CN219559065U - Efficient and energy-saving heat exchange device - Google Patents

Abstract

The utility model discloses a high-efficiency energy-saving heat exchange device, which comprises a heat exchange tank, wherein the outer side wall of the heat exchange tank is communicated with an air inlet pipe, the other end of the air inlet pipe is communicated with a fixed cylinder, an activated carbon adsorption plate is arranged in the fixed cylinder, a filtering bin is arranged below the fixed cylinder, three uniformly distributed filter cylinders are arranged in the filtering bin, the top of each filter cylinder is communicated with a connecting pipe penetrating through the upper end surface of the inside of the filtering bin, waste gas can be introduced into the inside of the filtering bin through an air vent pipe by starting an air blower, dust in the waste gas can be filtered by the three filter cylinders at the moment, so that the dust in the waste gas is filtered, and when the waste gas is introduced into the inside of the heat exchange tank, the heat exchange tank can avoid the dust in the waste gas from falling on a heat exchange pipeline to influence the heat exchange efficiency, avoid energy waste and is convenient to clean the filter cylinders.

Description

Efficient and energy-saving heat exchange device

Technical Field

The utility model relates to the technical field of waste gas treatment, in particular to an efficient and energy-saving heat exchange device.

Background

Industrial waste gas refers to the generic term for various pollutant-containing gases discharged into the air during the fuel combustion and production processes in the factory of the enterprise. These exhaust gases are: carbon dioxide, carbon disulphide, hydrogen sulphide, fluorides, nitrogen oxides, chlorine, hydrogen chloride, carbon monoxide, sulphuric acid (mist) lead mercury, beryllium compounds, smoke dust and production dust are discharged into the atmosphere, and air is polluted. The toxic gases are easy to cause harm to human bodies, and are usually treated by a high-temperature catalysis method, and the treated waste gas contains a large amount of heat, so that energy waste can be caused if the waste gas is directly discharged.

At present, when industrial waste gas is treated, in order to facilitate recycling of heat in the waste gas, the waste gas is usually led into a heat exchange device, and heat exchange treatment is carried out on the waste gas.

Because present heat transfer device, most is including heat exchange pipeline, intake pipe, blast pipe, and inside does not have dirt filterable function, when retrieving the heat transfer to waste gas, the dust in the waste gas is easy to adhere on heat exchange pipeline, can lead to heat exchange efficiency to reduce to cause the heat energy extravagant.

Disclosure of Invention

The utility model aims to provide a high-efficiency energy-saving heat exchange device which has the characteristics of avoiding dust in waste gas from falling on a heat exchange pipeline to influence the heat exchange efficiency in the heat exchange process of a heat exchange tank, avoiding energy waste and facilitating cleaning of a filter cylinder.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a high-efficient energy-conserving heat transfer device, includes the heat transfer jar, the lateral wall intercommunication of heat transfer jar has the intake pipe, the other end intercommunication of intake pipe has a fixed section of thick bamboo, the internally mounted of fixed section of thick bamboo has the active carbon adsorption board and the below is provided with the filtration storehouse, the inside of filtration storehouse is provided with three evenly distributed's a section of thick bamboo, the top intercommunication of straining a section of thick bamboo has the connecting pipe that runs through in the inside up end of filtration storehouse, the other end of connecting pipe is installed in the lateral wall of fixed section of thick bamboo;

the three lateral walls of the filter cylinder are all provided with flushing pipes, the three flushing pipes are communicated with each other through pipelines, the inner side walls of the flushing pipes penetrate through a plurality of evenly distributed nozzles, and a plurality of evenly distributed spray heads are arranged at the bottoms of the flushing pipes.

In order to introduce the waste gas into the filter house, the efficient and energy-saving heat exchange device is preferably provided with a vent pipe on the outer side wall of the filter house, and a blower is arranged on the outer side wall of the vent pipe.

In order to facilitate the discharge of the washed sewage, the efficient and energy-saving heat exchange device is preferable, wherein the bottom of the filtering bin is communicated with a discharge pipe, and the outer side wall of the discharge pipe is provided with a valve.

In order to introduce external water flow into the flushing pipe, the efficient and energy-saving heat exchange device is preferably characterized in that the outer side wall of the filtering bin is provided with a water pipe, the outer side wall of the water pipe is provided with a water pump, and the other end of the water pipe penetrates through the filtering bin and is communicated with the flushing pipe positioned on the left side.

In order to facilitate the discharge of the gas after heat exchange, the high-efficiency energy-saving heat exchange device is preferable in the utility model, the top end surface inside the heat exchange tank is provided with an air outlet pipe in a penetrating way, the outer side wall of the air outlet pipe is provided with a heat exchange pipeline, and the inside of the other end of the air outlet pipe is provided with a drain pipe penetrating through the bottom end surface inside the heat exchange tank.

In order to introduce external water flow into the heat exchange pipeline, the heat exchange device with high efficiency and energy saving is preferable, wherein two ends of the heat exchange pipeline are respectively communicated with a water inlet pipe and a water outlet pipe, and the other ends of the water inlet pipe and the water outlet pipe penetrate through the outer side wall of the heat exchange tank and extend to the outside of the heat exchange tank.

