CN113213165A

CN113213165A - Supporting device for initial pressure vacuumizing transmission of ultra-white glass and implementation method thereof

Info

Publication number: CN113213165A
Application number: CN202110417839.5A
Authority: CN
Inventors: 倪明发; 圣绍杰; 倪菊花; 粱永旗; 万银兵
Original assignee: Anhui Jingjing Glass Products Co ltd
Current assignee: Anhui Jingjing Glass Products Co ltd
Priority date: 2021-04-19
Filing date: 2021-04-19
Publication date: 2021-08-06
Anticipated expiration: 2041-04-19
Also published as: CN113213165B

Abstract

The invention discloses a supporting device for initial pressure vacuum pumping transmission of ultra-white glass and an implementation method thereof, which comprises a transmission base and a supporting component, the ultra-white glass workpiece is placed on the processing backing plate, the lower surface of the glass workpiece can be attached to the surface of the conveying belt by downwards compressing the vertical spring, meanwhile, the gravity of the ultra-white glass workpiece is transmitted to the supporting spring, and the supporting spring is pressed downwards, so that the surface grains of the conveying belt are mutually embedded and contacted with the driving roller wheel, the driving roller wheel drives the driving roller wheel, the transmission roller wheel drives the conveying belt to rotate in an auxiliary manner, so that the conveying belt drives the ultra-white glass workpiece to convey forwards, when the weight of the workpiece is insufficient, the conveying effect can be realized by adding the counterweight on the surface of the workpiece, the device can effectively realize the operation of stopping vacuumizing or the operation of vacuumizing and conveying simultaneously according to the actual size of the ultra-white glass workpiece so as to adapt to the processing operation of glass workpieces with different sizes.

Description

Supporting device for initial pressure vacuumizing transmission of ultra-white glass and implementation method thereof

Technical Field

The invention relates to the technical field of ultra-white glass processing, in particular to a supporting device for initial pressing, vacuumizing and conveying of ultra-white glass and an implementation method thereof.

Background

The ultra-white glass is ultra-transparent low-iron glass, also called low-iron glass and high-transparency glass. The ultra-white glass is a novel high-grade glass variety with high quality and multiple functions, the light transmittance can reach more than 91.5 percent, the ultra-white glass has all the processing performances of high-quality float glass, has excellent physical, mechanical and optical performances, can be subjected to various deep processing like other high-quality float glass, has incomparable excellent quality and product performance, enables the ultra-white glass to have wide application space and bright market prospect, and generally needs to be subjected to initial pressure vacuum pumping operation in the processing procedure of automobile glass, wherein the initial pressure vacuum pumping mainly aims to eliminate air between two pieces of glass and a PVB film, so that the glass is primarily bonded with the PVB film, is prepared for subsequent entering a glass autoclave for final forming, and during initial pressure vacuum pumping, the laminated glass after being laminated is sleeved with an air exhaust ferrule, then the laminated glass is placed on a supporting mechanism for glass primary pressure vacuumizing transmission to be fixed, then the glass enters a primary pressure vacuumizing device along with the supporting mechanism to receive primary pressure vacuumizing, the traditional super-white glass is generally conveyed by using a support transmission type support in the operation process of primary pressure vacuumizing, when the weight and the volume of a workpiece are small, the vacuumizing difficulty and the market are high, the traditional support cannot adjust the conveying progress according to the weight of the actual workpiece and the actual vacuumizing work flow, namely the conveying stopping processing or the conveying processing can not be carried out according to the vacuumizing difficulty of the workpiece, and therefore the laminated glass can not adapt to the processing of workpieces with different sizes.

