CN105424241A - Glass surface stress detection apparatus - Google Patents

Abstract

The invention discloses a glass surface stress detection apparatus. The glass surface stress detection apparatus comprises a detection host, wherein the detection host includes a host box, a detection optical system and an image acquisition unit; the detection optical system and the image acquisition unit are arranged in the host box; the image acquisition unit can acquire glass surface stress detection images which are formed through the detection optical system; the glass surface stress detection apparatus also includes a display device; and the display device is connected with and supported on the host box through a connection mechanism. The glass surface stress detection apparatus can support and maintain the display device through the connection mechanism and the detection host, so that detection work becomes convenient.

Description

Glass surface stress detection device

Technical field

The disclosure relates to a kind of optical detection apparatus, particularly, relates to a kind of glass surface stress detection device.

Background technology

Glass plate is material all common in daily life and commercial production.In order to weigh glass sheet quality, guarantee the safety that glass plate uses, often need to measure the stress in glass plate.In order to detect glass plate stress, specifying in the standards such as GB, adopting birefringent mode to measure the surface stress of glass, to characterize the stress level of inside glass.At present, in actual use, the mode measuring glass surface stress mainly contains two kinds: differential surface refraction process DSR (DifferentialSurfaceRefractometry) and surperficial Lve Jiao Pianguan County method GASP (GrazingAngleSurfacePlarimetry).Wherein DSR mode due to use optical element few, the price of detecting instrument is relatively low, and is widely adopted by various testing agency.

But, the most volume of glass surface tension gauge of existing DSR mode is comparatively huge, and dependence is manually estimated by micrometer eyepiece counter stress, then stress value is gone out according to formulae discovery, such method is obviously subject to the restriction of gauger's naked-eye observation precision, also be unfavorable for the data processing of electronization, let alone the scene of testing result and data processed result intuitively shows.

Present inventor proposes a kind of glass surface stress detection device in Chinese patent CN204535899U, wherein combines electronic imaging unit to gather the detected image of glass surface stress.Inventor finds in further research, pick-up unit with the display device of non-dedicated with the use of time, the convenience that the connection of pick-up unit and display device and arrangement, detection operate is very limited.

Summary of the invention

In view of above shortcomings in prior art, make the present invention.

According to the present invention, provide a kind of glass surface stress detection device, it comprises detection main frame, this detection main frame comprises mainframe box, be arranged on detection optical system in mainframe box and image acquisition units, the glass surface stress mornitoring image that described image acquisition units collection is formed by described detection optical system, wherein, described glass surface stress detection device also comprises display device, and this display device is connected by bindiny mechanism and is supported on described mainframe box.

Preferably, described bindiny mechanism is removably connected to the top of described mainframe box.

According to favourable embodiment, described mainframe box can have two reciprocal first type surfaces, described two first type surfaces can be formed with the one in groove and projection.Described bindiny mechanism can comprise U-shaped inter-access piece, two jig arm that this U-shaped inter-access piece has middle brace and extends from the two ends of middle brace to same direction, the medial surface respect to one another of described two jig arm is formed with separately the another kind in groove and projection, when described bindiny mechanism is connected to described mainframe box, described U-shaped inter-access piece is connected across the top of described mainframe box, and the groove be formed on described mainframe box first type surface in described two jig arm is together with male cooperation.

In certain embodiments, described groove can be formed as the open straight trough at least one end, and described in convex to form slider bar into straight shape, it is engaged in described straight trough slidably.More preferably, the one in described straight trough and slider bar is provided with location indentations, and another one is formed with positioning convex portion, and location indentations and positioning convex portion coordinate to be located relative to mainframe box by U-shaped inter-access piece.

In further embodiments, described groove can be formed as the detent of closed at both ends, and when described bindiny mechanism is connected to described mainframe box, described U-shaped inter-access piece fastens to the top of mainframe box from the top down until described projection is engaged in described detent.

Preferably, described bindiny mechanism can also comprise pivotable member, and described display device is connected to the middle brace of described U-shaped inter-access piece pivotly by this pivotable member.

