CN207717024U - Glass edge angle detection mechanism - Google Patents

Abstract

The utility model is related to glass processing field of auxiliary, more particularly to a kind of glass edge angle detection mechanism, including rack, supporting table and test section, rack is equipped with the cylinder for pushing glass, supporting table is horizontally fixed in rack, supporting table is equipped with sliding slot, detection block of the sliding equipped with wedge shape in sliding slot, detection block is connect with rack by spring, connecting rod and rotating bar are additionally provided in rack, connecting rod is connect with rack vertical sliding, the second wedge surface of lower end of connecting rod and the first wedge surface of detection block coordinate, rotating bar is hinged with rack level and above connecting rod, the upper end of rotating bar left end and connecting rod offsets, both sides in rotating bar positioned at hinge joint are fixed with the first mark pen and the second mark pen, the one end to offset with connecting rod in rotating bar is equipped with clump weight.The purpose of this programme is that worker is facilitated to identify glass corner flatness, to improve detection efficiency.

Description

Glass edge angle detection mechanism

Technical field

The utility model is related to glass processing field of auxiliary more particularly to a kind of glass edge angle detection mechanisms.

Background technology

The forward and backward window of the vehicles such as automobile, car and truck, generally use are conducive to the visual field and beautiful curved surface glass Glass is pasted onto on window frame or with special adhesive on window frame by means of rubber weather strip.For ease of gravity-flow ventilation, the side of automobile Glass pane usually can upper and lower or forward and backward movement.The installation of glass has strict requirements to the corner size of glass, if glass edge Angle square cun out-of-flatness, corner appearance is raised or sunken all to cause glass installation inaccurate or even unstable, while can also cause glass Glass moves up and down inconvenience, therefore, in order to ensure that not interfering with subsequent process, needs to be detected the corner flatness of glass. Existing glass edge is by worker's vision-based detection, not only inefficiency, but also due to the visual fatigue of worker, easily occurs Missing inspection and false retrieval, and the reason of being not easy to distinguish out-of-flatness after detecting.

Utility model content

The purpose of this utility model is to provide a kind of glass edge angle detection mechanisms, to improve detection efficiency.

In order to achieve the above object, the base case of the utility model is：Glass edge angle detection mechanism, including rack, branch Platform and test section are supportted, the rack is equipped with the cylinder for pushing glass, and the supporting table is horizontally fixed in rack, described Supporting table is equipped with sliding slot, and the test section includes detection unit and mark unit, and the detection unit includes detection block and company Extension bar, the detection block are slidably arranged in the sliding slot, are fixed with spring between the detection block and rack, in the detection block Equipped with the first wedge surface, the connecting rod vertical sliding is arranged in rack, and the lower end of connecting rod is the coordinated with the first wedge surface Two wedge surfaces, the mark unit include rotating bar, the first mark pen and the second mark pen, in the first mark pen and the second mark pen It is equipped with compression spring, the rotating bar is hinged in rack, and the upper end of one end of rotating bar and the connecting rod, which offsets and is equipped with, matches Pouring weight, the first mark pen are fixed on the rotating bar close to one end of connecting rod, and the second mark pen is fixed on described The one end of rotating bar far from connecting rod, the first mark pen and the second mark pen can make different labels.

The principles of the present invention are：The side that glass to be detected is placed in supporting table, and keeps glass to be detected Angle offsets with measuring block, and spring is made to be in compressive state.Start cylinder, the piston rod on cylinder pushes glass movement, is moved through Cheng Zhong, if there is the place of recess on glass corner, the elastic force of spring pushes detection block to be moved to groove, due to detection block Second wedge surface and the first wedge surface of connecting rod lower end coordinate, and detection block just makes connecting rod move downward, due to connecting rod and rotation Bar offsets, and rotating bar is hinged in rack, simultaneously because rotating bar is equipped with clump weight close to one end of connecting rod, therefore, even Extension bar just pushes rotating bar to be rotated down clockwise close to one end of connecting rod, and the first mark pen is driven to rotate down in glass It is marked under upper work, and the one end of rotating bar far from connecting rod is just rotated up clockwise, and the second mark block is driven to move up, Avoid the mark on glass；When detecting that there is the place of protrusion in glass corner, detection block is under raised role to extruding bullet The direction of spring is moved, and connecting rod is pushed to move up, while connecting rod pushes one end inverse time that rotating bar offsets with connecting rod Needle is rotated up, and the first mark pen is driven to move up, and the other end of rotating bar just rotates down and drives the second mark counterclockwise Pen rotates down the mark on glass, passes through the position of marker recognition glass edge corner recess different on glass and protrusion.

