CN204313482U - A kind of Teat pump boiler of frost prevention easy heat radiation - Google Patents

A kind of Teat pump boiler of frost prevention easy heat radiation Download PDF

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Publication number
CN204313482U
CN204313482U CN201420744660.6U CN201420744660U CN204313482U CN 204313482 U CN204313482 U CN 204313482U CN 201420744660 U CN201420744660 U CN 201420744660U CN 204313482 U CN204313482 U CN 204313482U
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China
Prior art keywords
support
fin
reservoir
pipeline
warehouse
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Expired - Fee Related
Application number
CN201420744660.6U
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Chinese (zh)
Inventor
孟正轩
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Shanghai Kang Shuai cold chain Polytron Technologies Inc
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SHANGHAI KANGSHUAI INDUSTRIAL DEVELOPMENT Co Ltd
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Priority to CN201420744660.6U priority Critical patent/CN204313482U/en
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Publication of CN204313482U publication Critical patent/CN204313482U/en
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Abstract

A kind of Teat pump boiler of frost prevention easy heat radiation comprises: reservoir, transmission pipeline, condenser, circulating line, fluid reservoir, filter, evaporimeter and compressor, reservoir is connected with condenser by transmission pipeline, and condenser, fluid reservoir, filter, evaporimeter are connected by circulating line successively with compressor.Wherein, evaporimeter comprises: warehouse, liquid inlet, heating part, fin, steam pipe and venthole.The structure of the fin of evaporimeter of the present utility model is improved, and enhances radiating effect; Add steam pipe simultaneously, prevent frosting to the harm of system.