Preferably, described pivotable member is hinge, this hinge comprises pivot and first loose-leaf that can rotate around pivot and the second loose-leaf, described first loose-leaf is fixed to the back side contrary with the front with display screen of described display device, and described second loose-leaf is connected to the end face of the middle brace of described U-shaped inter-access piece.

According to favourable embodiment, described bindiny mechanism can comprise hinge, this hinge comprises pivot and first loose-leaf that can rotate around pivot and the second loose-leaf, described first loose-leaf is fixed to the back side contrary with the front with display screen of described display device, and described second loose-leaf is connected to mainframe box.

Preferably, the second loose-leaf of described hinge can be coordinated by screw fastening or chute and be linked together with the top of described mainframe box.

Preferably, described hinge can be configured to the first and second loose-leaves and can be positioned in different incident angle by frictional force.

Described display device and described detection main frame can be formed with separately the interface for Signal transmissions and/or electric power transfer.

The surface cooperatively interacted of described display device, bindiny mechanism and detection main frame can be formed with the electrical contact for transmission of electric signals or electric power.

Preferably, described bindiny mechanism is formed as tool and has the dimensions, make described bindiny mechanism together with display device under the state that described mainframe box disassembles, this bindiny mechanism can display device described in independent support.

Glass surface stress detection device according to the embodiment of the present invention supports and keeps display device with bindiny mechanism and detection main frame, for testing is provided convenience.

Accompanying drawing explanation

By reading the detailed description done non-limiting example done with reference to the following drawings, the other features, objects and advantages of the application will become more obvious:

Figure 1A is the skeleton view of glass surface stress detection device according to a first embodiment of the present invention;

Figure 1B is the side view of described glass surface stress detection device;

Fig. 1 C is the schematic diagram of the detection main frame of described glass surface stress detection device;

Fig. 1 D is described glass surface stress detection device skeleton view in the disassembled condition;

Fig. 2 A, 2B are side view and the upward view of detection main frame in described first embodiment respectively;

Fig. 3 A, 3B are decomposition diagram and the side view of bindiny mechanism in described first embodiment respectively;

Fig. 4 A, 4B respectively illustrate described bindiny mechanism to support the view that display device is in obliquity and horizontal arrangement;

Fig. 5 illustrates the electric connection structure in described glass surface stress detection device;

Fig. 6 shows a modified example of described first embodiment;

Fig. 7 shows another modified example of described first embodiment;

Fig. 8 shows glass surface stress detection device according to a second embodiment of the present invention;

Fig. 9 shows a modified example of described second embodiment;

Figure 10 shows another modified example of described second embodiment.

Embodiment

Below in conjunction with drawings and Examples, the application is described in further detail.Be understandable that, specific embodiment described herein is only for explaining related invention, but not the restriction to this invention.It also should be noted that, for convenience of description, illustrate only in accompanying drawing and invent relevant part.

Below first composition graphs 1 to Fig. 5 illustrates glass surface stress detection device 100 according to a first embodiment of the present invention.

Figure 1A is the skeleton view of glass surface stress detection device 100 according to a first embodiment of the present invention.Figure 1B is the side view of glass surface stress detection device 100.As shown in Figure 1, glass surface stress detection device 100 comprises detection main frame 10, display device 20 and bindiny mechanism, and display device 20 connects and is supported on by this bindiny mechanism to be detected on main frame 10.

Detect main frame 10 and comprise mainframe box 10a and the detection optical system be arranged in mainframe box and image acquisition units (indicating totally by Reference numeral " 1 " in fig. 1 c).As shown in Figure 1 C, during use, detect main frame 10 and be placed on glass surface GS, detection optical system detects glass surface stress through the window detected bottom main frame 10.The glass surface stress mornitoring image that image acquisition units collection is formed by optical system.

Display device 20 has display screen 21, may be used for display detected image and other operation information and/or data processing of information.Preferably, the display device 20 that glass surface stress detection device 100 adopts is formed as having certain size, thus adapts with the size detecting main frame 10.Such as, display device 20 can have the width (" width " here refer to along the size direction on mainframe box first type surface base on) roughly the same with detecting main frame 10, as shown in Figure 1A.Like this, the width dimensions of glass surface stress detection device 100 can not be increased on the one hand owing to being integrated with display device, on the other hand, allow the size of the display screen 21 increasing display device as much as possible, to facilitate observation during detection.

