CN211347930U - Device for detecting light transmittance of conductive film glass - Google Patents

Abstract

The utility model discloses a detect device of conductive film glass luminousness, upper portion transmission subassembly including parallel arrangement, subassembly and control display end are accepted to the lower part, upper portion transmission subassembly and lower part are accepted and are equipped with the passageway that supplies conductive film glass to pass through between the subassembly, upper portion transmission subassembly and lower part are accepted the subassembly and are all included the support frame, the support frame slidable mounting of upper portion transmission subassembly has a plurality of transmitting probe, the support frame slidable mounting of subassembly is accepted to the lower part has the probe of accepting with a plurality of transmitting probe upper and lower one-to-one, and a plurality of transmitting probe and accepting the probe respectively through wire and control display end electric connection. The utility model discloses can realize detecting the multiple spot position of conductive film glass luminousness, make the testing result more comprehensive, be fit for assembly line production and detect, can detect the conductive film glass of different specifications, the transmitting probe that corresponds from top to bottom can keep synchronous motion with accepting the probe when removing, avoids appearing data anomaly problem, and the adjustment is convenient.

Description

Device for detecting light transmittance of conductive film glass

Technical Field

The utility model relates to a luminousness detection device technical field specifically is a detect device of conductive film glass luminousness.

Background

ITO conductive film glass, namely indium tin oxide transparent conductive film glass, is a high-technology product obtained by sputtering an indium tin oxide conductive film coating on ultrathin glass and performing high-temperature annealing treatment by using a planar magnetron technology in a highly purified factory environment. The product is widely used in the fields of liquid crystal displays, solar cells, microelectronic ITO conductive film glass, photoelectrons and various optics. The main parameters of the ITO conductive film are as follows: surface resistance, uniformity of surface resistance, light transmittance, thermal stability, heat shrinkage, heat curl, and the like. Wherein the light transmittance is mainly related to the base material used for the ITO film and the surface resistance of the ITO film. The luminousness appearance of test glass light transmissivity that exists on the existing market generally connects transmitting probe and receiving probe to place the glass sample between transmitting probe and receiving probe, carry out the printing opacity to glass again and detect, it is single point location detection to be common, also has the luminousness appearance that a plurality of point locations detected, but unsuitable factory's assembly line production detects, and it is troublesome to use, uses to have a great deal of inconvenience.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a detect device of conductive film glass luminousness, can realize detecting the multiple spot position of the conductive film glass luminousness of different specifications, make the testing result more comprehensive, be fit for assembly line production and detect, avoid appearing because of the upper and lower probe is to inaccurate and lead to the data abnormal problem, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a detect device of conducting film glass luminousness, accepts subassembly and control display end including parallel arrangement's upper portion transmission subassembly, lower part, upper portion transmission subassembly and lower part are accepted and are equipped with the passageway that supplies conducting film glass to pass through between the subassembly, the subassembly is accepted all including the support frame to upper portion transmission subassembly and lower part, the support frame slidable mounting of upper portion transmission subassembly has a plurality of transmitting probe, the support frame slidable mounting of subassembly is accepted to the lower part has the probe of accepting with a plurality of transmitting probe upper and lower one-to-one, and a plurality of transmitting probe with accept the probe and pass through wire and control display end electricity respectively and be connected, the upper portion of upper portion transmission subassembly is equipped with the expansion bracket one that is used for making a plurality of transmitting probe keep equidistant, the lower part of subassembly is accepted and is equipped with the expansion bracket two that is.

Preferably, the support frame includes two long curb plates of parallel arrangement, and the both ends of two long curb plates all are fixed with the end plate through the bolt, and the double-phase inside wall of two long curb plates all is equipped with the backup pad that is "L" shape, and the slot has been seted up to the right angle department of backup pad.

Preferably, the outer walls of each of the transmitting probe and the receiving probe are sleeved with sliding seats, two inner opposite side walls of each sliding seat are provided with groove parts matched with the grooves, the sliding seats of the transmitting probes are slidably mounted on the upper parts of two supporting plates of the supporting frame of the transmitting assembly at the upper part, and the sliding seats of the receiving probes are slidably mounted on the lower parts of two supporting plates of the supporting frame of the receiving assembly at the lower part.

Preferably, the first expansion bracket and the second expansion bracket have the same structure and are composed of a plurality of groups of X-shaped scissor arms, the axis of each X-shaped scissor arm is provided with a long pin shaft, and one end of each long pin shaft is inserted into the end of the transmitting probe or the end of the receiving probe.

