CN214223120U - Novel burn burning furnace energy-conservation device - Google Patents

Abstract

The utility model belongs to the technical field of exhaust-gas treatment, concretely relates to novel burn burning furnace economizer, including economizer right side section and economizer left side section, economizer right side section includes gas collecting tank, first fan, second fan, chimney, pre-heater, the gas collecting tank is connected with first fan, first fan is connected with the pre-heater bottom, the pre-heater right side is connected with the second fan, and is connected with the chimney through the second fan, economizer left side section includes combustor, combustion assembly, heat exchanger, the heat exchanger left end is connected with combustion assembly, the heat exchanger right-hand member is connected with the pre-heater. The utility model discloses reach abundant burning, the purpose of energy saving consumption when reducing fuel supply, also guaranteed that outer row's flue gas reaches the environmental protection requirement.

Description

Novel burn burning furnace energy-conservation device

Technical Field

The utility model belongs to the technical field of exhaust-gas treatment, concretely relates to novel burn burning furnace energy-conservation device.

Background

The copper-clad plate industry commonly uses a waste gas incinerator at present, but because the normal gluing running speed of a vertical gluing machine is 16-20 m/min, the energy of a volatile organic solvent is not enough to meet the heat energy requirement of production and running. Therefore, 10-30 liters of diesel oil is generally required to be supplemented every hour in normal operation, and if the produced products or formulas are different, the diesel oil supplementation amount is sometimes even higher. Meanwhile, the operation speed of the horizontal gluing machine can reach more than 35m/min, and some glue machines even reach more than 45m/min, the amount of the solvent volatilized by the glue machines is very large, and the heat energy of the glue machines exceeds the heat required by the operation of the glue machines. When the air-cooled boiler operates alone, cold air is required to be specially supplemented to reduce the heat energy released after incineration and maintain the normal operation of the air-cooled boiler. However, no precedent for overall design of a horizontal gluing machine and a vertical gluing machine heat energy system exists in China at present, and the purpose of maximizing energy utilization is achieved by fully utilizing and exerting the advantages of equipment.

The waste gas incinerator provided by the incinerator manufacturer at present does not comprehensively consider the waste gas concentration of a gluing manufacturer, the waste gas directly enters the incinerator, when the gluing vehicle speed is low or the organic solvent content in a glue formula is low, the waste gas concentration is not enough, a large amount of fuel gas needs to be provided to ensure that the incinerator reaches a preset temperature, the energy consumption is high, and the production cost is increased. In addition, the waste gas designed by equipment manufacturers generally directly enters the combustion chamber, and is not fully preheated, so that the organic waste gas is insufficiently combusted, and the environmental pollution is caused.

Chinese patent publication No. CN206669763U discloses a waste gas incinerator, which comprises a glycol waste gas incinerator, wherein the outlet end of the glycol waste gas incinerator is connected with a chimney, the inlet end of the glycol waste gas incinerator is provided with a fuel device, the fuel device is respectively connected with a fuel gas pipeline and an air pipeline, a glycol buffer tank, a first valve and a flow meter are sequentially arranged between the glycol waste gas incinerator and a glycol waste gas inlet, and the bottom of the glycol buffer tank is provided with a second valve. This is novel through set up the ethylene glycol buffer tank before the flowmeter, plays the effect of gas-liquid separation and stationary flow, steady voltage to ethylene glycol waste gas, can guarantee through the buffer tank that waste gas supplied material is more stable, avoids because the unstable problem that leads to the blowing out of a furnace of supplied material.

However, the waste gas incinerator consumes excessive energy, is high in use cost, and has no substantial improvement on environmental protection.

