CN214374297U - Door and window glass optical property testing device - Google Patents

Abstract

The utility model provides a door and window glass optical property testing arrangement belongs to glass performance check out test set technical field. The utility model discloses a base, infrared emission lamp, thermal actuator, ultraviolet emission lamp, infrared lamp adjusting device, ultraviolet lamp adjusting device, infrared ray measuring apparatu and ultraviolet ray measuring apparatu, infrared emission lamp passes through the wire with infrared lamp adjusting device and is connected, and ultraviolet emission lamp passes through the wire with ultraviolet lamp adjusting device and is connected, and ultraviolet emission lamp sets up with ultraviolet ray measuring apparatu relatively, and infrared emission lamp sets up with thermal actuator and infrared ray measuring apparatu relatively, and the thermal actuator is located between infrared ray measuring apparatu and the ultraviolet ray measuring apparatu. To non-technical personnel, compare in a large amount of measured data, the utility model discloses used heat actuated instrument, ultraviolet ray measuring apparatu and infrared measuring apparatu bandwagon effect is better, and has simple structure, sets up rationally, and advantage that the cost of manufacture is low can play the effect of publicity better, has actual popularization and using value.

Description

Door and window glass optical property testing device

Technical Field

The utility model relates to a glass capability test equipment technical field particularly, relates to a door and window glass optical property testing arrangement.

Background

When ultraviolet light is strongly applied to the skin, photo dermatitis may occur, and erythema, itching, blister, edema, ophthalmalgia, lacrimation, etc. may occur on the skin, which may also cause skin cancer. When ultraviolet rays act on eyes, conjunctivitis and keratitis can be caused, cataract can be induced, and ultraviolet rays generated in the welding process can cause welders to suffer from electric ophthalmia.

Infrared is a kind of heat radiation, which can cause high temperature damage to human body, and stronger infrared can cause skin damage, and the condition is similar to scald. The infrared ray with the wavelength of 7500-13000 angstroms has higher transmittance to the cornea of the eye, which can cause damage to the retina of the fundus oculi. Infra-red rays below 13000 angstroms can penetrate the iris causing damage to the iris, which can cause cataracts in the human eye if exposed to infra-red rays for a long period of time.

The blocking rate of ultraviolet rays and infrared rays is one of important indexes for measuring the quality of door and window glass, the blocking rate is higher, more indoor personnel can be guaranteed not to be damaged by external light rays, the heat preservation and insulation effect of the door and window can be improved, the glass optical performance testing device in the prior art cannot more intuitively display the blocking effect of different glass on the ultraviolet rays and the infrared rays under different illumination conditions, a large amount of measurement data are difficult to intuitively understand for non-technical personnel, the persuasion of a conclusion obtained by the measurement data is weak, and a good explanation effect cannot be achieved.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is:

the glass optical property testing device in the prior art can not more intuitively show the blocking effect of different glasses on ultraviolet rays and infrared rays under different illumination conditions, and is difficult for non-technical personnel to intuitively understand measured data and weaker in persuasion.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted:

the utility model provides a door and window glass optical performance testing device, which comprises a base, an infrared emission lamp and a thermal actuator, the ultraviolet emitting lamp and the thermal actuator are positioned on the base, and also comprise an ultraviolet emitting lamp, an infrared lamp adjusting device, an ultraviolet lamp adjusting device, an infrared measuring instrument and an ultraviolet measuring instrument, the ultraviolet emission lamp, the infrared lamp adjusting device, the ultraviolet lamp adjusting device, the infrared measuring instrument and the ultraviolet measuring instrument are all arranged on the base, the infrared emission lamp is connected with the infrared lamp adjusting device through a lead, the ultraviolet emission lamp is connected with the ultraviolet lamp adjusting device through a lead, the ultraviolet emission lamp is arranged opposite to the ultraviolet measuring instrument, the infrared emission lamp is arranged opposite to the thermal actuator and the infrared measuring instrument, and the thermal actuator is positioned between the infrared measuring instrument and the ultraviolet measuring instrument.

Optionally, the thermal actuator comprises a fan, a solar receiving panel, a thermal actuator base and a fan connecting rod, the fan is mounted at one end of the fan connecting rod, the other end of the fan connecting rod is connected with the thermal actuator base, the solar receiving panel is arranged on the fan connecting rod, and the solar receiving panel is connected with the fan through a wire.

Optionally, the base is provided with a glass fixing groove to be detected, and the glass fixing groove to be detected is used for fixing glass to be detected.

Optionally, the width of the glass fixing groove to be detected is 3-6 cm.

Optionally, the infrared lamp adjusting device is provided with an infrared lamp adjusting knob, and the ultraviolet lamp adjusting device is provided with an ultraviolet lamp adjusting knob.

Optionally, the infrared measuring instrument is an infrared blocking rate testing device, and the ultraviolet measuring instrument is an ultraviolet blocking rate testing device.

