CN113484235A

CN113484235A - Device for measuring ice adhesion strength on surface of wind turbine blade

Info

Publication number: CN113484235A
Application number: CN202110707930.0A
Authority: CN
Inventors: 郭文峰; 牟忠秋; 李岩; 张影微
Original assignee: Northeast Agricultural University
Current assignee: Northeast Agricultural University
Priority date: 2021-06-25
Filing date: 2021-06-25
Publication date: 2021-10-08
Anticipated expiration: 2041-06-25
Also published as: CN113484235B

Abstract

A device for measuring the ice adhesion strength on the surface of a wind turbine blade belongs to detection instrument equipment; the deicing device comprises a seat plate assembly, a deicing plate, an n-shaped positioning plate, a supporting guide pillar, a blade mounting plate, a wind turbine blade, a deicing through hole, a left supporting plate and a right supporting plate, wherein the deicing plate and the n-shaped positioning plate are parallel to each other and are fixedly mounted on the left end part and the right end part of the seat plate assembly respectively; the device has the advantages of unique, reasonable and simple structure, low manufacturing cost, strong specificity, simple and convenient operation and accurate measurement data.

Description

Device for measuring ice adhesion strength on surface of wind turbine blade

Technical Field

The invention belongs to measuring instrument equipment, and mainly relates to a device for measuring the adhesion strength between the icing on the surface of a wind turbine blade and the wind turbine blade.

Background

Currently, studies on ice adhesion strength on the surface of materials are mainly focused on flat plate-like structures. The science and technology worker adopts three ice adhesion strength measuring devices such as shear type, stretching type and torsion type aiming at the ice adhesion research on the surface of the flat plate structure. However, the adhesion strength of the three devices to the surface ice of the wind turbine blade in the curved shape cannot be borne and tested. At present, no report is found in the research of the device for measuring the ice adhesion strength of the surface of the wind turbine blade at home and abroad.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and develops a device for measuring the ice adhesion strength on the surface of a wind turbine blade in a bent shape by combining with the actual requirements of the research and application of the wind turbine blade, so that the purposes of strong application specificity, accurate measurement data and simple, convenient and quick control are achieved.

The invention aims to realize the following aims that an deicing plate and an n-shaped positioning plate are fixedly installed on the left end and the right end of a seat plate assembly in parallel, supporting guide posts are fixedly installed on the front and the rear parts of the upper sides of the deicing plate and the n-shaped positioning plate in parallel, a blade installation plate is sleeved on the two supporting guide posts in a left-right axial movement manner, wind turbine blades are detachably installed on the opposite side surfaces of the blade installation plate and the deicing plate, deicing through holes matched with the shapes and the sizes of the wind turbine blades are formed in the deicing plate, and the wind turbine blades and the deicing through holes are in reciprocating motion and are in insertion fit or are out of insertion fit; the ice adhesion strength measuring device comprises a base plate assembly, a lead screw, a hand wheel, a sensor mounting plate, a pressure sensor, a blade mounting plate and a blade mounting plate, wherein the base plate assembly is provided with a left support plate and a right support plate which correspond to each other at the inner side parts opposite to the ice removing plate and an n-shaped positioning plate, the lead screw is radially and axially positioned and is circumferentially and rotatably supported and inserted on the left support plate and the right support plate, the hand wheel is fixedly arranged at the right end of the lead screw, the left support plate and the right support plate are respectively and fixedly provided with a support guide rail which is parallel to the front side part and the rear side part of the lead screw, the drive slide block is sleeved on the support guide rail in a left-right axial sliding mode and is in threaded rotation fit with the lead screw, the sensor mounting plate is fixedly arranged at the upper side part of the drive slide block, the pressure sensor is arranged at the side opposite to the blade mounting plate, and is in contact fit with or out of contact fit with the blade mounting plate, and the pressure sensor is formed into an ice adhesion strength measuring device for the surface of a wind turbine blade.

The invention adopts the relative movement, insertion and matching between the deicing through hole with the shape and the size matched with the blade of the wind turbine to be measured and the blade of the wind turbine with the ice adhered on the measured surface, and utilizes the shear type principle to complete the measurement of the ice adhesion strength on the surface of the blade of the wind turbine in the bent shape.

Drawings

FIG. 1 is a schematic diagram of an overall structure of a device for measuring ice adhesion strength on the surface of a wind turbine blade;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a left side view of FIG. 1;

FIG. 4 is a three-dimensional schematic diagram of a device for measuring ice adhesion strength on the surface of a wind turbine blade.