The beneficial effects of the utility model are：

1, it is connected by spring between detection block and rack, if there is recess on glass corner, is made using the elastic force of spring Detection block is moved to recess direction, is coordinated by the second wedge surface of detection block and the first wedge surface of connecting rod lower end, consequently facilitating Detection block makes connecting rod move down while movement, and after the setting of clump weight ensures that connecting rod moves down, rotating bar offsets with connecting rod One end also rotated down under the action of clump weight, while realize the first mark pen glass surface work under mark, to indicate There is recess at this；If glass has protrusion on corner, which can push detection block to continue compressed spring, by connecting rod and turn Lever realizes that second mark pen mark on glass just can quick area by the not isolabeling on glass after the completion of glass detection Divide glass corner fovea superior to fall into the position with protrusion, is convenient for the secondary operation of glass, effectively increases working efficiency.

Further, the thickness of the detection block is 10~15mm.

If detection block thickness is more than 15mm, detection result of the detection block to glass corner can be influenced, when detection block is left When raised or sunken place, but since detection block thickness is larger, a part is still in raised or sunken place, the first mark pen or the Two mark pens are but still marked on glass, therefore cause the label finally got inaccurate, and qualified place is also labeled as It is unqualified, influence measurement effect.

Further, the surface distance of the first mark pen and the second mark pen and glass to be detected is 0.5~1mm.

By the pen tip of the first mark pen and the second mark pen at a distance from glass surface it is smaller ensure that the first mark pen and Second mark pen can under the action of rotating bar can the timely mark on glass, avoid being tested with recess when detection block Or when protrusion, the second mark pen or the second mark pen fail to contact with glass surface and mark on glass, to influence to examine Survey effect.

Further, the first mark pen and the second mark pen are marker.The label that marker leaves on glass It is clear easy to identify, and when the label is also easy to be cleaned out underproof glass after processing again.

Further, the face that offsets of the connecting rod and the rotating bar is cancave cambered surface.

The setting of cancave cambered surface ensures during connecting rod pushes up rotating bar that rotating bar is remained with connecting rod and connects It touches, while connecting rod contacts more closely with rotating bar.

Description of the drawings

Fig. 1 is the schematic diagram of the utility model embodiment；

Fig. 2 is the right side structural representation of Fig. 1.

Specific implementation mode

It is further described below by specific implementation mode：

Reference numeral in Figure of description includes：Rack 1, cylinder 2, piston rod 21, supporting table 3, is slided mounting groove 101 Slot 31, detection block 4, spring 5, connecting rod 6, rotating bar 7, clump weight 8, hinge joint 9, the first mark pen 10, the second mark pen 11.

Embodiment is substantially as shown shown in Figure 1 and Figure 2：

Glass edge angle detection mechanism, including rack 1, supporting table 3 and test section are fixed with cylinder 2 in rack 1, cylinder 2 Piston rod 21 can push glass horizontal to be detected to move, and supporting table 3 is horizontally fixed on the middle part in rack 1, the upper table of supporting table 3 Face horizontal direction is equipped with sliding slot 31, slidably connects detection block 4 in sliding slot 31, and detection block 4 is voussoir, detection block 4 with it is to be detected The one side that glass offsets is smooth plane, is fixed by spring 5 between the right side and rack 1 of detection block 4.

