CN205332338U - Accurate reliable compound heat transfer unit of multiplexed output - Google Patents
Accurate reliable compound heat transfer unit of multiplexed output Download PDFInfo
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- CN205332338U CN205332338U CN201521102246.6U CN201521102246U CN205332338U CN 205332338 U CN205332338 U CN 205332338U CN 201521102246 U CN201521102246 U CN 201521102246U CN 205332338 U CN205332338 U CN 205332338U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
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Abstract
The utility model discloses an accurate reliable compound heat transfer unit of multiplexed output, including the base with set up intelligent automatically controlled cabinet, one -level heat exchanger, second grade heat exchanger, tertiary heat exchanger, circulating water pump, moisturizing frequency conversion water pump, water pipe assembly, heat medium pipeline subassembly, filter and the heat exchange tube automatically cleaning subassembly on the base, last a plurality of pressure sensor, temperature sensor, electrical control valve and the safety relief valve of being provided with of water pipe assembly, be provided with the main control unit, information storage unit, clock unit, wireless network module, outdoor temperature sensor in the automatically controlled cabinet of intelligence, by this, through the accurate control of intellectuality operation, realize the hydrothermal supply of output as required of multichannel different temperatures, its entire system heat loss is less, the operation safety and stability, and the maintenance cost is lower.
Description
Technical field
This utility model relates to heat-exchange system art, refers in particular to a kind of multiple-channel output precisely reliable compound heat-exchange unit。
Background technology
Along with the raising of people's living standard, the application of hot water supply system is more and more extensive, for instance: people live at home the central heating water etc. such as application, commercial Application and hotel, restaurant, hospital, physical culture place。At present, bigger heat-exchange system is by manually on duty mostly, also some is by staff's timing detection etc., these all easily occur monitoring not in place and causing the hot water supply problems such as stability is not good enough, heat-exchange system easily breaks down, staff detects, maintenance institute spended time energy is also more, causes the human and material resources wasting of resources;And, in actual applications, generally require the hot water supply of different temperatures with the demand under satisfied different situations, at present, market lacks the multi-temperature output type heat-exchange system of stable and reliable operation。
Accordingly, it would be desirable to work out a kind of new technical scheme to solve the problems referred to above。
Utility model content
In view of this, this utility model is for the disappearance of prior art existence, its main purpose is to provide a kind of multiple-channel output precisely reliable compound heat-exchange unit, it precisely monitors operation by intellectuality, realize the on-demand output supply of multichannel different temperatures hot water, its whole system heat loss is less, run safety and stability, and maintenance cost is relatively low。
For achieving the above object, this utility model adopts such as purgation technical scheme:
A kind of multiple-channel output precisely reliable compound heat-exchange unit, includes base and the intelligent electric-controlled cabinet being arranged on base, first-class heat exchanger, secondary heat exchanger, three grades of heat exchangers, water circulating pump, moisturizing variable frequency pump, conduit assembly, heating agent pipeline assembly, filter and heat exchanger tube automatically cleaning assembly;
Described first-class heat exchanger, secondary heat exchanger, three grades of heat exchangers are plate type heat exchanger, and it is respectively provided with hot water exchanging pipe and heating agent heat exchanger tube;Described conduit assembly is connected to water circulating pump, moisturizing variable frequency pump and the water inlet end of hot water exchanging pipe, water side;Being provided with some pressure transducers, temperature sensor, electric control valve and safety relief valve on described conduit assembly, aforementioned filter is arranged on conduit assembly;Described heating agent pipeline assembly is connected to the water inlet end of heating agent heat exchanger tube of each hot device, water side;Described heat exchanger tube automatically cleaning assembly includes and first cleans pipe, the first blow-off pipe for what each hot water exchanging pipe was separately provided, first cleans pump, second cleans pipe for what each heating agent heat exchanger tube was separately provided, second cleans pump and the second blow-off pipe, each first cleans pipe, the first blow-off pipe, the second cleaning are managed, be provided with cleaning solenoid electric valve on the second blow-off pipe;
