CN201756501U

CN201756501U - Radiation heating furnace with external circulation device

Info

Publication number: CN201756501U
Application number: CN2010202838025U
Authority: CN
Inventors: 姚敏
Original assignee: HANGZHOU JINGGLASS MACHINERY CO Ltd
Current assignee: HANGZHOU JINGGLASS MACHINERY CO Ltd
Priority date: 2010-08-06
Filing date: 2010-08-06
Publication date: 2011-03-09
Anticipated expiration: 2020-08-06

Abstract

The utility model discloses a radiation heating furnace with an external circulation device, which comprises a furnace body and an external circulation device arranged on outside the furnace body, wherein the furnace body comprises a lifting upper furnace body and a lower furnace body fixed on the ground, an upper heating unit and a lower heating unit are correspondingly arranged in an upper furnace body and a lower furnace body, and a transmission roller passage for conveying glass is arranged between the upper and the lower heating units; and the external circulation device comprises an air compressor, a gas storage tank, a heat exchanger, an induced draft fan, an air suction pipe, an upper gas ejector pipe, a lower gas ejector pipe and a connecting pipeline thereof. By utilizing the external circulation device in the utility model, the convection heating of glass is added on the basis of radiation heating, thereby shortening the heating time of LOW-E glass and counter-radiation glass, reducing the energy consumption and playing a role of energy conservation; and by virtue of the heat exchange between hot and cold air, the upper surfaces and the lower surfaces of the LOW-E glass and counter-radiation glass are heated uniformly, thereby reducing the rejection rate, improving the quality of products, and enabling the quality of products to achieve the national standard on toughened glass.

Description

A kind of radiation furnace of belt body external circulating device

Technical field

The utility model relates to a kind of radiation furnace, is specifically related to a kind of radiation furnace of belt body external circulating device.

Background technology

Radiation furnace in the market is based on radiation heating to the type of heating of glass, and conduction heating is auxilliary.Specifically, the infrared light that sends when utilizing the electrical heating wire energising exactly directly carries out radiation heating to the upper and lower surface of sheet glass, assists with the surface sheet glass lower surface conduction heating.

When producing the high glass of reflectivity and transmissivity, this type of heating can exist heat-up time long, the problem that heat transfer efficiencies is low.Especially when processing LOW-E glass and counter radiation glass, the rete on surface on glass can reflect away the radiant heat from the top heating unit consumingly, the heating unit of bottom can produce twice heating to glass again, i.e. thermal radiation penetrates glass and turned back again by superficial film reflection on glass from below; Add the conduction heating of ceramic roller, make that adding of on glass, lower surface is thermoae inhomogeneous lower glass surface.This will have a strong impact on shape, planeness, optical quality behind the glass tempering, greatly change the resistance value of LOW-E glass surface even, make quality product not reach the national standard of toughened glass, can not satisfy customer requirements.

Utility model patent ZL03275747.6 discloses a kind of glass heats stove of even heating down on glass that makes, and comprises body of heater and roller-way, is provided with the cold air nozzle below roller-way.This technical scheme is regulated the surface temperature of ceramic roller by cold duct and cold air nozzle, only solved the problem of the homogeneous heating of simple glass, but when producing the high glass of reflectivity and transmissivity, this type of heating can exist heat-up time long, heat transfer efficiencies is low, the problem that the energy waste amount is big.

Patent of invention ZL200410049674.7 discloses a kind of method and apparatus of heating glass.In the time of on the roller in glass places a tempering stove from top and below to glass heats, the upper surface of glass heats by the warm air injection stream, and this warm air injection stream is by drawing air and this warm air pressurization and the upper surface that makes its recirculation turn back to glass being formed in stove; The lower surface of glass heats by a compressor pressurizes and the heated air that will take from the stove outside.Though this technical scheme is short and homogeneous heating to the LOW-E glass heats time, be not suitable for existing traditional radiant-type furnace is carried out transformation and upgrade, because transformation is complicated, cost is high.

Utility model patent ZL200920160630.X discloses a kind of high-pressure air convection circulation heating unit, it is made up of high-pressure air convection circulation system, body of heater and Duo Gen rollgang, high-pressure air convection circulation system is located at the inside of described body of heater, wherein many rollgangs horizontally rotate and are installed in the body of heater, and, be provided with a plurality of high-pressure air convection circulation static pressure generator nozzles of the upper and lower surface that can be ejected into lower-glass on the rollgang in the high-pressure air convection circulation system through the body of heater both sides.This technical scheme directly heats lower surface on glass by the pressurized air of gas-holder, only solved the homogeneous heating problem of simple glass, can not solve because the second-heating phenomenon of LOW-E glass causes this kind lower surface on glass to heat uneven technical barrier, and heating efficiency is low.

