CN219301543U - Sealing jig flatness rapid detection platform - Google Patents

Abstract

The utility model provides a rapid flatness detection platform for a sealing jig, which is characterized by comprising a machine table, an object carrying sliding table, a cylindrical reflector and a light source, wherein the object carrying sliding table is movably arranged on the machine table through a two-way sliding rail mechanism, the cylindrical reflector is erected on the machine table through a first bracket, the light source is erected on the machine table through a second bracket, and an intersecting calibration line is arranged on the machine table positioned on one side of the cylindrical reflector. The detection platform is simple in structure, easy to build, low in cost, good in effect, low in requirement on skills of operators and high in use degree, and can be used for rapidly and conveniently detecting flatness of two prisms in the sealing jig.

Description

Sealing jig flatness rapid detection platform

Technical Field

The utility model belongs to the field of optical detection, and particularly relates to a rapid flatness detection platform for a sealing jig.

Background

The stress meter is used for measuring stress, a glass sample is required to be placed on the sealing jig, refractive liquid is used for filling, so that the sample and the jig are closely connected, larger scattering phenomenon does not occur to light, the core part of the sealing jig is a prism with two inconsistent specifications, the contact surface height of the two prisms is required to be kept consistent during manufacturing, the contact surface is kept on the same plane or parallel with the surface of the fixing plate of the sealing jig, the qualification rate of each sealing jig is ensured, the replacement rate is reduced, the stable operation and the measurement accuracy of the stress meter are ensured, the flatness of the sealing jig is required to be detected after the manufacturing is completed, the existing detection is performed by using professional detection equipment, the cost is high, the structure is complex, and the operation is difficult.

Disclosure of Invention

In view of the above, the utility model provides the rapid detection platform for the flatness of the sealing jig, which has the advantages of simple structure, easy construction, low cost, good effect, low requirement on skills of operators and high use level, and can be used for rapidly and conveniently detecting the flatness of two prisms in the sealing jig. The specific technical scheme is as follows.

The utility model provides a sealed tool flatness short-term test platform, its characterized in that includes board, carries thing slip table, cylindrical reflector and light source, carries the setting of thing slip table through two-way slide rail mechanism activity on the board, and the cylindrical reflector erects on the board through first support, the light source erects on the board through the second support, is provided with crisscross calibration line on the board that is located cylindrical reflector one side.

Further, the two-way slide rail mechanism comprises two X-axis slide rails and two Y-axis slide rails, the X-axis slide rails are parallelly fixed on the machine table, the Y-axis slide rails are vertically arranged on the X-axis slide rails through sliding blocks, and the object carrying slide tables are arranged on the Y-axis slide rails in a matched mode.

Further, the first support and the second support are perpendicular to the X-axis sliding rail and are erected above the X-axis sliding rail, and the first support and the second support are respectively located at two ends of the X-axis sliding rail.

Further, the light source is movably arranged on the second bracket through the mounting seat, and the light source seat can swing an angle so as to adjust the position of the light source irradiated on the lower object carrying sliding table.

Further, the calibration line is two straight lines which are mutually perpendicular and intersected.

According to the rapid detection platform for the flatness of the sealing jig, the object carrying slipway is arranged on the machine platform through the bidirectional slide rail mechanism of the X-axis slide rail and the Y-axis slide rail, the cylindrical reflector and the light source are vertically erected above the object carrying slipway, an operator only needs to place the sealing jig to be detected on the object carrying slipway, push the object carrying slipway to change the position of the sealing jig, observe whether the light source irradiated by the light source falls on the intersection point of the calibration line after being reflected by the sealing jig and the cylindrical reflector, and then the flatness of the prism in the sealing jig can be rapidly judged.

Additional aspects and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a rapid flatness detection platform for a sealing jig;

FIG. 2 is a schematic diagram of the optical path of the detection of the present utility model;

the device comprises a 1-machine table, a 2-carrying sliding table, a 3-cylindrical reflector, a 4-light source, a 5-first bracket, a 6-second bracket, a 7-calibration line, an 8-X axis sliding rail, a 9-Y axis sliding rail, a 10-mounting seat and an 11-sealing jig.