Optionally, the base, the thermal actuator base and the measuring instrument base are all solid wood bases, and the fan connecting rod is a solid wood connecting rod.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model relates to a door and window glass optical property testing arrangement, including ultraviolet lamp adjusting device and infrared lamp adjusting device, simulate the intensity of sunshine in different areas, different seasons through adjusting different ultraviolet ray and infrared ray illumination intensity, the infrared ray illumination intensity is different, and the fan rotational speed in the thermal actuator is different, and when the infrared ray separation rate of glass reached certain degree, the fan can stop rotating; the glass to be measured is provided with an ultraviolet ray measuring instrument and an infrared ray measuring instrument, and the corresponding blocking rate of the glass to be measured to ultraviolet rays and infrared rays is displayed under different ultraviolet ray and infrared ray illumination intensities; compared with the prior art, the adjustable setting of ultraviolet ray and infrared ray can demonstrate the separation rate of the glass that awaits measuring under the different environment, cooperates the rotational speed of thermal instrument fan to and ultraviolet ray measuring apparatu and infrared measuring apparatu's separation rate, can demonstrate the window glass of going out more directly perceivedly to ultraviolet ray and infrared ray's separation effect, to non-technical personnel, compare in a large amount of measured data understanding more easily, just the utility model has the advantages of simple structure, it is reasonable to set up, and the cost of manufacture is low, can play the performance explanation effect better, has actual popularization and using value.

Drawings

Fig. 1 is a first three-dimensional structure diagram of the optical performance testing device for door and window glass of the present invention;

FIG. 2 is a second three-dimensional structure diagram of the optical property testing device for door and window glass of the present invention;

FIG. 3 is a schematic structural view of a door and window glass optical property testing device according to the present invention;

fig. 4 is a schematic structural diagram of the thermal actuator of the present invention.

Description of reference numerals:

1-base, 2-infrared lamp adjusting device, 3-infrared lamp adjusting button, 4-ultraviolet lamp adjusting device, 5-ultraviolet lamp adjusting button, 6-ultraviolet emission lamp, 7-infrared emission lamp, 8-ultraviolet measuring instrument, 9-thermal actuator, 10-infrared measuring instrument, 11-glass fixing groove to be measured, 12-measuring instrument base, 14-power line, 15-glass to be measured, 91-fan, 92-solar receiving plate, 93-thermal actuator base and 94-fan connecting rod.

Detailed Description

In the description of the present invention, it should be noted that terms such as "upper", "lower", "front", "rear", "left", "right", etc. in the embodiments indicate terms of orientation, and are only used for simplifying the description of positional relationships based on the drawings of the specification, and do not represent that the elements, devices, etc. indicated must be operated according to the specific orientation and defined operation and method, configuration in the specification, and such terms of orientation do not constitute limitations of the present invention.

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1 to 3, the present invention provides a door and window glass optical property testing device, which comprises a base, an infrared emission lamp, a thermal actuator, an ultraviolet emission lamp, an infrared lamp adjusting device, an ultraviolet lamp adjusting device, an infrared measuring instrument and an ultraviolet measuring instrument, wherein the ultraviolet emission lamp and the thermal actuator are disposed on the base, the ultraviolet emission lamp, the infrared lamp adjusting device, the ultraviolet lamp adjusting device, the infrared measuring instrument and the ultraviolet measuring instrument are disposed on the base, the infrared emission lamp is connected with the infrared lamp adjusting device through a wire, the ultraviolet emission lamp is connected with the ultraviolet lamp adjusting device through a wire, the ultraviolet emission lamp is disposed opposite to the ultraviolet measuring instrument, the infrared emission lamp is disposed opposite to the thermal actuator and the infrared measuring instrument, the thermal actuator is disposed between the infrared measuring instrument and the ultraviolet measuring instrument, the infrared lamp adjusting device is used for adjusting the illumination intensity of the infrared emission lamp according to the illumination intensity of different regions, the ultraviolet lamp adjusting device is used for adjusting the illumination intensity of the ultraviolet emission lamp according to the illumination intensity of different regions, for example, the adjustment is carried out according to the illumination intensity of the Harbin region, the thermal actuator receives an optical signal, so that the fan blade has a corresponding rotating speed, then the glass to be measured is installed on the base, the infrared ray blocking rate is displayed through the infrared ray measuring instrument, the ultraviolet ray blocking rate is displayed through the ultraviolet ray measuring instrument, and the fan blade can be visually seen to obviously slow down or stop rotating.

The ultraviolet ray measuring instrument and the infrared ray measuring instrument are both connected with the measuring instrument base, and the receiving angles of ultraviolet rays and infrared rays are adjusted by adjusting the height of the base.

As shown in fig. 4, the thermal actuator includes a fan, a solar panel, a thermal actuator base, and a fan connecting rod, one end of the fan connecting rod is connected to the fan, the other end of the fan connecting rod is connected to the thermal actuator base, the solar panel is disposed on the fan connecting rod, the solar panel is connected to the fan through a wire, and receives a light signal of the infrared emission lamp through the solar panel, and converts the light signal into electric energy to drive the fan to rotate.

