CN203823955U - Composite cooling device running under multiple conditions - Google Patents

Abstract

The utility model relates to the technical field of energy saving, in particular to a composite cooling device running under multiple conditions. The cooling device comprises a casing, filler, a surface heat exchanger, a water receiving device water outlet pipe, a user heat exchange end water supply pipe, a user heat exchange end water outlet pipe, a circulation water pump and a spraying water pipe. The filler is arranged in the casing, a spraying device is arranged above the filler, a water receiving device is arranged below the filler, a summer air inlet and a winter air inlet capable of being opened in a switching mode are arranged in the casing, the summer air inlet is communicated with an air inlet of the filler, and a surface heat exchanger is arranged at the position of the winter air inlet. The cooling device is reasonable and compact in structure and convenient to use. The air flowing direction is switched by switching the summer air inlet and the winter air inlet, the surface heat exchanger is connected or disconnected through a switching valve, running load is reduced, the problem that the cooing device breaks down easily in winter is solved, the cooling device can be used all year round, and the cooling device has the advantages of being compact in structure, simple in operation and safe, saving labor and being simple and convenient and high in efficiency.

Description

The compound cooling apparatus moving under multi-state condition

Technical field

the utility model relates to field of energy-saving technology, is the compound cooling apparatus moving under a kind of multi-state condition.

Background technology

in conventional central air conditioner system, in the general air-water system using, there are air conditioning water system, air conditioning cooling water system; In this air-conditioning system, cooling tower becomes an indispensable part, general cooling tower only uses in the time that summer air-conditioning freezes, in the time that weather turns cold, owing to being subject to the restriction of self-condition, just do not re-use, need the annual place that all will use to be restricted at the industrial project having or at some like this.

Summary of the invention

the utility model provides the compound cooling apparatus moving under a kind of multi-state condition, has overcome the deficiency of above-mentioned prior art, and what it can effectively solve that existing cooling tower exists waste time and energy, efficiency of construction is lower, have the problem of potential safety hazard.

the technical solution of the utility model realizes by following measures: the compound cooling apparatus moving under a kind of multi-state condition, comprise housing, filler, surface-type heat exchanger, water container outlet pipe, user's heat-exchange end feed pipe, user's heat-exchange end outlet pipe, water circulating pump and spray header, in housing, be provided with filler, the top of filler is provided with spray equipment, the below of filler is provided with water container, on housing, be provided with can switch unlatching summer air inlet and winter air inlet, summer, air inlet was connected with the air inlet of filler, air inlet in winter place is provided with surface-type heat exchanger, the air outlet of filler and the air outlet of surface-type heat exchanger are connected with the air outlet of housing, the air outlet place of housing is provided with exhaust blower.

the further optimization and/or improvements to above-mentioned utility model technical scheme below:

the delivery port of above-mentioned water container outlet pipe is connected with the water inlet of user's heat-exchange end feed pipe, on water container outlet pipe, be provided with the first water valve, on user's heat-exchange end feed pipe or user's heat-exchange end outlet pipe, water circulating pump is installed, the delivery port of user's heat-exchange end outlet pipe is connected with the water inlet of spray header, the delivery port of spray header is connected with the water inlet of spray equipment, on spray header, be provided with the second water valve, the first water inlet of surface-type heat exchanger can and the delivery port of user's heat-exchange end outlet pipe between be communicated with the first feed pipe, on the first feed pipe, be provided with the 3rd water valve, between the water inlet of the second water inlet of surface-type heat exchanger and user's heat-exchange end feed pipe, be communicated with the second feed pipe.

the delivery port of above-mentioned water container outlet pipe is connected with the water inlet of user's heat-exchange end feed pipe, on water container outlet pipe, be provided with the first water valve, on user's heat-exchange end feed pipe or user's heat-exchange end outlet pipe, water circulating pump is installed, the first water inlet of surface-type heat exchanger is connected with the water inlet of spray header, the delivery port of spray header is connected with the water inlet of spray equipment, on spray header, be provided with the second water valve, the delivery port of user's heat-exchange end outlet pipe can be connected with the second water inlet of surface-type heat exchanger, between the water inlet of the first water inlet of surface-type heat exchanger and user's heat-exchange end feed pipe, be communicated with the second feed pipe, on the second feed pipe, be provided with the 3rd water valve.

the delivery port of above-mentioned water container outlet pipe is connected with the water inlet of user's heat-exchange end feed pipe, on water container outlet pipe, be provided with the first water valve, on user's heat-exchange end feed pipe or user's heat-exchange end outlet pipe, water circulating pump is installed, the delivery port of user's heat-exchange end outlet pipe can be connected with the first water inlet of surface-type heat exchanger, the second water inlet of surface-type heat exchanger is connected with the water inlet of spray header, the delivery port of spray header is connected with the water inlet of spray equipment, on spray header, be provided with the second water valve, between the water inlet of the second water inlet of surface-type heat exchanger and user's heat-exchange end feed pipe, be communicated with the second feed pipe, on the second feed pipe, be provided with the 3rd water valve.

above-mentioned summer, air inlet can be positioned at the bottom of housing, and winter, air inlet was positioned at the top of housing; Or/and, summer air inlet quantity for being no less than two, winter air inlet quantity for being no less than two; Or/and can there be air intake cavity in the outside of housing, summer, air inlet was positioned on the sidewall of air intake cavity, and winter, air inlet was positioned on the roof of air intake cavity.

the air inlet place of above-mentioned filler can be provided with air filter.

in above-mentioned water container or on pipeline, can be provided with water filtering device.

the delivery port of above-mentioned water container outlet pipe can be connected by low pool with the water inlet of user's heat-exchange end feed pipe, a port of the second feed pipe is connected with the second water inlet of surface-type heat exchanger, and another port of the second feed pipe is connected with low pool.

said exhaust machine can be adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, can be provided with constant pressure water compensation apparatus; Or/and, be positioned on high-order pipeline and can be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, can be communicated with user's heat-exchange end.

the utility model reasonable and compact in structure, easy to use, its by switch summer air inlet and winter air inlet switch the flow direction of wind, be switched on or switched off surface-type heat exchanger by switch valve, load while having reduced compound cooling apparatus operation, solve easily freezing problem in winter, compound cooling apparatus can be used in the whole year, there is compact conformation, simple to operate, safety labor-saving, easy, efficient feature.

