CN201106021Y - Wind grating structure for tempering of glass forming machine - Google Patents

Abstract

A wind grating mechanism used for toughening of a glass molding machine relates to a glass molding machine device. The wind grating mechanism comprises a wind grating nozzle body, a wind grating case body, a wind grating air inlet, a slide plate and a strip guide-track groove. The wind grating nozzle body consists of a wind grating nozzle and a wind grating cover plate; the wind grating nozzle body is fixed on the top surface of the wind grating case body through a bolt; the top surface of the wind grating is provided with a plurality of strip guide-track grooves, and each strip guide-track groove is movably sheathed with the slide plate; each slide plate is provided with a plurality of air holes; the positions of the air holes corresponds to the positions of the holes at the wind grating case body and the wind grating nozzle body, and the diameter of each hole can be the same or different, and the diameter of each hole at the same slide plate can be different; a locking device is arranged at the external side of the end part of the slide plate corresponding to the wind grating case body. By shifting the slide plate to form different air inlets between the slide plate and the wind grating case body and the wind grating nozzle body, the wind grating mechanism can adjust the air volume, thus meeting production requirements, reducing the production costs, reducing the energy consumption and improving the production efficiency.

Description

The air grid mechanism that a kind of glass shaper tempering is used

[technical field]

The utility model relates to a kind of glass shaper, particularly the air grid mechanism that uses of glass shaper tempering.

[background technology]

The glass shaper tempering air grid mechanism of prior art, constitute by a plurality of air grid nozzle bodies, air grid casing and air grid blast inlet, each nozzle body is to be made of long strip shape cover plate and air grid nozzle, single porous is arranged on the cover plate, corresponding these holes of each nozzle are fixedly welded on the cover plate, and cover plate is fixing immovable.Hole in a row is arranged on the air grid casing, and the single porous on the cover plate becomes with these that round is corresponding to be fixedly connected on the air grid casing.When the glass tempering moulding, high pressure positive blower is blown into the air grid casing with wind from the air grid blast inlet, blows to glass surface through nozzle body.But, use this air grid mechanism part that comes with some shortcomings:

When producing some non-conventional glass, often require each air grid nozzle body air-out all inequality, and each the air grid nozzle body in the existing air grid mechanism directly in a row is fixed on the air grid casing, the blowing air quantity is changeless like this, can't regulate the blowing air quantity of air grid nozzle body aborning according to practical situation, just need to make the extremely special air grid of some structures, thereby cause increasing cost.

We know, often only need very low blast when heavy sheet glass is carried out tempering, and need very big air quantity to take away heat on glass when cooling, could realize the cooling of glass like this.Existing air grid mechanism can't control the blowing air quantity by regulating the air grid nozzle body, does not satisfy the production requirement to the heavy sheet glass tempering.

[summary of the invention]

The purpose of this utility model is to overcome above-mentioned defective, provides a kind of and can regulate nozzle blowing amount, saves production cost the air grid mechanism that the glass shaper tempering of enhancing productivity is used.

The technical solution of the utility model is: the air grid mechanism that a kind of glass shaper tempering is used, comprise air grid nozzle body, air grid casing and air grid blast inlet, and the air grid nozzle body is by being bolted to the end face of air grid casing; End face at the air grid casing has a plurality of bar shaped guide-track grooves, and activity is sheathed with slide plate in each bar shaped guide-track groove; Have a plurality of wind hole on each slide plate, the hole on wind hole and the air grid casing, the hole site on the air grid nozzle body is corresponding and pore size is identical, and perhaps, their pore size also can be inequality, and the aperture in same slide plate also can be not of uniform size; Locking latches is equipped with in the outside of the corresponding air grid casing in the end of slide plate, and this locking latches is made up of adjusting yoke and support.

The utility model has the advantages that: compare with the air grid mechanism of prior art, the utility model air grid mechanism has increased crucial skateboard part, can make between itself and air grid casing and the air grid nozzle body by slide plate mobile and form air port not of uniform size, thereby the air output of each nozzle body can both be finely tuned, do not need to use special air grid just can produce non-conventional glass, saved production cost; In addition, when the glass of tempering all thickness, can be implemented in by adjusting slider and regulate the air grid air output in the various process of glass tempering, thereby can satisfy production requirement, energy efficient, enhance productivity.

