CN215115883U - Glass curtain wall printing opacity detection device - Google Patents

Abstract

The utility model relates to a printing opacity detection area, more specifically the glass curtain wall printing opacity detection device that says so. The main function realizing part of the device is provided with two fixed structures, two detection structures and two moving structures, wherein the two moving structures are respectively arranged at two ends of the fixed structures, and the two detection structures are respectively arranged on the two moving structures. This device mainly carries out printing opacity detection achievement to glass curtain wall whole through the relative motion that moving structure and detection structure carried out on fixed knot constructs. For carrying out every glass's independent detection work, this device can detect glass in proper order at glass curtain wall is whole, and detection efficiency is higher, and does not receive the influence of glass thickness in the detection, can all carry out detection work to arbitrary glass's optional position. In conclusion, the device has the advantages of simple structure and principle, strong stability, high detection efficiency and strong flexibility, can solve the problem of actual operation, and can be put into practical production and use.

Description

Glass curtain wall printing opacity detection device

Technical Field

The utility model relates to a printing opacity detection area, more specifically the glass curtain wall printing opacity detection device that says so.

Background

For example, publication No. CN208688978U, this utility model discloses a glass luminousness physical detection device, including brace table, photosensitive plate base, glass supporting seat, carousel support, the brace table upper end is provided with the photosensitive plate base, the photosensitive plate base pass through bolted connection in the brace table, photosensitive plate base upper end is provided with the photosensitive plate, the photosensitive plate pass through bolted connection in the photosensitive plate base, photosensitive plate base one side is provided with the glass supporting seat, the glass supporting seat pass through bolted connection in the brace table. Has the advantages that: improve glass luminousness detection efficiency, make things convenient for the dismouting, fix a position fast, improve work efficiency, convenient to use, equipment adopts full automatic calibration to detect, avoids manual operation's error, and the detection direction is comprehensive, uses the light filter to detect the luminousness of dividing a plurality of light, carries out contrast detection, improves experiment credibility. But this utility model can only carry out the printing opacity detection work of single glass.

Disclosure of Invention

The utility model aims at providing a glass curtain wall printing opacity detection device, its beneficial effect is for carrying out the holistic supplementary printing opacity of glass curtain wall and detects work.

The purpose of the utility model is realized through the following technical scheme:

the main part of the device is provided with a fixed structure, a detection structure and a moving structure, wherein the moving structure and the detection structure are respectively provided with two, the two moving structures are respectively arranged at two ends of the fixed structure, and the two detection structures are respectively arranged on the two moving structures.

This glass curtain wall printing opacity detection device's fixed knot constructs mainly including fixed diaphragm, fixed riser and fixed cross beam, and wherein fixed diaphragm is provided with four, and four fixed diaphragms set up respectively at fixed knot constructs the upper and lower both ends, and fixed riser is provided with four, four fixed risers respectively with four fixed diaphragm fixed connection, fixed cross beam is provided with two, two fixed cross beams respectively with four fixed riser fixed connection. The fixed transverse plate and the fixed vertical plate form a main body frame of the device, and other structures are all based on the fixed structure.

This glass curtain wall printing opacity detection device's detection structure mainly is including detecting the slider, detecting the spout, connecting slide bar and detection device, wherein detects the slider and is provided with two, is provided with two respectively on two detection sliders and detects the spout, connects slide bar and detection device and is provided with two respectively, and two are connected the slide bar and weld respectively on two detection sliders, two connect the slide bar respectively with two detection device sliding connection.

This glass curtain wall printing opacity detection device's removal structure mainly includes fixing support, the mobile device, vertical slide bar and removal diaphragm, and wherein fixing support is provided with four, four fixing support respectively with four fixed riser fixed connection, the mobile device is provided with four, vertical slide bar is provided with four, four vertical slide bar respectively with four fixing support fixed connection, four vertical slide bars respectively with four mobile device sliding connection, the removal diaphragm is provided with two, two removal diaphragms respectively with four mobile device welded connection.

