CN212254035U - Automatic positioning device for skylight electronic inspection tool glass - Google Patents

Abstract

The utility model relates to a skylight electron is examined utensil glass automatic positioning device, its difference lies in: the skylight electronic detection tool comprises a base, wherein a skylight electronic detection tool placing area for placing a skylight electronic detection tool is arranged on the base and is constructed into a square area; the lifting mechanisms are used for driving the glass to lift, are fixed in the skylight electronic detection tool placing area and can be inserted into the grids of the detection tool body; the glass pre-positioning structures are fixed on the base and arranged along the edges of two adjacent edges of the placement area of the skylight electronic detection tool, and each glass pre-positioning structure is provided with a pre-positioning surface for pre-positioning glass; and the positioning mechanisms are fixed on the base and are arranged along the edges of the other two sides of the skylight electronic inspection tool placing area. The utility model discloses can be fast accurately fix a position skylight glass on skylight electron examines utensil, convenient to use has not only improved work efficiency, avoids glass moreover by the fish tail, improves the glass yield.

Description

Automatic positioning device for skylight electronic inspection tool glass

Technical Field

The utility model belongs to the technical field of the glass detects and specifically relates to a skylight electron is examined utensil glass automatic positioning device.

Background

The automobile glass industry has strong competition and short project development period. The inspection device is required to be adopted for comprehensive inspection after glass production is completed, but the glass can be scratched during inspection. When skylight glass is inspected, two operators are needed to position the skylight glass by the electronic inspection tool, and in the manual operation process, the glass frequently moves on the skylight electronic inspection tool, so that pull marks can be generated, the quality of the glass is influenced, and even the glass can be scrapped.

Disclosure of Invention

An object of the utility model is to overcome prior art's shortcoming, provide a skylight electron and examine glass automatic positioning device, can fix a position skylight glass on skylight electron is examined fast accurately, convenient to use has not only improved work efficiency, avoids glass by the fish tail moreover, improves the glass yield.

For solving the above technical problem, the technical scheme of the utility model is that: skylight electron is examined a glass automatic positioning device, uses with the cooperation of skylight electron is examined the utensil, skylight electron is examined a utensil body and is constructed for latticed, its difference lies in:

the skylight electronic detection tool comprises a base, wherein a skylight electronic detection tool placing area for placing the skylight electronic detection tool is arranged on the base and is constructed into a square area;

the plurality of lifting mechanisms are used for driving the glass to lift, are fixed in the skylight electronic detection tool placing area and can be inserted into the grids of the detection tool body;

the plurality of pre-positioning mechanisms are fixed on the base and are arranged along the edges of two adjacent edges of the placement area of the skylight electronic detection tool, and each glass pre-positioning structure is provided with a pre-positioning surface for pre-positioning glass;

and

the positioning mechanisms are fixed on the base and arranged along the edges of the other two sides of the placement area of the skylight electronic inspection tool, and can move towards the skylight electronic inspection tool to position glass or move towards the direction far away from the skylight electronic inspection tool to loosen the glass.

According to the technical scheme, the number of the lifting mechanisms is four, and the lifting mechanisms are arranged close to the edge of the skylight electronic inspection device placing area.

According to above technical scheme, elevating system is including fixing lift pedestal on the base is in with the setting jacking cylinder on the lift pedestal, the cylinder body of jacking cylinder with the lift pedestal is fixed, the piston rod of jacking cylinder can the up-and-down motion, the upper end of piston rod is provided with the ball seat, it has the universal ball that is used for supporting to inlay on the ball seat glass.

According to the technical scheme, the number of the pre-positioning mechanisms is three, two pre-positioning mechanisms are arranged on the edge of one side of the skylight electronic inspection tool placing area, and one pre-positioning structure is arranged on the edge of the other side of the skylight electronic inspection tool placing area.

According to the technical scheme, the pre-positioning mechanism comprises a positioning base fixed on the base, a supporting shaft arranged on the positioning base and extending vertically, and a positioning sleeve arranged at the upper end of the supporting shaft, and the side surface of the positioning sleeve is constructed into the pre-positioning surface.

According to the technical scheme, the side surface of the locating sleeve is sequentially divided into a cylindrical surface and a conical surface from top to bottom, and the conical surface is large in top and small in bottom.

According to the technical scheme, the positioning sleeve can rotate around the supporting shaft.

According to the technical scheme, the two positioning mechanisms are respectively arranged at the edges of the two sides of the skylight electronic inspection device placing area.

