CN104567120A - Zero water consumption stainless energy-saving combined condenser - Google Patents

Abstract

The invention discloses a zero water consumption stainless energy-saving combined condenser capable of cooling a refrigerant in a refrigerating system. The zero water consumption stainless energy-saving combined condenser comprises a floating barrel steam condensation respirator, an air running water compensating cooling fin serial pipe bank assembly, an ordinary pressure heat exchanger box, a spraying water header pipe, a valve, a radiating fin, a refrigerant running water compensating cooling box, refrigerant heat exchange serial lower pipe banks, an automatic control circulating water pump, a heat exchange water running water compensating cooling box, a hot water tank, and the like. The zero water consumption stainless energy-saving combined condenser has the beneficial effects that no water is consumed and no water scale is generated during the process of refrigerant cooling of the refrigerating system, hot water at about 45 DEG C is acquired, the condenser works at ordinary pressure and is safe, air is isolated, an oxygen corrosive effect is reduced, the service life of the condenser is prolonged for several times, and the condenser has the energy-saving, consumption-reducing and emission-reducing functions.

Description

Water consumption is not without dirty energy-saving condenser

Technical field

The present invention relates in a kind of refrigeration system cold-producing medium can be made to lower the temperature not water consumption without dirty energy-saving condenser.

Background technology

Existing shower water condenser and evaporative condenser etc. all consume a large amount of water, also there is serious water incrustation and many energy consumption issues simultaneously." the not water consumption air bag breathing condenser (utility model patent number: 201320119100.7 that the applicant applied for Patent Office of the People's Republic of China on March 16th, 2013; , there is the shortcomings such as heat-exchange capacity difference due to bag respirator, be not suitable for using in high-power refrigeration system in patent of invention number: 201310083402.8).

Summary of the invention

The object of the invention is, provide in a kind of being applicable to, the cold-producing medium temperature-fall period of large-scale power refrigeration system neither consumes anhydrous water dirt, the not water consumption of also energy-conserving and environment-protective is without dirty energy-saving condenser.