[description of drawings]

Fig. 1 is the front view of the utility model air grid mechanism

Fig. 2 is the sectional view of Figure 1A-A

Fig. 3 is the vertical view of the utility model air grid mechanism

[embodiment]

As shown in Figure 1, the air grid mechanism that the utility model glass shaper tempering is used, the air grid nozzle body is made up of air grid nozzle 1 and air grid cover plate 3.All have bar shaped guide-track groove 5 at the end face of air grid casing 6 corresponding to each single row of holes of air grid nozzle body, activities are sheathed with slide plate 4 in each bar shaped guide-track groove 5.Have a plurality of wind hole on each slide plate 4, the hole on wind hole and the air grid casing 6, the hole site on the air grid nozzle body are corresponding, their pore size can be identical also can be inequality.In addition, the wind hole on same slide plate also can be that pore size differs.

In the end of slide plate 4 corresponding air grid casing 6 outsides be equipped with can fixed glides 4 positions locking latches.This locking latches is made up of adjusting yoke 8 and L type support 9.6 welding of one end of L type support 9 and air grid casing, the other end is provided with and the screw of nut hole of the same size, and adjusting yoke 8 is penetrated the hole of screw and L type support 9, by nut adjusting yoke 8 and L type support 9 is fixed together.

When toughened glass, high pressure positive blower is blown into air grid casing 6 with wind from air grid blast inlet 7, through the hole on the air grid casing 6, passes through the wind hole on the slide plate 4 then earlier, and the air outlet through the air grid nozzle body blows to glass surface at last, to realize the tempering of glass.To non-conventional glass or to the glass tempering of all thickness the time, by pulling adjusting yoke 8 slide plate 4 is moved in bar shaped guide-track groove 5, change the position of slide plate 4, make wind hole and the hole on the air grid casing 6, the hole on the air grid nozzle body on the slide plate 4 produce dislocation, so just changed the size of air outlet area, thereby can in the various process of glass tempering, regulate the air output of air grid nozzle body air outlet, realize tempering all thickness and non-conventional glass with this.Such as when the tempering heavy sheet glass, anterior air grid adjusts the air port by slide plate and turns blast down, and the rear portion air grid is regulated big air outlet by slide plate; Otherwise still.

The wind hole of slide plate 4 is used the air port area and is changed and cause the slide plate 4 can be because the effect of blowing fluctuate or because the vibrations of equipment and swing easily owing to the hole on wind hole and the air grid casing 6, hole on the air grid nozzle body produce dislocation in the moving process of slide plate 4.By bolt 2 the air grid nozzle body is fixed on the end face of air grid casing 6, is used to compress slide plate 4, so just can prevent fluctuating and swing of limited slip plate 4.

Claims (3)

1. air grid mechanism that the glass shaper tempering is used, comprise a plurality of air grid nozzle bodies, air grid casing (6) and air grid blast inlet (7), each air grid nozzle body is made up of air grid nozzle (1) and air grid cover plate (3), it is characterized in that: the air grid nozzle body is fixed on the end face of air grid casing (6) by bolt (2); End face at air grid casing (6) has a plurality of bar shaped guide-track grooves (5), and the interior activity of each bar shaped guide-track groove (5) is sheathed with slide plate (4); Have a plurality of wind hole on each slide plate (4), the hole on wind hole and the air grid casing (6), the hole site on the air grid nozzle body is corresponding and pore size is identical; Locking latches is equipped with in the outside of the corresponding air grid casing in the end of slide plate (4) (6).

2. the air grid mechanism that a kind of glass shaper tempering according to claim 1 is used, it is characterized in that: the hole on the described slide plate (4) can also be inequality with hole on the air grid casing (6), hole pore size on the air grid nozzle body, and its aperture, hole that is positioned on the same slide plate (4) also can be not of uniform size.

3. the air grid mechanism that a kind of glass shaper tempering according to claim 1 is used is characterized in that: the locking latches of described fixed glides is made up of adjusting yoke (8) and L type support (9).

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