CN215592395U

CN215592395U - Automatic hoop mechanism

Info

Publication number: CN215592395U
Application number: CN202121587532.1U
Authority: CN
Inventors: 任世明
Original assignee: Guizhou Aerospace Special Vehicle Co Ltd
Current assignee: Guizhou Aerospace Special Vehicle Co Ltd
Priority date: 2021-07-13
Filing date: 2021-07-13
Publication date: 2022-01-21
Anticipated expiration: 2031-07-13

Abstract

The utility model discloses an automatic hoop holding mechanism, which comprises: a base; one end of the left clamp hoop plate and the right clamp hoop plate are rotatably hinged on two opposite sides of the base, the left clamp hoop plate and the right clamp hoop plate are close to each other and contact with each other to form a hoop with the arc-shaped top surface of the base, the base occupies one fourth of the space of the whole hoop at most, and the left clamp hoop plate and the right clamp hoop plate occupy three fourths of the space of the whole hoop at least. The telescopic part that control telescoping cylinder B constitutes retracts, and the telescopic part that telescoping cylinder A constitutes stretches out, because the base accounts for the quarter in whole hoop space at most for left pincers staple bolt board drive cylinder crosses the axis and inclines towards right pincers staple bolt board direction, under the effect of cramping of left pincers staple bolt board and right pincers staple bolt board, realizes inclination angle regulation right, has solved and has received the restriction of staple bolt bracket both sides at present and can not carry out the problem of inclination regulation.

Description

Automatic hoop mechanism

Technical Field

The utility model relates to an automatic hoop mechanism, and belongs to the technical field of hoops.

Background

Sometimes, in order to conveniently hoist the cylinder, the periphery of the cylinder needs to be tightly held by using the hoop, and then the hoop is bound and installed by using a rope, so that the cylinder is conveniently hoisted; the traditional hoop is composed of two arc-shaped hoop plates, two ends of each arc-shaped hoop plate are fixed by using bolt assemblies to clamp the hoop, and although the clamping can be realized, the operation efficiency of the bolt assemblies is low;

the special hoop tool for installing the whole offshore wind turbine is disclosed as CN102730552B, and the special hoop tool is used for driving two arc-shaped hoop plates to be relatively close to each other to realize hooping a cylinder, so that the hoop can be automatically realized, but when the inclination angle of the two arc-shaped hoop plates needs to be adjusted after the cylinder hoop is clamped, the inclination angle cannot be adjusted due to the limitation of two sides of a hoop bracket.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an automatic hoop mechanism.

The utility model is realized by the following technical scheme.

The utility model provides an automatic hoop mechanism, which comprises:

a base for providing support, the base being a rigid body;

the base occupies at most one fourth of the space of the whole hoop, and the left clamp hoop plate and the right clamp hoop plate occupy at least three quarters of the space of the whole hoop;

the bottom of the left side and the right side of the base is correspondingly hinged with the left clamp hoop plate and the right clamp hoop plate through the rotating shaft to form a telescopic piece for providing telescopic motion, and the telescopic piece is telescopic to enable the left clamp hoop plate and the right clamp hoop plate to be close to and separated from each other.

The left clamp hoop plate and the bottom of the left side of the base are hinged with a telescopic cylinder A, and a telescopic part is a hydraulic cylinder A; the right clamp hoop plate and the bottom of the right side of the base are hinged with a telescopic cylinder B, and the telescopic part is the telescopic cylinder B.

The extensible member is an electric extensible rod or a pneumatic extensible rod.

A supporting lug A is fixed on the periphery of the left clamp hoop plate, and a supporting lug B is fixed on the periphery of the right clamp hoop plate;

the left clamp hoop plate and the support lug A are welded or integrally formed and fixed; and the right clamp hoop plate is welded or integrally formed and fixed with the support lug B.

The left clamp hoop plate and the right clamp hoop plate are rotatably hinged on two opposite sides of the base through a rotating shaft A.

The left clamp hoop plate and the right clamp hoop plate are arc-shaped, and the top surface of the base is arc-shaped.

The base is a rigid body made of metal or wood blocks or cement.

The utility model has the beneficial effects that: when the left-handed inclined angle needs to be adjusted, the telescopic part formed by the telescopic cylinder A is controlled to retract, the telescopic part formed by the telescopic cylinder B extends, and the base occupies at most one fourth of the whole hoop space, so that the right clamp hoop plate drives the cylinder to cross the central axis and incline towards the left clamp hoop plate, and the left inclined angle is adjusted under the clamping action of the left clamp hoop plate and the right clamp hoop plate; when the telescopic part that the control telescoping cylinder B constitutes withdraws when needs slope right, and the telescopic part that the telescoping cylinder A constitutes stretches out, because the base accounts for the fourth in whole hoop space at most for left pincers staple bolt board drive cylinder crosses the axis and inclines towards right pincers staple bolt board direction, under the effect of cramping of left pincers staple bolt board and right pincers staple bolt board, realizes inclination angle regulation right, has solved and has received the restriction of staple bolt bracket both sides at present and can not carry out the problem of inclination regulation.

Drawings

FIG. 1 is a schematic structural view of the present invention;

in the figure: 1-a base; 11-axis of rotation A; 21-left clamp plate; 22-right clamp plate; 23-support ear a; 24-support ears B; 31-telescoping cylinder a; 32-telescoping cylinder B.