technical scheme of the present invention is:adopt " keg float moisture condensation respirator " (utility model patent number: 201320413316.4 that the applicant applied for Patent Office of the People's Republic of China on July 12nd, 2013, patent of invention number: all parts 201310291594.1), comprises keg float moisture condensation respirator, hollow cylinder expansion room, annulus base, telescopic installing ring, keg float, radiation air wing, keg float upper base, installing rack, outer ring, heat-resisting rubber-plastic sealing telescopic, binding assembly, king-bolt assembly, automatic control axial flow blower, blower fan suspension ring, steel tether, card, bolt assembly, pulley yoke assembly, fixed pulley assembly, grooving, weight, suspension ring, the running water also comprising air compensates cooling band wind wing series connection comb assembly, taper air intake cylinder, running water water inlet pipe and valve, running water outlet pipe and valve, running water water supply hose, running water outlet flexible pipe, running water outlet threeway and pipe, atmospheric exchanger casing, the upper comb of refrigerant heat exchanger series connection, upper shed, heat exchange water, upper water-out pipe and valve, water pipe and valve next time, filler and valve, gaseous refrigerant input house steward and valve, shower water arm, horizontal nut plug screw assembly, baffle upper plate, atmospheric exchanger lower shoe, shower water house steward and valve, fin, upper pipe and valve, lower pipe and valve, the running water of cold-producing medium compensates cooling casing, the lower comb of refrigerant heat exchanger series connection, deflector, liquid refrigerant delivery trunk and valve, lower running water water inlet pipe and valve, lower running water outlet pipe and valve, running water, self-controlled circulating water pump, pumping line threeway, threeway is managed, the left pipe of threeway, the running water of heat exchange water compensates cooling casing, right running water water inlet pipe and valve, right running water outlet pipe and valve, heat exchange water series connection arm, right deflector, heat exchange water delivery trunk and valve, heat exchange water input house steward and valve, reservoir, right water inlet pipe and valve, left water inlet pipe and valve, outlet pipe and valve, the not water consumption of overflow pipe composition is without dirty energy-saving condenser, the upper shed of atmospheric exchanger casing (3) (3-2) is processed into larger than the external diameter of annulus base (1-1-1) 2 millimeters ~ 4 millimeters, then keg float moisture condensation respirator (1) lifting assembled to upper shed (3-2) place, make the concentric isoplanar of annulus base (1-1-1) and upper shed (3-2) and seal welding together, upper for the refrigerant heat exchanger of more than three groups series connection comb (3-1) and corresponding baffle upper plate (3-10) are welded in atmospheric exchanger casing (3), and after making more than three tube heads of the topmost of the upper comb (3-1) of the refrigerant heat exchanger of more than three groups series connection reach the left side in atmospheric exchanger casing (3) corresponding hole to the left side, while connecting with atmospheric exchanger casing (3) corresponding hole seal weld, seal weld in parallel is contained on the house steward of gaseous refrigerant input house steward and valve (3-7), the tube head of more than three of the foot of upper for the refrigerant heat exchanger of more than three groups series connection comb (3-1), after following to the corresponding hole reaching atmospheric exchanger lower shoe (3-11) below, while connecting with atmospheric exchanger lower shoe (3-11) corresponding hole seal weld, also atmospheric exchanger lower shoe (3-11) and the corresponding section seal weld of atmospheric exchanger casing (3) surrounding, bottom are connected, water pipe and valve (3-5) seal weld is next time contained in the outside of the preformed hole bottom on atmospheric exchanger casing (3) right side, self-controlled circulating water pump (6) is arranged on the outside below on atmospheric exchanger casing (3) right side, the left side of self-controlled circulating water pump (6) is sealed and installed with pumping line threeway (6-1), and the left pipe of threeway (6-3) is connected with water pipe and valve (3-5) sealing next time, threeway is managed (6-2) to be connected with shower water house steward and valve (3-12) sealing, while shower water arm (3-8) seal weld in parallel of more than three is contained on shower water house steward and valve (3-12) house steward, protrude into the leftmost side in atmospheric exchanger casing (3) corresponding for the shower water arm (3-8) of more than three by the top preformed hole on the right side of atmospheric exchanger casing (3), and the shower water arm (3-8) of more than three and the preformed hole seal weld topmost of atmospheric exchanger casing (3) right side are connected, upper water-out pipe and valve (3-4) seal weld are contained in the right side of atmospheric exchanger casing (3), the outside from the preformed hole of the shower water arm (3-8) less than 300 millimeters of topmost.After upper water-out pipe and valve (3-4) are connected with upper pipe and valve (4-1) sealing, then be connected with fin (4) parallel connection more than a slice downwards; Upper pipe and valve (4-1) will have 3 ° from left to right with upgrade when installing.The seal weld of horizontal nut plug screw assembly (3-9) is contained in outside the preformed hole on the left of atmospheric exchanger casing (3), and the height of horizontal nut plug screw assembly (3-9) is consistent with the height of upper water-out pipe and valve (3-4); Filler and valve (3-6) seal weld are contained in the outside of the left side preformed hole topmost of atmospheric exchanger casing (3).Upper water-out pipe