It is provided with main control unit, information memory cell, clock unit, wireless network module, outdoor temperature sensor in described intelligent electric-controlled cabinet;Aforementioned water circulating pump, moisturizing variable frequency pump, pressure transducer, temperature sensor, electric control valve, safety relief valve, the first cleaning pump, the second cleaning pump, clock unit, outdoor temperature sensor and information memory cell are connected to main control unit, and this information memory cell is connected to wireless network module。
As a kind of preferred version, described conduit assembly includes water inlet manifold, the first water inlet pipe, the second water inlet pipe, the first outlet pipe, the second outlet pipe, the first convergence tube, the first heat exchange water inlet pipe, the first heat exchange outlet pipe, the first mixed water pipe, the first temperature hot water outlet tube, the second heat exchange water inlet pipe, the second heat exchange outlet pipe, the second mixed water pipe, the second temperature hot water outlet tube, the 3rd heat exchange water inlet pipe, the 3rd heat exchange outlet pipe, the 3rd mixed water pipe, the 3rd temperature hot water outlet tube;
This first water inlet pipe, the second water inlet pipe water inlet end be commonly connected to water inlet manifold, this first outlet pipe, the second outlet pipe water side be commonly connected to the water intake end of the first convergence tube, this the first heat exchange water inlet pipe, the first mixed water pipe are commonly connected to the water side of the first convergence tube, this the first heat exchange water inlet pipe is connected to hot water exchanging pipe's entrance point of first-class heat exchanger, this the first heat exchange outlet pipe is connected to hot water exchanging pipe's port of export of first-class heat exchanger, and this first heat exchange outlet pipe, the first mixed water pipe are commonly connected to the first temperature hot water outlet tube;
The outfan of this first temperature hot water outlet tube is connected to the first temperature hot water feed pipe, simultaneously, the outfan of this first temperature hot water outlet tube connects the second heat exchange water inlet pipe, this the second heat exchange water inlet pipe is connected to hot water exchanging pipe's entrance point of secondary heat exchanger, this the first heat exchange outlet pipe is connected to hot water exchanging pipe's port of export of secondary heat exchanger, this the second heat exchange outlet pipe is through the second mixed cross current to the 3rd heat exchange water inlet pipe, meanwhile, the second temperature hot water outlet tube should be connected in the outfan of the second heat exchange outlet pipe;
The outfan of this second temperature hot water outlet tube is connected to the second temperature hot water feed pipe, simultaneously, the outfan of this second temperature hot water outlet tube connects the 3rd heat exchange water inlet pipe, 3rd heat exchange water inlet pipe is connected to hot water exchanging pipe's entrance point of three grades of heat exchangers, 3rd heat exchange outlet pipe is connected to hot water exchanging pipe's port of export of three grades of heat exchangers, and the 3rd heat exchange outlet pipe and the 3rd mixed hot-water line are communicated to the 3rd temperature hot water outlet tube jointly。
As a kind of preferred version, described heating agent pipeline assembly includes heating agent input house steward, the first heating agent input pipe, the first heating agent outlet tube, the first heating agent mixing tube, the second heating agent input pipe, the second heating agent outlet tube, the second heating agent mixing tube, the 3rd heating agent input pipe, the 3rd heating agent outlet tube, the 3rd heating agent mixing tube and heating agent delivery trunk;
