CN205332313U - Low -cost intelligent heat transfer unit of integral type - Google Patents

Abstract

The utility model discloses a low -cost intelligent heat transfer unit of integral type, including the base with set up the heat exchanger on the base, first water pump, second water pump, a duct assembly, the 2nd duct assembly and automatically controlled cabinet, this base has base portion and connects automatically controlled cabinet mounting bracket, heat exchanger mounting bracket and the pipeline support frame in base portion, this heat exchanger has jar body and sets up in internal heat transfer unit, the temperature sensor of jar, and this heat transfer unit has heating medium inlet, heat medium export, and this jar of body is horizontal setting, is provided with cold water entry, hot water export and operation access & exit on this jar of body, be provided with wireless network module and main control unit in this automatically controlled cabinet, aforementioned heat transfer unit, first water pump, second water pump, electrical control valve, pressure sensor, temperature sensor equally divide and do not connect in the main control unit, by this, it has advantages such as compact structure is reasonable, the running cost hangs down, the operation of intelligent automatic monitoring, the operation safety and stability is reliable, the management maintenance is convenient.

Description

Integral type low cost intelligent heat-exchange unit

Technical field

This utility model relates to field of heat exchangers technology, refers in particular to a kind of integral type low cost intelligent 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。

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 integral type low cost intelligent heat-exchange unit, and it has, and compact conformation is reasonable, operating cost is low, intelligent automation monitoring runs, run safety and stability reliably, manage the advantages such as easy to maintenance。

For achieving the above object, this utility model adopts such as purgation technical scheme:

A kind of integral type low cost intelligent heat-exchange unit, includes base and the heat exchanger, the first water pump, the second water pump, the first conduit assembly, second pipe assembly and the electrical control cubicles that are arranged on base；

Wherein, this base has base portion and the electrical control cubicles installing rack, heat exchanger installing rack and the pipeline support frame that are connected in base portion, this electrical control cubicles installing rack, heat exchanger installing rack neighbour each other set, this electrical control cubicles installing rack, it is formed between heat exchanger installing rack and base portion and vertically allows bit space, aforementioned tubular duct bracing frame be positioned at vertically to allow bit space；Aforementioned electrical control cubicles is installed on electrical control cubicles installing rack, aforesaid heat exchangers is installed on heat exchanger installing rack, aforementioned first conduit assembly, second pipe assembly are then supported on pipeline support frame, and the first conduit assembly, second pipe assembly are respectively positioned on and vertically allow in bit space；

This heat exchanger has tank body and the heat exchange unit being arranged in tank body, temperature sensor, and this heat exchange unit has heating agent entrance, heating agent outlet, and this tank body is horizontal setting, and this tank body is provided with cold water inlet, hot water outlet and operation gateway；

This first conduit assembly includes the first inlet channel of the influent side being connected to the first water pump and the first outlet conduit of the water outlet side being connected to the first water pump；This second pipe assembly includes the second inlet channel of the influent side being connected to the second water pump and the second outlet conduit of the water outlet side being connected to the second water pump；This first inlet channel and the second inlet channel are connected to water inlet manifold road jointly, and this first outlet conduit and the second outlet conduit are connected to total outlet conduit jointly；This first inlet channel, the second inlet channel, the first outlet conduit, the second outlet conduit, water inlet manifold road and total outlet conduit are each provided with the electric control valve of scalable pipeline flow and for detecting the pressure transducer of pipe fluid pressure, and, being respectively connected with on aforementioned first outlet conduit, the second outlet conduit cleaning end-of-the-pipe, it cleans end-of-the-pipe and is correspondingly positioned at respectively between the electric control valve of the first water pump and the first outlet conduit, between the second water pump and the electric control valve of the second outlet conduit；

Being provided with wireless network module and main control unit in this electrical control cubicles, aforementioned heat exchange unit, the first water pump, the second water pump, electric control valve, pressure transducer, temperature sensor are connected to main control unit respectively。

