CN213924470U - Energy-saving glass kiln capable of adjusting temperature and furnace pressure - Google Patents

Abstract

An energy-saving glass kiln capable of adjusting temperature and furnace pressure comprises a glass kiln body, wherein the front side wall and the rear side wall of the glass kiln body are provided with feed openings, and the feed openings are matched with a sealing feeder for use; the left side wall of the glass kiln body is provided with 2 flame ports, the top of the glass kiln body is also provided with a plurality of flame ports, each flame port is provided with a large fan-shaped gun, and the flame of the large fan-shaped gun faces the inside of the glass kiln body and is connected with a corresponding external burner; the 2 burners on the left side wall are correspondingly connected with the 2 regenerators one by one; the heat storage chamber is communicated with a chimney through a flue. But energy-conserving glass kiln of temperature regulation and furnace pressure, structural design is reasonable, convenient operation can adjust this internal temperature of glass kiln and furnace pressure, has reduced the flaw rate and the extravagant condition of energy of glass product, has improved production efficiency, the prospect is extensive.

Description

Energy-saving glass kiln capable of adjusting temperature and furnace pressure

Technical Field

The utility model relates to a glass kiln technical field, concretely relates to energy-conserving glass kiln of adjustable temperature and furnace pressure.

Background

With the daily change of the current economic society and the continuous expansion of the urban scale, the demand of people on glass is increased day by day, and the requirements on the quality and the variety of the glass are higher and higher. In China, the glass industry is not only the traditional industry but also the labor-intensive industry, and after the twenty-first century, China pushes the development of the equipment manufacturing industry, so that the traditional glass manufacturing industry in China also enters the period of rapid development.

Glass manufacturing enterprises are energy-consuming households, and in recent years, the national requirements on environmental protection are more and more strict, and the enterprises are urged to save energy, reduce consumption and reduce emission. The glass kiln is equipment for realizing a glass firing system, and the quality of a glass product greatly depends on the quality of a firing process. For glass production, it is very important to maintain the uniformity and stability of the temperature and the furnace pressure of the glass furnace, and if the temperature and the furnace pressure of the glass furnace cannot be controlled and adjusted, the efficiency is reduced, energy waste is caused, more pollutants are generated, the furnace can be damaged, the service life of the furnace can be shortened, and more importantly, the quality of glass products is influenced. Therefore, it is necessary to develop an energy-saving glass furnace with adjustable temperature and furnace pressure to solve the above technical problems.

Chinese patent application No. CN201120312175.8 discloses a glass kiln, which is characterized in that the length m of a feeding port is set to be 2/5-1/2 of the kiln width P of the kiln so as to improve the melting rate, overcome the material running phenomenon and properly improve the temperature of glass liquid near a hot point, reduce the material flying phenomenon in the kiln, and do not solve the problems that the temperature and the furnace pressure of the glass kiln can not be controlled, the energy consumption is high and the product quality is low.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to overcome not enough above, the utility model aims at providing an energy-conserving glass kiln of adjustable temperature and stove pressure, structural design is reasonable, and convenient operation can adjust this internal temperature of glass kiln and stove pressure, has reduced the flaw rate and the energy waste condition of glass product, has improved production efficiency, and application prospect is extensive.

The technical scheme is as follows: an energy-saving glass kiln capable of adjusting temperature and furnace pressure comprises a glass kiln body, wherein the front side wall and the rear side wall of the glass kiln body are provided with feed openings, and the feed openings are matched with a sealing feeder for use; the left side wall of the glass kiln body is provided with 2 flame ports, the top of the glass kiln body is also provided with a plurality of flame ports, each flame port is provided with a large fan-shaped gun, and the flame of the large fan-shaped gun faces the inside of the glass kiln body and is connected with a corresponding external burner; the 2 burners on the left side wall are correspondingly connected with the 2 regenerators one by one; the heat storage chamber is communicated with a chimney through a flue; a melting tank is arranged in the glass kiln body and is communicated with the working tank through an inclined type throat; the glass kiln body is internally provided with a temperature adjusting mechanism and a furnace pressure adjusting mechanism.

