CN114110628A - Industrial waste gas environmental protection and energy saving burning treatment furnace - Google Patents

Abstract

The invention discloses an industrial waste gas environment-friendly energy-saving combustion treatment furnace, which comprises a furnace body, wherein a lock cavity is arranged in the furnace body, a cooling pipe is fixedly connected to the upper end surface of the furnace body, a feedback mechanism, a reaction mechanism and a filtering mechanism are arranged in the furnace body, the feedback mechanism can check whether the finally obtained gas is harmless or not and then treat harmful gas, the filtering mechanism can preliminarily oxidize the gas and dissolve some gas which is easy to dissolve in water in the water, the invention utilizes a pressure relief ball to relieve the pressure when the gas is subjected to explosive combustion to ensure that the pressure in the combustion cavity is within a bearable range, and utilizes the arranged cooling pipe to quickly dissolve the gas and the water in the furnace body so as to delete the gas which can be dissolved in water and is difficult to combust and can fully react with oxygen to generate the gas which can be dissolved in water, thus the existence of the harmful gas which can not combust can be reduced, and the environmental pollution is reduced.

Description

Industrial waste gas environmental protection and energy saving burning treatment furnace

Technical Field

The application relates to the field of environmental protection, in particular to an industrial waste gas environment-friendly and energy-saving combustion treatment furnace.

Background

In industrial waste gas treatment, the incineration method is the most rapid, but if industrial waste gas is combusted independently, explosion is easy to occur, the environment of a factory is affected safely, various components exist in the industrial waste gas, not all waste gas can be combusted, the gas is required to be classified and then treated, the emission of the gas is required to be checked again, the gas can be continuously emitted after being checked to be qualified, an emergency device is further required for closed combustion treatment, pressure relief can be ensured when the combustion suddenly generates high pressure, the pressure generated by the combustion is prevented from damaging the device, temperature reduction treatment is required, otherwise, safety accidents are easy to occur when the temperature is too high.

Disclosure of Invention

The application aims to provide an industrial waste gas environment-friendly and energy-saving combustion treatment furnace, which adopts the following technical scheme:

an environment-friendly and energy-saving combustion treatment furnace for industrial waste gas is characterized in that a lock cavity is arranged in a furnace body, a cooling pipe is fixedly connected to the upper end face of the furnace body, a reaction box is fixedly connected to the cooling pipe, a combustion cavity is arranged in the reaction box, a pressure relief cavity is arranged on the upper end wall of the combustion cavity, the reaction box is connected with the furnace body through a filter pipe, a drying cavity is arranged in the filter pipe, a feedback mechanism, a reaction mechanism and a filter mechanism are arranged in the furnace body, the feedback mechanism can be used for detecting whether finally obtained gas is harmless or not and then treating harmful gas, and the filter mechanism can be used for primarily oxidizing gas and dissolving some gas which can be easily dissolved in water;

the reaction mechanism comprises a transition mechanism capable of exhausting air, a distance sensor is fixedly connected to the left end wall of the combustion cavity, a movable plate is connected to the combustion cavity in a sliding manner, a left spring and a right spring are fixedly connected to the movable plate, a distance sensor is fixedly connected to the other end of the spring, a support rod is fixedly connected to the lower end face of the movable plate, an electric spark device is fixedly connected to the support rod, a pressure sensor is fixedly connected to the upper end wall of the combustion cavity, the pressure sensor and the movable plate are connected through a sensing spring, water pipes are fixedly connected to the left end and the right end of the cooling pipe, water stopping clamps are fixedly connected to the water pipes, a pressure relief rod is connected to the reaction box in a sliding manner, a one-way spring is fixedly connected to the pressure relief rod, a pressure relief ball is fixedly connected to the one-way spring, a small hole is formed in the pressure relief ball, a relay is fixedly connected to the reaction box, and a reset spring is fixedly connected to the reaction box, the reset spring is fixedly connected with an anti-skid shaft.

Preferably, the transition mechanism comprises a closed motor fixedly connected with the upper end wall of the drying cavity, the closed motor is in power connection with a power shaft, the power shaft is fixedly connected with a rotating plate, the drying cavity is fixedly connected with a fixed plate, the reaction box is communicated with the left end of the furnace body through a filter pipe, and a sponge capable of absorbing water is arranged in the filter pipe.

Preferably, the air extractor is fixedly connected to the left end face of the fixed plate, the gas detector is fixedly connected to the furnace body, the blocking spring is fixedly connected to the gas detector, and the one-way ball is fixedly connected to the other end of the relay.

