CN208601237U - A kind of four side edge polisher of glass - Google Patents

Abstract

The utility model relates to a kind of four side edge polisher of glass and its edging methods, it includes transportation system, edging system and side pressure system, and the transportation system includes two conveying mechanisms of forward and backward docking, are formed with edging space between two conveying mechanisms；The top positioned at the edging space and glass conveying direction are vertically installed with first crossbeam guide rail, second cross beam guide rail and third beam guideway, first crossbeam guide rail, second cross beam guide rail and third beam guideway slide respectively is provided at least one movable bistrique group, when glass is conveyed through glass edge-grinding machine, the movable bistrique group of first crossbeam guide rail processes the front of glass, the movable bistrique group of second cross beam guide rail processes the two sides of glass, the movable bistrique group of third beam guideway processes the back of glass, glass is processed using multiple movable bistrique groups, the movable bistrique group division of labor is clear, accelerate the edging efficiency of glass, improve the practicability of glass edge-grinding machine, and it is structurally reasonable.

Description

A kind of four side edge polisher of glass

Technical field

The utility model relates to glass processing device field, in particular to a kind of four side edge polisher of glass.

Background technique

Glass is hard and crisp because of matter, and machining is more difficult, such as uses in furniture glass, industrial glass, building doors and windows curtain wall It often needs to carry out glass-cutting during glass processing, because of the rigidity of glass, four sides of glass and the top of the horn razor-edge benefit after cutting, no Beauty is only influenced, and directly affects the safety of construction personnel in installation process, to meet the techniques such as safety, break-resistance, beauty It is required that almost all of glass secondary operation or as required before product carry out manually or mechanically method carry out edging processing. Existing glass edge-grinding machine is numerous in variety, and processing method is different, but glass in process or exist compress positioning it is unstable, Or procedure of processing it is cumbersome the disadvantages of, it is difficult to meet the high-precision requirement of processing, and the process-cycle is longer.

Applicant proposes glass edge-grinding machine and its method of edging patent Shen to Patent Office of the People's Republic of China in 2013.11.25 Please, notification number are as follows: CN103707153A, a kind of glass edge-grinding machine of the patent disclosure and its method of edging, the glass Edge polisher includes that a movable bistrique group and a fixed bistrique group, glass are placed in glass edge-grinding machine, glass edge-grinding machine Fixed bistrique group is ground glass a line, other three sides of movable bistrique group grinding glass, since movable bistrique group needs are pressed Sequence is ground three sides of glass, causes the glass edging engine efficiency lower, is unfavorable for factory and quickly produces.

Utility model content

The purpose of the utility model is to overcome the above-mentioned prior art there are deficiency, and provide a kind of structurally reasonable, glass Glass edging high-efficient four side edge polisher of glass and its edging method.

What the purpose of this utility model was realized in.

A kind of four side edge polisher of glass, including transportation system, edging system and side pressure system, the transportation system include Two conveying mechanisms of forward and backward docking are formed with edging space between two conveying mechanisms；The side pressure system includes side compression Mechanism and side positioning mechanism；The side compression mechanism has two groups, is separately positioned on former and later two conveying mechanisms and is located at defeated The same side of system is sent, each side compression mechanism includes bracket and the side compression component being slidably mounted on bracket；Institute Stating side positioning mechanism correspondingly has two groups, is separately positioned on opposite with side compression mechanism one on former and later two conveying mechanisms Side；The edging system includes edging frame and movable bistrique group, the edging frame include positioned at the edging space top with The vertically disposed first crossbeam guide rail of glass conveying direction, second cross beam guide rail and third beam guideway, the first crossbeam are led Rail, second cross beam guide rail and the sliding of third beam guideway are provided at least one movable bistrique group.It is described activity bistrique group include Sliding part, sliding actuator and grinding head assembly, the sliding part are arranged on edging frame and drive sliding by sliding actuator, Grinding head assembly is connected with sliding part, and grinding head assembly follows sliding part to slide.The top and glass positioned at the edging space Conveying direction is vertically installed with first crossbeam guide rail, second cross beam guide rail and third beam guideway, first crossbeam guide rail, the second cross Beam guide rail and third beam guideway slide respectively is provided at least one movable bistrique group, when glass carry out through glass edge-grinding machine it is defeated When sending, the movable bistrique group of first crossbeam guide rail processes the front of glass, and the movable bistrique group of second cross beam guide rail is to glass Two sides processing, the movable bistrique group of third beam guideway processes the back of glass, grinds by using multiple activities Head group processes glass, and each activity bistrique group division of labor is clear, respectively executes corresponding edging operation, accelerates the edging of glass Efficiency further increases the practicability of glass edge-grinding machine, and structurally reasonable.