and valve (3-4) from topmost more than three groups shower water arms (3-8) 300 millimeters between the volume in space add the volume sum of hollow cylinder expansion room (1-1), in atmospheric exchanger casing (3), add in the fin (4) of more than a slice, in upper water-out pipe and valve (3-4), next time in water pipe and valve (3-5), in upper pipe and valve (4-1), in lower pipe and valve (4-2), in self-controlled circulating water pump (6), in pumping line threeway (6-1), in the left pipe of threeway (6-3), threeway is managed in (6-2), heat exchange water inputs in house steward and valve (7-6), in heat exchange water delivery trunk and valve (7-5), more than/9th of a volume summation of heat exchange water (3-3) is all filled it up with in more than three groups heat exchange waters series connection arm (7-3).The running water of air is compensated after cooling band wind wing series connection comb (2) is installed to the top of taper air intake cylinder (2-1) of upper big, lower small, then one piece of topmost being arranged on keg float moisture condensation respirator (1) with one heart; Compensate the left side of cooling band wind wing series connection comb (2) and right side at the running water of air, to be tightly connected upper running water outlet pipe and valve (2-3) and running water water inlet pipe and valve (2-2) respectively, running water water inlet pipe and valve (2-2) and running water water supply hose (2-4) are tightly connected; After running water outlet pipe and valve (2-3) and running water outlet flexible pipe (2-5) are tightly connected, then to below and running water outlet threeway and pipe (2-6) be tightly connected.The lower comb (5-1) of the refrigerant heat exchanger of more than three groups series connection be in the following refrigerant heat exchanger series connection of more than three groups of atmospheric exchanger lower shoe (3-11) and go up after the relative corresponding seal weld of tube head of three of comb (3-1) connects, on the left side bottom is stayed the running water of the cold-producing medium of more than three preformed holes compensation cooling casing (5) pack into the lower comb (5-1) of refrigerant heat exchanger series connection of more than three groups, and the running water that the tube head of more than three following for lower for the refrigerant heat exchanger of more than three groups series connection comb (5-1) left side reaches cold-producing medium by corresponding preformed hole is compensated outside the left side of cooling casing (5) simultaneously, and connect with corresponding preformed hole seal weld, again the top of the running water of cold-producing medium compensation cooling casing (5) and atmospheric exchanger lower shoe (3-11) surrounding, corresponding section seal weld are connected, the tube head seal weld in parallel in following more than three of the left side of lower for the refrigerant heat exchanger of more than three groups series connection comb (5-1) is contained on the house steward of liquid refrigerant delivery trunk and valve (5-3), after lower running water water inlet pipe and valve (5-4) seal weld being contained in the outside of running water compensation cooling casing (5) left lower preformed hole of cold-producing medium, lower running water water inlet pipe and valve (5-4) are connected with the right side seal of tube of running water outlet threeway and pipe (2-6), after the running water that lower running water outlet pipe and valve (5-5) seal weld are contained in cold-producing medium is compensated the outside of cooling casing (5) right upper portion preformed hole, the left water inlet pipe of lower running water outlet pipe and valve (5-5) and reservoir (8) and valve (8-2) seal and are connected.After fin (4) more than the top, left side of lower pipe and valve (4-2) and a slice is tightly connected, the right side of lower pipe and valve (4-2) below and heat exchange water input house steward and valve (7-6) seals and is connected.More than three groups heat exchange water series connection arm (7-3) be encased in heat exchange water running water compensate cooling casing (7) inner after, more than three upper, outside the top that the running water that lower tube head respectively reaches heat exchange water respectively by preformed hole compensates cooling casing (7) right side and after outside left lower, seal weld connects, the upper tube head parallel connection of more than three of heat exchange water series connection arm (7-3) and the house steward of heat exchange water input house steward and valve (7-6) of more than three groups are sealed connected together, after the lower tube head parallel connection of more than three of heat exchange water series winding arm (7-3) of more than three groups and the house steward of heat exchange water delivery trunk and valve (7-5) are sealed connected together, be sealed connected together with the right side water inlet end of self-controlled circulating water pump (6) again, right running water water inlet pipe and valve (7-1) and right running water outlet pipe and valve (7-2) running water that seal weld is contained in heat exchange water respectively compensates after on the right side of cooling casing (7) and top, left side preformed hole, and the right water inlet pipe of right running water outlet pipe and valve (7-2) and reservoir (8) and valve (8-1) seal and be connected, right running water water inlet pipe and valve (7-1) are connected with the lower tube sealing of running water outlet threeway and pipe (2-6).Outlet pipe and valve (8-3) are equipped with in the lower right side seal weld of reservoir (8), the left and right both sides, top of reservoir (8) are the upper left water inlet pipe of seal welding and valve (8-2) and right water inlet pipe and valve (8-1) respectively, and overflow pipe (8-4) is equipped with in the left upper portion seal weld of reservoir (8).

