CN117104822A

CN117104822A - Cavity glass routing line clearance integration system

Info

Publication number: CN117104822A
Application number: CN202311385586.3A
Authority: CN
Inventors: 石琳
Original assignee: Shandong Yuehang Environmental Protection Technology Co ltd
Current assignee: Shandong Yuehang Environmental Protection Technology Co ltd
Priority date: 2023-10-25
Filing date: 2023-10-25
Publication date: 2023-11-24
Anticipated expiration: 2043-10-25
Also published as: CN117104822B

Abstract

The application provides a hollow glass gluing line cleaning integrated system, and mainly relates to the field of cleaning devices. The utility model provides a cavity glass is beaten and is glued line clearance integration system, including the transfer chain that is used for carrying glass, the support frame below sets up clearance mechanism, clearance mechanism is last to set up a pair of clearance slide rail, clearance mechanism both ends set up the take-up pulley, the tensioning has the hold-in range between the take-up pulley, it sets up the clearance seat to slide on the clearance slide rail, set up a plurality of lift sleeves on the clearance seat, the slip sets up the lift seat in the lift sleeve, lift seat one side sets up a set of clamp slide, set up a pair of clamp piece on the clamp slide, the lift seat opposite side sets up clearance mechanism, clearance mechanism includes with clamp slide vertically transverse slide, set up the mount pad on the transverse slide, rotate on the mount pad and set up a pair of roller brush, set up visual detection camera on the lift seat. The application has the beneficial effects that: the automatic cleaning device can complete automatic cleaning of the hollow glass gluing line, and improves the gluing efficiency and the product quality of the hollow glass.

Description

Cavity glass routing line clearance integration system

Technical Field

The application mainly relates to the field of cleaning devices, in particular to a hollow glass gluing line cleaning integrated system.

Background

Two (or three) glass sheets are bonded with an aluminum alloy frame containing a drying agent by using a high-strength high-air-tightness composite bonding agent, so that the high-efficiency sound-insulation heat-insulation glass is manufactured. The frame of the hollow glass is required to be subjected to sealant edge sealing operation, and the hollow glass cavity is sealed through sealant, so that the performances of heat preservation, sound insulation and the like of the hollow glass are guaranteed.

At present, a general hollow glass gluing device is used for conveying hollow glass by using a conveying line, glue guns of the gluing device are used for gluing four sides of the hollow glass, and then edge sealing operation of the hollow glass is completed. However, the sealant coated in the sealant gun is a glue object, and when the gluing operation is performed, the situation that the sealant drops or is adhered to a conveying line easily occurs. The hollow glass is loaded by the plurality of evenly arranged bearing sheets on the conveying line, so that the sealant is extremely easy to drop and adhere to the bearing plate, thereby causing pollution to the side edge of the subsequent hollow glass, affecting the flatness and the smoothness of the side edge of the hollow glass, having to increase further glue removing procedures and seriously affecting the working efficiency and the product quality.

Disclosure of Invention

In order to solve the defects in the prior art, the application provides an integrated system for cleaning a hollow glass gluing line, which can complete automatic cleaning of the hollow glass gluing line and improve the gluing efficiency and the product quality of the hollow glass.

The application aims to achieve the aim, and the aim is achieved by the following technical scheme:

the utility model provides a cavity glass gluing line clearance integration system, includes the transfer chain that is used for carrying glass, the transfer chain includes the support frame, support frame outside tensioning sets up the conveyer belt, evenly set up a plurality of bearing pieces on the conveyer belt, the support frame below sets up the clearance frame, set up a pair of clearance slide rail on the clearance frame, the axis of clearance slide rail is parallel with the direction of delivery of conveyer belt, the clearance frame both ends set up the take-up pulley, the tensioning has the hold-in range between the take-up pulley, one of them set up driving motor on the take-up pulley, the clearance slides on the clearance slide rail and sets up the clearance seat, clearance seat bottom sets up the stationary blade that is located the hold-in range below, clearance seat top sets up the electricity push rod that compresses tightly, the front end that compresses tightly the electricity push rod sets up the compress tightly the piece when the electricity push rod stretches, compress tightly piece and stationary blade cooperation and snap the hold-in range, the cleaning seat is provided with a plurality of lifting sleeves, a lifting seat is arranged in the lifting sleeve in a sliding manner, a lifting electric push rod is arranged above the cleaning seat, the front end of the push rod of the lifting electric push rod is connected with the bottom of the lifting seat, one side of the lifting seat is provided with a group of clamping slide ways which are parallel to the cleaning slide rail, the clamping slide ways are provided with a pair of clamping sheets, a pair of clamping electric push rods are arranged between the clamping slide ways and used for driving two clamping sheets to oppositely or oppositely operate, the other side of the lifting seat is provided with a cleaning mechanism, the cleaning mechanism comprises a transverse slide way vertical to the clamping slide ways, the transverse slide way is provided with a mounting seat, the cleaning mechanism is provided with a transverse electric push rod for pushing the mounting seat to slide, the mounting seat is rotationally provided with a pair of roller brushes, the mounting seat is provided with a cleaning motor for driving the roller brushes to rotate, the lifting seat is provided with a visual detection camera, and two sides of the cleaning mechanism are provided with positioning sensors.