According to the present embodiment, display device 20 is removably connected to the top of described mainframe box by bindiny mechanism 30.Fig. 1 D shows the state that display device 20 disassembles with detection main frame 10 together with bindiny mechanism 30.

The mainframe box detecting main frame 10 preferably has roughly positive parallelepiped shape, and has reciprocal two first type surfaces.As shown in Fig. 1 D, 2A and 2B, two first type surfaces of mainframe box are formed with groove 11 separately.

In addition, detect main frame 10 and be provided with an adjustment means 13 on one of side of connection two first type surfaces of mainframe box, the optics in the interior also junction detection optical system of mainframe box is stretched in one end of this adjustment means 13, the other end is set to such as knob, and when this knob rotates, adjustment means stretches into the degree of depth in mainframe box.

As shown in the best in the upward view of Fig. 2 B, the bottom detecting main frame 10 can be provided with detection port 12, and this detection port 12 can relative to bottom surface 14 projection of mainframe box out.Such projection detection port 12 is out conducive to pick-up unit location on the glass surface, avoids the impact of the out-of-flatness position on glass surface on the correct arrangement of pick-up unit.Certainly, such detection port is not that to realize the present invention necessary.

Fig. 3 A and 3B respectively illustrates decomposition diagram and the side view of the bindiny mechanism 30 in first embodiment of the invention.As shown in the figure, in the present embodiment, bindiny mechanism 30 comprises hinge 40 and U-shaped inter-access piece 50.

The first loose-leaf 41 and the second loose-leaf 42 that hinge 40 comprises pivot 43 and can rotate around pivot.First loose-leaf 41 is for being fixed to the back side contrary with the front with display screen 21 of display device 20 by such as screw.The back side of display device 20 can be provided with boss 22, fixing for loose-leaf 41.Second loose-leaf 42 is connected to U-shaped inter-access piece 50.Preferably, hinge 40 is configured to the first and second loose-leaves 41,42 and can be positioned in different incident angle by frictional force, as illustrated in figures 4 a and 4b.

Two jig arm 52 that U-shaped inter-access piece 50 has middle brace 51 and extends from the two ends of middle brace 51 to same direction.The medial surface respect to one another of two jig arm 52 is formed with protruding 52a separately, for coordinating with the groove 11 be formed on mainframe box.Preferably, the screw hole that middle brace 51 top of U-shaped inter-access piece 50 is formed with boss 53 and is arranged in boss 53, for being connected with the second loose-leaf 42 of hinge 40 by screw.

Referring back to such as Fig. 1 D, when bindiny mechanism 30 is connected with detection main frame 10, U-shaped inter-access piece is laterally promoted from the side detecting main frame 10, protruding 52a is made to enter groove 11 from the end of the opening of groove 11, and slide along it, guide U-shaped inter-access piece 50 to move to the top being connected across described mainframe box.

Although in this embodiment, the surface of mainframe box is formed groove 11, the jig arm 52 of U-shaped inter-access piece 50 forms protruding 52a, to realize mutual cooperation, but those skilled in the art can understand after reading the above description, groove can be formed in the jig arm of U-shaped inter-access piece, and projection can be formed on the surface of mainframe box.

In addition, although groove to be depicted as in figure the straight trough of both ends open, groove is slipped in order to allow projection, groove also only can be formed as open in one end, as long as and U-shaped inter-access piece can be guided to jump to mainframe box top, described groove can have other shape beyond straight trough.Preferably, as shown in Figure 2 A, enter groove 11 for the ease of protruding 52a, the open end of groove 11 can form lead-in chamfered 11a.

In addition, although protruding 52a to be depicted as in figure the slider bar of straight shape, those skilled in the art can understand, as long as can be slidably matched with groove, protruding can have any other suitable form, and such as columniform slip guide pillar, the present invention is unrestricted in this regard.