Brief description of the drawings

accompanying drawing 1 is that the utility model embodiment 1 is in pipeline connection diagram.

accompanying drawing 2 is that the utility model embodiment 2 is in pipeline connection diagram.

accompanying drawing 3 is that the utility model embodiment 3 is in pipeline connection diagram.

accompanying drawing 4 is that the utility model embodiment 4 is in pipeline connection diagram.

accompanying drawing 5 is that the utility model embodiment 5 is in pipeline connection diagram.

accompanying drawing 6 is that the utility model embodiment 6 is in pipeline connection diagram.

accompanying drawing 7 is the pipeline connection diagram of the utility model embodiment 7.

accompanying drawing 8 is the pipeline connection diagram of the utility model embodiment 8.

accompanying drawing 9 is the pipeline connection diagram of the utility model embodiment 9.

accompanying drawing 10 is the pipeline connection diagram of the utility model embodiment 10.

accompanying drawing 11 is the pipeline connection diagram of the utility model embodiment 11.

accompanying drawing 12 is the pipeline connection diagram of the utility model embodiment 12.

accompanying drawing 13 is the pipeline connection diagram of the utility model embodiment 13.

accompanying drawing 14 is the pipeline connection diagram of the utility model embodiment 14.

accompanying drawing 15 is the pipeline connection diagram of the utility model embodiment 15.

accompanying drawing 16 is the pipeline connection diagram of the utility model embodiment 16.

accompanying drawing 17 is the pipeline connection diagram of the utility model embodiment 17.

accompanying drawing 18 is the pipeline connection diagram of the utility model embodiment 18.

accompanying drawing 19 is the pipeline connection diagram of the utility model embodiment 19.

accompanying drawing 20 is the pipeline connection diagram of the utility model embodiment 20.

accompanying drawing 21 is the pipeline connection diagram of the utility model embodiment 21.

accompanying drawing 22 is the pipeline connection diagram of the utility model embodiment 22.

accompanying drawing 23 is the pipeline connection diagram of the utility model embodiment 23.

accompanying drawing 24 is the pipeline connection diagram of the utility model embodiment 24.

accompanying drawing 25 is the pipeline connection diagram of the utility model embodiment 25.

accompanying drawing 26 is the pipeline connection diagram of the utility model embodiment 26.

accompanying drawing 27 is the pipeline connection diagram of the utility model embodiment 27.

accompanying drawing 28 is the pipeline connection diagram of the utility model embodiment 28.

accompanying drawing 29 is the pipeline connection diagram of the utility model embodiment 29.

accompanying drawing 30 is the pipeline connection diagram of the utility model embodiment 30.

accompanying drawing 31 is the pipeline connection diagram of the utility model embodiment 31.

accompanying drawing 32 is the pipeline connection diagram of the utility model embodiment 32.

accompanying drawing 33 is the pipeline connection diagram of the utility model embodiment 33.

accompanying drawing 34 is the pipeline connection diagram of the utility model embodiment 34.

accompanying drawing 35 is the pipeline connection diagram of the utility model embodiment 35.

accompanying drawing 36 is the pipeline connection diagram of the utility model embodiment 36.

accompanying drawing 37 is the pipeline connection diagram of the utility model embodiment 37.

accompanying drawing 38 is the pipeline connection diagram of the utility model embodiment 38.

accompanying drawing 39 is the pipeline connection diagram of the utility model embodiment 39.

accompanying drawing 40 is the pipeline connection diagram of the utility model embodiment 40.

coding in accompanying drawing is respectively: 1 is housing, 2 is filler, 3 is surface-type heat exchanger, 4 is water container outlet pipe, 5 is user's heat-exchange end feed pipe, 6 is user's heat-exchange end outlet pipe, 7 is water circulating pump, 8 is spray header, 9 is spray equipment, 10 is water container, 11 is air inlet in summer, 12 is air inlet in winter, 13 is exhaust blower, 14 is the first water inlet, 15 is the second water inlet, 16 is the first feed pipe, 17 is the second feed pipe, 18 is air filter, 19 is water filtering device, 20 is low pool, 21 is user's heat-exchange end, K1 is the first water valve, K2 is the second water valve, K3 is the 3rd water valve.

Detailed description of the invention

the utility model is not subject to the restriction of following embodiment, can determine concrete embodiment according to the technical solution of the utility model and actual conditions.

in the utility model, for convenience of description, the description of the relative position relation of each parts is to be all described according to the Butut mode of Figure of description 1, as: the position relationship of forward and backward, upper and lower, left and right etc. is to determine according to the Butut direction of Figure of description.