But energy-conserving glass kiln of temperature-adjusting and stove pressure, adopt two sides reinforced, reinforced convenient, the charge door is equipped with the sealed feeder of suspension type, has both reduced the powder and has flown upward, has reduced the heat loss again, has still accelerateed simultaneously and has melted.

Energy-conserving glass kiln of adjustable temperature and furnace pressure, adopt three-dimensional burning, the advantage of side burning and top burning has been combined, reduce the influence that shortcoming brought separately, the fan-shaped big rifle of 2 bocca of left side wall, make the inside temperature of glass kiln body even, the even easy regulation of the horizontal temperature gradient of glass liquid, it is little to receive glass liquid composition and product scheme change influence, the fan-shaped big rifle of top bocca is horizontal to burn downwards, flame is concentrated, heating efficiency is higher, glass liquid heat intensity is high, easily make the glass material form the glass liquid phase, accelerate local melting speed, and later stage adds this type burning rifle quantity of fan-shaped big rifle and easily realize. The utility model discloses a burning rifle adopts fan-shaped big rifle, and flame is longer, and the covering is wide, and heat transfer efficiency is high.

In order to ensure that the operation of the glass kiln furnace is continuously, normally and effectively carried out, a smoke exhaust part is arranged through a flue and a chimney, 2 burners of a left side wall correspond to 2 flame ports, one burner is arranged and the other burner is arranged and circularly reversed, when one burner of the left side wall is combusted, the flue gas directly enters the flue through the other burner and a regenerator, when the flue gas flows back in the regenerator, most of heat carried by the flue gas is accumulated in the regenerator, and after the air is heated by the regenerator, the air and the fuel gas are fed into the burners together to be mixed and combusted, at the moment, the fuel gas can release more heat, and the design improves the heat energy utilization rate and the working efficiency.

This internal melting tank that is provided with of glass kiln, the throat adopts tilting throat, and glass liquid gets into the work pool from melting tank through tilting throat. The glass kiln is characterized in that the glass kiln body is provided with the temperature adjusting mechanism and the furnace pressure adjusting mechanism, the temperature, the flame characteristic quantity and the furnace pressure in the glass kiln body can be monitored, the temperature, the flame characteristic quantity and the furnace pressure are closely related to the combustion quality and the safety production of the glass kiln, and can be used for guiding and adjusting the operation of a combustor, a fan-shaped large gun and the like, the efficiency is improved, the damage to the kiln is avoided, the service life of the kiln is prolonged, and the quality of glass products is greatly improved.

Furthermore, in the energy-saving glass kiln capable of adjusting the temperature and the furnace pressure, an air channel is arranged in the flue, one end of the air channel is connected with the regenerator, and the other end of the air channel is connected with the blower.

Through the mutual cooperation of the air duct, the air blower, the flue and the chimney, the smoke exhaust and air circulation reversing capacity is improved.

Furthermore, the temperature adjusting mechanism comprises a plurality of temperature sensors, an image detector, a digital signal processing module, an analog/digital converter, a data packing module and a three-wire system module, wherein the plurality of temperature sensors are arranged on the inner wall of the glass kiln body, and the image detector is arranged in the right side wall of the glass kiln body; the temperature sensor and the image detector are respectively and electrically connected with the digital signal processing module, and the digital signal processing module, the analog/digital converter, the data packaging module and the three-wire system module are sequentially connected; the temperature sensor and the image detector respectively output analog signals to the digital signal processing module, digital signals are output through conversion of the analog-digital converter, the data packaging module is synchronous with each frame of digital signals, and the signals are transmitted to the industrial personal computer through the three-wire system LVDS through the three-wire system module to be displayed and stored in real time.

Temperature regulation mechanism has included the real-time supervision of temperature and flame characteristic quantity, and temperature sensor sets up in glass kiln this internally, is used for detecting this internal temperature information of glass kiln, and image detector can observe glass kiln body inner space region, takes into account flame when the picture, wall and glass liquid, fully receives and reacts this internal radiation information of glass kiln, and temperature information, flame radiation image show in real time and store at the industrial computer, can make operating personnel know the operational aspect of glass kiln body in real time, and to temperature, flame make rapid adjustment, the flaw rate and the energy waste condition of glass product have been reduced, and production efficiency is improved.

