Glass inspection rack
Technical Field
The utility model relates to a glass inspection field, a special design glass inspection frame.
Background
The glass board is after the processing is accomplished, need carry out quality control, be about to the monoblock glass board fixed, then shine the glass board through the manual work with the light source, whether each position of observation glass board has the damage. The technical problem to be solved urgently is to design a glass inspection rack to enable glass inspection to be more efficient.
SUMMERY OF THE UTILITY MODEL
The utility model discloses the technical problem that will solve is: an efficient glass inspection rack is provided.
In order to solve the technical problem, the utility model discloses a technical scheme be:
a glass inspection rack comprises a support, an inspection platform, a light source and a support assembly;
the inspection platform is connected to the upper part of the bracket, and the color of the inspection platform is black;
the support assembly is fixed on the upper part of the inspection platform and comprises 2 first n-shaped frames and 1 second n-shaped frame, each first n-shaped frame comprises 2 first upright posts and support rods connected to the upper parts of the first upright posts, the support rods of the 2 first n-shaped frames are parallel to each other, and the support rods are wrapped with buffer layers; the supporting rods are used for supporting the glass plate, the second n-shaped frame comprises two second upright columns and a cross rod connected to the upper portions of the second upright columns, buffer layers are wrapped on the second upright columns, and the second upright columns are used for abutting against the edges of the glass plate;
the light source is arranged at the inspection platform part.
Wherein, one end of the supporting rod close to the second upright post is inclined downwards by 5-10 degrees.
Wherein, the horizontal pole is perpendicular to the bracing piece.
Wherein the lower part of the bracket is connected with a universal wheel.
The light source comprises two first lamp tubes and a second lamp tube, the first lamp tubes are arranged on the outer sides of the first n-shaped frames respectively, the second lamp tube is arranged on one side, far away from the second n-shaped frame, of the inspection platform, and the second lamp tube is perpendicular to the first lamp tubes.
The beneficial effects of the utility model reside in that: through setting up 2 first n shape framves on the inspection platform in the glass inspection rack structure, the bracing piece through 2 first n shape framves supports the glass board, and the lateral part of glass board supports and leans on the location through the second stand of second n shape frame, through wrapping up the buffer layer on second stand and bracing piece, increase the frictional force that the glass board supported on the one hand, avoid the landing, can also avoid damage to the glass board, upwards shine the glass board of top through set up the light source on inspection platform, and black inspection platform is as the background, whether the staff can follow the top and clearly observe the glass board and have damage or other quality problems, glass's loading and lift easy operation down, the efficiency of software testing is high.
Drawings
FIG. 1 is a schematic structural view of a glass inspection rack according to an embodiment of the present invention;
description of reference numerals:
1. a support; 2. an inspection platform; 3. a light source; 31. a first lamp tube; 32. a second lamp tube; 4. a support assembly; 41. a first n-shaped frame; 411. a first upright post; 412. a support bar; 42. a second n-shaped frame; 421. a second upright post; 422. a cross bar; 5. a universal wheel.
Detailed Description
In order to explain the technical content of the present invention, the object and the effect achieved by the present invention 2 in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.
The utility model discloses the most crucial design lies in: the glass sheet is supported by the support rods of the 2 first n-shaped racks, while the sides of the glass sheet are positioned against by the second uprights of the second n-shaped racks.
Referring to fig. 1, the utility model relates to a glass inspection rack, which comprises a bracket 1, an inspection platform 2, a light source 3 and a support component 4;
the inspection platform 2 is connected to the upper part of the bracket 1, and the color of the inspection platform 2 is black;
the supporting assembly 4 is fixed on the upper part of the inspection platform 2, the supporting assembly 4 comprises 2 first n-shaped frames 41 and 1 second n-shaped frame 42, the first n-shaped frame 41 comprises 2 first upright columns 411 and supporting rods 412 connected to the upper parts of the first upright columns 411, the supporting rods 412 of the 2 first n-shaped frames 41 are parallel to each other, and the supporting rods 412 are wrapped with buffer layers; the supporting rod 412 is used for supporting the glass plate, the second n-shaped frame 42 comprises two second upright columns 421 and a cross rod 422 connected to the upper parts of the second upright columns 421, the second upright columns 421 are wrapped with buffer layers, and the second upright columns 421 are used for abutting against the edges of the glass plate;
the light source 3 is arranged at the inspection platform 2.
Through set up 2 first n shape framves 41 on inspection platform 2 in the above-mentioned glass inspection rack structure, the bracing piece 412 through 2 first n shape framves 41 supports the glass board, and the lateral part of glass board leans on the location through the second stand 421 of second n shape frame 42, through wrapping up the buffer layer on second stand 421 and bracing piece 412, increase the frictional force that the glass board supported on the one hand, avoid the landing, can also avoid glass board ground damage, through set up the glass board of light source 3 upwards shining the top on inspection platform 2, and black inspection platform 2 is as the background, whether the staff can follow the top and clearly observe the glass board and have damage or other quality problems, glass's loading and lift easy operation down, high check efficiency.