below in conjunction with embodiment and accompanying drawing, the utility model is further described:

as accompanying drawing 1, shown in 2, the compound cooling apparatus moving under this multi-state condition comprises housing 1, filler 2, surface-type heat exchanger 3, water container outlet pipe 4, user's heat-exchange end feed pipe 5, user's heat-exchange end outlet pipe 6, water circulating pump 7 and spray header 8, in housing 1, be provided with filler 2, the top of filler 2 is provided with spray equipment 9, the below of filler 2 is provided with water container 10, on housing 1, be provided with can switch unlatching summer air inlet 11 and winter air inlet 12, summer, air inlet 11 was connected with the air inlet of filler 2, air inlet in winter 12 places are provided with surface-type heat exchanger 3, the air outlet of the air outlet of filler 2 and surface-type heat exchanger 3 is connected with the air outlet of housing 1, the air outlet place of housing 1 is provided with exhaust blower 13.Open by switching summer air inlet 11 and winter air inlet 12, make the utility model structure compacter, problem when having solved compound cooling apparatus and using in the winter time, compound cooling apparatus has two kinds of operational modes, at summer or transition season, the operational mode of compound cooling apparatus is the same with the operational mode of conventional cooling tower, being used in the winter time the air of cooling circulating water does not pass through filler, directly contact heat exchange by air with heat exchanger, so just avoided increasing extra resistance in the time of compound cooling apparatus operation, thereby reduce the power consumption of compound cooling apparatus, realize the annual possibility using of compound cooling apparatus, while use, only need switch valve in the time of difference, simple to operate, by switching the flow direction of wind, reduce the power consumption of compound cooling apparatus in the time of whole year operation, solve problem freezing while use in the winter time.

can according to actual needs, the compound cooling apparatus moving under above-mentioned multi-state condition be made further optimization and/or improvements:

as required, summer, air inlet 11 was positioned at the bottom of housing 1, and winter, air inlet 12 was positioned at the top of housing 1; Or/and, summer air inlet 11 quantity for being no less than two, winter, air inlet 12 quantity was for being no less than two; Or/and there is air intake cavity in the outside of housing 1, summer, air inlet 11 was positioned on the sidewall of air intake cavity, and winter, air inlet 12 was positioned on the roof of air intake cavity.

embodiment 1: as shown in Figure 1, the delivery port of water container outlet pipe 4 is connected with the water inlet of user's heat-exchange end feed pipe 5, on water container outlet pipe 4, be provided with the first water valve K1, on user's heat-exchange end feed pipe 5 or user's heat-exchange end outlet pipe 6, water circulating pump 7 is installed, the delivery port of user's heat-exchange end outlet pipe 6 is connected with the water inlet of spray header 8, the delivery port of spray header 8 is connected with the water inlet of spray equipment 9, on spray header 8, be provided with the second water valve K2, between the first water inlet 14 of surface-type heat exchanger 3 and the delivery port of user's heat-exchange end outlet pipe 6, be communicated with the first feed pipe 16, on the first feed pipe 16, be provided with the 3rd water valve K3, between the second water inlet 15 of surface-type heat exchanger 3 and the water inlet of user's heat-exchange end feed pipe 5, be communicated with the second feed pipe 17.Summer, air inlet 11 was positioned at the bottom of housing 1, and winter, air inlet 12 was positioned at the top of housing 1.Before using, first user's heat-exchange end 21 is communicated with user's heat-exchange end feed pipe 5 and user's heat-exchange end outlet pipe 6.The utility model can reliability service under full working condition, has well solved switching problem that the summer in winter uses and the antifreeze problem in winter by opening or close different valves, has realized the utility model and has normally moved in the whole year.

embodiment 2: as shown in Figure 2, the delivery port of water container outlet pipe 4 is connected with the water inlet of user's heat-exchange end feed pipe 5, on water container outlet pipe 4, be provided with the first water valve K1, on user's heat-exchange end feed pipe 5 or user's heat-exchange end outlet pipe 6, water circulating pump 7 is installed, the first water inlet 14 of surface-type heat exchanger 3 is connected with the water inlet of spray header 8, the delivery port of spray header 8 is connected with the water inlet of spray equipment 9, on spray header 8, be provided with the second water valve K2, the delivery port of user's heat-exchange end outlet pipe 6 is connected with the second water inlet 15 of surface-type heat exchanger 3, between the first water inlet 14 of surface-type heat exchanger 3 and the water inlet of user's heat-exchange end feed pipe 5, be communicated with the second feed pipe 17, on the second feed pipe 17, be provided with the 3rd water valve K3.Summer, air inlet 11 was positioned at the bottom of housing 1, and winter, air inlet 12 was positioned at the top of housing 1.Before using, first user's heat-exchange end 21 is communicated with user's heat-exchange end feed pipe 5 and user's heat-exchange end outlet pipe 6.The utility model can reliability service under full working condition, has well solved switching problem that the summer in winter uses and the antifreeze problem in winter by opening or close different valves, has realized the utility model and has normally moved in the whole year.

embodiment 3: as shown in Figure 3, the delivery port of water container outlet pipe 4 is connected with the water inlet of user's heat-exchange end feed pipe 5, on water container outlet pipe 4, be provided with the first water valve K1, on user's heat-exchange end feed pipe 5 or user's heat-exchange end outlet pipe 6, water circulating pump 7 is installed, the delivery port of user's heat-exchange end outlet pipe 6 is connected with the first water inlet 14 of surface-type heat exchanger 3, the second water inlet 15 of surface-type heat exchanger 3 is connected with the water inlet of spray header 8, the delivery port of spray header 8 is connected with the water inlet of spray equipment 9, on spray header 8, be provided with the second water valve K2, between the second water inlet 15 of surface-type heat exchanger 3 and the water inlet of user's heat-exchange end feed pipe 5, be communicated with the second feed pipe 17, on the second feed pipe 17, be provided with the 3rd water valve K3.Summer, air inlet 11 was positioned at the bottom of housing 1, and winter, air inlet 12 was positioned at the top of housing 1.The utility model can reliability service under full working condition, has well solved switching problem that the summer in winter uses and the antifreeze problem in winter by opening or close different valves, has realized the utility model and has normally moved in the whole year.

the air inlet 11 in summer of embodiment 4: as shown in Figure 4, embodiment 4 is with the difference of embodiment 1: embodiment 4 is positioned at two side lower parts of housing 1, and winter, air inlet 12 was positioned at two upper lateral parts of housing 1.