As a kind of preferred version, described first water pump, the second water pump are respectively arranged in aforementioned base portion；Described pipeline support frame includes the vertical supporting bar of some scattering devices, the horizontal expansion of described water inlet manifold road is arranged, position, described water inlet manifold road is higher than the first water pump, second water pump, described first inlet channel has transverse tube on the upside of the first water inlet, first water inlet intermediate connection tube and the first water inlet downside transverse tube, described second inlet channel has transverse tube on the upside of the second water inlet, second water inlet intermediate connection tube and the second water inlet downside transverse tube, described first outlet conduit has transverse tube on the downside of the first water outlet, transverse tube on the upside of first water outlet intermediate connection tube and the first water outlet, described second outlet conduit has transverse tube on the downside of the second water outlet, transverse tube on the upside of second water outlet intermediate connection tube and the second water outlet, the described vertically extending setting of total outlet conduit。

As a kind of preferred version, described first inlet channel, the second inlet channel and total outlet conduit are provided with detachable filter tube, detachable in this filter tube filter are installed。

As a kind of preferred version, described filter tube two ends are respectively through being threadedly connected on corresponding first inlet channel, the second inlet channel and total outlet conduit。

As a kind of preferred version, described base portion is in rectangular configuration。

This utility model compared with prior art has clear advantage and beneficial effect, specifically, as shown from the above technical solution, it is mainly by base, heat exchanger, first water pump, second water pump, first conduit assembly, the setting of second pipe assembly and electrical control cubicles, it is integrated on same base by ingenious for overall heat exchange unit, its structural design compact and reasonable, reduce area shared by heat-exchange unit and space, it is easy to layout and the application of heat-exchanger rig, especially, achieve intelligent automation monitoring to run, ensure that operation safety and stability is reliable, improve management and safeguard convenience, simultaneously, decrease personal management cost, effectively reduce equipment operating cost, these extensive uses being all conducive to advancing the heat-exchange unit of this utility model。

For more clearly setting forth architectural feature of the present utility model and effect, below in conjunction with accompanying drawing and specific embodiment, this utility model is described in detail。

Accompanying drawing explanation

Fig. 1 is the substantially package assembly diagram of the embodiment of this utility model；

Fig. 2 is the rearview of the embodiment of this utility model；

Fig. 3 is the decomposition texture diagram of the embodiment of this utility model；

Fig. 4 is the partial enlargement diagram of Fig. 3；

Fig. 5 is another partial enlargement diagram of Fig. 3。

Accompanying drawing identifier declaration:

10, base 11, base portion

12, electrical control cubicles installing rack 13, heat exchanger installing rack

14, pipeline support frame 15, vertically allow bit space

20, heat exchanger 21, heating agent entrance

22, heating agent outlet 23, cold water inlet

24, hot water outlet 25, operation gateway

31, first water pump the 32, second water pump

40, electrical control cubicles the 51, first inlet channel

52, first outlet conduit the 61, second inlet channel

62, the second outlet conduit 71, water inlet manifold road

72, total outlet conduit 81, electric control valve

82, pressure transducer 90, clean end-of-the-pipe。

Detailed description of the invention

Refer to shown in Fig. 1 to Fig. 5, that show the concrete structure of the embodiment of this utility model, it includes base 10 and heat exchanger the 20, first water pump the 31, second water pump the 32, first conduit assembly, second pipe assembly and the electrical control cubicles 40 that are arranged on base 10。

Wherein, this base 10 has base portion 11 and the electrical control cubicles installing rack 12, heat exchanger installing rack 13 and the pipeline support frame 14 that are connected in base portion 11；In the present embodiment, described base portion 11 is in rectangular configuration；This electrical control cubicles installing rack 12, heat exchanger installing rack 13 neighbour each other set, and be formed and vertically allow bit space 15, aforementioned tubular duct bracing frame 14 be positioned at vertically to allow bit space 15 between this electrical control cubicles installing rack 12, heat exchanger installing rack 13 and base portion 11；