Further, in the above glass inspection rack structure, one end of the support bar 412 near the second upright 421 is inclined downward by 5-10 degrees.
As can be seen from the above description, since the end of the support rod 412 close to the second pillar 421 is inclined downward by 5-10 degrees, when the glass plate is supported on the support rod 412, the glass plate can firmly abut against the second pillar 421, so as to prevent the glass plate from sliding off.
Further, in the above-described glass inspection rack structure, the cross bar 422 is perpendicular to the support bars 412.
Further, in the above glass inspection rack structure, the lower part of the support 1 is connected with a universal wheel 5.
As can be seen from the above description, the universal wheels 5 are arranged at the lower part of the support 1, so that the glass inspection rack can be conveniently moved, and a worker can push the glass inspection rack to move by using the cross rod 422 as a handle.
Further, in the above glass inspection frame structure, the light source 3 includes two first light tubes 31 and one second light tube 32, the first light tubes 31 are respectively disposed at the outer sides of the first n-shaped frames 41, the second light tube 32 is disposed at a side of the inspection platform 2 away from the second n-shaped frame 42, and the second light tube 32 is perpendicular to the first light tubes 31.
Example 1
A glass inspection rack comprises a support 1, an inspection platform 2, a light source 3 and a support component 4; the inspection platform 2 is connected to the upper part of the bracket 1, and the color of the inspection platform 2 is black; the supporting assembly 4 is fixed on the upper part of the inspection platform 2, the supporting assembly 4 comprises 2 first n-shaped frames 41 and 1 second n-shaped frame 42, the first n-shaped frame 41 comprises 2 first upright columns 411 and supporting rods 412 connected to the upper parts of the first upright columns 411, the supporting rods 412 of the 2 first n-shaped frames 41 are parallel to each other, and the supporting rods 412 are wrapped with buffer layers; the supporting rod 412 is used for supporting the glass plate, the second n-shaped frame 42 comprises two second upright columns 421 and a cross rod 422 connected to the upper parts of the second upright columns 421, the second upright columns 421 are wrapped with buffer layers, and the second upright columns 421 are used for abutting against the edges of the glass plate; the light source 3 is arranged at the inspection platform 2. Through set up 2 first n shape framves 41 on inspection platform 2 in the above-mentioned glass inspection rack structure, the bracing piece 412 through 2 first n shape framves 41 supports the glass board, and the lateral part of glass board leans on the location through the second stand 421 of second n shape frame 42, through wrapping up the buffer layer on second stand 421 and bracing piece 412, increase the frictional force that the glass board supported on the one hand, avoid the landing, can also avoid glass board ground damage, through set up the glass board of light source 3 upwards shining the top on inspection platform 2, and black inspection platform 2 is as the background, whether the staff can follow the top and clearly observe the glass board and have damage or other quality problems, glass's loading and lift easy operation down, high check efficiency.
One end of the support bar 412 near the second upright 421 is inclined downwards by 5-10 degrees. When the glass plate is supported on the supporting rod 412, the glass can firmly abut against the second pillar 421, so as to prevent the glass plate from sliding off. The cross bar 422 is perpendicular to the support bar 412. The lower part of the bracket 1 is connected with a universal wheel 5. The glass inspection rack is convenient to move, and the worker can push the glass inspection rack to move by taking the cross rod 422 as a handle. The light source 3 comprises two first light tubes 31 and one second light tube 32, the first light tubes 31 are respectively arranged at the outer sides of the first n-shaped frames 41, the second light tube 32 is arranged at one side of the inspection platform 2 far away from the second n-shaped frame 42, and the second light tube 32 is perpendicular to the first light tubes 31.
To sum up, in the glass inspection frame structure provided by the present invention, 2 first n-shaped frames are disposed on the inspection platform, the glass plate is supported by the support rods of the 2 first n-shaped frames, the side portions of the glass plate are abutted and positioned by the second upright post of the second n-shaped frame, the second upright post and the support rods are wrapped with buffer layers, so as to increase the friction force of the glass plate support, avoid slipping, and avoid damage to the glass plate, and the inspection platform is provided with a light source to irradiate the glass plate upwards, and the black inspection platform is used as a background, so that a worker can clearly observe whether the glass plate is damaged or has other quality problems from above, the glass loading and unloading operations are simple, the inspection efficiency is high, the support rod is tilted downwards by 5-10 degrees near the end of the second upright post, when the glass plate is supported on the support rod, the glass can be stably abutted against the second upright post, the glass plate is prevented from sliding off.
The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.