CN216714028U - Iron tower perpendicularity adjusting device - Google Patents

Abstract

The utility model discloses a perpendicularity adjusting device for an iron tower, which comprises adjusting modules arranged on an iron tower base, wherein the adjusting modules are arranged below tower legs and correspond to the number of the tower legs one by one; the adjusting module comprises a lifting oil cylinder vertically arranged upwards in the base, a connecting seat is arranged above the lifting oil cylinder, and the adjusting module is connected with the tower foot through the connecting seat; the gasket is arranged between the connecting seat and the base and is in a ring shape, the gasket is formed by buckling two semicircular rings, through holes are formed in the gasket and the connecting seat, and mounting holes are correspondingly formed in the base. The adjusting device provided by the utility model has the advantages that the adjusting module is arranged on the tower foot, and the height of a single tower foot is adjusted through the adjusting module, so that the perpendicularity of the iron tower is adjusted, and the operation is convenient.

Description

Iron tower perpendicularity adjusting device

Technical Field

The utility model relates to the technical field of iron towers, in particular to perpendicularity adjusting equipment for an iron tower.

Background

After the iron tower is used for a long time or after geological settlement occurs, the condition that the perpendicularity deviates due to the inclination of the iron tower can occur, and the traditional iron tower is difficult to adjust after the iron tower inclines.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides the perpendicularity adjusting device for the iron tower, which is convenient to operate and can adjust the perpendicularity of the iron tower by arranging the adjusting module on the tower foot and adjusting the height of a single tower foot through the adjusting module.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides iron tower verticality adjusting equipment which comprises adjusting modules arranged on an iron tower base, wherein the adjusting modules are arranged below tower legs and correspond to the number of the tower legs one by one;

the adjusting module comprises a lifting oil cylinder vertically and upwards arranged in the base, a connecting seat is arranged above the lifting oil cylinder, and the adjusting module is connected with the tower foot through the connecting seat;

the gasket is arranged between the connecting seat and the base and is in a ring shape, the gasket is formed by buckling two semicircular rings, through holes are formed in the gasket and the connecting seat, and mounting holes are correspondingly formed in the base.

The working principle of the utility model is as follows: when the height of a single tower foot of an iron tower is adjusted, firstly, fixing screws of a fixing connecting seat and a base are detached, then, a lifting oil cylinder is started, the connecting seat is lifted by the lifting oil cylinder, the connecting seat is lifted to the designed height according to the height to be adjusted, the number of gaskets between the connecting seat and the base is adjusted afterwards, the whole height of the gaskets meets the height required by the connecting seat, then, a piston of the lifting oil cylinder is retracted, the connecting seat is pressed on the gaskets at the moment, and finally, the fixing screws are installed.

The iron tower verticality adjusting device is convenient to operate and can adjust the verticality of the iron tower by arranging the adjusting module on the tower foot and adjusting the height of a single tower foot through the adjusting module.

In a further technical scheme, the gasket at least comprises a lower gasket, a middle gasket and an upper gasket, wherein the bottom extension of the lower gasket and the bottom extension of the middle gasket are provided with an upward circle of concave parts, and the top extension of the middle gasket and the top extension of the lower gasket are provided with a downward circle of concave parts.

Through setting up gasket, lower gasket and well gasket for can realize fixing a position mutually through sunken between the gasket, avoid producing the skew of horizontal direction between the gasket, guarantee the supporting effect of gasket to the connecting seat, also make things convenient for the centering of through-hole on each layer gasket and the connecting seat.

In a further technical scheme, a through hole is also formed at the buckling position of the two semicircular rings.

The through holes are formed in the buckling positions of the two semicircular rings, so that the connection strength between the semicircular rings can be effectively guaranteed.

In a further technical scheme, the thickness of the gasket is 1mm-10 mm.

Through the gasket of chooseing for use different thickness, the use under the cooperation different geological conditions, can be accurate, convenient highly adjusting the connecting seat.

In a further technical scheme, a downward recess is formed in the surface of the base corresponding to the position of the gasket.