The invention has the beneficial effects as follows: in the process that the cold-producing medium of cold refrigeration system is lowered the temperature, not consuming water does not have incrustation scale to produce yet, incrustation scale is not had to produce in compensation temperature-fall period 45 DEG C time yet, also can obtain the warm water of about 45 DEG C, the work of condenser normal pressure is without danger, also isolate air and reduced the length of service that oxygen corrosiveness and several times extend condenser, the effect there is energy-conservation, consumption reduction, reducing discharging.

Accompanying drawing explanation

Fig. 1 is schematic front view of the present invention, and Fig. 2 is the installment work schematic diagram of the present invention and cold storage refrigerating system.

In figure, part sequence number is as follows: keg float moisture condensation respirator (1), hollow cylinder expansion room (1-1), annulus base (1-1-1), telescopic installing ring (1-1-2), keg float (1-2), radiation air wing (1-2-1), keg float upper base (1-2-2), installing rack (1-2-3), outer ring (1-2-4), heat-resisting rubber-plastic sealing telescopic (1-3), binding assembly (1-4), king-bolt assembly (1-5), automatic control axial flow blower (1-6), blower fan suspension ring (1-7), steel tether (1-8), card, bolt assembly (1-8-1), pulley yoke assembly (1-9), fixed pulley assembly (1-9-1), grooving (1-9-2), weight (1-10), suspension ring (1-10-1), the running water of air compensates cooling band wind wing series connection comb assembly (2), taper air intake cylinder (2-1), running water water inlet pipe and valve (2-2), running water outlet pipe and valve (2-3), running water water supply hose (2-4), running water outlet flexible pipe (2-5), running water outlet threeway and pipe (2-6), atmospheric exchanger casing (3), the upper comb (3-1) of refrigerant heat exchanger series connection, upper shed (3-2) heat exchange water (3-3), upper water-out pipe and valve (3-4), water pipe and valve (3-5) next time, filler and valve (3-6), gaseous refrigerant input house steward and valve (3-7), shower water arm (3-8), horizontal nut plug screw assembly (3-9), baffle upper plate (3-10), atmospheric exchanger lower shoe (3-11), shower water house steward and valve (3-12), fin (4), upper pipe and valve (4-1), lower pipe and valve (4-2), the running water of cold-producing medium compensates cooling casing (5), the lower comb (5-1) of refrigerant heat exchanger series connection, deflector (5-2), liquid refrigerant delivery trunk and valve (5-3), running water outlet pipe and valve (5-5) under lower running water water inlet pipe and valve (5-4), running water (5-6), self-controlled circulating water pump (6), pumping line threeway (6-1), (6-2) is managed in threeway, the left pipe of threeway (6-3), the running water of heat exchange water compensates cooling casing (7), right running water water inlet pipe and valve (7-1), right running water outlet pipe and valve (7-2), heat exchange water series connection arm (7-3), right deflector (7-4), heat exchange water delivery trunk and valve (7-5), heat exchange water input house steward and valve (7-6), reservoir (8), right water inlet pipe and valve (8-1), left water inlet pipe and valve (8-2), outlet pipe and valve (8-3), overflow pipe (8-4), gas-liquid separator (9), cold-producing medium device for storing liquid (10), freezer refrigerating evaporimeter (11), conveying pipe of refrigerant and valve (12), coolant compressor assembly (13), surge tank (14), gaseous refrigerant efferent duct and valve (15).

