CN203254250U

CN203254250U - All-in-one mechanism for grinding edges and end face of glass

Info

Publication number: CN203254250U
Application number: CN 201320286999
Authority: CN
Inventors: 曾浩东; 祝元宏; 朱根犁
Original assignee: EKANG TENON (BEIJING) EQUIPMENT Co Ltd
Current assignee: EKANG TENON (BEIJING) EQUIPMENT Co Ltd
Priority date: 2013-05-23
Filing date: 2013-05-23
Publication date: 2013-10-30
Anticipated expiration: 2023-05-23

Abstract

The utility model relates to an all-in-one mechanism for grinding the edges and the end face of glass. The all-in-one mechanism comprises an upper edge grinding assembly (100), a lower edge grinding assembly (200), an end face grinding assembly (300) and a combined frame platform (400), wherein the upper edge grinding assembly (100) and the lower edge grinding assembly (200) are arranged in parallel and are mounted at the bottom of the combined frame platform (400); the end face grinding assembly (300) is perpendicular to the upper edge grinding assembly (100) and the lower edge grinding assembly (200) and is mounted at the bottom of the combined frame platform (400). According to the all-in-one mechanism for grinding the edges and the end face of the glass disclosed by the utility model, the upper and lower edges and the end face of the glass can be grinded at the same time and a conventional glass edge machining process of firstly grinding the upper and lower edges and then grinding the end face is changed, so that the efficiency of machining the edges of the glass is greatly improved.

Description

Glass grinding seamed edge end face integral mechanism

Technical field

The utility model relates to a kind of process equipment of glass, specifically, relates to a kind of edging mechanism of glass.

Background technology

For the glass deep processing, plate glass need to be eliminated with edger unit the stress of glass edge after cutting.Along with the automaticity of glass working machine improves constantly, requirement for equipment also improves constantly, because plate glass is in cutting process, because the difference of cutting equipment and the difference of cutting mode, the perpendicularity of glass-cutting end face also has larger gap, and the stress that the glass after causing cutting produces also can be different.Although the mode of existing grind edge can be eliminated a part of stress, for the bad glass of cutting perpendicularity, the elimination of stress is also very undesirable.Meeting so that glass when carrying out tempering, the fragmentation rate improves affects the performance of enterprises.So just only have by single-edge grinding or two-sided grinding its cut surface is also carried out grinding, although these traditional process equipment ground effects are better, but mostly belong to manual or semi-automatic product, the very low labor strength of efficient is large, the edger unit that existing market occurs also is in the state of difference grinding seamed edge and cutting end face, so the automation equipment of a kind of simultaneously grinding of market demand seamed edge and cutting end face.

The utility model content

In order to overcome above-mentioned technical problem, the utility model provides can be with the glass grinding seamed edge end face integral mechanism of grinding lower seamed edge on glass and end face.

To achieve these goals, a kind of glass grinding seamed edge end face integral mechanism described in the utility model comprises the seamed edge grinding subassembly, lower seamed edge grinding subassembly, and the cross grinding assembly, the combination pallet, wherein:

Described upper seamed edge grinding subassembly, lower seamed edge grinding subassembly be arranged in parallel, and are installed on the bottom of combination pallet;

Described cross grinding assembly and described upper seamed edge grinding subassembly and vertical setting of lower seamed edge grinding subassembly, and be installed on the bottom of making up pallet.

Described upper seamed edge grinding subassembly comprises the emery wheel feed arrangement, emery wheel whirligig in the driving, and upper emery wheel, upper abrasive wheel assembly fixed head, wherein:

Described upper emery wheel feed arrangement and the supporting installation of combination stand;

The bottom of described upper emery wheel feed arrangement and upper abrasive wheel assembly fixed head fixture;

The emery wheel whirligig is fixedly mounted on the abrasive wheel assembly fixed head in the described driving;

The emery wheel whirligig fixedly mounts described upper emery wheel with driving upward.

Described upper emery wheel feed arrangement comprises emery wheel feeding motor, upper emery wheel feed bar, upper emery wheel feeding bounce cylinder, upper emery wheel feeding plate; Wherein:

Described upper emery wheel feeding motor is fixedly connected with the combination stand;

Described upper emery wheel feeding motor is fixedly connected with upper emery wheel feeding bounce cylinder by upper emery wheel feed bar;

The cylinder rod of described upper emery wheel feeding bounce cylinder and the fixed installation of upper emery wheel feeding plate;

Described upper emery wheel feeding plate is slidingly connected with the combination pallet;

The bottom of described upper emery wheel feeding plate is fixedly connected with upper abrasive wheel assembly fixed head.

