CN216481835U - Chlorine compressor intercooler circulating water system - Google Patents

Abstract

The utility model discloses a circulating water system of an intercooler of a chlorine compressor, and relates to the technical field of circulating water systems. This chlorine compressor intercooler circulating water system includes intercooler and circulating water cooling subassembly, and the intercooler setting is in the top of circulating water cooling subassembly. This chlorine press intercooler circulating water system sets up a circulating water cooling subassembly in the below of intercooler and is arranged in cooling down the gas in the intercooler, liquid temperature drives the work of control by temperature change water pump when rising to the threshold value in circulating water cooling subassembly, take out the warm water and circulate the transfer water tank, cool down liquid through heat exchange piece, liquid after rethread inlet tube will be cooled down is sent back to the cooling room and is absorbed gaseous heat energy, with the purpose that reaches the heat energy that utilizes compression production in the circulating water cooling system, control by temperature change water pump is through response liquid temperature automatic start, replace and the cooling operation liquid, go on in semi-sealed environment, liquid loss is little, can long-time used repeatedly.

Description

Chlorine compressor intercooler circulating water system

Technical Field

The utility model relates to the technical field of circulating water systems, in particular to a circulating water system of an intercooler of a chlorine compressor.

Background

In the industrial production of chlor-alkali, the chlorine conveying compression machinery (i.e. chlorine press) belongs to one of the key equipments, and it is the "throat" of the whole production system, and it requires the continuous and safe operation of a single machine, and if the chlorine press is not operated properly, it will affect the normal operation of the whole production system, and may even cause the system to stop production.

In the prior art, wet chlorine obtained by electrolysis is sequentially subjected to washing, cooling and drying treatment to remove acid mist carried in the chlorine, then is sucked from a primary inlet of a main machine, and enters a diffuser after being acted by an impeller rotating at a high speed, two necessary factors for gas compression are pressurization and low temperature, but after the chlorine is impacted and rubbed, part of kinetic energy is converted into internal energy to increase the temperature of the gas, so that a volute needs to be led out for intermediate cooling, part of heat is removed, the cooled chlorine is sucked into a secondary impeller to finish the process again, and after four-stage compression and cooling, the chlorine is sent into a liquid chlorine liquefaction process for treatment, so that the temperature rise of the chlorine is reduced, and the energy consumption cost is reduced.

Disclosure of Invention

The utility model can reduce the temperature rise of chlorine, reduce the energy consumption cost and reduce the liquid loss.

The utility model adopts the following technical scheme:

a chlorine compressor intercooler circulating water system, it includes: the side surface of the intercooler is fixedly connected with an inflator pump; the fixed periphery that sets up at the intercooler of circulating water cooling subassembly, circulating water cooling subassembly includes cooling room, hydrologic cycle spare and heat exchange piece, the fixed below that sets up at the intercooler between the cooling room, the inboard between the cooling room is provided with the hydrologic cycle spare, one side between the cooling is fixed and is provided with heat exchange piece.

Preferably, the side fixed connection of intercooler is provided with the gas tube, the fixed pressure boost scroll that is provided with in side that the intercooler one end was kept away from to the gas tube, the fixed setting in side of gas tube of inflator pump.

Preferably, the lateral wall fixedly connected with of intercooler and the liftoff support of cooling room looks adaptation, the lower surface of cooling room is fixed in the liftoff support, the upper surface of cooling room runs through the mounting groove that is provided with intercooler looks adaptation, and the fixed joint has the sealing rubber circle between mounting groove and the intercooler.

Preferably, the bottom of intercooler runs through and is provided with the output tube, output tube and gas tube are fixed and are provided with the stop valve.

Preferably, the hydrologic cycle spare includes inlet tube, outlet pipe, circulation transfer water tank and control by temperature change water pump, the inlet tube runs through the lateral wall between the cooling and extends into the cooling, the inlet pipe end is kept away from between the cooling to the outlet pipe setting, the one end difference fixed connection between the cooling to the side of circulation transfer water tank is kept away from to outlet pipe and inlet tube, the outlet pipe extends into the one end fixedly connected with control by temperature change water pump between the cooling.

