阅读说明：本技术 一种玻璃清边装置 (Glass edge cleaning device ) 是由 杨尚文 王刚 刘春昌 赵天阳 贾鹤 王蓬 武林雨 韩艳丽 王长军 于 2020-05-29 设计创作，主要内容包括：本发明提供一种玻璃清边装置,包括架体、设置在架体中部的输送装置、设置在架体下方的清边顶轮装置、设置在架体上方的弹性压件和配置用于控制清边顶轮装置与弹性压件的控制组件。本发明设有丝杠组件,便于调节设置在下调节座上的顶轮组件,大大提高了该玻璃清边装置的灵活性以及应用范围；设有脉冲升降顶轮,脉冲升降顶轮可以上下振动,沿着玻璃原板毛边刀印外侧下方有频率的敲击,使得玻璃毛边沿着刀印缓慢裂开,消除了凹凸缘,大大提高了玻璃原板毛边沿刀印裂开的平整性,同时大大提高了生产效率,降低了成型玻璃的损失,并有效降低了员工的劳动强度及人工成本,而且减少了安全隐患。(The invention provides a glass edge cleaning device which comprises a frame body, a conveying device arranged in the middle of the frame body, an edge cleaning top wheel device arranged below the frame body, an elastic pressing piece arranged above the frame body and a control assembly configured to control the edge cleaning top wheel device and the elastic pressing piece. The glass trimming device is provided with the screw rod assembly, so that the top wheel assembly arranged on the lower adjusting seat can be adjusted conveniently, and the flexibility and the application range of the glass trimming device are greatly improved; be equipped with pulse lift apical wheel, pulse lift apical wheel can vibrate from top to bottom, has the strike of frequency along former board deckle edge sword seal outside below of glass for glass deckle edge has eliminated concave flange along the sword seal slowly splits, has improved the planarization that former board deckle edge sword seal of glass split greatly, has improved production efficiency simultaneously greatly, has reduced forming glass's loss, and has effectively reduced staff's intensity of labour and cost of labor, has reduced the potential safety hazard moreover.)

1. A glass edge cleaning device is characterized by comprising a frame body (1), a conveying device (2) arranged in the middle of the frame body (1), an edge cleaning top wheel device (3) arranged below the frame body (1), an elastic pressing piece (4) arranged above the frame body (1) and a control assembly (5) configured to control the edge cleaning top wheel device (3) and the elastic pressing piece (4);

the edge cleaning top wheel device (3) comprises a screw rod assembly (310) arranged below the conveying device (2), two lower adjusting seats (320) symmetrically arranged on the screw rod assembly (310) and a top wheel assembly (330) arranged on the lower adjusting seats (320), wherein the top wheel assembly (330) comprises a lifting adjusting part (6) arranged on the lower adjusting seats (320) and a pulse lifting top wheel (7) which is arranged above the lifting adjusting part (6) and can vibrate up and down;

the elastic pressing piece (4) comprises a horizontal beam (410) arranged above the conveying device (2), two horizontal adjusting cylinders (420) symmetrically arranged at two ends of the horizontal beam (410), two upper adjusting seats (430) slidably arranged on the horizontal beam (410) and a pressing plate assembly (440) arranged below the upper adjusting seats (430), wherein the upper adjusting seats (430) are respectively connected with the output ends of the horizontal adjusting cylinders (420) on one corresponding side, and the pressing plate assembly (440) comprises an upper lifting driving cylinder (8) arranged below the upper adjusting seats (430) and a pressing plate (9) arranged at the output end of the upper lifting driving cylinder (8);

the control assembly (5) comprises a control box (510) which is configured to control the lifting adjusting piece (6), the horizontal adjusting cylinder (420) and the lifting driving cylinder (8), and a top wheel controller (520) which is configured to control the pulse lifting top wheel (7).

2. The glass trimming device according to claim 1, wherein the screw assembly (310) comprises a horizontal rotating screw (311), horizontal guide rods (312) which are symmetrically arranged on the upper side and the lower side of the horizontal rotating screw (311) and slide through the lower adjusting seats (320), and an adjusting handle (313) arranged on one side of the horizontal rotating screw (311), the horizontal rotating screw (311) comprises a first threaded part (311a) and a second threaded part (311b) which are symmetrically arranged, the thread directions of the first threaded part (311a) and the second threaded part (311b) are opposite, and the two lower adjusting seats (320) are respectively arranged on the first threaded part (311a) and the second threaded part (311 b).