The emery wheel whirligig comprises the emery wheel drive motors in the driving, upper emery wheel power driving module, wherein:

Described upper emery wheel drive motors and the fixed installation of upper abrasive wheel assembly fixed head;

Described upper emery wheel power driving module is fixedly connected with upper abrasive wheel assembly fixed head;

Described upper emery wheel drive motors cooperates installation by upper emery wheel power driving module with upper emery wheel.

Described lower seamed edge grinding subassembly comprises: lower emery wheel feed arrangement, drive lower emery wheel whirligig, and lower emery wheel, lower abrasive wheel assembly fixed head, wherein:

Described lower emery wheel feed arrangement and the supporting installation of combination stand;

The bottom of described lower emery wheel feed arrangement and lower abrasive wheel assembly fixed head fixture;

The emery wheel whirligig is fixedly mounted on the lower abrasive wheel assembly fixed head under the described driving;

Described lower emery wheel and the lower emery wheel whirligig fixed installation of driving.

Described lower emery wheel feed arrangement comprises lower emery wheel feeding motor, lower emery wheel feed bar, lower emery wheel feeding bounce cylinder, lower emery wheel feeding plate; Wherein:

Described lower emery wheel feeding motor is fixedly connected with the combination stand;

Described lower emery wheel feeding motor is fixedly connected with lower emery wheel feeding bounce cylinder by lower emery wheel feed bar;

The cylinder rod of described lower emery wheel feeding bounce cylinder and the fixed installation of lower emery wheel feeding plate;

Described lower emery wheel feeding plate is slidingly connected with the combination pallet;

The bottom of described lower emery wheel feeding plate is fixedly connected with lower abrasive wheel assembly fixed head.

The emery wheel whirligig comprises lower emery wheel drive motors under the described driving, lower emery wheel power driving module, wherein:

Described lower emery wheel drive motors and the fixed installation of lower abrasive wheel assembly fixed head;

Described lower emery wheel power driving module is fixedly connected with lower abrasive wheel assembly fixed head;

Described lower emery wheel drive motors cooperates installation by lower emery wheel power driving module with lower emery wheel.

The cross grinding assembly comprises end face abrasive wheel assembly fixed head, end face emery wheel feed arrangement, Driving plane emery wheel whirligig, Driving plane emery wheel whirligig fixed head, end face emery wheel; Wherein:

Described end face abrasive wheel assembly fixed head and the fixed installation of described combination pallet;

The bottom of one end of end face emery wheel feed arrangement and end face abrasive wheel assembly fixed head installs and fixes;

The other end of end face emery wheel feed arrangement and the fixed installation of Driving plane emery wheel whirligig fixed head;

Driving plane emery wheel whirligig is fixedly mounted on the Driving plane emery wheel whirligig fixed head;

End face emery wheel and the fixed installation of Driving plane emery wheel whirligig.

Described end face emery wheel feed arrangement comprises the Pivoting bearing member, end face emery wheel feeding power assembly; Wherein:

Described end face abrasive wheel assembly fixed head installs and fixes by Pivoting bearing member and Driving plane emery wheel whirligig fixed head;

End face emery wheel feeding power assembly comprises end face emery wheel feeder assembly fixed bar, end face emery wheel feeding cylinder;

End face abrasive wheel assembly fixed head is dynamically connected by end face emery wheel feeder assembly fixed bar and end face emery wheel feeding cylinder axis;

The other end of described end face emery wheel feeding cylinder and Driving plane emery wheel whirligig fixed head axle are dynamically connected.

Described Driving plane emery wheel whirligig comprises the end face grinding wheel motor, end face emery wheel power driving module;

Described end face grinding wheel motor is fixed on the Driving plane emery wheel whirligig fixed head;

Described end face emery wheel power driving module is fixedly connected with Driving plane emery wheel whirligig fixed head;

Described end face grinding wheel motor cooperates installation by end face emery wheel power driving module with the end face emery wheel.

