CN208999224U - A kind of structure improved electro-conductive glass intensity detecting device - Google Patents

Abstract

The utility model discloses a kind of structure improved electro-conductive glass intensity detecting devices, including detection case, the first roller board is fixedly connected on the right side of the inner bottom of the detection case, the left side of first roller board, and the inner bottom of detection case is fixedly connected with the second roller board, between first roller board and the second roller board, and the inner bottom of detection case is fixedly connected with high-definition camera, the upside of the high-definition camera, and first is fixedly connected with tempered glass between roller board and the second roller board adjacent inside side wall, the top of first roller board is provided with the first supporting block.The structure improved electro-conductive glass intensity detecting device, high-definition camera is used for the stress condition of real-time detection top electro-conductive glass ontology, prevent electro-conductive glass ontology from rupturing, first supporting block and the second supporting block are conveniently adjusted the field of load of upper end electro-conductive glass ontology, the precision for improving detection, is conducive to promotion and popularization.

Description

A kind of structure improved electro-conductive glass intensity detecting device

Technical field

The utility model belongs to glass detection device technical field, and in particular to a kind of structure improved electro-conductive glass intensity Detection device.

Background technique

Simple glass is insulating materials, by plating one layer of conductive film (ito film) on its surface, it can be made to have conduction Performance, here it is electro-conductive glass.Electro-conductive glass for touch screen, it is desirable that have certain intensity and fastness, can resist certain External impacts, therefore complete carry out quality inspection when, intensity detection is usually carried out, since electro-conductive glass needs to examine The position of survey is different, in order to improve the precision of electro-conductive glass when detecting, needs convenient for adjusting the range of electro-conductive glass measurement A kind of structure improved electro-conductive glass intensity detecting device.

Utility model content

It is above-mentioned to solve the purpose of this utility model is to provide a kind of structure improved electro-conductive glass intensity detecting device The problem of being proposed in background technique.

To achieve the above object, the utility model provides the following technical solutions: a kind of structure improved electro-conductive glass intensity The inner bottom right side of detection device, including detection case, the detection case is fixedly connected with the first roller board, first roller bearing The left side of plate, and the inner bottom of detection case is fixedly connected with the second roller board, first roller board and the second roller board it Between, and the inner bottom of detection case be fixedly connected with high-definition camera, the upside of the high-definition camera, and the first roller board with Tempered glass is fixedly connected between second roller board adjacent inside side wall, the top of first roller board is provided with the first support Block, the top of second roller board are provided with the second supporting block, and the inner sidewall of the detection case is symmetrically fixedly connected with two groups Electric telescopic rod, and the telescopic end of two groups of electric telescopic rods is fixedly connected with the first supporting block and the second supporting block respectively, it is described The inner tip of detection case is fixedly connected with cylinder, and the bottom telescopic end of the cylinder is fixedly connected with pressure sensor, described The bottom end of pressure sensor is fixedly connected with detection compression bar, and the inner tip of the detection case is fixedly connected with headlamp, described The top of detection case is fixedly connected with PLC controller.

This setting adjusts the first supporting block and the second support for controlling the electric telescopic rod of two sides by PLC controller Gap between block, then electro-conductive glass ontology is put into the top of the first supporting block Yu the second supporting block, in the effect of cylinder The lower electro-conductive glass body contacts for driving pressure sensor and detecting compression bar and bottom end detect compression bar for pressure this moment and pass to pressure Signal is passed into PLC controller by pressure sensor after force snesor, realizes that detection electro-conductive glass ontology bears the work of dynamics With.

Preferably, the left side wall of the detection case has been connected through hinge activity explosion proof door, and the surface inserting of explosion proof door Observation window is installed.

Preferably, the front front side wall of the PLC controller is inlaid with display screen, and high-definition camera, electric telescopic rod, Cylinder, pressure sensor and headlamp pass through conducting wire and PLC controller is electrically connected.

Preferably, the top of first supporting block and the second supporting block is fixedly connected with rubber pad, and the top of rubber pad End is provided with electro-conductive glass ontology.

