CN102603176B - Toughened glass horizontal hot dipping detonating furnace - Google Patents

Abstract

The invention relates to a toughened glass horizontal hot dipping detonating furnace which ensures that the sheet arrangement mode of toughened glass in the hot dipping detonating furnace is changed into horizontal and multilayer arrangement from vertical arrangement and is matched with the toughened glass in a toughening furnace. The hot dipping detonating furnace comprises a hot dipping furnace; the hot dipping furnace comprises N intervals of furnace bodies to form furnace heating channels which are communicated with one another; and the sheet arrangement structure in a furnace body adopts a toughened glass horizontal roller way transmission structure and is driven through a transmission device to rotate. The hot dipping detonating furnace has the advantages that the glass cooling process is changed, glass is not cooled to room temperature but cooled to the temperature which is about 50 DEG C to 250 DEG C higher than the room temperature, sent to a toughening air grid and then to the hot dipping furnace, and the glass is directly subjected to thermal insulation in the hot dipping furnace at the environmental temperature from 180 DEG C to 300 DEG C, so that energy consumed for cooling and reheating the glass is saved, air blown off in the air grid section of the hot dipping furnace during the glass cooling is collected in the hot dipping furnace so as to be used as the supplement of heated air circulation in the hot dipping furnace, so that the purpose of energy saving is achieved, and after the hot dipping furnace is connected with a sheet discharge table of the toughening furnace, the purpose of detonating is achieved when glass is sent out from a sheet outlet of the hot dipping furnace.

Description

Stove is ignited in the horizontal hot dipping of toughened glass

Technical field

The present invention relates in a kind of hot dipping ignition stove and put by toughened glass screening form by vertically changing into horizontal multilayer and ignited stove with annealing furnace by the horizontal hot dipping of toughened glass that toughened glass mates, belong to hot dipping and ignite stove manufacture field.

Background technology

Traditional horizontal roller formula glass tempering furnace: glass is cooled to less than 150 degree to reach the glass heat processing units of tempering object from tempering temperature point.By glass heats to tempering temperature point more than 650 degree, and must be cooled to rapidly less than 150 degree in the process, this process adopts air cooling usually.In the process of this heating and cooling, all not only will consume the huge energy, and in air-cooled process, a large amount of warm air of discharge not only wastes the energy, and is degrading the production work environment of employee, refers to accompanying drawing 7.

Traditional hot dipping stove: because toughened glass always exists certain self-destruction rate, for the state making the glass being arranged on external wall reach safe, need the glass played pendulum to do to ignite process, its principle is placed in by glass among an airtight hot vessel, and the heating temperatures of glass is spent to 290+/-10, after whole 21 points for measuring temperature all reach this design temperature, start timing.Keep being cooled to normal room temperature after 2 hours.The glass not occurring in this process to reveal is considered to stable toughened glass.Be thousandth without the self-destruction rate of glass of igniting process, be ten thousand through igniting the self-destruction rate of the glass of process/.Refer to Fig. 8.

Its weak point: annealing furnace is for reaching cooling object, must utilize wind-force that glass is forced blast-cold, and hot dipping stove is the object reaching ignition, glass is had to again to be again heated to 290, in the process, cooling and heating all consume the more energy, and the process of cooling and heating all needs elapsed time, production efficiency is wasted, and produce because annealing furnace is horizontal, and the glass screening of hot dipping stove is in the market arranged vertically, glass is put to change to from level arranged verticallyly consumes production efficiency and human cost.

Summary of the invention

Purpose of design: avoid the weak point in background technology, designs in a kind of hot dipping ignition stove and is put by toughened glass screening form by vertically changing into horizontal multilayer and ignited stove with annealing furnace by the horizontal hot dipping of toughened glass that toughened glass mates.