Glass grinding seamed edge end face integral mechanism described in the utility model, the upper seamed edge of upper emery wheel grinding subassembly grinding glass edge, seamed edge under the grinding of lower emery wheel grinding subassembly, the end face of cross grinding assembly grinding glass edge, like this so that the up and down rib of glass edge and end face can synchronous processing polishing, compare with the traditional diamond-making technique of end face separate machined polishing with lower seamed edge on glass, not only saved manpower and equipment cost, and so that the edging working (machining) efficiency of glass has had large increase.

Description of drawings

Fig. 1 is glass grinding seamed edge end face integral mechanism general assembly drawing described in the utility model.

Fig. 2 is seamed edge grinding subassembly and lower seamed edge grinding subassembly front view on the glass grinding seamed edge end face integral mechanism described in the utility model.

Fig. 3 is the left view of Fig. 2.

Fig. 4 is glass grinding seamed edge end face integral mechanism top view described in the utility model.

Fig. 5 is glass grinding seamed edge end face integral mechanism cross grinding assembly front view described in the utility model.

Fig. 6 is the left view of Fig. 5.

Wherein:

100. 200. times seamed edge grinding subassemblies of upper seamed edge grinding subassembly

300. cross grinding assembly 400. combination pallets

2. go up 3. times emery wheel feedings of emery wheel feeding bounce cylinder motor

4. go up emery wheel drive motors 9. glass

10. end face emery wheel bounce cylinder 11. end face emery wheel feeding cylinders

12. end face grinding wheel motor 13. end face emery wheel polywedge bets

Emery wheel feeding motor on the driven multi-wedge belt pulley 15. of 14 end face emery wheels

16. Pivoting bearing 19. end face emery wheels

20. 21. times emery wheels of upper emery wheel

22. 23. times emery wheel polywedge bets of the driven multi-wedge belt pulley of lower emery wheel

25. 31. times emery wheel drive motors of upper emery wheel linear axis

32. emery wheel polywedge bet on the driven multi-wedge belt pulley 33. of upper emery wheel

34. emery wheel active multi-wedge belt pulley on the lower emery wheel active multi-wedge belt pulley 35.

39. Pivoting bearing fixed head

40. Pivoting bearing driver plate 41. Driving plane emery wheel whirligig fixed heads

42. end face emery wheel feeder assembly fixed bar 43. end face abrasive wheel assembly fixed heads

44. 45. times abrasive wheel assembly fixed heads of upper abrasive wheel assembly fixed head

46. emery wheel feeding plate on the lower emery wheel feeding bounce cylinder 47.

48. emery wheel feed bar on the upper emery wheel feeding sliding part 49.

50. 51. times emery wheel feed bars of lower emery wheel feeding sliding part

52. 53. times emery wheel linear axis of lower emery wheel feeding plate

54. the end face emery wheel is multi-wedge belt pulley initiatively

The specific embodiment

Below with reference to accompanying drawing embodiment of the present utility model is described.The element of describing in an accompanying drawing of the present utility model or a kind of embodiment and feature can combine with element and the feature shown in one or more other accompanying drawings or the embodiment.Should be noted that for purpose clearly, omitted in accompanying drawing and the explanation and the utility model expression and description irrelevant, parts known to persons of ordinary skill in the art or processing.

Below in conjunction with accompanying drawing the utility model is described further.

Fig. 1 is glass grinding seamed edge end face integral mechanism general assembly drawing described in the utility model, and as shown in Figure 1, glass grinding seamed edge end face integral mechanism described in the utility model comprises seamed edge grinding subassembly 100, lower seamed edge grinding subassembly 200, cross grinding assembly 300, combination pallet 400, wherein:

Described upper seamed edge grinding subassembly 100, lower seamed edge grinding subassembly 200 be arranged in parallel, and are installed on the bottom of combination pallet 400;

Described cross grinding assembly 300 and described upper seamed edge grinding subassembly 100 and the 200 vertical settings of lower seamed edge grinding subassembly, and be installed on the bottom of making up pallet 400.

Fig. 2 is seamed edge grinding subassembly and lower seamed edge grinding subassembly front view on the glass grinding seamed edge end face integral mechanism described in the utility model; Fig. 3 is the left view of Fig. 2; Fig. 4 is glass grinding seamed edge end face integral mechanism top view described in the utility model, such as Fig. 2, Fig. 3, shown in Figure 4, the upper seamed edge grinding subassembly 100 of glass grinding seamed edge end face integral mechanism described in the utility model comprises the emery wheel feed arrangement, emery wheel whirligig in the driving, upper emery wheel 20, upper abrasive wheel assembly fixed head 44, wherein:

Described upper emery wheel feed arrangement and the 400 supporting installations of combination stand; The bottom of described upper emery wheel feed arrangement and upper abrasive wheel assembly fixed head 44 fixtures; The emery wheel whirligig is fixedly mounted on the abrasive wheel assembly fixed head 44 in the described driving; The emery wheel whirligig fixedly mounts described upper emery wheel 20 with driving upward.

