CN217686996U - Front triangular glass comprehensive detection tool - Google Patents

Abstract

The utility model discloses a preceding triangle glass synthesizes and examines utensil, its characterized in that: the device comprises a bottom plate, a glass placing table, a first edge limiting piece, a second edge limiting piece, a plurality of first base blocks, a plurality of second base blocks, a contour detection frame and a thickness detection frame; the upper surface of the glass placing table is provided with a supporting piece which is used for supporting the front triangular glass; the first edge limiting piece is used for being in contact fit with the edge of one edge of the front triangular glass; the second edge limiting piece is used for being in contact fit with the edge of the other edge of the front triangular glass; each first base block is distributed along the circumferential direction of the front triangular glass and is equidistant to the edge of the front triangular glass; each second base block is distributed along the circumferential direction of the front triangular glass and is equidistant to the edge of the front triangular glass; a first digital display dial indicator is vertically arranged on the contour detection frame; a first digital display dial indicator is horizontally arranged on the thickness detection frame. The utility model discloses can be used to preceding triangle glass's quick integrated detection, can improve detection efficiency greatly.

Description

Front triangular glass comprehensive testing fixture

Technical Field

The utility model discloses in a preceding triangle glass synthesizes and examines utensil.

Background

Referring to fig. 1, a front triangular glass (used as a left and right front triangular glass window of an automobile) requires detection of an edge profile and a thickness of a product due to requirements of the product, and the edge profile detection mainly adopts positioning of the product on a bottom contour block, and size deviation is judged by roughly measuring a gap between the outer contour block and the edge of the product through an outer contour block arranged on the periphery, so that a detected size error is large, and a specific data value cannot be obtained. In addition, the thickness of the front triangular glass at different positions cannot be detected, and only single detection is realized.

SUMMERY OF THE UTILITY MODEL

In order to solve the above-mentioned defect problem or a plurality of defect problems that exist among the prior art, the utility model provides a utensil is examined to preceding triangle glass is synthesized.

In order to realize the purpose, the utility model provides a utensil is examined in preceding triangle glass is synthesized, its characterized in that: the device comprises a bottom plate, a glass placing table, a first edge limiting piece, a second edge limiting piece, a plurality of first base blocks, a plurality of second base blocks, a thickness detection frame and a contour detection frame; the glass placing table is fixed in the middle of the bottom plate, and a supporting piece is arranged on the upper surface of the glass placing table and used for supporting the front triangular glass; the first edge limiting piece is arranged on the bottom plate and is used for being in contact fit with the edge of one edge of the front triangular glass; the second limit limiting piece is arranged on the bottom plate and is used for being in contact fit with the edge of the other side of the front triangular glass; each first base block is fixed on the bottom plate, is distributed along the circumferential direction of the front triangular glass and is equidistant to the edge of the front triangular glass; each second base block is fixed on the bottom plate, is distributed along the circumferential direction of the front triangular glass and is equidistant to the edge of the front triangular glass; the lower end of the thickness detection frame is clamped with the first base block, and a first digital display dial indicator is vertically installed on the thickness detection frame; the lower end of the outline detection frame is connected with the second base block in a clamping mode, and a second digital display dial indicator is horizontally arranged on the outline detection frame.

By adopting the scheme, the front triangular glass to be measured is placed on the glass placing table and supported by the support member, so that the position and the height are determined; and then the edge of one side of the front triangular glass is in contact fit with the first side limiting piece, and the edge of the other side of the front triangular glass is in contact fit with the second side limiting piece, so that the front triangular glass is positioned. When the thickness is measured, the thickness detection frame can be clamped with the first base block, when a measuring head of the first digital display dial indicator is in contact with the front triangular glass, the thickness of the front triangular glass at the corresponding position is judged by displaying a reading, and because the first base blocks are circumferentially distributed along the front triangular glass and are equidistant from the edge of the front triangular glass, the thickness detection frame can be placed on the first base blocks at different positions by passing, and then the thicknesses of the front triangular glass at different positions in the circumferential direction can be respectively measured.