Design: in order to realize above-mentioned purpose of design.The screening form of hot dipping stove is put by vertically changing into level by the application, and adopts the design of horizontal roller transmission mode or layering superposition transfer mode, is technical characteristics of the present invention.The object done like this is: the horizontal hot dipping of horizontal roller transmission mode is ignited stove and is made up of the body of heater in N number of interval, it connects total length and can meet the temperature processing requirement of 2 hour of glass heats to 290+-10 degree, and design length can be required according to buying side, glass advances with roller-way after entering into body of heater, and is maintained at the temperature range of requirement always.After glass reaches processing requirement, being sent horizontal hot dipping by roller-way and ignite stove and enter between cooling zone, being sent to bottom sheet platform, by manually moving by the cold front heavy rain that blows out from tuyere to less than 50 degree; And layering superposition transfer mode structure, when glass advances to bottom sheet worktable, by artificial, the glass cullet that table top may exist are cleaned out, the glass table top of this space-time has been waited at this station, glass is sent on the power wheel entering on sheet lifting table in the heating chamber of hot dipping stove first segment subsequently by roller-way, table top lifting device A starts subsequently, and the glass table top this being placed glass rises to last layer space.The like, when this glass table top is thus lifted to top layer, by horizontal power wheel, this glass table top is transferred to heating chamber A.Entering subsequently along with glass, this table top is progressively dropped on the horizontal power wheel of lower floor by table top lifting device B, and traversing to heating chamber B by horizontal power wheel.And subsequently along with entering of glass is risen to heating chamber B top by table top lifting device C.This table top is by the traversing top to cooling room of horizontal power wheel subsequently, and the chassis bottom progressively being dropped to by table top lifting device D returns on power wheel, now slice lifting table rises, by the glass jack-up on chassis, slice power wheel on slice lifting table and the action simultaneously of bottom sheet platform, send glass.After glass is sent, slice lifting table lands, and chassis is returned power wheel by chassis and is sent to heating chamber bottom, and enter sheet lifting table and raise, glass is sent into chassis region, repeated work by the bottom sheet bench roller road synchronization action entering sheet power wheel and annealing furnace.

Technical scheme 1: stove is ignited in the horizontal hot dipping of a kind of toughened glass, and comprise hot dipping stove, described hot dipping stove is made up of the body of heater heat tunnel be interconnected the body of heater in N number of interval, and the screening structure in body of heater is horizontal roller drive mechanism and is rotated by actuator drives.

Technical scheme 2: stove production technique is ignited in the horizontal hot dipping of a kind of toughened glass, after hot dipping stove being connected to the bottom sheet platform of annealing furnace, glass is just sent windshield mold for toughing to 50 ~ 250 DEG C by glass cools, enter horizontal hot dipping and ignite stove, ignite in stove to be directly incubated in horizontal hot dipping and be incubated 1.5 ~ 2.5 hours under the envrionment temperature of 290 ± 10 DEG C, when then sending from the piece mouth of horizontal hot dipping ignition stove, just reach the object of ignition, the cold front heavy rain of the tuyere blowout that the glass now entered in refrigerating unit is cooled in device is sent to bottom sheet platform to less than 50 degree, moved by artificial or mechanical manipulator.

Technical scheme 3: stove is ignited in the horizontal hot dipping of a kind of layering superposition delivery type toughened glass, comprise hot dipping stove, described hot dipping stove is made up of and body of heater heating chamber N number of body of heater heating chamber and N number of furnace insulation room and cooling room, the rectangular ripple passage of passage that N number of furnace insulation room and cooling room are formed, N number of body of heater heating chamber and cooling room are respectively equipped with into sheet lifting table and slice lifting table, be provided with slice driving wheel group below N number of furnace insulation room and slice driving wheel group two ends respectively with enter sheet lifting table and slice lifting table in-out end matches, body of heater heating chamber and cooling room are equipped with sheet glass table top elevating transport apparatus.

