CN113543498A - Electronic equipment production mechanism based on thing networking - Google Patents

Abstract

The invention belongs to the technical field of electronic equipment, and particularly relates to an electronic equipment production mechanism and a production method based on the Internet of things, wherein the electronic equipment production mechanism based on the Internet of things comprises: a transport device adapted to transport the sheet material; the banding device, the banding device sets up the conveyer transports the tail end of panel direction, the conveyer is suitable for pressing the banding device at the in-process of transporting panel, makes the glue coating in the banding device on panel to it is fixed with the side of panel to make the banding material in the banding device pass through glue, accomplishes the banding of panel, and the banding device is suitable for detecting the banding condition of panel, has realized carrying out the banding to the side of panel at the in-process of panel transportation, has improved the banding efficiency of panel, and detects the banding condition, has improved the banding quality of panel, thereby has improved the quality of panel.

Description

Electronic equipment production mechanism based on thing networking

Technical Field

The invention belongs to the technical field of electronic equipment, and particularly relates to an electronic equipment production mechanism and a production method based on the Internet of things.

Background

The side edge of the board of the circuit board needs to be sealed in the production process, so that the side edge of the board becomes smooth and insulating, the quality of the circuit board can be influenced by the sealing edge condition of the board, the sealing edge condition of the board needs to be detected in the process of sealing the edge of the board, and the tail end of the side edge of the board is prevented from being wrapped by the sealing edge material.

Therefore, a new electronic device production mechanism and a new electronic device production method based on the internet of things need to be designed based on the technical problems.

Disclosure of Invention

The invention aims to provide an electronic equipment production mechanism and a production method based on the Internet of things.

In order to solve the technical problem, the invention provides an electronic equipment production mechanism based on the internet of things, which comprises:

a transport device adapted to transport the sheet material;

the banding device, the banding device sets up the conveyer transports the tail end of panel direction, the conveyer is suitable for pressing the banding device at the in-process of transporting panel, makes the glue coating in the banding device on panel to it is fixed with the side of panel to make the banding material in the banding device pass through glue, accomplishes the banding of panel, and the banding device is suitable for detecting the banding condition of panel.

Further, the edge sealing device includes: the device comprises a platform, a feeding mechanism and a coating mechanism;

the feeding mechanism is arranged on the platform;

the coating mechanism is arranged on the platform in a penetrating manner;

the feeding mechanism is connected with the coating mechanism;

the feeding mechanism is suitable for conveying the edge sealing material in the feeding mechanism into the coating mechanism;

when conveyer transported panel, coating mechanism was pressed to panel, made the glue coating in the coating mechanism on panel to will transport the banding material extrusion coating mechanism in the coating mechanism attached on the side of panel when pressing panel, it is fixed with the side of panel to make the banding material through glue.

Further, the feeding mechanism includes: the box body and the pushing assembly;

the box body is arranged on the platform;

the pushing assembly is arranged in the box body;

a first discharge hole is formed in the side wall of the box body, and the shape of the first discharge hole is matched with that of the edge sealing material;

the pushing assembly is suitable for pushing the edge sealing material in the box body out of the first discharging hole;

the coating mechanism is arranged in the pushing direction of the edge sealing materials, so that the edge sealing materials pushed out of the first discharge hole enter the coating mechanism.

Further, the push assembly comprises: the push plate, the connecting column and the first spring;

the push plate is arranged in the box body and is in contact with the inner wall of the box body;

the connecting column is connected with the push plate and penetrates out of the box body;

the first spring is sleeved on the connecting column;

one end of the first spring is connected with the push plate, and the other end of the first spring is connected with the inner wall of the box body;

when the edge sealing material is filled in the inner wall of the box body, the edge sealing material extrudes the push rod to enable the first spring to contract;

when the first spring restores to deform, the push plate is driven to push the edge sealing material out of the first discharge hole.

Further, the coating mechanism includes: the spring air bag is arranged on the top plate;

the column longitudinally penetrates through the through hole of the platform and extends into the platform, and the column is arranged on one side of the box body along the pushing direction of the edge sealing material and is in close contact with the box body;

the bottom opening of the column body is arranged, and the second spring is connected with the edge of the bottom opening of the column body and connected with the inner bottom surface of the platform;

the top plate is arranged on the inner bottom surface of the platform and extends into the column body through the opening of the column body;

the edge of the top plate is contacted with the inner wall of the column body;

a plurality of first glue outlet holes are formed in the top surface of the column body;

one end of the spring air bag is arranged on the top plate, the other end of the spring air bag is arranged on the inner top surface of the column body, and the spring air bag is communicated with the first glue outlet hole;

a feed inlet is formed in the side wall of the cylinder body, and the feed inlet is matched with the first discharge outlet;