According to the technical scheme, the positioning mechanism comprises a positioning base body, a rail fixed on the positioning base body, a sliding rail matched with the rail, a positioning wheel shaft fixed on the sliding rail, a positioning wheel arranged on the positioning wheel shaft, a pushing cylinder fixed on the positioning base body and a connecting seat for fixing the sliding rail and a piston rod of the pushing cylinder, wherein the side surface of the positioning wheel is constructed into a positioning surface, and under the action of the pushing cylinder, the sliding rail can drive the positioning wheel to move along the direction of the rail towards or away from the skylight electronic checking fixture.

According to the technical scheme, the positioning device further comprises a protection mechanism for protecting the skylight electronic detection tool sensor.

Contrast prior art, the beneficial characteristics of the utility model are that: this skylight electron examines a glass automatic positioning device, elevating system rises the back, places glass to glass elevating structure on to through prepositioning to glass location, then elevating system drives glass and descends to examining a body down, make positioning mechanism push out towards skylight electron examine a direction and can ensure the accurate location of glass on skylight electron examines a utensil, quick accuracy, convenient to use has not only improved work efficiency, avoids glass moreover by the fish tail, improves the glass yield.

Drawings

FIG. 1 is a diagram of a state of the automatic positioning device for skylight electronic inspection tools according to an embodiment of the present invention;

FIG. 2 is a schematic view of a portion of the structure of FIG. 1;

FIG. 3 is a schematic structural view of an electronic testing fixture for skylights according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of an automatic positioning device for skylight electronic inspection tools according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of an automatic positioning device for skylight electronic inspection tools according to an embodiment of the present invention;

FIG. 6 is a top view of the automatic positioning device for the skylight electronic inspection tool glass according to the embodiment of the present invention;

FIG. 7 is a front view of the automatic positioning device for the skylight electronic inspection tool glass according to the embodiment of the present invention;

fig. 8 is a schematic view of the lifting mechanism in the embodiment of the present invention;

fig. 9 is a schematic structural view of a pre-positioning mechanism in an embodiment of the present invention;

FIG. 10 is a partial cross-sectional structural view of FIG. 9;

fig. 11 is a schematic structural view of a positioning mechanism in an embodiment of the present invention;

wherein: 1-gauge body (101-shell, 102-clapboard, 103-grid), 2-detection module, 3-base (301-skylight electronic gauge placing area), 4-lifting mechanism (401-lifting base, 402-jacking cylinder, 403-ball base, 404-universal ball), 5-prepositioning mechanism (501-positioning base, 502-supporting shaft, 503-positioning sleeve (5031-prepositioning surface (50311-cylindrical surface, 50312-conical surface))), 6-positioning mechanism (601-positioning base (6011-kidney-shaped hole), 602-rail, 603-slide rail, 604-positioning wheel shaft, 605-positioning wheel (6051-positioning surface), 606-pushing cylinder, 607-connecting base), 7-sensor, 3-positioning mechanism (5031-skylight electronic gauge placing area), 8-a protection mechanism, a-a direction close to the skylight electronic gauge and b-a direction far away from the skylight electronic gauge.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Please refer to fig. 1 to 3, the embodiment of the present invention provides an automatic positioning device for skylight glass, which is used in cooperation with a skylight electronic inspection device, wherein the skylight electronic inspection device includes an inspection device body 1 and a detection module 2, the inspection device body 1 is structured in a grid structure, the inspection device body 1 includes a square housing 101 whose upper and lower ends are opening surfaces and a partition plate 102 which is arranged in the housing 101 in a horizontal and vertical staggered manner, the partition plate 102 divides the inner cavity of the housing 101 into a plurality of grids 103, and the detection module 2 is arranged in the grids 103.

Referring to fig. 1 to 11, an automatic positioning device for a glass of an electronic inspection device for a skylight according to an embodiment of the present invention includes a base 3, a plurality of lifting mechanisms 4, a plurality of pre-positioning mechanisms 5, and a plurality of positioning mechanisms 6. The base 3 is provided with a skylight electronic gauge placing area 301 for placing the skylight electronic gauge, and the skylight electronic gauge placing area 301 is a square area which is formed by copying with the shell 101. Each lifting mechanism 4 is respectively fixed in the skylight electronic inspection device placing area 301 and can be inserted into the grid 103 of the inspection device body 1, and the lifting mechanisms 4 can move simultaneously to be used for driving the glass to lift. Each pre-positioning mechanism 5 is fixed on the base 3 and arranged along the edges of two adjacent sides of the skylight electronic inspection tool placing area 301, and each glass pre-positioning structure 5 is provided with a pre-positioning surface 5031 for pre-positioning glass. Each positioning mechanism 6 is fixed on the base 3 and arranged along the edges of the other two sides of the skylight electronic inspection tool placing area 301, and the positioning mechanisms 6 can move towards the direction a close to the skylight electronic inspection tool to position the glass or move towards the direction b far away from the skylight electronic inspection tool to loosen the glass.