Preferably, heat exchange piece fixed connection is in the side of circulation transfer water tank, heat exchange piece includes heat exchange pipe network, refrigerating system and radiator fan, the heat exchange pipe network is fixed to be set up at circulation transfer water tank inboard, refrigerating system fixed connection is at the lateral wall of circulation transfer water tank, the side of circulation transfer water tank just is located the fixed radiator fan that is provided with in refrigerating system below.

Has the advantages that:

the circulating water cooling assembly is arranged below the intercooler and used for cooling the compressed gas in the intercooler, the heat energy in the compressed gas is absorbed by utilizing the large specific heat capacity of water far away from the circulating water cooling assembly, the temperature control water pump is driven to work when the temperature of liquid in the circulating water cooling assembly is raised to a threshold value, warm water is pumped out of the cooling chamber and enters the circulating transfer water tank, the liquid is cooled through the heat exchange piece arranged in the circulating transfer water tank, and the cooled liquid is pumped back to the cooling chamber through the water inlet pipe to absorb the heat energy of the gas, so that the purpose of reducing the heat energy generated by compression in the system by utilizing the circulating water is achieved.

According to the utility model, part of the intercooler is soaked in the cooling liquid, the heat energy of the compressed gas in the intercooler is absorbed in a heat conduction mode, the liquid absorbing the heat energy and raising the temperature controls the temperature control water pump to be automatically started, the liquid after being raised in temperature is replaced and cooled, the whole process is carried out in a semi-sealed environment, the liquid loss is small, and the liquid can be repeatedly used for a long time.

Drawings

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

FIG. 2 is a schematic structural view of a circulating water cooling assembly according to the present invention;

FIG. 3 is a schematic view of the structure of the water circulating member of the present invention;

fig. 4 is a sectional view showing the overall structure of the present invention.

In the figure: 1 is the intercooler, 2 is circulating water cooling subassembly, 3 is the pump, 4 is the gas tube, 5 is pressure boost turbine, 6 is liftoff support, 7 is the sealing rubber circle, 8 is the output tube, 9 is the stop valve, 201 is the cooling room, 202 is the hydrologic cycle spare, 203 is the heat exchange spare, 2021 is the inlet tube, 2022 is the outlet pipe, 2023 is circulation transfer water tank, 2024 is the control by temperature change water pump, 2031 is the heat exchange pipe network, 2032 is refrigerating system, 2033 is radiator fan.

Detailed Description

Referring to fig. 1-4, the chlorine-free air cooler comprises an intercooler 1 and a circulating water cooling assembly 2, wherein the intercooler 1 is arranged above the circulating water cooling assembly 2, air in the intercooler 1 is cooled through the circulating water cooling assembly 2, an inflator pump 3 is fixedly connected to the side surface of the intercooler 1, and the inflator pump 3 can continuously send chlorine into the intercooler 1.

The side of intercooler 1 runs through and is provided with gas tube 4, and the fixed pressure boost scroll 5 that is provided with in side that the one end was kept away from intercooler 1 to gas tube 4, and pressure boost scroll 5 carries out the pressure boost to the gas of sending into, and the fixed setting in the side of gas tube 4 of inflator pump 3.

Circulating water cooling subassembly 2 includes the cooling room 201, water circulation piece 202 and heat exchange piece 203, the fixed below that sets up in intercooler 1 in cooling room 201, the coolant liquid is full of in the cooling room 201, carry out the heat exchange with the gas in intercooler 1, the outside of cooling room 201 is provided with water circulation piece 202, water circulation piece 202 realizes the recycling of coolant liquid, the fixed heat exchange piece 203 that is provided with in one side of cooling room 201, replace the heat energy in the coolant liquid through heat exchange piece 203.

The fixed surface of cooling room 201 is provided with terrain bearing support 6, support the cooling room 201 to the position of leaving ground a take the altitude through terrain bearing support 6, the operation of being convenient for, also be favorable to the heat dissipation, the upper surface of cooling room 201 runs through the mounting groove that is provided with intercooler 1 looks adaptation, intercooler 1 is used to install the fixed joint of mounting groove in the top of cooling room 1, fixed cover has been cup jointed sealing rubber circle 7 between mounting groove and the intercooler 1, sealing rubber circle 7 can prevent that liquid evaporation from dissipating, resources are saved, also can prevent after 1 vibrations of intercooler from forming the clearance with between the cooling room 201.

