CN207115216U - Continous way devitrified glass precision bending furnace - Google Patents
Continous way devitrified glass precision bending furnace Download PDFInfo
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- CN207115216U CN207115216U CN201721000219.7U CN201721000219U CN207115216U CN 207115216 U CN207115216 U CN 207115216U CN 201721000219 U CN201721000219 U CN 201721000219U CN 207115216 U CN207115216 U CN 207115216U
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- devitrified glass
- hot bending
- bending
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Abstract
The utility model discloses continous way devitrified glass precision bending furnace,Including body of heater shell,The bottom of the body of heater shell is provided with base of furnace body,The side of the belt conveyor is rotatably connected to motor by connecting shaft,The body of heater shell includes annealing chamber,Transition chamber,Hot bending room,Preheating chamber,Material extracting chamber and cooling chamber,Preheating chamber is provided with below the annealing chamber,The side of the preheating chamber is provided with hot bending room,The utility model is provided with damping coating layer in body of heater shell,The resonance or standing wave phenomena of metal outer wall can be reduced,There is provided punched-plate,Can effectively it absorb sound,Reduce noise,There is provided loudspeaker,Amplify according to loudspeaker are positive,The principle that direction reduces,Effectively reduce the transmission of noise,There is provided damping tube,Vibrations can be transmitted,More preferable soundproof effect can be reached,Vibration and noise caused by bending furnace work is set effectively to reduce,Avoid and vibrate the excessive Forming Quality for influenceing heat-bending glass.
Description
Technical field
The utility model belongs to devitrified glass processing technique field, and in particular to continous way devitrified glass precision bending furnace.
Background technology
Bending furnace has two kinds of a continous way and batch (-type), and continuous bending furnace typically has 5~6 rooms, 11~13 stations, about
Dozens of minutes can go out one piece of finished product, and a batch (-type) bending furnace typically only room, heating shaping, annealing are complete an interior
Into the process-cycle needed a few hours down to one, 20 hour, was adapted to make the super-huge heat-bending glass of small lot.
There are some defects in existing bending furnace, such as bending furnace vibrates in use and noise in use
It is excessive, noise pollution, and the excessive easily influence devitrified glass processing effect of bending furnace vibration are easily caused, is not provided with DTK-
2013 photoelectric counters, it is impossible to counted to the devitrified glass of processing.
In the Chinese patent that the patent No. is CN103803781A, it is proposed that a kind of continuous thermal bending furnace for glass, including shaping
Area and chassis, shaping area have burner hearth, and burner hearth inner horizontal is provided with the crane for placing the chassis, the shaping area
Both sides external be additionally provided with elevating mechanism for driving the crane to move up and down, the elevating mechanism has lift chain
Bar, the both ends of the crane are fixedly connected through hearth wall with the bearing pin of the elevating chain, the continuous thermal bending furnace for glass pair
The location sensitive of chassis lifting is accurate, and fault rate is low, but the bending furnace vibrates, easy shadow larger with noise in use
Processing effect is rung, and is not provided with DTK-2013 photoelectric counters, it is impossible to which the glass processed is counted.
Utility model content
The purpose of this utility model is to provide a kind of continous way devitrified glass precision bending furnace, to solve above-mentioned background skill
The bending furnace proposed in art vibrates excessive with noise in use, easily causes noise pollution, and bending furnace vibration is excessive
Devitrified glass processing effect is easily influenceed, is not provided with counter, it is impossible to the problem of being counted to the devitrified glass of processing.
To achieve the above object, the utility model provides following technical scheme:
Continous way devitrified glass precision bending furnace, including body of heater shell, it is characterised in that:The bottom of the body of heater shell is set
Base of furnace body is equipped with, and body of heater enclosure is provided with belt conveyor above base of furnace body;The body of heater shell includes
There are annealing chamber, transition chamber, hot bending room, preheating chamber, material extracting chamber and cooling chamber, the preheating chamber is arranged on the lower section of annealing chamber and one
Side is provided with hot bending room;Hot bending room and the inside of preheating chamber are mounted on electric heater, away from hot bending room on the preheating chamber
Side is provided with material extracting chamber, and cooling chamber is provided with above the material extracting chamber, and the inside of material extracting chamber and cooling chamber is provided with heat
Curved case;The side away from cooling chamber is provided with transition chamber in the annealing chamber, and the side of cooling chamber is provided with feed opening;It is close to take
The side of material room is provided with blanking bench, and the side of blanking bench is provided with XHDM-5 controllers;The inner upper of the body of heater shell
Electronic horizontal mobile mechanism is installed;Ventilation duct is connected with above the body of heater shell, the side of the ventilation duct is provided with
Three return ducts, it is connected with corresponding preheating chamber and hot bending room respectively;The both sides of the ventilation duct are symmetrically arranged with magnetic valve,
And the both ends of ventilation duct offer ventilating opening, the bottom of the ventilation duct is connected by communicating pipe with blower fan, and the blower fan leads to
Blast pipe is crossed to be connected with annealing chamber;
In the utility model, the body of heater shell also include damping coating layer, punched-plate, outer cover body, fall loudspeaker and
Damping tube, the inside both sides of the outer cover body are symmetrically arranged with damping coating layer, the relative position of two damping coating layers
Punched-plate is symmetrically installed with, the relative position of two punched-plates is symmetrically installed with damping tube.