Description

A kind of Teat pump boiler of frost prevention easy heat radiation
Technical field
The utility model relates to a kind of Teat pump boiler, is specifically related to a kind of Teat pump boiler of frost prevention easy heat radiation.
Background technology
Air source heat pump is a kind of novel power-saving technology, is mainly used in the field such as air-conditioning, water heater, compares with traditional electrical heating form, the energy saving more of air-source technology.
But traditional Teat pump boiler in use faces some problems, affect his normal work.One, fin frosting problem, this problem is mainly because under arctic weather, and internal-external temperature difference is comparatively large, and when starting device, heater because generate heat thus form frosting on the surface of fin, thus can affect the firing rate of equipment greatly.They are two years old, heat dissipation problem, Teat pump boiler is under being in high temperature throughout the year, and owing to there is no temperature control system, therefore be easy to cause that temperature is too high has damaged heater, therefore need to carry out certain adjustment to fin, ensure unnecessary heat conduction to be gone out firing equipment at too high a temperature, prevent unexpected generation.
Utility model content
The purpose of this utility model is, provides a kind of Teat pump boiler of frost prevention easy heat radiation, to overcome the above-mentioned shortcoming and defect existing for prior art.
A kind of Teat pump boiler of frost prevention easy heat radiation comprises: reservoir, transmission pipeline, condenser, circulating line, fluid reservoir, filter, evaporimeter and compressor, described reservoir is connected with condenser by transmission pipeline, and described condenser, circulating line, fluid reservoir, filter, evaporimeter are connected by circulating line successively with compressor;
Wherein, described evaporimeter comprises: warehouse, liquid inlet, heating part, fin, steam pipe and venthole, described liquid inlet is located at warehouse lower end, described liquid inlet is connected with circulating line, described heating part is located on warehouse inwall, described heating part is symmetrical centered by steam pipe (750) to be connected, described fin is connected with heating part, described steam pipe is connected with the inside of warehouse is embedded, described steam pipe one end and heater, the other end of described steam pipe is to heating part, and described venthole is located at the top of warehouse.
Further, described steam pipe comprises: pipeline, pore and steam (vapor) outlet, and one end of described pipeline is connected with heater, and described pore is located on pipeline, and the other end of described pipeline is provided with steam (vapor) outlet.
Further, described fin comprises: the first support, second support, 3rd support, first fin, second fin and the 3rd fin, described first support, the structure of described first support is " Contraband " type structure, the structure of described second support is " Z " type structure, described 3rd support is rectangular plate-like structure, described 3rd support is connected with the first support right-angled intersection, described second support is connected with the first support and the 3rd support, described second support is fixedly connected with heater, the one side of described first fin is located at the top of the first support and the second support, the another side of described first fin is connected with warehouse inwall, described second fin is fixed in the groove between the first support and the 3rd support, described 3rd fin is fixed on the first support, in the groove of the second support and the 3rd support.
Further, described transmission pipeline comprises: cold water inlet, cooling water outlet and hot water outlet, one end of described cold water inlet is connected with external source by pipeline, the other end of described cold water inlet is connected with reservoir, one end of described cooling water outlet is connected with reservoir, the other end of described cooling water outlet is connected with condenser by connecting water circulating pump, and one end of described hot water outlet is connected with the upper end of reservoir, and the other end of described hot water outlet is connected with water equipment.
The beneficial effects of the utility model:
The structure of the fin of evaporimeter of the present utility model is improved, and enhances radiating effect; Add steam pipe simultaneously, prevent frosting to the harm of system.
Accompanying drawing explanation
Fig. 1 is structure chart of the present utility model.
Fig. 2 is the structure chart of this filtration system.
Fig. 3 is the structure chart of steam pipe.
Reference numeral:
Reservoir 100, transmission pipeline 200, cold water inlet 210, cooling water outlet 220 and hot water outlet 230.
Condenser 300, circulating line 400, fluid reservoir 500 and filter 600.
Evaporimeter 700, warehouse 710, liquid inlet 720 and heating part 730.
Fin 740, first support 741, second support 742, the 3rd support 743, first fin 744, second fin 745 and the 3rd fin 746.
Steam pipe 750, pipeline 751, pore 752 and steam (vapor) outlet 753.
Venthole 760 and compressor 800 and heater 900.
Detailed description of the invention
Below in conjunction with specific embodiment, progressive explanation is done to the utility model.Should be understood that following examples only for illustration of the utility model but not for limiting scope of the present utility model.
Embodiment 1
Fig. 1 is structure chart of the present utility model.Fig. 2 is the structure chart of this filtration system.Fig. 3 is the structure chart of steam pipe.
