CN206038581U - Cavity glass thermal insulation performance detection device - Google Patents

Abstract

The utility model relates to a glass detecting field especially relates to a cavity glass thermal insulation performance detection device, installs including a fixed frame and heat source, the removable glass that awaits measuring that installs of hollow out position of frame, glass's the face of awaiting measuring faces the heat source, the cavity heat preservation glass that will wait to detect and installing respectively at the frame as the ordinary glass of contrast, and the heat source through a period shines, and measure the cavity heat preservation glass that waits to detect respectively and as the temperature of the ordinary glass's of contrast internal surface, the result that will record contrasts, can accomplish and detect the accurate of cavity heat preservation glass thermal behavior.

Description

A kind of double glazing thermal insulation performance detection device

Technical field

This utility model is related to glass detection field, more particularly to a kind of double glazing thermal insulation performance detection device.

Background technology

Double glazing be a kind of good heat-insulated, sound insulation, it is beautiful and applicable, and the novel building of building deadweight can be reduced Material, it be with two panels (or three) glass, using high intensity high-air-tightness compound binding agent, by sheet glass with include desiccant Aluminum alloy frame bonding, made by high-effect sound-and heat-insulated glass.

After hollow glass production is completed, needs are compared with simple glass, so as to draw the performance of double glazing.Existing skill The double glazing heat-insulating property detection of art is often compared in the environment of constant temperature, sealing, and test experience high cost, time are long, very Simple glass and double glazing in inconvenience, and the external environment condition of this detection and reality external environment condition in use is still There are very big difference, the often distortion of such manner of comparison.

Utility model content

The purpose of this utility model is to provide a kind of double glazing thermal insulation performance detection device, allows double glazing to be measured And external environment condition of the external environment condition of simple glass closer to glass in use.

This utility model provides a kind of double glazing thermal insulation performance detection device, it is characterised in that including fixed frame And thermal source, the hollow out position of framework is removable to be provided with glass to be measured, and a face of glass to be measured faces thermal source.

Framework includes：Top frame and lateral frame；

Top frame includes left top frame and right top frame, left top frame and the symmetrical knot of right top frame Structure；

Lateral frame includes left surface framework and right flank framework, left surface framework and the symmetrical knot of right flank framework Structure；

Top frame and lateral frame are fixed as one in house contour structures.

Further, the outer surface of top frame and lateral frame is provided with thermal source shelf, and thermal source is fixed on thermal source shelf, The symmetrical structure of thermal source shelf.

Further, left top frame and right top frame are respectively symmetrically and are provided with two blocks of glass to be measured；

Left surface framework and right flank framework are respectively symmetrically and are provided with two blocks of glass to be measured.

Further, thermal source more than one, and be evenly distributed on thermal source shelf.

Further, the bottom of left surface framework and right flank framework is respectively equipped with one wheel pairs, and each pair wheel is in symmetrical Structure.

Further, another face of glass to be measured is provided with temperature measurer.

Further, temperature measurer is infrared radiation temperature measurement device.

The beneficial effects of the utility model:

1. left top frame, You Ding are separately mounted to by hollow heat-insulating glass to be detected and with the simple glass for comparing Portion's framework, left surface framework and right flank framework, it is symmetrical in device that thermal source shelf is installed, it is symmetrical on thermal source shelf Thermal source is installed, thermal source is evenly distributed on the outer surface of device, can control the size of power of heat source, the environment allowed at glass is more Close to real external environment condition, external condition all keeps identical, through a period of time, measures hollow guarantor to be detected respectively The temperature of warm glass and the inner surface with the simple glass for comparing, the result for measuring is contrasted, you can complete to hollow The accurate detection of heat insulation glass hot property.

2., in order to reduce error, multigroup comparison and detection can be carried out, for example：Can exchange hollow guarantor to be detected Warm glass is put into right top frame, and the simple glass that will act as contrasting is put into left top frame, and other external conditions all keep It is identical, the temperature of hollow heat-insulating glass to be detected and the inner surface with the simple glass for comparing equally is measured respectively, will The result for measuring is contrasted, i.e., can equally complete the accurate detection to hollow heat-insulating glass hot property.

3. comparison and detection can also be put into left top frame using other modes, such as hollow heat-insulating glass to be detected Frame, is put into right top frame with the simple glass for comparing, and other external conditions are identical, equally can also complete one group of contrast inspection Survey, according to thinking of the present utility model, it would however also be possible to employ other comparison and detection.

4. infrared radiation temperature measurement device, infra-red radiation are provided with inside double glazing thermal insulation performance detection device of the present utility model The measurement of the infrared energy that temperature measurer is radiated by the inner surface to glass itself, just can determine the inner surface temperature of glass exactly Degree.

Description of the drawings

Fig. 1 is a kind of double glazing thermal insulation performance detection device structural representation in one embodiment of this utility model.

Reference：1st, top frame, 11, left top frame, 12, right top frame, 2, lateral frame, 21, left surface Framework, 22, right flank framework, 3, thermal source shelf, 4, thermal source, 5, glass to be measured, 6, wheel.

Specific embodiment

In order that the purpose of this utility model, technical scheme and advantage become more apparent, below in conjunction with the accompanying drawings and specifically Embodiment is described in further detail to this utility model.

Fig. 1 is a kind of double glazing thermal insulation performance detection device structural representation in one embodiment of this utility model.Ginseng Fig. 1 is examined, this utility model embodiment provides a kind of double glazing thermal insulation performance detection device, and device includes fixed frame and heat Source 4, the hollow out position of framework is removable to be provided with glass to be measured 5, and a face of glass to be measured 5 faces thermal source 4.