3. The glass trimming device according to claim 2, wherein the lifting adjusting member (6) comprises a lower lifting driving cylinder (610) disposed at the middle of the lower adjusting base (320), a horizontal base plate (620) disposed at the top of the lower lifting driving cylinder (610), and a plurality of slide guides (630) disposed between the horizontal base plate (620) and the lower adjusting base (320), the lower lifting driving cylinder (610) is connected to the control box (510), and the slide guides (630) comprise a slide guide cylinder (631) vertically disposed on the lower adjusting base (320) and a guide rod (632) having one end fixed below the horizontal base plate (620) and one end slidably disposed in the slide guide cylinder (631).

4. The glass edge cleaning device according to claim 3, wherein the pulse lifting top wheel (7) comprises a shell (710) arranged on the horizontal base plate (620), a vertical sliding guide cavity (720) arranged in the shell (710), an electromagnet (730) arranged at the bottom of the vertical sliding guide cavity (720), a permanent magnet seat (740) arranged at the upper part of the electromagnet (730) in a sliding manner and having a magnetic pole opposite to that of the electromagnet (730), a sliding guide rod (750) arranged at the upper part of the permanent magnet seat (740) and sliding through the shell, and a top wheel body (760) arranged at the upper end of the sliding guide rod (750), wherein the top wheel controller (520) comprises a pressure controller (521) configured to control the magnetic force of the electromagnet (730) and a pulse controller (522) configured to control the on-off frequency of the pressure controller (521).

5. The glass trimming device according to claim 4, wherein the pressing plate (9) includes a pressing plate body (910), arc-shaped connecting plates (920) provided at both ends of the pressing plate body (910), and a plurality of slide guide assemblies (930) provided below the pressing plate body (910).

6. The glass edge cleaning device of claim 5, wherein the slide guide assembly (930) comprises a vertical slide guide hole (931) formed in the pressing plate body (910), a bead dish (932) slidably disposed in the vertical slide guide hole (931), a first connecting spring (933) disposed between the bead dish (932) and the bottom of the vertical slide guide hole (931), and a slide guide steel ball (934) disposed in the bead dish (932).

7. The glass trimming device according to claim 6, wherein two sets of auxiliary pressing members (10) are further arranged on the horizontal beam (410), the auxiliary pressing members (10) are arranged outside the elastic pressing members (4) and comprise an auxiliary adjusting seat (11) slidably arranged on the horizontal beam (410), a fastening member (12) arranged on one side of the auxiliary adjusting seat (11), a fixed barrel (13) arranged below the auxiliary adjusting seat (11) and having a rectangular cross section of a guide sliding hole, a movable pressing member (14) slidably arranged in the fixed barrel (13) and an adjusting assembly (15) rotatably arranged on the upper portion of the auxiliary adjusting seat (11), the fastening member (12) comprises a threaded hole (1210) arranged on one side of the auxiliary adjusting seat (11) and a fastening bolt (1220) arranged in the threaded hole (1210), and the movable pressing member (14) comprises a cuboid guide slider (1410) slidably arranged in the fixed barrel (13) and a cuboid guide slider (1410) arranged below the cuboid guide slider (1410) The rectangular guide sliding piece (1410) comprises a guide sliding piece body (1411), a thread lifting adjusting hole (1412) arranged at the upper end of the guide sliding piece body (1411) and a cylindrical guide sliding cavity (1413) arranged at the lower end of the guide sliding piece body (1411), the auxiliary pressing wheel (1420) comprises a guide sliding block (1421) arranged in the cylindrical guide sliding cavity (1413) in a sliding manner, a second connecting spring (1422) arranged between the guide sliding block (1421) and the upper end of the cylindrical guide sliding cavity (1413), a connecting rod (1423) arranged below the guide sliding block (1421) and penetrating through the lower end of the guide sliding piece body (1411) in a sliding manner and a pressing wheel (1424) arranged at the lower end of the connecting rod (1423), the adjusting assembly (15) comprises a rotating piece (1510) arranged at the upper part of the auxiliary adjusting seat (11) and a threaded rod (1520) rotatably arranged on the auxiliary adjusting seat (11), and the upper end of the threaded rod (1510) penetrates through the auxiliary adjusting seat (11) to be connected with the rotating piece (1520), the lower end of the screw thread lifting adjusting hole (1412) is matched with the upper end of the sliding guide body (1411).

Technical Field

The invention relates to the technical field of glass production, in particular to a glass edge cleaning device.

Background

In the production process of float glass, in order to meet the deep processing requirements of downstream customers, the edge cleaning surface of the glass must be smooth and flat, and poor quality conditions such as concave flanges cannot exist.