Specific embodiment

As shown in Figure 1 and Figure 2 in embodiment, after the plug screw of the of the present invention horizontal nut plug screw assembly (3-9) assembled is backed out, again the valve of filler and valve (3-6) and all related valves are all opened, in atmospheric exchanger casing (3), fin (4) etc., add heat exchange water (3-3), stop annotating and closing filler and valve (3-4) when horizontal nut plug screw assembly (3-9) flows out heat exchange water (3-3).Running water water supply hose (2-4) and water supply pipe are connected, and gaseous refrigerant input house steward and valve (3-7) and gaseous refrigerant efferent duct and valve (15) are tightly connected, after liquid refrigerant delivery trunk and valve (5-3) and gas-liquid separator (9) are tightly connected, again gas-liquid separator (9), cold-producing medium device for storing liquid (10), freezer refrigerating evaporimeter (11), coolant compressor assembly (13) and surge tank (14), vaporized refrigerant delivery trunk and valve (15), after being all tightly connected according to Fig. 2 with conveying pipe of refrigerant and valve (12), coolant compressor assembly (13), automatic control axial flow blower (1-6) and self-controlled circulating water pump (6) are all connected with the mains, start coolant compressor assembly (13), by the time when heat exchange water is warming up to about 50 DEG C, when automatic control axial flow blower (1-6) and self-controlled circulating water pump (6) automatic operation, the heat exchange water (3-3) pumped of self-controlled circulating water pump (6) is divided into two-way through pumping line threeway (6-1), one tunnel enters into atmospheric exchanger casing (3) through the left pipe of threeway (6-3) and cools from bottom to top the upper comb (3-1) of refrigerant heat exchanger series connection, and (6-2), shower water house steward and valve (3-12) are managed in another road in threeway and shower water arm (3-8), the top the hottest part of sprinkling heat exchange water (3-3) to the upper comb (3-1) of refrigerant heat exchanger series connection cool.In addition while the valve open of running water water inlet pipe and valve (2-2), the running water of air, cold-producing medium, heat exchange water is compensated all valve opens in cooling system, running water (5-6) uninterrupted, according to the unlatching size of the temperature control valve (TCV) door in each portion; Winter, temperature was low, can take the circumstances into consideration to turn or close running water water inlet pipe and valve (2-2) down according to temperature situation.

Claims (9)

1. water consumption, without a dirty energy-saving condenser, does not comprise keg float moisture condensation respirator, hollow cylinder expansion room, annulus base, telescopic installing ring, keg float, radiation air wing, keg float upper base, installing rack, outer ring, heat-resisting rubber-plastic sealing telescopic, binding assembly, king-bolt assembly, automatic control axial flow blower, blower fan suspension ring, steel tether, card, bolt assembly, pulley yoke assembly, fixed pulley assembly, grooving, weight, suspension ring, the running water of air compensates cooling band wind wing series connection comb assembly, taper air intake cylinder, running water water inlet pipe and valve, running water outlet pipe and valve, running water water supply hose, running water outlet flexible pipe, running water outlet threeway and pipe, atmospheric exchanger casing, the upper comb of refrigerant heat exchanger series connection, upper shed, heat exchange water, upper water-out pipe and valve, water pipe and valve next time, filler and valve, gaseous refrigerant input house steward and valve, shower water arm, horizontal nut plug screw assembly, baffle upper plate, atmospheric exchanger lower shoe, shower water house steward and valve, fin, upper pipe and valve, lower pipe and valve, the running water of cold-producing medium compensates cooling casing, the lower comb of refrigerant heat exchanger series connection, deflector, liquid refrigerant delivery trunk and valve, lower running water water inlet pipe and valve, lower running water outlet pipe and valve, running water, self-controlled circulating water pump, pumping line threeway, threeway is managed, the left pipe of threeway, the running water of heat exchange water compensates cooling casing, right running water water inlet pipe and valve, right running water outlet pipe and valve, heat exchange water series connection arm, right deflector, heat exchange water delivery trunk and valve, heat exchange water input house steward and valve, reservoir, right water inlet pipe and valve, left water inlet pipe and valve, outlet pipe and valve, overflow pipe, it is characterized in that: the upper shed of atmospheric exchanger casing (3) (3-2) is processed into larger than the external diameter of annulus base (1-1-1) 2 millimeters ~ 4 millimeters, then keg float moisture condensation respirator (1) lifting assembled to upper shed (3-2) place, make the concentric isoplanar of annulus base (1-1-1) and upper shed (3-2) and seal welding together, upper for the refrigerant heat exchanger of more than three groups series connection comb (3-1) and corresponding baffle upper plate (3-10) are welded in atmospheric exchanger casing (3), and after making more than three tube heads of the topmost of the upper comb (3-1) of the refrigerant heat exchanger of more than three groups series connection reach the left side in atmospheric exchanger casing (3) corresponding hole to the left side, while connecting with atmospheric exchanger casing (3) corresponding hole seal weld, seal weld in parallel is contained on the house steward of gaseous refrigerant input house steward and valve (3-7), the tube head of more than three of the foot of upper for the refrigerant heat exchanger of more than three groups series connection comb (3-1), after following to the corresponding hole reaching atmospheric exchanger lower shoe (3-11) below, while connecting with atmospheric exchanger lower shoe (3-11) corresponding hole seal weld, also atmospheric exchanger lower shoe (3-11) and the corresponding section seal weld of atmospheric exchanger casing (3) surrounding, bottom are connected, water pipe and valve (3-5) seal weld is next time contained in the outside of the preformed hole bottom on atmospheric exchanger casing (3) right side, self-controlled circulating water pump (6) is arranged on the outside below on atmospheric exchanger casing (3) right side, the left side of self-controlled circulating water pump (6) is sealed and installed with pumping line threeway (6-1), and the left pipe of threeway (6-3) is connected with water pipe and valve (3-5) sealing next time, threeway is managed (6-2) to be connected with shower water house steward and valve (3-12) sealing, while shower water arm (3-8) seal weld in parallel of more than three is contained on shower water house steward and valve (3-12) house steward, protrude into the leftmost side in atmospheric exchanger casing (3) corresponding for the shower water arm (3-8) of more than three by the top preformed hole on the right side of atmospheric exchanger casing (3), and the shower water arm (3-8) of more than three and the preformed hole seal weld topmost of atmospheric exchanger casing (3) right side are connected, upper water-out pipe and valve (3-4) seal weld are contained in the right side of atmospheric exchanger casing (3), the outside from the preformed hole of the shower water arm (3-8) less than 300 millimeters of topmost.