Technical scheme 4: the production technique of stove is ignited in the horizontal hot dipping of a kind of layering superposition delivery type toughened glass, when glass advances to bottom sheet worktable, by artificial or mechanical manipulator, the glass cullet that table top may exist are cleaned out, the glass table top of this space-time has been waited at this station, glass is sent on the power wheel entering on sheet lifting table in the heating chamber of hot dipping stove first segment subsequently by roller-way, first table top lifting device starts subsequently, the glass table top this being placed glass rises to last layer space, the like, when this glass table top is thus lifted to top layer, by horizontal power wheel, this glass table top is transferred to the first heating chamber, entering subsequently along with glass, this table top is progressively dropped on the horizontal power wheel of lower floor by the second table top lifting device, and it is traversing to the second heating chamber by horizontal power wheel, and subsequently along with entering of glass is risen to the second heating chamber top by the 3rd table top lifting device, this table top is by the traversing top to cooling room of horizontal power wheel subsequently, and the chassis bottom progressively being dropped to by the 3rd table top lifting device returns on power wheel, now slice lifting table rises, by the glass jack-up on chassis, slice power wheel on slice lifting table and the action simultaneously of bottom sheet platform, glass is sent, after glass is sent, slice lifting table lands, chassis is returned power wheel by chassis and is sent to heating chamber bottom, enter sheet lifting table to raise, glass is sent into chassis region by the bottom sheet bench roller road synchronization action entering sheet power wheel and annealing furnace, repeated work.

Technical scheme 5: the production line of stove is ignited in the horizontal hot dipping of a kind of layering superposition delivery type toughened glass, upper slice platform piece mouth is directly to glass tempering furnace import, glass tempering outlet of still and air-cooling chamber inlet communication, air-cooling chamber outlet is straight to bottom sheet platform one end, the bottom sheet platform the other end directly ignites stove import to the horizontal hot dipping of toughened glass, and the horizontal hot dipping of toughened glass ignites outlet of still directly to bottom sheet platform one end.

The present invention is compared with background technology, and one is that the present invention can be divided into left slice from slice direction, and right slice, front slice, can put according to the hall space of client completely; Two is that the screening form of hot dipping stove is put by vertically changing into level by the present invention, is respectively horizontal roller transmission mode and layering superposition transfer mode, and this makes two kinds of different equipment have ready conditions to link together; Three is after hot dipping stove is connected to the bottom sheet platform of annealing furnace by the present invention, thus saves the labor cost of workers carry; Four is the technique that the present invention changes glass cools, no longer by glass cools to room temperature, but being cooled to higher than room temperature 50---glass is just sent windshield mold for toughing by the temperature of about 250 degree, and enter hot dipping stove, directly be incubated the envrionment temperature spent in 290+/-10 in hot dipping stove under, thus save glass cools and the energy consumption reheated; Five is that the wind blown out during glass cools is collected in hot dipping stove by the present invention by annealing furnace air grid section, supplementing as hot air circulation in hot dipping stove, thus reaches the object of saving the energy further; Six is after hot dipping stove is connected to annealing furnace bottom sheet platform by the present invention, when glass is sent from the piece mouth of hot dipping stove, has just reached the object of ignition; Seven are the present invention both can be horizontal roller transmission mode from transfer mode, also can be layering superposition transfer mode, adapt to the needs of varying environment.

Accompanying drawing explanation

Fig. 1 is the structural representation that the first embodiment of stove is ignited in the horizontal hot dipping of toughened glass.

Fig. 2 is the structural representation that in Fig. 1, stove is ignited in the horizontal hot dipping of toughened glass.

Fig. 3 is the structural representation that stove the second embodiment is ignited in the horizontal hot dipping of toughened glass.

Fig. 4 is the structural representation that in Fig. 3, stove is ignited in the horizontal hot dipping of toughened glass.

Fig. 5 is that stove production line schematic diagram is ignited in the horizontal hot dipping of proof box of deep buried type layering superposition delivery type toughened glass.

