CN206408104U - A kind of glass tempering air grid and air grid mechanism - Google Patents
A kind of glass tempering air grid and air grid mechanism Download PDFInfo
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- CN206408104U CN206408104U CN201720090095.XU CN201720090095U CN206408104U CN 206408104 U CN206408104 U CN 206408104U CN 201720090095 U CN201720090095 U CN 201720090095U CN 206408104 U CN206408104 U CN 206408104U
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- tuyere
- bellows
- air grid
- air
- glass tempering
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Abstract
A kind of glass tempering air grid and air grid mechanism, air grid includes bellows and some tuyeres, the bellows and tuyere are structure as a whole, the tuyere is connected on bellows and extended to blowing direction, its both ends of the surface of insertion are offered in the tuyere and the air holes of bellows is communicated to, the tuyere is arranged at intervals, and the region between adjacent tuyere constitutes air diffusion admittance.In the utility model, region of the air blown out in air holes between adjacent tuyere constitutes air diffusion admittance, makes to dry during glass plate tempering, radiates smooth, is conducive to the quick cooling of glass plate, is that the thin glass of tempering or ultra-thin glass provide technical support.
Description
Technical field
The utility model is related to glass working arts field, and in particular to a kind of glass tempering air grid and air grid mechanism.
Background technology
Air grid of the prior art is as shown in figure 1, air holes is directly opened on the bottom wall of air grid section bar, and air passes through air holes
Glass pane surface is acted on after ejection, so as to realize the tempering of glass plate.But, the air grid of such a structure is deposited when drying tempering
In problems with:The bottom wall of air grid section bar is nearer apart from the upper and lower surface of glass plate, is easily caused air and is spread to the surrounding of air holes
Have some setbacks, and then influence the quick tempering cooling of radiating effect and glass plate;Especially for thin glass plate(Thickness is less than 3mm
Flat board or other shapes glass)Or the tempering of ultra-thin glass plate, drawbacks described above is more prominent.Accordingly, it would be desirable to existing skill
Air grid in art is improved, the requirement of needs quick heat radiating during meeting glass plate tempering.
Utility model content
The purpose of this utility model is to provide a kind of glass tempering air grid and air grid mechanism.
The technical scheme that the utility model is used to achieve the above object for:A kind of glass tempering air grid, including wind
Case and some tuyeres, the bellows and tuyere are structure as a whole, and the tuyere is connected on bellows and extended to blowing direction, institute
The air holes that its both ends of the surface of insertion are offered in tuyere and bellows are communicated to is stated, the tuyere is arranged at intervals, between adjacent tuyere
Region constitutes air diffusion admittance.
Wherein, the tuyere is tapered, and the end face of the tuyere of air holes insertion is respectively big end and the small end of tuyere, tuyere
Big end is connected with bellows, so that tuyere diminishes along the cross-sectional area of blowing direction.
In the utility model, the tuyere is circular cone taper type or cubic taper type.
Wherein, the bellows are the body structure of rectangular-shape, and the length of bellows is along the direction of motion perpendicular to glass plate
It is extended.
In the utility model, the tuyere is in single-row arrangement on same bellows, and the tuyere uniform intervals are set.
In the utility model, the tuyere is arranged on same bellows in multiple rows of, and the tuyere of arranged adjacent is staggered, its
In, set positioned at the tuyere uniform intervals with row's arrangement.
In the utility model, the bellows are provided with some air inlets.
In the utility model, the material of bellows and tuyere is aluminum or aluminum alloy, makes air grid lighter in weight, mechanical strength
It is high.
The air grid mechanism that a kind of air grid by as above any one is constituted, the air grid is several, and adjacent air grid is parallel, equal
It is even to be arranged at intervals.