2. not water consumption according to claim 1 is without dirty energy-saving condenser, it is characterized in that: after upper water-out pipe and valve (3-4) are connected with upper pipe and valve (4-1) sealing, then be connected with fin (4) parallel connection more than a slice downwards; Upper pipe and valve (4-1) will have 3 ° from left to right with upgrade when installing.

3. not water consumption according to claim 1 is without dirty energy-saving condenser, it is characterized in that: the seal weld of horizontal nut plug screw assembly (3-9) is contained in outside the preformed hole on the left of atmospheric exchanger casing (3), and the height of horizontal nut plug screw assembly (3-9) is consistent with the height of upper water-out pipe and valve (3-4); Filler and valve (3-6) seal weld are contained in the outside of the left side preformed hole topmost of atmospheric exchanger casing (3).

4. not water consumption according to claim 1 is without dirty energy-saving condenser, it is characterized in that: upper water-out pipe and valve (3-4) from topmost more than three groups shower water arms (3-8) 300 millimeters between the volume in space add the volume sum of hollow cylinder expansion room (1-1), in atmospheric exchanger casing (3), add in the fin (4) of more than a slice, in upper water-out pipe and valve (3-4), next time in water pipe and valve (3-5), in upper pipe and valve (4-1), in lower pipe and valve (4-2), in self-controlled circulating water pump (6), in pumping line threeway (6-1), in the left pipe of threeway (6-3), threeway is managed in (6-2), heat exchange water inputs in house steward and valve (7-6), in heat exchange water delivery trunk and valve (7-5), more than/9th of a volume summation of heat exchange water (3-3) is all filled it up with in more than three groups heat exchange waters series connection arm (7-3).

5. not water consumption according to claim 1 is without dirty energy-saving condenser, it is characterized in that: the running water of air is compensated after cooling band wind wing series connection comb (2) is installed to the top of taper air intake cylinder (2-1) of upper big, lower small, then one piece of topmost being arranged on keg float moisture condensation respirator (1) with one heart; Compensate the left side of cooling band wind wing series connection comb (2) and right side at the running water of air, to be tightly connected upper running water outlet pipe and valve (2-3) and running water water inlet pipe and valve (2-2) respectively, running water water inlet pipe and valve (2-2) and running water water supply hose (2-4) are tightly connected; After running water outlet pipe and valve (2-3) and running water outlet flexible pipe (2-5) are tightly connected, then to below and running water outlet threeway and pipe (2-6) be tightly connected.