Disclosure of Invention

The invention aims to provide a support device for ultra-white glass primary pressure vacuumizing transmission and an implementation method thereof, the support device can actually adjust an adjusting bolt group according to the weight of an actual workpiece and the actual efficiency of the actual primary pressure vacuumizing operation, the length of an adjusting inner tube actually extending out of an adjusting sleeve is controlled, the ultra-white glass workpiece is placed on a processing base plate, a vertical spring is downwards compressed, the lower surface of the glass workpiece can be attached to the surface of a conveying belt, meanwhile, the gravity of the ultra-white glass workpiece is transmitted to a support spring, the support spring is downwards pressed, surface grains of the conveying belt are mutually embedded and contacted with a driving roller, the driving roller is driven to drive the conveying belt to rotate, the conveying belt drives the ultra-white glass workpiece to be conveyed forwards, and when the weight of the workpiece is insufficient, a counterweight can be added on the surface of the workpiece to realize the conveying effect, to solve the problems set forth in the background art described above.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a strutting arrangement of transmission of evacuation is pressed at first time to super white glass, includes transmission base and supporting component, transmission base's upper end installation supporting component.

The transmission base comprises an outer frame, fixing bolt holes, a motor clamping groove, a transmission motor, a driving gear, a gear caulking groove, an auxiliary gear, a transmission gear, a driving roller wheel, a transmission shaft, a transmission roller wheel and a torsion spring, wherein the fixing bolt holes are formed in the outer frame, the motor clamping groove is formed in the outer side of the two ends of the outer frame, the transmission motor is installed in the motor clamping groove, the outer frame is located on the inner side installation driving gear at the position of the transmission motor, the gear caulking groove is formed in the driving gear, the auxiliary gear is installed on the side surface of the driving gear, the transmission gear is installed on the side surface of the auxiliary gear, the driving roller wheel is installed in the gear caulking groove, the transmission shaft is arranged between the transmission gears, the transmission roller wheel is installed on the transmission shaft, and the torsion spring is arranged on the outer side of the transmission shaft at the two ends of the transmission roller wheel.

Preferably, the supporting component includes mounting plate, guardrail board, mounting bolt, perpendicular spout, supporting spring, carries axle, conveyer belt and processing backing plate, mounting plate's inboard upper end is equipped with the guardrail board, be equipped with mounting bolt on the mounting plate of guardrail board front end, the guardrail board is positive controls both ends and is equipped with perpendicular spout respectively, the inside bottom of perpendicular spout is equipped with supporting spring, supporting spring's upper end is equipped with carries the axle, carry epaxial installation conveyer belt, carry the terminal installation processing backing plate of axle.

Preferably, the processing backing plate includes the mainboard body, perpendicular activity groove, perpendicular spring, adjusting sleeve, adjusts the inner tube, adjusts bolt group, silica gel backing plate and pivot interface, both ends side is equipped with the pivot interface respectively about the mainboard body, the inboard of mainboard body is equipped with perpendicular activity groove, the inside bottom center department in perpendicular activity groove is equipped with perpendicular spring, the upside of perpendicular spring is equipped with adjusting sleeve, adjusting sleeve's internally mounted adjusts the inner tube, adjust the top installation silica gel backing plate of inner tube, adjusting sleeve's side is equipped with adjusts bolt group.

Preferably, the tail end of the adjusting bolt group penetrates through the adjusting sleeve and is embedded in the vertical tooth groove of the adjusting inner pipe.

Preferably, the mounting bolt on the mounting base plate penetrates through the mounting base plate and is nested in the fixing bolt hole.

Preferably, the surface of the conveying belt is provided with inserting grains, and the inserting grains are inserted and connected with the surface of the driving roller.