And when the outline is measured, the outline detection frame can be clamped with the second base block, when a measuring head of the second digital display dial indicator is contacted with the edge of the front triangular glass, the edge outline of the front triangular glass at the corresponding position is judged by the display reading, and because the second base blocks are distributed along the circumferential direction of the front triangular glass and are equidistant to the edge of the front triangular glass, the outline detection frame can be placed on the second base blocks at different positions by respectively measuring the outlines at different positions of the circumferential direction of the edge of the front triangular glass.

Preferably, a first flat pad and a first T-shaped block are fixedly arranged on the first base block; the lower end of the thickness detection frame is provided with a first bottom plane and a first clamping groove, the first bottom plane is used for being in contact fit with the first plane pad surface, and the first clamping groove is used for being clamped with the first T-shaped block. During testing, the first bottom plane of the thickness detection frame is in contact fit with the first plane pad surface, so that height positioning can be achieved, and the first clamping groove is used for being clamped with the first T-shaped block, so that positioning of distance and direction can be achieved.

Preferably, a second flat pad and a second T-shaped block are fixedly arranged on the second base block; the lower end of the outline detection frame is provided with a second bottom plane and a second clamping groove, the second bottom plane is used for being in contact fit with a second flat pad surface, and the second clamping groove is used for being clamped with a second T-shaped block. During testing, the second bottom plane of the contour detection frame is in contact fit with the second flat pad surface, so that height positioning can be achieved, and the second clamping groove is used for being clamped with the second T-shaped block, so that distance and direction positioning can be achieved.

Preferably, the bottom plate is fixedly provided with a calibration seat; the calibration base has an L-base, a first calibration plane, and a second calibration elevation. When the thickness gauge is used for calibration, the lower part of the thickness detection frame is in matched contact with the L-shaped base surface of the calibration seat, and then the measurement head of the second digital display dial indicator is in contact with the first calibration plane to realize calibration, and the thickness gauge is generally used for calibration during first thickness detection or calibration after multiple thickness measurements. When the contour detection frame is used for calibration, the lower part of the contour detection frame is in matched contact with the L-shaped base surface of the calibration seat, and then the measurement head of the second digital display dial indicator is in contact with the second calibration vertical surface to realize calibration, and the contour detection frame is generally used for calibration during first contour detection or after contour measurement at multiple positions.

Preferably, the first edge-limiting members are two and distributed at intervals.

Preferably, the second limit stop has two and is distributed at intervals.

Preferably, the first edge limiting part comprises a first bracket and a first limiting wheel, the first bracket is fixed on the bottom plate, and the first limiting wheel is installed on the bracket and is used for being in contact fit with the edge of one edge of the front triangular glass.

Preferably, the second limit limiting piece comprises a second bracket and a second limiting wheel, the second bracket is fixed on the bottom plate, and the second limiting wheel is arranged on the bracket and is used for being in contact fit with the edge of the other side of the front triangular glass.

Preferably, the thickness detection frame comprises vertical beams and cross beams; the lower end of the vertical beam is clamped with the first base block, one end of the cross beam is fixedly connected with the upper end of the vertical beam, and the first digital display dial indicator is vertically arranged on the other end of the cross beam.

Preferably, the support member has a ball contact at an upper end thereof.

The utility model discloses beneficial effect: the utility model discloses the combination of thickness and profile on the triangle glass detects before can being used to vapour, simultaneously the utility model has the advantages of simple structure, detect convenient and fast, detection accuracy height. In addition, in the process of detecting the thickness or the outline at the first time and different positions, the first digital display dial indicator or/and the second digital display dial indicator can be quickly calibrated, and the measuring accuracy is guaranteed.

Drawings

FIG. 1 is a schematic structural diagram of a vapor front triangular glass.

Fig. 2 is a top view of the utility model discloses in a preceding triangle glass synthesizes and examines utensil.