Compared with the prior art, the utility model has the following beneficial effects:

when the device is used, one end of the vent pipe is connected with the waste gas pipeline, then the blower is started, waste gas can be introduced into the filtering bin through the vent pipe, at the moment, the three filter cylinders can filter dust in the waste gas, so that the dust in the waste gas can be filtered, and when the waste gas is introduced into the heat exchange tank, the heat exchange tank can prevent the dust in the waste gas from falling on the heat exchange pipeline to influence the heat exchange efficiency in the heat exchange process, and the energy waste is avoided.

When the filter cylinder is required to be cleaned, the water pump is started to pump external water flow into the three flushing pipes, so that the filter cylinder is flushed by the plurality of nozzles matched with the plurality of spray heads, the filter cylinder can be cleaned, and the flushed water can be discharged from the discharge pipe, so that the filter cylinder can be cleaned conveniently.

Drawings

FIG. 1 is a block diagram of an overall cross-section of the present utility model;

FIG. 2 is a partial block diagram of a flush tube of the present utility model;

fig. 3 is a top view of the flush tube of the present utility model.

In the figure: 1. a heat exchange tank; 101. an air inlet pipe; 102. an air outlet pipe; 103. a heat exchange pipeline; 104. a water inlet pipe; 105. a water outlet pipe; 106. a drain pipe; 2. a fixed cylinder; 201. an activated carbon adsorption plate; 3. a filtering bin; 301. a vent pipe; 302. a blower; 303. a discharge pipe; 4. a filter cartridge; 401. a connecting pipe; 5. a flushing pipe; 501. a nozzle; 502. a spray head; 6. a water pipe; 601. and (3) a water pump.

Detailed Description

Referring to fig. 1 to 3, a high-efficiency energy-saving heat exchange device comprises a heat exchange tank 1, wherein an air inlet pipe 101 is communicated with the outer side wall of the heat exchange tank 1, a fixed cylinder 2 is communicated with the other end of the air inlet pipe 101, an activated carbon adsorption plate 201 is installed in the fixed cylinder 2, a filtering bin 3 is arranged below the fixed cylinder 2, three uniformly distributed filter cylinders 4 are arranged in the filtering bin 3, a connecting pipe 401 penetrating through the upper end face in the filtering bin 3 is communicated with the top of the filter cylinders 4, and the other end of the connecting pipe 401 is installed on the outer side wall of the fixed cylinder 2;

the lateral wall of three section of thick bamboo 4 all is provided with wash pipe 5, all communicates through the pipeline between each other for three wash pipe 5, and a plurality of evenly distributed's nozzle 501 has been seted up in the inside wall penetration of wash pipe 5, and a plurality of evenly distributed's shower nozzle 502 are installed to the bottom of wash pipe 5.

In this embodiment: when the device is used, one end of the vent pipe 301 is connected with an exhaust gas pipeline, then the blower 302 is started, exhaust gas can be introduced into the filter bin 3 through the vent pipe 301, at the moment, dust in the exhaust gas can be filtered by the three filter cartridges 4, so that the dust in the exhaust gas is filtered, when the exhaust gas is introduced into the heat exchange tank 1, the heat exchange tank 1 can avoid the dust in the exhaust gas falling on the heat exchange pipeline 103 to influence the heat exchange efficiency, and energy waste is avoided.

When the filter cartridge 4 needs to be cleaned, the water pump 601 is started to pump external water flow into the three flushing pipes 5, so that the plurality of nozzles 501 cooperate with the plurality of spray heads 502 to flush the filter cartridge 4, the filter cartridge 4 can be cleaned, and the flushed water can be discharged from the discharge pipe 303, so that the filter cartridge 4 can be cleaned conveniently.

As a technical optimization scheme of the utility model, the outer side wall of the filter house 3 is provided with a vent pipe 301, and the outer side wall of the vent pipe 301 is provided with a blower 302.

In this embodiment: by activating the blower 302, the exhaust gas generated from the external device can be introduced into the filter house 3 through the vent pipe 301.

As a technical optimization scheme of the utility model, the bottom of the filter bin 3 is communicated with a discharge pipe 303, and a valve is arranged on the outer side wall of the discharge pipe 303.

In this embodiment: by opening the valve, dust falling in the discharge pipe 303 can be discharged.

As a technical optimization scheme of the utility model, the outer side wall of the filter house 3 is provided with a water pipe 6, the outer side wall of the water pipe 6 is provided with a water pump 601, and the other end of the water pipe 6 penetrates through the filter house 3 and is communicated with a flushing pipe 5 positioned at the left side.

In this embodiment: by activating the water pump 601, external water can be introduced into the three flushing pipes 5, so that the plurality of nozzles 501 cooperate with the plurality of spray heads 502 to flush the filter cartridge 4.