The utility model discloses a chinese patent with publication number CN202733918U discloses a waste gas incinerator, a combined waste gas incinerator device, which belongs to the technical field of copper clad laminate processing equipment, and the technical key points thereof include a horizontal gluing machine, a vertical gluing machine, a first waste gas incinerator and a second waste gas incinerator, a first waste gas collecting pipe is arranged between the horizontal gluing machine and the first waste gas incinerator, a second waste gas collecting pipe is arranged between the vertical gluing machine and the second waste gas incinerator, wherein a gas distributing pipe is arranged between the first waste gas collecting pipe and the second waste gas collecting pipe, and the gas distributing pipe is respectively communicated with the first waste gas collecting pipe and the second waste gas collecting pipe; the utility model aims at providing a combined waste gas incinerator device with simple structure, convenient use and good effect; the method is used for processing the copper-clad plate.

However, after the device is used for a long time, the device is easy to lose, and the discharged gas cannot reach the standard due to incomplete combustion, thereby causing air pollution. And the equipment is easy to damage due to poor heat dissipation performance and long-time use.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned weak point that exists among the prior art, the utility model provides a novel burn burning furnace economizer for solve prior art and burn burning furnace burning and make the gas of emission not reach the standard, thereby cause the problem of atmosphere pollution.

In order to solve the technical problem, the utility model discloses a following technical scheme: a novel incinerator energy-saving device comprises an energy-saving device right section and an energy-saving device left section, wherein the energy-saving device right section comprises a gas collecting tank, a first fan, a second fan, a chimney and a preheater, the gas collecting tank is connected with the first fan, the first fan is connected with the bottom of the preheater, the right side of the preheater is connected with the second fan and is connected with the chimney through the second fan, the energy-saving device left section comprises a burner, a combustion assembly and a heat exchanger, the lower end of the burner is connected with the combustion assembly, the left end of the heat exchanger is connected with the combustion assembly, and the right end of the heat exchanger is connected with the preheater; the combustion assembly comprises a combustion chamber, a waste gas preheating cavity and a heat accumulator, wherein the waste gas preheating cavity is positioned on the upper layer of the combustion chamber and is connected with the combustion chamber, the lower end of the combustion chamber is connected with the heat accumulator, and the heat accumulator is connected with a preheater through a heat exchanger; the waste gas preheating cavity is further provided with a preheating pipeline, the tail end of the preheating pipeline is connected with the waste gas preheating cavity, and the head end of the preheating pipeline is connected with the top of the preheater.

Furthermore, the gas collecting tank is also provided with a waste gas inlet, and the waste gas inlet is positioned below the right side of the gas collecting tank and is a circular pipeline connector.

Furthermore, the heat exchanger comprises a heat exchange cavity, an inlet pipeline, an outlet pipeline and a fixed seat, wherein the heat exchange cavity is arranged above the fixed seat, and the top of the heat exchange cavity is connected with the inlet pipeline and the outlet pipeline.

Furthermore, a waste gas concentration detector is arranged in the gas collection tank.

Furthermore, 4 heat exchange interfaces are further arranged on the heat exchange cavity and located at the top of the heat exchange cavity.

Furthermore, the heat exchange cavity is composed of a cavity head part, a cavity body and a cavity tail part, the cavity head part and the cavity tail part are fixedly connected, and the cavity tail part and the cavity head part are fixedly connected.

Further, the head of the cavity is arc-shaped.

Further, the fixing base comprises a supporting rod and a base, the top end of the supporting rod is connected with the heat exchange cavity, the tail portion of the supporting rod is connected with the base, and the base is rectangular.

Furthermore, the heat accumulators are arranged in a staggered flow guiding mode.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the utility model discloses a novel burn burning furnace economizer has increased gas collecting tank and waste gas preheating device, and in glue applicator organic waste gas sent into the gas collecting tank through the fan, the gas collecting tank export was small-bore for the tank internal pressure improves, and concentration increases the improve equipment combustion efficiency.

2. The utility model discloses a novel burn burning furnace economizer, waste gas preheating device utilize the interior waste heat of stove behind the conduction oil heat exchanger, carry out preheating treatment to organic waste gas for the exhaust gas temperature who gets into in the stove hall reaches the uniform temperature in advance, and the waste gas after preheating burns more completely after meetting the heat accumulation ceramic body of high temperature.