The above technical solution can be further improved as follows.

Further, the first crossbeam guide rail sliding is provided with a movable bistrique group, and the sliding of second cross beam guide rail is set It sets there are two movable bistrique group, the sliding of third beam guideway is provided with a movable bistrique group, the activity mill of first crossbeam guide rail Head group is the first movable bistrique group, and the movable bistrique group of two of second cross beam guide rail is respectively that the second movable bistrique group and third are living Rotary bistrique group, the movable bistrique group of third beam guideway are the 4th movable bistrique group.

Further, the described second movable bistrique group and third activity bistrique group are slidably arranged in the in a manner of symmetrical On two beam guideways, glass edging region is formed between the second movable bistrique group and third activity bistrique group.Second activity Glass edging region is formed between bistrique group and third activity bistrique group, when glass passes through glass edging region, the second activity Bistrique group and third activity bistrique group carry out edging to the two sides of glass respectively, improve the edging efficiency of glass, further mention The practicability of high glass edge-grinding machine.

Further, the grinding head assembly includes that chamfering grinding wheel component, side grinding wheel assembly, advance and retreat driving assembly and glass are thick Detection components are spent, the chamfering grinding wheel component includes multiple upper chamfering grinding wheels being staggered up and down and lower chamfering grinding wheel and drive The chamfering driving assembly of dynamic upper chamfering grinding wheel and lower chamfering grinding wheel；The side grinding wheel assembly includes multiple vertically arranged side grinding wheels And the side grinding wheel drive component of driving side emery wheel, it side grinding wheel assembly and chamfering grinding wheel assembly staggering and is mutually perpendicular to arrange；Institute It states advance and retreat driving assembly connection chamfering grinding wheel component and side grinding wheel assembly, advance and retreat driving assembly and thickness of glass detection components is electrically connected It connects, thickness of glass detection components measure thickness of glass and thickness of glass data are passed to advance and retreat driving assembly, advance and retreat driving assembly According to the edging parameter of thickness of glass data point reuse chamfering grinding wheel component or side grinding wheel assembly.

Further, the upper chamfering grinding wheel that is staggered and the lower chamfering grinding wheel up and down have two groups, and it is adjacent side by side Setting.

Further, the thickness of glass detection components include detection module and attachment base, and the attachment base is arranged in side Positioning mechanism surface, detection components are arranged on attachment base.

Further, the detection module includes telescopic cylinder and position sensor, and the telescopic cylinder setting is connecting On seat, the telescopic rod end of telescopic cylinder is provided with glass touch head, and the position sensor is mounted in glass touch head simultaneously Follow telescopic rod mobile.Datum level is set by glass conveying mechanism upper edge (lower surface of glass), cylinder drives telescopic rod It is stretched out towards glass direction, until glass touch head and glass contact, since position sensor is mounted in glass touch head, position Sensor follows glass touch head is mobile to generate displacement data, and position data is transferred to the control of glass edge-grinding machine by position sensor Center processed, control centre calculate the difference in height of displacement data and datum level, to obtain thickness of glass data, control centre will Thickness of glass data pass to advance and retreat driving assembly, advance and retreat driving assembly according to thickness of glass data point reuse chamfering grinding wheel component or The edging parameter of side grinding wheel assembly.

Further, the conveying mechanism includes transfer gantry, multiple idler wheels and feeder motor, and multiple idler wheel settings exist It on transfer gantry, is arranged side by side along the glass interval conveying direction M, feeder motor drives idler wheel to roll.

The beneficial effects of the utility model are as follows:

(1) the utility model, the top positioned at the edging space and glass conveying direction are vertically installed with first Beam guideway, second cross beam guide rail and third beam guideway, first crossbeam guide rail, second cross beam guide rail and third beam guideway point At least one movable bistrique group, when glass is conveyed through glass edge-grinding machine, the work of first crossbeam guide rail Hua Dong be provided with Rotary bistrique group processes the front of glass, and the movable bistrique group of second cross beam guide rail processes the two sides of glass, third crossbeam The movable bistrique group of guide rail processes the back of glass, processes by using multiple movable bistrique groups to glass, respectively A activity bistrique group division of labor is clear, respectively executes corresponding edging operation, does not interfere with each other, accelerate the edging efficiency of glass, further Improve the practicability of glass edge-grinding machine.