At present, when thick plates are produced, manual edge cleaning is mostly adopted to avoid the generation of concave flanges in the process of producing thick plate glass, namely after the thick plate glass is conveyed to original edge cleaning equipment, 2 workers are respectively arranged at two sides of the edge cleaning equipment to knock out cracks by using nylon hammers, and then glass edges are broken off along the cracks by using F-shaped breaking hands, so that the purposes of reducing/lightening the concave flanges as much as possible and enabling the edge cleaning surfaces to be smooth and flat are achieved. However, when the nylon hammer is used, workers hardly master the knocking force and direction, concave flanges are easily generated, pure manual operation is performed in the production process of thick glass, the efficiency is low, 4 workers need to be arranged to operate simultaneously, the labor cost is increased, the labor intensity of the workers is high, the workers are not suitable for batch production, the glass edge is heavy and sharp, the workers need to put hands below the glass edge to operate, and once the glass edge falls down due to natural gravity caused by improper operation, the workers are cut by the glass.

Disclosure of Invention

The invention provides a glass edge cleaning device for solving the technical problems.

The technical scheme adopted by the invention is as follows: a glass trimming device is characterized by comprising a frame body, a conveying device arranged in the middle of the frame body, a trimming top wheel device arranged below the frame body, an elastic pressing piece arranged above the frame body and a control assembly configured to control the trimming top wheel device and the elastic pressing piece;

the edge cleaning top wheel device comprises a screw rod assembly arranged below the conveying device, two lower adjusting seats symmetrically arranged on the screw rod assembly and a top wheel assembly arranged on the lower adjusting seats, wherein the top wheel assembly comprises a lifting adjusting piece arranged on the lower adjusting seats and a pulse lifting top wheel which is arranged above the lifting adjusting piece and can vibrate up and down;

the elastic pressing piece comprises a horizontal cross beam arranged above the conveying device, two horizontal adjusting cylinders symmetrically arranged at two ends of the horizontal cross beam, two upper adjusting seats arranged on the horizontal cross beam in a sliding mode and a pressing plate assembly arranged below the upper adjusting seats, the upper adjusting seats are respectively connected with the output ends of the horizontal adjusting cylinders on one corresponding side, and the pressing plate assembly comprises an upper lifting driving cylinder arranged below the upper adjusting seats and a pressing plate arranged at the output end of the upper lifting driving cylinder;

the control assembly comprises a control box and a top wheel controller, wherein the control box is configured to control the lifting adjusting piece, the horizontal driving air cylinder and the lifting driving air cylinder, and the top wheel controller is configured to control the pulse lifting top wheel.

Furthermore, lead screw assembly includes horizontal rotation lead screw, the symmetry sets up the horizontal guide slide bar that passes down the adjusting seat about horizontal rotation lead screw both sides and slip and set up the regulation handle in horizontal rotation lead screw one side, horizontal rotation lead screw includes first screw portion and the second screw portion that the symmetry set up, the screw thread direction of first screw portion and second screw portion is opposite, two lower adjusting seats set up respectively on first screw portion and second screw portion.

Furthermore, the lifting adjusting part comprises a lower lifting driving cylinder arranged in the middle of the lower adjusting seat, a horizontal base plate arranged at the top of the lower lifting driving cylinder and a plurality of guide sliding pieces arranged between the horizontal base plate and the lower adjusting seat, the lower lifting driving cylinder is connected with the control box, and the guide sliding pieces comprise a guide sliding barrel vertically arranged on the lower adjusting seat and a guide rod, one end of the guide sliding barrel is fixed below the horizontal base plate, and one end of the guide sliding rod is slidably arranged in the guide sliding barrel.

Furthermore, the pulse lifting top wheel comprises a shell arranged on the horizontal substrate, a vertical sliding guide cavity arranged in the shell, an electromagnet arranged at the bottom of the vertical sliding guide cavity, a permanent magnet seat arranged on the upper portion of the electromagnet in a sliding mode and having a magnetic pole opposite to that of the electromagnet, a sliding guide rod arranged on the upper portion of the permanent magnet seat and penetrating through the shell in a sliding mode, and a top wheel body arranged at the upper end of the sliding guide rod, wherein the top wheel controller comprises a pressure controller and a pulse controller, the pressure controller is configured to control the magnetic force of the electromagnet, and the pulse controller is configured to control the on-off frequency of the pressure controller.

Furthermore, the pressing plate comprises a pressing plate body, arc-shaped connecting plates arranged at two ends of the pressing plate body and a plurality of guide sliding assemblies arranged below the pressing plate body.

Furthermore, lead smooth subassembly including set up on the clamp plate body vertical lead slide hole, slide and set up the pearl ware in vertical lead slide hole, set up the first connecting spring between pearl ware and vertical lead slide hole bottom and set up the smooth steel ball of leading in the pearl ware.