As a technical optimization scheme of the utility model, an air outlet pipe 102 is arranged on the top end surface of the inside of the heat exchange tank 1 in a penetrating way, a heat exchange pipeline 103 is arranged on the outer side wall of the air outlet pipe 102, and a drain pipe 106 penetrating the bottom end surface of the inside of the heat exchange tank 1 is arranged in the other end of the air outlet pipe 102.

In this embodiment: in the heat exchange process of the heat exchange pipeline 103, the heat exchanged gas can be discharged from the gas outlet pipe 102, and the cooling liquid generated in the heat exchange tank 1 can be discharged from the water outlet pipe 106.

As a technical optimization scheme of the utility model, two ends of the heat exchange pipeline 103 are respectively communicated with a water inlet pipe 104 and a water outlet pipe 105, and the other ends of the water inlet pipe 104 and the water outlet pipe 105 penetrate through the outer side wall of the heat exchange tank 1 and extend to the outside of the heat exchange tank 1.

In this embodiment: water is introduced into the heat exchange pipeline 103 through the water inlet pipe 104, and after heat exchange, the water with the temperature raised can be discharged from the water outlet pipe 105.

Working principle: firstly, when the device is used, one end of the vent pipe 301 is connected with an exhaust gas pipeline, then the blower 302 is started, exhaust gas can be introduced into the filter bin 3 through the vent pipe 301, at the moment, dust in the exhaust gas can be filtered by the three filter cartridges 4, the filtered exhaust gas enters the filter cartridges 4 and enters the fixed cylinder 2 through the connecting pipe 401, at the moment, the activated carbon adsorption plate 201 can adsorb peculiar smell in the exhaust gas, so that the exhaust gas is introduced into the heat exchange tank 1, then the water inlet pipe 104 can introduce external water into the heat exchange pipeline 103, so that the heat exchange pipeline 103 exchanges heat with the exhaust gas in the heat exchange tank 1, the water after heat exchange can be discharged from the water outlet pipe 105, the gas after heat exchange can enter from the bottom of the air outlet pipe 102 and be discharged from the upper end, and cooling liquid generated in the heat exchange tank 1 can be discharged from the water outlet pipe 106;

when the filter cartridge 4 needs to be cleaned, the water pipe 6 is connected with an external water pipe, then the water pump 601 is started to pump external water into the three flushing pipes 5, so that the plurality of nozzles 501 cooperate with the plurality of spray heads 502 to flush the filter cartridge 4, the filter cartridge 4 can be cleaned, and the flushed water can be discharged from the discharging pipe 303.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (6)

1. The utility model provides an energy-efficient heat transfer device, includes heat transfer pot (1), its characterized in that: the air inlet pipe (101) is communicated with the outer side wall of the heat exchange tank (1), the other end of the air inlet pipe (101) is communicated with the fixed cylinder (2), an activated carbon adsorption plate (201) is arranged in the fixed cylinder (2) and a filtering bin (3) is arranged below the fixed cylinder, three uniformly distributed filter cylinders (4) are arranged in the filtering bin (3), a connecting pipe (401) penetrating through the upper end face in the filtering bin (3) is communicated with the top of the filter cylinders (4), and the other end of the connecting pipe (401) is arranged on the outer side wall of the fixed cylinder (2);

the three outer side walls of the filter cylinders (4) are respectively provided with a flushing pipe (5), the three flushing pipes (5) are communicated with each other through pipelines, a plurality of evenly distributed nozzles (501) are arranged on the inner side walls of the flushing pipes (5) in a penetrating mode, and a plurality of evenly distributed spray heads (502) are arranged at the bottoms of the flushing pipes (5).

2. An efficient and energy-saving heat exchange device according to claim 1, wherein: the air vent pipe (301) is arranged on the outer side wall of the filtering bin (3), and the air blower (302) is arranged on the outer side wall of the air vent pipe (301).

3. An efficient and energy-saving heat exchange device according to claim 1, wherein: the bottom of the filter bin (3) is communicated with a discharge pipe (303), and a valve is installed on the outer side wall of the discharge pipe (303).

4. An efficient and energy-saving heat exchange device according to claim 1, wherein: the lateral wall of filtration storehouse (3) is provided with logical water pipe (6), water pump (601) are installed to the lateral wall of leading to water pipe (6), the other end of leading to water pipe (6) runs through filtration storehouse (3) and with be located left wash pipe (5) intercommunication.

5. An efficient and energy-saving heat exchange device according to claim 1, wherein: the heat exchange device is characterized in that an air outlet pipe (102) is arranged on the top end face inside the heat exchange tank (1) in a penetrating mode, a heat exchange pipeline (103) is arranged on the outer side wall of the air outlet pipe (102), and a drain pipe (106) penetrating through the bottom end face inside the heat exchange tank (1) is arranged inside the other end of the air outlet pipe (102).

6. The energy efficient heat exchange device according to claim 5, wherein: two ends of the heat exchange pipeline (103) are respectively communicated with a water inlet pipe (104) and a water outlet pipe (105), and the other ends of the water inlet pipe (104) and the water outlet pipe (105) penetrate through the outer side wall of the heat exchange tank (1) and extend to the outside of the heat exchange tank (1).