(2) the utility model, the grinding head assembly have additional thickness of glass monitoring device, the advance and retreat driving of grinding head assembly Component connects chamfering grinding wheel component and side grinding wheel assembly, and advance and retreat driving assembly and the electrical connection of thickness of glass detection components, glass are thick Thickness of glass data are passed to advance and retreat driving assembly by degree detection components measurement thickness of glass, and advance and retreat driving assembly is according to glass thickness The edging parameter of data point reuse chamfering grinding wheel component or side grinding wheel assembly is spent, grinding head assembly more reasonably adjusts edging angle and mill Side dynamics improves the edging quality of glass edge-grinding machine.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of the preferred embodiment of four side edge polisher of the utility model glass.

Fig. 2 is the top view of the preferred embodiment of four side edge polisher of the utility model glass.

Fig. 3 is that the first movable bistrique group of four side edge polisher of the utility model glass carries out processing signal to the front of glass Figure.

The the second movable bistrique group and third activity bistrique group that Fig. 4 is four side edge polisher of the utility model glass are to glass Two sides carry out machining sketch chart.

Fig. 5 is that the 4th movable bistrique group of the utility model glass edge-grinding machine carries out machining sketch chart to the front of glass.

Fig. 6 is that the first movable bistrique group of the utility model glass edge-grinding machine and the 4th movable bistrique group reset schematic diagram.

Fig. 7 is the side pressure system open configuration schematic diagram of four side edge polisher of the utility model glass.

Fig. 8 is the side pressure system clamped condition schematic diagram of four side edge polisher of the utility model glass.

Fig. 9 is the thickness of glass detection components schematic diagram of four side edge polisher of the utility model glass.

Figure 10 is the grinding head assembly stereoscopic schematic diagram of the utility model.

Figure 11 is the main view of Figure 10.

Figure 12 is that the grinding head assembly of the utility model processes the arranged on left and right sides side schematic diagram of glass.

Figure 13 is that the grinding head assembly of the utility model processes the forward and backward side two sides schematic diagram of glass.

Specific embodiment

The utility model is further described with reference to the accompanying drawings and embodiments.

Specific embodiment of the present utility model is described in detail to attached drawing 13 below in conjunction with attached drawing 1.It should be understood that , it is practical new to be not limited to this specific embodiment described herein is merely to illustrate and explains the utility model Type.

Fig. 1 show the stereoscopic schematic diagram of the preferred embodiment of the four side edge polisher of glass of the utility model, the glass four Side edge polisher includes transportation system 1, edging system 2 and side pressure system 3.Transportation system 1 conveys glass 9, edging system Unite each side of 2 pairs of glass 9 polishing, side pressure system 3 to glass 9 compress, in order to edging system 2 to glass 9 polish.

The transportation system 1 includes two conveying mechanisms 8 of forward and backward docking, is formed with edging between two conveying mechanisms 8 Space 4.Former and later two conveying mechanisms 8 independently control operation.Each conveying mechanism 8 includes transfer gantry 11, multiple idler wheels 12 and feeder motor (not shown).Multiple idler wheels 12 are arranged on transfer gantry 11, send the direction interval M side by side along glass defeated 9 Setting.Feeder motor drives idler wheel 12 to roll.Specifically, multiple idler wheels 12 can be connected by chain drive, by a feeder motor Wherein an idler wheel 12 rotates for driving, to drive other idler wheels to rotate, to keep the glass 9 being laid on idler wheel 12 mobile.

As depicted in figs. 1 and 2, the edging system 2 includes edging frame 21 and movable bistrique group 5, and the edging frame 21 wraps Include positioned at the edging space 4 top and the vertically disposed first crossbeam guide rail of glass conveying direction, second cross beam guide rail and Third beam guideway, the first crossbeam guide rail 211, second cross beam guide rail 212 and third beam guideway 213 sliding be provided with to A few movable bistrique group 5.

