CN201819882U - Vanceometer with adjustable angle - Google Patents

Abstract

The utility model provides a vanceometer with adjustable angle, which has a plurality of measure angles. The vanceometer comprises an outer housing with a testing window arranged at the bottom, and is characterized in that a transmitting rotary plate and a receiving rotary plate are arranged in bilateral symmetry inside the outer housing along a perpendicular center line of the testing window; a transmitting channel is arranged on the transmitting rotary plate; a light source, acid ground glass, a diaphragm, and a collimating lens are arranged in the transmitting channel in sequence; a receiving channel is arranged on the receiving rotary plate; a receiving lens and a glossiness sensor are arranged in the receiving channel in sequence; and a plurality of reflecting mirrors are arranged in bilateral symmetry inside the outer housing along the perpendicular center line of the testing window, wherein the reflecting mirrors on the side of the transmitting rotary plate are arranged in a manner that after the rotary plate is rotated, an incident ray of a light source is reflected through a reflecting mirror and irradiates on an identical point of a to-be-tested sample, and the reflecting mirrors on the side of the receiving rotary plate are arranged in a manner that after the rotary plate is rotated, the incident ray of the light source is reflected through the to-be-tested sample and irradiates on the glossiness sensor.

Description

Adjustable angle formula vancometer

Technical field

The utility model relates to a kind of device of measuring glossiness, a kind of specifically adjustable angle formula vancometer of measuring paint, plastics, pottery and metal surface gloss intensity.

Background technology

In the existing multi-angle vancometer, ordinary construction is that three parts that take measurement of an angle are contained on the mechanical hook-up according to standard group, and each angle all needs respectively independently light source, and photoelectric sensor.Three angles all can be worked when measuring.And in the work of reality, we only need to measure the gloss intensity of a certain specific material.And for different materials, it also is different that national standard takes measurement of an angle to it.The vancometer of obvious single angle is only limited to the standardized test for a kind of material.

The utility model content

The utility model is at the defective of existing vancometer, the adjustable angle formula vancometer that provides one kind of multiple to take measurement of an angle.

The technical solution of the utility model is: a kind of adjustable angle formula vancometer, comprise shell, outer casing bottom is provided with test window, it is characterized in that, vertical center line along test window in the shell is symmetrically set with the emission swivel plate and receives swivel plate, the emission swivel plate is provided with transmission channel, is provided with light source, frosted glass, diaphragm, collimation lens in the transmission channel successively; Receive swivel plate and be provided with receiving cable, be provided with receiver lens, gloss sensor in the receiving cable successively.

Vertical center line left-right symmetric along test window in the shell is provided with some catoptrons, wherein launch swivel plate one side catoptron be provided with satisfy swivel plate rotation back light source incident ray through being radiated at after the mirror reflects on the testing sample same point, being provided with of catoptron that receives swivel plate one side satisfied the incident ray that receives swivel plate rotation back light source shine gloss sensor after the testing sample reflection.

The utility model can change the incident angle of light source by rotation emission swivel plate, and shines the testing sample at test window place by reflective mirror, shines gloss sensor by catoptron after the testing sample reflection.

Above-mentioned adjustable angle formula vancometer can be provided with three rotation regulation stalls, is respectively 85 degree, 60 degree, 20 degree.

The utility model because incident angle is adjustable, is measured so can be used for the glossiness of various materials compared with prior art.Only adopt a transmission channel and receiving cable, reduced cost, compactness rational in infrastructure, easy to use.

Description of drawings

Fig. 1 is the utility model structural representation.

Among the figure, the 1-light source, the 2-shell, 3-frosted glass, the 4-diaphragm, the 5-collimation lens, the 6-test window, the 7-catoptron, 8-launches swivel plate, and 9-receives swivel plate, 10-testing sample, 11-receiver lens, 12-gloss sensor.

Specific embodiment

A kind of adjustable angle formula vancometer, comprise shell 2, shell 2 bottoms are provided with test window 6, it is characterized in that, vertical center line along test window 6 in the shell 2 is symmetrically set with emission swivel plate 8 and receives swivel plate 9, emission swivel plate 8 is provided with transmission channel, is provided with light source 1, frosted glass 3, diaphragm 4, collimation lens 5 in the transmission channel successively; Receive swivel plate 9 and be provided with receiving cable, be provided with receiver lens 11, gloss sensor 12 in the receiving cable successively.

Vertical center line left-right symmetric along test window 6 in the shell 2 is provided with some catoptrons 7, the satisfied incident ray of launching swivel plate 8 rotation back light sources 1 that is provided with of wherein launching the catoptron 7 of swivel plate 8 one sides is radiated on testing sample 10 same points after catoptron 7 reflections, and the satisfied incident ray that receives swivel plate 9 rotation back light sources 1 that is provided with of the catoptron 7 of reception swivel plate 9 one sides shines gloss sensor 12 after testing sample 10 reflects.

Light source 1 in the emission swivel plate 8 in the transmission channel is a led light source blue, that purple twin-core sheet adds YAG fluorescent powder formation, obtains having the uniform beam of certain spot size behind light process frosted glass 3, the diaphragm 4.This light beam becomes directional light through collimation lens 5.This directional light shines directly into test window 6 in the time of 60 °.Parallel beam reflexes to test window 6 through reflective mirror 7 when 20 ° and 85 °, and corresponding with transmission channel is receiving cable.Receiving cable is placed on and receives in the swivel plate 9.The reflected light of reaction testing sample 10 surface signals is delivered to receiver lens 11, gloss sensor 12 through catoptron 7, the light signal that receives is converted to electric signal, after oversampling circuit amplification, A/D conversion, be sent at last and carry out the computed in software processing in the flush bonding processor.

At last, it is also to be noted that what more than enumerate only is specific embodiment of the utility model, obviously, the utility model is not limited to above examples of implementation, and many distortion can also be arranged.All distortion that those of ordinary skill in the art can directly derive or associate from the disclosed content of the utility model all should be thought protection domain of the present utility model.

Claims (1)

1. adjustable angle formula vancometer, comprise shell, outer casing bottom is provided with test window, it is characterized in that, vertical center line along test window in the shell is symmetrically set with the emission swivel plate and receives swivel plate, the emission swivel plate is provided with transmission channel, is provided with light source, frosted glass, diaphragm, collimation lens in the transmission channel successively; Receive swivel plate and be provided with receiving cable, be provided with receiver lens, gloss sensor in the receiving cable successively; Vertical center line left-right symmetric along test window in the shell is provided with some catoptrons.

Images