6. not water consumption according to claim 1 is without dirty energy-saving condenser, it is characterized in that: the lower comb (5-1) of the refrigerant heat exchanger of more than three groups series connection be in the following refrigerant heat exchanger series connection of more than three groups of atmospheric exchanger lower shoe (3-11) and go up after the relative corresponding seal weld of tube head of three of comb (3-1) connects, on the left side bottom is stayed the running water of the cold-producing medium of more than three preformed holes compensation cooling casing (5) pack into the lower comb (5-1) of refrigerant heat exchanger series connection of more than three groups, and the running water that the tube head of more than three following for lower for the refrigerant heat exchanger of more than three groups series connection comb (5-1) left side reaches cold-producing medium by corresponding preformed hole is compensated outside the left side of cooling casing (5) simultaneously, and connect with corresponding preformed hole seal weld, again the top of the running water of cold-producing medium compensation cooling casing (5) and atmospheric exchanger lower shoe (3-11) surrounding, corresponding section seal weld are connected, the tube head seal weld in parallel in following more than three of the left side of lower for the refrigerant heat exchanger of more than three groups series connection comb (5-1) is contained on the house steward of liquid refrigerant delivery trunk and valve (5-3), after lower running water water inlet pipe and valve (5-4) seal weld being contained in the outside of running water compensation cooling casing (5) left lower preformed hole of cold-producing medium, lower running water water inlet pipe and valve (5-4) are connected with the right side seal of tube of running water outlet threeway and pipe (2-6), after the running water that lower running water outlet pipe and valve (5-5) seal weld are contained in cold-producing medium is compensated the outside of cooling casing (5) right upper portion preformed hole, the left water inlet pipe of lower running water outlet pipe and valve (5-5) and reservoir (8) and valve (8-2) seal and are connected.

7. not water consumption according to claim 1 is without dirty energy-saving condenser, it is characterized in that: after fin (4) more than the top, left side of lower pipe and valve (4-2) and a slice is tightly connected, the right side of lower pipe and valve (4-2) below and heat exchange water input house steward and valve (7-6) seals and is connected.

8. not water consumption according to claim 1 is without dirty energy-saving condenser, it is characterized in that: the running water that the heat exchange water of more than three groups series connection arm (7-3) is encased in heat exchange water compensate cooling casing (7) inner after, more than three upper, outside the top that the running water that lower tube head respectively reaches heat exchange water respectively by preformed hole compensates cooling casing (7) right side and after outside left lower, seal weld connects, the upper tube head parallel connection of more than three of heat exchange water series connection arm (7-3) and the house steward of heat exchange water input house steward and valve (7-6) of more than three groups are sealed connected together, after the lower tube head parallel connection of more than three of heat exchange water series winding arm (7-3) of more than three groups and the house steward of heat exchange water delivery trunk and valve (7-5) are sealed connected together, be sealed connected together with the right side water inlet end of self-controlled circulating water pump (6) again, right running water water inlet pipe and valve (7-1) and right running water outlet pipe and valve (7-2) running water that seal weld is contained in heat exchange water respectively compensates after on the right side of cooling casing (7) and top, left side preformed hole, and the right water inlet pipe of right running water outlet pipe and valve (7-2) and reservoir (8) and valve (8-1) seal and be connected, right running water water inlet pipe and valve (7-1) are connected with the lower tube sealing of running water outlet threeway and pipe (2-6).

9. not water consumption according to claim 1 is without dirty energy-saving condenser, it is characterized in that: outlet pipe and valve (8-3) are equipped with in the lower right side seal weld of reservoir (8), the left and right both sides, top of reservoir (8) are the upper left water inlet pipe of seal welding and valve (8-2) and right water inlet pipe and valve (8-1) respectively, and overflow pipe (8-4) is equipped with in the left upper portion seal weld of reservoir (8).