Furthermore, the horizontal beam is also provided with two groups of auxiliary pressing pieces, the auxiliary pressing pieces are arranged outside the elastic pressing pieces and comprise an auxiliary adjusting seat arranged on the horizontal beam in a sliding manner, a fastening piece arranged on one side of the auxiliary adjusting seat, a fixed barrel arranged below the auxiliary adjusting seat and provided with a rectangular guide hole in cross section, a movable pressing piece arranged in the fixed barrel in a sliding manner and an adjusting component arranged at the upper part of the auxiliary adjusting seat in a rotating manner, the fastening piece comprises a threaded hole arranged on one side of the auxiliary adjusting seat and a fastening bolt arranged in the threaded hole, the movable pressing piece comprises a cuboid slide guide piece arranged in the fixed barrel in a sliding manner and an auxiliary pressing wheel arranged below the cuboid slide guide piece, the cuboid slide guide piece comprises a slide guide piece body, a thread lifting adjusting hole arranged at the upper end of the slide guide piece body and a columnar slide guide cavity arranged at the lower end of the slide guide piece body, the auxiliary pressing wheel comprises a guide sliding block, a second connecting spring, a connecting rod and a pressing wheel, wherein the guide sliding block is arranged in the columnar guide sliding cavity in a sliding mode, the second connecting spring is arranged between the guide sliding block and the columnar guide sliding cavity upper end, the connecting rod is arranged below the guide sliding block and penetrates through the guide sliding part body lower end in a sliding mode, the pressing wheel is arranged at the lower end of the connecting rod, the adjusting assembly comprises a rotating part and a threaded rod, the rotating part is arranged on the auxiliary adjusting seat upper portion, the threaded rod is rotatably arranged on the auxiliary adjusting seat, the upper end of the threaded rod is connected with the rotating part through the auxiliary.

The invention has the advantages and positive effects that: the glass trimming device is provided with the lead screw assembly, so that the top wheel assembly arranged on the lower adjusting seat can be adjusted conveniently, and the flexibility and the application range of the glass trimming device are greatly improved; the glass plate burr trimming device is provided with the pulse lifting top wheel, the pulse lifting top wheel can vibrate up and down, and the lower part of the outer side of the glass plate burr cutting mark is knocked with frequency, so that glass burrs slowly crack along the cutting mark; the elastic pressing piece is arranged, and the pulse lifting top wheel is matched with the elastic pressing piece, so that the edge cleaning efficiency and the finished product rate of the glass raw plate are further improved.

In addition to the technical problems addressed by the present invention, the technical features constituting the technical solutions, and the advantages brought by the technical features of the technical solutions described above, other technical problems solved by the present invention, other technical features included in the technical solutions, and advantages brought by the technical features will be further described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic structural view of a glass trimming device according to the background art of the present invention;

FIG. 2 is a schematic structural diagram of an edge cleaning top wheel device provided by an embodiment of the invention;

FIG. 3 is a schematic view of a resilient compression element provided in accordance with an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a control assembly provided in an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a lead screw assembly provided in an embodiment of the present invention;

FIG. 6 is a schematic structural view of a lift adjustment member provided in an embodiment of the present invention;

FIG. 7 is a schematic diagram of a pulse lifting top wheel according to an embodiment of the present invention;

FIG. 8 is a schematic view of a platen configuration provided by an embodiment of the present invention;

FIG. 9 is a schematic structural diagram of a slide guide assembly according to an embodiment of the present invention;

FIG. 10 is a schematic view of an auxiliary compression element provided in accordance with an embodiment of the present invention;

FIG. 11 is a schematic view of a movable compression element provided in accordance with an embodiment of the present invention;

FIG. 12 is a schematic structural diagram of a rectangular parallelepiped sliding guide according to an embodiment of the present invention;

FIG. 13 is a schematic diagram of an auxiliary roller structure according to an embodiment of the present invention.

In the figure: 1, a frame body; 2, a conveying device; 3, clearing the edge and pushing the wheel device; 310 a lead screw assembly; 311 horizontally rotating the lead screw; 311a first threaded portion; 311b a second threaded portion; 312 horizontal guide rod; 313 adjusting the handle; 320 lower adjustment seats; 330 a top wheel assembly; 4, an elastic pressing piece; 410 a horizontal cross-beam; 420 horizontal adjusting cylinder; 430 an adjusting seat; 440 a platen assembly; 5 a control component; 510 a control box; 520 a top wheel controller; 521 a pressure controller; 522 a pulse controller; 6 lifting and adjusting parts; 610 lower lifting driving cylinder; 620 a horizontal substrate; 630 a slider guide; 631 a slide guide cylinder; 632 a guide bar; 7, pulse lifting top wheels; 710 a housing; 720 vertical sliding guide cavity; 730 an electromagnet; 740 permanent magnet seats; 750 a guide slide bar; 760 a top wheel body; 8, lifting and driving the cylinder; 9, pressing a plate; 910 pressing the plate body; 920 arc-shaped connecting plates; 930 a slide-guiding assembly; 931 vertical guide slide hole; 932 bead dish; 933 first connecting spring; 934 guides the sliding steel balls; 10 auxiliary pressing pieces; 11 auxiliary adjusting seat; 12 a fastener; 1210 threaded holes; 1220 fastening bolts; 13 fixing the cylinder; 14, a movable pressing piece; 1410 rectangular parallelepiped slide guide member; 1411 a runner body; 1412 thread lifting adjusting holes; 1413 a cylindrical slide guide cavity; 1420 assist the puck; 1421 a guide block; 1422 second connecting spring; 1423 a connecting rod; 1424 pinch roller; 15 an adjustment assembly; 1510 a rotating member; 1520 threaded rod