The outfan of this heating agent input house steward is connected to the first heating agent input pipe, the first heating agent mixing tube, this the first heating agent input pipe is connected to the heating agent heat exchanger tube entrance point of first-class heat exchanger, this the first heating agent outlet tube is connected to the heating agent heat exchanger tube port of export of first-class heat exchanger, and this first heating agent outlet tube, the first heating agent mixing tube are together connected to the second heating agent input pipe;This second heating agent input pipe is connected to the heating agent heat exchanger tube entrance point of secondary heat exchanger, and this second heating agent outlet tube is connected to the heating agent heat exchanger tube port of export of secondary heat exchanger;This second heating agent outlet tube, the second heating agent mixing tube are together connected to the 3rd heating agent input pipe, 3rd heating agent input pipe is connected to the heating agent heat exchanger tube entrance point of three grades of heat exchangers, 3rd heating agent outlet tube is connected to the heating agent heat exchanger tube port of export of three grades of heat exchangers, and the 3rd heating agent outlet tube, the 3rd heating agent mixing tube are together connected to heating agent delivery trunk。
As a kind of preferred version, described base has frame substrate and is set up in the first installing rack above frame substrate, the second installing rack and the 3rd installing rack, this first installing rack, the second installing rack are positioned at the left end region of frame substrate, 3rd installing rack is positioned at the right end region of frame substrate, this first installing rack, the second installing rack are arranged along fore-and-aft clearance, aforementioned first-class heat exchanger is installed on the first installing rack, aforementioned intelligent electrical control cubicles is installed on the second installing rack, and said second heat exchanger and three grades of heat exchangers are installed on the 3rd installing rack;It is provided with between this first installing rack, the second installing rack for installing water circulating pump, first the stepping down installing zone of moisturizing variable frequency pump;Described first installing rack, the second installing rack and the 3rd installing rack are positioned at frame substrate front end area, are formed for plumbing assembly, second the stepping down installing zone of heating agent pipeline assembly in frame substrate back-end region。
As a kind of preferred version, described frame substrate is welded by some connecting tubes or connecting rod are staggered, and described frame substrate entirety is in rectangular configuration;Described first installing rack, the second installing rack and the 3rd installing rack are all the vertical frame structures being welded of being interlocked by connecting tube or connecting rod;Described first installing zone of stepping down is welded with the mounting bar being easily installed positioning cycle water pump, moisturizing variable frequency pump further;It is respectively arranged with damping base bottom described water circulating pump, moisturizing variable frequency pump, this damping base is detachable to be locked on corresponding mounting bar, this damping base upper surface is provided with some raised lines and is interval in the groove between adjacent raised line, and aforementioned water circulating pump, moisturizing variable frequency pump are installed in damping base upper surface respectively。
This utility model compared with prior art has clear advantage and beneficial effect; specifically; as shown from the above technical solution; it precisely monitors operation mainly by intellectuality, it is achieved the on-demand output supply of multichannel different temperatures hot water, simultaneously; its can timing or on-demand heat exchanger automatically clean; guaranteeing that heat exchanger has higher heat transfer efficiency always, whole system heat loss is less, run safety and stability, and maintenance cost is relatively low。
For more clearly setting forth architectural feature of the present utility model, technological means and the specific purposes reached thereof and function, below in conjunction with accompanying drawing and specific embodiment, this utility model is described in further detail。
Accompanying drawing explanation
Fig. 1 is the perspective view of the embodiment of this utility model;
Fig. 2 is the top view of the embodiment of this utility model;
Fig. 3 is the decomposition texture schematic diagram of the embodiment of this utility model;
Fig. 4 is the structural representation of base in the present embodiment;
Fig. 5 is the close-up schematic view of modules A in Fig. 3;
Fig. 6 is the close-up schematic view of module B in Fig. 3;
Fig. 7 is the close-up schematic view of module C in Fig. 3;
Fig. 8 is the close-up schematic view of module D in Fig. 3。