Further, DTK-2013 photoelectric counters are installed above the feed opening.
Further, the side of the electronic horizontal mobile mechanism and hot bending room and the inside of preheating chamber are mounted on
TR02012 temperature sensors.
Further, the inside both sides of the material extracting chamber and cooling chamber are symmetrically installed with electronic descending mechanism, the transition
The inside both sides of room are symmetrically installed with electronic lifting mechanism.
Further, the TR02012 temperature sensors, magnetic valve, electronic horizontal mobile mechanism, electronic lifting mechanism,
Electric heater, DTK-2013 photoelectric counters and electronic descending mechanism are electrically connected with XHDM-5 controllers.
Further, the electric heater is at least provided with 10, and corresponds to respectively installed in hot bending room and preheating chamber
It is internal.
Further, the damping tube is at least provided with 10, and is respectively symmetrically arranged on the both sides of loudspeaker.
Further, the loudspeaker are arranged on the bosom opening position of outer cover body.
Further, thermal insulating door thermally insulated door is installed between the hot bending room and preheating chamber, its quantity is five, corresponds to installation respectively
In annealing chamber and cooling chamber, annealing chamber and transition chamber, transition chamber and hot bending room, hot bending room and preheating chamber and preheating chamber and feeding
Between room.
The utility model compared with prior art, has the advantages that:
(1) the utility model is provided with damping coating layer in body of heater shell, it is possible to reduce the resonance of metal outer wall is stayed
Ripple phenomenon, there is provided punched-plate, can effectively absorb sound, and reduces noise, and there is provided loudspeaker, amplify according to loudspeaker are positive, direction
The principle of diminution, the transmission of noise is effectively reduced, there is provided damping tube, can transmit vibrations, can reach more preferable sound insulation
Effect, vibration and noise caused by bending furnace work is effectively reduced, avoid and vibrate the excessive shaping for influenceing heat-bending glass
Quality.
The utility model is provided with DTK-2013 photoelectric counters, and the shaping heat-bending glass that taken out can be counted
Number, convenient statistics.
High-temperature gas inside annealing chamber can be back to hot bending room and pre- by the utility model by being provided with return duct
In hot cell, and TR02012 temperature sensors are internally provided with annealing chamber, when temperature is relatively low, open magnetic valve, by temperature compared with
Low gas is discharged from the ventilating opening at ventilation duct both ends.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model;
Fig. 2 is outside drawing of the present utility model;
Fig. 3 is the structural representation of the utility model body of heater shell;
In figure:1- communicating pipes, 2- blower fans, 3- blast pipes, 4-TR02012 temperature sensors, 5- return ducts, 6- magnetic valves,
7- ventilation ducts, 8- support bars, 9- annealing chamber, the electronic horizontal mobile mechanisms of 10-, 11- bodies of heater shell, 111- damping coating layers,
It is defeated that 112- punched-plates, 113- outer cover bodies, 114- fall loudspeaker, 115- damping tubes, 12- transition chambers, the electronic lifting mechanisms of 13-, 14-
Send belt, 15- base of furnace body, 16- hot bendings room, 17- thermal insulating door thermally insulated doors, 18- preheating chambers, 19- electric heaters, 20- motors, 21-
XHDM-5 controllers, 22- blanking bench, 23- feed openings, 24- material extracting chamber, 25-DTK-2013 photoelectric counters, 26- hot bendings case,
27- cooling chambers, 28- rotating shafts, the electronic descending mechanisms of 29-, 30- ventilating openings.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The every other embodiment obtained, belong to the scope of the utility model protection.