Described upper emery wheel feed arrangement comprises emery wheel feeding motor 15, upper emery wheel feed bar 49, upper emery wheel feeding bounce cylinder 2, upper emery wheel feeding plate 47; Preferably, also comprise emery wheel feeding sliding part 48, wherein:

Upper emery wheel feeding motor 15 is fixedly mounted on the side of combination stand 400; Upper emery wheel feeding motor 15 cooperates installation with upper emery wheel feed bar 49;

Upper emery wheel feed bar 49 cooperates installation with upper emery wheel feeding sliding part 48; The two ends of upper emery wheel feeding sliding part 48 are slidingly connected by bearing components and the upper emery wheel linear axis 25 that makes up on the stand 400, and upper emery wheel feeding sliding part 48 and upper emery wheel feeding bounce cylinder 2 fixed installations; The cylinder rod of upper emery wheel feeding

bounce cylinder

2 and 47 fixed installations of upper emery wheel feeding plate; Upper emery wheel feeding plate 47 is slidingly connected with the upper emery wheel sliding axle 25 of combination pallet 400, and the bottom of upper emery wheel feeding plate 47 is fixedly connected with upper abrasive wheel assembly fixed head 44.

The emery wheel whirligig comprises emery wheel drive motors 4 in the driving, upper emery wheel power driving module; Wherein:

Upper emery wheel drive motors 4 and upper abrasive wheel assembly fixed head 44 fixed installations; Upper emery wheel power driving module comprises initiatively multi-wedge belt pulley 35 of emery wheel, upper emery wheel polywedge bet 33, the driven multi-wedge belt pulley 32 of upper emery wheel

The upper emery wheel of upper emery wheel power driving module initiatively multi-wedge belt pulley 35 installs and fixes with upper abrasive wheel assembly fixed head 44 and cooperates installation with upper emery wheel drive motors 4;

The driven multi-wedge belt pulley 32 of the upper emery wheel of upper emery wheel power driving module is fixed with upper abrasive wheel assembly fixed head 44 and is cooperated installation with upper emery wheel 20.

The course of work of upper seamed edge grinding subassembly:

(1) driving of upper seamed edge grinding subassembly:

Upper emery wheel drive motors 4 work, so that initiatively multi-wedge belt pulley 35 rotations of upper emery wheel, power is delivered to the driven multi-wedge belt pulley 32 of upper emery wheel by upper emery wheel polywedge bet 33, and the driven multi-wedge belt pulley 32 of upper emery wheel is given upper emery wheel 20 with transmission of power, makes emery wheel 20 carry out high speed rotating.

(2) feeding of upper seamed edge grinding subassembly:

Upper emery wheel feeding motor 15 work, emery wheel feed bar 49 moves forward in the driving, and then the upper emery wheel feeding sliding part 48 of promotion moves forward along upper emery wheel linear axis 25, upper emery wheel feeding sliding part 48 is fixedly connected with upper emery wheel feeding bounce cylinder 2, so that upper emery wheel feeding bounce cylinder 2 reaches, the cylinder rod of upper emery wheel feeding bounce cylinder 2 is fixedly connected with upper emery wheel feeding plate 47, emery wheel whirligig and upper emery wheel 20 move forward in the driving that is fixedly mounted on emery wheel feeding plate 47 bottoms thereby make, so that upper emery wheel 20 touches the upper seamed edge of glass edge, and carry out the operation of seamed edge in the grinding.

The lower seamed edge grinding subassembly of glass grinding seamed edge end face integral mechanism described in the utility model comprises: lower emery wheel feed arrangement, drive lower emery wheel whirligig, and lower emery wheel 21, lower abrasive wheel assembly fixed head 45, wherein:

Described lower emery wheel feed arrangement and the 400 supporting installations of combination stand; The bottom of described lower emery wheel feed arrangement and lower abrasive wheel assembly fixed head 45 fixtures; The emery wheel whirligig is fixedly mounted on the lower abrasive wheel assembly fixed head 45 under the described driving; Described lower emery wheel 21 and the lower emery wheel whirligig fixed installation of driving.