The invention provides another technical scheme: an implementation method of a support device for initial pressure vacuum pumping transmission of ultra-white glass comprises the following steps:

the method comprises the following steps: adjusting an adjusting bolt group in the vertical movable groove according to the weight of the actual ultra-white glass workpiece, and adjusting the actual length of the adjusting inner pipe extending out of the adjusting sleeve;

step two: placing the ultra-white glass workpiece on a processing base plate of the supporting assembly, and pressing the silica gel base plate and the vertical spring on the lower side downwards by utilizing the actual weight of the ultra-white glass workpiece to ensure that the lower bottom surface of the ultra-white glass workpiece is attached to the surface of the conveying belt;

step three: starting a transmission motor in the transmission base, enabling the transmission motor to drive a driving gear to rotate, enabling the driving gear to drive a transmission gear to rotate through an auxiliary gear, and simultaneously respectively driving a driving roller and a transmission roller to rotate in the same direction through the driving gear and the transmission gear;

step four: the weight of the ultra-white glass workpiece is transmitted to the supporting spring, the supporting spring is pressed downwards, the embedding grains on the surface of the conveying belt and the grains between the driving rollers are embedded and connected, the driving rollers drive the conveying belt to rotate, and the conveying belt drives the ultra-white glass workpiece to convey forwards.

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

the invention provides a supporting device for initial pressure vacuum pumping transmission of ultra-white glass and an implementation method thereof, the ultra-white glass workpiece is placed on the processing backing plate, the lower surface of the glass workpiece can be attached to the surface of the conveying belt by downwards compressing the vertical spring, meanwhile, the gravity of the ultra-white glass workpiece is transmitted to the supporting spring, and the supporting spring is pressed downwards, so that the surface grains of the conveying belt are mutually embedded and contacted with the driving roller wheel, the driving roller wheel drives the driving roller wheel, the transmission roller wheel drives the conveying belt to rotate in an auxiliary manner, so that the conveying belt drives the ultra-white glass workpiece to convey forwards, when the weight of the workpiece is insufficient, the conveying effect can be realized by adding the balance weight on the surface of the workpiece, and the operation of stopping and vacuumizing or the operation of conveying while vacuumizing according to the actual size of the ultra-white glass workpiece is realized so as to adapt to the processing operation of the glass workpieces with different sizes.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the transmission base of the present invention;

FIG. 3 is a side view of the transmission base of the present invention in partial cross-section;

FIG. 4 is a schematic structural view of the support assembly of the present invention;

FIG. 5 is a schematic top view of the support assembly of the present invention;

FIG. 6 is a side view, partially in section, of the tooling pallet of the present invention;

fig. 7 is a schematic view showing an outer partial structure of the processing pad of the present invention.

In the figure: 1. a transmission base; 101. an outer frame; 102. fixing bolt holes; 103. a motor clamping groove; 104. a drive motor; 105. a driving gear; 106. a gear caulking groove; 107. an auxiliary gear; 108. a transmission gear; 109. a driving roller; 1010. a drive shaft; 1011. a driving roller; 1012. a torsion spring; 2. a support assembly; 21. mounting a bottom plate; 22. a guardrail plate; 23. installing a bolt; 24. a vertical chute; 25. a support spring; 26. a delivery shaft; 27. a conveyor belt; 28. processing a base plate; 281. a main board body; 282. a vertical movable groove; 283. a vertical spring; 284. adjusting the sleeve; 285. adjusting the inner pipe; 286. adjusting the bolt group; 287. a silica gel pad; 288. a rotating shaft interface.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1, a supporting device for initial pressing, vacuum pumping and transmission of ultra-white glass includes a transmission base 1 and a supporting assembly 2, wherein the supporting assembly 2 is installed at the upper end of the transmission base 1.

Referring to fig. 2-3, the transmission base 1 includes an outer frame 101, a fixing bolt hole 102, a motor slot 103, a transmission motor 104, a driving gear 105, and a gear slot 106, the transmission mechanism comprises an auxiliary gear 107, a transmission gear 108, a driving roller 109, a transmission shaft 1010, a transmission roller 1011 and a torsion spring 1012, wherein fixing bolt holes 102 are formed in an outer frame 101, motor clamping grooves 103 are formed in the outer sides of two ends of the outer frame 101, a transmission motor 104 is installed in each motor clamping groove 103, a driving gear 105 is installed on the inner side, located at the transmission motor 104, of the outer frame 101, a gear caulking groove 106 is formed in the driving gear 105, the auxiliary gear 107 is installed on the side surface of the driving gear 105, the transmission gear 108 is installed on the side surface of the auxiliary gear 107, the driving roller 109 is installed in each gear caulking groove 106, the transmission shaft 1010 is arranged between the transmission gears 108, the transmission roller 1011 is installed on the transmission shaft 1010, and the torsion spring 1012 is arranged on the outer side of the transmission shaft 1010 at two ends of the transmission roller 1011.