Under the condition of iron tower initial installation, only set up gasket, lower gasket and well gasket respectively one between connecting seat and the base, set up sunken on the base surface for the gasket can be hidden in this is sunken, avoids long-term solarization and rain to drench the corruption or the corrosion that leads to the gasket.

Has the advantages that:

1. the iron tower verticality adjusting device is convenient to operate and can adjust the verticality of the iron tower by arranging the adjusting module on the tower foot and adjusting the height of a single tower foot through the adjusting module.

2. Through setting up gasket, lower gasket and well gasket for can realize fixing a position mutually through sunken between the gasket, avoid producing the skew of horizontal direction between the gasket, guarantee the supporting effect of gasket to the connecting seat, also make things convenient for the centering of through-hole on each layer gasket and the connecting seat.

3. The through holes are formed in the buckling positions of the two semicircular rings, so that the connection strength between the semicircular rings can be effectively guaranteed.

4. Through the gasket of chooseing for use different thickness, the use under the cooperation different geological conditions, can be accurate, convenient highly adjusting the connecting seat.

5. Under the condition of iron tower initial installation, only set up gasket, lower gasket and well gasket respectively one between connecting seat and the base, set up sunken on the base surface for the gasket can be hidden in this is sunken, avoids long-term solarization and rain to drench the corruption or the corrosion that leads to the gasket.

Drawings

Fig. 1 is a top view of a device for adjusting perpendicularity of an iron tower according to an embodiment of the present invention;

fig. 2 is a schematic view of an installation structure of the iron tower verticality adjusting device according to the embodiment of the utility model;

fig. 3 is a schematic structural diagram of a gasket of the iron tower verticality adjusting device according to the embodiment of the present invention;

fig. 4 is a schematic view of a connection structure of a spacer of the iron tower verticality adjusting device according to the embodiment of the present invention.

Reference numerals:

10. a base; 20. an adjustment module; 21. lifting the oil cylinder; 22. a gasket; 221. a lower gasket; 222. a middle gasket; 223. an upper gasket; 224. a through hole; 23. a connecting seat; 24. and (5) tower legs.

Detailed Description

The utility model will be further described with reference to the accompanying drawings in which:

example (b):

as shown in fig. 1, an apparatus for adjusting perpendicularity of an iron tower includes adjustment modules 20 disposed on an iron tower base 10, wherein the adjustment modules 20 are disposed below tower legs 24 and correspond to the number of the tower legs 24 one by one, and in this embodiment, four tower legs 24 are taken as an example and correspond to four adjustment modules 20;

as shown in fig. 2, the adjusting module 20 includes a lifting cylinder 21 vertically and upwardly disposed in the base 10, a recess for mounting the lifting cylinder 21 is formed in a downward recess of the upper surface of the base 10, a connecting seat 23 is disposed above the lifting cylinder 21, and the adjusting module 20 is connected with a tower foot 24 through the connecting seat 23;

be provided with gasket 22 between connecting seat 23 and the base 10, gasket 22 is the ring shape, as shown in fig. 4, gasket 22 comprises two semicircle ring locks, has all seted up through-hole 224 on gasket 22 and the connecting seat 23, and the mounting hole has been seted up to the correspondence on the base 10, and when installation tower foot 24, pass the mounting hole realization on connecting seat 23, gasket 22 and the base 10 through set screw and fix.

The working principle of the utility model is as follows: when the height of a single tower foot 24 of an iron tower is adjusted, firstly, fixing screws of a fixed connecting seat 23 and a base 10 are detached, then a lifting oil cylinder 21 is started, the lifting oil cylinder 21 lifts the connecting seat 23, the connecting seat 23 is lifted to a designed height according to the height to be adjusted, then the number of gaskets 22 between the connecting seat 23 and the base 10 is adjusted, the overall height of the gaskets 22 meets the height required by the connecting seat 23, then a piston of the lifting oil cylinder 21 is retracted, the connecting seat 23 is pressed on the gaskets 22 at the moment, and finally, the fixing screws are installed.

When the gasket 22 is placed, the two semicircular rings are inserted into each other, attention needs to be paid to centering of the through hole 224 before or after insertion, and in actual use, only the fixing screw is detached from the base 10 without detaching the connecting seat 23 in a mode of retaining two fixing screws, the fixing screw is lifted up, and the semicircular rings are sleeved into the fixing screw to ensure centering of the vacant positions.