Described lower emery wheel feed arrangement comprises lower emery wheel feeding motor 3, lower emery wheel feed bar 51, and lower emery wheel feeding bounce cylinder 46, lower emery wheel feeding plate 52 preferably, also comprises lower emery wheel feeding sliding part 50, wherein:

Lower emery wheel feeding motor 3 is fixedly mounted on the side of combination stand 400; Lower emery wheel feeding motor 3 cooperates installation with lower emery wheel feed bar 51;

Lower emery wheel feed bar 51 cooperates installation with lower emery wheel feeding sliding part 50; Lower emery wheel feeding sliding part 50 two ends are slidingly connected by the lower emery wheel linear axis 53 of bearing with combination stand 400, and lower emery wheel feeding sliding part 50 and lower emery wheel feeding bounce cylinder 46 fixed installations; The cylinder rod of lower emery wheel feeding bounce cylinder 46 and 52 fixed installations of lower emery wheel feeding plate; Lower emery wheel feeding plate 52 is slidingly connected with the lower emery wheel sliding axle 53 of combination pallet 400, and the bottom of described lower emery wheel feeding plate 52 is fixedly connected with lower abrasive wheel assembly fixed head 45.

Drive lower emery wheel whirligig and comprise lower emery wheel drive motors 31, lower emery wheel power driving module, wherein:

Lower emery wheel drive motors 31 and lower abrasive wheel assembly fixed head 45 fixed installations; Lower emery wheel power driving module comprises initiatively multi-wedge belt pulley 34 of lower emery wheel, lower emery wheel polywedge bet 23, the driven multi-wedge belt pulley 22 of lower emery wheel.

The lower emery wheel of lower emery wheel power driving module initiatively multi-wedge belt pulley 34 is fixed with lower abrasive wheel assembly fixed head 45 and is cooperated installation with lower emery wheel drive motors 31;

The driven multi-wedge belt pulley 22 of the lower emery wheel of lower emery wheel power driving module is fixed with lower abrasive wheel assembly fixed head 45 and is cooperated installation with lower emery wheel 21.

The course of work of lower seamed edge grinding subassembly:

(1) driving of lower seamed edge grinding subassembly:

Lower emery wheel drive motors 31 work, so that initiatively multi-wedge belt pulley 34 rotations of lower emery wheel, power is delivered to the driven multi-wedge belt pulley 22 of lower emery wheel by lower emery wheel polywedge bet 23, and the driven multi-wedge belt pulley 22 of lower emery wheel is given lower emery wheel 22 with transmission of power, makes lower emery wheel 22 carry out high speed rotating.

(2) feeding of lower seamed edge grinding subassembly:

Lower emery wheel feeding motor 3 work, driving lower emery wheel feed bar 51 moves forward, and then emery wheel feeding sliding part 50 moves forward along lower emery wheel linear axis 53 under promoting, lower emery wheel feeding sliding part 50 is fixedly connected with lower emery wheel feeding bounce cylinder 46, so that lower emery wheel feeding bounce cylinder 46 reaches, the cylinder rod of lower emery wheel feeding bounce cylinder 46 is fixedly connected with lower emery wheel feeding plate 52, emery wheel whirligig and lower emery wheel 21 move forward under the driving that is fixedly mounted on lower emery wheel feeding plate 52 bottoms thereby make, so that lower emery wheel 21 touches the lower seamed edge of glass edge.And carry out the operation of seamed edge under the grinding

Fig. 5 is glass grinding seamed edge end face integral mechanism cross grinding assembly front view described in the utility model, and Fig. 6 is the left view of Fig. 5; Such as Fig. 5, shown in Figure 6, the cross grinding assembly of glass grinding seamed edge end face integral mechanism described in the utility model comprises end face abrasive wheel assembly fixed head 43, end face emery wheel feed arrangement, Driving plane emery wheel whirligig, Driving plane emery wheel whirligig fixed head 41, end face emery wheel 19; Wherein:

Described end face abrasive wheel assembly fixed head 43 and described combination pallet 400 fixed installations; The bottom of one end of end face emery wheel feed arrangement and end face abrasive wheel assembly fixed head 43 installs and fixes; The other end of end face emery wheel feed arrangement and 41 fixed installations of Driving plane emery wheel whirligig fixed head; Driving plane emery wheel whirligig is fixedly mounted on the Driving plane emery wheel whirligig fixed head 41; End face emery wheel 19 and the fixed installation of Driving plane emery wheel whirligig.