The activity bistrique group 5 includes that grinding head assembly 53, sliding part 51 and sliding actuator 52, the sliding part 51 are arranged On edging frame 21 and by the sliding driving sliding of actuator 52, grinding head assembly 53 and sliding part 51 are connected, grinding head assembly 53 with It is slided with sliding part 51.

As shown in Fig. 9 to Figure 13, the grinding head assembly 53 includes chamfering grinding wheel component 54, side grinding wheel assembly 55, retreats and drive Dynamic component 56 and thickness of glass detection components 7.The chamfering grinding wheel component 54 includes chamfering mill on two groups to be staggered up and down Take turns the chamfering driving assembly of chamfering grinding wheel 542 and driving upper chamfering grinding wheel 541 and lower chamfering grinding wheel 542 under 541 and two groups 543；The side grinding wheel assembly 55 includes the side grinding wheel drive of two vertically arranged side grinding wheels 551 and driving side emery wheel 551 Component 552, side grinding wheel assembly 55 are staggered with chamfering grinding wheel component 54 and are mutually perpendicular to arrange.

As shown in figure 9, the thickness of glass detection components 7 include detection module 71 and attachment base 72, the attachment base 72 Setting is arranged on attachment base 72 in 32 surface of side positioning mechanism, detection components 7.The detection module 71 includes telescopic cylinder 711 and position sensor 712.The telescopic cylinder 711 is arranged on attachment base 72,713 end of telescopic rod of telescopic cylinder 711 Portion is provided with glass touch head 714, and the position sensor 712 is mounted in glass touch head 714 and telescopic rod 713 is followed to move It is dynamic.The advance and retreat driving assembly 56 connects chamfering grinding wheel component 54 and side grinding wheel assembly 55, and advance and retreat driving assembly 56 and glass are thick Detection components 7 are spent to be electrically connected.Specifically, when glass 9 is placed on conveying mechanism 8, the conveying mechanism 8 upper edge (following table of glass Face) it is set as datum level, the telescopic cylinder 711 of thickness of glass monitoring assembly 7 is stretched out towards 9 surface of glass, and glass touch head 714 is touched Encounter 9 surface of glass, since position sensor 712 is arranged in glass touch head 714, position sensor 712 follows glass to touch 714 movements of meeting and discussing generate displacement datas, and position data is transferred to the control centre of glass edge-grinding machine by position sensor 712, is controlled The displacement data of center calculation out position sensor 712 processed and the difference in height of datum level are controlled to obtain 9 thickness data of glass 9 thickness data of glass is passed to advance and retreat driving assembly 56 by center processed, and advance and retreat driving assembly 56 is adjusted according to 9 thickness data of glass The edging parameter of chamfering grinding wheel component 54 or side grinding wheel assembly 55 is (such as the driving pressure of advance and retreat driving assembly 56, grinding head assembly 53 The opposite edging speed with glass 9, under the advance and retreat timing different driving power and edging speed of advance and retreat driving assembly 56, wheel release and It is variant to retract the time).

As shown in Figure 7 and Figure 8, the side pressure system 3 includes side compression mechanism 31 and side positioning mechanism 32；The side compression Mechanism 31 has two groups, is separately positioned on former and later two conveying mechanisms 8 and is located at the same side of transportation system 1, each side pressure Tight mechanism 31 includes detection switch 313, bracket 311 and the side compression component 312 being slidably mounted on bracket 311.Institute Stating side positioning mechanism 32 correspondingly has two groups, is separately positioned on former and later two conveying mechanisms 8 opposite with side compression mechanism 31 Side.Specifically, when front delivery mechanism 8 does not put glass 9, side compression component 312 is in tip-up state, avoids glass 9 Side compression component 312 is collided when being put into conveying mechanism 8, achievees the purpose that glass 9 is protected.When glass 9 is put into conveying mechanism 8, Detection switch 313 in side compression mechanism 31 detects glass, if glass 9 is not detected, 312 high speed of side compression component is toward side positioning Mechanism 32 is drawn close, if detect glass 9,312 high speed of side compression component increases side compression mechanism 31 far from side positioning mechanism 32 With the spacing of side positioning mechanism 32, it is convenient for placing glass 9, when side compression component 312 is close to 9 edge of glass, side compression component 312 slow down movement speed and compress clamping glass 9 towards 9 edge of glass, and acquire 9 width data of glass.