It is approximate rectangular that groove and protruding cross sectional shape are also not limited to shown in figure, and can be semicircle, triangle, swallow-tail form or other shape.

In addition, preferably, the one in straight trough and slider bar is provided with location indentations, and another one is formed with corresponding positioning convex portion.When slider bar slides into certain position along straight trough, location indentations and positioning convex portion can produce and such as be clasped, to be located relative to mainframe box by U-shaped inter-access piece.More preferably, " click " sound can be sent when location indentations and positioning convex portion coordinate or produce vibrations sense of touch, with to the exact connect ion of user clearly between indicating device.

In addition, in order to use display device easily when display device and bindiny mechanism and detection main frame depart from, preferably by bindiny mechanism, particularly U-shaped inter-access piece is formed as having the size that can support display device.Such as shown in Figure 1 D, display device can support in one plane by connecting elements independently.

According in the glass surface stress detection device 100 of the present embodiment, display device 20 is fixedly attached in bindiny mechanism 30, and bindiny mechanism 30 together with display device 20 relative to detection main frame 10 be dismountable.Removably connect due to this, user can select according to the needs in use display device to be supported on and detects on main frame or be placed in other place be applicable to.In addition, in preservation with when carrying glass surface stress detection device, this overall space that can reduce for receiving pick-up unit that removably connects.

Next the electric power in glass surface stress detection device 100 and/or signal connection is introduced by way of example.

In some advantageous embodiments, as shown in Figure 1 D, display device 20 can be provided with the interface 23 for signal and/or electric power transfer, and detection main frame 10 can be provided with the corresponding interface 15 for signal and/or electric power transfer.Described interface 23 and 15 can be the interface of wired connection, such as USB interface; Also can be wireless connection interface.The shape of the interface shown in figure and the setting position in display device 20 and detection main frame 10 are only exemplary, and the present invention is unrestricted in this regard.

As an alternative or supplement, display device 20, bindiny mechanism 30 and detect main frame 10 the surface cooperatively interacted on can be formed with electrical contact for transmission of electric signals or electric power.Such as, as shown in Figure 5, on the back side of display device 20, such as, on boss 22, electrical contact 22b can be formed.Electrical contact 22b such as can be positioned between the screw hole 22a for being connected with hinge 40, to guarantee that enough being press-fitted between the electrical contact on electrical contact 22b and hinge 40 is made a concerted effort.Similarly, the loose-leaf 41 and 42 of hinge 40, U-shaped inter-access piece and detect main frame 10 the surface be bonded with each other on electrical contact 41a, 42a, 53b, 10a can be set respectively, to realize electrical connection each other.The indicative icon of this electric connection mode is only provided in Fig. 5.The present invention in this regard and unrestricted, and can adopt the electric connection mode of other suitable form any.

Two modified examples of first embodiment of the invention are introduced below in conjunction with Fig. 6 and Fig. 7.

Fig. 6 shows a modified example of the first embodiment.Substantially the same with glass surface stress detection device 100 according to the glass surface stress detection device 200 of this modified example, difference is: the connection of U-shaped inter-access piece and mainframe box is not be coupled on mainframe box by U-shaped inter-access piece lateral slip, but is snapped into from the top down on mainframe box.

Specifically, the groove type be formed on the mainframe box surface detecting main frame 10 becomes the detent 11 ' of closed at both ends.

The incline place that U-shaped inter-access piece 50 is connected with middle brace 51 in an one jig arm 52 is extended with controlfin 54, the pivot 54a that jig arm 52 can be made to be formed around described incline place by pressing controlfin 54 away from jig arm 52 rotates, thus the distance increased between two jig arm 52, make U-shaped inter-access piece 50 can jump to mainframe box top from the top down, and make protruding 52 to be snapped in detent 11 '.

Fig. 7 shows another modified example of the first embodiment.Substantially the same with glass surface stress detection device 200 according to the glass surface stress detection device 300 of this modified example, difference is: U-shaped inter-access piece 50 does not form controlfin 54, but near the end of a jig arm 52, define flange 52b.Flange 52b to act on controlfin 54 similar, be exactly by outside draft lugs 52b, the spacing of two jig arm 52 can be made to increase, thus facilitate U-shaped inter-access piece to jump to mainframe box top from the top down, and protruding 52a is snapped fit onto in detent 11 '.