The height of the tower foot 24 is adjusted by the adjusting module 20 of the present invention by adjusting the number of the spacers 22, and the spacers 22 may or may not be preset in the initial state.

The iron tower verticality adjusting device is convenient to operate and can adjust the verticality of the iron tower by arranging the adjusting module 20 on the tower foot 24 and adjusting the height of the single tower foot 24 through the adjusting module 20.

In another embodiment, as shown in fig. 3, the spacer 22 at least comprises a lower spacer 221, a middle spacer 222 and an upper spacer 223, wherein the bottom extension of the lower spacer 221 and the middle spacer 222 has an upward circular recess, the top extension of the middle spacer 222 and the lower spacer 221 has a downward circular recess, the top surface of the upper spacer 223 is horizontal, and the bottom surface of the lower spacer 221 is horizontal.

In this embodiment, the iron tower is constructed by presetting one lower spacer 221, one upper spacer 223 and one middle spacer 222, and before adjusting the height of the tower foot 24, only the middle spacer 222 needs to be carried to the site, and the number of the middle spacers 222 is adjusted.

Through setting up gasket 223, lower gasket 221 and well gasket 222 for can realize mutual location through sunken between the gasket 22, avoid producing the skew of horizontal direction between the gasket 22, guarantee the supporting effect of gasket 22 to connecting seat 23, also make things convenient for the centering of through-hole 224 on each layer gasket 22 and the connecting seat 23.

In another embodiment, as shown in fig. 4, a through hole 224 is also formed at the fastening position of the two semicircular rings.

The through holes 224 are formed at the buckling positions of the two semicircular rings, so that the connection strength between the semicircular rings can be effectively ensured.

In another embodiment, the thickness of the shim 22 is 1mm to 10 mm.

Through choosing the gasket 22 of different thickness for use, the use under the cooperation different geological conditions can be accurate, convenient height to connecting seat 23 adjusts.

In another embodiment, as shown in FIG. 2, the surface of the base 10 is provided with a downward depression corresponding to the position of the pad 22.

Under the condition of initial installation of the iron tower, only one of the upper gasket 223, the lower gasket 221 and the middle gasket 222 is arranged between the connecting seat 23 and the base 10, and a recess is arranged on the surface of the base 10, so that the gasket 22 can be hidden in the recess, and corrosion or rusting of the gasket 22 caused by long-term exposure to the sun and rain is avoided.

In the present embodiment, the thickness of the lower pad 221, the middle pad 222 and the upper pad 223 is 1mm, and the depth of the recess on the surface of the base 10 is greater than 3mm, that is, the connecting seat 23 is located on the surface of the base 10, and the pad 22 is completely hidden in the recess.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed.

Claims (5)

1. The iron tower verticality adjusting equipment is characterized by comprising adjusting modules arranged on an iron tower base, wherein the adjusting modules are arranged below tower legs and correspond to the number of the tower legs one by one;

the adjusting module comprises a lifting oil cylinder vertically and upwards arranged in the base, a connecting seat is arranged above the lifting oil cylinder, and the adjusting module is connected with the tower foot through the connecting seat;

the gasket is arranged between the connecting seat and the base and is in a ring shape, the gasket is formed by buckling two semicircular rings, through holes are formed in the gasket and the connecting seat, and mounting holes are correspondingly formed in the base.

2. The iron tower verticality adjusting device according to claim 1, wherein the spacers at least comprise a lower spacer, a middle spacer and an upper spacer, the bottom extensions of the lower spacer and the middle spacer are provided with an upward circle of recesses, and the top extensions of the middle spacer and the lower spacer are provided with a downward circle of recesses.

3. The iron tower verticality adjusting device according to claim 1, wherein a through hole is also formed at the buckling position of the two semicircular rings.

4. The iron tower verticality adjusting device according to claim 1, wherein the thickness of the spacer is 1mm-10 mm.

5. The iron tower perpendicularity adjusting device as claimed in any one of claims 1 to 4, wherein a downward recess is formed in the surface of the base at a position corresponding to the gasket.

Images