As shown in Fig. 3 to Fig. 6, the course of work of four side edge polisher of the utility model glass are as follows:

A: start the transportation system 1 and set the glass 9 conveying to the front 91 of the glass 9 and first crossbeam guide rail The movable bistrique group 501 of the first of 211 is aligned, the transportation system 1 out of service；

B: adjusting the side pressure system 3 of front side, and the two sides of the glass 9 is made to be located in the institute on the conveying mechanism 8 of front side It states between side compression component 312 and side positioning mechanism 32；

C: the side pressure system 3 of front side calculates the width of glass 9, the second movable bistrique group 502 and third activity bistrique group 503 and rear side side pressure system 3 it is idle when, the second movable bistrique group 502 and third activity bistrique group 503 can be according to glass 9 width slides in opposition along second cross beam guide rail 212, adjusts the distance in glass edging region 505, the side pressure system of rear side 3 Acted according to the width of glass 9, adjust the side compression component 312 on the conveying mechanism 8 of rear side and side positioning mechanism 32 it Between distance；

D: the movable bistrique group 501 of starting first, the first movable bistrique group 501 is by the first of the first crossbeam guide rail 211 Hold the front 91 that glass 9 is completed the process to second end sliding, the out of service first movable bistrique group 501；

E: glass 9 is moved along by the transportation system 1, the movable bistrique group 502 of starting second and third activity bistrique group 503, when 9 approach glass edging region 505 of glass, the second movable bistrique group 502 and third activity bistrique group 503 are respectively to approach 9 two sides 92,93 of glass in glass edging region 505 are processed, until glass 9 passes through glass edging region 505；

F: the transportation system 1 keeps moving forward glass 9, and glass 9 enters the conveying mechanism 8 of rear side, glass 9 Back 94 is aligned with the 4th movable bistrique group 504, and the transportation system 1 out of service adjusts the side pressure system 3 of rear side, makes institute State glass 9 two sides 92,93 be located in rear side conveying mechanism 8 on the side compression component 312 and side positioning mechanism 32 Between；

G: the movable bistrique group 504 of starting the 4th, the 4th movable bistrique group 504 is by the first of the third beam guideway 213 Hold the back 94 that the glass 9 is completed the process to second end sliding, the described 4th movable bistrique group 504 out of service；

H: the conveying mechanism 8 of glass 9 toward rear side is discharged the transportation system 1, and the first movable bistrique group 501 is along the The second end of one beam guideway 211 is resetted to first end movement, and the 4th movable bistrique group 504 is along third beam guideway 213 Second end to first end movement resetted, for next time processing glass 9 prepare.

The utility model, the first movable bistrique group 201 slide the progress of front 91 to glass 9 along first crossbeam guide rail 211 Processing, the second movable bistrique group 502 and third activity bistrique group 503 are symmetrically set on second cross beam guide rail 212, and second Movable bistrique group 502 and third activity bistrique group 503 are slided along second cross beam guide rail 212, the second movable bistrique group 502 and third Glass edging region 505 is formed between movable bistrique group 503, when 9 approach glass edging region 505 of glass, the second movable bistrique Group 502 and third activity bistrique group 503 process the two sides 92,93 of glass 9, and the 4th movable bistrique group 504 is along third Beam guideway 213, which slides, processes the back 94 of glass 9, therefore the first movable bistrique group of movable bistrique group 501, second 502, the different sides that third activity bistrique group 503 and the 4th movable bistrique group 504 respectively correspond glass 9 are processed, each work The division of labor of rotary bistrique group 5 is clear, respectively executes corresponding edging operation, does not interfere with each other, the edging time of reduction activity bistrique group 5, add The edging efficiency of fast glass 9, further increases the practicability of glass edge-grinding machine.