embodiment 5: as shown in Figure 5, embodiment 5 is with the difference of embodiment 4: there is air intake cavity in the outside of the housing 1 of embodiment 5, summer, air inlet 11 was positioned on the sidewall of air intake cavity, and winter, air inlet 12 was positioned on the roof of air intake cavity.

embodiment 6: as shown in Figure 6, the difference of embodiment 6 and embodiment 5 is: between the second water inlet 15 of the surface-type heat exchanger 3 of embodiment 6 and the delivery port of user's heat-exchange end outlet pipe 6, be communicated with the first feed pipe 16, on the first feed pipe 16, be provided with the 3rd water valve K3, between the first water inlet 14 of surface-type heat exchanger 3 and the water inlet of user's heat-exchange end feed pipe 5, be communicated with the second feed pipe 17.

embodiment 7: as shown in Figure 7, embodiment 7 is with the difference of embodiment 4: the filler 2 of embodiment 7 has two of left and right, and is positioned at air inlet in summer 11 positions of the left and right sides.

embodiment 8: as shown in Figure 8, the difference of embodiment 8 and embodiment 7 is: between the second water inlet 15 of the surface-type heat exchanger 3 of embodiment 8 and the delivery port of user's heat-exchange end outlet pipe 6, be communicated with the first feed pipe 16, on the first feed pipe 16, be provided with the 3rd water valve K3, between the first water inlet 14 of surface-type heat exchanger 3 and the water inlet of user's heat-exchange end feed pipe 5, be communicated with the second feed pipe 17.

embodiment 9: as shown in Figure 9, embodiment 9 is with the difference of embodiment 1: the air inlet place of the filler 2 of embodiment 9 is provided with air filter 18.Air filter 18 can be the device of existing public various filtered airs.

embodiment 10: as shown in Figure 10, embodiment 10 is with the difference of embodiment 1: be provided with water filtering device 19 on the water container outlet pipe 4 of embodiment 10.In addition, water filtering device 19 can also be arranged in water container 10 or on other pipelines, water filtering device 19 can be the device of existing public various filtered water.

embodiment 11: as shown in Figure 11, embodiment 11 is with the difference of embodiment 1: the delivery port of the water container outlet pipe 4 of embodiment 11 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the second water inlet 15 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.In the time that multiple the utility model are in parallel, can share a low pool 20, the second feed pipe 17 of the delivery port of the water container outlet pipe 4 of each unit, the water inlet of user's heat-exchange end feed pipe 5 and each unit is connected with low pool 20 and can balance supplies water simultaneously, can play antifreeze effect simultaneously.

embodiment 12: as shown in Figure 12, embodiment 12 is with the difference of embodiment 1: the air inlet place of the filler 2 of embodiment 12 is provided with air filter 18, on user's heat-exchange end feed pipe 5, be provided with water filtering device 19, the delivery port of water container outlet pipe 4 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the second water inlet 15 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.In the time that multiple the utility model are in parallel, can share a low pool 20, the second feed pipe 17 of the delivery port of the water container outlet pipe 4 of each unit, the water inlet of user's heat-exchange end feed pipe 5 and each unit is connected with low pool 20 and can balance supplies water simultaneously, can play antifreeze effect simultaneously; Air filter 18 can be the device of existing public various filtered airs; Water filtering device 19 can also be arranged in water container 10 or on other pipelines, water filtering device 19 can be the device of existing public various filtered water.

embodiment 13: as shown in Figure 13, embodiment 13 is with the difference of embodiment 2: the air inlet place of the filler 2 of embodiment 13 is provided with air filter 18.Air filter 18 can be the device of existing public various filtered airs.

embodiment 14: as shown in Figure 14, embodiment 14 is with the difference of embodiment 2: be provided with water filtering device 19 on the water container outlet pipe 4 of embodiment 14.In addition, water filtering device 19 can also be arranged in water container 10 or on other pipelines, water filtering device can be the device of existing public various filtered water.

embodiment 15: as shown in Figure 15, embodiment 15 is with the difference of embodiment 2: the delivery port of the water container outlet pipe 4 of embodiment 15 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the first water inlet 14 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.In the time that multiple the utility model are in parallel, can share a low pool 20, the second feed pipe 17 of the delivery port of the water container outlet pipe 4 of each unit, the water inlet of user's heat-exchange end feed pipe 5 and each unit is connected with low pool 20 and can balance supplies water simultaneously, can play antifreeze effect simultaneously.

embodiment 16: as shown in Figure 16, embodiment 16 is with the difference of embodiment 2: the air inlet place of the filler 2 of embodiment 16 is provided with air filter 18, on user's heat-exchange end feed pipe 5, be provided with water filtering device 19, the delivery port of water container outlet pipe 4 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the first water inlet 14 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.In the time that multiple the utility model are in parallel, can share a low pool 20, the second feed pipe 17 of the delivery port of the water container outlet pipe 4 of each unit, the water inlet of user's heat-exchange end feed pipe 5 and each unit is connected with low pool 20 and can balance supplies water simultaneously, can play antifreeze effect simultaneously; Air filter 18 can be the device of existing public various filtered airs; Water filtering device 19 can also be arranged in water container 10 or on other pipelines, water filtering device 19 can be the device of existing public various filtered water.

embodiment 17: as shown in Figure 17, embodiment 17 is with the difference of embodiment 3: the air inlet place of the filler 2 of embodiment 17 is provided with air filter 18.Air filter 18 can be the device of existing public various filtered airs.

embodiment 18: as shown in Figure 18, embodiment 18 is with the difference of embodiment 3: be provided with water filtering device 19 on the water container outlet pipe 4 of embodiment 18.In addition, water filtering device 19 can also be arranged in water container 10 or on other pipelines, water filtering device can be the device of existing public various filtered water.