Fig. 3 is a perspective view of the front triangular glass comprehensive testing fixture of the utility model.

Fig. 4 is an enlarged view of a in fig. 3.

Fig. 5 is a perspective view (when viewed from another direction) of the front triangular glass integrated gauge of the present invention.

Fig. 6 is a top view of the front triangular glass comprehensive testing fixture of the utility model when the thickness and the contour of the front triangular glass are detected simultaneously.

Fig. 7-8 are perspective views of the front triangular glass comprehensive testing fixture of the utility model when the thickness and the outline of the front triangular glass are detected simultaneously.

Fig. 9 is a perspective view of the front triangular glass comprehensive testing fixture when the thickness is detected by transposition.

Fig. 10 is a perspective view of the front triangular glass comprehensive testing fixture when the profile is detected by transposition.

Fig. 11 is the utility model discloses in a preceding triangle glass is synthesized and is examined utensil at the work condition picture to the first digital display percentage table calibration on the thickness testing stand.

Fig. 12 is a working state diagram of the front triangular glass comprehensive testing fixture of the utility model when calibrating the second digital display dial indicator on the contour detection frame.

FIG. 13 is a connection relationship diagram of the thickness detection frame and the first digital display dial indicator.

FIG. 14 is a diagram of the connection between the profile testing stand and the second digital display dial indicator.

Detailed Description

The invention will be further explained with reference to the following figures and examples:

example (b): referring to fig. 2-5, the comprehensive front triangular glass inspection device comprises a bottom plate 1, a glass placing table 2, a first edge limiting part 3, a second edge limiting part 4, a plurality of first base blocks 5, a plurality of second base blocks 6, a thickness detection frame 7, a contour detection frame 8, a first digital display dial indicator 9, a second digital display dial indicator 10 and a calibration seat 11

The glass placing table 2 is fixed in the middle of the bottom plate 1, and a support member 2-1 is provided on the upper surface of the glass placing table 2, and the support member 2-1 is used for supporting the front triangular glass N.

Preferably, the support 2-1 has ball contacts 2-11 at its upper end. This reduces the contact area with the front triangular glass N, and improves the accuracy in supporting.

Referring to fig. 4, in particular, the support member 2-1 is a cylinder, and the upper end of the support member 2-1 is provided with a ball contact 2-11.

In the present embodiment, the support 2-1 has at least three and respectively different position supports for the front triangular glass N, ensuring that the front triangular glass N is positioned with a high degree of precision.

The first edge limiting member 3 is disposed on the bottom plate 1 and is used for contacting and matching with an edge of one edge of the front triangular glass N.

Referring to fig. 3, in the present embodiment, the first edge limiting member 3 includes a first bracket 3-1 and a first limiting wheel 3-2, the first bracket 3-1 is fixed on the bottom plate 1, and the first limiting wheel 3-2 is mounted on the bracket 3-1 and is configured to be in contact with an edge of one edge of the front triangular glass N.

Preferably, the first edge-limiting members 3 have two and are distributed at intervals. Can realize that the multiple spot is spacing, make preceding triangle glass N direction by accurate location when detecting, guarantee thickness and profile detection's accuracy.

Wherein, the second limit limiting piece 4 is arranged on the bottom plate 1 and is used for contacting and matching with the edge of the other side of the front triangular glass N.

Referring to fig. 3, in the present embodiment, the second side limiting member 4 includes a second bracket 4-1 and a second limiting wheel 4-2, the second bracket 4-1 is fixed to the bottom plate 1, and the second limiting wheel 4-2 is mounted on the bracket 4-1 and is adapted to be in contact engagement with the edge of the other side of the front triangular glass N.

Preferably, the second edge limiters 4 have two and are spaced apart. Can realize that the multiple spot is spacing, make preceding triangle glass N direction by accurate location when detecting, guarantee thickness and profile detection's accuracy.