Referring to fig. 4-5, the supporting assembly 2 includes a mounting base plate 21, a balustrade 22, a mounting bolt 23, a vertical sliding slot 24, a supporting spring 25, a conveying shaft 26, a conveying belt 27 and a processing pad 28, the balustrade 22 is disposed at the upper end of the inner side of the mounting base plate 21, the mounting bolt 23 is disposed on the mounting base plate 21 at the front end of the balustrade 22, the mounting bolt 23 on the mounting base plate 21 penetrates through the mounting base plate 21 and is embedded in the fixing bolt hole 102, the vertical sliding slot 24 is disposed at each of the left and right ends of the front surface of the balustrade 22, the supporting spring 25 is disposed at the bottom end of the vertical sliding slot 24, the conveying shaft 26 is disposed at the upper end of the supporting spring 25, the conveying belt 27 is mounted on the conveying shaft 26, the conveying belt 27 has an embedding pattern on the surface thereof, the embedding pattern is embedded and connected with the surface of the driving roller 109, and the processing pad 28 is disposed at the end of the conveying shaft 26.

Referring to fig. 6-7, the processing shim plate 28 includes a main plate body 281, a vertical movable slot 282, a vertical spring 283, an adjusting sleeve 284, an adjusting inner tube 285, an adjusting bolt set 286, a silica gel shim plate 287, and a rotating shaft interface 288, wherein the left and right end sides of the main plate body 281 are respectively provided with the rotating shaft interface 288, the inner side of the main plate body 281 is provided with the vertical movable slot 282, the vertical spring 283 is arranged at the center of the bottom end inside the vertical movable slot 282, the adjusting sleeve 284 is arranged on the upper side of the vertical spring 283, the adjusting inner tube 285 is installed inside the adjusting sleeve 284, the silica gel shim plate 287 is installed on the top of the adjusting inner tube 285, the adjusting bolt set 286 is arranged on the side of the adjusting sleeve 284, and the end of the adjusting bolt set 286 penetrates through the adjusting sleeve 284 and is inserted into the vertical tooth slot of the adjusting inner tube 285.

In order to better show the implementation process of the supporting device for initial pressure vacuum pumping transmission of ultra-white glass, the embodiment now provides an implementation method of the supporting device for initial pressure vacuum pumping transmission of ultra-white glass, which includes the following steps:

the method comprises the following steps: adjusting an adjusting bolt group 286 in the vertical movable groove 282 according to the weight of the actual ultra-white glass workpiece, and adjusting the actual length of the adjusting inner tube 285 extending out of the adjusting sleeve 284;

step two: placing the ultra-white glass workpiece on the processing backing plate 28 of the supporting component 2, and utilizing the actual weight of the ultra-white glass workpiece to press the silica gel backing plate 287 and the vertical spring 283 at the lower side, so that the lower bottom surface of the ultra-white glass workpiece is attached to the surface of the conveying belt 27;

step three: starting a transmission motor 104 in the transmission base 1, so that the transmission motor 104 drives a driving gear 105 to rotate, the driving gear 105 drives a transmission gear 108 to rotate through an auxiliary gear 107, and meanwhile, the driving gear 105 and the transmission gear 108 respectively drive a driving roller 109 and a transmission roller 1011 to rotate in the same direction;

step four: the weight of the ultra-white glass workpiece is transferred to the supporting spring 25, the supporting spring 25 is pressed downwards, and meanwhile, the inserting grains on the surface of the conveying belt 27 are inserted and connected with the grains between the driving rollers 109, so that the driving rollers 109 drive the conveying belt 27 to rotate, and the conveying belt 27 drives the ultra-white glass workpiece to convey forwards.

