CN201770599U - Tempered glass cooling windscreen - Google Patents

Abstract

The utility model relates to a tempered glass cooling windscreen, which is used for cooling tempered glass and comprises a windscreen base and an air nozzle cover detachably connected with the windscreen base. The air nozzle cover is provided with an air nozzle face matched with the tempered glass in shape. The tempered glass cooling windscreen adopts a split structure, the windscreen base and the air nozzle cover are detachably connected, one windscreen base can be matched with a plurality of windscreen covers with different shapes, when the cooling windscreen needs to be replaced, only the air nozzle cover needs to be replaced, difficulty of replacing the cooling windscreen is reduced, further, the split structure only needs a small quantity of windscreen bases matched with the plurality of windscreen covers in use, and storage space for the cooling windscreen can be reduced and cost of the cooling windscreen can be reduced.

Description

The toughened glass cooling air grid

Technical field

The utility model relates to refrigerating unit used in the toughened glass production process, more particularly, relates to a kind of toughened glass cooling air grid.

Background technology

During toughened glass crushing, its fragment is round obtuse angle, does not have sharp-pointed corner angle, be difficult for hurting sb.'s feelings, thereby the toughened glass widespread use does automobile, train, steamer, and buildings etc. door and window, purposes is very extensive.Toughened glass add in the stove of well chamber, be heated to earlier softening temperature (about 700 degree) man-hour after, in stove, shift out rapidly, adopt forming of the quenching of drying at a high speed then.The blowing quenching is undertaken by cooling air grid, the cooling air grid of existing hot bending vehicle glass as shown in Figure 1, comprise integrally welded base and tuyere front cover, the back side of base is provided with blast inlet, cooling air is blown into by blast inlet, blown out by the tuyere front cover, the curved shape of the shape of tuyere front cover and hot bending glass is suitable, needs difform tuyere front cover to cooperate for difform hot bending glass.When producing difform hot bending glass, need to change corresponding cooling air grid, because the base and the tuyere front cover of existing cooling air grid are one, whole cooling air grid is relatively heavier, and the installation and removal of cooling air grid all bother very much, nor is beneficial to the maintenance of air grid, when the hot bending glass types of producing is many, need to prepare multiple cooling air grid, take more space, and cost is also than higher.

The utility model content

The technical problems to be solved in the utility model is, at above-mentioned heaviness, the dismounting trouble of the cooling air grid of prior art, do not possess the defective of versatility, provides a kind of split type cooling air grid, and this cooling air grid flexible operation has certain versatility.

The technical scheme that its technical problem that solves the utility model adopts is: construct a kind of cooling air grid, be used to cool off toughened glass, comprise the air grid base, and the tuyere front cover that removably connects with the air grid base, described tuyere front cover has and the suitable tuyere face of described toughened glass shape.

In toughened glass cooling air grid described in the utility model, described air grid base has base flange, and described tuyere front cover has the front cover flange, and described base flange is connected by bolt with described front cover flange.

In toughened glass cooling air grid described in the utility model, described air grid base be provided with blast inlet with the base flange opposing backside surface.

In toughened glass cooling air grid described in the utility model, described blast inlet is a plurality of, and a plurality of described blast inlets are distributed on the back side of described air grid base.

In toughened glass cooling air grid described in the utility model, described tuyere face is a concave surface.

In toughened glass cooling air grid described in the utility model, described tuyere face is a convex surface.

Implement toughened glass cooling air grid of the present utility model, have following beneficial effect: toughened glass cooling air grid of the present utility model adopts split-type structural, air grid base and tuyere front cover removably connect, an air grid base can cooperate with a plurality of difform air grid front covers, when needing to change cooling air grid, only needing to change the air grid front cover gets final product, reduced the difficulty of changing cooling air grid, simultaneously, owing to adopt split-type structural, only need a spot of air grid base, be used, can reduce the memory space of cooling air grid and the cost that reduces cooling air grid with a plurality of air grid front covers.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the synoptic diagram of the toughened glass cooling air grid of prior art;

Fig. 2 is the synoptic diagram of first embodiment of toughened glass cooling air grid of the present utility model;

Fig. 3 is that the A of Fig. 2 is to view;

Fig. 4 is the synoptic diagram of second embodiment of toughened glass cooling air grid of the present utility model.