Preferably, in order to make the lifting and lowering of the glass more stable, four lifting mechanisms 4 are provided and are arranged near the edge of the skylight electronic inspection tool placing area 301.

Preferably, the lifting mechanism 4 includes a lifting seat body 401 fixed on the base 3 and a jacking cylinder 402 arranged on the lifting seat body 401, a cylinder body of the jacking cylinder 402 is fixed with the lifting seat body 401, a piston rod of the jacking cylinder 402 can move up and down, in order to avoid wearing glass, a ball seat 403 is fixed at the upper end of the piston rod, a universal ball 404 for supporting the glass is embedded on the ball seat 403, and the universal ball 404 is made of nylon material.

Preferably, according to the three-point positioning principle, there are three pre-positioning mechanisms 5, two pre-positioning mechanisms 5 are arranged on the edge of one side of the skylight electronic inspection tool placing area 301, and one pre-positioning structure 5 is arranged on the edge of the other side of the skylight electronic inspection tool placing area 301.

Preferably, the pre-positioning mechanism 5 includes a positioning base 501 fixed on the base 3, a supporting shaft 502 disposed on the positioning base 501 and extending vertically, and a positioning sleeve 503 disposed on the upper end of the supporting shaft 502, wherein a side surface of the positioning sleeve 503 is configured as the pre-positioning surface 5031. More preferably, in order to prevent the locating sleeve 503 from rubbing and interfering with the glass during the lowering process of the glass, the locating surface 5031 is divided into a cylindrical surface 50311 and a conical surface 50312 from top to bottom in sequence, and the conical surface 50312 is in a shape of a large top and a small bottom. More preferably, in order to better protect the glass, the positioning sleeve 503 can rotate around the supporting shaft 502, and the positioning sleeve 503 is made of nylon material.

Preferably, the two positioning mechanisms 6 are respectively arranged at two edges of the skylight electronic inspection device placing area 301.

Preferably, the positioning mechanism 6 includes a positioning seat 601, a rail 602 fixed on the positioning seat 601, a sliding rail 603 matching with the rail 602, a positioning wheel shaft 604 fixed on the sliding rail 603, a positioning wheel 605 arranged on the positioning wheel shaft 604, a pushing cylinder 606 fixed on the positioning seat 601, and a connecting seat 607 fixing the sliding rail 603 and the piston rod of the pushing cylinder 606, and a side surface of the positioning wheel 605 is configured as a positioning surface 6051. Under the action of the pushing cylinder 606, the sliding rail 603 can drive the positioning wheel 605 to move along the rail 602 towards a direction close to or away from the sunroof electronic inspection device. More preferably, one positioning mechanism 6 includes two rails 602, two sliding rails 603, two positioning wheel shafts 604, two positioning wheels 605, and one pushing cylinder 606, the two rails 602 are respectively fixed on the positioning base 601 and symmetrically located at two sides of the pushing cylinder 606, the sliding rails 603 and the rails 602 are in one-to-one correspondence, the two sliding rails 603 are simultaneously connected with the piston rod of the pushing cylinder 606 through the connecting seat 607, one positioning wheel shaft 604 is fixed on one sliding rail 603, and one positioning wheel shaft 604 is provided with one positioning wheel 605, so that the positioning wheel 605 can rotate around the positioning wheel shaft 604 in order to avoid scratching the glass. More preferably, in order to adjust the position of the positioning mechanism 6 on the base 3, so that the positioning mechanism 6 can be close to or far from the skylight electronic inspection device as required, a slotted hole 6011 is formed in the positioning base 601, and the positioning base 601 and the base 3 are fixed by a screw matched with the slotted hole 6011.

The periphery of the skylight electronic inspection tool is provided with a sensor 7, in order to protect the skylight electronic inspection tool, the positioning device further comprises a protection mechanism 8 for protecting the skylight electronic inspection tool sensor 7, and an anti-collision material layer wraps the steel protection mechanism.

The utility model discloses application method does: as shown in fig. 1 and 2, after the sunroof electronic inspection device is mounted on the positioning device, the lifting mechanism 4 is lifted, the glass is placed on the lifting mechanism 4, the bottom surface of the glass abuts against the universal balls 404 of all the lifting mechanisms 4, meanwhile, the side edge of the glass abuts against the cylindrical surfaces 50311 of the pre-positioning surfaces 5031 of all the pre-positioning mechanisms 5, then the lifting mechanism 4 is lowered to drive the glass to descend until the glass falls onto the inspection device body 1 of the sunroof electronic inspection device, then the piston rod of the pushing cylinder 606 of the positioning mechanism 6 is pushed out, the positioning wheel 605 moves towards the direction a close to the sunroof electronic inspection device until the piston rod of the pushing cylinder 606 moves to the maximum stroke, at this time, the glass abuts against the positioning surfaces 6051 of all the positioning wheels 605, the glass is accurately positioned on the sunroof electronic inspection device, and subsequent detection can be started by using the sunroof electronic inspection device. If a gap is formed between the glass and the positioning surface 6051 of any positioning wheel 605, the position of the glass is finely adjusted, so that the glass is abutted against all the positioning surfaces 6051, the glass can be accurately positioned on the skylight electronic inspection device, and then the skylight electronic inspection device is used for starting subsequent inspection. The positioning device can quickly and accurately realize the accurate positioning of the glass on the skylight electronic inspection tool, not only saves time and labor and improves the working efficiency, but also avoids the glass scratch caused by frequently moving the glass and improves the yield of the glass.