Detailed Description

In the description of the present utility model, it should be understood that the orientation or positional relationship indicated by the terms "upper", "lower", etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the device or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Referring to fig. 1-2, a rapid flatness detection platform for a sealing jig of this embodiment includes a machine 1, a carrying slip table 2, a cylindrical mirror 3 and a light source 4, the carrying slip table 2 is movably disposed on the machine 1 through a bidirectional sliding rail mechanism, the bidirectional sliding rail mechanism includes an X-axis sliding rail 8 and a Y-axis sliding rail 9, the X-axis sliding rail 8 is fixed on the machine 1 in parallel, the Y-axis sliding rail 9 is vertically disposed on the X-axis sliding rail 8 through a sliding block, the carrying slip table 2 is disposed on the Y-axis sliding rail 9 in a matching manner, a fixing groove is disposed on the carrying slip table 2 for mounting the sealing jig to be detected, and the sealing jig is clamped in the fixing groove during detection. The cylindrical reflector 3 is erected on the machine table 1 through a first support 5, the light source 4 is erected on the machine table 1 through a second support 6, the first support 5 and the second support 6 are perpendicular to the X-axis sliding rail 8 and are erected above the X-axis sliding rail, and the first support 5 and the second support 6 are respectively located at two ends of the X-axis sliding rail 8. The machine 1 positioned on one side of the cylindrical reflector 3 is provided with an intersecting calibration line 7, and the calibration line 7 is two straight lines intersecting perpendicularly.

Preferably, the light source 4 is movably arranged on the second bracket 6 through the mounting seat 10, and the light source seat 10 can swing by an angle so as to adjust the position of the light source 4 irradiated on the lower object carrying sliding table 2. The light source 4 is preferably a laser light source. The angle-adjustable mounting seat is available in the prior art, and is not described in detail.

The calibration is firstly carried out before the detection platform is used for the first time, a piece of flat reflecting glass is placed on the carrying sliding table, the angle of the mounting seat 10 is adjusted to change the incident direction of the light source 4, meanwhile, the cylindrical reflector is adjusted, so that a laser point falls at the intersection point of the contrast calibration graduation marks after passing through the flat reflecting glass and the cylindrical reflector, the sliding table drives the reflecting glass to move, and the laser point is always at the intersection point of the contrast calibration graduation marks, so that the calibration is completed.

During detection, the sealing jig is placed in the fixed groove of the object carrying sliding table, the sealing jig is slightly higher than the sliding table surface, the object carrying sliding table is pushed, the light source irradiates on one prism of the sealing jig, the falling point of laser reflected by the cylindrical reflector at the moment is observed, the object carrying sliding table is continuously pushed on the X-axis sliding rail and the Y-axis sliding rail, if the laser reflection falling point is always at an initial point position, the single prism surface is horizontal, and when the laser reflection falling point position is switched to the other prism, the two prism surfaces are indicated to be at the same height or the same plane.

While the detailed description of the utility model has been made with reference to exemplary embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this utility model. In particular, reasonable variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the foregoing disclosure, the drawings and the claims without departing from the spirit of the utility model. Except insofar as variations and modifications in the component parts and/or arrangements are described in the appended claims and the equivalents thereof.

Claims (5)

1. The utility model provides a sealed tool flatness short-term test platform, its characterized in that includes board, carries thing slip table, cylindrical reflector and light source, carries the setting of thing slip table through two-way slide rail mechanism activity on the board, and the cylindrical reflector erects on the board through first support, the light source erects on the board through the second support, is provided with crisscross calibration line on the board that is located cylindrical reflector one side.

2. The rapid flatness detection platform for the sealing jig according to claim 1, wherein the bidirectional slide rail mechanism comprises two X-axis slide rails and two Y-axis slide rails, the X-axis slide rails are fixed on the machine table in parallel, the Y-axis slide rails are vertically arranged on the X-axis slide rails through sliding blocks, and the object carrying slide tables are arranged on the Y-axis slide rails in a matched mode.

3. The rapid detection platform for flatness of sealing jigs according to claim 2, wherein the first bracket and the second bracket are perpendicular to the X-axis sliding rail and are erected above the X-axis sliding rail, and the first bracket and the second bracket are respectively located at two ends of the X-axis sliding rail.

4. The rapid detection platform for flatness of sealing jigs according to claim 3, wherein the light source is movably arranged on the second bracket through a mounting seat, and the light source seat can swing by an angle so as to adjust the position of the light source irradiated on the lower carrying slipway.

5. The rapid detection platform for flatness of sealing jigs according to claim 1, wherein the calibration line is two straight lines intersecting perpendicularly to each other.

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