CN202793083U - Three-level condensing integrated-type evaporative condenser - Google Patents

Abstract

The utility model discloses a three-level condensing integrated-type evaporative condenser which comprises a one-level low-voltage heat transfer exhausting pipe assembly (1), a two-level medium-voltage heat transfer exhausting pipe assembly (2), a three-level high-voltage heat transfer exhausting pipe assembly (3), an evaporative condenser shell body (4), an air exhausting opening (4a), a water receiving tank (4b), an air intake grid (4c), an axial flow ventilator (5), a dehydration device assembly (6), a spraying water pipe assembly (7), a heat transferring and padding assembly (8), a circulating water pump (9), a water level controlling device (10), a water pipe assembly (11) and an outer water supplying valve (12). Manufacturing materials and accessory configuration are reduced, manufacturing cost is lowered, investment is reduced, a cost-performance ratio is good, water is saved in the process of operation, reliability of equipment and operation is improved, and service life of the equipment is prolonged.

Description

Three grades of condensation integral type evaporative condensers

Technical field the utility model has related to a kind of three grades of condensation integral type evaporative condensers.

Condenser in the present three grades of heat-exchange systems both domestic and external of background technology, all be the condensers independently of being at different levels, thereby cause the equipment of whole system, accessory configuration amount large, cost performance is unreasonable, the consumption of water and wind of being in operation is large, and functional reliability is low, and service life is short, investment operating cost is all high, does not meet the low-carbon environment-friendly requirement.

The summary of the invention the purpose of this utility model is: solve the deficiency that prior art exists, provide in a kind of three grades of heat-exchange systems three grades independently condenser be made into three grades of condensation integral type evaporative condensers.

The technical solution of the utility model is: the one-level low pressure heat exchange pipe assembly (1) with cold medium one import (1a), an outlet (1b), with pressure heat exchange pipe assembly (2) in the secondary that exports (2b) with cold medium two imports (2a), two, and with three grades of high pressure heat exchange pipe assemblies (3) of cold medium triple feed inlet (3a), three outlets (3b), be divided into from left to right in one-level low pressure, the secondary press, middle part that three grades of high pressure are installed in an evaporative condenser housing (4) side by side; Perhaps the one-level low pressure heat exchange pipe assembly (1) with cold medium one import (1a), an outlet (1b), with press heat exchange pipe assembly (2) in the secondary with cold medium two imports (2a), two outlets (2b), and with three grades of high pressure heat exchange pipe assemblies (3) of cold medium triple feed inlet (3a), three outlets (3b) from the upper strata to the middle level, lower floor be divided in three grades of high pressure, the secondary press, middle part that the layering of one-level low pressure is installed in evaporative condenser housing (4).Top exhaust outlet (4a) at evaporative condenser housing (4) locates to install axial flow ventilating fan (5), axial flow ventilating fan (5) following fabrication and installation dewater unit assembly (6), dewater unit assembly (6) following fabrication and installation spray header assembly (7), spray header assembly (7) bottom presses heat exchange pipe assembly (2) and three grades of high pressure heat exchange pipe assemblies (3) in the one-level low pressure heat exchange pipe assembly (1) of installing arranged side by side and the secondary; Perhaps spray header assembly (7) bottom is pressure heat exchange pipe assembly (2) and one-level low pressure heat exchange pipe assembly (1) in three grades of high pressure heat exchange pipe assemblies (3) of installing of layering and the secondary, following fabrication and installation heat exchange filler assembly (8) again, the foot of evaporative condenser housing (4) is made into water receiving case (4b), the top of water receiving case (4b), the bottom of heat exchange filler assembly (8), be processed with air intake grid (4c) around the evaporative condenser housing (4), recirculating water pump (9) and water-level control apparatus (10) are installed in the water receiving case (4b), and water pipe assembly (11) is water circulating pump (9) and outer water supply water valve (12) and spray header assembly (7) UNICOM.

The beneficial effects of the utility model are: reduced the configuration of making material and accessory, reduced cost of manufacture, reduced investment, made cost performance more reasonable, be in operation and saved water, improved equipment and operating reliability and prolonged service life.

Description of drawings Fig. 1 is the schematic diagram that three grades of heat exchange pipe assemblies in the utility model are installed side by side; Fig. 2 is the schematic diagram that the total component layer of three grades of heat exchange pipes in the utility model is installed; Fig. 3 is that the utility model is installed in the schematic diagram in the three tier structure cooling system.

