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JJF 1774-2019: Program of Pattern Evaluation of Ophthalmometers
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Program of Pattern Evaluation of Ophthalmometers
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JJF 1774-2019
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Basic data | Standard ID | JJF 1774-2019 (JJF1774-2019) | | Description (Translated English) | Program of Pattern Evaluation of Ophthalmometers | | Sector / Industry | Metrology & Measurement Industry Standard | | Classification of Chinese Standard | A60 | | Classification of International Standard | 17.180 | | Word Count Estimation | 26,239 | | Date of Issue | 2019 | | Date of Implementation | 2020-03-31 | | Issuing agency(ies) | State Administration for Market Regulation | JJF 1774-2019: Program of Pattern Evaluation of Ophthalmometers---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Program of Pattern Evaluation of Ophthalmometers
National Measurement Technical Specification of the People's Republic of China
Keratometer type evaluation outline
Published on December 31,.2019
2020-03-31 Implementation
Issued by the State Administration of Market Supervision and Administration
Keratometer type evaluation outline
Ophthalmometers
Centralized unit. National Medical Metrology Technical Committee
Main drafting unit. China Academy of Metrology
Participated in the drafting unit. Shandong Institute of Metrology
This specification entrusts the National Medical Metrology Technical Committee to interpret
The main drafters of this specification.
Zhang Jiyan (Chinese Academy of Metrology)
Liu Wenli (Chinese Academy of Metrology)
Sun Jie (Chinese Academy of Metrology)
Participating drafters.
Cui Tao (Shandong Institute of Metrology)
table of Contents
Introduction (Ⅲ)
1 Scope (1)
2 References (1)
3 Overview (1)
3.1 Purpose and classification (1)
3.2 Measuring principle (1)
4 Legal management requirements (2)
4.1 Unit of measurement (2)
4.2 Logo (2)
5 Measurement requirements (2)
5.1 Indication error of radius of curvature (2)
5.2 Repeatability of curvature radius measurement (3)
5.3 Corneal diopter indication error (3)
5.4 Indication error of axis position (3)
6 General technical requirements (3)
6.1 Appearance (3)
6.2 Measurement capability (3)
6.3 Environmental adaptability (4)
7 Type evaluation project table (4)
8 The applicant should submit the technical information, the number of prototypes provided and the use of prototypes (5)
8.1 Technical Information (5)
8.2 Number of prototypes provided (5)
8.3 How to use the prototype (5)
9 Sample methods and conditions of test items, data processing and qualification criteria (5)
9.1 Preparation before the test (5)
9.2 Appearance (6)
9.3 Measurement capability (6)
9.4 Indication error test of radius of curvature (6)
9.5 Repeatability test of curvature radius measurement (7)
9.6 Corneal refractive power indication error test (8)
9.7 Axial position indication error test (9)
9.8 Environmental adaptability test (9)
9.9 Judgment of type evaluation results (11)
10 Table of measuring instruments and equipment used in the test project (11)
11 Type evaluation original record format (12)
Appendix A Recommended Format for Keratometer Type Evaluation Records (13)
Introduction
This type evaluation outline is based on JJF 1015-2014 "General Specification for Type Evaluation of Measuring Instruments", JJF 1016-
2014 Compilation of "Guidelines for the Compilation of Type Appraisal Outline of Measuring Instruments".
The technical indicators of this type evaluation outline refer to JJG1011-2018 "Cornea Curvometer", GB/T 14710-
2009 "Environmental requirements and test methods for medical appliances", ISO 10343..2014 "Ophthalmic instrument keratometer"
(Ophthalmicinstruments-Ophthalmometers) and other technical documents, of which JJG1011-2018 and
GB/T 14710-2009 is the primary reference document.
This type evaluation outline is released for the first time.
Keratometer type evaluation outline
1 Scope
This type evaluation program is applicable to the type evaluation of the keratometer with classification code 33900000.
The type evaluation of the corneal curvature radius and axial position measurement function of the refractometer can refer to this type evaluation outline.
2 Reference documents
JJG1011 Keratometer
GB/T 14710 Environmental requirements and test methods for medical appliances
For dated reference documents, only the dated version is applicable to this type of evaluation outline; those that are not dated
The latest version (including all amendments) of the cited documents is applicable to this type evaluation outline.
3 Overview
3.1 Purpose and classification
The keratometer is mainly used to measure the radius of corneal curvature, corneal refractive power and astigmatism axis of the human eye. Partial corneal curvature
Rate meters can also be used for contact lens measurements.
The keratometer can be divided into continuous display type and digital display type according to the display mode. Continuous display is a
Continuously scaled keratometer; digital display is a type of cornea that rounds the measured value to the nearest incremental value
Curvometer.
Some refractometers also have functions to measure the radius of curvature and axial position of the human cornea.
3.2 Measuring principle
The keratometer uses the principle of corneal reflection to measure the radius of curvature of the human cornea, corneal refractive power and axial position.
The method of manual focusing is used visually. The measurement principle is shown in Figure 1.
Figure 1 Schematic diagram of measurement principle
The keratometer is generally composed of four parts. a light source, a measuring light path system, a visual observation system, and a reading system. its
The middle object reticle 1 and 2 are symmetrical with the optical axis at a fixed angle. When measuring the cornea of the human eye, divide from the object side
After the light emitted from the reticle 1 and 2 is reflected by the front surface of the cornea of the tested person, two images are generated, and the light continues to pass the measurement
After the optical path system, the image can be observed through the eyepiece. Operator moves corneal curvature through anterior, posterior, left, and right
The camera adjusts the focus and adjusts the axis position, and you can observe a clear image in the field of view of the eyepiece.
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