See fig. 2, wherein each of the first base blocks 5 is fixed to the bottom plate 1 and is circumferentially distributed along the front triangular glass N and is equidistant from the edge of the front triangular glass N.

Referring to fig. 2, each of the second base blocks 6 is fixed to the bottom plate 1 and is circumferentially distributed along the front triangular glass N and is equidistant from the edge of the front triangular glass N.

Referring to fig. 3-5, the lower end of the thickness detection frame 7 is clamped with the first base block 5, and a first digital display dial indicator 9 is vertically installed on the thickness detection frame 7.

Referring to fig. 3-5, the lower end of the contour testing frame 8 is clamped with the second base block 6, and a second digital display dial indicator 10 is horizontally arranged on the contour testing frame 8.

Referring to fig. 4 and 13, in particular, a first flat pad 5-1 and a first T-shaped block 5-2 are fixedly arranged on the first base block 5; the lower end of the thickness detection frame 7 is provided with a first bottom plane 7-1 and a first clamping groove 7-2, the first bottom plane 7-1 is used for being in surface contact fit with the first flat cushion 5-1, and the first clamping groove 7-2 is used for being clamped with the first T-shaped block 5-2. During testing, the first bottom plane 7-1 of the thickness detection frame 7 is in surface contact fit with the first flat pad 5-1, so that height positioning can be achieved, and the first clamping groove 7-2 is used for being clamped with the first T-shaped block 5-2, so that distance and direction positioning can be achieved.

Referring to fig. 13, in particular, the thickness detection frame 7 includes a vertical beam 7a and a horizontal beam 7b; the lower end of the vertical beam 7a is clamped with the first base block 5, one end of the cross beam 7b is fixedly connected with the upper end of the vertical beam 7a, and the first digital display dial indicator 9 is vertically arranged on the other end of the cross beam 7 b.

As can be seen in fig. 13, in particular, the upright 7a is rectangular in cross-section.

Referring to fig. 4 and 14, in particular, a second flat pad 6-1 and a second T-shaped block 6-2 are fixedly arranged on the second base block 6; the lower end of the outline detection frame 8 is provided with a second bottom plane 8-1 and a second clamping groove 8-2, the second bottom plane 8-1 is used for being in surface contact fit with a second flat pad 6-1, and the second clamping groove 8-2 is used for being clamped with a second T-shaped block 6-2. During testing, the second bottom plane 8-1 of the outline detection frame 8 is in surface contact fit with the second flat pad 6-1, so that height positioning can be achieved, and the second clamping groove 8-2 is used for being clamped with the second T-shaped block 6-2, so that distance and direction positioning can be achieved.

Referring to fig. 11-12, in particular, the calibration base 11 is fixed to the bottom plate 1, and the calibration base 11 has an L-base 111, a first calibration plane 112 and a second calibration elevation 113.

Referring to fig. 11, in the calibration use, the lower portion of the thickness measuring rack 7 is in contact with the L-shaped base 111 of the calibration base 11, and the measuring head of the first digital display dial indicator 9 is in contact with the first calibration plane 112 to perform the calibration, which is generally used for the calibration in the first thickness measurement or after a plurality of thickness measurements. Therefore, the height difference H between the measuring head of the first digital display dial indicator 9 and the first bottom plane 7-1 at the lower part of the thickness detection frame 7 can be calibrated. Specifically, the height difference H is a height difference between the first bottom plane 7-1 of the thickness measuring rack 7 and the upper surface of the standard front triangular glass N corresponding thereto after being placed on the glass placing table 2 for positioning and supporting, which is formed by clamping the thickness measuring rack 7 on the first base block 5.