embodiment 19: as shown in Figure 19, embodiment 19 is with the difference of embodiment 3: the delivery port of the water container outlet pipe 4 of embodiment 19 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the second water inlet 15 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.In the time that multiple the utility model are in parallel, can share a low pool 20, the second feed pipe 17 of the delivery port of the water container outlet pipe 4 of each unit, the water inlet of user's heat-exchange end feed pipe 5 and each unit is connected with low pool 20 and can balance supplies water simultaneously, can play antifreeze effect simultaneously.

embodiment 20: as shown in Figure 20, embodiment 20 is with the difference of embodiment 3: the air inlet place of the filler 2 of embodiment 20 is provided with air filter 18, on user's heat-exchange end feed pipe 5, be provided with water filtering device 19, the delivery port of water container outlet pipe 4 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the second water inlet 15 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.In the time that multiple the utility model are in parallel, can share a low pool 20, the second feed pipe 17 of the delivery port of the water container outlet pipe 4 of each unit, the water inlet of user's heat-exchange end feed pipe 5 and each unit is connected with low pool 20 and can balance supplies water simultaneously, can play antifreeze effect simultaneously; Air filter 18 can be the device of existing public various filtered airs; Water filtering device 19 can also be arranged in water container 10 or on other pipelines, water filtering device 19 can be the device of existing public various filtered water.

embodiment 21: as shown in Figure 21, embodiment 21 is with the difference of embodiment 4: the air inlet place of the filler 2 of embodiment 21 is provided with air filter 18.Air filter 18 can be the device of existing public various filtered airs.

embodiment 22: as shown in Figure 21, embodiment 22 is with the difference of embodiment 4: be provided with water filtering device 19 on the water container outlet pipe 4 of embodiment 22.In addition, water filtering device 19 can also be arranged in water container 10 or on other pipelines, water filtering device 19 can be the device of existing public various filtered water.

embodiment 23: as shown in Figure 23, embodiment 23 is with the difference of embodiment 4: the delivery port of the water container outlet pipe 4 of embodiment 23 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the second water inlet 15 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.In the time that multiple the utility model are in parallel, can share a low pool 20, the second feed pipe 17 of the delivery port of the water container outlet pipe 4 of each unit, the water inlet of user's heat-exchange end feed pipe 5 and each unit is connected with low pool 20 and can balance supplies water simultaneously, can play antifreeze effect simultaneously.

embodiment 24: as shown in Figure 24, embodiment 24 is with the difference of embodiment 4: the air inlet place of the filler 2 of embodiment 24 is provided with air filter 18, on water container outlet pipe 4, be provided with water filtering device 19, the delivery port of water container outlet pipe 4 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the second water inlet 15 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.

embodiment 25: as shown in Figure 25, embodiment 25 is with the difference of embodiment 5: the air inlet place of the filler 2 of embodiment 25 is provided with air filter 18.Air filter 18 can be the device of existing public various filtered airs.

embodiment 26: as shown in Figure 26, embodiment 26 is with the difference of embodiment 5: be provided with water filtering device 19 on the water container outlet pipe 4 of embodiment 26.In addition, water filtering device 19 can also be arranged in water container 10 or on other pipelines, water filtering device 19 can be the device of existing public various filtered water.

embodiment 27: as shown in Figure 27, embodiment 27 is with the difference of embodiment 5: the delivery port of the water container outlet pipe 4 of embodiment 27 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the second water inlet 15 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.In the time that multiple the utility model are in parallel, can share a low pool 20, the second feed pipe 17 of the delivery port of the water container outlet pipe 4 of each unit, the water inlet of user's heat-exchange end feed pipe 5 and each unit is connected with low pool 20 and can balance supplies water simultaneously, can play antifreeze effect simultaneously.

embodiment 28: as shown in Figure 28, embodiment 28 is with the difference of embodiment 5: the air inlet place of the filler 2 of embodiment 28 is provided with air filter 18, on water container outlet pipe 4, be provided with water filtering device 19, the delivery port of water container outlet pipe 4 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the second water inlet 15 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.

embodiment 29: as shown in Figure 29, embodiment 29 is with the difference of embodiment 6: the air inlet place of the filler 2 of embodiment 29 is provided with air filter 18.Air filter 18 can be the device of existing public various filtered airs.

embodiment 30: as shown in Figure 30, embodiment 30 is with the difference of embodiment 6: be provided with water filtering device 19 on the water container outlet pipe 4 of embodiment 30.In addition, water filtering device 19 can also be arranged in water container 10 or on other pipelines, water filtering device 19 can be the device of existing public various filtered water.

embodiment 31: as shown in Figure 31, embodiment 31 is with the difference of embodiment 6: the delivery port of the water container outlet pipe 4 of embodiment 31 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the first water inlet 14 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.In the time that multiple the utility model are in parallel, can share a low pool 20, the second feed pipe 17 of the delivery port of the water container outlet pipe 4 of each unit, the water inlet of user's heat-exchange end feed pipe 5 and each unit is connected with low pool 20 and can balance supplies water simultaneously, can play antifreeze effect simultaneously.

embodiment 32: as shown in Figure 32, embodiment 32 is with the difference of embodiment 6: the air inlet place of the filler 2 of embodiment 32 is provided with air filter 18, on water container outlet pipe 4, be provided with water filtering device 19, the delivery port of water container outlet pipe 4 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the first water inlet 14 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.

embodiment 33: as shown in Figure 33, embodiment 33 is with the difference of embodiment 7: the air inlet place of the filler 2 of embodiment 33 is provided with air filter 18.Air filter 18 can be the device of existing public various filtered airs.