Fig. 6 is that stove production line schematic diagram is ignited in the horizontal hot dipping of three-dimensional layering superposition delivery type toughened glass.

Fig. 7 is the structural representation of background technology conventional flat roller bed type glass tempering furnace.

Fig. 8 is the structural representation of traditional hot dipping stove in background technology.

Embodiment

Embodiment 1: with reference to attached Fig. 1 and 2.Stove is ignited in the horizontal hot dipping of a kind of toughened glass, and comprise hot dipping stove, described hot dipping stove is made up of the body of heater heat tunnel be interconnected the body of heater in N number of interval, and the screening structure in body of heater is horizontal roller drive mechanism 3-1 and is driven by transmission mechanism 2-1 to rotate.Described body of heater is made up of first body of heater 1-1 and second body of heater 1-2, is connected and first body of heater 1-1 opens around trip shaft 8-1 or closes between first body of heater 1-1 sidewall and second body of heater 1-2 sidewall by trip shaft 8-1.Described body of heater heat tunnel is greater than 280 DEG C, is less than 300 DEG C, and the glass being positioned at body of heater heat tunnel is heated to 290 ± 10 DEG C.The outlet of described body of heater heat tunnel and refrigerating unit 4-1 inlet communication.

Embodiment 2: on the basis of embodiment 1, stove production technique is ignited in the horizontal hot dipping of a kind of toughened glass, after hot dipping stove being connected to the bottom sheet platform of annealing furnace, glass is just sent windshield mold for toughing to 50 ~ 250 DEG C by glass cools, enter horizontal hot dipping and ignite stove, ignite in stove to be directly incubated in horizontal hot dipping and be incubated 1.5 ~ 2.5 hours under the envrionment temperature of 290 ± 10 DEG C, when then sending from the piece mouth of horizontal hot dipping ignition stove, just reach the object of ignition, the cold front heavy rain of the tuyere blowout that the glass now entered in refrigerating unit 4-1 is cooled in device is sent to bottom sheet platform to less than 50 degree, moved by artificial or mechanical manipulator.

Embodiment 3: with reference to accompanying drawing 3-6.Stove is ignited in the horizontal hot dipping of a kind of layering superposition delivery type toughened glass, comprise hot dipping stove, described hot dipping stove is made up of and body of heater heating chamber 3 N number of body of heater heating chamber 3 and N number of furnace insulation room 6 and cooling room 7, the rectangular ripple passage of passage that N number of furnace insulation room 6 and cooling room 7 are formed, N number of body of heater heating chamber 3 and cooling room 7 are respectively equipped with into sheet lifting table 1 and slice lifting table 8, be provided with slice driving wheel group 10 below N number of furnace insulation room 6 and slice driving wheel group 10 two ends respectively with enter sheet lifting table 1 and slice lifting table 8 in-out end matches, body of heater heating chamber 3 and cooling room 7 are equipped with sheet glass table top elevating transport apparatus 5.Described sheet glass table top elevating transport apparatus 5 is made up of vertical promotion device and cross conveyor.Described vertical promotion device is made up of multiple glazing Lifting platform 4 and guide transmission gear, and library structure is deposited just as multilayer automobile stereo by multiple glazing Lifting platform 4 mechanism, and guide transmission gear, just as boat meal case horizontally-guided transmission rig.Described enter sheet lifting table 1 and slice lifting table 8 bottom is respectively equipped with lifting drive, top is respectively equipped with contact pin power wheel 1 and slice power wheel 9 and be provided with contact pin power wheel 1 and slice power wheel 9 coordinates in intersecting with driving wheel group 10 power wheel.

