CN203668219U - Guide plate device of cooling air grid of toughened glass equipment - Google Patents

Abstract

The utility model discloses a guide plate device of a cooling air grid of toughened glass equipment, and relates to a toughened glass cooling device. The guide plate device comprises upper guide plates and a lower guide plate, which are arranged between a heating furnace and a cooling air grid section of the toughened glass equipment and are respectively positioned on the upper and lower sides of a glass conveying roller way, wherein the upper guide plates are arranged on an upper main beam; the upper main beam is connected with a lifting plate capable of moving along with an upper air grid of the cooling air grid section through a height adjusting bolt. When glass reaching the toughened temperature is discharged from a furnace for toughening, high-pressure quenching air flows blown by air nozzles of upper and lower air grids are guided to the upper and lower parts of the guide air grid by the upper guide plates and the lower guide plate; the arc guide plates can be used for stopping the high-pressure quenching air flows filling air in the hearth of a heating furnace and guiding the movement direction of high-pressure guide air flows to further reduce the resistance of the air flows, so that the control of temperature in the hearth of the heating furnace is more precise, and the temperature is more uniform.

Description

The deflector device of glass fibre reinforced plastic equipment cooling air grid

Technical field

The utility model relates to toughened glass refrigerating unit, relates in particular to a kind of deflector device that relates to horizontal roller formula cooling air grid in glass tempering production.

Background technology

At present in glass tempering deep processing field, the principle of glass fibre reinforced plastic equipment unit all designs round " homogeneous heating, cooling rapidly ", in glass fibre reinforced plastic equipment unit, the fire door of process furnace is provided with cooling air grid section, after glass heats in process furnace burner hearth, the glass that reaches tempering temperature (approximately 720 ℃) is come out of the stove and is sent to cooling air grid section profiled section, cooling air grid profiled section needs high pressure and the chilling air-flow cooling forming rapidly of blower fan generation, thereby reaches the object of glass tempering.Often just at process furnace and cooling air grid profiled section link position, the moment that glass is come out of the stove, the furnace mouth of process furnace is this moment in opened condition, the high pressure that cooling air grid profiled section blower fan produces and chilling air-flow are in the furnace mouth of process furnace enters process furnace burner hearth, thereby cause temprature control unit out of true in process furnace burner hearth, affect the detection of thermopair in process furnace, burner hearth internally heated oven silk temperature changes suddenly, also make the lost increase of temperature in process furnace burner hearth, energy consumption improves; Key is to affect the heating of glass in process furnace burner hearth and the quality of glass, and the toughened glass planeness obtaining is reduced.

Can mounting guiding board between process furnace and cooling air grid section, top and the bottom of the high pressure draft guiding wind grid that upper and lower air grid tuyere is blown out, and how to improve water conservancy diversion effect and the intensity of flow deflector, and regulate the distance of flow deflector apart from roller-way upper glass according to process requirements, regulate the distance between flow deflector, also need further design and development.

Utility model content

The technical problems to be solved in the utility model is: the deflector device that a kind of glass fibre reinforced plastic equipment cooling air grid is provided, can effectively solve glass in the time coming out of the stove tempering, the quench gas that cooling air grid blows out fails to be convened for lack of a quorum and enters fire door, and cannot be according to the problem of processing condition flexible flow deflector after mounting guiding board.

To achieve these goals, the technical solution adopted in the utility model is: the deflector device of glass fibre reinforced plastic equipment cooling air grid, comprise between the process furnace and cooling air grid section that is arranged on described glass fibre reinforced plastic equipment, and lay respectively at baffle upper plate and the chin spoiler of roller-way upper and lower sides of carrying glass, described baffle upper plate is arranged on girder, and upper girder is connected with the riser that can move with the upper air grid of described cooling air grid section by height adjustment bolt.

Described baffle upper plate has more than two, between adjacent baffle upper plate, is separated by the intermediate mass for adjusting its spacing or contiguous block, and described contiguous block is connected with upper girder.

On described baffle upper plate, be provided with bar shaped open holes along its short transverse.

On described contiguous block, be provided with the bar shaped open holes for connecting upper girder along its short transverse.

Described upper girder cover is through on the guide pillar being fixedly installed, and can be along the upper and lower slip of guide pillar.

Described chin spoiler is fixed on the lower girder in glass fibre reinforced plastic equipment.

Described baffle upper plate is the arc to cooling air grid lateral bend near one end of roller-way.

Described chin spoiler is the arc to cooling air grid lateral bend near one end of roller-way.