Although detent 11 ' is depicted as microscler straight trough form in Fig. 6 and Fig. 7, detent 11 ' can have other shape any, such as, can be circular groove.Correspondingly, protruding 52a also can have any shape that other mates with detent 11 '.

Fig. 8 shows glass surface stress detection device 400 according to a second embodiment of the present invention.Substantially the same with glass surface stress detection device 100 according to the glass surface stress detection device 400 of the second embodiment, difference is: bindiny mechanism is only made up of hinge 40, and does not adopt U-shaped inter-access piece.

As shown in Figure 8, display device 20 is connected to by hinge 40 and detects main frame 10.Identical with the first embodiment, hinge 40 comprises pivot and by the first and second pivotally connected loose-leaves 41 and 42.In the present embodiment, the first loose-leaf 41 is fixed to the back side of display device 20 by such as screw; Second loose-leaf 42 is fixed to the mainframe box top detecting main frame 10 by such as screw.Mainframe box top preferably arranges boss 16, and on boss 16, setting example is as screw hole, to receive the screw being used for it to be connected with the second loose-leaf.Being provided with of boss 16 helps improve the physical strength connected, but non-essential.

Achieve display device 20 according to the glass surface stress detection device 400 of the second embodiment and detect being connected easily between main frame 10, the rotation provided by hinge and friction location, display device can be arranged at position and the posture of convenient observation.

Detection main frame 10 in glass surface stress detection device 400 and display device 20 can have provides identical technical advantage with according to structure identical in the pick-up unit 100 of the first embodiment.At this, this is not being repeated.

Fig. 9 shows a modified example of described second embodiment.Substantially the same with glass surface stress detection device 400 according to the glass surface stress detection device 500 of this modified example, difference is: at hinge 40 and detect to add between main frame 10 mainframe box and rotate bearing part 60, makes display device 20 can relative to mainframe box around vertical axial-rotation.

Particularly, the second loose-leaf 42 that the upper end rotating bearing part 60 equals hinge 40 by the such as screw hole be formed on boss 61 is fixedly connected with.The lower end rotating bearing part 60 stretches out turning axle 62, and turning axle 62 is threaded with the threaded hole 17 at mainframe box top.Flexible member 70 is also provided with between the downward surface rotating bearing part 60 and the end face of mainframe box on the other side, this flexible member 70 is compressed between the two, in a rotational direction rotation bearing part 60 being remained on certain position relative to mainframe box.

The glass surface stress detection device 500 of the modified example according to Fig. 9 is except the technical advantage that pick-up unit 400 can realize, the rotation around vertical axis of display device 20 relative to detecting main frame 10 can also be provided, for the observation in stress mornitoring process provides further facility.

Figure 10 shows another modified example of described second embodiment.Substantially the same with glass surface stress detection device 400 according to the glass surface stress detection device 600 of this modified example, difference is: the second loose-leaf 42 of hinge 40 is not be fixedly connected with by screw with mainframe box end face, but is coordinated by chute and removably connect.

Particularly, as shown in Figure 10, the surface coordinated of the second loose-leaf 42 is formed with the slide block 42a of dove tail cross section with mainframe box, and the top detecting main frame 10 mainframe box is provided with the chute 18 of corresponding dove tail cross section.When connection, promote hinge 40 by side direction, slide block 42a is coupled in chute 18 and slides along it, can quickly and easily by hinge 40 and fixing display device 20 is connected to and detects main frame 10 with hinge 40.

Although slide block and chute are depicted as in figure and have dovetail cross-sectional shape, this is not necessary.Slide block and chute can have any other and suitablely display device kept and be supported on the shape of cross section detected on main frame.

More than describe and be only the preferred embodiment of the application and the explanation to institute's application technology principle.Those skilled in the art are to be understood that, invention scope involved in the application, be not limited to the technical scheme of the particular combination of above-mentioned technical characteristic, also should be encompassed in when not departing from described inventive concept, other technical scheme of being carried out combination in any by above-mentioned technical characteristic or its equivalent feature and being formed simultaneously.The technical characteristic that such as, disclosed in above-mentioned feature and the application (but being not limited to) has similar functions is replaced mutually and the technical scheme formed.