The foregoing is a more detailed description of the present invention that is presented in conjunction with specific embodiments, and it is not to be understood that the specific embodiments of the present invention are limited to these descriptions. To the utility model belongs to the technical field of the ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. Skylight electron is examined a glass automatic positioning device, uses with the cooperation of skylight electron is examined the utensil, skylight electron is examined a utensil body and is constructed latticedly, its characterized in that:

the skylight electronic detection tool comprises a base, wherein a skylight electronic detection tool placing area for placing the skylight electronic detection tool is arranged on the base and is constructed into a square area;

the plurality of lifting mechanisms are used for driving the glass to lift, are fixed in the skylight electronic detection tool placing area and can be inserted into the grids of the detection tool body;

the plurality of pre-positioning mechanisms are fixed on the base and are arranged along the edges of two adjacent edges of the placement area of the skylight electronic detection tool, and each glass pre-positioning structure is provided with a pre-positioning surface for pre-positioning glass;

and

the positioning mechanisms are fixed on the base and arranged along the edges of the other two sides of the placement area of the skylight electronic inspection tool, and can move towards the skylight electronic inspection tool to position glass or move towards the direction far away from the skylight electronic inspection tool to loosen the glass.

2. The automatic positioning device for skylight electronic inspection tool glass according to claim 1, characterized in that: the number of the lifting mechanisms is four, and the lifting mechanisms are arranged close to the edge of the skylight electronic inspection tool placing area.

3. The automatic positioning device for skylight electronic inspection tool glass according to claim 1, characterized in that: the lifting mechanism comprises a lifting seat body fixed on the base and a jacking cylinder arranged on the lifting seat body, the cylinder body of the jacking cylinder is fixed on the lifting seat body, a piston rod of the jacking cylinder can move up and down, a ball seat is arranged at the upper end of the piston rod, and universal balls for supporting the glass are embedded on the ball seat.

4. The automatic positioning device for skylight electronic inspection tool glass according to claim 1, characterized in that: the number of the pre-positioning mechanisms is three, two pre-positioning mechanisms are arranged on the edge of one side of the skylight electronic inspection tool placing area, and one pre-positioning structure is arranged on the edge of the other side of the skylight electronic inspection tool placing area.

5. The automatic positioning device for skylight electronic inspection tool glass according to claim 1, characterized in that: the pre-positioning mechanism comprises a positioning seat body fixed on the base, a supporting shaft arranged on the positioning seat body and extending vertically, and a positioning sleeve arranged at the upper end of the supporting shaft, wherein the side surface of the positioning sleeve is constructed into the pre-positioning surface.

6. The automatic positioning device for skylight electronic inspection tool glass according to claim 5, characterized in that: the side surface of the locating sleeve is sequentially divided into a cylindrical surface and a conical surface from top to bottom, and the conical surface is in a shape of being large in top and small in bottom.

7. The automatic positioning device for skylight electronic inspection tool glass according to claim 5, characterized in that: the locating sleeve can rotate around the supporting shaft.

8. The automatic positioning device for skylight electronic inspection tool glass according to claim 1, characterized in that: the positioning mechanisms are provided with two edges which are respectively arranged at two sides of the skylight electronic inspection tool placing area.

9. The automatic positioning device for skylight electronic inspection tool glass according to claim 1, characterized in that: the positioning mechanism comprises a positioning base body, a rail fixed on the positioning base body, a sliding rail matched with the rail, a positioning wheel shaft fixed on the sliding rail, a positioning wheel arranged on the positioning wheel shaft, a pushing cylinder fixed on the positioning base body, and a connecting seat for fixing the sliding rail and a piston rod of the pushing cylinder, wherein the side surface of the positioning wheel is constructed into a positioning surface, and under the action of the pushing cylinder, the sliding rail can drive the positioning wheel to move towards the direction close to or far away from the electronic skylight along the rail.

10. The automatic positioning device for skylight electronic inspection tool glass according to claim 1, characterized in that: the positioning device further comprises a protection mechanism for protecting the skylight electronic gauge sensor.

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