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1, 2, 3 and 4, a glass trimming device is characterized by comprising a frame body 1, a conveying device 2 arranged in the middle of the frame body 1, a trimming top wheel device 3 arranged below the frame body 1, an elastic pressing piece 4 arranged above the frame body 1 and a control assembly 5 configured to control the trimming top wheel device 3 and the elastic pressing piece 4;

the edge cleaning top wheel device 3 comprises a screw rod assembly 310 arranged below the conveying device 2, two lower adjusting seats 320 symmetrically arranged on the screw rod assembly 310 and a top wheel assembly 330 arranged on the lower adjusting seats 320, wherein the top wheel assembly 330 comprises a lifting adjusting part 6 arranged on the lower adjusting seats 320 and a pulse lifting top wheel 7 which is arranged above the lifting adjusting part 6 and can vibrate up and down;

the elastic pressing piece 4 comprises a horizontal beam 410 arranged above the conveying device 2, two horizontal adjusting cylinders 420 symmetrically arranged at two ends of the horizontal beam 410, two upper adjusting seats 430 arranged on the horizontal beam 410 in a sliding manner, and a pressing plate assembly 440 arranged below the upper adjusting seats 430, wherein the upper adjusting seats 430 are respectively connected with the output ends of the horizontal adjusting cylinders 420 at corresponding sides, and the pressing plate assembly 440 comprises an upper lifting driving cylinder 8 arranged below the upper adjusting seats 430 and a pressing plate 9 arranged at the output end of the upper lifting driving cylinder 8;

the control assembly 5 includes a control box 510 configured to control the elevation adjusting member 6, the horizontal adjusting cylinder 420, and the elevation driving cylinder 8, and a head wheel controller 520 configured to control the pulse elevating head wheel 7.

In this embodiment, the frame body 1 is a basic structure of the glass trimming device, the conveying device 2 is arranged in the middle of the frame body 1 and conveys and cuts glass raw plates with a knife mark, and the trimming top wheel device 3 is arranged below the frame body 1 and is a key component of the glass trimming device in this embodiment, and comprises a screw assembly 310 arranged below the conveying device 2, two lower adjusting seats 320 symmetrically arranged on the screw assembly 310, and a top wheel assembly 330 arranged on the lower adjusting seats 320, wherein the screw assembly 310 is a horizontal adjusting component of the top wheel assembly 330, the positions of the two lower adjusting seats 320 can be adjusted according to needs through the screw assembly 310, and then the top wheel assembly 330 arranged on the lower adjusting seats 320 is adjusted, so that the flexibility of the glass trimming device is greatly improved, the application range of the glass trimming device is greatly improved, and the top wheel assembly 330 is a trimming component of the glass trimming device, in this embodiment, knock-pin subassembly 330 is equipped with lift adjustment spare 6 and pulse lift knock-pin 7, lift adjustment spare 6 sets up the top of adjusting seat 320 down, pulse lift knock-pin 7 sets up the top at lift adjustment spare 6, can be through adjusting the height of lift adjustment spare 6 as required, and then adjust the distance between pulse lift knock-pin 7 and the former board of glass, in this embodiment, pulse lift knock-pin 7 can vibrate from top to bottom, there is the strike of frequency along former board deckle edge sword seal outside below of glass, make glass deckle edge slowly split along the sword seal, it is unbalanced to compare the striking force that prior art knocked by hand, concave flange has been eliminated, the planarization that former board deckle edge sword seal of glass split has been improved greatly, simultaneously greatly reduced formed glass's loss and cost of labor.