a second discharge hole is formed in the side wall of the column body, is arranged above the feed hole and is close to the top surface of the column body;

the top surface of the column body is suitable for bearing the plates transported by the transportation device;

when the plate is conveyed to the top surface of the cylinder by the conveying device, the plate is pressed, meanwhile, the plate is conveyed continuously, the cylinder moves towards the inside of the platform to compress the second spring, the spring air bag is pressed by the top surface of the cylinder, and glue in the air bag is sprayed out from the first glue outlet hole and coated on the side edge of the plate;

when the column body moves towards the inside of the platform, the feed port which is staggered with the first discharge port is gradually aligned with the first discharge port, and at the moment, the first spring restores to deform to drive the push plate to push the edge sealing material into the column body from the first discharge port through the feed port;

after the edge sealing material enters the cylinder, the cylinder continues to move towards the inside of the platform, the edge sealing material is extruded out of the cylinder from the second discharge hole, the head end of the plate exposes out of the cylinder through the top surface of the cylinder at the moment, the head end of the extruded edge sealing material is fixed with the side edge of the plate through glue, and when the tail end of the plate exposes out of the cylinder through the top surface of the cylinder, the tail end of the edge sealing material is fixed with the side edge of the plate through glue, and edge sealing is completed.

Further, the coating mechanism further comprises: a limiting plate;

the limiting plate is oppositely arranged on the top surface of the column body;

the plates transported by the transporting device pass through the top surface of the column body from between the two limiting plates.

Further, the coating mechanism further comprises: a first guide block and a second guide block;

the first guide block is arranged on the inner top wall of the column body;

the first guide block is arc-shaped and is in contact with the spring air bag;

the second guide block is arranged on the outer wall of the column body and is positioned below the second discharge hole;

the second guide block extends to a direction far away from the column body to the same horizontal plane with the top surface of the column body;

after the edge sealing material enters the cylinder, the cylinder continues to move towards the inside of the platform, and the edge sealing material is extruded to extend out of the second discharge hole along the first guide block and extend out of the same horizontal plane of the top surface of the cylinder along the second guide block and fixed with the side edge of the plate through glue.

Further, the banding device still includes: a detection mechanism;

the detection mechanism is arranged on the top plate;

after the edge sealing is finished, the compressed second spring restores to deform to drive the cylinder to extend out of the platform until the second spring completely restores to deform, at the moment, the conveying device drives the plate to be reversely conveyed, and edge sealing materials which are not fixed on the plate enter the cylinder from the second discharge hole to change the air pressure in the cylinder;

when the air pressure in the cylinder changes, the conveying device presses the plate to enable the glue to be coated on the plate, and the plate is conveyed forward again after the plate is conveyed reversely, so that the edge sealing material is completely fixed on the plate.

Further, the transportation device includes: a first cylinder and a second cylinder;

the first air cylinder is suitable for pushing the plate to move;

the second cylinder is suitable for pushing the first cylinder and drives the plate to press the cylinder.

The invention has the beneficial effects that the conveying device is suitable for conveying the plates; the banding device, the banding device sets up the conveyer transports the tail end of panel direction, the conveyer is suitable for pressing the banding device at the in-process of transporting panel, makes the glue coating in the banding device on panel to it is fixed with the side of panel to make the banding material in the banding device pass through glue, accomplishes the banding of panel, and the banding device is suitable for detecting the banding condition of panel, has realized carrying out the banding to the side of panel at the in-process of panel transportation, has improved the banding efficiency of panel, and detects the banding condition, has improved the banding quality of panel, thereby has improved the quality of panel.

Additional features and advantages of the invention 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 invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural diagram of an electronic device production mechanism based on the internet of things according to the present invention;

FIG. 2 is a schematic view of the edge banding apparatus according to the present invention;

FIG. 3 is a schematic view of the internal structure of the edge banding apparatus according to the present invention;

FIG. 4 is a schematic view of an initial state of the edge banding apparatus in accordance with the present invention;

FIG. 5 is a schematic view of a second state of the edge banding apparatus in accordance with the present invention;

fig. 6 is a schematic view of a third state of the edge banding device according to the present invention.