The bottom of intercooler 1 runs through and is provided with output tube 8, and output tube 8 and gas tube 4 are fixed and are provided with stop valve 9, and output tube 8 runs through cooling room 201, realizes compressed gas's circulation between intercooler 1 through gas tube 4 and output tube 8, and stop valve 9 controlled flow and velocity of flow control, the break-make of control pipeline.

The water circulation component 202 includes a water inlet pipe 2021, a water outlet pipe 2022, a circulation transfer water tank 2023 and a temperature-controlled water pump 2024, the water inlet pipe 2021 penetrates the side wall of the cooling room 201 and extends into the cooling room 201, the water outlet pipe 2022 is disposed at the end of the cooling room 201 far away from the water inlet pipe 2021, and the circulation of the cooling liquid is realized through the water inlet pipe 2021 and the water outlet pipe 2022.

The ends of the water outlet pipe 2022 and the water inlet pipe 2021, which are far away from the cooling room 201, are respectively and fixedly connected to the side surface of the circulating transit water tank 2023, the end of the water outlet pipe 2022, which extends into the cooling room 201, is fixedly connected with a temperature-controlled water pump 2024, the temperature of the cooling liquid rises, and the temperature-controlled water pump 2024 is automatically started to pump the liquid out into the circulating transit water tank 2023.

The heat exchange member 203 is fixedly disposed on a side surface of the circulation transfer water tank 2023, the heat exchange member 203 includes a heat exchange pipe network 2031, a refrigeration system 2032 and a heat radiation fan 2033, the heat exchange pipe network 2031 is fixedly disposed on an inner side of the circulation transfer water tank 2023, the refrigeration system 2032 is disposed on a side surface of the circulation transfer water tank 2023, and the heat radiation fan 2033 is disposed on a side surface of the circulation transfer water tank 2023.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a chlorine compressor intercooler circulating water system which characterized in that includes:

the side surface of the intercooler is fixedly connected with an inflator pump;

the fixed periphery that sets up at the intercooler of circulating water cooling subassembly, circulating water cooling subassembly includes cooling room, hydrologic cycle spare and heat exchange piece, the fixed below that sets up at the intercooler between the cooling room, the inboard between the cooling room is provided with the hydrologic cycle spare, one side between the cooling is fixed and is provided with heat exchange piece.

2. The chlorine compressor intercooler water circulating system of claim 1, wherein: the side fixed connection of intercooler is provided with the gas tube, the fixed pressure boost scroll that is provided with in side that the intercooler one end was kept away from to the gas tube, the fixed setting in side of gas tube of pump.

3. The chlorine compressor intercooler water circulating system of claim 1, wherein: the utility model discloses a cooling device, including intercooler, mounting groove, sealing rubber circle, the liftoff support of lateral wall fixedly connected with and cooling room looks adaptation of intercooler, the lower surface of cooling room is fixed in the liftoff support, the upper surface of cooling room runs through the mounting groove that is provided with intercooler looks adaptation, and the fixed cover is connected with sealing rubber circle between mounting groove and the intercooler.

4. The chlorine compressor intercooler water circulating system of claim 1, wherein: the bottom of intercooler runs through and is provided with the output tube, output tube and gas tube are fixed and are provided with the stop valve.

5. The chlorine compressor intercooler water circulating system of claim 1, wherein: the hydrologic cycle piece includes inlet tube, outlet pipe, circulation transfer water tank and control by temperature change water pump, the inlet tube runs through the lateral wall between the cooling and extends into between the cooling, the inlet pipe end is kept away from between the cooling to the outlet pipe setting, the one end difference fixed connection between the cooling to the side of circulation transfer water tank is kept away from to outlet pipe and inlet tube, the outlet pipe extends into the one end fixedly connected with control by temperature change water pump between the cooling.

6. The chlorine compressor intercooler water circulating system of claim 1, wherein: heat exchange piece fixed connection is in the side of circulation transfer water tank, heat exchange piece includes heat exchange pipe network, refrigerating system and radiator fan, the heat exchange pipe network is fixed to be set up at circulation transfer water tank inboard, refrigerating system fixed connection is at the lateral wall of circulation transfer water tank, the side of circulation transfer water tank just is located the fixed radiator fan that is provided with in refrigerating system below.

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