Preferably, the feedback mechanism comprises a cylinder fixedly connected with the upper end wall of the pressure relief cavity, and the reaction box is fixedly connected with the detection sensor and is internally and slidably connected with activated carbon in the pressure relief cavity.

Preferably, the activated carbon with detect the inductor and pass through detection spring coupling, reaction box fixedly connected with door motor, door motor power connection has a door power axle, door power axle fixedly connected with door plant, the reaction box right-hand member face fixedly connected with connecting pipe.

Preferably, the connecting pipe is fixedly connected with a fixing rod, the fixing rod is fixedly connected with a sealing spring, and the sealing spring is fixedly connected with a sealing ball.

Preferably, filtering mechanism includes blockade chamber upper end wall fixed connection's electro-magnet, blockade intracavity sliding connection has the blockade door, blockade chamber lower extreme wall fixed connection has the blockade spring, the furnace body right-hand member is equipped with a pipeline that lets in waste gas, furnace body right-hand member face fixedly connected with oxygen cylinder, the oxygen cylinder upper end is equipped with into the trachea, the oxygen cylinder with the furnace body cuts off through fixed spring, cooling tube fixedly connected with atomizer.

Compared with the prior art, the invention provides an industrial waste gas environment-friendly energy-saving combustion treatment furnace, which has the following beneficial effects: the pressure relief ball is utilized, pressure can be relieved when gas is subjected to explosive combustion, and the pressure intensity in a combustion cavity is ensured to be within a bearable range, so that the safety of the device is ensured, the speed of data change from the sensor to the pressure sensor can judge whether the gas is normally combusted, and the normal combustion pressure intensity and the volume cannot be violently changed;

utilize the cooling tube that sets up, can dissolve gas in the furnace body and water fast production to this selects those can dissolve in the gas that water is difficult to burn, and can also be abundant with the oxygen reaction after produce can dissolve in the gas of water, in the time of can reducing the burning like this, the existence of the harmful gas that can not burn reduces environmental pollution.

Drawings

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic view of the internal structure of an industrial waste gas environment-friendly and energy-saving combustion treatment furnace of the invention;

FIG. 3 is an enlarged, fragmentary view of FIG. 2 of the present invention;

FIG. 4 is an enlarged, fragmentary view of FIG. 2 of the present invention;

fig. 5 is an enlarged partial schematic view of fig. 2 of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 5, an industrial waste gas environment-friendly and energy-saving combustion treatment furnace according to an embodiment of the present invention includes a furnace body 10, a lock chamber 61 is disposed in the furnace body 10, a cooling pipe 25 is fixedly connected to an upper end surface of the furnace body 10, a reaction box 31 is fixedly connected to the cooling pipe 25, a combustion chamber 59 is disposed in the reaction box 31, a pressure relief chamber 60 is disposed on an upper end wall of the combustion chamber 59, the reaction box 31 and the furnace body 10 are connected by a filter pipe 57, a drying chamber 58 is disposed in the filter pipe 57, a feedback mechanism 62, a reaction mechanism 63 and a filter mechanism 65 are disposed in the furnace body 10, the feedback mechanism 62 can check whether a finally obtained gas is harmless, and then treat harmful gas, and the filter mechanism 65 can primarily oxidize gas and dissolve some gases easily soluble in water;

the reaction mechanism 63 comprises a transition mechanism 64 capable of exhausting air, a distance sensor 39 is fixedly connected to the left end wall of the combustion cavity 59, a moving plate 38 is connected to the combustion cavity 59 in a sliding manner, a left spring 37 and a right spring 37 are fixedly connected to the moving plate 38, a distance sensor 36 is fixedly connected to the other end of the spring 37, a support rod is fixedly connected to the lower end face of the moving plate 38, an electric spark device 26 is fixedly connected to the support rod, a pressure sensor 34 is fixedly connected to the upper end wall of the combustion cavity 59, the pressure sensor 34 is connected with the moving plate 38 through an induction spring 35, water pipes 24 are fixedly connected to the left end and the right end of the cooling pipe 25, water stopping clamps 40 are fixedly connected to the water pipes 24, a pressure relief rod 33 is connected to the reaction box 31 in a sliding manner, a one-way spring 46 is fixedly connected to the pressure relief rod 33, and a pressure relief ball 32 is fixedly connected to the one-way spring 46, be equipped with the aperture on the pressure release ball 32, reaction box 31 fixedly connected with relay 45, reaction box 31 fixedly connected with reset spring 43, reset spring 43 fixedly connected with antiskid axle 44, relay 45 starts, can promote antiskid axle 44 and remove left to stretch into in the pressure release ball 32 aperture, thereby pin pressure release ball 32.