Furthermore, the energy-saving glass kiln capable of adjusting the temperature and the furnace pressure comprises a pressure tapping pipe and a pressure sensor, wherein one end of the pressure tapping pipe is arranged in the glass kiln body, the other end of the pressure tapping pipe is connected with the pressure sensor, and the pressure sensor is electrically connected with the digital signal processing module.

Furthermore, foretell energy-conserving glass kiln of adjustable temperature and furnace pressure, furnace pressure adjustment mechanism still includes electric actuator, industrial computer and electric actuator electric connection, electric actuator links to each other with the valve of glass kiln body.

Get the one end setting of pipe and in the glass kiln originally internally for acquire this internal pressure value of glass kiln, the other end links to each other rather than the pressure sensor who corresponds the connection, reflect this internal pressure value size of glass kiln through pressure sensor, so that subsequent pressure regulation, pressure sensor is connected with the industrial computer electricity, the industrial computer is connected with the electric actuator electricity, the electric actuator links to each other with the valve of glass kiln body, an aperture for control flap, this internal pressure of glass kiln can be changed to the aperture of valve, thereby reach the pressure requirement of producing qualified glass liquid.

Furthermore, foretell energy-conserving glass kiln of adjustable temperature and stove pressure, the industrial computer respectively with combustor, fan-shaped big rifle, air-blower electric connection.

The industrial personal computer optimizes the temperature and the combustion flame radiation image acquired by the temperature sensor and the image detector, and then controls and adjusts the burner, the fan-shaped big gun and the air blower, so that the optimization of products and energy is realized, the economy and the safety of the glass kiln are improved, and the emission of pollutants can be reduced.

Furthermore, according to the energy-saving glass kiln capable of adjusting the temperature and the furnace pressure, the number of the pressure taking pipes is the same as that of the pressure sensors.

The number of the pressure sampling pipes is the same as that of the pressure sampling pipes, and when the number of the pressure sensors is the same as that of the pressure sampling pipes, the pressure value in the glass kiln body can be accurately reflected; when the measurement values of at least two pressure sensors are different, the pressure sensors may break down or the pressure sampling pipe may be blocked, the value measured by the pressure sensors cannot accurately reflect the pressure value in the glass kiln body, and the subsequent pressure adjusting step is stopped, so that the pressure of the kiln is prevented from being adjusted by mistake.

Furthermore, each pressure sensor is provided with a first pressure tapping hole and a second pressure tapping hole, the first pressure tapping hole is connected with a pressure tapping pipe, and the second pressure tapping hole is connected with a static pressure box through a connecting pipe.

The furnace pressure adjusting mechanism comprises a connecting pipe and a static pressure box, the connecting pipe corresponds to pressure sensors one to one, the pressure sensors are connected with the static pressure box through the corresponding connecting pipes, the connecting pipes are equivalent to pressure conveying pipelines, the pressure sensors are connected with the static pressure box through the connecting pipes, the pressure value of one end of each pressure sensor is kept consistent, and the accuracy of pressure measurement is improved.

The utility model has the advantages that:

(1) the energy-saving glass kiln with adjustable temperature and furnace pressure has reasonable structural design, adopts double-side feeding, is convenient and fast to feed, and is provided with a suspension type sealing feeder, thereby reducing powder flying, reducing heat loss and accelerating melting; the glass kiln has the advantages that three-dimensional combustion is adopted, the advantages of side combustion and top combustion are combined, the influence caused by respective defects is reduced, the temperature inside the glass kiln body is uniform due to the large fan-shaped guns of the 2 flame-spraying openings on the left side wall, the transverse temperature gradient of glass liquid is uniform and easy to adjust, the influence caused by the composition of the glass liquid and the change of a product scheme is small, the large fan-shaped guns of the top flame-spraying openings vertically burn downwards, the flame is concentrated, the heating efficiency is higher, the heating intensity of the glass liquid is high, the glass frit is easy to form into a glass liquid phase, the glass frit is easy to form into the glass liquid phase;

(2) but energy-conserving glass kiln of temperature-adjustable and stove pressure, can monitor this internal temperature of glass kiln, flame characteristic quantity, stove pressure, make things convenient for operating personnel to know the operational aspect of glass kiln body in real time to make rapid adjustment to temperature, flame, stove pressure, reduced the flaw rate and the extravagant condition of energy of glass product, improved production efficiency.