Fig. 1-3 are referred to, the utility model provides a kind of technical scheme:A kind of continous way devitrified glass precision bending furnace,
Including body of heater shell 11, the bottom of body of heater shell 11 is provided with base of furnace body 15, and the inside of body of heater shell 11 is close to base of furnace body
15 top is provided with belt conveyor 14, and the side of belt conveyor 14 is rotatably connected to motor 20 by connecting shaft, driving
The work of motor 20, which drives belt conveyor 14 to rotate, makes this bending furnace can be with normal operation.
In the present embodiment, the body of heater shell 11 includes annealing chamber 9, transition chamber 12, hot bending room 16, preheating chamber 18, taken
Material room 24 and cooling chamber 27, the lower section of annealing chamber 9 are provided with preheating chamber 18, and the side of preheating chamber 18 is provided with hot bending room 16, heat
Thermal insulating door thermally insulated door 17 is installed between curved room 16 and preheating chamber 18, prevents the internal heat of hot bending room 16 from entering inside preheating chamber 18, and
Hot bending room 16 and the inside of preheating chamber 18 are mounted on electric heater 19, and the top of thermal insulating door thermally insulated door 17 is provided with rotating shaft 28, thermal insulating door thermally insulated door
17 can be rotated by rotating shaft 28.
Further, the side away from hot bending room 16 is provided with material extracting chamber 24 on the preheating chamber 18, material extracting chamber 24 it is upper
Side is provided with cooling chamber 27 close to the side of annealing chamber 9, and the inside both sides of material extracting chamber 24 and cooling chamber 27 are symmetrically installed with electronic
Descending mechanism 29, and the inside of material extracting chamber 24 and cooling chamber 27 is provided with hot bending case 26, electronic descending mechanism 29 is used to drive
Hot bending case 26 declines;The side away from cooling chamber 27 is provided with transition chamber 12 in annealing chamber 9, and the inside both sides of transition chamber 12 are symmetrical
Electronic lifting mechanism 13 is installed, electronic lifting mechanism 13 is used to drive hot bending case 26 to rise.
In addition, the side of cooling chamber 27 is provided with feed opening 23 on body of heater shell 11, the top of feed opening 23 is provided with
DTK-2013 photoelectric counters 25, the glass that can be completed to shaping count;Close to material extracting chamber 24 on body of heater shell 11
Side is provided with blanking bench 22, and the side of blanking bench 22 is provided with XHDM-5 controllers 21, is easy to control the normal work of this bending furnace
Make;Wherein, the inner upper of body of heater shell 11 is provided with electronic horizontal mobile mechanism 10, for driving hot bending case 26 outside body of heater
The inner upper of shell 11 is moved horizontally, and the side of electronic horizontal mobile mechanism 10 is provided with TR02012 temperature sensors 4.
Further, the top of the body of heater shell 11 is fixedly connected with ventilation duct 7 by support bar 8, and the one of ventilation duct 7
Side is provided with three return ducts 5, and one of return duct 5 is connected with preheating chamber 18, and two other return duct 5 connects with hot bending room 16
Connect, the both sides of ventilation duct 7 are symmetrically arranged with magnetic valve 6, and the both ends of ventilation duct 7 offer ventilating opening 30, the bottom of ventilation duct 7
Portion is connected by communicating pipe 1 with blower fan 2, and blower fan 2 is connected by blast pipe 3 with annealing chamber 9.
What deserves to be explained is body of heater shell described in the present embodiment 11 also include damping coating layer 111, punched-plate 112,
Outer cover body 113, loudspeaker 114 and damping tube 115, the inside both sides of outer cover body 113 are symmetrically arranged with damping coating layer
111, it is possible to reduce the resonance or standing wave phenomena of metal outer wall, the relative position of two damping coating layers 111 are symmetrically installed with
It punched-plate 112, can effectively absorb sound, reduce noise, the relative position of two punched-plates 112 is symmetrically installed with damping tube 115,
Vibrations can be transmitted, more preferable soundproof effect can be reached, the bosom opening position of outer cover body 113 is provided with down loudspeaker
114, TR02012 temperature sensors 4, magnetic valve 6, electronic horizontal mobile mechanism 10, electronic lifting mechanism 13, electric heater 19,
Motor 20, DTK-2013 photoelectric counters 25 and electronic descending mechanism 29 are electrically connected with XHDM-5 controllers 21.
In order that hot bending room 16 is conveniently detected with the temperature inside preheating chamber 18, in the present embodiment, it is preferred that hot bending room 16
TR02012 temperature sensors 4 are mounted on the inside of preheating chamber 18.
In order that the inside of hot bending room 16 and preheating chamber 18 can be with homogeneous heating, in the present embodiment, it is preferred that electric heater 19
At least provided with 10, and the inside installed in hot bending room 16 with preheating chamber 18 is corresponded to respectively.