In the embodiment, the elastic pressing piece 4 is a glass limiting device in the ascending knocking process of the pulse lifting top wheel 7, the glass is prevented from ascending higher along with the pulse lifting top wheel 7 and being damaged when falling, the distance between the two elastic pressing pieces 4 is smaller than the distance between the two pulse lifting top wheels 7, in the embodiment, the elastic pressing piece 4 comprises a horizontal beam 410 arranged above the conveying device 2, two horizontal adjusting cylinders 420 symmetrically arranged at two ends of the horizontal beam 410, two upper adjusting seats 430 arranged on the horizontal beam 410 in a sliding manner and a pressing plate assembly 440 arranged below the upper adjusting seats 430, in the embodiment, the upper adjusting seats 430 are respectively connected with the output ends of the horizontal adjusting cylinders 420 at corresponding sides, when the glass edge cleaning device works, the distance between the pressing plate assemblies 440 arranged below the upper adjusting seats 430 can be adjusted through the two horizontal adjusting cylinders 420, and the flexibility and the application range of the glass edge cleaning device are further improved, in this embodiment, the pressing plate assembly 440 includes that the last lift that sets up in last regulation seat 430 below drives actuating cylinder 8 and sets up at last lift and drive the clamp plate 9 of actuating cylinder 8 output, drives actuating cylinder 8 through the rising and falling and can adjust the distance between clamp plate 9 and the glass original plate according to glass original plate thickness, and then is convenient for carry on spacingly to the glass original plate. In the embodiment, the pulse lifting top wheel 7 is matched with the elastic pressing piece 4, so that the primary edge cleaning efficiency and the yield of the glass original plate are greatly improved.

In this embodiment, the control unit 5 includes a control box 510 configured to control the elevation adjusting member 6, the horizontal driving cylinder, and the vertical driving cylinder 8, and a top wheel controller 520 configured to control the pulse elevating top wheel 7, and the frequency of vertical vibration of the pulse elevating top wheel 7 can be controlled by the top wheel controller 520.

As shown in fig. 5, in a preferred embodiment, the lead screw assembly 310 includes a horizontal rotation lead screw 311, horizontal guide rods 312 symmetrically disposed on the upper and lower sides of the horizontal rotation lead screw 311 and sliding through the lower adjustment seats 320, and an adjustment handle 313 disposed on one side of the horizontal rotation lead screw 311, wherein the horizontal rotation lead screw 311 includes a first thread portion 311a and a second thread portion 311b symmetrically disposed, the thread directions of the first thread portion 311a and the second thread portion 311b are opposite, and the two lower adjustment seats 320 are disposed on the first thread portion 311a and the second thread portion 311b, respectively.

In this embodiment, the horizontal rotation screw 311 is disposed on the frame body 1 below the conveying device 2, the lower adjustment base 320 is disposed on the horizontal rotation screw 311, the horizontal guide sliding rods 312 are symmetrically disposed on the upper and lower sides of the horizontal rotation screw 311, and slidably penetrate through the lower adjustment base 320, and the horizontal guide sliding rods 312 contribute to the stability of the lower adjustment base 320 when moving on the horizontal rotation screw 311; in this embodiment, the horizontal rotation lead screw 311 is symmetrically provided with a first thread portion 311a and a second thread portion 311b, the two lower adjusting bases 320 are respectively disposed on the first thread portion 311a and the second thread portion 311b, when the adjusting handle 313 is rotated, the two lower adjusting bases 320 move inward or outward at the same time, so as to adjust the distance between the two lower adjusting bases 320, in this embodiment, the adjusting efficiency of the lower adjusting bases 320 is greatly improved through the lead screw assembly 310.

As shown in fig. 6, in a preferred embodiment, the lifting adjusting member 6 includes a lower lifting driving cylinder 610 disposed in the middle of the lower adjusting base 320, a horizontal base plate 620 disposed on the top of the lower lifting driving cylinder 610, and a plurality of guide slides 630 disposed between the horizontal base plate 620 and the lower adjusting base 320, the lower lifting driving cylinder 610 is connected to the control box 510, and the guide slides 630 include a guide cylinder 631 vertically disposed on the lower adjusting base 320 and a guide rod 632 with one end fixed below the horizontal base plate 620 and one end slidably disposed in the guide cylinder 631.

In this embodiment, the lifting adjusting member 6 is provided with a lower lifting driving cylinder 610, a horizontal base plate 620 and a plurality of sliding guides 630, wherein the lower lifting driving cylinder 610 is a power mechanism of the lifting adjusting member 6 and is connected to the control box 510, the horizontal base plate 620 is disposed at an output end of the lower lifting driving cylinder 610 and can ascend and descend along with the expansion and contraction of the output end of the lower lifting driving cylinder 610, and the plurality of sliding guides 630 are disposed between the horizontal base plate 620 and the lower adjusting base 320.

