CN201225991Y

CN201225991Y - Test box for contrasting glass heat-shielding performance

Info

Publication number: CN201225991Y
Application number: CNU2008201122025U
Authority: CN
Inventors: 陈东; 郑泽山
Original assignee: ZHANGJIAGANG RUNHE TECHNOLOGY Co Ltd
Current assignee: ZHANGJIAGANG RUNHE TECHNOLOGY Co Ltd
Priority date: 2008-05-12
Filing date: 2008-05-12
Publication date: 2009-04-22
Anticipated expiration: 2018-05-12

Abstract

The utility model discloses a small cheap test box the result of which can be directly displayed by digital and used for contrasting the heat isolation performance of glass. The test box includes a box body; a temperature detection area and an irradiation area above the temperature detection area are arranged in the box body; the temperature detection area includes at least two temperature detection rooms which mutually isolate heat, have the same structure and the same size; all the mutually corresponding positions of the temperature detection rooms are respectively provided with a temperature sensitive probe; all the top parts of the temperature detection rooms are respectively provided with irradiation openings which have the same shape and the same size; the front side board and the back side board of the irradiation area are respectively with a test window corresponding to the irradiation openings; the upper sides of each irradiation openings in the irradiation area are also provided with light sources with the same irradiation degrees; a control unit and a display unit are arranged in the box body; the display unit and all the temperature sensitive probes are respectively connected with the control unit. The test box is mainly used for quantitatively analyzing and comparing the heat isolation effects of the glasses of different materials.

Description

Be used to contrast the chamber of glass heat-proof performance

Technical field

The utility model relates to checkout equipment, refers more particularly to the chamber that is used to contrast the glass heat-proof performance.

Background technology

As everyone knows, a lot of occasions only need the glass heat-proof performance is done to analyze qualitatively, and the heat-proof quality of any glass is better more on earth.Run into this situation, also the print of glass can only be delivered to special detection unit usually and go to detect, and also not necessarily can take the detection data after sending at once, so just caused temporal delay.Therefore, preferably can provide a checkout equipment for oneself, but because the price of checkout equipment is very high, volume is very big, and the frequency of own use is not high, provides for oneself and obviously improper.In addition, above-mentioned checkout equipment can only carry out check and analysis to the various indexs of a glass at every turn, obtain data then, therefore, compare the heat-proof quality of polylith glass just must be through repeated detection, with the data sink bulk analysis that obtains, just can reach a conclusion then, the whole operation process bothers very much and the result shows not directly perceived.

The utility model content

A technical matters to be solved in the utility model is: provide that a kind of volume is little, low price and the chamber that is used to contrast the glass heat-proof performance simple to operate, direct digital display as a result.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: be used to contrast the chamber of glass heat-proof performance, comprise: casing, be provided with temperature measuring area and the irradiated region that is positioned at the temperature measuring area top in the casing, temperature measuring area comprises: at least two mutual heat insulation, identical and the equal-sized thermometric chamber of structure, be respectively arranged with temperature-sensing probe on the position of the mutual correspondence of all thermometric chambers, it is identical that the top of all thermometric chambers is respectively arranged with shape, equal-sized irradiation mouth, offer respectively on the front and back side plate of irradiated region and shine a mouthful corresponding testing window, in irradiated region, be positioned at each irradiation mouthful above also be provided with the identical light source of illuminance; Also be provided with control module and display unit in the casing, display unit links to each other with control module respectively with all temperature-sensing probes.

The before and after edge of all irradiation mouths all flushes, and the lower edge of all testing windows all flushes, described irradiated region is an irradiation area that connects mutually, above all irradiation mouths, be provided with the long strip type fluorescent tube that parallels with the line that shines mouthful forward position or edge, back, and all temperature-sensing probes are all equal to the vertical range of long strip type fluorescent tube.

The top of described long strip type fluorescent tube also is provided with lampshade.

The concrete set-up mode of described temperature-sensing probe is: the slide-and-lock mechanism that the relevant position of each thermometric chamber one side side plate is provided with slotted hole and matches with slotted hole, be provided with the spy arm in each slide-and-lock mechanism, described temperature-sensing probe is arranged on the relevant position of corresponding spy arm.