Described end face emery wheel feed arrangement comprises the Pivoting bearing member, end face emery wheel feeding power assembly; Wherein: the Pivoting bearing member comprises Pivoting bearing fixed head 39, Pivoting bearing 16, and an end of Pivoting bearing driver plate 40 described Pivoting bearing fixed heads 39 is fixedly connected with end face abrasive wheel assembly fixed head 43; The other end of described Pivoting bearing fixed head 39 holds with Pivoting bearing 16 and cooperates installation; One end of Pivoting bearing driver plate 40 cooperates installation with Pivoting bearing 16; The other end of Pivoting bearing driver plate 40 is fixedly connected with Driving plane emery wheel whirligig fixed head 41.

End face emery wheel feeding power assembly comprises end face emery wheel feeder assembly fixed bar 42, end face emery wheel feeding cylinder 11, end face emery wheel bounce cylinder 10;

One end of described end face emery wheel feeder assembly fixed

bar

42 and 43 fixed installations of end face abrasive wheel assembly fixed head; The cylinder rod axle of the other end of described end face emery wheel feeder assembly fixed bar 42 and end face emery wheel feeding cylinder 11 is dynamically connected;

Described end face emery

wheel feeding cylinder

11 and 10 fixed installations of end face emery wheel bounce cylinder; The cylinder rod of end face emery wheel bounce cylinder 10 and Driving plane emery wheel whirligig fixed head 41 axles are dynamically connected.

Described Driving plane emery wheel whirligig comprises end face grinding wheel motor 12, end face emery wheel power driving module; End face grinding wheel motor 12 is fixed on the Driving plane emery wheel whirligig fixed head 41;

End face emery wheel power driving module comprises initiatively multi-wedge belt pulley 54 of end face emery wheel, end face emery wheel polywedge bet 13, the driven multi-wedge belt pulley 14 of end face emery wheel;

The active multi-wedge belt pulley 54 of end face emery wheel power driving module is fixed with Driving plane emery wheel whirligig fixed head 41 and is cooperated installation with end face grinding wheel motor 12;

The driven multi-wedge belt pulley 14 of the end face emery wheel of end face emery wheel power driving module is fixed with Driving plane emery wheel whirligig fixed head 41 and is cooperated installation with end face emery wheel 19.

The course of work of cross grinding assembly is:

The course of work of cross grinding assembly:

(1) driving of cross grinding assembly:

12 work of end face grinding wheel motor, so that initiatively multi-wedge belt pulley 54 rotations of end face emery wheel, power is delivered to the driven multi-wedge belt pulley 14 of end face emery wheel by end face emery wheel polywedge bet 13, the driven multi-wedge belt pulley 14 of end face emery wheel with transmission of power to end face emery wheel 19, so that end face emery wheel 19 carries out High Rotation Speed.

(2) feeding of cross grinding assembly:

11 work of end face emery wheel feeding cylinder, because end face emery wheel feeder assembly fixed bar 42 installs and fixes with end face abrasive wheel assembly fixed head 43, under the promotion of cylinder rod, end face emery wheel feeding cylinder 11 and end face emery wheel bounce cylinder 10 move forward, and give Driving plane emery wheel whirligig fixed head 41 applied thrusts; Again because the Pivoting bearing member is fixedly connected with Driving plane emery wheel whirligig fixed head 41, therefore Driving plane emery wheel whirligig fixed head 41 is under the promotion of end face emery wheel feeding cylinder 11, the axle of doing take Pivoting bearing 16 as the center of circle is moving, so that the end face emery wheel drive unit and the end face emery wheel 19 that are installed on the Driving plane emery wheel whirligig fixed head 41 move forward, make end face emery wheel 19 touch the end face of glass edge, and carry out the operation of grinding glass end face.

The course of work of glass grinding seamed edge end face integral mechanism described in the utility model is:

When glass 9 is sent to apart from the position about glass grinding seamed edge end face integral mechanism 10mm by transmission equipment, transmission equipment stops to transmit, make glass stop at this position, then the cross grinding assembly on the glass grinding seamed edge end face integral mechanism drives and the feeding operation successively, so that the end face of end face emery wheel 19 polishing glass edge; Then go up the seamed edge grinding subassembly and drive successively and the feeding operation, make the upper seamed edge of emery wheel 20 polishing glass edge, and then descend the seamed edge grinding subassembly to drive successively and the feeding operation, so that the lower seamed edge of upper emery wheel 21 polishing glass.