In the embodiment of the present invention, the transition mechanism 64 includes a closed motor 41 fixedly connected to the upper end wall of a drying chamber 58, the closed motor 41 is power-connected to a power shaft 42, the power shaft 42 is fixedly connected to a rotating plate 56, the drying chamber 58 is fixedly connected to a fixed plate 55, the rotating plate 56 is provided with a plurality of small holes, the fixed plate 55 is provided with a plurality of small holes, when the rotating plate 56 rotates by an angle, the holes of the rotating plate 56 and the fixed plate 55 can be aligned, the left end face of the fixed plate 55 is fixedly connected to an air extractor 52, the furnace body 10 is fixedly connected to a gas detector 53, the gas detector 53 is fixedly connected to a blocking spring 54, the other end of the relay 45 is fixedly connected to a one-way ball 11, the gas detector 53 can detect the gas pressure, the reaction box 31 is communicated with the left end of the furnace body 10 through a filter tube 57, a sponge capable of absorbing water is arranged in the filter pipe 57.

In the embodiment of the present invention, the feedback mechanism 62 includes the cylinder 30 fixedly connected to the upper end wall of the pressure relief cavity 60, the reaction box 31 is fixedly connected with a detection sensor 29, the pressure relief cavity 60 is internally and slidably connected with active carbon 27, a cleaner 51 is fixedly connected with the cylinder 30, the cleaner 51 can clean the activated carbon 27, the active carbon 27 is connected with the detection inductor 29 through a detection spring 47, the reaction box 31 is fixedly connected with a door motor 48, the door motor 48 is in power connection with a door power shaft 49, the door power shaft 49 is fixedly connected with a door plate 50, the right end face of the reaction box 31 is fixedly connected with a connecting pipe 22, the connecting pipe 22 cuts off the pressure relief cavity 60 through an air extraction valve 28, the connecting pipe 22 is fixedly connected with a fixing rod 19, the fixing rod 19 is fixedly connected with a closed spring 18, and the closed spring 18 is fixedly connected with a closed small ball 14.

In the embodiment of the present invention, the filtering mechanism 65 includes an electromagnet 15 fixedly connected to an upper end wall of the lock chamber 61, a lock door 16 is slidably connected to the lock chamber 61, a lock spring 17 is fixedly connected to a lower end wall of the lock chamber 61, the lock door 16 is fixedly connected to an upper end of the lock spring 17, a pipeline for introducing exhaust gas is arranged at a right end of the furnace body 10, the furnace body 10 and the reaction tank 31 are communicated through the connecting pipe 22, an oxygen cylinder 21 is fixedly connected to a right end face of the furnace body 10, oxygen is filled in the oxygen cylinder 21, an air inlet pipe 23 is arranged at an upper end of the oxygen cylinder 21, the oxygen cylinder 21 and the furnace body 10 are separated by a fixing spring 20, an atomizing nozzle 12 is fixedly connected to the cooling pipe 25, the valve 13 is arranged in the atomizing nozzle 12, and the atomizing nozzle 12 is arranged in the furnace body 10.

The invention relates to an industrial waste gas environment-friendly energy-saving combustion treatment furnace, which comprises the following working procedures:

in the initial state, the air cylinder 30 is contracted, the blocking spring 54, the one-way spring 46 and the closing spring 18 are in the extension state, the sensing spring 35, the detecting spring 47, the return spring 43, the blocking spring 17 and the spring 37 are in the release state, the left water pipe 24 is filled with water, then the water is discharged from the right water pipe 24, and then the water stop clamp 40 is closed.

When the industrial waste gas is treated primarily, the waste gas is introduced into a waste gas pipeline, then a gas detector 53 detects the gas pressure in the furnace body 10 at the moment, when the gas pressure reaches the maximum value, a one-way ball 11 does not move, then an electromagnet 15 is started, so that an unsealing lock door 16 is pushed to move downwards, so that the waste gas pipeline is closed, then a valve 13 is started, so that water in a cooling pipe 25 is filled in the furnace body 10 in a mist mode, so that gas which is easy to dissolve in water in the air is the same as water, then water vapor is condensed along the inner wall of the furnace body 10 too much at the moment, then a fixed spring 20 is immediately opened after the gas detector 53 detects that the gas pressure is reduced, so that the gas detector 53 detects that the pressure in the furnace body 10 is stabilized at a certain value, and some industrial waste gas which is not completely oxidized is completely oxidized and is dissolved in water, and then an air inlet pipe 23 continuously supplies oxygen to an oxygen cylinder 21, the air inlet pipe 23 and the fixed spring 20 stop at the same time until the pressure value detected by the gas detector 53 increases continuously;