The utility model relates to a glass curtain wall printing opacity detection device's beneficial effect does:

this glass curtain wall printing opacity detection device can carry out the holistic supplementary printing opacity of glass curtain wall and detect the work. When the whole glass curtain wall needs to be subjected to mechanical property test detection such as positive and negative pressure deformation detection, the light transmission detection work can be synchronously carried out. For carrying out every glass's independent detection achievement, this device can be in glass curtain wall whole adjacent glass detect in proper order, and detection efficiency is higher, can not receive the influence of glass thickness in the detection moreover, can all carry out fine detection achievement to arbitrary glass's optional position. In conclusion, the device has the advantages of simple structure and principle, strong stability, high detection efficiency and strong flexibility, can solve the problem of actual operation, and can be put into practical production and use.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 shows schematically the overall structure of the invention in a perspective view;

fig. 2 shows schematically in a perspective view a fixation structure of the invention;

fig. 3 schematically shows a detection structure of the present invention in a perspective view;

fig. 4 shows schematically in a perspective view a movement structure of the invention;

fig. 5 shows schematically in a perspective view a mobility diagram of the invention;

fig. 6 shows schematically in a perspective view a mobile schematic rear view of the invention;

fig. 7 shows schematically in a perspective view a fixed running structure according to the invention.

In the figure: a fixed structure 101; a detection structure 102; a moving structure 103; fixing the transverse plate 201; a fixed riser 202; a fixed cross member 203; detecting the slide block 301; a detection chute 302; a connecting slide bar 303; a detection device 304; a fixed support 401; a mobile device 402; a vertical slide bar 403; moving the cross plate 404.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

According to the utility model relates to a glass curtain wall printing opacity detection device, the embodiment combines fig. 1 to fig. 7 to show, can see out wherein:

this glass curtain wall printing opacity detection device can carry out the holistic supplementary printing opacity of glass curtain wall and detect the work. The main function realizing part of the device is provided with a fixed structure 101, a detection structure 102 and a moving structure 103, wherein the number of the moving structure 103 and the detection structure 102 is two, the two moving structures 103 are respectively arranged at two ends of the fixed structure 101, and the two detection structures 102 are respectively arranged on the two moving structures 103. This device is mainly through the relative motion that moving structure 103 and detection structure 103 carried out on fixed knot constructs 101 to whole printing opacity detection work that carries out of glass curtain wall.

This glass curtain wall printing opacity detection device's fixed knot constructs 101 mainly to being carried out the fixed action by the whole glass curtain wall that is detected, is the structural basis of this device. The fixed structure 101 mainly includes fixed diaphragm 201, fixed riser 202 and fixed cross beam 203, and wherein the fixed diaphragm 201 is provided with four, and four fixed diaphragms 201 set up respectively at the upper and lower both ends of fixed structure 101, and fixed riser 202 is provided with four, and four fixed risers 202 respectively with four fixed diaphragm 201 fixed connection, fixed cross beam 203 is provided with two, two fixed cross beams 203 respectively with four fixed risers 202 fixed connection. Fixed diaphragm 201 and fixed riser 202 constitute the main body frame of this device, and all the other structures are all based on fixed knot constructs 101, and fixed cross beam 203 mainly carries out the holistic fixed work to the glass curtain wall. The whole actual size of the fixed structure 101 is large, and the whole glass curtain wall can be fixed, so that various subsequent safety performance tests can be conveniently carried out.

The detection structure 102 of the glass curtain wall light transmission detection device mainly performs light transmission detection on the whole detected glass curtain wall. The detection structure 102 mainly comprises two detection sliding blocks 301, two detection sliding grooves 302, two connection sliding rods 303 and two detection devices 304, wherein the two detection sliding blocks 301 are respectively provided with the two detection sliding grooves 302, the two connection sliding rods 303 and the two detection devices 304 are respectively provided with the two connection sliding rods 303 which are respectively welded on the two detection sliding blocks 301, and the two connection sliding rods 303 are respectively in sliding connection with the two detection devices 304. The connecting slide bar 303 is mainly used for facilitating the detection device 304 to move back and forth relative to the glass curtain wall, and when the light transmittance is required to be detected, the connecting slide bar 303 is used for performing extension movement, so that the detection device 304 is attached to the glass curtain wall.

The moving structure 103 of the light transmission detection device for the glass curtain wall mainly supports the detection structure 102 to change the detection position. The moving structure 103 mainly comprises four fixed supports 401, four moving devices 402, four vertical sliding rods 403 and four moving transverse plates 404, wherein the four fixed supports 401 are respectively and fixedly connected with four fixed vertical plates 202, the four moving devices 402 are provided with four vertical sliding rods 403, the four vertical sliding rods 403 are respectively and fixedly connected with the four fixed supports 401, the four vertical sliding rods 403 are respectively and slidably connected with the four moving devices 402, the two moving transverse plates 404 are provided, and the two moving transverse plates 404 are respectively and fixedly connected with the four moving devices 402. The moving structure 103 can ensure that the detection structure 102 moves horizontally, transversely and vertically at the same time, so as to complete the light transmission detection of the whole glass curtain wall.