In the figure:

1, a sealing device, 11, 12, a feeding mechanism, 121, a box body, 1211, a first discharge hole, 122, a pushing assembly, 1221, 1222, a connecting column, 1223, a first spring, 13, a coating mechanism, 131, 1311, a first glue outlet hole, 1312, a feed inlet, 1313, a second discharge hole, 132, a top plate, 133, a spring airbag, 134, a second spring, 14, a limiting plate, 15, a first guide block, 16, a second guide block and 17, wherein the platform is used as the platform, the feeding mechanism is used as the feeding mechanism, the box body is used as the box body, the box body is used as the first discharge hole, the pushing assembly is used as the pushing assembly, the connecting column, the first spring, the coating mechanism is used as the connecting column, 1223, the coating mechanism, the column body is used as the coating mechanism, the column body 131, the first glue outlet hole is used as the first glue outlet hole, the feed inlet hole is used as the feed inlet, the second discharge hole is used as the second discharge hole, the top plate, the spring airbag is used as the top plate, the spring airbag 133, the second spring airbag is used as the limiting plate, the first guide block is used as the first guide block, the second guide block is used as the second guide block, and the second guide block is used as the detection mechanism, and the detection mechanism is used as the detection mechanism, and is used as the detection mechanism;

2, a conveying device, 21, 22, 23, 24, 25 and 26 are respectively a first air cylinder, a second air cylinder, a first supporting plate, a first sliding rail, a first sliding block and a first clamping air cylinder;

and 3, a plate.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1 to 6, this embodiment 1 provides an electronic device production mechanism based on the internet of things, including: a transport device 2, said transport device 2 being adapted to transport a sheet 3; banding device 1, banding device 1 sets up conveyer 2 transports the tail end of panel 3 (circuit board) direction, conveyer 2 is suitable for and presses banding device 1 at the in-process of transporting panel 3, makes the glue coating in the banding device 1 on panel 3 to it is fixed with the side of panel 3 that glue is passed through to make the banding material in the banding device 1, accomplishes the banding of panel 3, and banding device 1 is suitable for and detects the banding condition of panel 3, has realized carrying out the banding to the side of panel 3 at the in-process of panel 3 transportation, has improved the banding efficiency of panel 3, and detects the banding condition, has improved the banding quality of panel 3, thereby has improved the quality of panel 3.

Edge sealing device 1

In this embodiment, the edge banding device 1 includes: a platform 11, a feeding mechanism 12 and a coating mechanism 13; the feeding mechanism 12 is arranged on the platform 11; the coating mechanism 13 is arranged on the platform 11 in a penetrating way; the feeding mechanism 12 is connected with the coating mechanism 13; the feeding mechanism 12 is adapted to convey the edge sealing material (which may be a seal adapted to the length of the plate 3) in the feeding mechanism 12 to the coating mechanism 13; when the conveying device 2 conveys the plate 3, the plate 3 presses the coating mechanism 13 to coat glue in the coating mechanism 13 on the plate 3, and when the plate 3 is pressed, the edge sealing material conveyed into the coating mechanism 13 is extruded out of the coating mechanism 13 and attached to the side edge of the plate 3, and the edge sealing material is fixed with the side edge of the plate 3 through the glue; the side edges of the plates 3 are sealed while the plates 3 are transported, so that the sealing efficiency of the plates 3 is improved; the edge sealing material can be firmly fixed on the side edge of the plate 3 through glue, so that the edge sealing effect and quality are improved.

In this embodiment, the feeding mechanism 12 includes: a box 121 and a pushing assembly 122; the box 121 is arranged on the platform 11; the pushing assembly 122 is arranged in the box body 121; a first discharge hole 1211 is formed in the side wall of the box body 121, and the shape of the first discharge hole 1211 is matched with the shape of the edge sealing material; the pushing assembly 122 is adapted to push the sealing edge material inside the box body 121 out of the first discharge opening 1211; the coating mechanism 13 is arranged in the pushing direction of the edge sealing material, so that the edge sealing material pushed out of the first discharge port 1211 enters the coating mechanism 13; the edge banding material can be automatically pushed out of the first discharge opening 1211 by the pushing assembly 122.

In this embodiment, the pushing component 122 includes: a push plate 1221, a connecting post 1222, and a first spring 1223; the push plate 1221 is arranged inside the box body 121, and the push plate 1221 is in contact with the inner wall of the box body 121; the connecting column 1222 is connected with the push plate 1221, and the connecting column 1222 penetrates out of the box body 121; the first spring 1223 is sleeved on the connecting column 1222; one end of the first spring 1223 is connected with the push plate 1221, and the other end is connected with the inner wall of the box body 121; the shape of the push plate 1221 is the same as the shape of the cross section of the case 121, and all the side walls of the push plate 1221 are in contact with the inner wall of the case 121; when the edge sealing material is filled in the inner wall of the box body 121, the edge sealing material presses the push rod to enable the first spring 1223 to contract; when the first spring 1223 returns to be deformed, the push plate 1221 is driven to push the edge sealing material out of the first discharge hole 1211; when the edge sealing material is stored in the box body 121, the first spring 1223 is in a compressed state, and when the first spring 1223 recovers to deform, the push plate 1221 is driven to push the edge sealing material, so that the edge sealing material is pushed out from the first discharge hole 1211; when the edge sealing material needs to be supplemented, the edge sealing material can be supplemented into the box body 121 from the first discharge port 1211, and at the moment, the connecting column 1222 can be pulled from the outside of the box body 121 to assist the first spring 1223 to contract, so that the supplementing is more convenient.