Embodiment

Understand for technical characterictic of the present utility model, purpose and effect being had more clearly, now contrast accompanying drawing and describe embodiment of the present utility model in detail.

Toughened glass cooling air grid of the present utility model is used in the vehicle glass production, is used to produce hot bending glass, and for example forward and backward windshield glass, vehicle glass shift out after heating in the stove of well chamber, are cooled off to form tempered automotive glass by cooling air grid then.

As shown in Figure 2, first embodiment for toughened glass cooling air grid of the present utility model, a side that is used for cooled glass, this toughened glass cooling air grid comprises air grid base 100, and the tuyere front cover 200 that removably connects with air grid base 100, tuyere front cover 200 has the tuyere face 201 suitable with the toughened glass shape, in the present embodiment, tuyere face 201 is a concave surface, and its one side with the toughened glass projection matches.Air grid base 100 and tuyere front cover 200 removably connect by flange in the present embodiment, specifically are, air grid base 100 has base flange 110, and tuyere front cover 200 has front cover flange 210, and base flange 110 and front cover flange 210 are connected by bolt.Referring to Fig. 3, air grid base 100 be provided with blast inlet 101 with base flange 110 opposing backside surface 120, blast inlet 101 is a plurality of, is distributed on the back side 120 of air grid base 100.

Shown in 4, second embodiment for cooling air grid of the present utility model, the cooling air grid of itself and first embodiment is used, and is used to cool off the another side of toughened glass, the similar of its structure and first embodiment, comprise air grid base 100, and the tuyere front cover 200 that removably connects with air grid base 100, tuyere front cover 200 has the tuyere face 201 suitable with the toughened glass shape, in the present embodiment, tuyere face 201 is a convex surface, and its one side with the toughened glass depression matches.Air grid base 100 and tuyere front cover 200 removably connect by flange in the present embodiment, specifically are, air grid base 100 has base flange 110, and tuyere front cover 200 has front cover flange 210, and base flange 110 and front cover flange 210 are connected by bolt.Air grid base 100 be provided with blast inlet 101 with base flange 110 opposing backside surface 120, blast inlet 101 is a plurality of, is distributed on the back side 120 of air grid base 100.

Toughened glass cooling air grid of the present utility model adopts split-type structural, air grid base and tuyere front cover removably connect, an air grid base can cooperate with a plurality of difform air grid front covers, when needing to change cooling air grid, only needing to change the air grid front cover gets final product, reduced the difficulty of changing cooling air grid, simultaneously, owing to adopt split-type structural, only need a spot of air grid base, be used with a plurality of air grid front covers, can reduce the memory space of cooling air grid and the cost that reduces cooling air grid.

In conjunction with the accompanying drawings embodiment of the present utility model is described above; but the utility model is not limited to above-mentioned embodiment; above-mentioned embodiment only is schematic; rather than it is restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; not breaking away under the scope situation that the utility model aim and claim protect, also can make a lot of forms, these all belong within the protection of the present utility model.

Claims (6)

1. a toughened glass cooling air grid is used to cool off toughened glass, it is characterized in that, comprises the air grid base, and the tuyere front cover that removably connects with the air grid base, and described tuyere front cover has and the suitable tuyere face of described toughened glass shape.

2. toughened glass cooling air grid according to claim 1 is characterized in that, described air grid base has base flange, and described tuyere front cover has the front cover flange, and described base flange is connected by bolt with described front cover flange.

3. toughened glass cooling air grid according to claim 2 is characterized in that, described air grid base be provided with blast inlet with the base flange opposing backside surface.

4. toughened glass cooling air grid according to claim 3 is characterized in that, described blast inlet is a plurality of, and a plurality of described blast inlets are distributed on the back side of described air grid base.

5. according to each described toughened glass cooling air grid of claim 1 to 3, it is characterized in that described tuyere face is a concave surface.

6. according to each described toughened glass cooling air grid of claim 1 to 3, it is characterized in that described tuyere face is a convex surface.

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