Beneficial effect:1st, bellows and tuyere are structure as a whole, and are integrally formed the form accuracy for making bellows and tuyere and position
Precision is high, is conducive to the uniform cooling of glass plate.2nd, region of the air blown out in air holes between adjacent tuyere constitutes air
Diffusion admittance, makes to dry during glass plate tempering, radiates smooth, be conducive to the quick cooling of glass plate, be the thin glass of tempering or super
Thin glass provides technical support.
Brief description of the drawings
Fig. 1 is the existing air grid schematic diagram in background technology;
Fig. 2 is schematic diagram of the present utility model;
Fig. 3 is Fig. 2 left view;
Fig. 4 is stereogram of the present utility model;
Fig. 5 is a kind of implementation figure of the present utility model;
Fig. 6 is another implementation figure of the present utility model;
Fig. 7 implements figure for of the present utility model the third.
In figure:1st, glass plate, 2, air grid section bar, 3, air holes, 4, bellows, 40, bellows body, 41, tapered portion, 5, tuyere,
6th, air diffusion admittance, 7, air inlet.
Embodiment
Further is made to a kind of glass tempering air grid of the present utility model and air grid mechanism with reference to specific embodiment
Illustrate, so that those skilled in the art can be better understood from the utility model and can be practiced, but illustrated embodiment is not
Limited as to of the present utility model.
Embodiment 1:
A kind of glass tempering air grid, including bellows 4 and some tuyeres 5, bellows 4 and tuyere 5 are structure as a whole, tuyere 5
It is connected on bellows 4 and to blowing direction(I.e. to the surface of glass plate 1)Its both ends of the surface of insertion and company are offered in extension, tuyere 5
The air holes 3 of bellows 4 is passed to, each tuyere 5 is arranged at intervals, so that the region between adjacent tuyere 5 constitutes air diffusion admittance 6.
As shown in Figure 2 and Figure 4, tuyere 5 is tapered, the both ends of the surface being oppositely arranged on tuyere 5 be respectively tuyere 5 big end and
Small end, the big end of the insertion tuyere 5 of air holes 3 and small end.Wherein, the big end of tuyere 5 is connected with bellows 4, so that tuyere 5 is along blowing side
To(I.e. to the surface of glass plate 1)Cross-sectional area taper into.Some air inlets 7 are offered on bellows 4.
It is preferred that, tuyere 5 is circular cone taper type or cubic taper type.The side for the tuyere 5 for circular cone taper type that Fig. 3 is enumerated
Face figure.
It is preferred that, bellows 4 are the body structure of rectangular-shape, and the length of bellows 4 is along the direction of motion perpendicular to glass plate 1
It is extended.I.e. in Figure 5, length direction in the horizontal direction for bellows 4, direction shown in arrow is the motion side of glass plate 1
To the two is mutually perpendicular to.Bellows 4 can also make different shapes according to field condition, and tuyere 5 can also be other taper knots
Structure.
It is preferred that, bellows 4 of the present utility model, as shown in figure 3, bellows body 40 and tapered portion 41 including connection, cone
The big end in shape portion 41 is connected with bellows body 40, and the small end of tapered portion 41 is connected with the big end of tuyere 5.In actual use process
In, the connecting portion for being easy to fix other positions can also be set on bellows 4.
The material of bellows 4 and tuyere 5 of the present utility model is aluminum or aluminum alloy.
In embodiment of the present utility model:Tuyere 5 in single-row arrangement on same bellows 4, each uniform intervals of tuyere 5
Set.
Embodiment 2:
The present embodiment and air grid structure in embodiment 1 are essentially identical, and difference is:As shown in fig. 7, tuyere 5 has two
It is arranged on same bellows 4, the tuyere 5 of arranged adjacent is staggered, wherein, between each tuyere 5 with row's arrangement is uniform
Every setting;It is, of course, also possible to which tuyere 5 is arranged to more than three rows to be arranged on same bellows 4, the tuyere 5 of arranged adjacent interlocks
Set.
