CN217497907U - Glass loading platform walking original sheet frame control structure - Google Patents

Abstract

The utility model belongs to the technical field of glass production facility the former sheet rack control structure of sheet platform walking on glass. Glass upper plate platform body (1) one side of former wafer rack control structure of glass upper plate platform walking set up support (3), guide arm (4) of movable mounting on support (3) are close to former wafer rack (2) one side installation of walking and hit piece (5), support (1) with hit and install elastic element (6) on guide arm (4) between piece (5), guide arm (4) opposite side proximity switch subassembly I (7), be close to proximity switch subassembly I (7) position and set up proximity switch subassembly II (8). Former sheet frame control structure of glass upper plate platform walking, can realize the former sheet frame of walking and remove the accurate control that targets in place for glass is better when target in place mechanical stress intensity, need not use atmospheric pressure, not only improves the control reliability in the glass production process, can also reduce glass damaged.

Description

Glass loading platform walking original sheet frame control structure

Technical Field

The utility model belongs to the technical field of glass production facility, more specifically say, relate to an original film holder control structure of glass upper segment platform walking.

Background

In the prior art, the glass loading platform detects the in-place situation of the walking original rack, and the air cylinder and the magnetic switch are used as a glass in-place detection switch, so that the air cylinder is easily mechanically damaged due to the large impact force generated when the walking original rack walks, the air cylinder is limited to the field air pressure, the requirement on the air pressure is high, the phenomenon that the air cylinder cannot be ejected out or cannot be ejected back can often occur, the walking original rack cannot be accurately stopped after being in place, and the phenomenon that the glass is burst is caused.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a simple structure, the dependable performance can realize the former sheet frame of walking and remove the accurate control that targets in place for glass is better when target in place mechanical stress intensity, need not use atmospheric pressure, not only can improve the control reliability in the glass production process, can also reduce the former sheet frame control structure of glass upper table walking of glass damage.

To solve the technical problem, the utility model discloses the technical scheme who takes does:

the utility model relates to an original sheet rack control structure of glass loading platform walking places the original sheet rack of walking on the glass loading platform body, and glass loading platform body one side sets up the support, the support on movable mounting guide arm, the guide arm is close to the original sheet rack side-mounting of walking and hits the piece, the support with hit and install elastic element on the guide arm between the piece, guide arm opposite side proximity switch subassembly I, be close to I position of proximity switch subassembly and set up proximity switch subassembly II.

The collision block is of a structure made of nylon materials.

The guide rod is arranged in parallel with the upper surface of the glass loading platform body.

The elastic element is a spring.

The support is provided with a buffer sliding sleeve, and the guide rod is movably arranged in the buffer sliding sleeve.

The glass loading platform walking original slice frame control structure further comprises a photoelectric support, the photoelectric support is installed on the buffer sliding sleeve, and a proximity switch assembly II is installed on the photoelectric support.

When the glass on the walking original wafer rack does not apply force on the collision block, the elastic element is set to be in an extension state, and the proximity switch assembly I and the proximity switch assembly II are set to be in a contact state or a structure in an induction range.

When the glass on the walking original wafer rack applies force on the collision block, the elastic element is set to be in a compression state, and the proximity switch assembly I and the proximity switch assembly II are set to be in a separation state or in a structure beyond an induction range.

The buffering sliding sleeve is screwed in a threaded hole formed in the support through a threaded part of the outer ring.

The collision block is of a cylindrical or square structure, and the surface of one side of the collision block, which is close to the original walking sheet frame, is of a plane structure.

Adopt the technical scheme of the utility model, theory of operation and beneficial effect are as follows:

former sheet rack control structure of glass upper slide platform walking, place the former sheet rack of walking on the glass upper slide platform body, the former sheet rack of walking can remove along the former sheet rack body upper surface of glass upper slide platform, place the glass of laminating and the former sheet rack of perpendicular to walking each other on the former sheet rack of walking, the former sheet rack of walking realizes glass's transport. And one side of the upper surface of the glass loading platform body is provided with a bracket, a guide rod is movably arranged on the bracket, and one side of the guide rod, which is close to the original walking rack, is provided with a collision block. When glass is not conveyed, under the extension action of the elastic element, the elastic element applies force towards the direction of the original walking sheet frame, so that the collision block extends outwards, at the moment, the proximity switch assembly I and the proximity switch assembly II are in a contact state or in an induction range, and at the moment, the proximity switch feeds back a signal that the proximity switch is in a communication state to the control part. When the original walking rack is used for conveying glass, the original walking rack moves to one side close to the support, until the glass placed on the original walking rack exerts force on the collision block, the original walking rack continuously moves to drive the glass to push the collision block to move horizontally, meanwhile, the elastic element starts to enter a compression state, the proximity switch assembly I moves in position relative to the proximity switch assembly II, the proximity switch assembly I and the proximity switch assembly II are in a separation state or exceed an induction range at the moment, the proximity switch feeds back a signal that the proximity switch is in a disconnection state to the control part, the control part controls the original walking rack to stop moving, the original walking rack cannot continue to move forwards along the glass loading platform body, the accurate control of the original walking rack is realized, and the situation that the glass on the original walking rack is collided is avoided. After the walking original piece frame stops, the glass vertically placed on the walking original piece frame can be taken away in sequence. After the glass is taken away, the walking original sheet frame is moved away, the external force applied to the collision block by the walking original sheet frame disappears, and under the action of the elastic element, the elastic element pushes the collision block to move reversely to reset to the initial state, so that the next batch of glass conveying can be carried out. Former sheet frame control structure of glass upper slide platform walking, can realize the former sheet frame of walking and remove the accurate control that targets in place for glass mechanical stress intensity is better when targetting in place, need not use atmospheric pressure, not only can improve the control reliability in the glass production process, can also reduce glass damage.

Drawings

The contents of the description and the references in the drawings are briefly described as follows:

fig. 1 is a schematic structural view of the elastic element of the glass loading platform walking original film frame control structure of the present invention in an extended state;

fig. 2 is a schematic structural view of the elastic element of the glass loading platform walking original film frame control structure of the present invention in a contracted state;

in the drawings, the reference numbers are respectively: 1. a glass loading table body; 2. walking the original film frame; 3. a support; 4. a guide bar; 5. bumping the block; 6. an elastic element; 7. a proximity switch component I; 8. a proximity switch component II; 9. a buffer sliding sleeve; 10. a photoelectric support; 11. a threaded hole; 12. and (3) glass.

Detailed Description

The following description of the embodiments of the present invention will be made in detail with reference to the accompanying drawings, wherein the embodiments of the present invention are described in detail with reference to the accompanying drawings, for example, the shapes, structures, mutual positions and connection relations of the components, the functions and operation principles of the components, and the like:

as shown in the accompanying drawings 1 and 2, the utility model relates to an original slide rack control structure of slide rack walking on glass places former slide rack 2 of walking on the slide rack body 1 on the glass, and slide rack body 1 one side sets up support 3 on the glass, support 3 on movable mounting guide arm 4, guide arm 4 is close to former slide rack 2 side-mounting of walking and hits piece 5, support 3 with hit and install elastic element 6 on the guide arm 4 between the piece 5, 4 opposite side proximity switch subassemblies I7 of guide arm, be close to proximity switch subassembly I7 positions and set up proximity switch subassembly II 8. The structure provides an improved technical scheme aiming at the defects in the prior art. The original walking sheet frame 2 is placed on the glass feeding table body 1, the original walking sheet frame 2 can move along the upper surface of the glass feeding table body 1, glass which is attached to the original walking sheet frame 2 mutually and perpendicular to the original walking sheet frame 2 is placed on the original walking sheet frame 2, and the original walking sheet frame 2 is used for conveying the glass. And one side of the upper surface of the glass loading platform body 1 is provided with a bracket, a guide rod 4 is movably arranged on the bracket 3, and one side of the guide rod 4 close to the walking original rack 2 is provided with a collision block 5. When glass is not conveyed, under the extension action of the elastic element, the elastic element applies force towards the direction of the walking original piece frame 2, so that the collision block extends outwards, at the moment, the proximity switch assembly I7 and the proximity switch assembly II 8 are in a contact state or in an induction range, and at the moment, the proximity switch feeds back a signal that the proximity switch is in a communication state to the control part. When the original walking sheet frame 2 conveys glass, the original walking sheet frame 2 moves to one side close to the support, until the glass force placed on the original walking sheet frame 2 is applied to the collision block 5, the original walking sheet frame 2 continuously moves to drive the glass to push the collision block to horizontally move, meanwhile, the elastic element 6 starts to enter a compression state, the proximity switch assembly I7 moves relative to the proximity switch assembly II 8, at the moment, the proximity switch assembly I7 and the proximity switch assembly II 8 are in a separation state or beyond an induction range, at the moment, the proximity switch feeds back a signal that the proximity switch is in a disconnection state to the control part, the control part controls the original walking sheet frame 2 to stop moving, the original walking sheet frame 2 cannot continue to move forwards along the glass upper sheet table body 1, the accurate control of the original walking sheet frame 2 is realized, and the situation that the glass on the original walking sheet frame 2 is collided does not exist. After the walking original rack 2 stops, the glass vertically placed on the walking original rack 2 can be taken away in sequence. After the glass is taken away, the walking original sheet frame 2 is removed, the external force applied to the collision block by the walking original sheet frame 2 disappears, and under the action of the elastic element, the elastic element pushes the collision block to move reversely to reset to the initial state, so that the next batch of glass conveying can be carried out. Former sheet frame control structure of glass upper slide platform walking, simple structure, the dependable performance can realize the former sheet frame of walking and remove the accurate control that targets in place for glass mechanical stress intensity is better when targetting in place, need not use atmospheric pressure, not only can improve the control reliability in the glass production process, can also reduce glass damaged.