Referring to fig. 12, in calibration, the lower portion of the contour testing stand 8 is in contact with the L-shaped base 111 of the calibration base 11, and the measuring head of the second digital dial indicator 10 is in contact with the second calibration vertical surface 113 to perform calibration, which is generally used for calibration during first contour testing or after a plurality of contour measurements. The calibration of the horizontal spacing S of the measuring head of the second digital dial indicator 10 from the lower part of the profile testing stand 8 can be realized. Specifically, the horizontal distance S is a horizontal distance between the lower portion of the contour detection frame 8 and the second base block 6, and the leaning surface 8-3 of the lower portion of the contour detection frame 8 and the corresponding edge of the standard front triangular glass N after being placed on the glass placing table 2 and supported in a positioning manner.

Referring to fig. 6-8, before the inspection, the front triangular glass to be inspected is placed on the glass placing table 2 and supported by the support 2-1 to determine the position and height; and then the edge of one side of the front triangular glass N is in contact fit with the first side limiting piece 3, and the edge of the other side of the front triangular glass N is in contact fit with the second side limiting piece 4, so that the front triangular glass is accurately positioned in height and direction. Then the detection of the thickness or/and the profile is carried out.

Referring to fig. 9, during thickness measurement, the thickness detection frame 7 is firstly clamped with one of the first base blocks 5, a measuring head of a first digital display dial indicator 9 vertically arranged on the thickness detection frame 7 is contacted with a corresponding measured position of the front triangular glass N, and then whether the thickness of the corresponding measured position of the front triangular glass N is qualified is judged through display reading of the first digital display dial indicator 9.

As can be seen in fig. 9, moreover, each of said first base blocks 5 is circumferentially distributed along the front triangular glass N and is equidistant from the edge of the front triangular glass N. When the thickness detection frame 7 is replaced on the next first base block 5, the holding position of the first digital display dial indicator 9 on the thickness detection frame 7 is unchanged; the measuring head of the first digital display dial indicator 9 of the thickness detection frame 7 is contacted with the next corresponding measured position of the front triangular glass N, and then whether the thickness of the next corresponding measured position of the front triangular glass N is qualified or not is judged through the display reading of the first digital display dial indicator 9. Similarly, the thickness of the front triangular glass N at different positions can be measured by replacing the detection position, namely replacing the thickness detection frame 7 on the first base block 5 at different positions.

Referring to fig. 10, during the profile measurement, the profile testing stand 10 is first clamped with one of the second base blocks 6, the measuring head of the second digital display dial indicator 10 horizontally arranged on the profile testing stand 10 is contacted with the corresponding measured position of the edge of the front triangular glass N, and then whether the profile of the corresponding measured position of the edge of the front triangular glass N is qualified is judged through the display reading of the second digital display dial indicator 10.

As can be seen in fig. 10, moreover, each of said second base blocks 6 is circumferentially distributed along the front triangular glass N and is equidistant from the edges of the front triangular glass N. When the contour testing stand 10 is reloaded to the next second base block 6, the holding position of the second digital display dial indicator 10 on the contour testing stand 10 is not changed; the measuring head of the second digital display dial indicator 10 of the contour detection frame 10 is contacted with the next corresponding measured position of the edge of the front triangular glass N, and then whether the contour of the next corresponding measured position of the edge of the front triangular glass N is qualified is judged through the display reading of the second digital display dial indicator 10. Similarly, the outline detection frame 10 is replaced on the second base block 6 at different positions by replacing the detection position, so as to respectively measure the outline of the front triangular glass N at different positions.

With reference to fig. 6-8, in addition, the gauge can be used for single measurement of thickness or profile, and can also be used for combined measurement of thickness and profile.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the principles of this invention without the use of inventive faculty. Therefore, the technical solutions that can be obtained by logical analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention by those skilled in the art should be within the scope of protection defined by the claims.