then, the air pump 52 is started, and at the same time, the sealing motor 41 is started, so as to drive the power shaft 42 to rotate, the rotating plate 56 is driven to rotate, so that the rotating plate 56 is aligned with the circular holes of the fixed plate 55, then the air pump 52 pumps the residual air in the furnace body 10, so that the air enters the combustion chamber 59, the air continuously enters, so that the pressure at the lower end of the moving plate 38 is greater than the pressure at the upper end, so that the moving plate 38 moves upwards, the distance sensor 39 detects the position of the moving plate 38, the pressure sensor 34 detects the pressure of the induction spring 35, the distance sensor 39 detects the upward-lifting speed of the moving plate 38, then the sealing motor 41 is started until the moving plate 38 moves to a proper position, so as to seal the space at the lower end of the moving plate 38, then the electric spark 26 ignites the air by electric spark to combust the moving plate, and then if the moving plate 38 slowly ascends to indicate that the air at the lower end of the moving plate 38 is normally combusted, the pressure sensor 34 then judges whether the combustion is complete by detecting the variation value of the pressure of the induction spring 35, and after the combustion is complete, the pressure sensed by the pressure sensor 34 no longer changes, the electric spark 26 stops firing, the water stop clamp 40 opens, the left water pipe 24 starts to fill water, the reaction tank 31 is cooled by the water flowing in the cooling pipe 25, and when the temperature is reduced, the pressure of the pressure sensor 34 is slowly reduced, at this point, the blocking motor 41 is then activated, the passage is opened, and suction by suction machine 52 continues, so that moving plate 38 moves to the first movement position, then, if excessive gas is generated at the time of normal combustion, the relay 45 is actuated, thereby pushing the anti-slip shaft 44 to move leftward, then the pressure relief ball 32 is locked until the moving plate 38 moves to the uppermost end, and the gas can be normally and sufficiently combusted;

at this time, if abnormal combustion occurs, when the moving plate 38 suddenly and rapidly moves upwards after the air is ignited, the pressure relief rod 33 pushes away the lower end of the distance sensor 36 so that the air can be released by pushing the pressure relief ball 32, at this time, after the activated carbon 27 absorbs a part of harmful gas, the detection sensor 29 detects that the volume of the activated carbon 27 is increased, and the damage of the reaction box 31 caused by the sudden increase of the volume of the gas in the combustion chamber 59 is prevented, when the gas in the combustion chamber 59 is fully combusted, the gas in the pressure relief chamber 60 is extracted by the extraction valve 28 of the connecting pipe 22, the gas in the closed chamber 14 is pushed away along the connecting pipe 22 to enter the furnace body 10 and then circularly and continuously enters the combustion chamber 59 for complete combustion, then when all the gas in the furnace body 10 is completely combusted, the gas detected by the gas detector 53 is harmless to the air, then the cylinder 30 starts to extend, and the cleaner 51 at the front end of the cylinder 30 cleans the activated carbon 27, so that the detection sensor 29 returns to the original value, then the air inlet pipe 23 fills oxygen into the oxygen cylinder 21, then the fixed spring 20 is opened, then the air pump 52 starts to pump oxygen, then the moving plate 38 moves upwards, the pressure relief rod 33 pushes the distance sensor 36 away, then oxygen enters the push pressure relief ball 32, then the weight of the activated carbon 27 is not increased, the data of the detection sensor 29 is unchanged, at the moment, the door motor 48 is started to drive the door power shaft 49 to rotate, thereby driving the door plate 50 to rotate, thereby discharging harmless gas, then after a period of time, the door motor 48 is started reversely, so that the door plate 50 is reset, then the air cylinder 30 starts to contract and reset, the air pump 52 stops, the air inlet pipe 23 stops, the fixed spring 20 is closed, then the electromagnet 15 stops, the door 16 is blocked to move upwards, the pipeline is opened, then water in the furnace body 10 flows out, and all oxygen is in the combustion chamber 59, when the pressure relief ball 32 is reset and closed, the moving plate 38 is reset under the action of the sensing spring 35, oxygen at the lower end of the moving plate 38 is compressed in the drying chamber 58, the pressure sensor 34 restores to a zero value, and the sensing spring 35 is not stressed by the compressed oxygen and the gravity of the moving plate 38.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (7)