Drawings

FIG. 1 is a schematic view of the overall arrangement of the temperature and furnace pressure adjustable energy-saving glass furnace of the present invention;

FIG. 2 is a frame diagram of a temperature adjusting mechanism and a furnace pressure adjusting mechanism of the energy-saving glass furnace with adjustable temperature and furnace pressure according to the present invention;

FIG. 3 is a schematic view of the connection of the furnace pressure adjusting mechanism of the energy-saving glass furnace of the present invention;

in the figure: the glass kiln comprises a glass kiln body 1, a charging opening 11, a fire-spraying opening 12, a fan-shaped big gun 13, a melting tank 14, a temperature adjusting mechanism 15, a temperature sensor 151, an image detector 152, a digital signal processing module 153, an analog-digital converter 154, a data packaging module 155, a three-wire system module 156, a furnace pressure adjusting mechanism 16, a pressure sampling pipe 161, a pressure sensor 162, a first pressure sampling hole 1621, a second pressure sampling hole 1622, an electric actuator 163, a static pressure box 164, a connecting pipe 165, a sealing feeder 2, a burner 3, a regenerator 4, a flue 5, an air duct 51, an air blower 52, a chimney 6, an inclined type throat 7, a working tank 8, an industrial personal computer 9 and a valve a of the glass kiln body.

Detailed Description

The invention will be further elucidated with reference to the accompanying figures 1-3 and the specific embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The energy-saving glass kiln with the structure capable of adjusting the temperature and the furnace pressure is shown in figures 1 and 2, and 1. the energy-saving glass kiln with the structure capable of adjusting the temperature and the furnace pressure is characterized by comprising a glass kiln body 1, wherein the front side wall and the rear side wall of the glass kiln body 1 are both provided with a feed inlet 11, and the feed inlet 11 is matched with a sealed feeder 2 for use; the left side wall of the glass kiln body 1 is provided with 2 fire-jet ports 12, the top of the glass kiln body 1 is also provided with a plurality of fire-jet ports 12, each fire-jet port 12 is provided with a large fan-shaped gun 13, and the flame of each large fan-shaped gun 13 faces the inside of the glass kiln body 1 and is connected with the corresponding external burner 3; the 2 combustors 3 positioned on the left side wall are correspondingly connected with the 2 regenerators 4 one by one; the regenerative chamber 4 is communicated with a chimney 6 through a flue 5; a melting tank 14 is arranged in the glass kiln body 1, and the melting tank 14 is communicated with a working tank 8 through an inclined type throat 7; the glass kiln body 1 is internally provided with a temperature adjusting mechanism 15 and a furnace pressure adjusting mechanism 16.

An air duct 51 is provided in the flue 5, one end of the air duct 51 is connected to the regenerator 4, and the other end of the air duct 51 is connected to a blower 52.

In addition, as shown in fig. 2, the temperature adjusting mechanism 15 comprises a temperature sensor 151, an image detector 152, a digital signal processing module 153, an analog/digital converter 154, a data packing module 155, and a three-wire module 156, wherein the temperature sensor 151 is provided with a plurality of temperature sensors and is installed on the inner wall of the glass kiln body 1, and the image detector 152 is installed in the right side wall of the glass kiln body 1; the temperature sensor 151 and the image detector 152 are respectively electrically connected with a digital signal processing module 153, and the digital signal processing module 153, an analog/digital converter 154, a data packing module 155 and a three-wire system module 156 are sequentially connected; the temperature sensor 151 and the image detector 152 respectively output analog signals to the digital signal processing module 153, convert the analog signals to digital signals through the analog/digital converter 154, synchronize the digital signals with each frame through the data packing module 155, and transmit the signals to the industrial personal computer 9 through the three-wire system LVDS through the three-wire system module 156 to display and store real-time images.

