CN212227780U - Combined liquid collecting pipe structure for condenser - Google Patents

Abstract

The utility model relates to a combination formula collector tube structure for condenser, affiliated condensing equipment technical field, including wastewater disposal basin and evaporimeter, evaporimeter and wastewater disposal basin between be equipped with the waste water inlet pipe, the waste water inlet pipe on be equipped with the wastewater pump with waste water inlet pipe looks pipeline intercommunication, the evaporimeter side be equipped with condensation recoverer, condensation recoverer upper end be equipped with the condenser with evaporimeter looks pipeline intercommunication, condenser upper end and evaporimeter upper end between be equipped with the induction-pipe, condenser upper portion be equipped with the circulation outlet pipe, the condenser lower part be equipped with the circulation inlet tube that is linked together with the circulation outlet pipe. Has the characteristics of high use efficiency, good environmental protection performance and long service life. Solves the problem of sewage reuse. The regeneration and reuse of water resources are improved, and the waste of energy and materials is reduced.

Description

Combined liquid collecting pipe structure for condenser

Technical Field

The utility model relates to a condensing equipment technical field, concretely relates to combination formula collecting tube structure for condenser.

Background

The condenser is a component of a refrigeration system, belonging to a type of heat exchanger, which can convert gas or vapor into liquid and transfer the heat in the tube to the air near the tube in a quick manner. The condenser operation is exothermic and therefore the condenser temperature is high. The refrigerating principle of a common refrigerator is that a compressor compresses a working medium from low-temperature low-pressure gas into high-temperature high-pressure gas, the high-temperature high-pressure gas is condensed into medium-temperature high-pressure liquid through a condenser, and the medium-temperature high-pressure liquid is throttled by a throttle valve and becomes low-temperature low-pressure liquid. The low-temperature low-pressure liquid working medium is sent into the evaporator, absorbs heat in the evaporator and evaporates to become low-temperature low-pressure steam, and the low-temperature low-pressure steam is sent into the compressor again, so that the refrigeration cycle is completed.

Power plants use a number of condensers to condense the steam exiting the turbines. Condensers are used in refrigeration plants to condense refrigeration vapors such as ammonia and freon. The petrochemical industry uses condensers to condense hydrocarbons and other chemical vapors. In the distillation process, the apparatus for converting the vapor to a liquid is also referred to as a condenser. All condensers operate by removing heat from the gas or vapor.

Disclosure of Invention

The utility model discloses mainly solve and have the availability factor among the prior art low, the feature of environmental protection is poor and life is short not enough, provide a combination formula collector tube structure for condenser, it has the characteristics that availability factor is high, environmental protection is good and long service life. Solves the problem of sewage reuse. The regeneration and reuse of water resources are improved, and the waste of energy and materials is reduced.

The above technical problem of the present invention can be solved by the following technical solutions:

the utility model provides a combination formula collector tube structure for condenser, includes wastewater disposal basin and evaporimeter, evaporimeter and wastewater disposal basin between be equipped with the waste water inlet pipe, the waste water inlet pipe on be equipped with the waste water pump of waste water inlet pipe looks pipeline intercommunication, the evaporimeter side be equipped with condensation recoverer, condensation recoverer upper end be equipped with the condenser of evaporimeter looks pipeline intercommunication, condenser upper end and evaporimeter upper end between be equipped with the air supply pipe, condenser upper portion be equipped with the circulation outlet pipe, the condenser lower part be equipped with the circulation inlet tube that is linked together with the circulation outlet pipe.

Preferably, a vacuum pump is arranged on the outer side of the condensation recoverer, an uncondensed air discharge pipe is arranged on the vacuum pump, a vacuum tank is arranged between the vacuum pump and the condenser, a transition exhaust pipe II communicated with the uncondensed air discharge pipe is arranged between the upper end of the vacuum tank and the vacuum pump, a transition exhaust pipe I is arranged at the upper end of the vacuum tank and the upper end of the condenser, and a return pipe communicated with a wastewater feed pipe is arranged at the lower end of the vacuum tank.

Preferably, a reflux pump is arranged on the reflux pipe. An ammonia water outlet pipe is arranged on the ammonia concentrated water pump, and an ammonia water collecting pipe communicated with the ammonia water outlet pipe is arranged between the ammonia concentrated water pump and the condensation recoverer. The side of the evaporator is provided with a sewage pump, the sewage pump is provided with a sewage discharge pipe, and a sewage discharge liquid collecting pipe communicated with the sewage discharge pipe is arranged between the sewage pump and the evaporator.

Preferably, electromagnetic ball valves are arranged between the wastewater pool and the wastewater pump, on the wastewater inlet pipe, on the ammonia water outlet pipe, on the ammonia water collecting pipe, on the blow-off collecting pipe and on the return pipe.

Preferably, the lower part of the evaporator is provided with a steam inlet pipe communicated with the evaporator.

The utility model discloses can reach following effect:

the utility model provides a combination formula collector tube structure for condenser compares with prior art, has the characteristics that the availability factor is high, the feature of environmental protection can be good and long service life. Solves the problem of sewage reuse. The regeneration and reuse of water resources are improved, and the waste of energy and materials is reduced.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: the system comprises a wastewater pool 1, an electromagnetic ball valve 2, a wastewater pump 3, a wastewater inlet pipe 4, a steam inlet pipe 5, an air feed pipe 6, a circulating water inlet pipe 7, a circulating water outlet pipe 8, a condenser 9, a transition exhaust pipe I10, a vacuum tank 11, a reflux pump 12, a transition exhaust pipe II 13, a vacuum pump 14, an uncondensed air discharge pipe 15, an ammonia water outlet pipe 16, an ammonia concentrated water pump 17, an ammonia water collecting pipe 18, a condensation recoverer 19, a blow-off pipe 20, a blow-off pump 21, a blow-off collecting pipe 22, a reflux pipe 23 and an evaporator 24.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