Preferably, one ends of the first telescopic frame and the second telescopic frame on the same side are connected through a connecting plate.

Compared with the prior art, the beneficial effects of the utility model are that: the device for detecting the light transmittance of the conductive film glass has the advantages that the plurality of transmitting probes and receiving probes which are matched up and down are arranged, the transmitting probes emit light beams, the light beams penetrate through the conductive film glass and then are received by the receiving probes, the ratio of transmitted light flux to incident light flux is calculated and displayed by controlling the display end, the multi-point detection of the light transmittance of the conductive film glass can be realized, the detection result is more comprehensive, the device is suitable for the production line detection, the first telescopic frame can change the distance between two adjacent transmitting probes, the second telescopic frame can change the distance between two adjacent receiving probes, the distance between the two adjacent receiving probes can be reduced or enlarged, the detection of the conductive film glass with different specifications can be realized, in addition, the first telescopic frame and the second telescopic frame can synchronously act when being adjusted, the transmitting probes and the receiving probes which correspond up and down can keep synchronous motion when moving, the adjustment is convenient.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a top view of the upper launching assembly of the present invention;

fig. 3 is a sectional view of the utility model a-a.

In the figure: 1 upper part emitting component, 2 connecting plate, 3 lower part receiving component, 4 telescopic frame I, 5 telescopic frame II, 6 control display end, 7 long side plate, 8 sliding seat, 801 groove part, 9 supporting plate, 901 groove, 10 emitting probe, 11 receiving probe, 12 long pin shaft and 13 end plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a device for detecting the light transmittance of conductive film glass comprises an upper transmitting component 1, a lower receiving component 3 and a control display end 6 which are arranged in parallel, wherein the control display end 6 is a commonly-used light transmittance instrument, a channel for conductive film glass to pass through is arranged between the upper transmitting component 1 and the lower receiving component 3, both the upper transmitting component 1 and the lower receiving component 3 comprise supporting frames, a plurality of transmitting probes 10 are slidably mounted on the supporting frame of the upper transmitting component 1, receiving probes 11 which correspond to the plurality of transmitting probes 10 one by one up and down are slidably mounted on the supporting frame of the lower receiving component 3, the plurality of transmitting probes 10 and the receiving probes 11 are respectively and electrically connected with the control display end 6 through wires, the connection and control mode adopts the prior art, the description is omitted, a first telescopic frame 4 for enabling the plurality of transmitting probes 10 to keep equidistant is arranged on the upper part of the upper transmitting component 1, the lower part of the lower receiving component 3 is provided with a second expansion bracket 5 which is used for keeping a plurality of receiving probes 11 at equal intervals, the transmitting probes 10 and the receiving probes 11 are arranged in a plurality of up-down corresponding matching mode, the transmitting probes 10 emit light beams, the light beams penetrate through the conductive film glass and then are received by the receiving probes 11, the ratio of transmitted light flux to incident light flux is calculated and displayed through the control display end 6, multi-point detection on the light transmittance of the conductive film glass can be realized, the detection result is more comprehensive, and the detection is suitable for flow line production detection;

the support frame comprises two long side plates 7 which are arranged in parallel, end plates 13 are fixed at two ends of the two long side plates 7 through bolts and can be disassembled, so that the installation and the disassembly are convenient, a transmitting probe 10 and a receiving probe 11 are taken down or added at a later period, two inner opposite side walls of the two long side plates 7 are respectively provided with an L-shaped support plate 9, and a groove 901 is formed in the right angle of the support plate 9;

the outer walls of each transmitting probe 10 and each receiving probe 11 are sleeved with a sliding seat 8, two inner opposite side walls of each sliding seat 8 are provided with groove parts 801 matched with the grooves 901, the sliding seats 8 of the transmitting probes 10 are slidably mounted on the upper parts of two supporting plates 9 of a supporting frame of the upper transmitting component 1, the sliding seats 8 of the receiving probes 11 are slidably mounted on the lower parts of two supporting plates 9 of a supporting frame of the lower receiving component 3, the transmitting probes 10 are slidably connected with the supporting frame of the upper transmitting component 1 through the sliding seats 8 and can be adjusted, the receiving probes 11 are slidably connected with the supporting frame of the lower receiving component 3 through the sliding seats 8 and can be adjusted, and the receiving probes 11 can be prevented from falling down through the grooves 901 and the groove parts;