In addition, as shown in fig. 3, the furnace pressure adjusting mechanism 16 includes a pressure tapping pipe 161 and a pressure sensor 162, one end of the pressure tapping pipe 161 is disposed in the glass kiln body 1, the other end of the pressure tapping pipe 161 is connected to the pressure sensor 162, and the pressure sensor 162 is electrically connected to the digital signal processing module 153.

Further, the furnace pressure adjusting mechanism 16 further comprises an electric actuator 163, the industrial personal computer 9 is electrically connected with the electric actuator 163, and the electric actuator 163 is connected with the valve a of the glass kiln body 1.

In addition, the industrial personal computer 9 is respectively electrically connected with the burner 3, the fan-shaped big gun 13 and the blower 52.

Furthermore, there are several pressure tapping pipes 161, and the number of pressure sensors 162 is the same as that of the pressure tapping pipes 161.

Further, each pressure sensor 162 is provided with a first pressure taking hole 1621 and a second pressure taking hole 1622, the first pressure taking hole 1621 is connected with the pressure taking pipe 161, and the second pressure taking hole 1622 is connected with the static pressure box 164 through the connecting pipe 165.

Based on the above structural basis, as shown in fig. 1-3.

But energy-conserving glass kiln of temperature regulation and furnace pressure, adopt two sides reinforced, reinforced convenient, charge door 11 is equipped with suspension type sealing feeder 2, has both reduced the powder and has flown upward, has reduced the heat loss again, has still accelerateed simultaneously and has melted.

Energy-conserving glass kiln of adjustable temperature and furnace pressure, adopt three-dimensional burning, the advantage of side burning and top burning has been combined, reduce the influence that shortcoming brought separately, the fan-shaped big rifle 13 of 2 bocca of left side wall, make 1 inside temperature of glass kiln body even, the even easy regulation of glass liquid transverse temperature gradient, it is little influenced by glass liquid composition and product scheme change, the fan-shaped big rifle 13 of top bocca 12 is gone perpendicularly and is fired downwards, flame is concentrated, heating efficiency is higher, glass liquid heat intensity is high, easily make the glass material form the glass liquid phase, accelerate local melting speed, and later stage adds the easy realization of this kind of burning rifle quantity of fan-shaped big rifle 13. The utility model discloses a burning rifle adopts fan-shaped big rifle 13, and flame is longer, and the covering is wide, and heat transfer efficiency is high.

In order to continuously, normally and effectively carry out the operation of the glass kiln, the smoke discharging and air circulation reversing capabilities are improved through the mutual matching of the air duct 51, the air blower 52, the flue 5 and the chimney 6. 2 combustors 3 of left side wall correspond 2 bocca 12, one goes out one and advances, the circulation switching-over, and when 3 combustors of one of them of left side wall burn, the flue gas directly gets into flue 5 through another combustor 3 and regenerator 4, when the flue gas flows back in regenerator 4, most heat that the flue gas carried will obtain accumulating in regenerator 4, after the air heats through regenerator 4, go into combustor 3 intermixture and burning together with the gas, at this moment, the gas can release more heats, heat utilization rate and work efficiency have been improved to this kind of design.

This internal melting tank 14 that is provided with of glass kiln, throat 7 adopt tilting throat 7, and glass liquid gets into working pool 8 from melting tank through tilting throat 7.

Furthermore, the temperature, the flame characteristic quantity and the furnace pressure are closely related to the combustion quality and the safe production of the glass kiln. Be provided with temperature regulation mechanism 15, stove pressure adjustment mechanism 16 on the glass kiln body 1, can monitor temperature, flame characteristic quantity, stove pressure in the glass kiln body 1.