As shown in fig. 7, in a preferred embodiment, the pulse lifting top wheel 7 includes a housing 710 disposed on a horizontal substrate 620, a vertical sliding guide cavity 720 disposed in the housing 710, an electromagnet 730 disposed at the bottom of the vertical sliding guide cavity 720, a permanent magnet holder 740 slidably disposed at the upper portion of the electromagnet 730 and having a magnetic pole opposite to that of the electromagnet 730, a sliding guide rod 750 disposed at the upper portion of the permanent magnet holder 740 and slidably penetrating through the housing, and a top wheel body 760 disposed at the upper end of the sliding guide rod 750, wherein the top wheel controller 520 includes a pressure controller 521 configured to control the magnitude of the magnetic force of the electromagnet 730 and a pulse controller 522 configured to control the on-off frequency of the pressure controller 521.

In this embodiment, the pulse lifting top wheel 7 is provided with a shell 710, a vertical sliding guide cavity 720, an electromagnet 730, a permanent magnet seat 740, a sliding guide rod 750 and a top wheel body 760, wherein the shell 710 is arranged on the horizontal substrate 620, the vertical sliding guide cavity 720 is arranged in the shell 710, the electromagnet 730 is arranged at the bottom of the vertical sliding guide cavity 720, and the permanent magnet seat 740 in sliding fit with the vertical sliding guide cavity 720 is arranged at the upper part of the electromagnet 730 Make the pulse controller 522 of pressure controller 521 switching-on and switching-off frequency, the magnetic force size of the voltage control electro-magnet 730 that adjusts electro-magnet 730 circular telegram through pressure controller 521, and then strike the deckle edge dynamics of glass former plate through permanent magnet seat 740 control head pulley body 760, the equilibrium of atress when helping the clear limit of glass former plate, frequency through pulse controller 522 control pressure controller 521 switching-on and switching-off and then control head pulley body 760 strike the frequency of glass former plate, pressure controller 521 cooperatees with pulse controller 522, be convenient for adjust the dynamics and the frequency that pulse lift head pulley 7 struck as required, the range of application of pulse lift head pulley 7 has been improved greatly, help the balanced atress when glass clear limit.

As shown in fig. 8, in a preferred embodiment, the pressure plate 9 includes a pressure plate body 910, arc-shaped connection plates 920 disposed at both ends of the pressure plate body 910, and a plurality of slide guide assemblies 930 disposed below the pressure plate body 910.

In this embodiment, the clamp plate 9 includes clamp plate body 910, set up the arc connecting plate 920 at clamp plate body 910 both ends and set up a plurality of smooth subassemblies 930 of leading in clamp plate body 910 below, clamp plate body 910 both ends are equipped with arc connecting plate 920, the former board of glass of being convenient for passes through the clamp plate 9 tip smoothly, clamp plate body 910 below is equipped with a plurality of smooth subassemblies 930 of leading, the frictional force between clamp plate body 910 and the former board of glass has been reduced, the former board of glass of being convenient for passes through clamp plate body 910 fast, in this embodiment, clamp plate 9 cooperatees with pulse lift top wheel 7, the efficiency of the former board deckle edge of glass clearance has been improved greatly.

As shown in FIG. 9, in a preferred embodiment, the slide guide assembly 930 includes a vertical slide guide hole 931 disposed on the pressure plate body 910, a ball dish 932 slidably disposed in the vertical slide guide hole 931, a first connecting spring 933 disposed between the ball dish 932 and the bottom of the vertical slide guide hole 931, and a slide guide ball 934 disposed in the ball dish 932.

In this embodiment, lead smooth subassembly 930 and be equipped with vertical guide sliding hole 931, pearl ware 932, first connection spring 933 and lead smooth steel ball 934, vertical guide sliding hole 931 sets up in clamp plate body 910 below, pearl ware 932 slides and sets up in vertical guide sliding hole 931, be equipped with first connection spring 933 between pearl ware 932 and vertical guide sliding hole 931 bottom, lead smooth steel ball 934 and set up in pearl ware 932, effect between leading smooth steel ball 934 and the glass former board has been injectd to first connection spring 933, in operation, when pulse lift top wheel 7 knocks the glass former board, it has the effect of leading smooth buffering to lead smooth subassembly 930, it is too big to avoid pulse lift top wheel 7 to strike the dynamics, the collision of glass former board and clamp plate body 910 leads to the glass former board to appear the crack, the yield of glass former board clear edge has been improved greatly.