This setting is for protecting the electro-conductive glass ontology of upper end to reduce damage.

Preferably, first supporting block and the second supporting block are the circular configuration being spliced.

The field of load for being conveniently adjusted upper end electro-conductive glass ontology is arranged in this.

Preferably, the headlamp is symmetrically arranged with two groups at left and right sides of cylinder.

This setting improves the precision of detection for improving electro-conductive glass ontology illuminating effect when detecting.

The technical effect and advantage of the utility model: the structure improved electro-conductive glass intensity detecting device is controlled by PLC The electric telescopic rod of device processed control two sides adjusts the gap between the first supporting block and the second supporting block, then by electro-conductive glass ontology It is put into the top of the first supporting block Yu the second supporting block, drives pressure sensor and detection compression bar and bottom in the presence of cylinder The electro-conductive glass body contacts at end, detect compression bar this moment and pass to pressure and passed signal by pressure sensor after pressure sensor PLC controller is passed, realizes that detection electro-conductive glass ontology bears the effect of dynamics, high-definition camera is led for real-time detection top The stress condition of electric glass body prevents electro-conductive glass ontology from rupturing, and the first supporting block and the second supporting block are conveniently adjusted upper end The field of load of electro-conductive glass ontology improves the precision of detection, is conducive to promotion and popularization.

Detailed description of the invention

Fig. 1 is the structure sectional view of the utility model；

Fig. 2 is enlarged drawing at the A of the utility model；

Fig. 3 is the utility model supporting block schematic diagram；

Fig. 4 is the electric connection figure of the utility model.

In figure: 1 detection case, 2 first roller boards, 3 second roller boards, 4 high-definition cameras, 5 tempered glass, 6 first supports Block, 7 second supporting blocks, 8 electro-conductive glass ontologies, 9 electric telescopic rods, 10 cylinders, 11 pressure sensors, 12 detection compression bars, 13 are shone Bright lamp, 14 PLC controllers, 15 explosion proof doors, 16 observation windows.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

The utility model provides a kind of structure improved electro-conductive glass intensity detecting device as shown in Figs 1-4, including Detection case 1, is fixedly connected with the first roller board 2 on the right side of the inner bottom of the detection case 1, the left side of first roller board 2, And the inner bottom of detection case 1 is fixedly connected with the second roller board 3, between first roller board 2 and the second roller board 3, and The inner bottom of detection case 1 is fixedly connected with high-definition camera 4, the upside of the high-definition camera 4, and the first roller board 2 with Tempered glass 5 is fixedly connected between second roller board, 3 adjacent inside side wall, the top of first roller board 2 is provided with first Supporting block 6, the top of second roller board 3 are provided with the second supporting block 7, and the inner sidewall of the detection case 1 is symmetrically fixed to be connected Two groups of electric telescopic rods 9 are connected to, and the telescopic end of two groups of electric telescopic rods 9 is solid with the first supporting block 6 and the second supporting block 7 respectively Fixed connection, the inner tip of the detection case 1 are fixedly connected with cylinder 10, and the bottom telescopic end of the cylinder 10 is fixedly connected with Pressure sensor 11, the pressure sensor are flat membranous type pressure sensor, and the model YB-131 of pressure sensor 11, described The bottom end of pressure sensor 11 is fixedly connected with detection compression bar 12, and the inner tip of the detection case 1 is fixedly connected with headlamp 13, the top of the detection case 1 is fixedly connected with PLC controller 14, the model YBD-004 of the PLC controller 14.

Specifically, the left side wall of the detection case 1 has been connected through hinge activity explosion proof door 15, and the surface of explosion proof door 15 It inlays and observation window 16 is installed.

Specifically, the front front side wall of the PLC controller 14 is inlaid with display screen, and high-definition camera 4, electric expansion Bar 9, cylinder 10, pressure sensor 11 and headlamp 13 are electrically connected by conducting wire and PLC controller 14.