Further, the temperature sensor 151, the image detector 152, and the pressure sensor 162 output analog signals to the digital signal processing module 153, respectively, and output digital signals through conversion by the analog/digital converter 154, and are synchronized with each frame of digital signals by the data packing module 155, and then transmitted to the industrial personal computer 9 through the three-wire system LVDS by the three-wire system module 156 to perform real-time image display and storage.

Temperature regulation mechanism 15 has included the real-time supervision of temperature and flame characteristic quantity, and temperature sensor 151 sets up in glass kiln body 1, is used for detecting temperature information in the glass kiln body 1, this 1 internal space region of glass kiln can be observed to image detector 152, compromise flame when ingesting the picture, wall and glass liquid, fully receive and react the radiation information in the glass kiln body 1, temperature information, flame radiation image shows in real time and stores at industrial computer 9, can make operating personnel know the behavior of glass kiln body 1 in real time, and to the temperature, flame makes rapid adjustment, the flaw rate and the energy waste condition of glass product have been reduced, production efficiency is improved.

Further, the furnace pressure adjusting mechanism 16 includes a pressure tapping pipe 161 and a pressure sensor 162, one end of the pressure tapping pipe 161 is disposed in the glass furnace body 1, the other end of the pressure tapping pipe 161 is connected with the pressure sensor 162, and the pressure sensor 162 is electrically connected with the digital signal processing module 153. The one end setting of pressure pipe 161 is in glass kiln body 1 for obtain the pressure value in the glass kiln body 1, the other end links to each other rather than the pressure sensor 162 who corresponds the connection, reflect the pressure value size in the glass kiln body 1 through pressure sensor 162, so that subsequent pressure is adjusted, pressure sensor 162 is connected with industrial computer 9 electricity, industrial computer 9 is connected with electric actuator 163 electricity, electric actuator 163 links to each other with the valve a of this 1 body of glass kiln, an aperture for control valve, the aperture of valve can change the pressure in the glass kiln body 1, thereby reach the pressure requirement of producing qualified glass liquid.

Further, the temperature and the combustion flame radiation image collected by the temperature sensor 151 and the image detector 152 are optimized by the industrial personal computer, and then the combustor 3, the fan-shaped big gun 13 and the air blower 52 are controlled and adjusted, so that the optimization of products and energy is realized, the economy and the safety of the glass kiln are improved, and the emission of pollutants can be reduced.

Furthermore, a plurality of pressure sampling pipes 161 are provided, the number of the pressure sensors 162 is the same as that of the pressure sampling pipes 161, and when the number of the pressure sensors 162 is the same, the pressure value in the glass kiln body 1 can be accurately reflected; when the measurement values of the at least two pressure sensors 162 are different, the pressure sensors 162 may break down or the pressure tapping pipe 161 may be blocked, the value measured by the pressure sensors 162 cannot accurately reflect the pressure value in the glass kiln body 1, and the subsequent pressure adjusting step is stopped, so as to avoid the erroneous adjustment of the kiln pressure.

Further, the connecting pipes 165 and the static pressure boxes 164 of the furnace pressure adjusting mechanism 16 are in one-to-one correspondence with the pressure sensors 162, the pressure sensors 162 are connected with the static pressure boxes 164 through the corresponding connecting pipes 165, the connecting pipes 165 serve as pressure conveying pipelines, and the pressure sensors 162 are connected with the static pressure boxes 164 through the connecting pipes 165, so that the pressure values at one ends of the pressure sensors 162 are kept consistent, and the accuracy of pressure measurement is improved.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be within the scope of the present invention to perform various simple modifications to the technical solution of the present invention, and these simple modifications all belong to the protection scope of the present invention.

It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and in order to avoid unnecessary repetition, the present invention does not need to describe any combination of the features.

In addition, the embodiments of the present invention can be arbitrarily combined with each other, and the same shall be regarded as the disclosure of the present invention as long as the idea of the present invention is not violated.