embodiment 34: as shown in Figure 34, embodiment 34 is with the difference of embodiment 7: be provided with water filtering device 19 on the water container outlet pipe 4 of embodiment 34.In addition, water filtering device 19 can also be arranged in water container 10 or on other pipelines, water filtering device 19 can be the device of existing public various filtered water.

embodiment 35: as shown in Figure 35, embodiment 35 is with the difference of embodiment 7: the delivery port of the water container outlet pipe 4 of embodiment 35 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the second water inlet 15 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.In the time that multiple the utility model are in parallel, can share a low pool 20, the second feed pipe 17 of the delivery port of the water container outlet pipe 4 of each unit, the water inlet of user's heat-exchange end feed pipe 5 and each unit is connected with low pool 20 and can balance supplies water simultaneously, can play antifreeze effect simultaneously.

embodiment 36: as shown in Figure 36, embodiment 36 is with the difference of embodiment 7: the air inlet place of the filler 2 of embodiment 36 is provided with air filter 18, on water container outlet pipe 4, be provided with water filtering device 19, the delivery port of water container outlet pipe 4 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the second water inlet 15 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.

embodiment 37: as shown in Figure 37, embodiment 37 is with the difference of embodiment 8: the air inlet place of the filler 2 of embodiment 37 is provided with air filter 18.Air filter 18 can be the device of existing public various filtered airs.

embodiment 38: as shown in Figure 38, embodiment 38 is with the difference of embodiment 8: be provided with water filtering device 19 on the water container outlet pipe 4 of embodiment 38.In addition, water filtering device 19 can also be arranged in water container 10 or on other pipelines, water filtering device 19 can be the device of existing public various filtered water.

embodiment 39: as shown in Figure 39, embodiment 39 is with the difference of embodiment 7: the delivery port of the water container outlet pipe 4 of embodiment 39 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the first water inlet 14 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.In the time that multiple the utility model are in parallel, can share a low pool 20, the second feed pipe 17 of the delivery port of the water container outlet pipe 4 of each unit, the water inlet of user's heat-exchange end feed pipe 5 and each unit is connected with low pool 20 and can balance supplies water simultaneously, can play antifreeze effect simultaneously.

embodiment 36: as shown in Figure 36, embodiment 36 is with the difference of embodiment 7: the air inlet place of the filler 2 of embodiment 36 is provided with air filter 18, on water container outlet pipe 4, be provided with water filtering device 19, the delivery port of water container outlet pipe 4 is connected by low pool 20 with the water inlet of user's heat-exchange end feed pipe 5, a port of the second feed pipe 17 is connected with the first water inlet 14 of surface-type heat exchanger 3, and another port of the second feed pipe 17 is connected with low pool 20.

as required, exhaust blower 13 is adjustable rotating speed exhaust blower.

as required, on the water inlet of water circulating pump 7, be provided with constant pressure water compensation apparatus.Constant pressure water compensation apparatus is device public in field of air conditioning, and when in the winter time with the operation of conditioning in Transition Season, constant pressure water compensation apparatus can ensure the pressure of recirculated water in pipeline, thus protection water circulating pump 7.

as required, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve.

as shown in accompanying drawing 1 to 35, as required, between user's heat-exchange end feed pipe 5 and user's heat-exchange end outlet pipe 6, be communicated with user's heat-exchange end 21.

problem when the utility model has well solved compound cooling apparatus and uses in the winter time by increasing some equipment, compound cooling apparatus has two kinds of operational modes, at summer or transition season, the operational mode of compound cooling apparatus is the same with the operational mode of conventional cooling tower, in the winter time or transition season, being used for the air of cooling circulating water does not pass through filler, directly contact heat exchange by air with heat exchanger, so just avoid increasing extra resistance in the time of compound cooling apparatus operation, thereby reduced the power consumption of compound cooling apparatus.

above technical characterictic has formed embodiment of the present utility model, and it has stronger adaptability and implementation result, can increase and decrease according to actual needs non-essential technical characterictic, meets the demand of different situations.

the use procedure of the utility model embodiment 1: as shown in Figure 1, before using, first user's heat-exchange end 21 is communicated with user's heat-exchange end feed pipe 5 and user's heat-exchange end outlet pipe 6, in the time of summer and conditioning in Transition Season, open summer air inlet 11 and close air inlet 12 in winter simultaneously, open the first water valve K1 and the second water valve K2, close the 3rd water valve K3 simultaneously, outdoor air by summer air inlet 11 enter in the filler 2 of housing 1, water under spray equipment 9 sprays contacts with the air water in filler 2 caloic exchange occurs, air through filler 2 is discharged outside housing 1 by exhaust blower 13, the cold water making enters water container 10, then give user's heat-exchange end 21 by water container outlet pipe 4 and user's heat-exchange end feed pipe 5 by water circulating pump 7, backwater after intensification flows out by user's heat-exchange end outlet pipe 6, again flow into spray equipment 9 through the second water valve K2 and spray header 8, form water circulation, during in the winter time with conditioning in Transition Season, open winter air inlet 12 and close air inlet 11 in summer simultaneously, close the first water valve K1 and the second water valve K2, open the 3rd water valve K3 simultaneously, outdoor air by winter air inlet 12 and surface-type heat exchanger 3 make water in surface-type heat exchanger 3 refrigeration, cold water in surface-type heat exchanger 3 is flowed out by the second water inlet 15, successively through the second feed pipe 17, user's heat-exchange end feed pipe 5, water circulating pump 7 is given user's heat-exchange end 21, backwater after the intensification of being flowed out by user's heat-exchange end 21 is by user's heat-exchange end outlet pipe 6, the first feed pipe 16, the 3rd water valve K3, the first water inlet 14 again flows into surface-type heat exchanger 3 and forms water circulation.