Specifically, the top of first supporting block 6 and the second supporting block 7 is fixedly connected with rubber pad, and rubber pad Top is provided with electro-conductive glass ontology 8.

Specifically, first supporting block 6 and the second supporting block 7 are the circular configuration being spliced.

Specifically, the headlamp 13 is symmetrically arranged with two groups in the left and right sides of cylinder 10.

The structure improved electro-conductive glass intensity detecting device controls the electricity of two sides by PLC controller 14 when in use Dynamic telescopic rod 9 adjusts the gap between the first supporting block 6 and the second supporting block 7, then electro-conductive glass ontology 8 is put into first The top of bracer 6 and the second supporting block 7 drives pressure sensor 11 under the action of cylinder 10 and detects compression bar 12 and bottom end Electro-conductive glass ontology 8 contacts, and detecting this moment will letter by pressure sensor 11 after pressure is passed to pressure sensor 11 by compression bar 12 PLC controller 14 number is passed to, realizes that detection electro-conductive glass ontology 8 bears the effect of dynamics, high-definition camera 4 for examining in real time The stress condition for surveying top electro-conductive glass ontology 8 prevents electro-conductive glass ontology 8 from rupturing, the first supporting block 6 and the second supporting block 7 It is conveniently adjusted the field of load of upper end electro-conductive glass ontology 8, the precision of detection is improved, is conducive to promotion and popularization.

Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention, it is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic It is equivalently replaced, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on, It should be included within the scope of protection of this utility model.

Claims (6)

1. a kind of structure improved electro-conductive glass intensity detecting device, including detection case (1), it is characterised in that: the detection case (1) it is fixedly connected with the first roller board (2) on the right side of inner bottom, the left side of first roller board (2), and detection case (1) Inner bottom be fixedly connected with the second roller board (3), between first roller board (2) and the second roller board (3), and detect The inner bottom of case (1) is fixedly connected with high-definition camera (4), the upside of the high-definition camera (4), and the first roller board (2) it is fixedly connected with tempered glass (5) between the second roller board (3) adjacent inside side wall, the top of first roller board (2) It is provided with the first supporting block (6), the top of second roller board (3) is provided with the second supporting block (7), the detection case (1) Inner sidewall be symmetrically fixedly connected with two groups of electric telescopic rods (9), and the telescopic end of two groups of electric telescopic rods (9) is respectively with first Supporting block (6) is fixedly connected with the second supporting block (7), and the inner tip of the detection case (1) is fixedly connected with cylinder (10), institute The bottom telescopic end for stating cylinder (10) is fixedly connected with pressure sensor (11), and the bottom end of the pressure sensor (11) is fixed to be connected It is connected to detection compression bar (12), the inner tip of the detection case (1) is fixedly connected with headlamp (13), the detection case (1) Top is fixedly connected with PLC controller (14).

2. a kind of structure improved electro-conductive glass intensity detecting device according to claim 1, it is characterised in that: the inspection The left side wall of measuring tank (1) has been connected through hinge activity explosion proof door (15), and the surface inserting of explosion proof door (15) is equipped with observation Window (16).

3. a kind of structure improved electro-conductive glass intensity detecting device according to claim 1, it is characterised in that: described The front front side wall of PLC controller (14) is inlaid with display screen, and high-definition camera (4), electric telescopic rod (9), cylinder (10), Pressure sensor (11) and headlamp (13) are electrically connected by conducting wire and PLC controller (14).

4. a kind of structure improved electro-conductive glass intensity detecting device according to claim 1, it is characterised in that: described The top of one supporting block (6) and the second supporting block (7) is fixedly connected with rubber pad, and the top of rubber pad is provided with electro-conductive glass Ontology (8).

5. a kind of structure improved electro-conductive glass intensity detecting device according to claim 1, it is characterised in that: described One supporting block (6) and the second supporting block (7) are the circular configuration being spliced.

6. a kind of structure improved electro-conductive glass intensity detecting device according to claim 1, it is characterised in that: the photograph Bright lamp (13) is symmetrically arranged with two groups at left and right sides of cylinder (10).