Claims (14)

1. a glass surface stress detection device, comprise detection main frame, this detection main frame comprises mainframe box, be arranged on detection optical system in mainframe box and image acquisition units, the glass surface stress mornitoring image that described image acquisition units collection is formed by described detection optical system, it is characterized in that

Described glass surface stress detection device also comprises display device, and this display device is connected by bindiny mechanism and is supported on described mainframe box.

2. glass surface stress detection device as claimed in claim 1, it is characterized in that, described bindiny mechanism is removably connected to the top of described mainframe box.

3. glass surface stress detection device as claimed in claim 2, is characterized in that,

Described mainframe box has two reciprocal first type surfaces, described two first type surfaces is formed with the one in groove and projection; And

Described bindiny mechanism comprises U-shaped inter-access piece, two jig arm that this U-shaped inter-access piece has middle brace and extends from the two ends of middle brace to same direction, the medial surface respect to one another of described two jig arm is formed with separately the another kind in groove and projection, when described bindiny mechanism is connected to described mainframe box, described U-shaped inter-access piece is connected across the top of described mainframe box, and the groove be formed on described mainframe box first type surface in described two jig arm is together with male cooperation.

4. glass surface stress detection device as claimed in claim 3, is characterized in that, described groove type becomes the straight trough that at least one end is open, and described in convex to form slider bar into straight shape, it is engaged in described straight trough slidably.

5. glass surface stress detection device as claimed in claim 4, it is characterized in that, one in described straight trough and slider bar is provided with location indentations, and another one is formed with positioning convex portion, and location indentations and positioning convex portion coordinate to be located relative to mainframe box by U-shaped inter-access piece.

6. glass surface stress detection device as claimed in claim 3, it is characterized in that, described groove type becomes the detent of closed at both ends, and when described bindiny mechanism is connected to described mainframe box, described U-shaped inter-access piece fastens to the top of mainframe box from the top down until described projection is engaged in described detent.

7. glass surface stress detection device as claimed in claim 3, it is characterized in that, described bindiny mechanism also comprises pivotable member, and described display device is connected to the middle brace of described U-shaped inter-access piece pivotly by this pivotable member.

8. glass surface stress detection device as claimed in claim 7, it is characterized in that, described pivotable member is hinge, this hinge comprises pivot and first loose-leaf that can rotate around pivot and the second loose-leaf, described first loose-leaf is fixed to the back side contrary with the front with display screen of described display device, and described second loose-leaf is connected to the end face of the middle brace of described U-shaped inter-access piece.

9. glass surface stress detection device as claimed in claim 1, it is characterized in that, described bindiny mechanism comprises hinge, this hinge comprises pivot and first loose-leaf that can rotate around pivot and the second loose-leaf, described first loose-leaf is fixed to the back side contrary with the front with display screen of described display device, and described second loose-leaf is connected to mainframe box.

10. glass surface stress detection device as claimed in claim 9, it is characterized in that, the second loose-leaf of described hinge is coordinated with the top of described mainframe box by screw fastening or chute and is linked together.

11. glass surface stress detection devices as claimed in claim 8 or 9, is characterized in that, described hinge structure is that the first and second loose-leaves can be positioned in different incident angle by frictional force.

12. glass surface stress detection devices as claimed in claim 1, is characterized in that, described display device and described detection main frame are formed with separately the interface for Signal transmissions and/or electric power transfer.

13. glass surface stress detection devices as claimed in claim 1 or 2, is characterized in that, the surface cooperatively interacted of described display device, bindiny mechanism and detection main frame are formed with the electrical contact for transmission of electric signals or electric power.

14. glass surface stress detection devices as claimed in claim 1 or 2, it is characterized in that, described bindiny mechanism is formed as tool and has the dimensions, make described bindiny mechanism together with display device under the state that described mainframe box disassembles, this bindiny mechanism can display device described in independent support.