3. The utility model discloses a novel burn burning furnace economizer, the mode that the heat accumulator adopted crisscross water conservancy diversion is arranged, and more effectual heat accumulation reaches abundant burning, the purpose of energy saving consumption with the route that the increase waste gas flows through.

4. The utility model discloses a novel burn burning furnace economizer uses the fine security and the stability of having protected equipment of heat exchanger.

Drawings

FIG. 1 is a schematic structural view of an embodiment of a novel energy saving device of an incinerator;

FIG. 2 is a schematic perspective view of a heat exchanger in an embodiment of the energy saving device of the novel incinerator;

FIG. 3 is a schematic front view of a heat exchanger in an embodiment of the energy saving device of the novel incinerator;

reference numerals referred to in the drawings are: the energy saving device right section 1; a gas collection tank 101; an exhaust gas inlet 101 a; a first fan 102, a second fan 103; a chimney 104; a preheater 105; an exhaust gas concentration detector 106; a left section 2 of the energy saving device; a burner 201; combustion assembly 202, combustion chamber 202 a; an exhaust gas preheating chamber 202 b; preheat line 202b 1; a heat storage body 202 c; a heat exchanger 203; a heat exchange cavity 203 a; the cavity head 203a 1; the cavity body 203a 2; cavity tail 203a 3; an inlet duct 203 b; an outlet conduit 203 c; a fixed base 203 d; the support bar 203d 1; base 203d 2; heat exchange interface 203 e.

Detailed Description

In order to make the present invention better understood by those skilled in the art, the technical solutions of the present invention are further described below with reference to the accompanying drawings and examples.

Example one

As shown in fig. 1 to 3, a novel incinerator energy-saving device comprises an energy-saving device right section 1 and an energy-saving device left section 2, wherein the energy-saving device right section 1 comprises a gas collecting tank 101, a first fan 102, a second fan 103, a chimney 104 and a preheater 105, the gas collecting tank 101 is connected with the first fan 102, the first fan 102 is connected with the bottom of the preheater 105, the right side of the preheater 105 is connected with the second fan 103, and the preheater is in conduction connection with the chimney 104 through the second fan 103.

The left section 2 of the energy-saving device comprises a combustor 201, a combustion assembly 202 and a heat exchanger 203, wherein the lower end of the combustor 201 is connected with the combustion assembly 202, the left end of the heat exchanger 203 is connected with the combustion assembly 202, and the right end of the heat exchanger 203 is connected with the preheater 105.

As preferred scheme, gas collecting tank 101 still is equipped with waste gas entry 101a, and the waste gas entry is located gas collecting tank 101 right side below, and for circular shape pipeline interface, waste gas passes through waste gas entry 101a and gets into storage in the gas collecting tank 101, and the waste gas of design generally directly gets into the combustion chamber, does not fully preheat, causes organic waste gas to burn inadequately, causes environmental pollution, falls the waste gas of storage through gas collecting tank 101 and preheats through pre-heater 105 and can make waste gas obtain abundant burning and avoid environmental pollution.

The gas collection tank 101 is provided with an exhaust gas concentration detector 106.

When organic waste gas of the gluing machine is sent into the gas collecting tank 101 through the fan, the outlet of the gas collecting tank 101 is small in diameter, so that the pressure in the tank is improved, the concentration is increased, the waste gas concentration detector 106 is arranged in the gas collecting tank 101, when the concentration reaches the limit value, the rotating speed of the fan is increased, the concentration and the pressure of the waste gas in the gas collecting tank 101 are ensured not to exceed the standard, and the safety purpose is achieved.

Example two

The present embodiment is carried out on the basis of the first embodiment, and mainly introduces the structure of the exhaust gas preheating cavity of the novel energy saving device of the incinerator.