After each emery wheel all touches glass and begins polishing, glass grinding seamed edge end face integral mechanism is along this glass edge uniform motion, or glass grinding seamed edge end face integral mechanism maintains static, and glass is at the uniform velocity mobile, just can make the up and down rib of this seamed edge and end face finish synchronously polishing.

Glass grinding seamed edge end face integral mechanism described in the utility model can be installed on the glass edge-grinding machine, with other equipment cooperatings of glass edge-grinding machine, can realize disposable finish the up and down seamed edge on former sheet glass four limits and the polishing of end face.

Glass grinding seamed edge end face integral mechanism described in the utility model, can make up and down rib and the end face synchronous processing polishing of glass edge, compare with the traditional diamond-making technique of end face separate machined polishing with lower seamed edge on glass, not only saved manpower and equipment cost, and so that the edging working (machining) efficiency of glass there has been large increase.

Although described the utility model and advantage thereof in detail, be to be understood that and in the situation that does not exceed the spirit and scope of the present utility model that limited by appended claim, can carry out various changes, alternative and conversion.And the application's scope is not limited only to the specific embodiment of the described process of specification, equipment, means, method and step.The one of ordinary skilled in the art will readily appreciate that from disclosure of the present utility model, according to the utility model can use carry out with the essentially identical function of corresponding embodiment described herein or obtain result essentially identical with it, existing and want exploited process, equipment, means, method or step future.Therefore, appended claim is intended to comprise such process, equipment, means, method or step in their scope.

Claims

1. glass grinding seamed edge end face integral mechanism is characterized in that: comprise seamed edge grinding subassembly (100), and lower seamed edge grinding subassembly (200), cross grinding assembly (300), combination pallet (400), wherein:

Described upper seamed edge grinding subassembly (100), lower seamed edge grinding subassembly (200) be arranged in parallel, and are installed on the bottom of combination pallet (400);

Described cross grinding assembly (300) and described upper seamed edge grinding subassembly (100) and the vertical setting of lower seamed edge grinding subassembly (200), and be installed on the bottom of making up pallet (400).

2. glass grinding seamed edge end face integral mechanism according to claim 1, it is characterized in that: described upper seamed edge grinding subassembly (100) comprises the emery wheel feed arrangement, emery wheel whirligig in the driving, upper emery wheel (20), upper abrasive wheel assembly fixed head (44), wherein:

Described upper emery wheel feed arrangement and the supporting installation of combination stand (400);

The bottom of described upper emery wheel feed arrangement and upper abrasive wheel assembly fixed head (44) fixture;

The emery wheel whirligig is fixedly mounted on the abrasive wheel assembly fixed head (44) in the described driving;

The emery wheel whirligig fixedly mounts described upper emery wheel (20) with driving upward.

3. glass grinding seamed edge end face integral mechanism according to claim 2, it is characterized in that: described upper emery wheel feed arrangement comprises emery wheel feeding motor (15), upper emery wheel feed bar (49), upper emery wheel feeding bounce cylinder (2), upper emery wheel feeding plate (47); Wherein:

Described upper emery wheel feeding motor (15) is fixedly connected with combination stand (400);

Described upper emery wheel feeding motor (15) is fixedly connected with upper emery wheel feeding bounce cylinder (2) by upper emery wheel feed bar (49);

The cylinder rod of described upper emery wheel feeding bounce cylinder (2) and upper emery wheel feeding plate (47) fixed installation;

Described upper emery wheel feeding plate (47) is slidingly connected with combination pallet (400);

The bottom of described upper emery wheel feeding plate (47) is fixedly connected with upper abrasive wheel assembly fixed head (44).

4. according to claim 2 or 3 described glass grinding seamed edge end face integral mechanisms, it is characterized in that: the emery wheel whirligig comprises emery wheel drive motors (4) in the driving, upper emery wheel power driving module, wherein:

Described upper emery wheel drive motors (4) and upper abrasive wheel assembly fixed head (44) fixed installation;

Described upper emery wheel power driving module is fixedly connected with upper abrasive wheel assembly fixed head (44);

Described upper emery wheel drive motors (4) cooperates installation by upper emery wheel power driving module with upper emery wheel (20).