Description of part numbers in the figures:

1. the device comprises a seat plate assembly, 2, a left support plate, 3, a deicing through hole, 4, a deicing plate, 5, wind turbine blades, 6, a blade mounting plate, 7, a pressure sensor, 8, a sensor mounting plate, 9, a supporting guide pillar, 10, an n-shaped positioning plate, 11, a supporting guide rail, 12, a lead screw, 13, a hand wheel, 14, a right support plate, 15 and a driving slide block.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. A device for measuring the ice adhesion strength on the surface of a wind turbine blade is characterized in that an deicing plate 4 and an n-shaped positioning plate 10 are fixedly mounted on the left end and the right end of a seat plate assembly 1 in parallel, supporting guide posts 9 are fixedly mounted on the front and the rear parts of the upper sides of the deicing plate 4 and the n-shaped positioning plate 10 in parallel, the supporting guide posts 9 are respectively mounted on the front and the rear parts of the upper sides of the deicing plate 4 and the n-shaped positioning plate 10 in parallel, a blade mounting plate 6 is sleeved on the two supporting guide posts 9 in a left-right axial movement mode, a wind turbine blade 5 is detachably mounted on the side face, opposite to the deicing plate 4, of the blade mounting plate 4, a deicing through hole 3 matched with the shape and the size of the wind turbine blade 5 is formed in the deicing plate 4, and the wind turbine blade 5 and the deicing through hole 3 are in a reciprocating motion mode and are in an insertion fit or a separation insertion fit; a left support plate 2 and a right support plate 14 are fixedly arranged on the seat plate assembly 1 and are positioned at the corresponding inner side parts of the deicing plate 4 and the n-shaped positioning plate 10, respectively, a screw 12 is radially and axially positioned and is circumferentially and rotatably supported and inserted on the left support plate 2 and the right support plate 14, a hand wheel 13 is fixedly arranged on the right end head of the screw 12, the supporting guide rails 11 are fixedly arranged on the left support plate 2 and the right support plate 14 and are positioned at the front side and the rear side of the screw 12 in parallel, the driving slide block 15 is sleeved on the supporting guide rails 11 in a left-right axial sliding manner, the driving slide block 15 is in threaded rotary fit with the screw 12, and a sensor mounting plate 8 is fixedly arranged on the upper side part of the driving slide block 15, a pressure sensor 7 is arranged on the side surface of the sensor mounting plate 8 opposite to the blade mounting plate 6, and the pressure sensor 7 is in contact fit with or separated from the blade mounting plate 6.

When the device is used in operation, after the tested wind turbine blade 5 with ice adhesion on the surface is fixedly arranged on the blade mounting plate 6, the hand wheel 13 is rotated by hand to drive the screw rod 12 to rotate, the driving slide block 15 moves leftwards on the supporting guide rail 11, the blade mounting plate 6 is pushed leftwards to move on the supporting guide post 9 through the sensor mounting plate 8 and the pressure sensor 7 in sequence, the wind turbine blade 5 is driven to be gradually inserted into the deicing through hole 3 on the deicing plate 4, and under the action of shearing force formed between the deicing through hole 3 and the wind turbine blade 5, when the adhered ice is separated from the surface of the wind turbine blade 5, the pressure sensor 7 records a pressure signal in time, and the test is completed.

The device can be used for measuring the ice adhesion strength of wind turbine blades with different shapes and sizes, wind turbine blades with different materials and wind turbine blades with different surface roughness, provides technical support for analyzing the influence of the ice adhesion strength of the wind turbine blades, and is wide in application range.

Claims

1. The utility model provides a wind turbine blade surface ice adhesion strength measuring device which characterized in that: an deicing plate (4) and an n-shaped positioning plate (10) are fixedly mounted on the left end and the right end of a seat plate assembly (1) in parallel, supporting guide posts (9) are fixedly mounted on the front and rear parts of the upper sides of the deicing plate (4) and the n-shaped positioning plate (10) in parallel, a blade mounting plate (6) is sleeved on the two supporting guide posts (9) in a left-right axial movement manner, a wind turbine blade (5) is detachably mounted on the side surface of the blade mounting plate (6) opposite to the deicing plate (4), a deicing through hole (3) matched with the shape and size of the wind turbine blade (5) is formed in the deicing plate (4), and the wind turbine blade (5) and the deicing through hole (3) are in reciprocating motion and are in insertion fit or separated from insertion fit; a left support plate (2) and a right support plate (14) are fixedly arranged on the seat plate assembly (1) and are positioned at the corresponding inner side positions of the deicing plate (4) and the n-shaped positioning plate (10) correspondingly, a lead screw (12) is radially and axially positioned and is circumferentially rotatably supported and inserted on the left support plate (2) and the right support plate (14), a hand wheel (13) is fixedly arranged at the right end of the lead screw (12), supporting guide rails (11) are fixedly arranged on the left support plate (2) and the right support plate (14) and are positioned at the front side position and the rear side position of the lead screw (12) in parallel, a driving slide block (15) is sleeved on the supporting guide rails (11) in a left-right axial sliding manner, the driving slide block (15) is in threaded rotation fit with the lead screw (12), a sensor mounting plate (8) is fixedly arranged on the upper side portion of the driving slide block (15), and a pressure sensor (7) is arranged on the side surface of the sensor mounting plate (8) opposite to the blade mounting plate (6), the pressure sensor (7) is in contact fit or out of contact fit with the blade mounting plate (6).