When the two clamping sheets are clamped, the distance between the midpoint between the two clamping sheets and the midpoint between the two roller brushes is an integral multiple of the distance between the two bearing sheets.

The top surface of the fixing piece and the bottom surface of the pressing piece are provided with pressing teeth.

And the outer side of the cleaning frame is provided with a long groove, and the synchronous belt is in sliding connection with the long groove.

One side sets up atomizer on the mount pad, set up the liquid reserve tank of being connected with atomizer pipe connection on the elevating bracket, set up the atomizing pump in the liquid reserve tank.

And a fan is arranged at the end part of the cleaning frame.

When the clamping piece clamps the bearing piece, the pressing electric push rod drives the pressing piece to loosen the engagement with the fixing piece to release the synchronous belt.

Compared with the prior art, the application has the beneficial effects that:

according to the application, the synchronous belt and the conveyer belt synchronously run, so that conditions for clamping the conveyer belt to clean the bearing sheets are provided for the cleaning seat, and the cleaning seat can be synchronous with the conveyer belt through clamping the bearing sheets by the clamping sheets, so that the cleaning of the bearing sheets is completed by utilizing the roller brush.

Through this synchronous operation's cleaning device, can carry out timely clearance to the loading piece on the conveyer belt to improve cleaning efficiency, make the conveyer belt more clean and tidier, guarantee the steady operation of conveyer belt. The clean conveyer belt can avoid polluting the hollow glass, thereby guaranteeing the neatness of the side edge of the hollow glass, further improving the product quality and avoiding the subsequent cleaning operation of the side edge of the hollow glass.

Drawings

FIG. 1 is a reference diagram of the use of the present application;

FIG. 2 is a schematic view of the structure of the three-dimensional view angle of the application;

FIG. 3 is a schematic view of a left view angle structure of a cleaning seat according to the present application;

FIG. 4 is a schematic view of a three-dimensional view angle structure of a cleaning seat according to the present application;

FIG. 5 is a schematic view of the partial enlarged structure of the A part of the present application.

The reference numbers shown in the drawings: 1. a conveying line; 11. a support frame; 12. a conveyor belt; 13. a carrier sheet; 2. a cleaning frame; 21. cleaning a sliding rail; 22. a synchronous belt; 23. a driving motor; 24. a long groove; 3. cleaning a seat; 31. a fixing piece; 32. compressing the electric push rod; 33. a compacting sheet; 34. lifting the sleeve; 35. lifting the electric push rod; 4. a lifting seat; 41. clamping the slideway; 42. a clamping piece; 43. clamping the electric push rod; 5. a cleaning mechanism; 51. a transverse slideway; 52. a mounting base; 53. a transverse electric push rod; 54. a roller brush; 55. cleaning a motor; 56. an atomizing nozzle; 57. a liquid storage tank; 7. a blower.

Detailed Description

The application will be further described with reference to the accompanying drawings and specific embodiments. It is to be understood that these examples are illustrative of the present application and are not intended to limit the scope of the present application. Further, it will be understood that various changes and modifications may be made by those skilled in the art after reading the teachings of the application, and equivalents thereof fall within the scope of the application as defined by the claims.

As shown in fig. 1-5, the integrated system for cleaning a hollow glass gluing line comprises a conveying line 1 for conveying glass, wherein the conveying line 1 comprises a supporting frame 11, a conveying belt 12 is arranged on the outer side of the supporting frame 11 in a tensioning manner, and a plurality of carrying sheets 13 are uniformly arranged on the conveying belt 12. The middle part of the bearing sheet 13 is provided with a groove which is used as a fixing groove at the bottom edge of the hollow glass, so that the hollow glass can be closely attached to the inclined bearing plate for conveying. The conveying line 1 comprises a front section and a rear section which are divided, a certain interval is reserved between the front section conveying line and the rear section conveying line, the gluing mechanism is arranged in the front section conveying line and the rear section conveying line, and the glue gun of the gluing mechanism can be attached to four sides of hollow glass to complete final gluing operation by utilizing the reciprocating motion cooperation of the front section conveying line and the rear section conveying line. In the process of gluing, the hot melt adhesive can drop and be stained on the bearing sheet 13, and when the hot melt adhesive is excessively accumulated on the bearing sheet 13, the operation of the conveying line 1 can be seriously affected, and the production efficiency and the product quality of the hollow glass are interfered.