As shown in Figure 1, a kind of Teat pump boiler of frost prevention easy heat radiation comprises: reservoir 100, transmission pipeline 200, condenser 300, circulating line 400, fluid reservoir 500, filter 600, evaporimeter 700 and compressor 800, reservoir 100 is connected with condenser 300 by transmission pipeline 200, and condenser 300, circulating line 400, fluid reservoir 500, filter 600, evaporimeter 700 are connected by circulating line 200 successively with compressor 800.
As shown in Figure 2, wherein, evaporimeter 700 comprises: warehouse 710, liquid inlet 720, heating part 730, fin 740, steam pipe 750 and venthole 760, liquid inlet 720 is located at warehouse 710 lower end, liquid inlet 720 is connected with circulating line 400, heating part 730 is located on warehouse 710 inwall, heating part 730 is symmetrical centered by steam pipe 750 to be connected, fin 740 is connected with heating part 730, steam pipe 750 is connected with the inside of warehouse 710 is embedded, steam pipe 750 one end and heater 900, the other end of steam pipe 750 is to heating part 730, venthole 760 is located at the top of warehouse 710.
As shown in Figure 3, steam pipe 750 comprises: pipeline 751, pore 752 and steam (vapor) outlet 753, and one end of pipeline 751 is connected with heater 900, and pore 752 is located on pipeline 751, and the other end of pipeline 751 is provided with steam (vapor) outlet 753.
Fin 740 comprises: the first support 741, second support 742, 3rd support 743, first fin 744, second fin 745 and the 3rd fin 746, first support 741, the structure of the first support 741 is " Contraband " type structure, the structure of the second support 742 is " Z " type structure, 3rd support 743 is rectangular plate-like structure, 3rd support 743 is connected with the first support 741 right-angled intersection, second support 742 is connected with the first support 741 and the 3rd support 743, second support 742 is fixedly connected with heater, the one side of the first fin 744 is located at the top of the first support 741 and the second support 742, the another side of the first fin 744 is connected with warehouse 710 inwall, second fin 745 is fixed in the groove between the first support 741 and the 3rd support 743, 3rd fin 746 is fixed on the first support 741, in the groove of the second support 742 and the 3rd support 743.
Transmission pipeline 200 comprises: cold water inlet 210, cooling water outlet 220 and hot water outlet 230, one end of cold water inlet 210 is connected with external source by pipeline, the other end of cold water inlet 210 is connected with reservoir 100, one end of cooling water outlet 220 is connected with reservoir 100, the other end of cooling water outlet 220 is connected with condenser 300 by connecting water circulating pump 240, one end of hot water outlet 230 is connected with the upper end of reservoir 100, and the other end of hot water outlet 230 is connected with water equipment.
Cold water enters reservoir 100 by cold water inlet 210, then condenser 300 is entered by cooling water outlet 220, then enter evaporimeter 700 by circulating line to heat, then pass through again hot water outlet 230 to flow out, period, heating liquid is flowed into by liquid inlet 720 and heats with 730 li, heating part by fluid reservoir 500, and filter 600 pairs of cold water simply filter, and the device 700 that avoids evaporating blocks.
Traditional Teat pump boiler in use faces some problems, affects his normal work.One, fin frosting problem, this problem is mainly because under arctic weather, and internal-external temperature difference is comparatively large, and when starting device, heater because generate heat thus form frosting on the surface of fin, thus can affect the firing rate of equipment greatly.They are two years old, heat dissipation problem, Teat pump boiler is under being in high temperature throughout the year, and owing to there is no temperature control system, therefore be easy to cause that temperature is too high has damaged heater, therefore need to carry out certain adjustment to fin, ensure unnecessary heat conduction to be gone out firing equipment at too high a temperature, prevent unexpected generation.
For this reason, in order to solve frosting problem, we have set up steam pipe 750.Steam pipe 750 comprises: pipeline 751, pore 752 and steam (vapor) outlet 753, pipeline 751 connects heater 900, steam is introduced in warehouse 710, pore 752 is the surroundings that the steam in pipeline 751 can be full of slowly pipeline 751, accelerate the temperature of heating part 730, steam (vapor) outlet 753 removes frost to fin 740 more targetedly simultaneously.
On the other hand, in order to solve heating part 730 problem that sometimes temperature is too high, devise 3 pieces of supports to splice, then 3 pieces of fin are put between support and form groove, compared with traditional single heat sink design, this radiating mode will dispel the heat work sharing to 3 place, be that radiating efficiency and effect are all better, also be more suitable for the structure of Teat pump boiler simultaneously, can by heat conduction to whole warehouse 710.First fin 744, second fin 745 and the 3rd fin 746, heat can be delivered on the first support 741, second support 742 of above-mentioned fin and periphery thereof, the 3rd support 743, then the cold air flowed can blow to fin 740 via the steam pipe 750 being not activated heater 900, make heat be delivered in warehouse 710, reduce the burden of heating part 730.
Be illustrated detailed description of the invention of the present utility model above, but the utility model is not as limit, only otherwise depart from aim of the present utility model, the utility model can also have various change.