In order that the silencing and damping of this bending furnace is better, in the present embodiment, damping tube 115 at least provided with 10,
And respectively symmetrically it is arranged on the both sides of loudspeaker 114.
In order that the heat insulation effect of this bending furnace is more preferably, in the present embodiment, thermal insulating door thermally insulated door 17 is provided with five, and five guarantors altogether
Warm door 17 is separately mounted to annealing chamber 9 and cooling chamber 27, annealing chamber 9 and transition chamber 12, transition chamber 12 and hot bending room 16, hot bending room
Between 16 and preheating chamber 18 and preheating chamber 18 and material extracting chamber 24.
Operation principle and process for using of the present utility model:After the continous way devitrified glass precision bending furnace installs,
The mould for needing to be molded is put into inside hot bending case 26, it would be desirable to which the devitrified glass being processed is put into inside material extracting chamber 24
In hot bending case 26, the equal normal work of device with the electric connection of XHDM-5 controllers 21, driving are made by XHDM-5 controllers 21
The work of motor 20 drives belt conveyor 14 to rotate by connecting shaft, hot bending case 26 is transported to inside preheating chamber 18, preheating chamber 18
Internal electric heater 19 works to be preheated to devitrified glass, and hot bending case 26 is transported in hot bending room 16 after the completion of preheating
Portion, the electric heater 19 inside hot bending room 16 works to be heated at high temperature to devitrified glass, and devitrified glass produces under gravity
Raw bending, is bonded with die surface, completion hot bending, and after the completion of hot bending, hot bending case 26 is transported into transition by belt conveyor 14
Inside room 12, then the inner upper for thering is the electronic lifting mechanism 13 inside transition chamber 12 to be moved to transition chamber 12, then by electric water
Flat travel mechanism 10, which is moved to inside annealing chamber 9, to be cooled, and the work of blower fan 2 is empty by the heat inside annealing chamber 9 by blast pipe 3
Gas is transported to inside ventilation duct 7 by communicating pipe 1, then hot-air is respectively delivered into hot bending room 16 and preheating chamber by return duct 5
18 carry out heat recovery and utilization, while the hot bending case 26 inside cooling chamber 27 is transported in material extracting chamber 24 by electronic descending mechanism 29
Portion's addition needs the devitrified glass processed, then the inside of hot bending room 16 is transported to after being preheated by preheating chamber 18 and completes hot bending, now moves back
After hot bending case 26 inside fiery room 9 cools down, it is moved to inside cooling chamber 27, is cooled down by electronic horizontal mobile mechanism 10, it is cold
But after the completion of after, dropped to by electronic descending mechanism 29 inside material extracting chamber 24, standing takes out shaping on blanking bench 22
Devitrified glass afterwards, while DTK-2013 photoelectric counters 25 count to the glass of shaping, are provided with body of heater shell 11
Damping coating layer 111, it is possible to reduce the resonance or standing wave phenomena of body of heater shell 11, there is provided punched-plate 112, can effectively inhale
Sound, noise is reduced, there is provided loudspeaker 114, amplify according to loudspeaker are positive, the principle that direction reduces, effectively reduce noise
Transmission, there is provided damping tube 115, can transmit vibrations, can reach more preferable soundproof effect, makes caused by bending furnace work
Vibration and noise effectively reduce, and avoid and vibrate the excessive Forming Quality for influenceing heat-bending glass.
While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art,
It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from principle of the present utility model and spirit, repaiied
Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.