5. glass grinding seamed edge end face integral mechanism according to claim 1, it is characterized in that: described lower seamed edge grinding subassembly (200) comprising: lower emery wheel feed arrangement drives lower emery wheel whirligig, lower emery wheel (21), lower abrasive wheel assembly fixed head (45), wherein:

Described lower emery wheel feed arrangement and the supporting installation of combination stand (400);

The bottom of described lower emery wheel feed arrangement and lower abrasive wheel assembly fixed head (45) fixture;

The emery wheel whirligig is fixedly mounted on the lower abrasive wheel assembly fixed head (45) under the described driving;

Described lower emery wheel (21) and the lower emery wheel whirligig fixed installation of driving.

6. glass grinding seamed edge end face integral mechanism according to claim 5, it is characterized in that: described lower emery wheel feed arrangement comprises lower emery wheel feeding motor (3), lower emery wheel feed bar (51), lower emery wheel feeding bounce cylinder (46), lower emery wheel feeding plate (52); Wherein:

Described lower emery wheel feeding motor (3) is fixedly connected with combination stand (400);

Described lower emery wheel feeding motor (3) is fixedly connected with lower emery wheel feeding bounce cylinder (46) by lower emery wheel feed bar (51);

The cylinder rod of described lower emery wheel feeding bounce cylinder (46) and lower emery wheel feeding plate (52) fixed installation;

Described lower emery wheel feeding plate (52) is slidingly connected with combination pallet (400);

The bottom of described lower emery wheel feeding plate (52) is fixedly connected with lower abrasive wheel assembly fixed head (45).

7. according to claim 5 or 6 described glass grinding seamed edge end face integral mechanisms, it is characterized in that: drive lower emery wheel whirligig and comprise lower emery wheel drive motors (31), lower emery wheel power driving module, wherein:

Described lower emery wheel drive motors (31) and lower abrasive wheel assembly fixed head (45) fixed installation;

Described lower emery wheel power driving module is fixedly connected with lower abrasive wheel assembly fixed head (45);

Described lower emery wheel drive motors (31) cooperates installation by lower emery wheel power driving module with lower emery wheel (21).

8. according to claim 1, the described glass grinding seamed edge of 2,5 any one end face integral mechanism, it is characterized in that: cross grinding assembly (300) comprises end face abrasive wheel assembly fixed head (43), end face emery wheel feed arrangement, Driving plane emery wheel whirligig, Driving plane emery wheel whirligig fixed head (41), end face emery wheel (19); Wherein:

Described end face abrasive wheel assembly fixed head (43) and described combination pallet (400) fixed installation;

The bottom of one end of end face emery wheel feed arrangement and end face abrasive wheel assembly fixed head (43) installs and fixes;

The other end of end face emery wheel feed arrangement and Driving plane emery wheel whirligig fixed head (41) fixed installation;

Driving plane emery wheel whirligig is fixedly mounted on the Driving plane emery wheel whirligig fixed head (41);

End face emery wheel (19) and the fixed installation of Driving plane emery wheel whirligig.

9. glass grinding seamed edge end face integral mechanism according to claim 8, it is characterized in that: described end face emery wheel feed arrangement comprises the Pivoting bearing member, end face emery wheel feeding power assembly; Wherein:

Described end face abrasive wheel assembly fixed head (43) installs and fixes by Pivoting bearing member and Driving plane emery wheel whirligig fixed head (41);

End face emery wheel feeding power assembly comprises end face emery wheel feeder assembly fixed bar (42), end face emery wheel feeding cylinder (11);

End face abrasive wheel assembly fixed head (43) is dynamically connected by end face emery wheel feeder assembly fixed bar (42) and end face emery wheel feeding cylinder (11) axle;

The other end of described end face emery wheel feeding cylinder (11) and Driving plane emery wheel whirligig fixed head (41) axle are dynamically connected.

10. it is characterized in that according to claim 8 or 9 described glass grinding seamed edge end face integral mechanisms:

Described Driving plane emery wheel whirligig comprises end face grinding wheel motor (12), end face emery wheel power driving module;

Described end face grinding wheel motor (12) is fixed on the Driving plane emery wheel whirligig fixed head (41);

Described end face emery wheel power driving module is fixedly connected with Driving plane emery wheel whirligig fixed head (41);

Described end face grinding wheel motor (12) cooperates installation by end face emery wheel power driving module with end face emery wheel (19).