The working principle of the invention is as follows: the support device for the initial pressure vacuum pumping transmission of the ultra-white glass and the implementation method thereof can actually adjust the adjusting bolt set 286 according to the weight of an actual workpiece and the actual efficiency of the actual initial pressure vacuum pumping operation, control and adjust the length of the inner tube 285 actually extending out of the adjusting sleeve 284, after the ultra-white glass workpiece is placed on the processing backing plate 28, the vertical spring 283 is compressed downwards, so that the lower surface of the glass workpiece can be attached to the surface of the conveying belt 27, meanwhile, the gravity of the ultra-white glass workpiece is transmitted to the supporting spring 25, and the supporting spring 25 is pressed downwards, so that the surface grains of the conveying belt 27 are mutually embedded and contacted with the driving roller 109 and are driven by the driving roller 109, the driving roller 1011 assists in driving the conveying belt 27 to rotate, so that the conveying belt 27 drives the ultra-white glass workpiece to convey forwards, when the weight of the workpiece is insufficient, the counterweight can be added on the surface of the workpiece to realize the conveying effect.

In summary, the following steps: the invention relates to a support device for initial pressure vacuum pumping transmission of ultra-white glass and an implementation method thereof, which can carry out actual adjustment on an adjusting bolt group 286 according to the weight of an actual workpiece and the actual efficiency of the actual initial pressure vacuum pumping operation, control the length of an adjusting sleeve 284 which actually extends out of an adjusting inner tube 285, place the ultra-white glass workpiece on a processing backing plate 28, enable the lower surface of the glass workpiece to be attached to the surface of a conveying belt 27 by downwards compressing a vertical spring 283, simultaneously transmit the gravity of the ultra-white glass workpiece to a support spring 25, press the support spring 25 downwards, enable the surface grains of the conveying belt 27 to be mutually embedded and contacted with a driving roller 109, be driven by the driving roller 109, drive rollers 1011 assist to drive the conveying belt 27 to rotate, enable the conveying belt 27 to drive the ultra-white glass workpiece to be conveyed forwards, and when the weight of the workpiece is insufficient, add a counterweight on the surface of the workpiece to realize the conveying effect, the invention has a complete and reasonable structure, and effectively realizes the operation of stopping vacuumizing or the operation of vacuumizing and conveying simultaneously according to the actual size of the ultra-white glass workpiece so as to adapt to the processing operation of glass workpieces with different sizes.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a super white glass is initial presses evacuating transmission's strutting arrangement, includes transmission base (1) and supporting component (2), its characterized in that: a support component (2) is arranged at the upper end of the transmission base (1);

the transmission base (1) comprises an outer frame (101), fixing bolt holes (102), a motor clamping groove (103), a transmission motor (104), a driving gear (105), a gear caulking groove (106), auxiliary gears (107), transmission gears (108), a driving roller (109), a transmission shaft (1010), a transmission roller (1011) and a torsion spring (1012), wherein the outer frame (101) is provided with the fixing bolt holes (102), the outer sides of two ends of the outer frame (101) are provided with the motor clamping grooves (103), the transmission motor (104) is installed in the motor clamping groove (103), the outer frame (101) is positioned on the inner side of the transmission motor (104) to install the driving gear (105), the driving gear (105) is provided with the gear caulking groove (106), the side surface of the driving gear (105) is provided with the auxiliary gear (107), and the side surface of the auxiliary gear (107) is provided with the transmission gear (108), install drive running roller (109) in gear caulking groove (106), be equipped with transmission shaft (1010) between drive gear (108), install drive running roller (1011) on transmission shaft (1010), the transmission shaft (1010) outside at drive running roller (1011) both ends is equipped with torsion spring (1012).