Summary of the invention

For solving the problem that above-mentioned prior art exists, the utility model provides a kind of radiation furnace of belt body external circulating device, especially is fit to the processing of LOW-E glass and counter radiation glass.

A kind of radiation furnace of belt body external circulating device, comprise body of heater and the extracorporeal circulation apparatus of being located at the body of heater outside, described body of heater is made up of liftable upper furnace body and the lower furnace body that is fixed on ground, correspondence is provided with heating unit and following heating unit in upper furnace body and the lower furnace body, is provided with the live rollers of carrying glass between last heating unit and the following heating unit; Described extracorporeal circulation apparatus comprises air compressor, gas-holder, heat exchanger, induced draft fan, air suction pipe, goes up gas ejector pipe, following gas ejector pipe and connecting pipeline thereof;

Described heat exchanger comprises inner chamber and the heat exchange element of being located in the inner chamber, and the inlet pipe of heat exchange element is communicated with gas-holder, and the escape pipe of heat exchange element is communicated with the last gas ejector pipe that inserts upper furnace body; Described inner chamber is divided into several die cavities by dividing plate, the staggered up and down opening of adjacent separator, and the inlet mouth of the inner chamber air suction pipe interior with inserting upper furnace body is communicated with, and the air outlet of inner chamber communicates with induced draft fan;

One end of described gas-holder links to each other with air compressor, and the other end of gas-holder is communicated with the following gas ejector pipe that inserts lower furnace body.

In order to improve the heat exchange efficiency of heat exchanger, preferred heat exchange element comprises some tubulations that are arranged in parallel and the plenum chamber of being located at the tubulation both sides, and single tubulation correspondence is located in the single die cavity, and an end of adjacent two tubulations is communicated with by plenum chamber; Plenum chamber separates by dividing plate and die cavity, makes that the heat exchange in the utility model mainly concentrates in the pairing die cavity of tubulation, guarantees the abundant countercurrent flow that carries out of the interior warm air of tubulation compressed air and die cavity, has reduced heat energy loss.

Described inner chamber is divided into some die cavities by dividing plate, the staggered up and down opening of adjacent separator, and main purpose is for the flowing in order of air in the control chamber, makes that the interior pressurized air of air and heat exchange element carries out abundant countercurrent flow in the chamber.

The radiation furnace of the utility model belt body external circulating device, the flow line and the compressed-air actuated flow line of two-way that mainly comprise one road warm air, it is mobile in the die cavity of heat exchanger that wherein warm air flows out the back from upper furnace body, flows in heat exchange element and following gas ejector pipe respectively after pressurized air flows out from gas-holder;

When induced draft fan is worked, original air is constantly discharged from the air outlet of inner chamber in the die cavity of heat exchanger, cause the interior air pressure of die cavity less than the air pressure in the upper furnace body of radiation furnace, cause the interior warm air of upper furnace body constantly to be sucked the inlet mouth of inner chamber through air suction pipe, after in die cavity, carrying out heat exchange, discharge from the air outlet of inner chamber with the road pressurized air that flows into heat exchange element from gas-holder;

In this process, flow into from gas-holder under the heat passage effect of this road pressurized air high-temperature gas in die cavity of heat exchange element, by countercurrent flow its temperature is raise fast, discharge from the escape pipe of heat exchange element then, enter into gas ejector pipe by connecting pipeline, ejection downwards from the gas orifice of last gas ejector pipe, convective heating is carried out on surface on glass, make glass be warming up to specified technological temperature at short notice, solve common radiant-type furnace to LOW-E glass and long problem of counter radiation glass heats time, reduced the loss of energy;

Another road pressurized air of described gas-holder enters into down gas ejector pipe by connecting pipeline, and upwards ejection is suitably lowered the temperature to lower glass surface from the gas orifice of following gas ejector pipe.By compressed-air actuated flow, time are controlled reduce on glass, underlaying surface temperature is poor, has eliminated the phenomenon that on glass, lower surface can not even heating.

Radiation furnace of the present utility model, utilize extracorporeal circulation apparatus, make glass on the basis of original radiation heating, increase convective heating, significantly reduced the heat-up time of LOW-E glass and counter radiation glass, can make this class glass be warming up to the given process temperature at short notice, cut down the consumption of energy and play energy-conservation effect; And by the heat exchange of cold and hot air, can make the LOW-E glass processed and the upper and lower surperficial homogeneous heating of counter radiation glass, thereby reduce the number of rejects and seconds rate, improve the quality of products, make quality product reach the national standard of toughened glass.When simple glass is heated, need not to open heat exchange, only need by opening the upper and lower surface that air jet system down can even heating glass.