Detailed Description

The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the described.

As shown in fig. 1.

The utility model discloses an automatic hoop holding mechanism, which comprises:

a base 1 for providing support, wherein the base can be a rigid body such as metal or wood block or cement;

the base comprises a left clamp hoop plate 21 and a right clamp hoop plate 22, wherein one ends of the left clamp hoop plate 21 and the right clamp hoop plate 22 are rotatably hinged to two opposite sides of a base 1 through a rotating shaft A11, the left clamp hoop plate 21 and the right clamp hoop plate 22 are arc-shaped, the top surface of the base 1 is arc-shaped, the left clamp hoop plate 21 and the right clamp hoop plate 22 are close to each other and then form a hoop with the arc-shaped top surface of the base 1, the base 1 occupies one fourth of the whole hoop space at most, and the left clamp hoop plate 21 and the right clamp hoop plate 22 occupy three quarters of the whole hoop space at least;

a support lug A23 is welded or integrally formed on the periphery of the left clamp hoop plate 21, and a support lug B24 is welded or integrally formed on the periphery of the right clamp hoop plate 22;

the supporting lug A23 and the bottom of the left side of the base 1 are rotatably hinged with a controllable telescopic cylinder A31 through a rotating shaft, the supporting lug B24 and the bottom of the right side of the base 1 are rotatably hinged with a controllable telescopic cylinder B32 through a rotating shaft, and a telescopic piece formed by the telescopic cylinder A31 and the telescopic cylinder B32 can also be an electric telescopic rod or a pneumatic telescopic rod.

When the left clamp hoop plate 21 and the right clamp hoop plate 22 need to adjust the inclination angle after hooping the cylinder, when the cylinder needs to incline leftwards, the telescopic part formed by the telescopic cylinder A31 is controlled to retract, and the telescopic part formed by the telescopic cylinder B32 extends out, so that the right clamp hoop plate 22 drives the cylinder to cross the central axis and incline towards the left clamp hoop plate 21 direction due to the fact that the base 1 occupies one fourth of the whole hoop space at most, and the left inclination angle is adjusted under the hooping effect of the left clamp hoop plate 21 and the right clamp hoop plate 22; when the telescopic part needs to be inclined rightwards, the telescopic part formed by the telescopic cylinder B32 is controlled to retract, the telescopic part formed by the telescopic cylinder A31 extends out, and the base 1 occupies one fourth of the whole hoop space at most, so that the left clamp hoop plate 21 drives the cylinder to cross the central axis and incline towards the right clamp hoop plate 22, and under the hooping action of the left clamp hoop plate 21 and the right clamp hoop plate 22, the adjustment of the inclination angle rightwards is realized, and the problem that the inclination angle cannot be adjusted due to the limitation of two sides of the hoop bracket at present is solved.

Claims

1. An automatic hoop mechanism is characterized in that a base (1) for supporting is provided, and the base (1) is a rigid body;

one end of the left clamp hoop plate (21) and one end of the right clamp hoop plate (22) are rotatably hinged to two opposite sides of the base (1), the left clamp hoop plate (21) and the right clamp hoop plate (22) are close to each other and then form a hoop with the arc-shaped top surface of the base (1), the base (1) occupies one fourth of the whole hoop space at most, and the left clamp hoop plate (21) and the right clamp hoop plate (22) occupy three fourths of the whole hoop space at least;

the left side and the right side of the base (1) are correspondingly hinged with a left clamp hoop plate (21) and a right clamp hoop plate (22) through a rotating shaft to form a telescopic part for providing telescopic motion, and the telescopic part is telescopic to enable the left clamp hoop plate (21) and the right clamp hoop plate (22) to be close to and separated from each other.

2. The automatic hoop mechanism of claim 1, wherein: the left clamp hoop plate (21) and the bottom of the left side of the base (1) are hinged with a telescopic cylinder A (31), and a telescopic piece is a hydraulic cylinder A (31) in the position; the right clamp hoop plate (22) and the bottom of the right side of the base (1) are hinged with a telescopic cylinder B (32), and the telescopic part is the telescopic cylinder B (32).

3. The automatic hoop mechanism of claim 1, wherein: the extensible member is an electric extensible rod or a pneumatic extensible rod.

4. The automatic hoop mechanism of claim 2 or 3, wherein: the periphery of the left clamp hoop plate (21) is fixed with a support lug A (23), and the periphery of the right clamp hoop plate (22) is fixed with a support lug B (24).

5. The automatic hoop mechanism of claim 4, wherein: the left clamp hoop plate (21) and the support lug A (23) are welded or integrally formed and fixed; the right clamp hoop plate (22) and the support lug B (24) are welded or integrally formed and fixed.

6. The automatic hoop mechanism of claim 5, wherein: the left clamp hoop plate (21) and the right clamp hoop plate (22) are rotatably hinged on two opposite sides of the base (1) through a rotating shaft A (11).

7. The automatic hoop mechanism of claim 6, wherein: the left clamp hoop plate (21) and the right clamp hoop plate (22) are rotatably hinged on two opposite sides of the base (1) through a rotating shaft A (11).

8. The automatic hoop mechanism of claim 1, wherein: the base (1) is a rigid body made of metal or wood blocks or cement.