CN207622734U - Glass mould face visual detection device - Google Patents
Glass mould face visual detection device Download PDFInfo
- Publication number
- CN207622734U CN207622734U CN201721695959.7U CN201721695959U CN207622734U CN 207622734 U CN207622734 U CN 207622734U CN 201721695959 U CN201721695959 U CN 201721695959U CN 207622734 U CN207622734 U CN 207622734U
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- China
- Prior art keywords
- gliding groove
- glass
- hopper chute
- upper hopper
- detection device
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Abstract
The utility model discloses a kind of glass mould face visual detection device, which includes:Detection bar, fixture, sliding block and dial gauge, the upper hopper chute and gliding groove for being parallel to its own length direction is respectively set in opposite both sides of the face in detection bar, is provided through the pilot hole of upper hopper chute and gliding groove in detection bar along its length;Sliding block fixing sleeve is set on the sleeve of dial gauge, and sliding block can be slidingly arranged at upper hopper chute along the length direction of upper hopper chute, the measuring rod of dial gauge passes through pilot hole edge that can partly stretch out gliding groove from upper hopper chute to the direction of gliding groove with the type face of contact measured glass;Fixture is adjustably set in gliding groove to clamp glass to be measured;The outside of detection bar is located at upper hopper chute and the length direction of the adjacent side wall upper edge detection bar of gliding groove is provided with dial markings.The detection device precisely can quickly measure the surface smoothness in glass mould face.
Description
Technical field
The utility model is related to glass mould face detection instruments, more particularly to glass mould face visual detection device.
Background technology
The flatness in glass mould face is an important parameter, the out-of-flatness of glass mould face for the quality for considering vehicle glass
Influence whether the total quality of automobile, therefore, the flatness for accurately measuring glass mould face is an extremely important process.Traditional
Detection mode needs to carry out estimating reading using after the fuzzy positioning of Steel Ruler, and such method kit can be with general all productions
Product, but resultant error is larger.
Therefore it provides a kind of glass mould face visual detection device that precisely quickly measures seems very necessary.
Utility model content
The purpose of this utility model is to provide a kind of glass mould face visual detection device, which can be precisely fast
The surface smoothness for measuring glass mould face of speed.
To achieve the goals above, the utility model provides a kind of glass mould face visual detection device, detection dress
Set including:Detection bar, fixture, sliding block and dial gauge, opposite both sides of the face, which are respectively set, in the detection bar is parallel to it
The upper hopper chute and gliding groove in length direction, be provided through along its length in the detection bar upper hopper chute and under
The pilot hole of sliding slot;The sliding block fixing sleeve is set on the sleeve of the dial gauge, and the sliding block can be along the upper hopper chute
Length direction be slidingly arranged at the upper hopper chute, the measuring rod of the dial gauge passes through the pilot hole along from the upper cunning
Slot to the direction of the gliding groove can partly stretch out the gliding groove with the type face of contact measured glass;The fixture is adjustable
Ground is set in the gliding groove to clamp glass to be measured;The outside of the detection bar is located at the upper hopper chute and gliding groove is adjacent
Side wall upper edge described in the length direction of detection bar be provided with dial markings.
Preferably, the fixture includes two locating pieces, and two locating pieces can be respectively along the length of the gliding groove
Degree direction is slidingly arranged on the gliding groove, and is cooperated to clamp glass to be measured.
Preferably, the gliding groove is bench-type slot, and the width in direction of the bench-type slot from slot bottom towards notch is gradual
Reduce.
Preferably, the part that the locating piece is in contact with the side wall of the bench-type slot is provided with soft raised bubbles, described
Soft raised bubbles are to locating piece described in clamping in the bench-type slot.
Preferably, the locating piece includes glissile segment and gripping section, the glissile segment can slidably be sticked in it is described under
In sliding slot, the soft raised bubbles are set on side wall adjacent with the gliding groove on the glissile segment, and the gripping section is same
Axis is fixed in the glissile segment, and the gripping section is provided with rubber pad close to the side of glass to be measured.
Preferably, the inside of the glissile segment is stretched into the soft raised bubbles part.
Preferably, the support spring for being internally provided with the side wall perpendicular to the gliding groove of the soft raised bubbles, institute
It states and is provided with venthole on the side wall of soft raised bubbles.
Preferably, the limiting slot for being parallel to its own length direction, institute are both provided on two side side walls of the upper hopper chute
State the limit ribs for being provided on the side wall of sliding block and matching with the limiting slot.