In view of the above problems, the present application provides a structure for cleaning the sealant on the carrier sheet 13. In the present application, each of the action elements described below is controlled by a controller. The cleaning rack 2 is arranged below the supporting rack 11, a pair of cleaning slide rails 21 are arranged on the cleaning rack 2, and the axis of the cleaning slide rails 21 is parallel to the conveying direction of the conveying belt 12. The cleaning frame 2 both ends set up the take-up pulley, the tensioning has hold-in range 22 between the take-up pulley, one of them set up driving motor 23 on the take-up pulley, through driving motor 23's drive, can drive hold-in range 22 and conveyer belt 12 synchronous operation of transfer chain 1. Further, the long groove 24 is provided at the outer side of the cleaning frame 2, the synchronous belt 22 is slidably connected with the long groove 24, and the limit of the long groove 24 can ensure that the conveyor belt 12 does not deviate to a certain extent, and can maintain stable operation. The cleaning seat 3 is arranged on the cleaning slide rail 21 in a sliding manner, a sliding block which is in sliding fit with the cleaning slide rail 21 is arranged at the bottom of the cleaning seat 3, and the cleaning seat 3 is driven by the synchronous belt 22. Specifically, the bottom of the cleaning seat 3 is provided with a fixing sheet 31 positioned below the synchronous belt 22, the top of the cleaning seat 3 is provided with a pressing electric push rod 32, the front end of the pressing electric push rod 32 is provided with a pressing sheet 33, and when the pressing electric push rod 32 stretches, the pressing sheet 33 is matched with the fixing sheet 31 to clamp the synchronous belt 22. At this time, the synchronous belt 22 may drive the cleaning seat 3 to reciprocate under the limit of the cleaning slide rail 21, when the pressing electric push rod 32 is contracted, the pressing piece 33 is separated from the engagement with the fixing piece 31, at this time, the synchronous belt 22 is released, no connection is made between the synchronous belt 22 and the cleaning seat 3, and no synchronous movement can be performed between the two. More specifically, the side edge of the cleaning seat 3 is provided with a vertical slideway, and the pressing piece 33 is in sliding fit with the vertical slideway, so that the moving track of the pressing piece 33 is bound.

Further, the top surface of the fixing plate 31 and the bottom surface of the pressing plate 33 are respectively provided with pressing teeth, and the upper pressing teeth and the lower pressing teeth are mutually matched, so that the synchronous belt 22 can be better engaged and fixed, and the cleaning seat 3 cannot synchronously move along with the synchronous belt 22 due to sliding between the upper pressing teeth and the lower pressing teeth.

The cleaning seat 3 is provided with a plurality of lifting sleeves 34, the lifting sleeves 34 are slidably provided with lifting seats 4, the upper part of the cleaning seat 3 is provided with lifting electric push rods 35, and the front ends of the push rods of the lifting electric push rods 35 are connected with the bottoms of the lifting seats 4. By extending the lifting electric push rod 35, the lifting seat 4 can be driven to complete displacement in the vertical direction, so that the subsequent clamping piece 42 can reach the clamping height, and the carrying piece 13 is clamped and fixed. The lifting seat 4 is provided with a group of clamping slide ways 41 on one side, the clamping slide ways 41 are parallel to the cleaning slide rail 21, a pair of clamping sheets 42 are arranged on the clamping slide ways 41, a pair of clamping electric push rods 43 are arranged between the clamping slide ways 41, and the clamping electric push rods 43 are used for driving two clamping sheets 42 to run oppositely or reversely. The clamping piece 42 is displaced under the limit of the clamping slideway 41, and the clamping electric push rod 43 is used for providing power for the operation of the clamping piece 42. The two clamping electric pushing rods 43 run synchronously, and the clamping of the clamping piece 42 to the bearing piece 13 can be realized by driving the two clamping electric pushing rods 43. After the clamping operation of the clamping piece 42 and the carrying piece 13 is completed, the conveying belt 12 can drive the cleaning seat 3 to synchronously operate, so that the subsequent cleaning mechanism can continuously complete the cleaning of the carrying piece 13 with the sealant.