Accompanying drawing identifier declaration:
1, intelligent electric-controlled cabinet 2, first-class heat exchanger
3,4, three grades of heat exchangers of secondary heat exchanger
5, water circulating pump 6, moisturizing variable frequency pump,
7, water inlet manifold the 8, first water inlet pipe
9, second water inlet pipe the 10, first outlet pipe
11, second outlet pipe the 12, first convergence tube
13, first heat exchange water inlet pipe the 14, first heat exchange outlet pipe
15, first mixed water pipe the 16, first temperature hot water outlet tube
17, second heat exchange water inlet pipe the 18, second heat exchange outlet pipe
19, second mixed water pipe the 20, second temperature hot water outlet tube
21, the 3rd heat exchange water inlet pipe the 22, the 3rd heat exchange outlet pipe
23, the 3rd mixed water pipe the 24, the 3rd temperature hot water outlet tube;
25, heating agent input house steward's the 26, first heating agent input pipe
27, first heating agent outlet tube the 28, first heating agent mixing tube
29, second heating agent input pipe the 30, second heating agent outlet tube
31, the second heating agent mixing tube the 32, the 3rd heating agent input pipe
33, the 3rd heating agent outlet tube the 34, the 3rd heating agent mixing tube
35, heating agent delivery trunk 36, base
37, frame substrate the 38, first installing rack
39, the second installing rack the 40, the 3rd installing rack
41, mounting bar 42, damping base。
Detailed description of the invention
Refer to shown in Fig. 1 to Fig. 8, that show the concrete structure of the embodiment of this utility model, it includes base 36 and the intelligent electric-controlled cabinet 1, first-class heat exchanger 2,3, three grades of heat exchangers 4 of secondary heat exchanger, water circulating pump 5, moisturizing variable frequency pump 6, conduit assembly, heating agent pipeline assembly, filter and the heat exchanger tube automatically cleaning assembly that are arranged on base 36。
Wherein, this first-class heat exchanger 2,3, three grades of heat exchangers 4 of secondary heat exchanger are plate type heat exchanger, and it is respectively provided with hot water exchanging pipe and heating agent heat exchanger tube;Described conduit assembly is connected to water circulating pump 5, moisturizing variable frequency pump 6 and the water inlet end of hot water exchanging pipe, water side;Being provided with some pressure transducers, temperature sensor, electric control valve and safety relief valve on described conduit assembly, aforementioned filter is arranged on conduit assembly;Described heating agent pipeline assembly is connected to the water inlet end of heating agent heat exchanger tube of each hot device, water side;Described heat exchanger tube automatically cleaning assembly includes and first cleans pipe, the first blow-off pipe for what each hot water exchanging pipe was separately provided, first cleans pump, second cleans pipe for what each heating agent heat exchanger tube was separately provided, second cleans pump and the second blow-off pipe, each first cleans pipe, the first blow-off pipe, the second cleaning are managed, be provided with cleaning solenoid electric valve on the second blow-off pipe。
It is provided with main control unit, information memory cell, clock unit, wireless network module, outdoor temperature sensor in described intelligent electric-controlled cabinet;Aforementioned water circulating pump, moisturizing variable frequency pump, pressure transducer, temperature sensor, electric control valve, safety relief valve, first cleans pump, second cleans pump, clock unit, outdoor temperature sensor and information memory cell are connected to main control unit, and this information memory cell is connected to wireless network module, are obtained flow in real time by main control unit, fluid pressure, the situations such as temperature, it is possible to remotely check current system ruuning situation, it is also possible to the setup parameter of tele-control system, for instance, the numerical value of different temperatures hot water output, hot water flow size, the supply time etc. of required relevant temperature hot water, precisely monitored by intellectuality and run the on-demand output supply realizing multichannel different temperatures hot water, in use for some time, hot water exchanging pipe and heating agent heat exchanger tube inwall in heat exchanger may produce some accumulation of muds, affect heat transfer efficiency, can pass through to arrange parameter timing heat exchanger automatically to clean, automatically clean also dependent on running situation (mainly assessing according to various performance parameters instruction) is next on-demand, so, guarantee that heat exchanger has higher heat transfer efficiency always, its whole system heat loss is less, more energy-conserving and environment-protective。
