CN216718175U - Glass detection equipment for electronic display device - Google Patents
Glass detection equipment for electronic display device Download PDFInfo
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- CN216718175U CN216718175U CN202123043244.2U CN202123043244U CN216718175U CN 216718175 U CN216718175 U CN 216718175U CN 202123043244 U CN202123043244 U CN 202123043244U CN 216718175 U CN216718175 U CN 216718175U
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- electronic display
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Abstract
The utility model provides an electronic display device glass detection device applied to the technical field of electronic display devices, the electronic display device glass detection equipment is simple in structure, the electronic display device glass detection equipment realizes overturning of glass to be detected according to required angles, overturning load capacity is improved, overturning operation is stable, reduction of load-bearing work energy consumption of operators is facilitated, and glass detection efficiency is improved.
Description
Technical Field
The utility model belongs to the technical field of electronic display devices, and particularly relates to glass detection equipment for an electronic display device.
Background
The glass among the prior art detects the platform and for fixed upset, before the detection achievement, is driven the upset of transmission mechanism through artifical manual rocking hand wheel by the manual work, will detect the platform upset and need position (angle) to fixed lock is dead. In the working process, the workbench has large volume and heavy self weight, the adjustment is laborious, the failure possibility can occur in the self-locking process, and the glass is damaged; if meet the part of leaning on the way in the detection achievement, lock the manual work because of the workstation angle and can only squat and look over, the use is inconvenient, no matter whether angle modulation again or squat look over, has all increased the human cost.
SUMMERY OF THE UTILITY MODEL
The technical problem to be solved by the utility model is as follows: the glass detection device is simple in structure, realizes to detect glass and realizes overturning according to required angle, and the upset load capacity obtains promoting, and the upset operation is stable, and the noise is little, and is small, is favorable to reducing operating personnel heavy burden work energy consumption, upset and opens and stop and overturn and stop the location more accurate steady, effectively improves glass detection efficiency, improves the electronic display device glass check out test set of glass product yield.
To solve the technical problems, the utility model adopts the technical scheme that:
the utility model relates to glass detection equipment for an electronic display device, which comprises a rack, wherein a bearing seat I is arranged on one side of the upper surface of the rack, a bearing seat II is arranged on the other side of the upper surface of the rack, one side of a turnover frame is movably connected with the bearing seat I through a rotating shaft I, the other side of the turnover frame is movably connected with the bearing seat II through a rotating shaft II, the lower side and the upper side of the upper surface of the turnover frame are respectively provided with a limiting block, a telescopic part is arranged between the lower surface of the turnover frame and the lower surface of the rack, the turnover frame is of a frame structure, and refraction glass is arranged on the upper surface of the turnover frame.
The frame of the glass detection equipment of the electronic display device comprises a left side frame and a right side frame, wherein the upper part of one end of the left side frame is connected with the upper part of one end of the right side frame through a connecting beam, and a plurality of cushion pads are arranged on the connecting beam according to gaps.
The electronic display device glass check out test set's flexible part be connected with control unit, when control unit control flexible part is flexible, flexible part sets up to the structure that can drive the upset frame and realize the upset for the frame.
A middle beam is further arranged between the left side frame and the right side frame, and a flexible buffer stop block is arranged on one side, close to the turnover frame, of the middle beam.
When the telescopic component drives the turnover frame to turn over at an angle relative to the rack, the turnover frame is set to be a structure capable of abutting against the cushion pad.
When the telescopic component drives the turnover frame to turn over to another angle relative to the rack, the turnover frame is set to be a structure capable of abutting against the buffer stop block.
The bottom of the frame is provided with a plurality of casters.
The glass to be detected is arranged into a structure which can be clamped between the limiting blocks and attached to the surface position of the refraction glass on the upper surface of the turnover frame.
The telescopic part is an electric cylinder.