Claims (4)

1. the Teat pump boiler of a frost prevention easy heat radiation, it is characterized in that, comprise: reservoir (100), transmission pipeline (200), condenser (300), circulating line (400), fluid reservoir (500), filter (600), evaporimeter (700) and compressor (800), described reservoir (100) is connected with condenser (300) by transmission pipeline (200), described condenser (300), circulating line (400), fluid reservoir (500), filter (600), evaporimeter (700) is connected by circulating line (200) successively with compressor (800),
Wherein, described evaporimeter (700) comprising: warehouse (710), liquid inlet (720), heating part (730), fin (740), steam pipe (750) and venthole (760), described liquid inlet (720) is located at warehouse (710) lower end, described liquid inlet (720) is connected with circulating line (400), described heating part (730) is located on warehouse (710) inwall, described heating part (730) is symmetrical centered by steam pipe (750) to be connected, described fin (740) is connected with heating part (730), described steam pipe (750) is connected with the inside of warehouse (710) is embedded, described steam pipe (750) one end and heater (900), the other end of described steam pipe (750) is to heating part (730), described venthole (760) is located at the top of warehouse (710).
2. the Teat pump boiler of a kind of frost prevention easy heat radiation according to claim 1, it is characterized in that: described steam pipe (750) comprising: pipeline (751), pore (752) and steam (vapor) outlet (753), one end of described pipeline (751) is connected with heater (900), described pore (752) is located on pipeline (751), and the other end of described pipeline (751) is provided with steam (vapor) outlet (753).
3. the Teat pump boiler of a kind of frost prevention easy heat radiation according to claim 1, it is characterized in that: described fin (740) comprising: the first support (741), second support (742), 3rd support (743), first fin (744), second fin (745) and the 3rd fin (746), described first support (741), the structure of described first support (741) is " Contraband " type structure, the structure of described second support (742) is " Z " type structure, described 3rd support (743) is rectangular plate-like structure, described 3rd support (743) is connected with the first support (741) right-angled intersection, described second support (742) is connected with the first support (741) and the 3rd support (743), described second support (742) is fixedly connected with heater, the one side of described first fin (744) is located at the top of the first support (741) and the second support (742), the another side of described first fin (744) is connected with warehouse (710) inwall, described second fin (745) is fixed in the groove between the first support (741) and the 3rd support (743), described 3rd fin (746) is fixed on the first support (741), in the groove of the second support (742) and the 3rd support (743).
4. the Teat pump boiler of a kind of frost prevention easy heat radiation according to claim 1, it is characterized in that: described transmission pipeline (200) comprising: cold water inlet (210), cooling water outlet (220) and hot water outlet (230), one end of described cold water inlet (210) is connected with external source by pipeline, the other end of described cold water inlet (210) is connected with reservoir (100), one end of described cooling water outlet (220) is connected with reservoir (100), the other end of described cooling water outlet (220) is connected with condenser (300) by connecting water circulating pump (240), one end of described hot water outlet (230) is connected with the upper end of reservoir (100), the other end of described hot water outlet (230) is connected with water equipment.
CN201420744660.6U 2014-12-01 2014-12-01 A kind of Teat pump boiler of frost prevention easy heat radiation Expired - Fee Related CN204313482U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420744660.6U CN204313482U (en) 2014-12-01 2014-12-01 A kind of Teat pump boiler of frost prevention easy heat radiation

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420744660.6U CN204313482U (en) 2014-12-01 2014-12-01 A kind of Teat pump boiler of frost prevention easy heat radiation

Publications (1)

Publication Number Publication Date
CN204313482U true CN204313482U (en) 2015-05-06

Family

ID=53135793

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420744660.6U Expired - Fee Related CN204313482U (en) 2014-12-01 2014-12-01 A kind of Teat pump boiler of frost prevention easy heat radiation

Country Status (1)

Country Link
CN (1) CN204313482U (en)

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C14 Grant of patent or utility model
GR01 Patent grant
C56 Change in the name or address of the patentee
CP01 Change in the name or title of a patent holder

Address after: 201808, Jiading District, Shanghai Jia highway 1389, 3, 1, A District

Patentee after: SHANGHAI KANGSHUAI INDUSTRIAL CO., LTD.

Address before: 201808, Jiading District, Shanghai Jia highway 1389, 3, 1, A District

Patentee before: SHANGHAI KANGSHUAI INDUSTRIAL DEVELOPMENT CO., LTD.

CP01 Change in the name or title of a patent holder
CP01 Change in the name or title of a patent holder

Address after: 201808 Jiading District, Shanghai Jia Hang Road 1389, 3, 1 story A area.

Patentee after: Shanghai Kang Shuai cold chain Polytron Technologies Inc

Address before: 201808 Jiading District, Shanghai Jia Hang Road 1389, 3, 1 story A area.

Patentee before: SHANGHAI KANGSHUAI INDUSTRIAL CO., LTD.

CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20150506

Termination date: 20191201