According to above-mentioned technical proposal, opposite both sides of the face are respectively arranged with parallel in detection bar described in the utility model
In being provided through the upper hopper chute along its length on the upper hopper chute and gliding groove of its own length direction, the detection bar
With the pilot hole of gliding groove;The sliding block fixing sleeve is set on the sleeve of the dial gauge, and the sliding block can be on described
The length direction of sliding slot is slidingly arranged at the upper hopper chute, and the measuring rod of the dial gauge passes through the pilot hole along described in
Upper hopper chute to the direction of the gliding groove can partly stretch out the gliding groove with the type face of contact measured glass;The fixture can
It is adjustably set in the gliding groove to clamp glass to be measured;The outside of the detection bar is located at the upper hopper chute and gliding groove
The length direction of detection bar described in adjacent side wall upper edge is provided with dial markings.Wherein, dial gauge uses in the prior art
Dial gauge, dial gauge include at least sleeve, measuring rod and gear assembly and display instrument, and measuring rod can be telescopically set to
In sleeve, and display instrument being connected to by gear assembly, display instrument can be that electronical display may be that pointer is shown,
By the transmission of the telescopic band moving teeth wheel assembly of measuring rod, shift value is shown to which gear assembly passes to display instrument.
In the technical program, by the way that sliding block to be fixed on sleeve, sliding block can be slided along the length direction of detection bar, and be surveyed at this time
Gauge rod is taken advantage of a situation across pilot hole and is fallen on the type face of glass to be measured, and obtaining glass mould face edge by sliding slider is parallel to detection bar
The concave-convex smooth data of length direction, using the data in dial markings as abscissa, the number of degrees of dial gauge as ordinate, from
And concave-convex curve is drawn out, so as to judge whether the type face of glass to be measured conforms to quality requirements.In measurement process in order to
Measuring rod is clamped on glass to be measured by the sliding for avoiding detection bar by clamping.
Other feature and advantage of the utility model will be described in detail in subsequent specific embodiment part.
Description of the drawings
Attached drawing is to be used to provide a further understanding of the present invention, an and part for constitution instruction, and following
Specific implementation mode be used to explain the utility model together, but do not constitute limitations of the present invention.In the accompanying drawings:
Fig. 1 is a kind of overall structure diagram of preferred implementation of detection device in the utility model;
Fig. 2 is a kind of front view of preferred implementation of detection device in the utility model;
Fig. 3 is a kind of structure chart for preferred implementation that boom end is detected in the utility model;
Fig. 4 is the overall structure diagram after sliding block is connected with dial gauge in the utility model;
Fig. 5 is a kind of main structure diagram of preferred implementation of detection device in the utility model;
Fig. 6 is overall structure diagram when detection device uses in the utility model;
Fig. 7 is a kind of overall structure diagram of preferred embodiment of locating piece in the utility model.
Reference sign
1 detection bar, 2 dial gauge
34 pilot holes of glass to be measured
5 locating piece, 6 dial markings
7 gliding groove, 8 upper hopper chute
9 rubber pad, 10 sliding block
11 limit ribs, 12 limiting slot
13 sleeve, 14 measuring rod
51 glissile segment, 52 gripping section
53 soft raised bubbles, 54 support spring
55 ventholes
Specific implementation mode
Specific embodiment of the present utility model is described in detail below in conjunction with attached drawing.It should be understood that herein
Described specific implementation mode is only used for describing and explaining the present invention, and is not intended to limit the utility model.
In the present invention, in the absence of explanation to the contrary, " front and back inside and outside, up and down " etc. is included in term
In the noun of locality only represent orientation of the term under normal service condition, or be those skilled in the art understand that be commonly called as, and
It is not construed as the limitation to the term.
Referring to glass mould face visual detection device shown in Fig. 1-7, which includes:Detection bar 1, fixture, cunning
Block 10 and dial gauge 2, the upper cunning for being parallel to its own length direction is respectively set in opposite both sides of the face in the detection bar 1
Slot 8 and gliding groove 7 are provided through the pilot hole of the upper hopper chute 8 and gliding groove 7 in the detection bar 1 along its length
4;10 fixing sleeve of the sliding block is set on the sleeve 13 of the dial gauge 2, and the sliding block 10 can be along the length of the upper hopper chute 8
Degree direction is slidingly arranged at the upper hopper chute 8, and the measuring rod 14 of the dial gauge 2 passes through the pilot hole 4 along on described
Sliding slot 8 to the direction of the gliding groove 7 can partly stretch out the gliding groove 7 with the type face of contact measured glass 3;The fixture
It is adjustably set in the gliding groove 7 to clamp glass 3 to be measured;The outside of the detection bar 1 is located at 8 He of the upper hopper chute
The length direction of detection bar 1 described in the adjacent side wall upper edge of gliding groove 7 is provided with dial markings 6.