Specifically, the cleaning mechanism 5 is disposed on the other side of the lifting seat 4, the cleaning mechanism 5 includes a transverse slideway 51 perpendicular to the clamping slideway 41, a mounting seat 52 is disposed on the transverse slideway 51, a transverse electric push rod 53 for pushing the mounting seat 52 to slide is disposed on the cleaning mechanism 5, and the transverse electric push rod 53 can realize displacement of the mounting seat 52, so that the carrying sheet 13 is cleaned transversely. A pair of roller brushes 54 are rotatably arranged on the mounting seat 52, and bristles are densely arranged on the roller brushes 54. The mounting seat 52 is provided with a cleaning motor 55 for driving the roller brushes 54 to rotate, and the cleaning motor 55 drives the two roller brushes 54 to reversely rotate through a gear box. The roller brush 54 cleans both sides of the carrier sheet 13 at high speed, thereby completing the cleaning of the sealant on the carrier sheet 13.

When the two clamping pieces 42 clamp the carrier pieces 13, the distance between the midpoint between the two clamping pieces 42 and the midpoint between the two roller brushes 54 is an integer multiple of the distance between the two carrier pieces 13. The carrying piece 13 is clamped by the clamping piece 42, and at the moment, the pressing electric push rod 32 is contracted, so that the cleaning seat 3 is separated from the engagement with the synchronous belt 22, and the cleaning seat 3 can be driven to operate by the carrying piece 13, so that the cleaning seat 3 synchronously displaces along with the conveying belt 12. At this time, the two roller brushes 54 just contact with the carrier sheet 13 attached with the sealant, thereby completing the cleaning of the carrier sheet 13.

Further, a visual inspection camera is arranged on the lifting seat 4, and positioning sensors are arranged on two sides of the cleaning frame 2. The visual inspection camera is used for detecting whether sealant exists on the bearing sheet 13. The positioning sensors at two sides of the cleaning frame 2 are used as limiters at two ends, and when the cleaning seat 3 triggers the positioning sensors, the synchronous belt 22 stops running. Specifically, the position of the visual inspection camera is parallel to the center line of the two roller brushes 54, so that the synchronous belt 22 can be ensured to run synchronously with the conveyor belt 12 after the visual inspection camera detects the sealant on the carrier sheet 13.

Further, an atomizer 56 is disposed on one side of the mounting seat 52, a liquid storage tank 57 connected with the atomizer 56 through a pipeline is disposed on the lifting seat 4, and an atomizing pump is disposed in the liquid storage tank 57. Alcohol or a special cleaning agent is stored in the liquid storage tank 57 and used for softening the sealant, so that the roller brush 54 is helpful for cleaning the bearing sheet 13. Meanwhile, the fan 7 is arranged at the end part of the cleaning frame 2, the fan is continuously started, the cleaned bearing piece 13 is air-dried, and the problem that alcohol and cleaning agent are continuously reserved on the bearing piece 13 to influence the follow-up conveying of hollow glass is avoided.

More specifically, the application can effectively remove the sealant stained on the carrier sheet 13 of the conveyor line 1 for hollow glass, and the specific cleaning flow is as follows:

s1: the initial position of the cleaning seat 3 is at the position of a positioning sensor at the tail end of the cleaning frame 2, the conveying belt 12 drives the carrier sheets 13 to circularly rotate, and when the vision detection camera detects that one of the carrier sheets 13 is provided with adhesive sealant, the driving motor 23 drives the synchronous belt 22 to synchronously run with the conveying belt 12;

s2: the controller controls the lifting electric push rod 35 to extend so as to enable the clamping piece 42 to be lifted to the height of the bearing piece 13, then controls the clamping electric push rod 43 to extend so as to enable the two clamping pieces 42 to clamp the bearing piece 13 between the two clamping pieces, meanwhile, the pressing electric push rod 32 is contracted, the clamping of the pressing piece 33 and the fixing piece 31 to the synchronous belt 22 is loosened, the cleaning seat 3 moves synchronously along with the conveying belt 12, and at the moment, the cleaning motor 55 drives the two roller brushes 54 to rotate so as to clean the bearing piece 13 with the sealant;

s3: over time, the transverse electric push rod 53 drives the mounting seat 52 to displace, so that the two roller brushes 54 move from one end to the other end on both sides of the carrying sheet 13, thereby completing the cleaning of the whole carrying sheet 13;

s4: after the cleaning or triggering of the positioning sensor at the other end of the cleaning rack 2 is completed, the clamping electric push rod 43 contracts to loosen the clamping of the clamping piece 42 to the bearing piece 13, meanwhile, the lifting electric push rod 35 rapidly contracts to enable the lifting seat 4 to descend, meanwhile, the pressing electric push rod 32 stretches to enable the pressing piece 33 to be matched with the fixing piece 31 to clamp the synchronous belt 22, so that the cleaning seat 3 can continue to displace along with the synchronous belt 22, and the cleaning seat 3 is driven by the synchronous belt 22 to continue to move to the initial position to continue to detect the bearing piece 13.