Claims (8)

1. a kind of four side edge polisher of glass, including transportation system (1), edging system (2) and side pressure system (3), feature exists In the transportation system (1) includes two conveying mechanisms (8) of forward and backward docking, is formed with mill between two conveying mechanisms (8) Side space (4)；

The side pressure system (3) includes side compression mechanism (31) and side positioning mechanism (32)；The side compression mechanism (31) has Two groups, it is separately positioned on former and later two conveying mechanisms (8) and is located at the same side of transportation system (1), each side compression mechanism It (31) include bracket (311) and the side compression component (312) being slidably mounted on bracket (311)；The side positioning machine Structure (32) correspondingly has two groups, is separately positioned on opposite with side compression mechanism (31) one on former and later two conveying mechanisms (8) Side；

The edging system (2) includes edging frame (21) and movable bistrique group (5), and the edging frame (21) includes being located at the mill The top in side space (4) and the vertically disposed first crossbeam guide rail (211) of glass conveying direction, second cross beam guide rail (212) and Third beam guideway (213), the first crossbeam guide rail (211), second cross beam guide rail (212) and third beam guideway (213) Sliding is provided at least one movable bistrique group (5)；

The activity bistrique group (5) includes sliding part (51), sliding actuator (52) and grinding head assembly (53), the sliding part (51) it is arranged on edging frame (21) and is slided by sliding actuator (52) driving, grinding head assembly (53) and sliding part (51) is even It connects, grinding head assembly (53) follows sliding part (51) to slide.

2. four side edge polisher of glass according to claim 1, it is characterised in that: first crossbeam guide rail (211) sliding is set It is equipped with a movable bistrique group (5), there are two movable bistrique group (5), third beam guideway is sliding for second cross beam guide rail sliding setting Dynamic to be provided with a movable bistrique group (5), the movable bistrique group (5) of first crossbeam guide rail (211) is the first movable bistrique group (501), two of second cross beam guide rail (212) movable bistrique groups (5) are respectively the second movable bistrique group (502) and third activity Bistrique group (503), the movable bistrique group (5) of third beam guideway (213) are the 4th movable bistrique group (504).

3. four side edge polisher of glass according to claim 2, it is characterised in that: the second movable bistrique group (502) and the Three movable bistrique groups (503) are slidably arranged on second cross beam guide rail (212) in a manner of symmetrical, the second movable bistrique group (502) glass edging region (505) are formed between third activity bistrique group (503).

4. four side edge polisher of glass according to claim 1, it is characterised in that: the grinding head assembly (53) includes chamfering grinding wheel Component (54), side grinding wheel assembly (55), advance and retreat driving assembly (56) and thickness of glass detection components (7), the chamfering grinding wheel group Part (54) includes multiple upper chamfering grinding wheels (541) being staggered up and down and lower chamfering grinding wheel (542) and upper chamfering is driven to grind Take turns the chamfering driving assembly (543) of (541) and lower chamfering grinding wheel (542)；The side grinding wheel assembly (55) includes multiple vertical cloth The side grinding wheel drive component (552) of the side grinding wheel (551) and driving side emery wheel (551) set, side grinding wheel assembly (55) and chamfering Abrasive wheel assembly (54) is staggered and is mutually perpendicular to arrange；Advance and retreat driving assembly (56) connection chamfering grinding wheel component (54) and side grinding Wheel assembly (55), advance and retreat driving assembly (56) and thickness of glass detection components (7) electrical connection, thickness of glass detection components (7) are surveyed Amount thickness of glass passes to thickness of glass data advance and retreat driving assembly (56), and advance and retreat driving assembly (56) is according to thickness of glass number According to adjustment chamfering grinding wheel component (54) or the edging parameter of side grinding wheel assembly (55).

5. four side edge polisher of glass according to claim 4, it is characterised in that: the upper chamfering grinding wheel being staggered up and down (541) and lower chamfering grinding wheel (542) has two groups, and adjacent arranged side by side.

6. four side edge polisher of glass according to claim 4, it is characterised in that: the thickness of glass detection components (7) include Detection module (71) and attachment base (72), the attachment base (72) are arranged on side positioning mechanism (32) surface, and detection components (7) are set It sets on attachment base (72).

7. four side edge polisher of glass according to claim 6, it is characterised in that: the detection module (71) includes telescopic cylinder (711) it is arranged on attachment base (72) with position sensor (712), the telescopic cylinder (711), telescopic cylinder (711) are stretched Contracting bar (713) end is provided with glass touch head (714), and the position sensor (712) is mounted in glass touch head (714) And follow telescopic rod (713) mobile.

8. four side edge polisher of glass according to claim 1, it is characterised in that: the conveying mechanism includes transfer gantry (11), multiple idler wheels (12) and feeder motor, multiple idler wheels (12) are arranged on transfer gantry (11), along glass conveying direction (M) interval is arranged side by side, and feeder motor drives idler wheel (12) to roll.