In the present embodiment, to said base 36, intelligent electric-controlled cabinet 1, first-class heat exchanger 2,3, three grades of heat exchangers 4 of secondary heat exchanger, water circulating pump 5, moisturizing variable frequency pump 6, conduit assembly, heating agent pipeline assembly layout quite ingenious, its Appropriate application space, have also contemplated that the factors such as the flow direction of liquid medium, stroke simultaneously, make space shared by whole system less, be conducive to being preferably applied for different occasion;Specifically:
This conduit assembly includes water inlet manifold 7, first water inlet pipe 8, second water inlet pipe 9, first outlet pipe 10, second outlet pipe 11, first convergence tube 12, first heat exchange water inlet pipe 13, first heat exchange outlet pipe 14, first mixed water pipe 15, first temperature hot water outlet tube 16, second heat exchange water inlet pipe 17, second heat exchange outlet pipe 18, second mixed water pipe 19, second temperature hot water outlet tube 20, 3rd heat exchange water inlet pipe 21, 3rd heat exchange outlet pipe 22, 3rd mixed water pipe 23, 3rd temperature hot water outlet tube 24;
This first water inlet pipe 8, the water inlet end of the second water inlet pipe 9 is commonly connected to water inlet manifold 7, this first outlet pipe 10, the water side of the second outlet pipe 11 is commonly connected to the water intake end of the first convergence tube 12, this the first heat exchange water inlet pipe 13, first mixed water pipe 15 is commonly connected to the water side of the first convergence tube 12, this the first heat exchange water inlet pipe 13 is connected to hot water exchanging pipe's entrance point of first-class heat exchanger 2, this the first heat exchange outlet pipe 14 is connected to hot water exchanging pipe's port of export of first-class heat exchanger 2, this the first heat exchange outlet pipe 14, first mixed water pipe 15 is commonly connected to the first temperature hot water outlet tube 16;
The outfan of this first temperature hot water outlet tube 16 is connected to the first temperature hot water feed pipe, simultaneously, the outfan of this first temperature hot water outlet tube 16 connects the second heat exchange water inlet pipe 17, this the second heat exchange water inlet pipe 17 is connected to hot water exchanging pipe's entrance point of secondary heat exchanger 3, this the first heat exchange outlet pipe 18 is connected to hot water exchanging pipe's port of export of secondary heat exchanger 3, this the second heat exchange outlet pipe 18 and the second mixed hot-water line 19 are communicated to the 3rd heat exchange water inlet pipe 21 jointly, meanwhile, the second temperature hot water outlet tube 20 should be connected in the outfan of the second heat exchange outlet pipe 18;
The outfan of this second temperature hot water outlet tube 20 is connected to the second temperature hot water feed pipe, simultaneously, the outfan of this second temperature hot water outlet tube 20 connects the 3rd heat exchange water inlet pipe, 3rd heat exchange water inlet pipe 21 is connected to hot water exchanging pipe's entrance point of three grades of heat exchangers 4,3rd heat exchange outlet pipe 22 is connected to hot water exchanging pipe's port of export of three grades of heat exchangers 4, and the 3rd heat exchange outlet pipe 22 and the 3rd mixed hot-water line 23 are communicated to the 3rd temperature hot water outlet tube 24 jointly。
This heating agent pipeline assembly includes heating agent input house steward the 25, first heating agent input pipe the 26, first heating agent outlet tube the 27, first heating agent mixing tube the 28, second heating agent input pipe the 29, second heating agent outlet tube the 30, second heating agent mixing tube the 31, the 3rd heating agent input pipe the 32, the 3rd heating agent outlet tube the 33, the 3rd heating agent mixing tube 34 and heating agent delivery trunk 35;