Description of drawings

Fig. 1 is the side structure synoptic diagram of the extracorporeal circulation apparatus of the utility model radiation furnace.

Fig. 2 is the Facad structure synoptic diagram of upper and lower jet pipeline among Fig. 1.

Fig. 3 is the structural representation of heat exchanger among Fig. 1.

Fig. 4 is the structural representation of inner chamber among Fig. 3.

Fig. 5 is the structural representation of the another kind of embodiment of heat exchanger among Fig. 1.

Fig. 6 is the structural representation of heat exchange element among Fig. 5.

Fig. 7 is the structural representation of inner chamber among Fig. 5.

Embodiment

Embodiment 1

As shown in Figure 1, a kind of radiation furnace of belt body external circulating device, comprise body of heater 1 and the extracorporeal circulation apparatus of being located at body of heater 1 outside, body of heater 1 is made up of liftable upper furnace body 2 and the lower furnace body 3 that is fixed on ground, correspondence is provided with heating unit 4 and following heating unit 5 in upper furnace body 2 and the lower furnace body 3, is provided with the live rollers 6 of carrying LOW-E glass between last heating unit 4 and the following heating unit 5; Extracorporeal circulation apparatus comprises warm air compressor 18, gas-holder 19, heat exchanger 7, induced draft fan 8, air suction pipe 9, goes up gas ejector pipe 10, following gas ejector pipe 11 and connecting pipeline thereof;

Heat exchanger 7 comprises inner chamber 12 and is located at heat exchange element 13 in the inner chamber 12, and the inlet mouth 14 of inner chamber 12 air suction pipe 9 interior with inserting upper furnace body 2 is communicated with, and the air outlet 15 of inner chamber 12 communicates with induced draft fan 8; The inlet pipe 16 of heat exchange element 13 is communicated with gas-holder 19, and the escape pipe 17 of heat exchange element 13 is communicated with the last gas ejector pipe 10 that inserts upper furnace body 2;

One end of described gas-holder 19 links to each other with air compressor 18, and the other end of gas-holder 19 is communicated with the following gas ejector pipe 11 that inserts lower furnace body 3.

As shown in Figure 2, last gas ejector pipe 10 be evenly arranged in LOW-E glass directly over, high temperature air from last gas ejector pipe 10 downwards the ejection, convective heating is carried out on LOW-E surface on glass; Following gas ejector pipe 11 be evenly arranged in LOW-E glass under, pressurized air upwards ejection from following gas ejector pipe 11 is suitably lowered the temperature to the LOW-E lower glass surface.

As shown in Figure 3 and Figure 4, the inwall of heat exchanger 7 is glued with thermal insulation layer 22, to reduce the loss of heat exchanger 7 internal gas heats;

Heat exchanger 7 comprises inner chamber 12 and the heat exchange element of being located in the inner chamber 12 13, and heat exchange element 13 is made up of inlet pipe 16, escape pipe 17 and U-shaped connecting pipeline thereof; Inner chamber 12 is divided into four die cavities 21 by dividing plate 20, the staggered up and down opening of

adjacent separator

20, and 21 one-tenth of each die cavities are horizontal, also can become vertical arrangement; Be provided with air outlet 15 in first die cavity 21 of the left number of inner chamber 12, be provided with inlet mouth 14 in first die cavity 21 of the right number of inner chamber 12; Die cavity 21 is not connected with heat exchange element 13.

Heat exchanger in the utility model, pressurized air can carry out countercurrent flow with the warm air in the die cavity in each position of heat exchange element.

Embodiment 2

Heat exchanger in the radiation furnace of the utility model belt body external circulating device can also be another kind of constructional device.

As shown in Figure 5, the inwall of heat exchanger 7 is glued with thermal insulation layer 22, to reduce the loss of heat exchanger 7 internal gas heats;

As shown in Figure 6, the inner chamber 12 in the heat exchanger 7 is divided into seven vertical independent die cavities 21 by dividing plate 20, the staggered up and down opening of adjacent dividing

plate

20, and 21 one-tenth of each die cavities are horizontal; Be provided with air outlet 15 in first die cavity 21 of wherein left number, be provided with inlet mouth 14 in first die cavity 21 of right number.