The beneficial effect that the utility model brings is:

Baffle upper plate and chin spoiler are arranged between process furnace and cooling air grid section, baffle upper plate and chin spoiler are to the arc of cooling air grid lateral bend near one end of roller-way, in the time reaching the glass of tempering temperature (approximately 720 ℃) and come out of the stove tempering, by upper, top and bottom (being stove gate periphery) of the high pressure quench gas stream guiding wind grid that lower air grid tuyere blows out, arc deflector plays and stops that high pressure quench gas flows to filling wind action in process furnace burner hearth, direction of motion with guiding water conservancy diversion high pressure draft, can further reduce the resistance of air-flow, more accurate for improving in process furnace burner hearth temperature control, make the interior temperature of process furnace burner hearth more even, reduce and reduce the lost and energy consumption of temperature in process furnace burner hearth, improve the life-span of process furnace burner hearth internally heated oven silk, key is the tempering quality that the heating of glass in process furnace burner hearth more evenly can improve glass, reach related standards to produce the index such as planeness, granularity, meet the toughened safety glass that user requires, improve the quality of glass, will be particularly outstanding to the tempering effect of the larger following thin glass of 3mm of difficulty in industry.

Baffle upper plate is arranged on girder, upper girder is connected with the riser that can move with the upper air grid of described cooling air grid section by height adjustment bolt, riser can be with upper air grid fast rise, thereby in drive, girder slides on guide pillar, guide pillar can play guiding and positioning action, and then capable of regulating baffle upper plate is the spacing size of plane on glass apart from plane on roller-way, be applicable to process the needs of different thickness glass, baffle upper plate controllability is strong; Height adjustment bolt can play the upper girder of fine setting, and then fine setting baffle upper plate is the effect of interplanar spacing size on glass apart from plane on roller-way.

In the time that glass is met jam, baffle upper plate can upwards be opened to get rid of glass fast with upper air grid, and baffle upper plate can move flexibly, very easy to use.

Between baffle upper plate, separated by intermediate mass, can adjust the spacing between baffle upper plate according to the size of air-flow, and can play and strengthen the intensity of baffle upper plate entirety, the effect of rigidity.

On baffle upper plate, be provided with bar shaped open holes along its short transverse, on contiguous block, be provided with the bar shaped open holes for connecting upper girder along its short transverse, so that when assembling is adjusted the spacing size of baffle upper plate apart from plane plane on glass on roller-way.

Multiple tracks flow deflector (more than 2 roads) compound action, water conservancy diversion effect is more thorough.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is the enlarged view of A part in Fig. 1;

Fig. 3 is the side-view of Fig. 1.

Reference numeral: 1, baffle upper plate, 2, fire door, 3, intermediate mass, 4, contiguous block, 5, upper girder, 6, riser, 7, upper air grid, 8, upper air grid tuyere, 9, roller-way, 10, frame, 11, upper guide post seat, 12, guide pillar, 13, lower guide pillar seat, 14, lower girder, 15, chin spoiler, 16, preset pieces.

Embodiment

Below in conjunction with drawings and the specific embodiments, the utility model is described in further detail.

As shown in the figure, the deflector device of glass fibre reinforced plastic equipment cooling air grid, comprise between the process furnace and cooling air grid section that is arranged on described glass fibre reinforced plastic equipment, and lay respectively at baffle upper plate 1 and the chin spoiler 15 of roller-way 9 upper and lower sides of carrying glass, described baffle upper plate 1 is arranged on girder 5, and upper girder 5 is connected with the riser 6 that can move with the upper air grid 7 of described cooling air grid section by height adjustment bolt.

Described baffle upper plate 1 has more than two, between adjacent baffle upper plate 1, is separated by the intermediate mass 3 for adjusting its spacing or contiguous block 4, and described contiguous block 4 is connected with upper girder 5.

On described baffle upper plate 1, be provided with bar shaped open holes along its short transverse.

On described contiguous block 4, be provided with the bar shaped open holes for connecting upper girder 5 along its short transverse.

Described upper girder 5 covers are through on the guide pillar 12 being fixedly installed, and can be along the upper and lower slip of guide pillar 12.

Described chin spoiler 15 is fixed on the lower girder 14 in glass fibre reinforced plastic equipment.

Described baffle upper plate 1 is the arc to cooling air grid lateral bend near one end of roller-way 9.

Described chin spoiler 15 is the arc to cooling air grid lateral bend near one end of roller-way 9.