the use procedure of the utility model embodiment 2: as shown in Figure 2, before using, first user's heat-exchange end 21 is communicated with user's heat-exchange end feed pipe 5 and user's heat-exchange end outlet pipe 6, in the time of summer and conditioning in Transition Season, open summer air inlet 11 and close air inlet 12 in winter simultaneously, open the first water valve K1 and the second water valve K2, close the 3rd water valve K3 simultaneously, outdoor air by summer air inlet 11 enter in the filler 2 of housing 1, water under spray equipment 9 sprays contacts with the air water in filler 2 caloic exchange occurs, air through filler 2 is discharged outside housing 1 by exhaust blower 13, the cold water making enters water container 10, then give user's heat-exchange end 21 by water container outlet pipe 4 and user's heat-exchange end feed pipe 5 by water circulating pump 7, backwater after intensification flows out by user's heat-exchange end outlet pipe 6, successively through the second water inlet 15, surface-type heat exchanger 3, the first water inlet 14, the second water valve K2 and spray header 8 flow into spray equipment 9 again, form water circulation, during in the winter time with conditioning in Transition Season, open winter air inlet 12 and close air inlet 11 in summer simultaneously, close the first water valve K1 and the second water valve K2, open the 3rd water valve K3 simultaneously, outdoor air by winter air inlet 12 and surface-type heat exchanger 3 make water in surface-type heat exchanger 3 refrigeration, cold water in surface-type heat exchanger 3 is flowed out by the first water inlet 14, successively through the 3rd water valve K3, the second feed pipe 17 flows into user's heat-exchange end feed pipe 5, give user's heat-exchange end 21 by water circulating pump 7, backwater after the intensification that user's heat-exchange end outlet pipe 6 flows out again flows into surface-type heat exchanger 3 by the second water inlet 15 and forms water circulation.

the use procedure of the utility model embodiment 3: as shown in Figure 1, before using, first user's heat-exchange end 21 is communicated with user's heat-exchange end feed pipe 5 and user's heat-exchange end outlet pipe 6, in the time of summer and conditioning in Transition Season, open summer air inlet 11 and close air inlet 12 in winter simultaneously, open the first water valve K1 and the second water valve K2, close the 3rd water valve K3 simultaneously, outdoor air by summer air inlet 11 enter in the filler 2 of housing 1, water under spray equipment 9 sprays contacts with the air water in filler 2 caloic exchange occurs, air through filler 2 is discharged outside housing 1 by exhaust blower 13, the cold water making enters water container 10, then give user's heat-exchange end 21 by water container outlet pipe 4 and user's heat-exchange end feed pipe 5 by water circulating pump 7, backwater after intensification flows out by user's heat-exchange end outlet pipe 6, successively through the first water inlet 14, surface-type heat exchanger 3, the second water inlet 15, the second water valve K2 and spray header 8 flow into spray equipment 9 again, form water circulation, during in the winter time with conditioning in Transition Season, open winter air inlet 12 and close air inlet 11 in summer simultaneously, close the first water valve K1 and the second water valve K2, open the 3rd water valve K3 simultaneously, outdoor air by winter air inlet 12 and surface-type heat exchanger 3 make water in surface-type heat exchanger 3 refrigeration, cold water in surface-type heat exchanger 3 is flowed out by the second water inlet 15, successively through the 3rd water valve K3, the second feed pipe 17, user's heat-exchange end feed pipe 5, water circulating pump 7 is given user's heat-exchange end 21, backwater after the intensification of being flowed out by user's heat-exchange end 21 is again by user's heat-exchange end outlet pipe 6, again flow into surface-type heat exchanger 3 by the first water inlet 14 and form water circulation.

embodiment 4 to 35 is similar with the use procedure of above-described embodiment.

Claims (31)

1. the compound cooling apparatus moving under a multi-state condition, it is characterized in that comprising housing, filler, surface-type heat exchanger, water container outlet pipe, user's heat-exchange end feed pipe, user's heat-exchange end outlet pipe, water circulating pump and spray header, in housing, be provided with filler, the top of filler is provided with spray equipment, the below of filler is provided with water container, on housing, be provided with can switch unlatching summer air inlet and winter air inlet, summer, air inlet was connected with the air inlet of filler, air inlet in winter place is provided with surface-type heat exchanger, the air outlet of filler and the air outlet of surface-type heat exchanger are connected with the air outlet of housing, the air outlet place of housing is provided with exhaust blower.

2. the compound cooling apparatus moving under multi-state condition according to claim 1, the delivery port that it is characterized in that water container outlet pipe is connected with the water inlet of user's heat-exchange end feed pipe, on water container outlet pipe, be provided with the first water valve, on user's heat-exchange end feed pipe or user's heat-exchange end outlet pipe, water circulating pump is installed, the delivery port of user's heat-exchange end outlet pipe is connected with the water inlet of spray header, the delivery port of spray header is connected with the water inlet of spray equipment, on spray header, be provided with the second water valve, between the delivery port of the first water inlet of surface-type heat exchanger and user's heat-exchange end outlet pipe, be communicated with the first feed pipe, on the first feed pipe, be provided with the 3rd water valve, between the water inlet of the second water inlet of surface-type heat exchanger and user's heat-exchange end feed pipe, be communicated with the second feed pipe.

3. the compound cooling apparatus moving under multi-state condition according to claim 1, the delivery port that it is characterized in that water container outlet pipe is connected with the water inlet of user's heat-exchange end feed pipe, on water container outlet pipe, be provided with the first water valve, on user's heat-exchange end feed pipe or user's heat-exchange end outlet pipe, water circulating pump is installed, the first water inlet of surface-type heat exchanger is connected with the water inlet of spray header, the delivery port of spray header is connected with the water inlet of spray equipment, on spray header, be provided with the second water valve, the delivery port of user's heat-exchange end outlet pipe is connected with the second water inlet of surface-type heat exchanger, between the water inlet of the first water inlet of surface-type heat exchanger and user's heat-exchange end feed pipe, be communicated with the second feed pipe, on the second feed pipe, be provided with the 3rd water valve.