Described slide-and-lock mechanism comprises: offer the supporting base of at least two threaded holes and at least two and the corresponding bolt of threaded hole, bolt passes slotted hole and is threaded with supporting base, supporting base is locked on the side side plate of thermometric chamber, and described spy arm is arranged on the supporting base.

Separate by thermal insulation board between all thermometric chambers, its set-up mode is: be respectively arranged with a pair of guide holder between the thermometric chamber, a relative side of every pair of guide holder is provided with the gathering sill that cooperatively interacts, and described thermal insulation board active card is located in the corresponding a pair of gathering sill.

The beneficial effects of the utility model are: the utility model compact conformation, price are extremely cheap and volume is little, only need during use polylith glass print is inserted the exposure cell from testing window, use the light source of same light illumination that polylith glass is shone simultaneously then, the temperature that elicites by the temperature-sensing probe that is arranged in the test cabinet demonstrates temperature in the test cabinet by the controller conversion on the unit of display, operating process is very convenient, and the result shows very directly perceived.

Description of drawings

Fig. 1 is a main TV structure synoptic diagram of the present utility model;

Fig. 2 is a sectional structure synoptic diagram of the present utility model;

Fig. 3 is the A-A sectional structure synoptic diagram of Fig. 2;

Among Fig. 1 to Fig. 3: 1, casing, 2, the thermometric chamber, 3, the thermometric chamber, 4, thermal insulation board, 5, guide holder, 6, guide holder, 7, testing window, 8, testing window, 9, fluorescent tube, 10, lampshade, 11, lampshade leg rest, 12, slotted hole, 13, temperature-sensing probe, 14, supporting base, 15, bolt, 16, visit arm, 17, irradiation mouthful, 18, transparent panel, 19, transparent panel, 20, display screen, 21, display screen, 22, power switch, 23, pilot lamp, 24, handle, 25, holder, 26, exploration hole.

Embodiment

Below in conjunction with accompanying drawing, describe the specific embodiments of wooden utility model in detail.

As Fig. 2, shown in Figure 3, the chamber that is used to contrast the glass heat-proof performance described in the utility model, comprise: casing 1, be provided with temperature measuring area and the irradiated region that is positioned at the temperature measuring area top in the casing 1, temperature measuring area comprise two mutual heat insulation, identical and the equal-sized thermometric chamber 2 and 3 of structure, thermometric chamber 2 and 3 center are respectively arranged with temperature-sensing probe 13, here be example with the temperature-sensing probe in the thermometric chamber 2 13, specify the mounting means of temperature-sensing probe 13: the slide-and-lock mechanism that the relevant position of the rear side side plate of thermometric chamber 2 is provided with slotted hole 12 and matches with slotted hole 12, the structure of this slide-and-lock mechanism comprises: the supporting base 14 and two and the corresponding bolt 15 of threaded hole that offer two threaded holes, bolt 15 passes slotted hole 12 and is threaded with supporting base 14, supporting base 14 is locked on the rear side side plate of thermometric chamber 2, visit arm 16 and fix with supporting base 14, described temperature-sensing probe 13 is arranged on visits arm 16 ends; Thermometric chamber 2 and 3 top are respectively arranged with identical, the equal-sized irradiation of shape mouthfuls 17, correspondingly, the front and back side plate of irradiated region is provided with two pairs of

testing windows

7 and 8, the two pairs of

testing windows

7 and 8 left and right edge lay respectively at the outside on corresponding irradiation mouthful 17 left and right edges, when making glass print to be measured from

testing window

7 and 8 insertion irradiated regions, can block fully shining mouthfuls 17 accordingly, in irradiated region, be positioned at each irradiation mouthfuls 17 above also be provided with the identical light source of illuminance; The display unit that also is provided with control module and forms in the casing 1 by display screen 20 and 21, display unit links to each other with control module respectively with a pair of temperature-sensing probe 13---control module and be common technology with the annexation of the unit of display and a pair of temperature-sensing probe 13.In the present embodiment, the before and after edge of two irradiation mouths 17 all flushes, the two pairs of