the first telescopic frame 4 and the second telescopic frame 5 are consistent in structure and are composed of a plurality of groups of X-shaped scissor arms, a long pin shaft 12 is arranged at the axis of each X-shaped scissor arm, one end of each long pin shaft 12 is connected with the transmitting probe 10 or the end part of the receiving probe 11 in an inserting mode, the first telescopic frame 4 and the second telescopic frame 5 are connected through a connecting plate 2, the first telescopic frame 4, the second telescopic frame 5 and the first telescopic frame 4 are adopted, the second telescopic frame 5 is connected through the connecting plate 2, the transmitting probe 10 and the receiving probe 11 which correspond up and down can keep synchronous motion when moving, the intervals of the plurality of transmitting probes 10 and the receiving probes 11 can be reduced or enlarged, and the light transmittance of conductive film glass of different specifications can be detected in a matching mode.

The working principle is as follows: when in use, when the conductive film glass does not pass through the gap between the upper transmitting component 1 and the lower receiving component 3, the control display end 6 is started, the plurality of transmitting probes 10 emit light beams, the plurality of receiving probes 11 corresponding to the lower parts one by one receive the light beams, then the display terminal 6 is controlled to display, initial calibration is carried out, then the conductive film glass passes through, a plurality of emission probes 10 emit light beams, the light beams pass through the conductive film glass and are received by a receiving probe 11, the ratio of transmitted luminous flux to incident luminous flux is calculated and displayed by controlling the display end 6, the light transmittance of each point position is realized, when in use, the transmitting probe 10 at one end is fixed, the connecting plate 2 is pulled or pushed, the first telescopic frame 4 drives the plurality of transmitting probes 10 to shrink or expand, meanwhile, the second telescopic frame 5 drives the plurality of receiving probes 11 to shrink or expand, so that synchronous action is kept, and detection on the light transmittance of the conductive film glass with different specifications is facilitated.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made herein without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims (5)

1. The utility model provides a detect device of conductive film glass luminousness which characterized in that: including parallel arrangement's upper portion transmission subassembly (1), lower part receiving subassembly (3) and control display end (6), upper portion transmission subassembly (1) and lower part receiving subassembly (3) are equipped with the passageway that supplies conductive film glass to pass through between, upper portion transmission subassembly (1) and lower part receiving subassembly (3) all include the support frame, the support frame slidable mounting of upper portion transmission subassembly (1) has a plurality of transmitting probe (10), the support frame slidable mounting of lower part receiving subassembly (3) has receiving probe (11) with a plurality of transmitting probe (10) upper and lower one-to-one, and a plurality of transmitting probe (10) and receiving probe (11) are connected with control display end (6) electricity through the wire respectively, the upper portion of upper portion transmission subassembly (1) is equipped with one (4) of expansion bracket that are used for making a plurality of transmitting probe (10) keep equidistant, the lower part of lower part receiving subassembly (3) is equipped with and is used for making a plurality of receiving probe (11) keep equidistant And a second expansion bracket (5).

2. The device for detecting the transmittance of a conductive film of glass as claimed in claim 1, wherein: the support frame includes two long curb plates (7) of parallel arrangement, and the both ends of two long curb plates (7) all are fixed with end plate (13) through the bolt, and the double-phase inside wall all is equipped with backup pad (9) that are "L" shape of two long curb plates (7), and slot (901) have been seted up to the right angle department of backup pad (9).

3. The device for detecting the transmittance of a conductive film of glass as claimed in claim 1, wherein: each outer wall of emission probe (10) and receiving probe (11) all overlaps and is equipped with slide (8), and the double-phase relative inside wall of slide (8) all is equipped with groove portion (801) with slot (901) adaptation, and slide (8) slidable mounting of emission probe (10) is in two backup pad (9) upper portions of the support frame of upper portion emission subassembly (1), and slide (8) slidable mounting of receiving probe (11) is in two backup pad (9) lower parts of the support frame of lower part receiving subassembly (3).

4. The device for detecting the transmittance of a conductive film of glass as claimed in claim 1, wherein: the first telescopic frame (4) and the second telescopic frame (5) are consistent in structure and are composed of a plurality of groups of X-shaped scissor arms, a long pin shaft (12) is arranged at the axis of each X-shaped scissor arm, and one end of each long pin shaft (12) is inserted into the end of the transmitting probe (10) or the receiving probe (11).

5. The device for detecting the transmittance of a conductive film of glass as claimed in claim 1, wherein: one ends of the first telescopic frame (4) and the second telescopic frame (5) at the same side are connected through a connecting plate (2).

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