Part sequence number is as follows among the figure: one-level low pressure heat exchange pipe assembly (1), an import (1a), an outlet (1b); Press heat exchange pipe assembly (2) in the secondary, two imports (2a), two outlets (2b); Three grades of high pressure heat exchange pipe assemblies (3), triple feed inlet (3a), three outlets (3b); Evaporative condenser housing (4), exhaust outlet (4a), water receiving case (4b), air intake grid (4c); Axial flow ventilating fan (5); Dewater unit assembly (6); Spray header assembly (7); Heat exchange filler assembly (8); Recirculating water pump (9); Water-level control apparatus (10); Water pipe assembly (11); Outer water supply water valve (12); The elementary gaseous mixture of cold medium (13) in three grades of heat-exchange systems; Elementary condensation separator (14); One stage compressor (15); First-level buffer tank (16); One-level gas-liquid separator (17); Split-compressor (18); Level 2 buffering tank (19); Secondary gas-liquid separator (20); Three-stage blower (21); Three grades of surge tanks (22); Three grades of gas-liquid separators (23); Filter dryer (24); Last condenser (25); Cold medium liquid reservoir (26); Valve and pipeline assembly (27); Liquid cooling medium efferent duct and valve (28).

Specific embodiment the utility model such as Fig. 1, Fig. 2, in embodiment illustrated in fig. 3, the elementary gaseous mixture of cold medium (13) in three grades of heat-exchange systems, through elementary condensation separator (14), valve and pipeline assembly (27), enter into a stage compressor (15), through valve and pipeline assembly (27), first-level buffer tank (16), enter into an import of the present utility model (1a), one-level low pressure heat exchange pipe assembly (1), one outlet (1b) is through valve and pipeline assembly (27), enter into one-level gas-liquid separator (17), through valve and pipeline assembly (27), enter into split-compressor (18), through valve and pipeline assembly (27), level 2 buffering tank (19), enter into two imports of the present utility model (2a), press heat exchange pipe assembly (2) in the secondary, two outlets (2b), through valve and pipeline assembly (27), enter into secondary gas-liquid separator (20), through valve and pipeline assembly (27), enter into three-stage blower (21), through valve and pipeline assembly (27), enter into three grades of surge tanks (22), through valve and pipeline assembly (27), enter into triple feed inlet of the present utility model (3a), three grades of high pressure heat exchange pipe assemblies (3), three outlets (3b), through valve and pipeline assembly (27), enter into three grades of gas-liquid separators (23), through valve and pipeline assembly (27), enter into Filter dryer (24), through valve and pipeline assembly (27), enter into last condenser (25) and become purer liquid cooling medium, enter into cold medium liquid reservoir (26) through valve and pipeline assembly (27), output in the operative installations equipment through liquid cooling medium efferent duct and valve (28).

Claims (4)

1. one kind three grades condensation integral type evaporative condensers, comprise the heat exchange pipe assembly, the evaporative condenser housing, exhaust outlet, the water receiving case, the air intake grid, the axial flow ventilating fan, the dewater unit assembly, the spray header assembly, heat exchange filler assembly, recirculating water pump, water-level control apparatus, the water pipe assembly, outer water supply water valve, it is characterized in that: with cold medium one import (1a), the one-level low pressure heat exchange pipe assembly (1) of one outlet (1b), with with cold medium two imports (2a), press heat exchange pipe assembly (2) in the secondary of two outlets (2b), and with cold medium triple feed inlet (3a), three grades of high pressure heat exchange pipe assemblies (3) of three outlets (3b) are divided into one-level low pressure from left to right, press in the secondary, three grades of high pressure are installed in the middle part of an evaporative condenser housing (4) side by side.

2. three grades of condensation integral type evaporative condensers according to claim 1, it is characterized in that: with cold medium one import (1a), the one-level low pressure heat exchange pipe assembly (1) of one outlet (1b), with with cold medium two imports (2a), press heat exchange pipe assembly (2) in the secondary of two outlets (2b), and with cold medium triple feed inlet (3a), three grades of high pressure heat exchange pipe assemblies (3) of three outlets (3b) are from the upper strata to the middle level, lower floor is divided into three grades of high pressure, press in the secondary, the layering of one-level low pressure is installed in the middle part of evaporative condenser housing (4).

3. three grades of condensation integral type evaporative condensers according to claim 1, it is characterized in that: the top exhaust outlet (4a) at evaporative condenser housing (4) locates to install axial flow ventilating fan (5), axial flow ventilating fan (5) following fabrication and installation dewater unit assembly (6), dewater unit assembly (6) following fabrication and installation spray header assembly (7), spray header assembly (7) bottom presses heat exchange pipe assembly (2) and three grades of high pressure heat exchange pipe assemblies (3) in the one-level low pressure heat exchange pipe assembly (1) of installing arranged side by side and the secondary, following fabrication and installation heat exchange filler assembly (8) again, the foot of evaporative condenser housing (4) is made into water receiving case (4b), the top of water receiving case (4b), the bottom of heat exchange filler assembly (8), be processed with air intake grid (4c) around the evaporative condenser housing (4), recirculating water pump (9) and water-level control apparatus (10) are installed in the water receiving case (4b), and water pipe assembly (11) is water circulating pump (9) and outer water supply water valve (12) and spray header assembly (7) UNICOM.

4. three grades of condensation integral type evaporative condensers according to claim 1 is characterized in that: spray header assembly (7) bottom is pressure heat exchange pipe assembly (2) and one-level low pressure heat exchange pipe assembly (1) in three grades of high pressure heat exchange pipe assemblies (3) of installing of layering and the secondary.

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