self-adaptive mechanical verticality adjusting inclined strut are improved.

Preferably, in the above adaptive mechanical verticality adjusting inclined strut, when the fine adjustment shaft 9 rotates forward, the first rod segment 2 and the second rod segment 4 move respectively in a direction away from the fine adjustment shaft 9, that is, move back to back, so as to extend the entire length of the adaptive mechanical verticality adjusting inclined strut; when the fine adjustment shaft 9 rotates reversely, the first rod section 2 and the second rod section 4 move towards the direction close to the fine adjustment shaft 9 respectively, namely move towards each other, so that the overall length of the self-adaptive mechanical vertical adjustment inclined strut is shortened, and the accurate perpendicularity adjustment of the supported member 5 is realized. The forward rotation and the reverse rotation of the fine adjustment shaft 9 are controlled by the control system 7 through the power system 8 according to the verticality condition of the supported member 5 measured by the verticality monitor 1, so that the verticality adjustment precision is high, and the automatic verticality adjustment can be realized.

Preferably, in the above adaptive mechanical verticality adjusting diagonal bracing, the first rod segment 2 includes a first segment 2.1, a second segment 2.2 and a manual adjusting device 2.3, one end of the first segment 2.1 is connected to the supported member 5, one end of the second segment 2.2 is connected to the automatic adjusting device 3, the other end of the first segment 2.1 is connected to the other end of the second segment 2.2 through the manual adjusting device 2.3, and the manual adjusting device 2.3 adjusts the verticality of the supported member 5 by adjusting the distance between the first segment 2.1 and the second segment 2.2. By splitting the first pole segment 2 into the first segment 2.1 and the second segment 2.2 and connecting the first segment 2.1 and the second segment 2.2 by the manual adjustment device 2.3, the distance between the first segment 2.1 and the second segment can be preliminarily adjusted by the manual adjustment device 2.3, i.e. the perpendicularity of the supported member 5 can be preliminarily adjusted by the manual adjustment device 2.3 under visual observation.

Preferably, in the above-mentioned self-adaptive mechanical verticality adjusting inclined strut, the manual adjusting device 2.3 includes a manual adjusting screw 2.3.1, a rotating handle 2.3.2 and a pair of locking bolts, two ends of the manual adjusting screw 2.3.1 are respectively in threaded connection with the first subsection 2.1 and the second subsection 2.2, and the two ends of the manual adjusting screw 2.3.1 are opposite in thread direction, the rotating handle 2.3.2 is fixedly sleeved on the shaft body of the manual adjusting screw 2.3.1, the manual adjusting screw 2.3.1 is provided with a plurality of bolt holes 2.3.3 along the self interval, the ends of the first subsection 2.1 and the second subsection 2.2, which are connected with the manual adjusting screw 2.3.1, are respectively provided with corresponding bolt holes 2.3.3, and the manual adjusting screw 2.3.1 is respectively fixedly connected with the first subsection 2.1 and the second subsection 2.2 through the locking bolts. In this embodiment, when the rotating handle 2.3.2 rotates clockwise, the first segment 2.1 and the second segment 2.2 move back to back along the manual adjusting screw 2.3.1, so that the length of the first rod segment 2 is elongated, and further the overall length of the adaptive mechanical verticality adjusting inclined strut is elongated; when the twist grip 2.3.2 anticlockwise rotation, first segmentation 2.1 and second segmentation 2.2 along manual adjusting screw 2.3.1 removal in opposite directions for the length of first pole section 2 shortens, and then makes the whole length of self-adaptation mechanical transfer bracing that hangs down shorten, with the realization by the preliminary adjustment of the straightness that hangs down of supporting member 5.

Preferably, in the above self-adaptive mechanically-adjusted vertical bracing, the thread pitch on the manual adjusting screw 2.3.1 is greater than that of the fine adjusting shaft 9, so that the length of the bracing can be adjusted quickly by using the manual adjusting screw 2.3.1 with a larger thread pitch; the accurate adjustment of the length of the sprag is achieved by using a fine adjustment shaft 9 of smaller pitch.

Preferably, in the above-mentioned adaptive mechanical tilt adjusting brace, the outer diameter of the adjusting gear 10 is smaller than the outer diameter of the driven wheel 11. The power of the regulating gear 10 with a higher speed can be converted into the driven wheel 11 with a lower speed, so that the rotating speed of the fine regulating shaft 9 can be reduced, and the control precision of the fine regulating shaft 9 is improved.

Preferably, in the above-mentioned adaptive mechanical verticality-adjusting diagonal bracing, a hook 12 for connecting with the horizontal fixing structure 6 is arranged at the end of the second rod section 4 for connecting with the horizontal fixing structure 6. The hook 12 can facilitate the connection between the supported member 5 and the horizontal fixing structure 6, and the movable connection between the supported member 5 and the horizontal fixing structure 6 can be realized, thereby facilitating the angle adjustment between the two.

Preferably, in the above-mentioned adaptive mechanical tilt-adjusting brace, the end of the first rod segment 2 for connecting to the supported member 5 is provided with a hook for connecting to the supported member 5. The hook is arranged, so that the first rod section 2 can be conveniently connected with the supported member 5, the movable connection between the first rod section 2 and the supported member 5 can be realized, and the angle adjustment between the first rod section 2 and the supported member 5 is facilitated.