By adopting the technical scheme of the utility model, the following beneficial effects can be obtained:
when the glass detection equipment for the electronic display device is used for detection operation, glass to be detected is placed on refraction glass (refraction detection glass), and a limit stop block is arranged at the lower part of the overturning frame in the direction opposite to the overturning direction of gravity. The button switch on the control component is pressed to enable the turnover frame to be pushed by the telescopic component, so that the turnover frame is movably mounted in respective bearing seats through rotating shafts on two sides and moves circularly relative to the rack, the angle rotatable range of the turnover frame is 0-90 degrees, and the telescopic component can be controlled to start and stop in the detection process, so that the turnover frame rotates to the position where manual detection of required angles is convenient. If the lower part is met in the detection process, the turnover frame can be retracted under the control of the telescopic component by pressing the button switch of the control component, and then is stopped to a proper position along the circular motion in the other direction. In the structure, the power for turning the turning frame is provided by the telescopic component, and turning actions in different directions are realized on the turning frame under the assistance of the bearing seat and the rotating shaft by utilizing the telescopic motion of the telescopic component. The two ends of the telescopic part are respectively movably hinged, so that the included angle between the telescopic part and the ground is changed along with the overturning of the overturning frame, and the stress is more uniform. The telescopic part can be additionally provided with a speed reducer, so that the torque is increased, the use safety is ensured, and the service life is prolonged. The glass detection equipment for the electronic display device, disclosed by the utility model, has a simple structure, realizes the turnover of the glass to be detected according to the required angle, improves the turnover load capacity, is stable in turnover operation, low in noise and small in volume, is beneficial to reducing the energy consumption of operators in load bearing work, is more accurate and stable in turnover starting and stopping and positioning, effectively improves the glass detection efficiency and improves the yield of glass products.
Drawings
The contents of the description and the references in the drawings are briefly described as follows:
FIG. 1 is a schematic structural diagram of an electronic display device glass inspection apparatus according to the present invention;
FIG. 2 is a schematic side view of the glass inspection apparatus for an electronic display device according to the present invention;
in the drawings, the reference numbers are respectively: 1. a frame; 2. a bearing seat I; 3. refractive glass; 4. turning over the frame; 5. a cushion pad; 6. a limiting block; 7. a telescopic member; 8. a caster wheel; 9. a buffer stop block; 10. a bearing seat II; 11. a rotating shaft I; 12. a rotating shaft II; 13. a left side frame; 14. a right side frame; 15. a connecting beam; 16. a middle beam; 17. and (5) detecting the glass.
Detailed Description
The following detailed description of the embodiments of the present invention, such as the shapes and structures of the components, the mutual positions and connection relations among the components, the functions and operation principles of the components, will be made by referring to the accompanying drawings and the description of the embodiments:
as shown in attached drawings 1 and 2, the utility model relates to an electronic display device glass detection device, which comprises a rack 1, wherein one side of the upper surface of the rack 1 is provided with a bearing seat I2, the other side of the upper surface of the rack 1 is provided with a bearing seat II 10, one side of a turnover frame 4 is movably connected with the bearing seat I2 through a rotating shaft I11, the other side of the turnover frame 4 is movably connected with the bearing seat II 10 through a rotating shaft II 12, the lower side and the upper side of the upper surface of the turnover frame 4 are respectively provided with a limiting block 6, a telescopic part 7 is arranged between the lower surface of the turnover frame 4 and the lower surface of the rack 1, the turnover frame 4 is of a frame structure, and the upper surface of the turnover frame 4 is provided with refraction glass 3. The structure provides an improved technical scheme based on unique and ingenious conception aiming at the defects in the prior art. The equipment comprises a machine frame, a turnover frame, a telescopic part, a turnover frame and the like. When the detection operation is carried out, the glass 17 to be detected is placed on the refraction glass (refraction detection glass) 3, and the lower part of the overturning frame 4 in the opposite gravity overturning direction is provided with a limit stop 6. The button switch on the control component is pressed to enable the turnover frame to be pushed by the telescopic component, so that the turnover frame is movably mounted in respective bearing seats through rotating shafts on two sides and moves circularly relative to the rack, the angle rotatable range of the turnover frame is 0-90 degrees, and the telescopic component can be controlled to start and stop in the detection process, so that the turnover frame rotates to the position where manual detection of required angles is convenient. If the lower part is met in the detection process, the turnover frame can be retracted under the control of the telescopic component by pressing a button switch of the control component, and then circularly moves in the other direction and stops to a proper position. In the structure, the power for turning the turning frame is provided by the telescopic component, and turning actions in different directions are realized on the turning frame under the assistance of the bearing seat and the rotating shaft by utilizing the telescopic motion of the telescopic component. The two ends of the telescopic part are respectively movably hinged, so that the included angle between the telescopic part and the ground is changed along with the overturning of the overturning frame, and the stress is more uniform. The telescopic part can be additionally provided with a speed reducer, so that the torque is increased, the use safety is ensured, and the service life is prolonged. The glass detection equipment for the electronic display device, disclosed by the utility model, has a simple structure, realizes the turnover of the glass to be detected according to the required angle, improves the turnover load capacity, is stable in turnover operation, low in noise and small in volume, is beneficial to reducing the energy consumption of operators in load bearing work, is more accurate and stable in turnover starting and stopping and positioning, effectively improves the glass detection efficiency and improves the yield of glass products.