The collision block 5 is made of nylon material. Above-mentioned structure, the structure that hits piece 5 and make for the nylon materials, bulk strength is good, and contact glass effectively avoids fish tail glass simultaneously.

The guide rod 4 is arranged in parallel with the upper surface of the glass loading platform body 1. According to the structure, the upper surface of the guide rod glass loading platform body 1 is arranged in parallel, and the device is reliably attached when the glass on the walking original rack 2 contacts the collision block after moving, so that force is applied under the condition, and stop control is realized.

The elastic element 6 is a spring. The support 3 is provided with a buffer sliding sleeve 9, and the guide rod 4 is movably arranged in the buffer sliding sleeve 9. According to the structure, the spring is sleeved on the guide rod, one end of the spring is abutted against the collision block, and the other end of the spring is abutted against the buffer sliding sleeve 9 and is reliably telescopic.

The glass loading platform walking original sheet frame control structure further comprises a photoelectric support 10, the photoelectric support 10 is installed on the buffering sliding sleeve 9, and the proximity switch assembly II 8 is installed on the photoelectric support 10. Above-mentioned structure, proximity switch subassembly II 8 is reliably connected to the photoelectricity support, removes the in-process at the guide arm, reliably realizes the intercommunication and the disconnection of proximity switch subassembly II 8 and proximity switch subassembly I7.

When the glass on the walking original wafer frame 2 does not apply force on the collision block 5, the elastic element 6 is set to be in an extension state, and the proximity switch component I7 and the proximity switch component II 8 are set to be in a contact state or a structure in a sensing range. When the glass on the walking original wafer frame 2 applies force on the collision block 5, the elastic element 6 is set to be in a compression state, and the proximity switch component I7 and the proximity switch component II 8 are set to be in a separation state or in a structure beyond a sensing range. Above-mentioned structure removes the in-process at the guide arm, and proximity switch subassembly I7 and proximity switch subassembly II 8 can switch between two kinds of states, realize accurate control to the stopping of former sheet rack 2 of walking to avoid former sheet rack 2 of walking to continue the walking and lead to glass to damage, improve equipment performance.

The buffering sliding sleeve 9 is screwed in a threaded hole 11 formed in the support 3 through a threaded part of the outer ring. Above-mentioned structure, the reliable connection and the dismantlement of realizing of buffering sliding sleeve. The collision block 5 is in a cylindrical or square structure, and the surface of one side of the collision block 5 close to the walking original slice rack 2 is in a plane structure.