Claims (8)

1. The energy-saving glass kiln capable of adjusting the temperature and the furnace pressure is characterized by comprising a glass kiln body (1), wherein the front side wall and the rear side wall of the glass kiln body (1) are respectively provided with a charging opening (11), and the charging openings (11) are matched with a sealed charging machine (2) for use; the glass kiln comprises a glass kiln body (1), and is characterized in that 2 fire-spraying ports (12) are formed in the left side wall of the glass kiln body (1), a plurality of fire-spraying ports (12) are also formed in the top of the glass kiln body (1), each fire-spraying port (12) is provided with a large fan-shaped gun (13), and the flame of each large fan-shaped gun (13) faces the inside of the glass kiln body (1) and is connected with a corresponding external combustor (3); the 2 combustors (3) positioned on the left side wall are correspondingly connected with the 2 regenerative chambers (4) one by one; the heat storage chamber (4) is communicated with a chimney (6) through a flue (5); a melting tank (14) is arranged in the glass kiln body (1), and the melting tank (14) is communicated with the working tank (8) through an inclined type throat (7); the glass kiln comprises a glass kiln body (1), and is characterized in that a temperature adjusting mechanism (15) and a furnace pressure adjusting mechanism (16) are arranged in the glass kiln body (1).

2. The energy-saving glass kiln with adjustable temperature and furnace pressure as claimed in claim 1, characterized in that an air duct (51) is arranged in the flue (5), one end of the air duct (51) is connected with the heat storage chamber (4), and the other end of the air duct (51) is connected with a blower (52).

3. The energy-saving glass kiln capable of adjusting temperature and furnace pressure as claimed in claim 1, characterized in that the temperature adjusting mechanism (15) comprises a temperature sensor (151), an image detector (152), a digital signal processing module (153), an analog/digital converter (154), a data packing module (155), a three wire system module (156), the temperature sensor (151) is provided with a plurality of sensors and is installed on the inner wall of the glass kiln body (1), the image detector (152) is installed on the right side wall of the glass kiln body (1); the temperature sensor (151) and the image detector (152) are respectively electrically connected with a digital signal processing module (153), and the digital signal processing module (153), the analog-to-digital converter (154), the data packing module (155) and the three-wire system module (156) are sequentially connected; the temperature sensor (151) and the image detector (152) respectively output analog signals to the digital signal processing module (153), the analog signals are converted by the analog-to-digital converter (154) to output digital signals, the digital signals are synchronized with each frame of digital signals by the data packaging module (155), and the signals are transmitted to the industrial personal computer (9) through the three-wire system LVDS by the three-wire system module (156) to be displayed and stored in real time.

4. The energy-saving glass kiln capable of adjusting the temperature and the furnace pressure according to claim 3, characterized in that the furnace pressure adjusting mechanism (16) comprises a pressure tapping pipe (161) and a pressure sensor (162), one end of the pressure tapping pipe (161) is arranged in the glass kiln body (1), the other end of the pressure tapping pipe (161) is connected with the pressure sensor (162), and the pressure sensor (162) is electrically connected with the digital signal processing module (153).

5. The energy-saving glass kiln capable of adjusting the temperature and the furnace pressure as claimed in claim 4, characterized in that the furnace pressure adjusting mechanism (16) further comprises an electric actuator (163), the industrial personal computer (9) is electrically connected with the electric actuator (163), and the electric actuator (163) is connected with a valve of the glass kiln body (1).

6. The energy-saving glass kiln with the adjustable temperature and furnace pressure as claimed in claim 5, characterized in that the industrial personal computer (9) is electrically connected with the burner (3), the fan-shaped big gun (13) and the blower (52) respectively.

7. The energy-saving glass kiln capable of adjusting the temperature and the furnace pressure as claimed in claim 4, characterized in that the number of the pressure-taking pipes (161) is the same, and the number of the pressure sensors (162) is the same as that of the pressure-taking pipes (161).

8. The energy-saving glass kiln capable of adjusting temperature and furnace pressure according to claim 7, characterized in that each pressure sensor (162) is provided with a first pressure tapping hole (1621) and a second pressure tapping hole (1622), the first pressure tapping hole (1621) is connected with the pressure tapping pipe (161), and the second pressure tapping hole (1622) is connected with the static pressure box (164) through a connecting pipe (165).

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