As shown in fig. 1 to 3, a novel incinerator energy-saving device comprises an energy-saving device right section 1 and an energy-saving device left section 2, wherein the energy-saving device right section 1 comprises a gas collecting tank 101, a first fan 102, a second fan 103, a chimney 104 and a preheater 105, the gas collecting tank 101 is connected with the first fan 102, the first fan 102 is connected with the bottom of the preheater 105, the right side of the preheater 105 is connected with the second fan 103, and the preheater is in conduction connection with the chimney 104 through the second fan 103.

The left section 2 of the energy-saving device comprises a combustor 201, a combustion assembly 202 and a heat exchanger 203, wherein the lower end of the combustor 201 is connected with the combustion assembly 202, the left end of the heat exchanger 203 is connected with the combustion assembly 202, and the right end of the heat exchanger 203 is connected with the preheater 105.

Gas collecting tank 101 still is equipped with the waste gas entry, the waste gas entry is located gas collecting tank 101 right side below, for circular shape pipeline interface, waste gas passes through waste gas entry 101a and gets into storage in the gas collecting tank 101, the waste gas of equipment factory design generally directly gets into the combustion chamber, not fully preheat, cause organic waste gas to burn inadequately, cause environmental pollution, it can make waste gas obtain abundant burning through preheating of preheater 105 to fall the waste gas of storage through gas collecting tank 101 and avoid environmental pollution.

The waste gas concentration detector 106 is arranged in the gas collection tank 101, when organic waste gas of the gluing machine is sent into the gas collection tank 101 through the fan, the outlet of the gas collection tank 101 is small in diameter, so that the pressure in the tank is improved, the concentration is increased, the waste gas concentration detector 106 is arranged in the gas collection tank 101, when the concentration reaches a limit value, the rotating speed of the fan is increased, the waste gas concentration and the pressure in the gas collection tank 101 are ensured not to exceed the standard, and the safety purpose is achieved.

The combustion assembly 202 comprises a combustion chamber 202a, a waste gas preheating cavity 202b and a heat accumulator 202c, wherein the waste gas preheating cavity 202b is positioned at the upper layer of the combustion chamber 202a and is connected with the combustion chamber 202a, the lower end of the combustion chamber 202a is connected with the heat accumulator 202c, the heat accumulator 202c is connected with the preheater 105 through a heat exchanger 203, and the heat accumulators 202c are arranged in a staggered flow guiding manner.

The waste gas preheating chamber 202b is further provided with a preheating pipeline 202b1, the tail end of the preheating pipeline 202b1 is connected with the waste gas preheating chamber 202b, and the head end of the preheating pipeline 202b1 is connected with the top of the preheater 105.

The advantages of this embodiment over the first embodiment are: the waste gas preheating device preheats organic waste gas by utilizing waste heat in the furnace after the heat transfer oil heat exchanger 203, so that the temperature of the waste gas entering a furnace hearth reaches a certain temperature in advance, the preheated waste gas is burnt more completely after encountering a high-temperature heat storage ceramic body, the heat storage body 202c is arranged in a staggered flow guide mode, more effective heat storage and a path for increasing the flow of the waste gas are realized, and the purposes of sufficient combustion and energy consumption saving are achieved.

EXAMPLE III

The present embodiment is performed on the basis of the first or second embodiment, and mainly introduces the structure of the heat exchanger of the novel energy saving device of the incinerator.

As shown in fig. 1 to 3, a novel incinerator energy-saving device comprises an energy-saving device right section 1 and an energy-saving device left section 2, wherein the energy-saving device right section 1 comprises a gas collecting tank 101, a first fan 102, a second fan 103, a chimney 104 and a preheater 105, the gas collecting tank 101 is connected with the first fan 102, the first fan 102 is connected with the bottom of the preheater 105, the right side of the preheater 105 is connected with the second fan 103, and the preheater is in conduction connection with the chimney 104 through the second fan 103.

The left section 2 of the energy-saving device comprises a combustor 201, a combustion assembly 202 and a heat exchanger 203, wherein the lower end of the combustor 201 is connected with the combustion assembly 202, the left end of the heat exchanger 203 is connected with the combustion assembly 202, and the right end of the heat exchanger 203 is connected with the preheater 105.