2. The support device for the initial pressing and vacuum pumping transmission of ultra-white glass according to claim 1, wherein: support assembly (2) are including mounting plate (21), guardrail board (22), construction bolt (23), perpendicular spout (24), supporting spring (25), carry axle (26), conveyer belt (27) and processing backing plate (28), the inboard upper end of mounting plate (21) is equipped with guardrail board (22), be equipped with construction bolt (23) on the mounting plate (21) of guardrail board (22) front end, guardrail board (22) are positive about both ends are equipped with perpendicular spout (24) respectively, the inside bottom of perpendicular spout (24) is equipped with supporting spring (25), the upper end of supporting spring (25) is equipped with carries axle (26), carry and install conveyer belt (27) on axle (26), carry the terminal installation processing backing plate (28) of axle (26).

3. The support device for the initial pressing and vacuum pumping transmission of ultra-white glass according to claim 2, wherein: processing backing plate (28) are including the mainboard body (281), perpendicular activity groove (282), vertical spring (283), adjusting sleeve (284), adjust inner tube (285), adjust bolt group (286), silica gel backing plate (287) and pivot interface (288), both ends side is equipped with pivot interface (288) respectively about the mainboard body (281), the inboard of the mainboard body (281) is equipped with perpendicular activity groove (282), the inside bottom center department of perpendicular activity groove (282) is equipped with vertical spring (283), the upside of vertical spring (283) is equipped with adjusting sleeve (284), inner tube (285) are adjusted in the internally mounted of adjusting sleeve (284), adjust the top installation silica gel backing plate (285) of inner tube (285), the side of adjusting sleeve (287) is equipped with adjusting bolt group (286).

4. The support device for the initial pressing and vacuum pumping transmission of ultra-white glass according to claim 3, wherein: the tail end of the adjusting bolt group (286) penetrates through the adjusting sleeve (284) and is embedded in a vertical tooth slot of the adjusting inner pipe (285).

5. The support device for the initial pressing and vacuum pumping transmission of ultra-white glass according to claim 4, wherein: and the mounting bolt (23) on the mounting bottom plate (21) penetrates through the mounting bottom plate (21) and is nested in the fixing bolt hole (102).

6. The support device for the initial pressing and vacuum pumping transmission of ultra-white glass according to claim 5, wherein: the surface of the conveying belt (27) is provided with inserting grains, and the inserting grains are inserted and connected with the surface of the driving roller (109).

7. The method for implementing the supporting device for the initial vacuum pumping transmission of ultra-white glass according to claim 6, characterized by comprising the following steps:

s1: adjusting an adjusting bolt group (286) in the vertical movable groove (282) according to the weight of the actual ultra-white glass workpiece, and adjusting the actual length of the adjusting inner tube (285) extending out of the adjusting sleeve (284);

s2: placing the ultra-white glass workpiece on a processing backing plate (28) of a support assembly (2), and utilizing the actual weight of the ultra-white glass workpiece to press a silica gel backing plate (287) and a vertical spring (283) at the lower side to enable the lower bottom surface of the ultra-white glass workpiece to be attached to the surface of a conveying belt (27);

s3: starting a transmission motor (104) in the transmission base (1), so that the transmission motor (104) drives a driving gear (105) to rotate, the driving gear (105) drives a transmission gear (108) to rotate through an auxiliary gear (107), and meanwhile, the driving gear (105) and the transmission gear (108) respectively drive a driving roller (109) and a transmission roller (1011) to rotate in the same direction;

s4: the weight of the ultra-white glass workpiece is transmitted to the supporting spring (25), the supporting spring (25) is pressed downwards, meanwhile, the inserting grains on the surface of the conveying belt (27) and the grains between the driving rollers (109) are inserted and connected, the driving rollers (109) drive the conveying belt (27) to rotate, and therefore the conveying belt (27) drives the ultra-white glass workpiece to be conveyed forwards.