In the present embodiment, the coating mechanism 13 includes: a cylinder 131, a top plate 132, a spring bladder 133, and a second spring 134; the interior of the platform 11 is of a hollow structure; the column 131 longitudinally penetrates through a through hole of the platform 11 (the moving direction and range of the column 131 can be limited through the through hole, and the column 131 is prevented from shaking during moving) and extends into the platform 11, and the column 131 is arranged on one side of the box body 121 along the pushing direction of the edge sealing material and is in close contact with the box body 121; the bottom surface of the column 131 is open, and the second spring 134 is connected with the edge of the bottom surface opening of the column 131 and the inner bottom surface of the platform 11; the top plate 132 is disposed on the inner bottom surface of the platform 11 and extends into the column 131 through the opening of the column 131; the edge of the top plate 132 contacts the inner wall of the column 131 (the shape of the top plate 132 is the same as the size of the cross-sectional shape of the column 131, so that the air pressure inside the column 131 can be changed when the column 131 moves); a plurality of first glue outlet holes 1311 are formed in the top surface of the column body 131; one end of the spring air bag 133 is arranged on the top plate 132, the other end of the spring air bag 133 is arranged on the inner top surface of the column 131, and the spring air bag 133 is communicated with the first glue outlet 1311; a feed inlet 1312 is formed in the side wall of the cylinder 131, and the feed inlet 1312 is matched with the first discharge port 1211; a second discharge hole 1313 is formed in the side wall of the column 131, and the second discharge hole 1313 is arranged above the feed hole 1312 and close to the top surface of the column 131; the top surface of the column 131 is suitable for bearing the plate 3 transported by the transportation device 2; when the transporting device 2 transports the plate 3 to the top surface of the cylinder 131, the plate 3 is pressed, and meanwhile, the plate 3 is transported continuously, so that the cylinder 131 moves towards the inside of the platform 11 to compress the second spring 134, and the top surface of the cylinder 131 presses the spring air bag 133, so that the glue in the air bag is sprayed out from the first glue outlet 1311 and coated on the side edge of the plate 3; when the cylinder 131 moves towards the inside of the platform 11, in an initial state (the initial state is that there is no plate 3 on the cylinder 131, at this time, the spring air bag 133 is not extruded, and the internal glue does not flow out of the first glue outlet 1311), the feed inlet 1312 staggered with the first discharge port 1211 is gradually aligned with the first discharge port 1211, and at this time, the first spring 1223 recovers to deform to drive the push plate 1221 to push the edge sealing material into the cylinder 131 from the first discharge port 1211 through the feed inlet 1312 (the edge sealing material entering the cylinder 131 sticks to the spring air bag 133 and stands on the top plate 132, and the space between the spring air bag 133 and the feed inlet 1312 can only enter one edge sealing material at the same time); after the edge sealing material enters the cylinder 131, the cylinder 131 continuously moves towards the inside of the platform 11, the inner top surface of the cylinder 131 gradually approaches the edge sealing material in the cylinder 131, the edge sealing material is gradually extruded to extrude the cylinder 131 from the second discharge hole 1313, when the edge sealing material is just exposed from the second discharge hole 1313, the head end of the plate 3 is exposed out of the cylinder 131 through the top surface of the cylinder 131, the head end of the extruded edge sealing material is fixed with the head end of the side edge of the plate 3 through glue, and the tail end of the edge sealing material is fixed with the side edge of the plate 3 through glue when the tail end of the plate 3 is exposed out of the cylinder 131 through the top surface of the cylinder 131, so that edge sealing is completed; after the banding is accomplished, panel 3 leaves the top surface of cylinder 131 completely, and conveyer 2 is not pressing cylinder 131 this moment, resumes deformation through second spring 134 and spring gasbag 133, drives cylinder 131 and stretches out platform 11 and get back to initial position, resumes the in-process of deformation at spring gasbag 133, can inhale again in the spring gasbag 133 with the unnecessary glue of delivery port department to also can resume from delivery port department when spring gasbag 133 resumes deformation and mend the glue.

In this embodiment, the coating mechanism 13 further includes: a limit plate 14; the limiting plate 14 is oppositely arranged on the top surface of the column 131; the plate 3 conveyed by the conveying device 2 passes through the top surface of the column 131 from between the two limiting plates 14; to ensure that sheet 3 is exposed above second discharge gate 1313 to the top surface of column 131.