The outfan of this heating agent input house steward 25 is connected to first heating agent input pipe the 26, first heating agent mixing tube 28, this the first heating agent input pipe 26 is connected to the heating agent heat exchanger tube entrance point of first-class heat exchanger 2, this the first heating agent outlet tube 27 is connected to the heating agent heat exchanger tube port of export of first-class heat exchanger 2, and this first heating agent outlet tube 27, first heating agent mixing tube 28 is together connected to the second heating agent input pipe 29;This second heating agent input pipe 29 is connected to the heating agent heat exchanger tube entrance point of secondary heat exchanger 3, and this second heating agent outlet tube 30 is connected to the heating agent heat exchanger tube port of export of secondary heat exchanger 3;This second heating agent outlet tube 30, second heating agent mixing tube 31 is together connected to the 3rd heating agent input pipe 32,3rd heating agent input pipe 32 is connected to the heating agent heat exchanger tube entrance point of three grades of heat exchangers 4,3rd heating agent outlet tube 33 is connected to the heating agent heat exchanger tube port of export of three grades of heat exchangers 4, and the 3rd heating agent outlet tube the 33, the 3rd heating agent mixing tube 34 is together connected to heating agent delivery trunk 35。
This base 36 has frame substrate 7 and is set up in the first installing rack the 38, second installing rack 39 and the 3rd installing rack 40 above frame substrate 37, this the first installing rack the 38, second installing rack 39 is positioned at the left end region of frame substrate 37,3rd installing rack 40 is positioned at the right end region of frame substrate 37, this the first installing rack 38, second installing rack 39 is arranged along fore-and-aft clearance, aforementioned first-class heat exchanger 2 is installed on the first installing rack 38, aforementioned intelligent electrical control cubicles 1 is installed on the second installing rack 39, and said second heat exchanger 3 and three grades of heat exchangers 4 are installed on the 3rd installing rack 40;It is provided with between this first installing rack 38, second installing rack 39 for installing water circulating pump 5, first the stepping down installing zone of moisturizing variable frequency pump 6;Described first installing rack the 38, second installing rack 39 and the 3rd installing rack 40 are positioned at frame substrate 37 front end area, are formed for plumbing assembly, second the stepping down installing zone of heating agent pipeline assembly in frame substrate 37 back-end region;Herein, described frame substrate 37 is welded by some connecting tubes or connecting rod are staggered, and described frame substrate 37 is overall in rectangular configuration;Described first installing rack the 38, second installing rack 39 and the 3rd installation 40 framves are all the vertical frame structures being welded of being interlocked by connecting tube or connecting rod;Described first installing zone of stepping down is welded with the mounting bar 41 being easily installed positioning cycle water pump 5, moisturizing variable frequency pump 6 further;It is respectively arranged with damping base 42 bottom described water circulating pump 5, moisturizing variable frequency pump 6, this damping base 42 is detachable to be locked on corresponding mounting bar 41, this damping base 42 upper surface is provided with some raised lines and is interval in the groove between adjacent raised line, and aforementioned water circulating pump 5, moisturizing variable frequency pump 6 are installed in damping base 42 upper surface respectively。
Design focal point of the present utility model is in that; it precisely monitors operation mainly by intellectuality; realize the on-demand output supply of multichannel different temperatures hot water; simultaneously; its can timing or on-demand heat exchanger automatically clean; guaranteeing that heat exchanger has higher heat transfer efficiency always, whole system heat loss is less, run safety and stability, and maintenance cost is relatively low。
The above, it it is only preferred embodiment of the present utility model, not technical scope of the present utility model is imposed any restrictions, therefore every any trickle amendment, equivalent variations and modification above example made according to technical spirit of the present utility model, all still fall within the scope of technical solutions of the utility model。
Claims (5)
1. a multiple-channel output precisely reliable compound heat-exchange unit, it is characterised in that: include base and the intelligent electric-controlled cabinet being arranged on base, first-class heat exchanger, secondary heat exchanger, three grades of heat exchangers, water circulating pump, moisturizing variable frequency pump, conduit assembly, heating agent pipeline assembly, filter and heat exchanger tube automatically cleaning assembly;