Claims (10)

1. The utility model provides a utensil is examined in preceding triangle glass is synthesized which characterized in that: the device comprises a bottom plate (1), a glass placing table (2), a first edge limiting piece (3), a second edge limiting piece (4), a plurality of first base blocks (5), a plurality of second base blocks (6), a thickness detection frame (7) and a contour detection frame (8);

the glass placing table (2) is fixed in the middle of the bottom plate (1), a supporting piece (2-1) is arranged on the upper surface of the glass placing table (2), and the supporting piece (2-1) is used for supporting front triangular glass (N);

the first edge limiting piece (3) is arranged on the bottom plate (1) and is used for being in contact fit with the edge of one edge of the front triangular glass (N);

the second side limiting piece (4) is arranged on the bottom plate (1) and is used for being in contact fit with the edge of the other side of the front triangular glass (N);

each first base block (5) is fixed on the bottom plate (1), circumferentially distributed along the front triangular glass (N) and equidistant from the edge of the front triangular glass (N);

each second base block (6) is fixed on the bottom plate (1), circumferentially distributed along the front triangular glass (N) and equidistant from the edge of the front triangular glass (N);

the lower end of the thickness detection frame (7) is clamped with the first base block (5), and a first digital display dial indicator (9) is vertically arranged on the thickness detection frame (7);

the lower end of the outline detection frame (8) is connected with the second base block (6) in a clamping mode, and a second digital display dial indicator (10) is horizontally arranged on the outline detection frame (8).

2. The comprehensive front triangular glass inspection device according to claim 1, characterized in that: a first flat pad (5-1) and a first T-shaped block (5-2) are fixedly arranged on the first base block (5);

the lower end of the thickness detection frame (7) is provided with a first bottom plane (7-1) and a first clamping groove (7-2), the first bottom plane (7-1) is used for being in surface contact fit with the first flat pad (5-1), and the first clamping groove (7-2) is used for being clamped with the first T-shaped block (5-2).

3. The comprehensive front triangular glass inspection device according to claim 1, characterized in that: a second flat pad (6-1) and a second T-shaped block (6-2) are fixedly arranged on the second base block (6);

the lower end of the outline detection frame (8) is provided with a second bottom plane (8-1) and a second clamping groove (8-2), the second bottom plane (8-1) is used for being in surface contact fit with a second flat pad (6-1), and the second clamping groove (8-2) is used for being clamped with a second T-shaped block (6-2).

4. The comprehensive front triangular glass gauge according to any one of claims 1 to 3, wherein: a calibration seat (11) is fixedly arranged on the bottom plate (1);

the calibration base (11) has an L-base surface (111), a first calibration plane (112) and a second calibration elevation (113).

5. The comprehensive front triangular glass inspection device according to claim 1, characterized in that: the first edge limiting parts (3) are distributed at intervals.

6. The comprehensive front triangular glass inspection device according to claim 1, characterized in that: the two second limit limiting pieces (4) are distributed at intervals.

7. The comprehensive front triangular glass inspection device according to claim 1 or 5, characterized in that: the first edge limiting piece (3) comprises a first support (3-1) and a first limiting wheel (3-2), the first support (3-1) is fixed on the bottom plate (1), and the first limiting wheel (3-2) is installed on the first support (3-1) and used for being in contact fit with the edge of one edge of the front triangular glass (N).

8. The comprehensive front triangular glass inspection device of claim 1 or 6, wherein: the second limit limiting piece (4) comprises a second support (4-1) and a second limiting wheel (4-2), the second support (4-1) is fixed on the bottom plate (1), and the second limiting wheel (4-2) is installed on the second support (4-1) and is used for being in contact fit with the edge of the other side of the front triangular glass (N).

9. The comprehensive front triangular glass inspection device of claim 1 or 6, wherein: the thickness detection frame (7) comprises a vertical beam (7 a) and a cross beam (7 b);

the lower end of the vertical beam (7 a) is clamped with the first base block (5), one end of the cross beam (7 b) is fixedly connected with the upper end of the vertical beam (7 a), and the first digital display dial indicator (9) is vertically arranged on the other end of the cross beam (7 b).

10. The comprehensive front triangular glass inspection device according to claim 1, characterized in that: the upper end of the supporting part (2-1) is provided with a ball-shaped contact head (2-11).

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