In this embodiment, the coating mechanism 13 further includes: a first guide block 15 and a second guide block 16; the first guide block 15 is disposed on an inner top wall of the cylinder 131; the first guide block 15 is arc-shaped and contacts the spring air bag 133; the second guide block 16 is arranged on the outer wall of the cylinder 131 and below the second discharge hole 1313; the second guide block 16 extends to a direction away from the column 131 to a level with the top surface of the column 131; after the edge sealing material enters the cylinder 131, the cylinder 131 moves continuously towards the inside of the platform 11, and the edge sealing material is extruded, so that the edge sealing material extends out of the second discharge hole 1313 along the first guide block 15, extends out to the same horizontal plane of the top surface of the cylinder 131 along the second guide block 16, and is fixed with the side edge of the plate 3 through glue.

In this embodiment, the edge sealing device 1 further includes: a detection mechanism 17; the detection mechanism 17 is provided on the top plate 132; said detection means 17 are adapted to detect a change in air pressure; after the edge sealing is finished, the compressed second spring 134 restores to deform to drive the cylinder 131 to extend out of the platform 11 until the second spring 134 completely restores to deform, at the moment, the conveying device 2 drives the plate 3 to reversely convey, and edge sealing materials which are not fixed on the plate 3 enter the cylinder 131 from the second discharge hole 1313 to change the air pressure in the cylinder 131; when the air pressure in the cylinder 131 changes, the conveying device 2 presses the plate 3 to enable the glue to be coated on the plate 3, and the plate 3 is conveyed forward again after the plate 3 is conveyed reversely, so that the edge sealing material is completely fixed on the plate 3; when the edge sealing material is not completely fixed on the plate 3, the tail end of the edge sealing material will swing, when the cylinder 131 returns to the initial position, the transportation device 2 transports the plate 3 to move in the opposite direction to the transportation direction during edge sealing, so that the plate 3 is transported to the top surface of the cylinder 131 again, at this time, the swinging edge sealing material will re-enter the cylinder 131 from the second discharge hole 1313, at this time, the cylinder 131 is slightly moved towards the inside of the platform 11 due to the weight of the plate 3, the space between the inside of the cylinder 131 and the top plate 132 becomes smaller, because the second discharge hole 1313 is blocked by the swinging edge sealing material, at this time, the detection mechanism 17 detects that the air pressure inside the cylinder 131 increases, and determines that the edge sealing material is not completely fixed on the plate 3, at this time, the transportation device 2 presses the plate 3, so that the spring air bag 133 is continuously compressed to spray the glue on the plate 3, and the transportation device 2 does not transport the plate 3 in the opposite direction any more, and (5) transporting the plate 3 in the plate 3 transporting direction again to fix the tail end of the side edge of the plate 3 with the tail end of the edge sealing material, thereby completing edge sealing.

Transport device 2

In the present embodiment, the transportation device 2 includes: a first cylinder 21 and a second cylinder 22; the first cylinder 21 is suitable for pushing the plate 3 to move; the second cylinder 22 is adapted to push the first cylinder 21, so as to drive the plate 3 to press the cylinder 131.

In this embodiment, the transportation device 2 further includes: a first supporting plate 23, a first slide rail 24, a first slide block 25 and a first clamping cylinder 26; the first supporting plate 23 is arranged at one side of the platform 11; the first slide rail 24 is arranged on the first support plate 23; the first sliding block 25 is arranged on the first sliding rail 24, and the first sliding block 25 is matched with the first sliding rail 24; the first cylinder 21 is arranged on the first slide block 25; the second air cylinder 22 is arranged on the first supporting plate 23, and the second air cylinder 22 is connected with the first sliding block 25; the first clamping cylinder 26 is arranged on the first cylinder 21; the first clamping cylinder 26 is adapted to clamp the sheet 3; the first air cylinder 21 is suitable for driving the first clamping air cylinder 26 to drive the plate 3 to move so as to transport the plate 3; the second cylinder 22 is adapted to drive the first slider 25 to move along the first slide rail 24, so as to drive the first clamping cylinder 26 to move the plate 3 downward, pressing the cylinder 131.