Embodiment 4: on the basis of embodiment 3, the production technique of stove is ignited in the horizontal hot dipping of a kind of layering superposition delivery type toughened glass, when glass advances to bottom sheet worktable, by artificial or mechanical manipulator, the glass cullet that table top may exist are cleaned out, the glass table top of this space-time has been waited at this station, glass is sent on the power wheel entering on sheet lifting table in the heating chamber 3 of hot dipping stove first segment subsequently by roller-way, first table top lifting device 5 starts subsequently, the glass table top 4 this being placed glass rises to last layer space, the like, when this glass table top is thus lifted to top layer, by horizontal power wheel, this glass table top is transferred to the first heating chamber, entering subsequently along with glass, this table top is progressively dropped on the horizontal power wheel of lower floor by the second table top lifting device 5, and it is traversing to the second heating chamber by horizontal power wheel, and subsequently along with entering of glass is risen to the second heating chamber 3 top by the 3rd table top lifting device 5, this table top is by the traversing top to cooling room of horizontal power wheel subsequently, and the chassis bottom progressively being dropped to by the 3rd table top lifting device returns on power wheel, now slice lifting table rises, by the glass jack-up on chassis, slice power wheel on slice lifting table and the action simultaneously of bottom sheet platform, glass is sent, after glass is sent, slice lifting table lands, chassis is returned power wheel by chassis and is sent to heating chamber bottom, enter sheet lifting table to raise, glass is sent into chassis region by the bottom sheet bench roller road synchronization action entering sheet power wheel and annealing furnace, repeated work.

Embodiment 5: with reference to accompanying drawing 5.The production line of stove is ignited in the horizontal hot dipping of a kind of proof box of deep buried type layering superposition delivery type toughened glass, upper slice platform 201 piece mouth is directly heated to about 680 degree to glass tempering furnace 202(glass) import, glass tempering furnace 202 exports air-cooled to room temperature with air-cooling chamber 203() inlet communication, air-cooling chamber 203 exports straight to bottom sheet platform 204 one end, bottom sheet platform 204 the other end directly ignites stove 205 import to the horizontal hot dipping of toughened glass, and the horizontal hot dipping of toughened glass is ignited stove 205 and exported straight to bottom sheet platform 206 one end.

It is underground proof box of deep buried type structure that stove is ignited in the described horizontal hot dipping of layering superposition delivery type toughened glass, and object is applicable to the client of hall space height deficiency.

Embodiment 6: with reference to accompanying drawing 6.The production line of stove is ignited in the horizontal hot dipping of a kind of three-dimensional layering superposition delivery type toughened glass, upper slice platform 301 piece mouth is directly heated to about 680 degree to glass tempering furnace 302(glass) import, glass tempering furnace 302 exports air-cooled to room temperature with air-cooling chamber 303() inlet communication, air-cooling chamber 303 exports straight to bottom sheet platform 304 one end, bottom sheet platform 304 the other end directly ignites stove 305 import to the horizontal hot dipping of toughened glass, and the horizontal hot dipping of toughened glass is ignited stove 305 and exported straight to bottom sheet platform 306 one end.

It is three-dimensional overhead type that stove is ignited in the described horizontal hot dipping of layering superposition delivery type toughened glass, the object client that compatibly surface construction difficulty is large.

It is to be understood that: although above-described embodiment to be contrasted detailed text description to mentality of designing of the present invention; but these text descriptions; just the simple text of mentality of designing of the present invention is described; instead of the restriction to mentality of designing of the present invention; any do not exceed mentality of designing of the present invention combination, increase frame or amendment, all fall within the scope of protection of the present invention.

Claims (7)