testing windows

7 and 8 lower edge all flush, described irradiated region is an irradiation area that connects mutually, above all irradiations mouthfuls 17, be provided with and shine mouthful 17 forward positions or afterwards the long strip type fluorescent tube 9 that parallels of the line on edge and two temperature-sensing probes 13 all equate to the vertical range of long strip type fluorescent tube 9, the top of long strip type fluorescent tube 9 also is provided with lampshade 10, and the fluorescent tube of selecting for use here is the far infrared fluorescent tube of 250～3000 nanometers for the wavelength of simulated solar light irradiation; Separate by thermal insulation board 4 between the thermometric chamber 2 and 3, its set-up mode is: be provided with a pair of guide holder 5 and 6 between thermometric chamber 2 and 3, this a pair of guide holder 5 is provided with the gathering sill that cooperatively interacts with a relative side of 6, and thermal insulation board 4 active card are located in this a pair of gathering sill.When practical application, casing 1 is provided with the

transparent panel

18 and 19 that matches with display screen 20 and 21, and power switch 22 and pilot lamp 23 also are installed; Be easy to carry and the handle 24 of taking and placing but also be provided with at the top of casing 1; Above positioning seat 6, also be provided with holder 25, the top of holder 25 is provided with the exploration hole 26 that matches with temperature-sensing probe 13, when practical application, can set up a temperature-sensing probe, it is inserted the holder 25 from exploration hole 26, and this temperature-sensing probe linked to each other with above-mentioned controller, test the temperature of irradiated region.

During use, only needing needs the glass print of contrast to insert in the exposure cell from

testing window

7 and 8 respectively with two, turn on the power switch 22 (pilot lamp 23 is bright) then, connect the power supply of fluorescent tube 9, glass print in two exposure cells is shone simultaneously, because the lower edge of the two pairs of

testing windows

7 and 8 all flushes, therefore identical for the illuminance of two glass prints, and the shape of two thermometric chambers 2 and 3, the space is all identical, and two temperature-sensing probes 13 are also reciprocity in the installation site of thermometric chamber 2 and 3, like this, the temperature that elicites of two temperature-sensing probes 13 just can reflect the difference of two kinds of glass heat-proof performances faithfully.The whole operation process is very convenient, and the result shows very directly perceived.

Claims

1. be used to contrast the chamber of glass heat-proof performance, comprise: casing, it is characterized in that: be provided with temperature measuring area and the irradiated region that is positioned at the temperature measuring area top in the casing, temperature measuring area comprises: at least two mutual heat insulation, identical and the equal-sized thermometric chamber of structure, be respectively arranged with temperature-sensing probe on the position of the mutual correspondence of all thermometric chambers, it is identical that the top of all thermometric chambers is respectively arranged with shape, equal-sized irradiation mouth, offer respectively on the front and back side plate of irradiated region and shine a mouthful corresponding testing window, in irradiated region, be positioned at each irradiation mouthful above also be provided with the identical light source of illuminance; Also be provided with control module and display unit in the casing, display unit links to each other with control module respectively with all temperature-sensing probes.

2. chamber as claimed in claim 1, it is characterized in that: the before and after edge of all irradiation mouths all flushes, and the lower edge of all testing windows all flushes, described irradiated region is an irradiation area that mutually connects, be provided with above all irradiations mouthful with shine mouthful forward position or after the long strip type fluorescent tube that parallels of the line on edge and all temperature-sensing probes all equate to the vertical range of long strip type fluorescent tube.

3. chamber as claimed in claim 2 is characterized in that: the top of described long strip type fluorescent tube also is provided with lampshade.

4. as claim 1,2 or 3 described chambers, it is characterized in that: the concrete set-up mode of described temperature-sensing probe is: the slide-and-lock mechanism that the relevant position of each thermometric chamber one side side plate is provided with slotted hole and matches with slotted hole, be provided with the spy arm in each slide-and-lock mechanism, described temperature-sensing probe is arranged on the relevant position of corresponding spy arm.

5. chamber as claimed in claim 4, it is characterized in that: described slide-and-lock mechanism comprises: offer the supporting base of at least two threaded holes and at least two and the corresponding bolt of threaded hole, bolt passes slotted hole and is threaded with supporting base, supporting base is locked on the side side plate of thermometric chamber, and described spy arm is arranged on the supporting base.

6. as claim 1,2 or 3 described chambers, it is characterized in that: separate by thermal insulation board between all thermometric chambers, its set-up mode is: be respectively arranged with a pair of guide holder between the thermometric chamber, a relative side of every pair of guide holder is provided with the gathering sill that cooperatively interacts, and described thermal insulation board active card is located in the corresponding a pair of gathering sill.