Specifically, the first clamping cylinder 26 clamps the plate 3, the first cylinder 21 drives the first clamping cylinder 26 to drive the plate 3 to move to one end of the top surface of the cylinder 131, the second cylinder 22 drives the first slider 25 to move along the first slide rail 24, the plate 3 presses the cylinder 131 when the first clamping cylinder 26 is driven, and meanwhile, the first cylinder 21 continues to drive the first clamping cylinder 26 to drive the plate 3 to move between the two limiting plates 14; after the cylinder 131 is pressed, the cylinder 131 moves towards the inside of the platform 11 to compress the second spring 134, and the top surface of the cylinder 131 presses the spring air bag 133, so that the glue in the air bag is sprayed out from the first glue outlet 1311 and coated on the side edge of the plate 3; when the column 131 moves towards the inside of the platform 11, the feeding hole 1312 originally dislocated with the first discharging hole 1211 gradually aligns with the first discharging hole 1211, and at this time, the first spring 1223 recovers to deform and drives the push plate 1221 to push the edge sealing material into the column 131 through the feeding hole 1312 from the first discharging hole 1211; after the edge sealing material enters the cylinder 131, the cylinder 131 continuously moves towards the inside of the platform 11, the edge sealing material is extruded, the edge sealing material extends out of the second discharge hole 1313 along the first guide block 15 and extends out to the same horizontal plane of the top surface of the cylinder 131 along the second guide block 16, at the moment, the head end of the plate 3 is in contact with the head end of the edge sealing material and is fixed through glue, the edge sealing material is fixed with the plate 3 through glue along the side edge of the plate 3 along with the continuous movement of the plate 3 and the continuous pressing of the cylinder 131 until the tail end of the edge sealing material is fixed with the tail end of the side edge of the plate 3; after the edge sealing is finished, the compressed second spring 134 restores to deform to drive the cylinder 131 to extend out of the platform 11 until the second spring 134 completely restores to deform, at the moment, the conveying device 2 drives the plate 3 to reversely convey, and edge sealing materials which are not fixed on the plate 3 enter the cylinder 131 from the second discharge hole 1313 to change the air pressure in the cylinder 131; when the air pressure in the cylinder 131 changes, the conveying device 2 presses the plate 3 to enable the glue to be coated on the plate 3, and the plate 3 is conveyed forward again after the plate 3 is conveyed reversely, so that the edge sealing material is completely fixed on the plate 3; when the edge sealing material is not completely fixed on the plate 3, the tail end of the edge sealing material will swing, when the cylinder 131 returns to the initial position, the transportation device 2 transports the plate 3 to move in the opposite direction to the transportation direction during edge sealing, so that the plate 3 is transported to the top surface of the cylinder 131 again, at this time, the swinging edge sealing material will re-enter the cylinder 131 from the second discharge hole 1313, at this time, the cylinder 131 is slightly moved towards the inside of the platform 11 due to the weight of the plate 3, the space between the inside of the cylinder 131 and the top plate 132 becomes smaller, because the second discharge hole 1313 is blocked by the swinging edge sealing material, at this time, the detection mechanism 17 detects that the air pressure inside the cylinder 131 increases, and determines that the edge sealing material is not completely fixed on the plate 3, at this time, the transportation device 2 presses the plate 3, so that the spring air bag 133 is continuously compressed to spray the glue on the plate 3, and the transportation device 2 does not transport the plate 3 in the opposite direction any more, and (5) transporting the plate 3 in the plate 3 transporting direction again to fix the tail end of the side edge of the plate 3 with the tail end of the edge sealing material, thereby completing edge sealing.

Example 2

On the basis of embodiment 1, this embodiment 2 further provides an edge sealing detection method for an electronic device production facility based on the internet of things in embodiment 1, including: and detecting the edge sealing condition of the plate 3 after the plate 3 is edge sealed.