1. The utility model provides an industrial waste gas environmental protection and energy saving burning treatment furnace, includes the furnace body, its characterized in that: a lock cavity (61) is arranged in the furnace body (10), a cooling pipe (25) is fixedly connected to the upper end face of the furnace body (10), a reaction box (31) is fixedly connected to the cooling pipe (25), a combustion cavity (59) is arranged in the reaction box (31), a pressure relief cavity (60) is arranged on the upper end wall of the combustion cavity (59), the reaction box (31) is connected with the furnace body (10) through a filter pipe (57), a drying cavity (58) is arranged in the filter pipe (57), a feedback mechanism (62), a reaction mechanism (63) and a filter mechanism (65) are arranged in the furnace body (10), the feedback mechanism (62) can detect whether finally obtained gas is harmless or not and then treat harmful gas, and the filter mechanism (65) can preliminarily oxidize the gas and dissolve some gas which can be dissolved in water;

the reaction mechanism (63) comprises a transition mechanism (64) capable of exhausting air, the left end wall of the combustion cavity (59) is fixedly connected with a distance sensor (39), the combustion cavity (59) is connected with a moving plate (38) in a sliding manner, the moving plate (38) is fixedly connected with a left spring and a right spring (37), the other end of each spring (37) is fixedly connected with a distance sensor (36), the lower end face of the moving plate (38) is fixedly connected with a supporting rod, the supporting rod is fixedly connected with an electric spark device (26), the upper end wall of the combustion cavity (59) is fixedly connected with a pressure sensor (34), the pressure sensor (34) is connected with the moving plate (38) through an induction spring (35), the left end and the right end of the cooling pipe (25) are fixedly connected with a water pipe (24), the water pipe (24) is fixedly connected with a water stop clamp (40), and the reaction box (31) is connected with a pressure relief rod (33) in a sliding manner, pressure release pole (33) fixedly connected with one-way spring (46), one-way spring (46) fixedly connected with pressure release ball (32), be equipped with the aperture on pressure release ball (32), reaction box (31) fixedly connected with relay (45), reaction box (31) fixedly connected with reset spring (43), reset spring (43) fixedly connected with antiskid axle (44).

2. The industrial waste gas environment-friendly energy-saving combustion treatment furnace according to claim 1, characterized in that: transition mechanism (64) are including dry chamber (58) upper end wall fixed connection's sealed motor (41), sealed motor (41) power is connected with power shaft (42), power shaft (42) fixedly connected with rotor plate (56), dry chamber (58) fixedly connected with fixed plate (55) reaction box (31) with furnace body (10) left end passes through filter tube (57) and communicates.

3. The industrial waste gas environment-friendly energy-saving combustion treatment furnace as claimed in claim 2, characterized in that: the air extractor (52) is fixedly connected to the left end face of the fixing plate (55), the gas detector (53) is fixedly connected to the furnace body (10), the blocking spring (54) is fixedly connected to the gas detector (53), and the one-way ball (11) is fixedly connected to the other end of the relay (45).

4. The industrial waste gas environment-friendly energy-saving combustion treatment furnace according to claim 1, characterized in that: feedback mechanism (62) include decompression chamber (60) upper end wall fixed connection's cylinder (30), reaction box (31) fixedly connected with detects inductor (29) sliding connection has active carbon (27) in decompression chamber (60).

5. The industrial waste gas environment-friendly energy-saving combustion treatment furnace as claimed in claim 4, characterized in that: activated carbon (27) with detect inductor (29) and connect through detecting spring (47), reaction box (31) fixedly connected with door motor (48), door motor (48) power connection has door power axle (49), door power axle (49) fixedly connected with door plant (50), reaction box (31) right-hand member face fixedly connected with connecting pipe (22).

6. The industrial waste gas environment-friendly energy-saving combustion treatment furnace according to claim 5, characterized in that: the connecting pipe (22) is fixedly connected with a fixing rod (19), the fixing rod (19) is fixedly connected with a closed spring (18), and the closed spring (18) is fixedly connected with a closed small ball (14).

7. The industrial waste gas environment-friendly energy-saving combustion treatment furnace according to claim 1, characterized in that: filtering mechanism (65) include closing lock chamber (61) upper end wall fixed connection's electro-magnet (15), sliding connection has closing lock door (16) in closing lock chamber (61), closing lock chamber (61) lower extreme wall fixed connection has blockade spring (17), furnace body (10) right-hand member is equipped with a pipeline that lets in waste gas, furnace body (10) right-hand member face fixedly connected with oxygen cylinder (21), oxygen cylinder (21) upper end is equipped with into trachea (23), oxygen cylinder (21) with furnace body (10) cut off through fixed spring (20), condenser tube (25) fixedly connected with atomizer (12).

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