The gas collecting tank 101 is further provided with a waste gas inlet, and the waste gas inlet is positioned below the right side of the gas collecting tank 101 and is a circular pipeline connector. Waste gas passes through waste gas entry 101a and gets into storage in the gas collecting tank 101, and the waste gas of equipment manufacturer design generally directly gets into the combustion chamber, does not fully preheat, causes organic waste gas burning insufficient, causes environmental pollution, falls the waste gas of storage through gas collecting tank 101 and preheats through pre-heater 105 and can make waste gas obtain abundant burning and avoid environmental pollution.

The gas collection tank 101 is provided with an exhaust gas concentration detector 106. When organic waste gas of the gluing machine is sent into the gas collecting tank 101 through the fan, the outlet of the gas collecting tank 101 is small in diameter, so that the pressure in the tank is improved, the concentration is increased, the waste gas concentration detector 106 is arranged in the gas collecting tank 101, when the concentration reaches the limit value, the rotating speed of the fan is increased, the concentration and the pressure of the waste gas in the gas collecting tank 101 are ensured not to exceed the standard, and the safety purpose is achieved.

The combustion assembly 202 comprises a combustion chamber 202a, a waste gas preheating cavity 202b and a heat accumulator 202c, wherein the waste gas preheating cavity 202b is positioned at the upper layer of the combustion chamber 202a and is connected with the combustion chamber 202a, the lower end of the combustion chamber 202a is connected with the heat accumulator 202c, and the heat accumulator 202c is connected with the preheater 105 through a heat exchanger 203.

Preferably, a preheating pipeline 202b1 is further arranged on the waste gas preheating cavity 202b, the tail end of the preheating pipeline 202b1 is connected with the waste gas preheating cavity 202b, and the head end of the preheating pipeline 202b1 is connected with the top of the preheater 105, when in specific use, waste gas enters the preheater 105 through the gas collecting tank 101, and the waste gas is preheated by the preheater 105, so that the sufficient combustion of the waste gas is ensured.

Preferably, the heat exchanger 203 comprises a heat exchange cavity 203a, an inlet pipe 203b, an outlet pipe 203c and a fixed seat 203d, the heat exchange cavity 203a is arranged above the fixed seat 203d, the top of the heat exchange cavity 203a is connected with the inlet pipe 203b and the outlet pipe 203c, a preheating pipe 202b1 is further arranged on the waste gas preheating cavity 202b, the tail end of the preheating pipe 202b1 is connected with the waste gas preheating cavity 202b, and the head end of the preheating pipe 202b1 is connected with the top of the preheater 105. The heat exchanger 203 can reduce the amount of heat generated by the preheater 105 during operation, thereby preventing the preheater 105 from being damaged by the heat generated by the preheated exhaust gas from the preheater 105.

As an optimal scheme, 4 heat exchange interfaces 203e are further arranged on the heat exchange cavity 203a, the heat exchange interfaces 203e are located at the top of the heat exchange cavity 203a, and an oil inlet pipeline or an oil outlet pipeline can be installed on the heat exchange interfaces according to the required heat dissipation performance difference, so that the heat exchange efficiency is improved or reduced.

Preferably, the heat exchange cavity 203a is composed of three parts, namely a cavity head part 203a1, a cavity body 203a2 and a cavity tail part 203a3, the tail end of the cavity head part 203a1 is fixedly connected with the head end of the cavity body 203a2, the head end of the cavity tail part 203a3 is fixedly connected with the tail end of the cavity body 203a2, the concentration of the organic waste gas entering the incinerator is improved through the gas collecting tank 101, so that sufficient waste gas is provided to enable the heat accumulator 202c to continuously burn and release heat, and the supply of fuel gas raw materials is reduced. On the other hand, the waste heat in the furnace behind the heat exchanger is utilized to preheat the waste gas entering the combustion chamber in advance, so that the aim of complete combustion and decomposition of the gas waste gas is achieved, and the environment-friendly requirement of the discharged flue gas is met while the fuel supply is reduced.