As shown in fig. 10, 11, 12 and 13, in a preferred embodiment, two sets of auxiliary pressing pieces 10 are further disposed on the horizontal beam 410, the auxiliary pressing pieces 10 are disposed outside the elastic pressing piece 4, and include an auxiliary adjusting seat 11 slidably disposed on the horizontal beam 410, a fastening piece 12 disposed on one side of the auxiliary adjusting seat 11, a fixed barrel 13 disposed below the auxiliary adjusting seat 11 and having a rectangular cross-section of a guiding and sliding hole, a movable pressing piece 14 slidably disposed in the fixed barrel 13, and an adjusting assembly 15 rotatably disposed on an upper portion of the auxiliary adjusting seat 11, the fastening piece 12 includes a threaded hole 1210 disposed on one side of the auxiliary adjusting seat 11 and a fastening bolt 1220 disposed in the threaded hole 1210, the movable pressing piece 14 includes a rectangular guiding and sliding piece 1410 slidably disposed in the fixed barrel 13 and an auxiliary pressing wheel 1420 disposed below the rectangular guiding and sliding piece 1410, and the rectangular guiding and sliding piece 1410 includes a guiding and sliding piece body 1411, a sliding piece body, The adjusting assembly 15 comprises a rotary member 1510 arranged on the upper portion of the auxiliary adjusting seat 11 and a threaded rod 1520 rotatably arranged on the auxiliary adjusting seat 11, the upper end of the threaded rod 1520 penetrates through the auxiliary adjusting seat 11 to be connected with the rotary member 1510, and the lower end of the threaded rod 1520 is matched with the threaded lifting adjusting hole 1412 on the upper end of the slide guiding body 1411.

In this embodiment, two sets of auxiliary pressing parts 10 are both disposed on the horizontal beam 410 outside the elastic pressing part 4, and the distance between the two sets of auxiliary pressing parts 10 is greater than the distance between the two pulse lifting top wheels 7, the auxiliary pressing part 10 is provided with an auxiliary adjusting seat 11, a fastening member 12, a fixed cylinder 13, a movable pressing part 14 and an adjusting assembly 15, wherein the auxiliary adjusting seat 11 is slidably disposed on the horizontal beam 410, the fastening member 12 is disposed on one side of the auxiliary adjusting seat 11, and includes a threaded hole 1210 disposed on one side of the auxiliary adjusting seat 11 and a fastening bolt 1220 disposed in the threaded hole 1210, the auxiliary adjusting seat 11 can be fixed on the horizontal beam 410 by the fastening bolt 1220, the fixed cylinder 13 is disposed below the auxiliary adjusting seat 11, in this embodiment, the section of the vertical sliding hole 931 channel of the fixed cylinder 13 is rectangular, the movable pressing part 14 is slidably disposed in the vertical sliding hole 931 channel of the fixed cylinder 13, the movable pressing piece 14 is a key component of the auxiliary pressing piece 10, and is provided with a rectangular parallelepiped sliding guide piece 1410 matched with the vertical sliding guide hole 931 of the fixed cylinder 13 and an auxiliary pressing wheel 1420 located below the rectangular parallelepiped sliding guide piece 1410, in this embodiment, the rectangular parallelepiped sliding guide piece 1410 includes a sliding guide body 1411 of a rectangular parallelepiped structure matched with the fixed cylinder 13, a thread lifting adjusting hole 1412 disposed at the upper end of the sliding guide body 1411 and a cylindrical sliding guide cavity 1413 disposed at the lower end of the sliding guide body 1411, the auxiliary pressing wheel 1420 includes a sliding guide block 1421 slidably disposed in the cylindrical sliding guide cavity 1413, a second connecting spring 1422 disposed between the sliding guide block 1421 and the upper end of the cylindrical sliding guide cavity 1413, a connecting rod 1423 disposed below the sliding guide block 1421 and slidably passing through the lower end of the sliding guide body 1411, and a pressing wheel 1424 disposed at the lower end of the connecting rod 1423, in this embodiment, the acting force of the second spring on the glass raw plate through the pressing wheel 1424 can be adjusted by adjusting the lifting of the rectangular parallelepiped, in the embodiment, the movable pressing piece 14 and the elastic pressing plate 9 are matched with the pulse lifting top wheel 7, so that the rough edge cleaning efficiency and the rough edge cleaning effect of the glass raw plate are greatly improved; in this embodiment, the upper portion of the auxiliary adjusting seat 11 is provided with the adjusting assembly 15 in a rotating manner, the adjusting assembly 15 includes a rotating member 1510 arranged on the upper portion of the auxiliary adjusting seat 11 and a threaded rod 1520 rotatably arranged on the auxiliary adjusting seat 11, in this embodiment, the upper end of the threaded rod 1520 penetrates through the auxiliary adjusting seat 11 to be connected with the rotating member 1510, the lower end of the threaded rod is matched with a thread lifting adjusting hole 1412 at the upper end of the slide guiding body 1411, the slide guiding body 1411 can be adjusted to ascend or descend by rotating the rotating member 1510, and then the second spring is adjusted to act on the acting force of the raw glass plate through the pressing wheel 1424, so that the convenience of adjusting the auxiliary pressing member 10 is greatly improved.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the application of the present invention should fall within the scope of the patent coverage of the present invention.