CN203683366U

CN203683366U - Windscreen cooling mechanism

Info

Publication number: CN203683366U
Application number: CN201420024038.8U
Authority: CN
Inventors: 赵雁; 张克治
Original assignee: Luoyang Landglass Technology Co Ltd
Current assignee: Luoyang Landglass Technology Co Ltd
Priority date: 2014-01-15
Filing date: 2014-01-15
Publication date: 2014-07-02
Anticipated expiration: 2024-01-15

Abstract

The utility model discloses a windscreen cooling mechanism which cools glass in two stages, wherein in the first stage, the glass directly passes through without stop, in the stage, the glass is cooled through a windscreen provided with a linear continuous air outlet, and discharged wind is uniform in a direction vertical to a glass advancing direction, thus effectively relieving formation of wind spots; and in the second stage, the glass makes a reciprocating motion,and in the stage, the glass is cooled through a windscreen provided with a conventional hole-type air outlet. The windscreen cooling mechanism disclosed by the utility model is good in cooling effect and is capable of preventing the glass from becoming bent or deformed; and meanwhile, the windscreen cooling mechanism further inhibits formation of the wind spots and effectively improves product quality.

Description

A kind of air grid cooling body

Technical field

The utility model relates to a kind of air grid cooling body being arranged in glass tempering furnace.

Background technology

Along with social development, market is more and more higher to the specification of quality of toughened glass, and toughened glass wind spot, as an index of visual appearance, more and more receives people's concern, and current windshield mold for toughing, tuyere form is arranged as master with circular hole.This air grid has the advantage of easy making, and still, in toughening process, wind hole is but that people do not want to see at the wind spot of formation on glass.

In order to alleviate wind spot, those skilled in the art mainly adopt the method for the air grid that swings, and wish the formation that makes the wind hole of air grid alleviate bar shaped wind spot with a kind of continuous cooling form on toughened glass by swing.But the formation of wind spot is complicated, need to consider that except plant width direction formation is cooling uniformly, the more important thing is the formation that also will consider to eliminate wind spot along device length direction.

Utility model content

In order to eliminate glass in direction of motion because in air grid, swing form increase the weight of wind spot, the utility model discloses a kind of air grid cooling body, this air grid cooling body divides two stages to carry out cooling to glass, at first stage glass directly by not stopping, in this stage, adopt the air grid that alignment consistency air outlet is installed to carry out cooling, in the direction of advancing perpendicular to glass, air-out is even, can effectively reduce the formation of wind spot; The to-and-fro movement of second stage glass adopts the air grid that traditional circular hole air outlet is installed to carry out cooling in this stage, and good cooling results is avoided glass bending distortion, has further limited the formation of wind spot simultaneously, Improving The Quality of Products effectively.

To achieve these goals, a kind of air grid cooling body of the utility model, described air grid cooling body includes the first cooling body and the second cooling body, described the first cooling body and the second cooling body include rollgang, and the above and below of rollgang is respectively arranged with several air grids of arranging along rollgang; Rollgang in the first cooling body is the through type roller-way of unidirectional conveying, is positioned on the air grid of the upper and lower both sides of described through type roller-way and is provided with the LINEAR CONTINUOUS air outlet that can form at glass surface LINEAR CONTINUOUS wind surface; The backswing formula roller-way of reciprocally swinging before and after rollgang in the second cooling body is, is positioned on the air grid of the upper and lower both sides of described backswing formula roller-way and is provided with circular hole air outlet.

Further, before the air grid that is provided with described LINEAR CONTINUOUS air outlet, have additional the air grid that described circular hole air outlet has been installed.

Further, described LINEAR CONTINUOUS air outlet is R-joining type air outlet, described R-joining type air outlet is the R-joining type wind hole of some sections, and described R-joining type wind hole is uniform perpendicular to toughened glass direct of travel, and every two the adjacent R-joining type wind holes on toughened glass direct of travel are end to end.

Further, described LINEAR CONTINUOUS air outlet is undaform air outlet, and described undaform air outlet is continuous waviness wind hole in the direct of travel setting perpendicular to toughened glass.

Further, the air quantity that arc is set in the crest in waviness wind hole and the inner side of trough is supplied hole.

Further, on described LINEAR CONTINUOUS air outlet, be provided with multistage line style wind hole, described line style wind hole divide two groups perpendicular to toughened glass direct of travel along linear distribution at intervals, locations complementary between these two groups of wind holes, two adjacent line style wind holes of one of them line style wind hole and another group are end to end on toughened glass direct of travel.

Carrying out of the cooling body of the utility model by two stages is cooling, effectively limit the formation of wind spot, the form of multiple LINEAR CONTINUOUS air outlets is provided simultaneously, and multiple choices have been widened technician's Research Thinking, and the cooling mode of this combination has promoted the quality of glass effectively.

Brief description of the drawings

Fig. 1 is the schematic diagram of glass tempering furnace of the present utility model;

Fig. 2 is the schematic diagram of cooling section in Fig. 1;

Fig. 3 is the structural representation of rollgang of the present utility model;

Fig. 4 is the structural representation of R-joining type air outlet;

Fig. 5 is the first structural representation of undaform air outlet;

Fig. 6 is the second structural representation of undaform air outlet;

Fig. 7 is the structural representation in multistage line style wind hole;

Fig. 8 is the structural representation of circular hole air outlet.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is elaborated.