Described first-class heat exchanger, secondary heat exchanger, three grades of heat exchangers are plate type heat exchanger, and it is respectively provided with hot water exchanging pipe and heating agent heat exchanger tube;Described conduit assembly is connected to water circulating pump, moisturizing variable frequency pump and the water inlet end of hot water exchanging pipe, water side;Being provided with some pressure transducers, temperature sensor, electric control valve and safety relief valve on described conduit assembly, aforementioned filter is arranged on conduit assembly;Described heating agent pipeline assembly is connected to the water inlet end of heating agent heat exchanger tube of each hot device, water side;Described heat exchanger tube automatically cleaning assembly includes and first cleans pipe, the first blow-off pipe for what each hot water exchanging pipe was separately provided, first cleans pump, second cleans pipe for what each heating agent heat exchanger tube was separately provided, second cleans pump and the second blow-off pipe, each first cleans pipe, the first blow-off pipe, the second cleaning are managed, be provided with cleaning solenoid electric valve on the second blow-off pipe;
It is provided with main control unit, information memory cell, clock unit, wireless network module, outdoor temperature sensor in described intelligent electric-controlled cabinet;Aforementioned water circulating pump, moisturizing variable frequency pump, pressure transducer, temperature sensor, electric control valve, safety relief valve, the first cleaning pump, the second cleaning pump, clock unit, outdoor temperature sensor and information memory cell are connected to main control unit, and this information memory cell is connected to wireless network module。
2. a kind of multiple-channel output precisely reliable compound heat-exchange unit according to claim 1, it is characterised in that: described conduit assembly includes water inlet manifold, the first water inlet pipe, the second water inlet pipe, the first outlet pipe, the second outlet pipe, the first convergence tube, the first heat exchange water inlet pipe, the first heat exchange outlet pipe, the first mixed water pipe, the first temperature hot water outlet tube, the second heat exchange water inlet pipe, the second heat exchange outlet pipe, the second mixed water pipe, the second temperature hot water outlet tube, the 3rd heat exchange water inlet pipe, the 3rd heat exchange outlet pipe, the 3rd mixed water pipe, the 3rd temperature hot water outlet tube;
This first water inlet pipe, the second water inlet pipe water inlet end be commonly connected to water inlet manifold, this first outlet pipe, the second outlet pipe water side be commonly connected to the water intake end of the first convergence tube, this the first heat exchange water inlet pipe, the first mixed water pipe are commonly connected to the water side of the first convergence tube, this the first heat exchange water inlet pipe is connected to hot water exchanging pipe's entrance point of first-class heat exchanger, this the first heat exchange outlet pipe is connected to hot water exchanging pipe's port of export of first-class heat exchanger, and this first heat exchange outlet pipe, the first mixed water pipe are commonly connected to the first temperature hot water outlet tube;
The outfan of this first temperature hot water outlet tube is connected to the first temperature hot water feed pipe, simultaneously, the outfan of this first temperature hot water outlet tube connects the second heat exchange water inlet pipe, this the second heat exchange water inlet pipe is connected to hot water exchanging pipe's entrance point of secondary heat exchanger, this the first heat exchange outlet pipe is connected to hot water exchanging pipe's port of export of secondary heat exchanger, this the second heat exchange outlet pipe is through the second mixed cross current to the 3rd heat exchange water inlet pipe, meanwhile, the second temperature hot water outlet tube should be connected in the outfan of the second heat exchange outlet pipe;
The outfan of this second temperature hot water outlet tube is connected to the second temperature hot water feed pipe, simultaneously, the outfan of this second temperature hot water outlet tube connects the 3rd heat exchange water inlet pipe, 3rd heat exchange water inlet pipe is connected to hot water exchanging pipe's entrance point of three grades of heat exchangers, 3rd heat exchange outlet pipe is connected to hot water exchanging pipe's port of export of three grades of heat exchangers, and the 3rd heat exchange outlet pipe and the 3rd mixed hot-water line are communicated to the 3rd temperature hot water outlet tube jointly。