Example (b): as shown in figure 1, the combined liquid collecting pipe structure for the condenser comprises a wastewater pool 1 and an evaporator 24, wherein a steam inlet pipe 5 communicated with the evaporator 24 is arranged at the lower part of the evaporator 24. A waste water inlet pipe 4 is arranged between an evaporator 24 and a waste water tank 1, a waste water pump 3 communicated with the waste water inlet pipe 4 is arranged on the waste water inlet pipe 4, a condensation recoverer 19 is arranged on the side edge of the evaporator 24, a vacuum pump 14 is arranged on the outer side of the condensation recoverer 19, an uncondensed air discharge pipe 15 is arranged on the vacuum pump 14, a vacuum tank 11 is arranged between the vacuum pump 14 and a condenser 9, a transition exhaust pipe II 13 communicated with the uncondensed air discharge pipe 15 is arranged between the upper end of the vacuum tank 11 and the vacuum pump 14, a transition exhaust pipe I10 is arranged at the upper end of the vacuum tank 11 and the upper end of the condenser 9, and a return. The return pipe 23 is provided with a return pump 12. An ammonia concentrated water pump 17 is arranged at the side end of the condensation recoverer 19, an ammonia water outlet pipe 16 is arranged on the ammonia concentrated water pump 17, and an ammonia water collecting pipe 18 communicated with the ammonia water outlet pipe 16 is arranged between the ammonia concentrated water pump 17 and the condensation recoverer 19. A sewage discharge pump 21 is arranged on the side edge of the evaporator 24, a sewage discharge pipe 20 is arranged on the sewage discharge pump 21, and a sewage discharge liquid collecting pipe 22 communicated with the sewage discharge pipe 20 is arranged between the sewage discharge pump 21 and the evaporator 24. The upper end of the condensation recoverer 19 is provided with a condenser 9 communicated with a phase pipeline of the evaporator 24, an air feed pipe 6 is arranged between the upper end of the condenser 9 and the upper end of the evaporator 24, the upper part of the condenser 9 is provided with a circulating water outlet pipe 8, and the lower part of the condenser 9 is provided with a circulating water inlet pipe 7 communicated with the circulating water outlet pipe 8. Electromagnetic ball valves 2 are arranged between the wastewater pool 1 and the wastewater pump 3, on the wastewater inlet pipe 4, on the ammonia water outlet pipe 16, on the ammonia water collecting pipe 18, on the blow-off pipe 20, on the blow-off collecting pipe 22 and on the return pipe 23.

To sum up, this a combination formula collector tube structure for condenser has the characteristics that the availability factor is high, the feature of environmental protection can be good and long service life. Solves the problem of sewage reuse. The regeneration and reuse of water resources are improved, and the waste of energy and materials is reduced.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without deviating from the basic characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

In conclusion, the above description is only the specific embodiment of the present invention, but the structural features of the present invention are not limited thereto, and any person skilled in the art can make changes or modifications within the scope of the present invention.

Claims (5)

1. A combination formula collector structure for condenser which characterized in that: including wastewater disposal basin (1) and evaporimeter (24), evaporimeter (24) and wastewater disposal basin (1) between be equipped with waste water inlet pipe (4), waste water inlet pipe (4) on be equipped with waste water pump (3) of waste water inlet pipe (4) looks pipeline intercommunication, evaporimeter (24) side be equipped with condensation recoverer (19), condensation recoverer (19) upper end be equipped with condenser (9) with evaporimeter (24) looks pipeline intercommunication, condenser (9) upper end and evaporimeter (24) upper end between be equipped with air feed pipe (6), condenser (9) upper portion be equipped with circulation outlet pipe (8), condenser (9) lower part be equipped with circulation inlet tube (7) that are linked together with circulation outlet pipe (8).

2. The combined header structure for a condenser of claim 1, wherein: the condensation recoverer (19) outside be equipped with vacuum pump (14), vacuum pump (14) on be equipped with noncondensable air discharge pipe (15), vacuum pump (14) and condenser (9) between be equipped with vacuum tank (11), vacuum tank (11) upper end and vacuum pump (14) between be equipped with noncondensable air discharge pipe (15) the transition blast pipe II (13) that are linked together, vacuum tank (11) upper portion and condenser (9) upper end be equipped with transition blast pipe I (10), vacuum tank (11) lower extreme be equipped with back flow (23) that are linked together with waste water inlet pipe (4).

3. The combined header structure for a condenser of claim 2, wherein: a reflux pump (12) is arranged on the reflux pipe (23); an ammonia concentrated water pump (17) is arranged at the side end of the condensation recoverer (19), an ammonia water outlet pipe (16) is arranged on the ammonia concentrated water pump (17), and an ammonia water collecting pipe (18) communicated with the ammonia water outlet pipe (16) is arranged between the ammonia concentrated water pump (17) and the condensation recoverer (19); evaporator (24) side be equipped with dredge pump (21), dredge pump (21) on be equipped with blow off pipe (20), dredge pump (21) and evaporator (24) between be equipped with the blowdown collector tube (22) that are linked together with blow off pipe (20).

4. The combined header structure for a condenser of claim 3, wherein: electromagnetic ball valves (2) are arranged between the wastewater pool (1) and the wastewater pump (3), on the wastewater inlet pipe (4), on the ammonia water outlet pipe (16), on the ammonia water collecting pipe (18), on the sewage discharge pipe (20), on the sewage discharge collecting pipe (22) and on the return pipe (23).

5. The combined header structure for a condenser of claim 1, wherein: the lower part of the evaporator (24) is provided with a steam inlet pipe (5) communicated with the evaporator (24).

Images