Claims (9)
1. continous way devitrified glass precision bending furnace, including body of heater shell (11), it is characterised in that:The body of heater shell (11)
Bottom is provided with base of furnace body (15), and is provided with belt conveyor above the internal close base of furnace body (15) of body of heater shell (11)
(14);The body of heater shell (11) includes annealing chamber (9), transition chamber (12), hot bending room (16), preheating chamber (18), material extracting chamber
(24) lower section of annealing chamber (9) and its side are arranged on and is provided with hot bending room (16) with cooling chamber (27), the preheating chamber (18);Heat
The inside of curved room (16) and preheating chamber (18) is mounted on electric heater (19), away from hot bending room (16) on the preheating chamber (18)
Side be provided with material extracting chamber (24), be provided with cooling chamber (27) above the material extracting chamber (24), and material extracting chamber (24) and cooling
The inside of room (27) is provided with hot bending case (26);The side away from cooling chamber (27) is provided with transition on the annealing chamber (9)
Room (12), the side of cooling chamber (27) are provided with feed opening (23);The side of material extracting chamber (24) is provided with blanking bench (22),
The side of blanking bench (22) is provided with XHDM-5 controllers (21);The inner upper of the body of heater shell (11) is provided with electric water
Flat travel mechanism (10);Ventilation duct (7), the side installation of the ventilation duct (7) are connected with above the body of heater shell (11)
There are three return ducts (5), it is connected with corresponding preheating chamber (18) and hot bending room (16) respectively;The both sides of the ventilation duct (7)
Magnetic valve (6) is symmetrically arranged with, and the both ends of ventilation duct (7) offer ventilating opening (30), the bottom of the ventilation duct (7) leads to
Cross and be connected with blower fan (2) communicating pipe (1), the blower fan (2) is connected by blast pipe (3) with annealing chamber (9);
The body of heater shell (11) also includes damping coating layer (111), punched-plate (112), outer cover body (113), the loudspeaker that fall
(114) and damping tube (115), the inside both sides of the outer cover body (113) are symmetrically arranged with damping coating layer (111), two
The relative position of damping coating layer (111) is symmetrically installed with punched-plate (112), the relative position of two punched-plates (112)
It is symmetrically installed with damping tube (115).
2. continous way devitrified glass precision bending furnace according to claim 1, it is characterised in that:The feed opening (23)
Top is provided with DTK-2013 photoelectric counters (25).
3. continous way devitrified glass precision bending furnace according to claim 2, it is characterised in that:It is described electronic to move horizontally
The side and hot bending room (16) of mechanism (10) are mounted on TR02012 temperature sensors (4) with the inside of preheating chamber (18).
4. continous way devitrified glass precision bending furnace according to claim 3, it is characterised in that:The material extracting chamber (24) with
The inside both sides of cooling chamber (27) are symmetrically installed with electronic descending mechanism (29), and the inside both sides of the transition chamber (12) are symmetrically pacified
Equipped with electronic lifting mechanism (13).
5. continous way devitrified glass precision bending furnace according to claim 4, it is characterised in that:The TR02012 temperature
Sensor (4), magnetic valve (6), electronic horizontal mobile mechanism (10), electronic lifting mechanism (13), electric heater (19), DTK-
2013 photoelectric counters (25) and electronic descending mechanism (29) are electrically connected with XHDM-5 controllers (21).
6. continous way devitrified glass precision bending furnace according to claim 1, it is characterised in that:The electric heater (19)
At least provided with 10, and the inside installed in hot bending room (16) with preheating chamber (18) is corresponded to respectively.
7. continous way devitrified glass precision bending furnace according to claim 1, it is characterised in that:The damping tube (115)
At least provided with 10, and respectively symmetrically it is arranged on the both sides of loudspeaker (114).
8. continous way devitrified glass precision bending furnace according to claim 1, it is characterised in that:The loudspeaker (114)
Installed in the bosom opening position of outer cover body (113).
9. continous way devitrified glass precision bending furnace according to claim 1, it is characterised in that:The hot bending room (16) with
Thermal insulating door thermally insulated door (17) is installed, its quantity is five, corresponds to be arranged on annealing chamber (9) and cooling chamber respectively between preheating chamber (18)
(27), annealing chamber (9) and transition chamber (12), transition chamber (12) and hot bending room (16), hot bending room (16) and preheating chamber (18) and
Between preheating chamber (18) and material extracting chamber (24).
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CN201721000219.7U CN207115216U (en) | 2017-08-11 | 2017-08-11 | Continous way devitrified glass precision bending furnace |
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CN201721000219.7U CN207115216U (en) | 2017-08-11 | 2017-08-11 | Continous way devitrified glass precision bending furnace |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109023859A (en) * | 2018-06-20 | 2018-12-18 | 武晓丹 | A kind of low noise type Efficient dehydrator |
CN110047783A (en) * | 2019-04-19 | 2019-07-23 | 湖南新锐微电子科技有限公司 | A kind of silicon carbide plate flash annealing device |
-
2017
- 2017-08-11 CN CN201721000219.7U patent/CN207115216U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109023859A (en) * | 2018-06-20 | 2018-12-18 | 武晓丹 | A kind of low noise type Efficient dehydrator |
CN110047783A (en) * | 2019-04-19 | 2019-07-23 | 湖南新锐微电子科技有限公司 | A kind of silicon carbide plate flash annealing device |
CN110047783B (en) * | 2019-04-19 | 2024-05-07 | 湖南新锐微电子科技有限公司 | Quick heating annealing device for silicon carbide chip |
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