The base is provided with the glass fixed slot that awaits measuring, the glass fixed slot that awaits measuring is used for fixed glass that awaits measuring, makes the glass that awaits measuring and ultraviolet emission lamp and infrared emission lamp transmission's light set up perpendicularly.

The infrared lamp adjusting device, the ultraviolet lamp adjusting device, the infrared emission lamp and the ultraviolet emission lamp are arranged on one side of the glass fixing groove to be detected, and the thermal instrument, the ultraviolet measuring instrument and the infrared measuring instrument are arranged on the other side of the glass fixing groove to be detected.

The width of the glass fixing groove to be detected is 3-6cm, and the glass fixing groove is used for detecting door and window glass with different thicknesses and different materials.

The ultraviolet emission lamp and the infrared emission lamp are incandescent lamps or LED lamps.

The infrared lamp adjusting device is provided with an infrared lamp adjusting button, the ultraviolet lamp adjusting device is provided with an ultraviolet lamp adjusting button, the infrared emission lamp can be opened and the illumination intensity of the infrared emission lamp can be adjusted through the infrared lamp adjusting button, and the ultraviolet emission lamp can be opened and the illumination intensity of the ultraviolet emission lamp can be adjusted through the ultraviolet lamp adjusting button, so that the illumination intensity under different environments can be simulated.

The infrared ray measuring instrument is an infrared ray blocking rate testing device, and the ultraviolet ray measuring instrument is an ultraviolet ray blocking rate testing device.

The base, the thermal instrument base and the measuring instrument base are all solid wood bases, and the fan connecting rod is a solid wood connecting rod.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. The utility model discloses a field technical personnel can carry out various changes and amending under the prerequisite of the spirit and scope that do not deviate from the utility model discloses, and these changes all will fall into with the amendment the utility model discloses a protection scope.

The working principle is as follows: the glass to be tested is installed on the base and is connected with the power supply through the power line, the ultraviolet emission lamp and the infrared emission lamp are unscrewed, different ultraviolet and infrared illumination intensities are adjusted, the fan in the thermal instrument displays different rotating speeds, the ultraviolet blocking rate testing device and the infrared blocking rate testing device display corresponding blocking rates, and corresponding ultraviolet and infrared blocking effects are displayed by replacing different glass to be tested.

Claims (7)

1. A door and window glass optical property testing device comprises a base (1), an infrared emission lamp (7) and a thermal instrument (9), wherein the infrared emission lamp (7) and the thermal instrument (9) are positioned on the base (1), and the door and window glass optical property testing device is characterized in that: also comprises an ultraviolet emission lamp (6), an infrared lamp adjusting device (2), an ultraviolet lamp adjusting device (4), an infrared measuring instrument (10) and an ultraviolet measuring instrument (8), the ultraviolet emitting lamp (6), the infrared lamp adjusting device (2), the ultraviolet lamp adjusting device (4), the infrared measuring instrument (10) and the ultraviolet measuring instrument (8) are all arranged on the base (1), the infrared emission lamp (7) is connected with the infrared lamp adjusting device (2) through a lead, the ultraviolet emission lamp (6) is connected with the ultraviolet lamp adjusting device (4) through a lead, the ultraviolet emitting lamp (6) is arranged opposite to the ultraviolet measuring instrument (8), the infrared emission lamp (7) is arranged opposite to the infrared measuring instrument (10), and the thermal instrument (9) is positioned between the infrared measuring instrument (10) and the ultraviolet measuring instrument (8).

2. A door and window glass optical property testing device according to claim 1, characterized in that: the thermal actuator comprises a fan (91), a solar receiving plate (92), a thermal actuator base (93) and a fan connecting rod (94), wherein the fan (91) is installed at one end of the fan connecting rod (94), the other end of the fan connecting rod (94) is connected with the thermal actuator base (93), the solar receiving plate (92) is arranged on the fan connecting rod (94), and the solar receiving plate (92) is connected with the fan (91) through a lead.

3. A door and window glass optical property testing device according to claim 1 or 2, characterized in that: the base (1) is provided with a glass fixing groove (11) to be detected, and the glass fixing groove (11) to be detected is used for fixing glass (15) to be detected.

4. A door and window glass optical property testing device according to claim 3, characterized in that: the width of the glass fixing groove (11) to be detected is 3-6 cm.

5. A door or window glass optical property testing device according to claim 1, 2 or 4, characterized in that: the infrared lamp adjusting device (2) is provided with an infrared lamp adjusting button (3), and the ultraviolet lamp adjusting device (4) is provided with an ultraviolet lamp adjusting button (5).

6. A door and window glass optical property testing device according to claim 5, characterized in that: the infrared ray measuring instrument (10) is an infrared ray blocking rate testing device, and the ultraviolet ray measuring instrument (8) is an ultraviolet ray blocking rate testing device.

7. A door or window glass optical property testing device according to claim 1, 2, 4 or 6, characterized in that: the base (1), the thermal actuator base (93) and the measuring instrument base (12) are all solid wood bases, and the fan connecting rod (94) is a solid wood connecting rod.

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