Through the implementation of the above technical solution, both sides of the face opposite in the detection bar 1, which are respectively set, is parallel to it
The upper hopper chute 8 and gliding groove 7 in length direction are provided through the upper hopper chute 8 in the detection bar 1 along its length
With the pilot hole 4 of gliding groove 7;10 fixing sleeve of the sliding block is set on the sleeve 13 of the dial gauge 2, and the sliding block 10 can
It is slidingly arranged at the upper hopper chute 8 along the length direction of the upper hopper chute 8, the measuring rod 14 of the dial gauge 2 is across described
Pilot hole 4 can partly stretch out the gliding groove 7 with contact measured glass along from the upper hopper chute 8 to the direction of the gliding groove 7
The type face of glass 3;The fixture is adjustably set in the gliding groove 7 to clamp glass 3 to be measured;Outside the detection bar 1
The length direction that portion is located at detection bar 1 described in the upper hopper chute 8 and the adjacent side wall upper edge of gliding groove 7 is provided with dial markings 6.
Wherein, dial gauge 2 uses dial gauge 2 in the prior art, dial gauge 2 to include at least sleeve 13, measuring rod 14 and gear assembly
And display instrument, measuring rod 14 can be telescopically set in sleeve 13, and be connected to display instrument by gear assembly, be shown
Show that instrument can be electronical display may be that pointer is shown, by the transmission of the telescopic band moving teeth wheel assembly of measuring rod 14, from
And gear assembly passes to display instrument and shows shift value.In the technical scheme, by the way that sliding block 10 is fixed on sleeve 13
On, sliding block 10 can be slided along the length direction of detection bar 1, and measuring rod 14 is taken advantage of a situation across pilot hole 4 and fallen to be measured at this time
On the type face of glass 3, glass mould face is obtained along the smooth number of bumps for being parallel to 1 length direction of detection bar by sliding slider 10
According to, using the data in dial markings 6 as abscissa, the number of degrees of dial gauge 2 are as ordinate, to draw out concave-convex curve,
So as to judge whether the type face of glass 3 to be measured conforms to quality requirements.In order to avoid the cunning of detection bar 1 in measurement process
It is dynamic, measuring rod 14 is clamped on glass 3 to be measured by clamping.
In this embodiment, glass 3 to be measured is clamped in order to further realize fixture, it is preferable that the fixture includes two
A locating piece 5, two locating pieces 5 respectively can be slidingly arranged at the downslide along the length direction of the gliding groove 7
On slot 7, and cooperate to clamp glass 3 to be measured.
In this embodiment, in order to avoid locating piece 5 falls off from gliding groove 7, connection is more stablized, it is preferable that institute
It is bench-type slot to state gliding groove 7, and the width in direction of the bench-type slot from slot bottom towards notch is gradually reduced.
In this embodiment, in order to realize locating piece 5 slidably and can clamp as in bench-type slot, it is preferable that
The part that the locating piece 5 is in contact with the side wall of the bench-type slot is provided with soft raised bubbles 53, the soft raised bubbles 53
To locating piece described in clamping 5 in the bench-type slot.Since soft raised bubbles 53 can flexibly be shunk, when locating piece 5 exists
Soft raised bubbles 53 are in confined state when in bench-type slot, play the clamping force of a pressing table type groove side wall.
In this embodiment, in order to avoid locating piece 5 when glass 3 to be measured are clamped damaged glass to be tested, it is excellent
Selection of land, the locating piece 5 include glissile segment 51 and gripping section 52, and the glissile segment 51 can slidably be sticked in the gliding groove
In 7, the soft raised bubbles 53 are set on side wall adjacent with the gliding groove 7 on the glissile segment 51, the gripping section
52 are coaxially fixed in the glissile segment 51, and the gripping section 52 is provided with rubber pad 9 close to the side of glass 3 to be measured.Pass through rubber
Rubber cushion 9 protects glass to be tested.
In this embodiment, in order to reduce gap size of the soft raised bubbles 53 between glissile segment 51 and gliding groove 7
Influence, it is preferable that the inside of the glissile segment 51 is stretched into 53 part of soft raised bubbles.By reducing glissile segment 51 under
Gap width between sliding slot 7 makes clamping more stablize, and gap is excessive inherently to cause a degree of loosening to wave.
In this embodiment, in order to further strengthen the support strength of soft raised bubbles 53, it is preferable that described soft convex
The support spring 54 for being internally provided with the side wall perpendicular to the gliding groove 7 of blistering 53, the side wall of the soft raised bubbles 53
On be provided with venthole 55.It can be when soft raised bubbles 53 be compressed timely by inside additionally by venthole 55
Air is discharged, in order to avoid the case where causing to be difficult to compress.