As shown in Figure 7, the heat exchange element 13 in the heat exchanger 7 comprises seven tubulations that are arranged in parallel 23 and the plenum chamber 24 of being located at tubulation 23 both sides, and single tubulation 23 correspondences are located in the single die cavity 21, and an end of adjacent two tubulations 23 is communicated with by plenum chamber 24;

Totally eight of plenum chambers 24, each plenum chamber 24 separates with die cavity 21 by dividing plate 20, make heat exchanger in the utility model, pressurized air mainly concentrate in the tubulation 23 of heat exchange element 13 with die cavity 21 in warm air carry out countercurrent flow, do not carry out heat exchange in the plenum chamber 24.

The utility model among embodiment 1 and the embodiment 2, implementation process is as follows:

At first, LOW-E glass enters in the body of heater 1 by live rollers 6, do left and right to-and-fro movement in body of heater 1, last heating unit 4 and following heating unit 5 in the body of heater 1 begin LOW-E glass is carried out radiation heating, and the lower surface of 6 pairs of glass of live rollers carries out heat passage heating.

Meanwhile, induced draft fan 8 on the heat exchanger 7 in the extracorporeal circulation apparatus is started working, original air is constantly discharged from the air outlet 15 of inner chamber 12 in the die cavity 21 of heat exchanger 7, cause air pressure in the die cavity 21 less than the air pressure in the upper furnace body 2, make upper furnace body 2 interior warm airs constantly be sucked the inlet mouth 14 of inner chamber 12 through air suction pipe 9, and after in die cavity 21, carrying out heat exchange with gas-holder 19 effusive one road pressurized air, by each independent mould cavities 21, discharge successively from the air outlet 15 of inner chamber 12.

In said process, this road pressurized air in the gas-holder enters heat exchange element 13 by inlet pipe 16, carries out countercurrent flow with warm air in the stove that enters die cavity 21, and this road compressed air temperature after the exchange heat absorption can rise to about 510 ℃; Pyritous pressurized air is discharged from escape pipe 17 then, enters into gas ejector pipe 10 through high temperature connection flexible pipe, last pipe connecting, and ejection is downwards carried out convective heating to LOW-E surface on glass from the gas orifice of last gas ejector pipe 10.

And another road pressurized air in the gas-holder, warp pipe connecting down enters into down gas ejector pipe 11, and upwards ejection from the gas orifice of following gas ejector pipe 11 is suitably lowered the temperature to the LOW-E lower glass surface.

The switching time of last gas ejector pipe 10 and following gas ejector pipe 11 can be regulated and control according to the actual thermal conditions that adds of LOW-E glass, can shorten the heat-up time of glass greatly, and can make the upper and lower surperficial homogeneous heating of glass.

Claims

1. the radiation furnace of a belt body external circulating device, comprise body of heater (1), body of heater (1) is made up of liftable upper furnace body (2) and the lower furnace body (3) that is fixed on ground, correspondence is provided with heating unit (4) and following heating unit (5) in upper furnace body (2) and the lower furnace body (3), be provided with the live rollers (6) of carrying glass between last heating unit (4) and the following heating unit (5), it is characterized in that, the outside of described body of heater (1) is provided with extracorporeal circulation apparatus, and described extracorporeal circulation apparatus comprises air compressor (18), gas-holder (19), heat exchanger (7), induced draft fan (8), air suction pipe (9), last gas ejector pipe (10), following gas ejector pipe (11) and connecting pipeline thereof;

Described heat exchanger (7) comprises inner chamber (12) and is located at heat exchange element (13) in the inner chamber (12), the inlet pipe (16) of heat exchange element (13) is communicated with gas-holder (19), and the escape pipe (17) of heat exchange element (13) is communicated with the last gas ejector pipe (10) that inserts upper furnace body (2); Described inner chamber (12) is divided into several die cavities (21) by dividing plate (20), the staggered up and down opening of adjacent separator (20), the inlet mouth (14) of inner chamber (12) air suction pipe (9) interior with inserting upper furnace body (2) is communicated with, and the air outlet (15) of inner chamber (12) communicates with induced draft fan (8);

One end of described gas-holder (19) links to each other with air compressor (18), and the other end of gas-holder (19) is communicated with the following gas ejector pipe (11) that inserts lower furnace body (3).

2. the radiation furnace of belt body external circulating device according to claim 1, it is characterized in that, described heat exchange element (13) comprises the some tubulations that are arranged in parallel (23) and is located at the plenum chamber (24) of tubulation (23) both sides, single tubulation (23) correspondence is located in the single die cavity (21), and an end of two adjacent groups tubulation (23) is communicated with by plenum chamber (24).

3. the radiation furnace of belt body external circulating device according to claim 2 is characterized in that, described plenum chamber (24) separates with die cavity (21) by dividing plate (20).