Preferably, in the aforesaid self-adaptation mechanical adjustment bracing that hangs down, still include a protection housing 13, protection housing 13 is fixed in on the second pole section 4, driving system 8, control system 7, adjusting gear 10, from driving wheel 11 and accurate adjustment shaft 9 install respectively in protection housing 13, through setting up protection housing 13, can protect inside protection driving system 8, control system 7, adjusting gear 10, from driving wheel 11 and accurate adjustment shaft 9 to improve the life of self-adaptation mechanical adjustment bracing that hangs down.

Preferably, in the above adaptive mechanical verticality adjusting diagonal bracing, the protective cover is of a tubular structure, one end face of the tubular structure is fixedly sleeved on the second rod section 4, the other end face of the tubular structure is provided with a through hole for the connection part of the first rod section 2 and the fine adjustment shaft 9 to pass through, the control system 7 is installed on the inner surface of the other end face of the tubular structure, the power system 8 is installed on the inner surface of one end face of the tubular structure, and the adjustment gear 10 is installed at the output part of the power system 8. By adopting the structure, the power system 8, the control system 7, the adjusting gear 10, the driven wheel 11 and the fine adjusting shaft 9 can be reasonably arranged in the protective housing 13, so that the overall structure of the protective housing 13 is more compact and lighter.

Preferably, in the above adaptive mechanical verticality adjusting inclined strut, the power system 8 may be selected as a motor reducer or a hydraulic motor.

The above description is only for the purpose of describing the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention, and any variations and modifications made by those skilled in the art based on the above disclosure are within the scope of the appended claims.

Claims

1. An adaptive mechanically-tuned vertical brace, comprising: the verticality monitoring device comprises a verticality monitoring instrument, a first rod section, an automatic adjusting device and a second rod section, wherein the first rod section, the automatic adjusting device and the second rod section are sequentially connected, the verticality monitoring instrument is arranged on a supported member, one end of the first rod section is connected with the supported member, one end of the second rod section is connected with a horizontal fixed structure, the other end of the first rod section is connected with the other end of the second rod section through the automatic adjusting device, the automatic adjusting device comprises a control system, a power system, a fine adjusting shaft, an adjusting gear and a driven wheel, the control system is respectively connected with the verticality monitoring instrument and the power system, the power system drives the adjusting gear under the control of the control system, the adjusting gear is meshed with the driven wheel, the driven wheel is fixedly sleeved on the shaft body of the fine adjusting shaft, and two ends of the fine adjusting shaft are respectively in threaded connection with the first rod section and the second rod, and the thread directions at the two ends of the fine adjustment shaft are opposite, the control system controls the power system to drive the adjustment gear to rotate according to the perpendicularity condition of the supported member measured by the perpendicularity monitor, the adjustment gear drives the driven wheel to rotate, the driven wheel drives the fine adjustment shaft to rotate, the rotation of the fine adjustment shaft enables the first rod section and the second rod section to simultaneously move in opposite directions or move back to back, the adjustment of the distance between the first rod section and the second rod section is realized, and the perpendicularity of the supported member meets the requirement.

2. The adaptive mechanically tuned droop strut of claim 1, wherein said first segment and said second segment each move away from said fine tuning shaft when said fine tuning shaft is rotating in a forward direction; when the fine adjustment shaft rotates reversely, the first rod section and the second rod section move towards the direction close to the fine adjustment shaft respectively.

3. The adaptive mechanical drop diagonal brace of claim 2, wherein the first pole segment comprises a first segment, a second segment, and a manual adjustment device, one end of the first segment is connected to the supported member, one end of the second segment is connected to the automatic adjustment device, the other end of the first segment is connected to the other end of the second segment through the manual adjustment device, and the manual adjustment device adjusts the verticality of the supported member by adjusting the distance between the first segment and the second segment.

4. The adaptive mechanical verticality adjusting diagonal bracing according to claim 3, wherein the manual adjusting device comprises a manual adjusting screw, a rotating handle and a pair of locking bolts, two ends of the manual adjusting screw are respectively in threaded connection with the first section and the second section, the thread directions of the two ends of the manual adjusting screw are opposite, the rotating handle is fixedly sleeved on a shaft body of the manual adjusting screw, the manual adjusting screw is provided with a plurality of bolt holes along the manual adjusting screw at intervals, the end parts of the first section and the second section, which are connected with the manual adjusting screw, are respectively provided with corresponding bolt holes, and the manual adjusting screw is respectively fixedly connected with the first section and the second section through the locking bolts.

5. The adaptive mechanically tuned vertical stay according to claim 4, further comprising a protective housing secured to said second pole segment, said power system, control system, adjustment gear, driven wheel and fine adjustment shaft being mounted within said protective housing, respectively.

6. The adaptive mechanical droop strut as claimed in claim 5, wherein the protecting cover is a cylindrical structure, one end face of the cylindrical structure is fixedly sleeved on the second rod section, the other end face of the cylindrical structure is provided with a through hole for the connection of the first rod section and the fine adjustment shaft to pass through, the control system is mounted on the inner surface of the other end face of the cylindrical structure, the power system is mounted on the inner surface of one end face of the cylindrical structure, and the adjustment gear is mounted at the output part of the power system.

7. The adaptive mechanically tuned plumbing stay of claim 4, wherein a pitch of said manual adjustment screw is greater than a pitch of said fine adjustment shaft.

8. The adaptive mechanically tuned droop strut of claim 1, wherein said tuning gear has an outer diameter less than an outer diameter of the driven wheel.

9. The adaptive mechanical droop strut of claim 1, wherein said first pole segment has a hook at an end for attachment to a supported member.

10. The adaptive mechanically tuned vertical brace of claim 1, wherein said second pole segment has a hook at an end for attachment to a horizontal fixed structure.