As the preferred scheme, the cavity head 203a1 is arc-shaped, and the arc-shaped cavity head has higher structural strength when in use, so that the safety performance of the device is improved, and meanwhile, the damage of sharp water caltrops to other parts of the device can be well avoided when in mounting and rotating.

As preferred scheme, fixing base 203d includes bracing piece 203d1, base 203d2, and heat exchange cavity 203a is connected at bracing piece 203d1 top, and the afterbody is connected with base 203d2, and base 203d2 is the rectangle, utilizes the multistage formula structure, makes the fixing base easy to overhaul and change the part, labour saving and time saving improves economic benefits.

Advantages over the second embodiment: the heat exchange oil is used for bringing the temperature out of the furnace through the heat exchanger 203, so that the temperature in the equipment is kept in a safe interval, the equipment damage caused by high temperature is avoided, the equipment is safer and more reliable, and the maintenance frequency is reduced.

The above description is only for the embodiments of the present invention, and the common general knowledge of the known specific structures and characteristics in the schemes is not described herein too much, and those skilled in the art will know all the common technical knowledge in the technical field of the present invention before the application date or the priority date, can know all the prior art in this field, and have the ability to apply the conventional experimental means before this date, and those skilled in the art can combine their own ability to perfect and implement the schemes, and some typical known structures or known methods should not become obstacles for those skilled in the art to implement the present application. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.

Claims (8)

1. The utility model provides a novel burn burning furnace energy-conservation device which characterized in that: comprises an energy-saving device right section and an energy-saving device left section;

the right section of the energy-saving device comprises a gas collecting tank, a first fan, a second fan, a chimney and a preheater, wherein the gas collecting tank is connected with the first fan, the first fan is connected with the bottom of the preheater, and the right side of the preheater is connected with the second fan and the chimney through the second fan;

the energy-saving device comprises a combustor, a combustion assembly and a heat exchanger, wherein the lower end of the combustor is connected with the combustion assembly, the left end of the heat exchanger is connected with the combustion assembly, and the right end of the heat exchanger is connected with a preheater.

2. A novel incinerator energy saving device as claimed in claim 1 wherein: the gas collecting tank is also provided with a waste gas inlet, the waste gas inlet is positioned below the right side of the gas collecting tank, and the waste gas inlet is a circular pipeline connector.

3. A novel incinerator energy saving device as claimed in claim 2 wherein: the combustion assembly comprises a combustion chamber, a waste gas preheating cavity and a heat accumulator, the waste gas preheating cavity is connected with the top end of the combustion chamber, the lower end of the combustion chamber is connected with the heat accumulator, and the heat accumulator is connected with a preheater through a heat exchanger.

4. A novel incinerator energy saving device as claimed in claim 3 wherein: the waste gas preheating cavity is further provided with a preheating pipeline, the tail end of the preheating pipeline is connected with the waste gas preheating cavity, and the head end of the preheating pipeline is connected with the top of the preheater.

5. A novel incinerator energy saving device as claimed in claim 4, characterized in that: the heat exchanger comprises a heat exchange cavity, an inlet pipeline, an outlet pipeline and a fixed seat, wherein the heat exchange cavity is arranged above the fixed seat, and the top of the heat exchange cavity is connected with the inlet pipeline and the outlet pipeline.

6. A novel incinerator energy saving device as claimed in claim 5, characterized in that: the heat exchange cavity is composed of a cavity head part, a cavity body and a cavity tail part, the cavity head part and the cavity tail part are fixedly connected, the cavity tail part and the cavity body are fixedly connected, and 4 heat exchange interfaces are further arranged at the top of the heat exchange cavity.

7. A novel incinerator energy saving device as claimed in claim 6 wherein: the head of the cavity is arc-shaped.

8. A novel incinerator energy saving device as claimed in claim 7 wherein: the fixing base comprises a supporting rod and a base, the top end of the supporting rod is connected with the heat exchange cavity, the tail of the supporting rod is connected with the base, and the base is rectangular.

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