The frame 1 of the electronic display device glass detection equipment comprises a left side frame 13 and a right side frame 14, wherein the upper part of one end of the left side frame 13 is connected with the upper part of one end of the right side frame 14 through a connecting beam 15, and a plurality of cushion pads 5 are arranged on the connecting beam 15 according to gaps. And a middle beam 16 is also arranged between the left side frame 13 and the right side frame 14, and a flexible buffer stop 9 is arranged on one side of the middle beam 16, which is close to the turnover frame 4. Above-mentioned structure sets up blotter 5 at the horizontal extreme position of upset frame, at the vertical extreme position of upset frame, sets up buffer stop 9, through the setting of two spacing parts, realizes spacingly at two extreme positions to blotter and buffer stop are flexible material supports such as rubber, compromise the cushioning effect, avoid upset frame rigidity contact frame.
The electronic display device glass detection equipment is characterized in that a telescopic part 7 of the electronic display device glass detection equipment is connected with a control part, and when the control part controls the telescopic part 7 to be telescopic, the telescopic part 7 is set to be of a structure capable of driving the turnover frame 4 to turn over relative to the rack 1. According to the structure, the telescopic component realizes turnover control and start-stop control through the button switch on the control component, and turnover in different directions is realized.
When the telescopic component 7 drives the turnover frame 4 to turn over at an angle relative to the frame 1, the turnover frame 4 is set to be a structure capable of abutting against the cushion pad 5. When the telescopic component 7 drives the turnover frame 4 to turn over to another angle relative to the frame 1, the turnover frame 4 is set to be a structure capable of abutting against the buffer stop block 9. The bottom of the frame 1 is provided with a plurality of casters 8.
The glass 17 to be detected is arranged into a structure which can be clamped between the limiting blocks 6 and attached to the surface position of the refraction glass 3 on the upper surface of the turnover frame 4. Above-mentioned structure, refraction glass are transparent structure, when waiting to detect glass 17 and place on refraction glass 3, are convenient for reliably accurately detect glass defect. Therefore, the glass detection efficiency is effectively improved, and the yield of glass products is improved.
The telescopic part 7 is an electric cylinder. The telescopic part is reliable to control and has long service life.
When the glass detection equipment for the electronic display device is used for detection operation, glass to be detected is placed on refraction glass (refraction detection glass), and a limit stop block is arranged at the lower part of the overturning frame in the direction opposite to the overturning direction of gravity. The button switch on the control part is pressed to enable the turnover frame to be pushed by the telescopic part, so that the turnover frame is movably mounted in respective bearing seats through rotating shafts on two sides and moves circularly relative to the rack, the angle of the turnover frame can be rotated within a range of 0-90 degrees, and the telescopic part can be controlled to start and stop in the detection process, so that the turnover frame can rotate to the position where the manual detection is convenient to detect the required angle and stop. If the lower part is met in the detection process, the turnover frame can be retracted under the control of the telescopic component by pressing the button switch of the control component, and then is stopped to a proper position along the circular motion in the other direction. In the structure, the power for turning the turning frame is provided by the telescopic component, and turning actions in different directions are realized on the turning frame under the assistance of the bearing seat and the rotating shaft by utilizing the telescopic motion of the telescopic component. The two ends of the telescopic part are respectively movably hinged, so that the included angle between the telescopic part and the ground is changed along with the overturning of the overturning frame, and the stress is more uniform. The telescopic part can be additionally provided with a speed reducer, so that the torque is increased, the use safety is ensured, and the service life is prolonged. The glass detection equipment for the electronic display device, disclosed by the utility model, has the advantages that the structure is simple, the glass to be detected can be turned according to a required angle, the turning load capacity is improved, the turning operation is stable, the noise is low, the size is small, the reduction of the load-bearing work energy consumption of operators is facilitated, the turning start and stop and the turning stop positioning are more accurate and stable, the glass detection efficiency is effectively improved, and the yield of glass products is improved.