Specifically, the first clamping cylinder 26 clamps the plate 3, the first cylinder 21 drives the first clamping cylinder 26 to drive the plate 3 to move to one end of the top surface of the cylinder 131, the second cylinder 22 drives the first slider 25 to move along the first slide rail 24, the plate 3 presses the cylinder 131 when the first clamping cylinder 26 is driven, and meanwhile, the first cylinder 21 continues to drive the first clamping cylinder 26 to drive the plate 3 to move between the two limiting plates 14; after the cylinder 131 is pressed, the cylinder 131 moves towards the inside of the platform 11 to compress the second spring 134, and the top surface of the cylinder 131 presses the spring air bag 133, so that the glue in the air bag is sprayed out from the first glue outlet 1311 and coated on the side edge of the plate 3; when the column 131 moves towards the inside of the platform 11, the feeding hole 1312 originally dislocated with the first discharging hole 1211 gradually aligns with the first discharging hole 1211, and at this time, the first spring 1223 recovers to deform and drives the push plate 1221 to push the edge sealing material into the column 131 through the feeding hole 1312 from the first discharging hole 1211; after the edge sealing material enters the cylinder 131, the cylinder 131 continuously moves towards the inside of the platform 11, the edge sealing material is extruded, the edge sealing material extends out of the second discharge hole 1313 along the first guide block 15 and extends out to the same horizontal plane of the top surface of the cylinder 131 along the second guide block 16, at the moment, the head end of the plate 3 is in contact with the head end of the edge sealing material and is fixed through glue, the edge sealing material is fixed with the plate 3 through glue along the side edge of the plate 3 along with the continuous movement of the plate 3 and the continuous pressing of the cylinder 131 until the tail end of the edge sealing material is fixed with the tail end of the side edge of the plate 3; after the edge sealing is finished, the compressed second spring 134 restores to deform to drive the cylinder 131 to extend out of the platform 11 until the second spring 134 completely restores to deform, at the moment, the conveying device 2 drives the plate 3 to reversely convey, and edge sealing materials which are not fixed on the plate 3 enter the cylinder 131 from the second discharge hole 1313 to change the air pressure in the cylinder 131; when the air pressure in the cylinder 131 changes, the conveying device 2 presses the plate 3 to enable the glue to be coated on the plate 3, and the plate 3 is conveyed forward again after the plate 3 is conveyed reversely, so that the edge sealing material is completely fixed on the plate 3; when the edge sealing material is not completely fixed on the plate 3, the tail end of the edge sealing material will swing, when the cylinder 131 returns to the initial position, the transportation device 2 transports the plate 3 to move in the opposite direction to the transportation direction during edge sealing, so that the plate 3 is transported to the top surface of the cylinder 131 again, at this time, the swinging edge sealing material will re-enter the cylinder 131 from the second discharge hole 1313, at this time, the cylinder 131 is slightly moved towards the inside of the platform 11 due to the weight of the plate 3, the space between the inside of the cylinder 131 and the top plate 132 becomes smaller, because the second discharge hole 1313 is blocked by the swinging edge sealing material, at this time, the detection mechanism 17 detects that the air pressure inside the cylinder 131 increases, and determines that the edge sealing material is not completely fixed on the plate 3, at this time, the transportation device 2 presses the plate 3, so that the spring air bag 133 is continuously compressed to spray the glue on the plate 3, and the transportation device 2 does not transport the plate 3 in the opposite direction any more, and (5) transporting the plate 3 in the plate 3 transporting direction again to fix the tail end of the side edge of the plate 3 with the tail end of the edge sealing material, thereby completing edge sealing.

In summary, the present invention provides a transportation device 2, wherein the transportation device 2 is suitable for transporting a plate 3; banding device 1, banding device 1 sets up conveyer 2 transports the tail end of 3 directions of panel, conveyer 2 is suitable for and presses banding device 1 at the in-process of transporting panel 3, makes the glue coating in the banding device 1 on panel 3 to it is fixed with the side of panel 3 that to make the banding material in the banding device 1 pass through glue, accomplishes the banding of panel 3, and banding device 1 is suitable for and detects the banding condition of panel 3, has realized carrying out the banding to the side of panel 3 at the in-process of 3 transports of panel, has improved the banding efficiency of panel 3, and detects the banding condition, has improved the banding quality of panel 3, thereby has improved the quality of panel 3.

The components selected for use in the present application (components not illustrated for specific structures) are all common standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experimentation. Moreover, the software programs referred to in the present application are all prior art, and the present application does not refer to any improvement of the software programs.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides an electronic equipment production mechanism based on thing networking which characterized in that includes:

a transport device adapted to transport the sheet material;

the conveying device is suitable for pressing the edge sealing device in the process of conveying the plates, so that glue in the edge sealing device is coated on the plates, edge sealing materials in the edge sealing device are fixed to the side edges of the plates through the glue, edge sealing of the plates is completed, and the edge sealing device is suitable for detecting edge sealing conditions of the plates;

the banding device includes: the device comprises a platform, a feeding mechanism and a coating mechanism;

the feeding mechanism is arranged on the platform;

the coating mechanism is arranged on the platform in a penetrating manner;

the feeding mechanism is connected with the coating mechanism;

the feeding mechanism is suitable for conveying the edge sealing material in the feeding mechanism into the coating mechanism;

when the plate is transported by the transporting device, the plate presses the coating mechanism, so that glue in the coating mechanism is coated on the plate, the edge sealing material conveyed into the coating mechanism is extruded out of the coating mechanism and attached to the side edge of the plate when the plate is pressed, and the edge sealing material is fixed with the side edge of the plate through the glue;

the feeding mechanism comprises: the box body and the pushing assembly;

the box body is arranged on the platform;

the pushing assembly is arranged in the box body;

a first discharge hole is formed in the side wall of the box body, and the shape of the first discharge hole is matched with that of the edge sealing material;

the pushing assembly is suitable for pushing the edge sealing material in the box body out of the first discharging hole;

the coating mechanism is arranged in the pushing direction of the edge sealing material, so that the edge sealing material pushed out of the first discharge hole enters the coating mechanism;

the push assembly comprises: the push plate, the connecting column and the first spring;

the push plate is arranged in the box body and is in contact with the inner wall of the box body;

the connecting column is connected with the push plate and penetrates out of the box body;

the first spring is sleeved on the connecting column;

one end of the first spring is connected with the push plate, and the other end of the first spring is connected with the inner wall of the box body;

when the edge sealing material is filled in the inner wall of the box body, the edge sealing material extrudes the push rod to enable the first spring to contract;

when the first spring restores to deform, the push plate is driven to push the edge sealing material out of the first discharge hole.