1. stove is ignited in the horizontal hot dipping of toughened glass, comprise hot dipping stove, it is characterized in that: the screening form of described hot dipping stove is put by vertically changing into level, and adopt horizontal roller transmission mode, hot dipping stove is made up of the body of heater heat tunnel be interconnected the body of heater in N number of interval, the screening structure in body of heater is horizontal roller drive mechanism (3-1) and is driven by transmission mechanism (2-1) to rotate; Described body of heater is made up of first body of heater (1-1) and second body of heater (1-2), between first body of heater (1-1) sidewall and second body of heater (1-2) sidewall by trip shaft (8-1) connect and first body of heater (1-1) around trip shaft (8-1) open or close; After hot dipping stove being connected to the bottom sheet platform of annealing furnace, by glass cools to 50 ~ 250 DEG C just glass is sent windshield mold for toughing, enter horizontal hot dipping ignite stove, ignite in stove to be directly incubated in horizontal hot dipping and be incubated 1.5 ~ 2.5 hours under the envrionment temperature of 290 ± 10 DEG C, when then sending from the piece mouth of horizontal hot dipping ignition stove, just reach the object of ignition, the cold front heavy rain of the tuyere blowout that the glass that now enters in refrigerating unit (4-1) is cooled in device is sent to bottom sheet platform to less than 50 degree, is moved by artificial or mechanical manipulator.

2. stove is ignited in the horizontal hot dipping of toughened glass according to claim 1, and it is characterized in that: described body of heater heat tunnel is greater than 280 DEG C, is less than 300 DEG C, the glass being positioned at body of heater heat tunnel is heated to 290 ± 10 DEG C.

3. stove is ignited in the horizontal hot dipping of toughened glass according to claim 1, it is characterized in that: the outlet of described body of heater heat tunnel and refrigerating unit (4-1) inlet communication.

4. the production technique of stove is ignited in the horizontal hot dipping of a layering superposition delivery type toughened glass, it is characterized in that: when glass advances to bottom sheet worktable, by artificial or mechanical manipulator, the glass cullet that table top may exist are cleaned out, the glass table top of this space-time has been waited at this station, glass is sent on the power wheel entering on sheet lifting table in the heating chamber (3) of hot dipping stove first segment subsequently by roller-way, first table top lifting device (5) starts subsequently, the glass table top (4) this being placed glass rises to last layer space, the like, when this glass table top is thus lifted to top layer, by horizontal power wheel, this glass table top is transferred to the first heating chamber, entering subsequently along with glass, this table top is progressively dropped on the horizontal power wheel of lower floor by the second table top lifting device (5), and it is traversing to the second heating chamber by horizontal power wheel, and subsequently along with entering of glass is risen to the second heating chamber (3) top by the 3rd table top lifting device (5), this table top is by the traversing top to cooling room of horizontal power wheel subsequently, and the chassis bottom progressively being dropped to by the 3rd table top lifting device returns on power wheel, now slice lifting table rises, by the glass jack-up on chassis, slice power wheel on slice lifting table and the action simultaneously of bottom sheet platform, glass is sent, after glass is sent, slice lifting table lands, chassis is returned power wheel by chassis and is sent to heating chamber bottom, enter sheet lifting table to raise, glass is sent into chassis region by the bottom sheet bench roller road synchronization action entering sheet power wheel and annealing furnace, repeated work.

5. the production line of stove is ignited in the horizontal hot dipping of a layering superposition delivery type toughened glass, it is characterized in that: upper slice platform (201) piece mouth is directly to glass tempering furnace (202) import, glass tempering furnace (202) outlet and air-cooling chamber (203) inlet communication, air-cooling chamber (203) outlet is straight to bottom sheet platform (204) one end, bottom sheet platform (204) the other end directly ignites stove (205) import to the horizontal hot dipping of toughened glass, and it is straight to bottom sheet platform (206) one end that stove (205) outlet is ignited in the horizontal hot dipping of toughened glass.

6. the production line of stove is ignited in the horizontal hot dipping of layering superposition delivery type toughened glass according to claim 5, it is characterized in that: it is underground proof box of deep buried type structure that stove is ignited in the described horizontal hot dipping of layering superposition delivery type toughened glass.

7. the production line of stove is ignited in the horizontal hot dipping of layering superposition delivery type toughened glass according to claim 5, it is characterized in that: it is three-dimensional overhead type that stove is ignited in the described horizontal hot dipping of layering superposition delivery type toughened glass.