In this embodiment, in order to reinforce the stability of the sliding of sliding block 10, increase measurement accuracy, it is preferable that on described
It is both provided with the limiting slot 12 for being parallel to its own length direction on two side side walls of sliding slot 8, is set on the side wall of the sliding block 10
It is equipped with the limit ribs 11 to match with the limiting slot 12.The setting that limiting slot 12 and limit ribs 11 match, avoids sliding
It generates in dynamic process and loosens up and down, influence measurement data.
Preferred embodiments of the present invention, still, the utility model and unlimited are described in detail above in association with attached drawing
Detail in the above embodiment can be to the skill of the utility model in the range of the technology design of the utility model
Art scheme carries out a variety of simple variants, these simple variants belong to the scope of protection of the utility model.
It is further to note that specific technical features described in the above specific embodiments, in not lance
It in the case of shield, can be combined by any suitable means, in order to avoid unnecessary repetition, the utility model is to each
The possible combination of kind no longer separately illustrates.
In addition, arbitrary combination can also be carried out between a variety of different embodiments of the utility model, as long as it is not disobeyed
The thought for carrying on the back the utility model, equally should be considered as content disclosed in the utility model.
Claims (8)
1. a kind of glass mould face visual detection device, which is characterized in that the detection device includes:Detection bar (1), fixture,
Sliding block (10) and dial gauge (2), opposite both sides of the face, which are respectively set, on the detection bar (1) is parallel to its own length side
To upper hopper chute (8) and gliding groove (7), be provided through along its length on the detection bar (1) upper hopper chute (8) and
The pilot hole (4) of gliding groove (7);
Sliding block (10) fixing sleeve is set on the sleeve (13) of the dial gauge (2), and the sliding block (10) can be along described
The length direction of upper hopper chute (8) is slidingly arranged at the upper hopper chute (8), and the measuring rod (14) of the dial gauge (2) passes through institute
State pilot hole (4) along from the upper hopper chute (8) to the gliding groove (7) direction can partly stretch out the gliding groove (7) with
The type face of contact measured glass;
The fixture is adjustably set in the gliding groove (7) to clamp glass to be measured (3);Outside the detection bar (1)
The length direction that portion is located at detection bar (1) described in the upper hopper chute (8) and the adjacent side wall upper edge of gliding groove (7) is provided with scale
Graticule (6).
2. glass mould face according to claim 1 visual detection device, which is characterized in that the fixture includes two fixed
Position block (5), two locating pieces (5) can respectively along the length direction of the gliding groove (7) be slidingly arranged at it is described under
On sliding slot (7), and cooperate to clamp glass to be measured (3).
3. glass mould face according to claim 2 visual detection device, which is characterized in that the gliding groove (7) is platform
Type groove, and the width in direction of the bench-type slot from slot bottom towards notch is gradually reduced.
4. glass mould face according to claim 3 visual detection device, which is characterized in that the locating piece (5) and institute
It states the part that the side wall of bench-type slot is in contact and is provided with soft raised bubbles (53), the soft raised bubbles (53) are to described in clamping
Locating piece (5) is in the bench-type slot.
5. glass mould face according to claim 4 visual detection device, which is characterized in that the locating piece (5) includes
Glissile segment (51) and gripping section (52), the glissile segment (51) can slidably be sticked in the gliding groove (7), described soft
Raised bubbles (53) are set on side wall adjacent with the gliding groove (7) on the glissile segment (51), and the gripping section (52) is same
Axis is fixed in the glissile segment (51), and the gripping section (52) is provided with rubber pad (9) close to the side of glass to be measured (3).
6. glass mould face according to claim 5 visual detection device, which is characterized in that the soft raised bubbles (53)
The inside of the glissile segment (51) is stretched into part.
7. glass mould face according to claim 6 visual detection device, which is characterized in that the soft raised bubbles (53)
The support spring (54) for being internally provided with the side wall perpendicular to the gliding groove (7), the side wall of the soft raised bubbles (53)
On be provided with venthole (55).
8. glass mould face according to claim 1 visual detection device, which is characterized in that the two of the upper hopper chute (8)
The limiting slot (12) for being parallel to its own length direction is both provided on the side wall of side, be provided on the side wall of the sliding block (10) with
The limit ribs (11) that the limiting slot (12) matches.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721695959.7U CN207622734U (en) | 2017-12-08 | 2017-12-08 | Glass mould face visual detection device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721695959.7U CN207622734U (en) | 2017-12-08 | 2017-12-08 | Glass mould face visual detection device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207622734U true CN207622734U (en) | 2018-07-17 |
Family
ID=62822018
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201721695959.7U Active CN207622734U (en) | 2017-12-08 | 2017-12-08 | Glass mould face visual detection device |
Country Status (1)
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CN (1) | CN207622734U (en) |
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2017
- 2017-12-08 CN CN201721695959.7U patent/CN207622734U/en active Active
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