As shown in Figure 1, glass tempering furnace comprises a platform 1, process furnace 2, air grid cooling body 3 and lower platform 4 successively, and air grid cooling body 3 comprises the first cooling body 5 and the second cooling body 6.

As shown in Figures 2 and 3, the first cooling body 5 and the second cooling body 6 include the rollgang 8 that transports glass 7, rollgang 8 input terminuss connect process furnace 2, output terminal connects lower sheet platform 4, and the above and below of rollgang 8 is respectively arranged with

several air grids

9,10 of arranging along rollgang 8; Rollgang in the first cooling body 5 is the through type roller-way 81 of unidirectional conveying, is positioned on the

air grid

9,10 of through type roller-way both sides Shang Xia 81 and is provided with the LINEAR CONTINUOUS air outlet that can form at glass surface LINEAR CONTINUOUS wind surface; The backswing formula roller-way 82 of reciprocally swinging before and after rollgang in the second cooling body 6 is, is positioned on the air grid of backswing formula roller-way both sides Shang Xia 82 and is provided with circular hole air outlet.

As shown in Figure 4, LINEAR CONTINUOUS air outlet is R-joining type air outlet, R-joining type air outlet is the R-joining type wind hole 13 of some sections, and R-joining type wind hole 13 is uniform perpendicular to toughened glass direct of travel, and every two the adjacent R-joining type wind holes on toughened glass direct of travel are end to end.

As shown in Figure 5, LINEAR CONTINUOUS air outlet is undaform air outlet, and undaform air outlet is continuous waviness wind hole 12 in the direct of travel setting perpendicular to toughened glass.

As shown in Figure 6, the air quantity that arc is set in the crest in waviness wind hole 12 and the inner side of trough is supplied hole 13.

As shown in Figure 7, on LINEAR CONTINUOUS air outlet, be provided with multistage line

style wind hole

14,14 points two groups, line style wind hole perpendicular to toughened glass direct of travel along linear distribution at intervals, locations complementary between these two groups of wind holes, two adjacent line style wind holes 14 of one of them line style wind hole 14 and another group are end to end on toughened glass direct of travel.

As shown in Figure 8, be circular hole air outlet of the prior art, circular hole air outlet is known technology, therefore do not elaborate in this article, it should be noted that, many rows circular wind holes 15 are set on circular hole air outlet, staggered and closely arrange at toughened glass direct of travel between circular wind hole 15.

The air grid that can also set up 1-10 root before the air grid that is provided with LINEAR CONTINUOUS air outlet and be provided with circular hole air outlet, increases cooling performance.

Above-mentioned example is just for illustrating the utility model, and embodiment of the present utility model is not limited to these examples, and what those skilled in the art made meets the various embodiments of the utility model thought all within protection domain of the present utility model.

Claims

1. an air grid cooling body, it is characterized in that, described air grid cooling body includes the first cooling body and the second cooling body, described the first cooling body and the second cooling body include rollgang, and the above and below of rollgang is respectively arranged with several air grids of arranging along rollgang; Rollgang in the first cooling body is the through type roller-way of unidirectional conveying, is positioned on the air grid of the upper and lower both sides of described through type roller-way and is provided with the LINEAR CONTINUOUS air outlet that can form at glass surface LINEAR CONTINUOUS wind surface; The backswing formula roller-way of reciprocally swinging before and after rollgang in the second cooling body is, is positioned on the air grid of the upper and lower both sides of described backswing formula roller-way and is provided with circular hole air outlet.

2. air grid cooling body as claimed in claim 1, is characterized in that, has additional the air grid that described circular hole air outlet has been installed before the air grid that is provided with described LINEAR CONTINUOUS air outlet.

3. air grid cooling body as claimed in claim 1, it is characterized in that, described LINEAR CONTINUOUS air outlet is R-joining type air outlet, described R-joining type air outlet is the R-joining type wind hole of some sections, described R-joining type wind hole is uniform perpendicular to toughened glass direct of travel, and every two the adjacent R-joining type wind holes on toughened glass direct of travel are end to end.

4. air grid cooling body as claimed in claim 1, is characterized in that, described LINEAR CONTINUOUS air outlet is undaform air outlet, and described undaform air outlet is continuous waviness wind hole in the direct of travel setting perpendicular to toughened glass.

5. air grid cooling body as claimed in claim 4, is characterized in that, the air quantity that arc is set in the crest in waviness wind hole and the inner side of trough is supplied hole.

6. air grid cooling body as claimed in claim 1, it is characterized in that, on described LINEAR CONTINUOUS air outlet, be provided with multistage line style wind hole, described line style wind hole divide two groups perpendicular to toughened glass direct of travel along linear distribution at intervals, locations complementary between these two groups of wind holes, two adjacent line style wind holes of one of them line style wind hole and another group are end to end on toughened glass direct of travel.