The present invention has been described in connection with the accompanying drawings, and it is to be understood that the utility model is not limited to the specific embodiments disclosed, but is intended to cover various modifications, changes and equivalents of the embodiments of the utility model, and its application to other applications without departing from the spirit and scope of the utility model.
Claims (9)
1. The utility model provides an electronic display device glass check out test set which characterized in that: electronic display device glass check out test set include frame (1), frame (1) upper surface one side sets up bearing frame I (2), frame (1) upper surface opposite side sets up bearing frame II (10), upset frame (4) one side is through rotation axis I (11) and bearing frame I (2) swing joint, upset frame (4) opposite side passes through rotation axis II (12) and bearing frame II (10) swing joint, upset frame (4) upper surface downside and upper surface upside set up stopper (6) respectively, upset frame (4) lower surface and frame (1) lower surface between set up extensible part (7), upset frame (4) are frame construction, upset frame (4) upper surface sets up refraction glass (3).
2. The electronic display device glass inspection apparatus of claim 1, wherein: frame (1) of electronic display device glass check out test set include left side frame (13) and right side frame (14), left side frame (13) one end upper portion and right side frame (14) one end upper portion pass through tie-beam (15) and connect, set up a plurality of blotters (5) according to the clearance on tie-beam (15).
3. The electronic display device glass inspection apparatus of claim 1 or 2, wherein: the electronic display device glass detection equipment is characterized in that a telescopic part (7) of the electronic display device glass detection equipment is connected with a control part, and when the control part controls the telescopic part (7) to be telescopic, the telescopic part (7) is set to be of a structure capable of driving the turnover frame (4) to overturn relative to the rack (1).
4. The electronic display device glass inspection apparatus of claim 2, wherein: a middle beam (16) is further arranged between the left side frame (13) and the right side frame (14), and a flexible buffer stop block (9) is arranged on one side, close to the turnover frame (4), of the middle beam (16).
5. The electronic display device glass inspection apparatus of claim 3, wherein: when the telescopic component (7) drives the turnover frame (4) to turn over at an angle relative to the rack (1), the turnover frame (4) is set to be a structure capable of abutting against the cushion pad (5).
6. The electronic display device glass inspection apparatus of claim 3, wherein: when the telescopic component (7) drives the turnover frame (4) to turn over to another angle relative to the rack (1), the turnover frame (4) is set to be a structure capable of abutting against the buffer stop block (9).
7. The electronic display device glass inspection apparatus of claim 1 or 2, wherein: the bottom of the frame (1) is provided with a plurality of trundles (8).
8. The electronic display device glass inspection apparatus of claim 1 or 2, wherein: the glass (17) to be detected is arranged into a structure which can be clamped between the limiting blocks (6) and attached to the surface position of the refraction glass (3) on the upper surface of the turnover frame (4).
9. The electronic display device glass inspection apparatus of claim 1 or 2, wherein: the telescopic part (7) is an electric cylinder.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202123043244.2U CN216718175U (en) | 2021-12-06 | 2021-12-06 | Glass detection equipment for electronic display device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202123043244.2U CN216718175U (en) | 2021-12-06 | 2021-12-06 | Glass detection equipment for electronic display device |
Publications (1)
Publication Number | Publication Date |
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CN216718175U true CN216718175U (en) | 2022-06-10 |
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Application Number | Title | Priority Date | Filing Date |
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CN202123043244.2U Active CN216718175U (en) | 2021-12-06 | 2021-12-06 | Glass detection equipment for electronic display device |
Country Status (1)
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CN (1) | CN216718175U (en) |
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2021
- 2021-12-06 CN CN202123043244.2U patent/CN216718175U/en active Active
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