Aforementioned electrical control cubicles 40 is installed on electrical control cubicles installing rack 12, aforesaid heat exchangers 20 is installed on heat exchanger installing rack 13, aforementioned first conduit assembly, second pipe assembly are then supported on pipeline support frame 14, and the first conduit assembly, second pipe assembly are respectively positioned on and vertically allow in bit space 15。

This heat exchanger 20 has tank body and the heat exchange unit being arranged in tank body, temperature sensor, and this heat exchange unit has heating agent entrance 21, heating agent outlet 22, and this tank body is horizontal setting, and this tank body is provided with cold water inlet 23, hot water outlet 24 and operation gateway 25。

This first conduit assembly includes the first inlet channel 51 of the influent side being connected to the first water pump 31 and the first outlet conduit 52 of the water outlet side being connected to the first water pump 31；This second pipe assembly includes the second inlet channel 61 of the influent side being connected to the second water pump 32 and the second outlet conduit 62 of the water outlet side being connected to the second water pump 32；This first inlet channel 51 and the second inlet channel 61 are connected to water inlet manifold road 71 jointly, and this first outlet conduit 52 and the second outlet conduit 62 are connected to total outlet conduit 72 jointly；This first inlet channel, the second inlet channel, the first outlet conduit, the second outlet conduit, water inlet manifold road and total outlet conduit are each provided with the electric control valve 81 of scalable pipeline flow and for detecting the pressure transducer 82 of pipe fluid pressure, and, aforementioned first outlet conduit, the second outlet conduit are respectively connected with clean end-of-the-pipe 90, its clean end-of-the-pipe 90 be correspondingly positioned between the first water pump 31 and the electric control valve 81 of the first outlet conduit 52 respectively, between the second water pump 32 and the electric control valve 81 of the second outlet conduit 62；

Aforementioned first water pump the 31, second water pump 32 is respectively arranged in aforementioned base portion 11；Described pipeline support frame 14 includes the vertical supporting bar of some scattering devices, the horizontal expansion of described water inlet manifold road 71 is arranged, position, described water inlet manifold road 71 is higher than the first water pump 31, second water pump 32, described first inlet channel 51 has transverse tube on the upside of the first water inlet, first water inlet intermediate connection tube and the first water inlet downside transverse tube, described second inlet channel 61 has transverse tube on the upside of the second water inlet, second water inlet intermediate connection tube and the second water inlet downside transverse tube, described first outlet conduit 52 has transverse tube on the downside of the first water outlet, transverse tube on the upside of first water outlet intermediate connection tube and the first water outlet, described second outlet conduit 62 has transverse tube on the downside of the second water outlet, transverse tube on the upside of second water outlet intermediate connection tube and the second water outlet, the described vertically extending setting of total outlet conduit 72；

And, described first inlet channel, the second inlet channel and total outlet conduit are provided with detachable filter tube, detachable in this filter tube filter are installed；Herein, described filter tube two ends are respectively through being threadedly connected on corresponding first inlet channel, the second inlet channel and total outlet conduit。

Being provided with wireless network module and main control unit in this electrical control cubicles 40, aforementioned heat exchange unit, the first water pump, the second water pump, electric control valve, pressure transducer, temperature sensor are connected to main control unit respectively；Main control unit can regulate electric control valve according to pressure transducer, to control flow, it is possible to on-demand selection the first water pump, the second water pump use simultaneously or select a unlatching and use；Operator can pass through mobile phone, computer etc. and remotely check the service data situation of heat-exchange unit, it is possible to alteration in demand controls main control unit, to adjust the working condition of related device, parts。

Design focal point of the present utility model is in that, it is mainly by the setting of the first heat exchange unit and the second heat exchange unit, under normal circumstances, its first heat exchange unit and heating agent heat exchange type unit normal operation, its main control unit is precisely controlled the keying of U-shaped electrothermal tube according to the temperature information of set temperature value and temperature sensor Real-time Feedback, heat exchange function with on-demand reasonable compensation the first heat exchange unit, guarantee Based Intelligent Control and the precision of heating-up temperature, also more energy-conserving and environment-protective, and, in conjunction with two groups of various heat exchange unit, it is ensured that hot water fast and stable is supplied。