Former sheet rack control structure of glass upper slide platform walking, place the former sheet rack of walking on the glass upper slide platform body, the former sheet rack of walking can remove along the former sheet rack body upper surface of glass upper slide platform, place the glass of laminating and the former sheet rack of perpendicular to walking each other on the former sheet rack of walking, the former sheet rack of walking realizes glass's transport. And one side of the upper surface of the glass loading platform body is provided with a bracket, a guide rod is movably arranged on the bracket, and one side of the guide rod, which is close to the original walking rack, is provided with a collision block. When glass is not conveyed, under the extension action of the elastic element, the elastic element applies force to the original travelling rack direction, so that the collision block extends outwards, at the moment, the proximity switch assembly I and the proximity switch assembly II are in a contact state or in an induction range, and at the moment, the proximity switch feeds back a signal that the proximity switch is in a communication state to the control part. When the original walking rack is used for conveying glass, the original walking rack moves to one side close to the support, until the glass placed on the original walking rack exerts force on the collision block, the original walking rack continuously moves to drive the glass to push the collision block to move horizontally, meanwhile, the elastic element starts to enter a compression state, the proximity switch assembly I moves in position relative to the proximity switch assembly II, the proximity switch assembly I and the proximity switch assembly II are in a separation state or exceed an induction range at the moment, the proximity switch feeds back a signal that the proximity switch is in a disconnection state to the control part, the control part controls the original walking rack to stop moving, the original walking rack cannot continue to move forwards along the glass loading platform body, the accurate control of the original walking rack is realized, and the situation that the glass on the original walking rack is collided is avoided. After the walking original rack stops, the glass vertically placed on the walking original rack can be taken away in sequence. After the glass is taken away, the walking original sheet frame is moved away, the external force applied to the collision block by the walking original sheet frame disappears, and under the action of the elastic element, the elastic element pushes the collision block to move reversely to reset to the initial state, so that the next batch of glass conveying can be carried out. Former sheet frame control structure of glass upper slide platform walking, can realize the former sheet frame of walking and remove the accurate control that targets in place for glass mechanical stress intensity is better when targetting in place, need not use atmospheric pressure, not only can improve the control reliability in the glass production process, can also reduce glass damage.

The present invention has been described in detail with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and the present invention can be implemented in various ways without modification, and the present invention is not limited by the above embodiments.

Claims (10)

1. The utility model provides a former sheet holder control structure of glass upper table walking which characterized in that: place former wafer frame of walking (2) on glass slide mount body (1), glass slide mount body (1) one side sets up support (3), support (3) go up movable mounting guide arm (4), guide arm (4) are close to former wafer frame of walking (2) one side installation and hit piece (5), support (3) with hit and install elastic element (6) on guide arm (4) between piece (5), guide arm (4) opposite side proximity switch subassembly I (7), be close to proximity switch subassembly I (7) position and set up proximity switch subassembly II (8).

2. The glass loading table walking original rack control structure of claim 1, wherein: the collision block (5) is of a structure made of nylon materials.

3. The glass loading table walking original rack control structure according to claim 1 or 2, characterized in that: the guide rod (4) is arranged in parallel with the upper surface of the glass loading platform body (1).

4. The glass loading table walking original rack control structure according to claim 1 or 2, characterized in that: the elastic element (6) is a spring.

5. The glass loading table walking original rack control structure according to claim 1 or 2, characterized in that: the support (3) on install buffering sliding sleeve (9), guide arm (4) movable mounting is in buffering sliding sleeve (9).

6. The glass loading table walking original slice rack control structure of claim 5, wherein: the glass loading platform walking original slice frame control structure further comprises a photoelectric support (10), the photoelectric support (10) is installed on the buffering sliding sleeve (9), and a proximity switch assembly II (8) is installed on the photoelectric support (10).

7. The glass loading table walking original rack control structure according to claim 1 or 2, characterized in that: when the glass on the walking original wafer rack (2) does not apply force on the collision block (5), the elastic element (6) is set to be in an extension state, and the proximity switch component I (7) and the proximity switch component II (8) are set to be in a contact state or a structure in a sensing range.

8. The glass loading table walking original rack control structure of claim 7, wherein: when the glass on the walking original wafer frame (2) applies force on the collision block (5), the elastic element (6) is set to be in a compression state, and the proximity switch component I (7) and the proximity switch component II (8) are set to be in a separation state or in a structure beyond a sensing range.

9. The glass loading table walking original rack control structure of claim 5, wherein: the buffer sliding sleeve (9) is screwed in a threaded hole (11) formed in the support (3) through a threaded part of the outer ring.

10. The glass loading table walking original rack control structure according to claim 1 or 2, characterized in that: the collision block (5) is of a cylindrical or square structure, and the surface of one side, close to the walking original wafer rack (2), of the collision block (5) is of a plane structure.

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