4. the compound cooling apparatus moving under multi-state condition according to claim 1, the delivery port that it is characterized in that water container outlet pipe is connected with the water inlet of user's heat-exchange end feed pipe, on water container outlet pipe, be provided with the first water valve, on user's heat-exchange end feed pipe or user's heat-exchange end outlet pipe, water circulating pump is installed, the delivery port of user's heat-exchange end outlet pipe is connected with the first water inlet of surface-type heat exchanger, the second water inlet of surface-type heat exchanger is connected with the water inlet of spray header, the delivery port of spray header is connected with the water inlet of spray equipment, on spray header, be provided with the second water valve, between the water inlet of the second water inlet of surface-type heat exchanger and user's heat-exchange end feed pipe, be communicated with the second feed pipe, on the second feed pipe, be provided with the 3rd water valve.

5. according to the compound cooling apparatus moving under the multi-state condition described in claim 1 or 2 or 3 or 4, it is characterized in that summer, air inlet was positioned at the bottom of housing, winter, air inlet was positioned at the top of housing; Or/and, summer air inlet quantity for being no less than two, winter air inlet quantity for being no less than two; Or/and there is air intake cavity in the outside of housing, summer, air inlet was positioned on the sidewall of air intake cavity, and winter, air inlet was positioned on the roof of air intake cavity.

6. according to the compound cooling apparatus moving under the multi-state condition described in claim 1 or 2 or 3 or 4, it is characterized in that the air inlet place of filler is provided with air filter.

7. the compound cooling apparatus moving under multi-state condition according to claim 5, is characterized in that the air inlet place of filler is provided with air filter.

8. according to the compound cooling apparatus moving under the multi-state condition described in claim 1 or 2 or 3 or 4, it is characterized in that being provided with water filtering device in water container or on pipeline.

9. the compound cooling apparatus moving under multi-state condition according to claim 5, is characterized in that being provided with water filtering device in water container or on pipeline.

10. the compound cooling apparatus moving under multi-state condition according to claim 6, is characterized in that being provided with water filtering device in water container or on pipeline.

11. according to the compound cooling apparatus moving under the multi-state condition described in claim 2 or 3 or 4, the delivery port that it is characterized in that water container outlet pipe is connected by low pool with the water inlet of user's heat-exchange end feed pipe, a port of the second feed pipe is connected with the second water inlet of surface-type heat exchanger, and another port of the second feed pipe is connected with low pool.

The compound cooling apparatus moving under 12. multi-state conditions according to claim 5, the delivery port that it is characterized in that water container outlet pipe is connected by low pool with the water inlet of user's heat-exchange end feed pipe, a port of the second feed pipe is connected with the second water inlet of surface-type heat exchanger, and another port of the second feed pipe is connected with low pool.

The compound cooling apparatus moving under 13. multi-state conditions according to claim 6, the delivery port that it is characterized in that water container outlet pipe is connected by low pool with the water inlet of user's heat-exchange end feed pipe, a port of the second feed pipe is connected with the second water inlet of surface-type heat exchanger, and another port of the second feed pipe is connected with low pool.

The compound cooling apparatus moving under 14. multi-state conditions according to claim 7, the delivery port that it is characterized in that water container outlet pipe is connected by low pool with the water inlet of user's heat-exchange end feed pipe, a port of the second feed pipe is connected with the second water inlet of surface-type heat exchanger, and another port of the second feed pipe is connected with low pool.

The compound cooling apparatus moving under 15. multi-state conditions according to claim 8, the delivery port that it is characterized in that water container outlet pipe is connected by low pool with the water inlet of user's heat-exchange end feed pipe, a port of the second feed pipe is connected with the second water inlet of surface-type heat exchanger, and another port of the second feed pipe is connected with low pool.

The compound cooling apparatus moving under 16. multi-state conditions according to claim 9, the delivery port that it is characterized in that water container outlet pipe is connected by low pool with the water inlet of user's heat-exchange end feed pipe, a port of the second feed pipe is connected with the second water inlet of surface-type heat exchanger, and another port of the second feed pipe is connected with low pool.

The compound cooling apparatus moving under 17. multi-state conditions according to claim 10, the delivery port that it is characterized in that water container outlet pipe is connected by low pool with the water inlet of user's heat-exchange end feed pipe, a port of the second feed pipe is connected with the second water inlet of surface-type heat exchanger, and another port of the second feed pipe is connected with low pool.

18. according to the compound cooling apparatus moving under the multi-state condition described in claim 1 or 2 or 3 or 4, it is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 19. multi-state conditions according to claim 5, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 20. multi-state conditions according to claim 6, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 21. multi-state conditions according to claim 7, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 22. multi-state conditions according to claim 8, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 23. multi-state conditions according to claim 9, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 24. multi-state conditions according to claim 10, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 25. multi-state conditions according to claim 11, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 26. multi-state conditions according to claim 12, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 27. multi-state conditions according to claim 13, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 28. multi-state conditions according to claim 14, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 29. multi-state conditions according to claim 15, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 30. multi-state conditions according to claim 16, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.

The compound cooling apparatus moving under 31. multi-state conditions according to claim 17, is characterized in that exhaust blower is adjustable rotating speed exhaust blower; Or/and, on the water inlet of water circulating pump, be provided with constant pressure water compensation apparatus; Or/and, be positioned at and on high-order pipeline, be provided with high-order air bleeding valve; Or/and, between user's heat-exchange end feed pipe and user's heat-exchange end outlet pipe, be communicated with user's heat-exchange end.