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. an integral type low cost intelligent heat-exchange unit, it is characterised in that: include base and the heat exchanger, the first water pump, the second water pump, the first conduit assembly, second pipe assembly and the electrical control cubicles that are arranged on base；

Wherein, this base has base portion and the electrical control cubicles installing rack, heat exchanger installing rack and the pipeline support frame that are connected in base portion, this electrical control cubicles installing rack, heat exchanger installing rack neighbour each other set, this electrical control cubicles installing rack, it is formed between heat exchanger installing rack and base portion and vertically allows bit space, aforementioned tubular duct bracing frame be positioned at vertically to allow bit space；Aforementioned electrical control cubicles is installed on electrical control cubicles installing rack, aforesaid heat exchangers is installed on heat exchanger installing rack, aforementioned first conduit assembly, second pipe assembly are then supported on pipeline support frame, and the first conduit assembly, second pipe assembly are respectively positioned on and vertically allow in bit space；

This heat exchanger has tank body and the heat exchange unit being arranged in tank body, temperature sensor, and this heat exchange unit has heating agent entrance, heating agent outlet, and this tank body is horizontal setting, and this tank body is provided with cold water inlet, hot water outlet and operation gateway；

This first conduit assembly includes the first inlet channel of the influent side being connected to the first water pump and the first outlet conduit of the water outlet side being connected to the first water pump；This second pipe assembly includes the second inlet channel of the influent side being connected to the second water pump and the second outlet conduit of the water outlet side being connected to the second water pump；This first inlet channel and the second inlet channel are connected to water inlet manifold road jointly, and this first outlet conduit and the second outlet conduit are connected to total outlet conduit jointly；This first inlet channel, the second inlet channel, the first outlet conduit, the second outlet conduit, water inlet manifold road and total outlet conduit are each provided with the electric control valve of scalable pipeline flow and for detecting the pressure transducer of pipe fluid pressure, and, being respectively connected with on aforementioned first outlet conduit, the second outlet conduit cleaning end-of-the-pipe, it cleans end-of-the-pipe and is correspondingly positioned at respectively between the electric control valve of the first water pump and the first outlet conduit, between the second water pump and the electric control valve of the second outlet conduit；

Being provided with wireless network module and main control unit in this electrical control cubicles, aforementioned heat exchange unit, the first water pump, the second water pump, electric control valve, pressure transducer, temperature sensor are connected to main control unit respectively。

2. integral type low cost intelligent heat-exchange unit according to claim 1, it is characterised in that: described first water pump, the second water pump are respectively arranged in aforementioned base portion；Described pipeline support frame includes the vertical supporting bar of some scattering devices, the horizontal expansion of described water inlet manifold road is arranged, position, described water inlet manifold road is higher than the first water pump, second water pump, described first inlet channel has transverse tube on the upside of the first water inlet, first water inlet intermediate connection tube and the first water inlet downside transverse tube, described second inlet channel has transverse tube on the upside of the second water inlet, second water inlet intermediate connection tube and the second water inlet downside transverse tube, described first outlet conduit has transverse tube on the downside of the first water outlet, transverse tube on the upside of first water outlet intermediate connection tube and the first water outlet, described second outlet conduit has transverse tube on the downside of the second water outlet, transverse tube on the upside of second water outlet intermediate connection tube and the second water outlet, the described vertically extending setting of total outlet conduit。

3. integral type low cost intelligent heat-exchange unit according to claim 1, it is characterised in that: described first inlet channel, the second inlet channel and total outlet conduit are provided with detachable filter tube, detachable in this filter tube filter are installed。

4. integral type low cost intelligent heat-exchange unit according to claim 3, it is characterised in that: described filter tube two ends are respectively through being threadedly connected on corresponding first inlet channel, the second inlet channel and total outlet conduit。

5. integral type low cost intelligent heat-exchange unit according to claim 2, it is characterised in that: described base portion is in rectangular configuration。