3. a kind of multiple-channel output precisely reliable compound heat-exchange unit according to claim 1, it is characterised in that: described heating agent pipeline assembly includes heating agent input house steward, the first heating agent input pipe, the first heating agent outlet tube, the first heating agent mixing tube, the second heating agent input pipe, the second heating agent outlet tube, the second heating agent mixing tube, the 3rd heating agent input pipe, the 3rd heating agent outlet tube, the 3rd heating agent mixing tube and heating agent delivery trunk;
The outfan of this heating agent input house steward is connected to the first heating agent input pipe, the first heating agent mixing tube, this the first heating agent input pipe is connected to the heating agent heat exchanger tube entrance point of first-class heat exchanger, this the first heating agent outlet tube is connected to the heating agent heat exchanger tube port of export of first-class heat exchanger, and this first heating agent outlet tube, the first heating agent mixing tube are together connected to the second heating agent input pipe;This second heating agent input pipe is connected to the heating agent heat exchanger tube entrance point of secondary heat exchanger, and this second heating agent outlet tube is connected to the heating agent heat exchanger tube port of export of secondary heat exchanger;This second heating agent outlet tube, the second heating agent mixing tube are together connected to the 3rd heating agent input pipe, 3rd heating agent input pipe is connected to the heating agent heat exchanger tube entrance point of three grades of heat exchangers, 3rd heating agent outlet tube is connected to the heating agent heat exchanger tube port of export of three grades of heat exchangers, and the 3rd heating agent outlet tube, the 3rd heating agent mixing tube are together connected to heating agent delivery trunk。
4. a kind of multiple-channel output precisely reliable compound heat-exchange unit according to claim 1, it is characterized in that: described base has frame substrate and is set up in the first installing rack above frame substrate, second installing rack and the 3rd installing rack, this first installing rack, second installing rack is positioned at the left end region of frame substrate, 3rd installing rack is positioned at the right end region of frame substrate, this first installing rack, second installing rack is arranged along fore-and-aft clearance, aforementioned first-class heat exchanger is installed on the first installing rack, aforementioned intelligent electrical control cubicles is installed on the second installing rack, said second heat exchanger and three grades of heat exchangers are installed on the 3rd installing rack;It is provided with between this first installing rack, the second installing rack for installing water circulating pump, first the stepping down installing zone of moisturizing variable frequency pump;Described first installing rack, the second installing rack and the 3rd installing rack are positioned at frame substrate front end area, are formed for plumbing assembly, second the stepping down installing zone of heating agent pipeline assembly in frame substrate back-end region。
5. a kind of multiple-channel output precisely reliable compound heat-exchange unit according to claim 4, it is characterised in that: described frame substrate is welded by some connecting tubes or connecting rod are staggered, and described frame substrate entirety is in rectangular configuration;Described first installing rack, the second installing rack and the 3rd installing rack are all the vertical frame structures being welded of being interlocked by connecting tube or connecting rod;Described first installing zone of stepping down is welded with the mounting bar being easily installed positioning cycle water pump, moisturizing variable frequency pump further;It is respectively arranged with damping base bottom described water circulating pump, moisturizing variable frequency pump, this damping base is detachable to be locked on corresponding mounting bar, this damping base upper surface is provided with some raised lines and is interval in the groove between adjacent raised line, and aforementioned water circulating pump, moisturizing variable frequency pump are installed in damping base upper surface respectively。
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112432520A (en) * | 2020-10-12 | 2021-03-02 | 浦江春生夏长环保科技有限公司 | Geothermal circulation heat exchange assembly |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112432520A (en) * | 2020-10-12 | 2021-03-02 | 浦江春生夏长环保科技有限公司 | Geothermal circulation heat exchange assembly |
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