Claims

1. The utility model provides a cavity glass is beaten and is glued line clearance integration system, is including transfer chain (1) that are used for carrying glass, transfer chain (1) include support frame (11), support frame (11) outside tensioning sets up conveyer belt (12), evenly set up a plurality of carrier plates (13), its characterized in that on conveyer belt (12): the cleaning device is characterized in that a cleaning frame (2) is arranged below the supporting frame (11), a pair of cleaning sliding rails (21) are arranged on the cleaning frame (2), the axes of the cleaning sliding rails (21) are parallel to the conveying direction of the conveying belt (12), tensioning wheels are arranged at two ends of the cleaning frame (2), a synchronous belt (22) is tensioned between the tensioning wheels, a driving motor (23) is arranged on one tensioning wheel, a cleaning seat (3) is arranged on the cleaning sliding rails (21) in a sliding manner, a fixing sheet (31) positioned below the synchronous belt (22) is arranged at the bottom of the cleaning seat (3), a pressing electric push rod (32) is arranged at the top of the cleaning seat (3), a pressing piece (33) is arranged at the front end of the pressing electric push rod (32), when the pressing electric push rod (32) stretches, the pressing piece (33) is matched with the fixing sheet (31) to clamp the synchronous belt (22), a plurality of lifting sleeves (34) are arranged on the cleaning seat (3), a lifting seat (4) is arranged in a sliding manner, a lifting seat (35) is arranged above the cleaning seat (3), a lifting seat (41) is arranged on the lifting seat (35), the lifting seat (4) in a lifting seat (41) in a sliding manner, and the front of the sliding seat (41) is connected with the sliding seat (41), the automatic cleaning device is characterized in that a pair of clamping sheets (42) are arranged on the clamping slide way (41), a pair of clamping electric push rods (43) are arranged between the clamping slide ways (41), the clamping electric push rods (43) are used for driving two clamping sheets (42) to run oppositely or reversely, a cleaning mechanism (5) is arranged on the other side of the lifting seat (4), the cleaning mechanism (5) comprises a transverse slide way (51) perpendicular to the clamping slide ways (41), a mounting seat (52) is arranged on the transverse slide way (51), a transverse electric push rod (53) used for pushing the mounting seat (52) to slide is arranged on the cleaning mechanism (5), a pair of roller brushes (54) are arranged on the mounting seat (52) in a rotating mode, a cleaning motor (55) used for driving the roller brushes (54) is arranged on the mounting seat (52), a vision detection camera is arranged on the lifting seat (4), and positioning sensors are arranged on two sides of the cleaning frame (2).

2. The integrated hollow glass wire bonding cleaning system according to claim 1, wherein: when the two clamping sheets (42) are clamped, the distance between the midpoint between the two clamping sheets (42) and the midpoint between the two roller brushes (54) is an integral multiple of the distance between the two carrying sheets (13).

3. The integrated hollow glass wire bonding cleaning system according to claim 1, wherein: the top surface of the fixing piece (31) and the bottom surface of the pressing piece (33) are provided with pressing teeth.

4. The integrated hollow glass wire bonding cleaning system according to claim 1, wherein: an elongated slot (24) is arranged on the outer side of the cleaning frame (2), and the synchronous belt (22) is connected with the elongated slot (24) in a sliding mode.

5. The integrated hollow glass wire bonding cleaning system according to claim 1, wherein: one side of the mounting seat (52) is provided with an atomizing spray head (56), the lifting seat (4) is provided with a liquid storage tank (57) connected with the atomizing spray head (56) in a pipeline manner, and an atomizing pump is arranged in the liquid storage tank (57).

6. The integrated hollow glass wire bonding cleaning system according to claim 5, wherein: a fan (7) is arranged at the end part of the cleaning frame (2).

7. A hollow glass wire bonding cleaning integrated system according to any of claims 1-6, characterized in that: when the clamping piece (42) clamps the bearing piece (13), the pressing electric push rod (32) drives the pressing piece (33) to loosen the engagement with the fixing piece (31) to release the synchronous belt (22).