Wherein, framework includes：Top frame 1 and lateral frame 2；

Top frame 1 and lateral frame 2 are fixed as one in house contour structures,

Top frame 1 and lateral frame 2 is detachable is provided with glass to be measured 5.

Top frame 1 includes that left top frame 11 and right top frame 12, left top frame 11 and right top frame 12 are in Bilateral symmetry.

Lateral frame 2 includes that left surface framework 21 and right flank framework 22, left surface framework 21 and right flank framework 22 are in Bilateral symmetry.

Preferably, the outer surface of top frame 1 and lateral frame 2 is provided with thermal source shelf 3, and thermal source 4 is fixed on thermal source shelf 3 On, 4 symmetrical structure of the thermal source shelf；

4 more than one of thermal source, and be evenly distributed on thermal source shelf 3.

The left top frame 11 and right top frame of the double glazing thermal insulation performance detection device of this utility model embodiment 12 symmetrical structures, the purpose of 22 symmetrical structure of left surface framework 21 and right flank framework are to allow glass to be measured 5 outside environment or so is identical.

The 4 symmetrical structure of thermal source shelf of the double glazing thermal insulation performance detection device of this utility model embodiment, Thermal source 4 is evenly distributed on thermal source shelf 3, it is therefore intended that make the outside environment or so of glass to be measured 5 identical.

The double glazing thermal insulation performance detection device of this utility model embodiment is respectively mounted simple glass and to be detected Hollow heat-insulating glass, in the case of other external condition identicals, relatively conventional glass and hollow heat-insulating glass to be detected The temperature of inner surface, so that compare the difference of hollow heat-insulating glass to be detected and simple glass heat-insulating property indoors.

Simple glass is installed and hollow heat-insulating glass to be detected can be to have by the way of：

1. simple glass is arranged on left top frame 11, and hollow heat-insulating glass to be detected is arranged on right top frame 12.

2. simple glass is arranged on right top frame 12, and hollow heat-insulating glass to be detected is arranged on left top frame 11.

3. simple glass is arranged on left surface framework 21, and hollow heat-insulating glass to be detected is arranged on right flank framework 22.

4. simple glass is arranged on right flank framework 22, and hollow heat-insulating glass to be detected is arranged on left surface framework 21.

5. simple glass is arranged on the upper hollow out position of top frame 1, and hollow heat-insulating glass to be detected is arranged on top The lower hollow out position of framework 1.

6. simple glass is arranged on the lower hollow out position of top frame 1, and hollow heat-insulating glass to be detected is arranged on top The upper hollow out position of framework 1.

7. simple glass is arranged on the front hollow out position of lateral frame 2, and hollow heat-insulating glass to be detected is arranged on side The rear hollow out position of framework 2.

8. simple glass is arranged on the rear hollow out position of lateral frame 2, and hollow heat-insulating glass to be detected is arranged on side The front hollow out position of framework 2.

Those skilled in the art can also install glass according to the technical scheme of this utility model embodiment, using other Mode.

Preferably, the bottom of left surface framework 21 and right flank framework 22 is respectively equipped with one wheel pairs 6, and each pair wheel is in right Claim structure.In device, 6 purpose of wheel is to be more convenient the movement of the device of this utility model embodiment.

Preferably, the another side of glass to be measured 5 is provided with temperature measurer (not marking in accompanying drawing).Temperature measurer is surveyed using infra-red radiation Wen Yi.

The operation principle of infrared radiation temperature measurement device：Temperature is all ceaselessly being sent out to surrounding space higher than the object of absolute zero Go out infrared energy.The size of the infrared energy of object and its have with its surface temperature by the distribution of wavelength Very close relationship.Therefore, the measurement of the infrared energy that infrared radiation temperature measurement device is radiated by the inner surface to glass itself, Just the internal surface temperature of glass can be determined exactly.

It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various It is corresponding to change and deformation, and all these change and deformation should all belong to the protection of this utility model claim Within the scope of.

Claims (8)

1. a kind of double glazing thermal insulation performance detection device, it is characterised in that including fixed frame and thermal source, the framework are engraved Empty position is removable to be provided with glass to be measured, and a face of the glass to be measured faces thermal source.

2. double glazing thermal insulation performance detection device according to claim 1, it is characterised in that the framework includes：Top Portion's framework and lateral frame；The top frame includes left top frame and right top frame, the left top frame and You Ding The symmetrical structure of portion's framework；The lateral frame includes left surface framework and right flank framework, the left surface framework and The symmetrical structure of right flank framework；

The top frame and lateral frame are fixed as one in house contour structures.

3. double glazing thermal insulation performance detection device according to claim 2, it is characterised in that the top frame and side The outer surface of surface frame frame is provided with thermal source shelf, and thermal source is fixed on thermal source shelf, the symmetrical structure of the thermal source shelf.

4. double glazing thermal insulation performance detection device according to claim 3, it is characterised in that the thermal source more than It is individual, and be evenly distributed on thermal source shelf.

5. double glazing thermal insulation performance detection device according to claim 2, it is characterised in that the left top frame and Right top frame is respectively symmetrically and is provided with two blocks of glass to be measured；The left surface framework and right flank framework are respectively symmetrically and are provided with Two blocks of glass to be measured.

6. double glazing thermal insulation performance detection device according to claim 2, it is characterised in that the left surface framework and The bottom of right flank framework is respectively equipped with one wheel pairs, and each pair wheel is in symmetrical structure.

7. according to the arbitrary described double glazing thermal insulation performance detection device of claim 1, it is characterised in that the glass to be measured Another face be provided with temperature measurer.

8. double glazing thermal insulation performance detection device according to claim 7, it is characterised in that the temperature measurer is infrared Radiation Temperature Measurement Instrument.