The high pressure that cooling air grid section blower fan blows out and chilling air-flow, through being installed on stopping and water conservancy diversion of baffle upper plate 1 and chin spoiler 15 between process furnace and cooling air grid, can play and stop that high pressure quench gas flows to filling wind action in process furnace burner hearth, and top and bottom (being fire door 2 peripheries) of the guiding high pressure quench gas stream guiding wind grid that above air grid tuyere 8, lower air grid tuyere blow out, prevent that air-flow from entering furnace chamber by fire door 2.

Baffle upper plate 1 has more than two, is preferably four, between adjacent baffle upper plate 1, is separated by the intermediate mass 3 for adjusting its spacing or contiguous block 4, and contiguous block 4 is connected with upper girder 5 by bolt.

Upper girder 5 covers are through on the guide pillar 12 being fixedly installed, and can be along the upper and lower slip of guide pillar 12.Guide pillar 12 is fixed by screws on upper guide post seat 11 and lower guide pillar seat 13, and upper guide post seat 11, lower guide pillar seat 13 are fixed on the front column and rear column of frame 10.Lower guide pillar seat 13 is provided with bolt, upwards turns bolt and also can play the effect of the upper girder of fine setting 5 positions.Riser 6 can be with upper air grid 7 fast rise, thereby drive upper girder 5 to slide on guide pillar 12, and then capable of regulating baffle upper plate 1 is the spacing size of plane on glass apart from plane on roller-way.In the time that glass is met jam, baffle upper plate 1 can upwards be opened to get rid of glass fast with upper air grid 7.

On baffle upper plate 1, be provided with bar shaped open holes along its short transverse, on contiguous block 4, be provided with the bar shaped open holes for connecting upper girder 5 along its short transverse, so as when assembling also capable of regulating baffle upper plate 1 apart from the spacing size of plane plane on glass on roller-way.

On air grid front end-plate, be welded with preset pieces 16, for the location to adjustable bolt on riser 6.

Chin spoiler 15 is bolted on lower girder 14, and the two ends of lower girder 14 are separately fixed on the front column and rear column of cooling air grid frame 10, and the position of lower girder 14, chin spoiler 15 does not need to regulate.Baffle upper plate 1 and chin spoiler 15 adopt the cold rolling Q235-A material of δ 2, and the zinc-plated processing of surface process, and adopt mould bending moulding, can further reduce resistance and noise.

Claims (8)

1. the deflector device of glass fibre reinforced plastic equipment cooling air grid, comprise between the process furnace and cooling air grid section that is arranged on described glass fibre reinforced plastic equipment, and lay respectively at baffle upper plate (1) and the chin spoiler (15) of roller-way (9) upper and lower sides of carrying glass, it is characterized in that: it is upper that described baffle upper plate (1) is arranged on girder (5), upper girder (5) be connected with the riser (6) that can move with the upper air grid (7) of described cooling air grid section by height adjustment bolt.

2. the deflector device of glass fibre reinforced plastic equipment cooling air grid as claimed in claim 1, it is characterized in that: described baffle upper plate (1) has more than two, between adjacent baffle upper plate (1), separated by the intermediate mass for adjusting its spacing (3) or contiguous block (4), described contiguous block (4) is connected with upper girder (5).

3. the deflector device of glass fibre reinforced plastic equipment cooling air grid as claimed in claim 1 or 2, is characterized in that: described baffle upper plate (1) is upper is provided with bar shaped open holes along its short transverse.

4. the deflector device of glass fibre reinforced plastic equipment cooling air grid as claimed in claim 2, is characterized in that: described contiguous block (4) is upper is provided with the bar shaped open holes for connecting upper girder (5) along its short transverse.

5. the deflector device of glass fibre reinforced plastic equipment cooling air grid as claimed in claim 1 or 2, is characterized in that: it is upper that described upper girder (5) cover is through the guide pillar (12) being fixedly installed, and can be along the upper and lower slip of guide pillar (12).

6. the deflector device of glass fibre reinforced plastic equipment cooling air grid as claimed in claim 1, is characterized in that: described chin spoiler (15) is fixed on the lower girder (14) in glass fibre reinforced plastic equipment.

7. the deflector device of glass fibre reinforced plastic equipment cooling air grid as claimed in claim 1 or 2, is characterized in that: described baffle upper plate (1) is the arc to cooling air grid lateral bend near one end of roller-way (9).

8. the deflector device of glass fibre reinforced plastic equipment cooling air grid as claimed in claim 1 or 2, is characterized in that: described chin spoiler (15) is the arc to cooling air grid lateral bend near one end of roller-way (9).

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