The working principle of the glass curtain wall light transmission detection device is as follows: light passes through glass with three manifestations, reflection, absorption and transmission. Light transmittance is an optical characteristic of glass, and according to the law of conservation of energy, reflectance + absorbance + light transmittance is 100%. It can be seen that increasing the transmittance must reduce the reflectance and absorbance. The reflectivity is influenced by the incident angle, and when the incident angle is less than 40 degrees, the reflectivity is not greatly changed; when the incident angle is greater than 70 deg., the reflectivity increases sharply with increasing incident angle. The refraction of light in different media also affects the transmittance, and since the refractive indexes of glass and air are fixed, the main factor affecting the reflectivity is the size of the incident angle. Therefore, an instrument for detecting the transmittance of the glass uses parallel light. The incident angle of the parallel light is 0, and the reflectance of the glass is also 0. The device can realize the detection work of the parallel light path, and the reflection characteristic of the glass has no influence on the parallel light, so that the light transmittance measured by the device is more accurate.

This glass curtain wall printing opacity detection device can carry out the holistic supplementary printing opacity of glass curtain wall and detect the work. When the whole glass curtain wall needs to be subjected to mechanical property test detection such as positive and negative pressure deformation detection, the light transmission detection work can be synchronously carried out. For carrying out every glass's independent detection achievement, this device can be in glass curtain wall whole adjacent glass detect in proper order, and detection efficiency is higher, can not receive the influence of glass thickness in the detection moreover, can all carry out fine detection achievement to arbitrary glass's optional position. In conclusion, the device has the advantages of simple structure and principle, strong stability, high detection efficiency and strong flexibility, can solve the problem of actual operation, and can be put into practical production and use.

Claims (10)

1. The utility model provides a glass curtain wall printing opacity detection device, includes fixed knot constructs (101), detects structure (102) and moving structure (103), its characterized in that: the moving structures (103) and the detection structures (102) are respectively provided with two, the two moving structures (103) are respectively arranged at two ends of the fixed structure (101), and the two detection structures (102) are respectively arranged on the two moving structures (103).

2. The light transmission detection device for the glass curtain wall as claimed in claim 1, wherein: the fixing structure (101) comprises four fixing transverse plates (201), and the four fixing transverse plates (201) are arranged at the upper end and the lower end of the fixing structure (101) respectively.

3. The light transmission detection device for the glass curtain wall as claimed in claim 2, wherein: the fixing structure (101) further comprises four fixing vertical plates (202), and the four fixing vertical plates (202) are fixedly connected with the four fixing transverse plates (201) respectively.

4. The light transmission detection device for the glass curtain wall as claimed in claim 3, wherein: the fixing structure (101) further comprises two fixing cross beams (203), and the two fixing cross beams (203) are fixedly connected with the four fixing vertical plates (202) respectively.

5. The light transmission detection device for the glass curtain wall as claimed in claim 4, wherein: the detection structure (102) comprises two detection sliding blocks (301) and two detection sliding grooves (302), wherein the two detection sliding blocks (301) are respectively provided with the two detection sliding grooves (302).

6. The light transmission detection device for the glass curtain wall as claimed in claim 5, wherein: the detection structure (102) further comprises two connecting sliding rods (303) and two detection devices (304), the two connecting sliding rods (303) and the two detection devices (304) are respectively arranged, the two connecting sliding rods (303) are respectively arranged on the two detection sliding blocks (301), and the two connecting sliding rods (303) are respectively in sliding connection with the two detection devices (304).

7. The light transmission detection device for the glass curtain wall as claimed in claim 6, wherein: the mobile structure (103) comprises four fixed supports (401), and the four fixed supports (401) are fixedly connected with four fixed vertical plates (202) respectively.

8. The light transmission detection device for the glass curtain wall as claimed in claim 7, wherein: the moving structure (103) further comprises four moving devices (402), and the number of the moving devices (402) is four.

9. The light transmission detection device for the glass curtain wall as claimed in claim 8, wherein: the moving structure (103) further comprises four vertical sliding rods (403), the four vertical sliding rods (403) are respectively and fixedly connected with the four fixed supports (401), and the four vertical sliding rods (403) are respectively and slidably connected with the four moving devices (402).

10. The light transmission detection device for the glass curtain wall as claimed in claim 9, wherein: the moving structure (103) further comprises two moving transverse plates (404), and the two moving transverse plates (404) are fixedly connected with the four moving devices (402) respectively.

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