Embodiment of the present utility model also discloses a kind of air grid mechanism:As shown in figure 5, it includes several embodiments
1 or embodiment 2 disclosed in air grid, adjacent air grid is parallel, uniform intervals set;Tuyere 5 in single-row arrangement on bellows 4, respectively
The uniform intervals of tuyere 5 are set, and two air draft mouths between adjacent bellows are in be staggered.
Fig. 6 shows another structure type of air grid mechanism, and tuyere 5 is in single-row arrangement on bellows 4, and each tuyere 5 is equal
It is even to be arranged at intervals, the corresponding setting of two air draft mouths between adjacent bellows.
The special air grid structure of the utility model, even in the bottom wall of bellows 4(Or the small end of tuyere 5)Apart from glass plate
In the case that upper and lower surface is relatively near, it can also make the air flowed out in air holes 3 to the regional diffusion of air diffusion admittance 6, improve radiating
Effect, and then make the quick tempering cooling of glass plate.
Claims (9)
1. a kind of glass tempering air grid, it is characterised in that:Including bellows and some tuyeres, the bellows and tuyere are integrated knot
Structure, the tuyere is connected on bellows and extended to blowing direction, and its both ends of the surface of insertion are offered in the tuyere and are communicated to
The air holes of bellows, the tuyere is arranged at intervals, and the region between adjacent tuyere constitutes air diffusion admittance.
2. a kind of glass tempering air grid according to claim 1, it is characterised in that:The tuyere is tapered, and air holes is passed through
The end face of logical tuyere is respectively big end and the small end of tuyere, and the big end of tuyere is connected with bellows, so that tuyere is along blowing direction
Cross-sectional area diminish.
3. a kind of glass tempering air grid according to claim 2, it is characterised in that:The tuyere be circular cone taper type or
Cubic taper type.
4. a kind of glass tempering air grid according to claim 1, it is characterised in that:The bellows are the case of rectangular-shape
Body structure, the length of bellows is extended along the direction of motion perpendicular to glass plate.
5. a kind of glass tempering air grid according to claim 1, it is characterised in that:The tuyere is in single-row arrangement same
On one bellows, the tuyere uniform intervals are set.
6. a kind of glass tempering air grid according to claim 1, it is characterised in that:The tuyere is arranged in together in multiple rows of
On one bellows, the tuyere of arranged adjacent is staggered, wherein, set positioned at the tuyere uniform intervals with row's arrangement.
7. a kind of glass tempering air grid according to claim 1, it is characterised in that:The bellows are provided with some air intakes
Mouthful.
8. a kind of glass tempering air grid according to claim 1, it is characterised in that:The material of the bellows and tuyere is equal
For aluminum or aluminum alloy.
9. the air grid mechanism that a kind of air grid by any one of claim 1 to 8 is constituted, it is characterised in that:The air grid is some
Individual, adjacent air grid is parallel, uniform intervals are set.
Priority Applications (1)
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CN201720090095.XU CN206408104U (en) | 2017-01-24 | 2017-01-24 | A kind of glass tempering air grid and air grid mechanism |
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CN201720090095.XU CN206408104U (en) | 2017-01-24 | 2017-01-24 | A kind of glass tempering air grid and air grid mechanism |
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CN206408104U true CN206408104U (en) | 2017-08-15 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110655310A (en) * | 2019-10-31 | 2020-01-07 | 重庆市顺华安全玻璃有限公司 | Anti-ultraviolet energy-saving heat-insulating toughened glass |
-
2017
- 2017-01-24 CN CN201720090095.XU patent/CN206408104U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110655310A (en) * | 2019-10-31 | 2020-01-07 | 重庆市顺华安全玻璃有限公司 | Anti-ultraviolet energy-saving heat-insulating toughened glass |
CN110655310B (en) * | 2019-10-31 | 2021-11-26 | 重庆市顺华安全玻璃有限公司 | Anti-ultraviolet energy-saving heat-insulating toughened glass |
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