Rack 1 is equipped with mounting groove, and rotating bar 7 and connecting rod 6 are equipped in mounting groove, and wherein rotating bar 7 and rack 1 is horizontal Hinged, hinge joint 9 is the midpoint of rotating bar 7, and the left part of rotating bar 7 is fixed with clump weight 8, first dozen is fixed in rotating bar 7 Pen 10 and the second mark pen 11 are marked, is equipped with compression spring in the first mark pen 10 and the second mark pen 11, the first mark pen 10 and the Two mark pens 11 are marker, and the first mark pen 10 is fixed on the right part of rotating bar 7, and the second mark pen 11 is fixed on rotating bar 7 left part, the first mark pen 10 and the second mark pen 11 are symmetrical arranged with hinge joint 9, to improve mark effect, glass to be detected After glass is put into supporting table 3, the pen tip of the first mark pen 10 and the second mark pen 11 is apart from glass surface 1mm.Connecting rod 6 is vertical It is slidably arranged in rack 1,6 vertical sliding of connecting rod is arranged on upper spider 1, and connecting rod 6 is located at the lower section of rotating bar 7, connection The upper end of bar 6 and the left end of rotating bar 7 offset, and the face that offsets of connecting rod 6 and rotating bar 7 is cancave cambered surface to adapt to rotating bar 7 Lateral wall, the second wedge surface of 6 lower end of connecting rod coordinate with the first wedge surface of detection block 4, and connecting rod 6 is moved in the left and right of detection block 4 Action can be achieved to move up and down under.

When being detected to glass corner using this structure, glass horizontal to be detected is put into supporting table 3 first, is made Glass corner to be detected offsets with detection block 4, and spring 5 is made to be in compressive state.Start cylinder, the piston rod 21 on cylinder Glass is pushed slowly to move backward, if detect that glass corner has recess, the elastic force of spring 5 just pushes detection block 4 to the left Mobile, the movement of detection block 4 just moves down connecting rod 6, the right end of rotating bar 7 due to lose the support force of connecting rod 6 just with It is rotated down clockwise under the action of pouring weight 8, the first mark pen 10 is made to mark one section of lines on glass as label, and rotated The left end of bar 7 just drives and is rotated up counterclockwise on the second mark pen 11, makes the second mark pen 11 far from glass surface, avoids Two mark pens 11 leave label on glass.

When the detection of detection block 4 is when glass corner has protrusion, detection block 4 moves right and continues under raised role Compressed spring 5, detection block 4 push connecting rod 6 to move up during moving to right, and connecting rod 6 just pushes the right end of rotating bar 7 counterclockwise It is rotated up, and the first mark block is driven to move up, and the left end of rotating bar 7 just rotates down counterclockwise, drives the second mark pen 11 move down, and label different from the first mark pen 10 under work on glass.

The above are merely the embodiments of the present invention, the common sense such as well known concrete structure and characteristic are not made herein in scheme Excessive description.It should be pointed out that for those skilled in the art, under the premise of not departing from the utility model structure, also Several modifications and improvements can be made, these should also be considered as the scope of protection of the utility model, these all do not interfere with this reality With the effect and patent practicability of novel implementation.This application claims protection domain should be with the content of its claim Standard, the records such as specific implementation mode in specification can be used for explaining the content of claim.

Claims (5)

1. glass edge angle detection mechanism, including rack, supporting table and test section, it is characterised in that：The rack is equipped with and is used for The cylinder of glass, the supporting table is pushed to be horizontally fixed in rack, the supporting table is equipped with sliding slot, and the test section includes Detection unit and mark unit, the detection unit include detection block and connecting rod, and the detection block is slidably arranged in the cunning In slot, spring is fixed between the detection block and rack, the detection block is equipped with the first wedge surface, the connecting rod vertical sliding It is arranged in rack, the lower end of connecting rod is the second wedge surface coordinated with the first wedge surface, and the mark unit includes rotating bar, the It is equipped with compression spring in one mark pen and the second mark pen, the first mark pen and the second mark pen, the rotating bar is hinged on rack On, the upper end of one end of rotating bar and the connecting rod offsets and is equipped with clump weight, and the first mark pen is fixed on described turn Lever is fixed on the one end of the rotating bar far from connecting rod, the first mark close to one end of connecting rod, the second mark pen Pen and the second mark pen can make different labels.

2. glass edge angle detection mechanism according to claim 1, it is characterised in that：The thickness of the detection block be 10~ 15mm。

3. glass edge angle detection mechanism according to claim 2, it is characterised in that：The first mark pen and the second mark The surface distance of pen and glass to be detected is 0.5~1mm.

4. glass edge angle detection mechanism according to claim 3, it is characterised in that：The first mark pen and the second mark Pen is marker.

5. glass edge angle detection mechanism according to claim 4, it is characterised in that：The connecting rod and the rotating bar Face is offseted as cancave cambered surface.