2. The Internet of things-based electronic device production facility of claim 1,

the coating mechanism includes: the spring air bag is arranged on the top plate;

the column longitudinally penetrates through the through hole of the platform and extends into the platform, and the column is arranged on one side of the box body along the pushing direction of the edge sealing material and is in close contact with the box body;

the bottom opening of the column body is arranged, and the second spring is connected with the edge of the bottom opening of the column body and connected with the inner bottom surface of the platform;

the top plate is arranged on the inner bottom surface of the platform and extends into the column body through the opening of the column body;

the edge of the top plate is contacted with the inner wall of the column body;

a plurality of first glue outlet holes are formed in the top surface of the column body;

one end of the spring air bag is arranged on the top plate, the other end of the spring air bag is arranged on the inner top surface of the column body, and the spring air bag is communicated with the first glue outlet hole;

a feed inlet is formed in the side wall of the cylinder body, and the feed inlet is matched with the first discharge outlet;

a second discharge hole is formed in the side wall of the column body, is arranged above the feed hole and is close to the top surface of the column body;

the top surface of the column body is suitable for bearing the plates transported by the transportation device;

when the plate is conveyed to the top surface of the cylinder by the conveying device, the plate is pressed, meanwhile, the plate is conveyed continuously, the cylinder moves towards the inside of the platform to compress the second spring, the spring air bag is pressed by the top surface of the cylinder, and glue in the air bag is sprayed out from the first glue outlet hole and coated on the side edge of the plate;

when the column body moves towards the inside of the platform, the feed port which is staggered with the first discharge port is gradually aligned with the first discharge port, and at the moment, the first spring restores to deform to drive the push plate to push the edge sealing material into the column body from the first discharge port through the feed port;

after the edge sealing material enters the cylinder, the cylinder continues to move towards the inside of the platform, the edge sealing material is extruded out of the cylinder from the second discharge hole, the head end of the plate exposes out of the cylinder through the top surface of the cylinder at the moment, the head end of the extruded edge sealing material is fixed with the side edge of the plate through glue, and when the tail end of the plate exposes out of the cylinder through the top surface of the cylinder, the tail end of the edge sealing material is fixed with the side edge of the plate through glue, and edge sealing is completed.

3. The Internet of things-based electronic device production facility of claim 2,

the coating mechanism further comprises: a limiting plate;

the limiting plate is oppositely arranged on the top surface of the column body;

the plates transported by the transporting device pass through the top surface of the column body from between the two limiting plates.

4. The Internet of things-based electronic device production facility of claim 3,

the coating mechanism further comprises: a first guide block and a second guide block;

the first guide block is arranged on the inner top wall of the column body;

the first guide block is arc-shaped and is in contact with the spring air bag;

the second guide block is arranged on the outer wall of the column body and is positioned below the second discharge hole;

the second guide block extends to a direction far away from the column body to the same horizontal plane with the top surface of the column body;

after the edge sealing material enters the cylinder, the cylinder continues to move towards the inside of the platform, and the edge sealing material is extruded to extend out of the second discharge hole along the first guide block and extend out of the same horizontal plane of the top surface of the cylinder along the second guide block and fixed with the side edge of the plate through glue.

5. The Internet of things-based electronic device production facility of claim 4,

the banding device still includes: a detection mechanism;

the detection mechanism is arranged on the top plate;

after the edge sealing is finished, the compressed second spring restores to deform to drive the cylinder to extend out of the platform until the second spring completely restores to deform, at the moment, the conveying device drives the plate to be reversely conveyed, and edge sealing materials which are not fixed on the plate enter the cylinder from the second discharge hole to change the air pressure in the cylinder;

when the air pressure in the cylinder changes, the conveying device presses the plate to enable the glue to be coated on the plate, and the plate is conveyed forward again after the plate is conveyed reversely, so that the edge sealing material is completely fixed on the plate.

6. The Internet of things-based electronic device production facility of claim 5,

the transportation device includes: a first cylinder and a second cylinder;

the first air cylinder is suitable for pushing the plate to move;

the second cylinder is suitable for pushing the first cylinder and drives the plate to press the cylinder.

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