CN205536055U - Novel heating system - Google Patents
Novel heating system Download PDFInfo
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- CN205536055U CN205536055U CN201520909508.3U CN201520909508U CN205536055U CN 205536055 U CN205536055 U CN 205536055U CN 201520909508 U CN201520909508 U CN 201520909508U CN 205536055 U CN205536055 U CN 205536055U
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- heat
- main body
- wall main
- heating system
- gas passage
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Abstract
The utility model provides a novel heating system, including the wall main part, the embedded heat -conducting layer of installing in indoor one side is close to to the wall main part, be equipped with the gas passage between heat -conducting layer and the wall main part, fixed mounting has heating device in the gas passage, heating device includes the radiator main part, inlet tube and outlet pipe, gas passage upper end and lower extreme are respectively through air exit and air intake and indoor intercommunication, be equipped with the humidity control system in the wall main part, the humidity control system includes the humidity inductor, high -pressure pump and foggy sprinkler head, the high -pressure pump is intake and is held and be connected with outlet pipe and foggy sprinkler head respectively with the play water end (W. E. ), the humidity inductor is connected with the high -pressure pump electricity, technical scheme's beneficial effect is that the accessible has corresponding to demolish one or more heat conduction piece to go maintenances to need the part of maintenance and need not to demolish whole heat -conducting layer more than adopting, the entire system appearance is pleasing to the eye, does not occupy a space, the personnel that difficult scald is close to, simultaneously when the room air during the drying accessible humidity control system to the room air humidification.
Description
Technical field
This utility model belongs to domestic-heating system field, is specifically related to a kind of central heating system.
Background technology
Along with socioeconomic development, heating installation is included in as requisite equipment by increasing Modern Family, at present family is normally used is that mobile small-sized electric heating, air-conditioning, outer wall built-up be warm or floor heating, and mobile small-sized electric heating there are the deficiencies such as the effect scope temperature difference little, indoor is big, air is dried;Air-conditioning falls within electric heating, but has that power consumption is high, air is dried the shortcomings such as the most diseases induced;Outer wall built-up is warm warmly belongs to hot-water heating equipment, efficiently solve the too high and air dried deficiency of energy consumption, but outer wall built-up is warm to take up room greatly, unsightly, be inconvenient to fit up, the easy weak point such as close personnel of scald, the most serious problem of floor heating is once need to repair, and must destroy floor and overhaul.
Utility model content
For solving above technical problem, this utility model provides one not take up space and easy access, and room air can carry out a kind of central heating system of humidity regulation simultaneously.
Its technical scheme is as follows:
A kind of central heating system, including wall main body, side is embedded is provided with heat-conducting layer near indoor for described wall main body, it is provided with gas passage between described heat-conducting layer and described wall main body, it is installed with heating installation in described gas passage, described heating installation includes radiator main body, water inlet pipe and outlet pipe, and described gas passage upper end is connected with indoor by exhaust outlet, and described gas passage lower end is connected with indoor by air inlet;
It is provided with humidity control system in described wall main body, described humidity control system includes humidity sensor, high-pressure pump and waterfog head, described high-pressure pump water inlet end is connected with outlet pipe by the first pipeline, described high-pressure pump water side is connected with waterfog head by second pipe, described humidity sensor electrically connects with high-pressure pump, and described waterfog head is fixedly mounted on described gas passage lower end.One side does not affects the appearance, is not take up space to use this programme to provide the benefit that, only when heater unit needs maintenance heat-conducting layer need to be removed and can conveniently be overhauled, on the other hand can be by humidity control system to indoor air-humidification when room air is relatively dried, although the water source of humidity control system is the hot water from heating installation, but owing to waterfog head is fixedly mounted in gas passage, the droplet of ejection directly enters back into indoor to after dry cold air humidification heating, there is not the hidden danger scalding close personnel.
Further, above-mentioned heat-conducting layer includes at least two heat-conducting blocks, dentation engagement between described heat-conducting block, described heat-conducting block outer surface is concordant with described wall main body medial surface, can remove one or more heat-conducting block targetedly when internal heating installation needs maintenance and without whole heat-conducting layer is removed, the most convenient maintenance but also do not take up space.
Above-mentioned heat-conducting block medial surface is fitted with described radiator main body lateral surface, and described radiator main body top and bottom are concordant with the top and bottom of described heat-conducting block respectively, uses this scheme heat-conducting block maximum with the contact area of radiator main body, and thermal energy exchange rate is the highest.
Each described heat-conducting block top and bottom are respectively equipped with at least one described air inlet and described exhaust outlet, and each described heat-conducting block is provided with more than one vent, are so conducive to improving the exchange efficiency of air.
The upper surface of above-mentioned heat-conducting layer is the lower surface of described exhaust outlet, and the lower surface of described heat-conducting block is the upper surface of described air inlet, adopts the structure simple and practical, the heating system little intensity not interfering with wall main body that takes up room in wall main body.
Being provided with ventilation fan respectively in above-mentioned air inlet, described exhaust outlet and described vent, ventilation fan can accelerate the convection current of air, improves thermal energy exchange efficiency.
Being mounted on wind deflector in above-mentioned air inlet, described exhaust outlet and described vent, described wind deflector outer surface is concordant with described wall main body medial surface, adopts the structure and is on the one hand easy to regulate wind direction, does not on the other hand affect the appearance.
Above-mentioned wind deflector is shutter, can regulate described air inlet and the wind direction of described air outlet as required.
Being provided with heat-insulation layer in described wall main body near outdoor side, described heat-insulation layer is positioned at described wall body interior, and heat-insulation layer can play the effect of insulation to the interior space, reduces energy loss.
Beneficial effect: use above technical scheme to provide the benefit that when certain part of this system needs maintenance, can by remove targetedly one or more heat-conducting block go overhaul internal unit and without whole heat-conducting layer is removed, whole system is embedded to be arranged in wall main body, good looking appearance, it is not take up space, it is difficult to scald close personnel, simultaneously can be by humidity control system to indoor air-humidification when room air is relatively dried.
Accompanying drawing explanation
Fig. 1 is the front view of embodiment 1;
Fig. 2 is the front view of embodiment 2;
Fig. 3 is sectional view of the present utility model;
Fig. 4 is the electrical connection figure of this utility model humidity control system.
Detailed description of the invention
Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail.
nullEmbodiment 1,Such as Fig. 1、Shown in Fig. 3,A kind of central heating system,Including wall main body 1,Side is embedded is provided with heat-conducting layer 3 near indoor for described wall main body 1,It is provided with gas passage 6 between described heat-conducting layer 3 and described wall main body 1,It is installed with heating installation in described gas passage 6,Described heating installation includes radiator main body 10、Water inlet pipe 8 and outlet pipe 9,Described water inlet pipe 8 and described outlet pipe 9 are connected with described radiator main body 10 respectively,Described heat-conducting layer 3 includes four heat-conducting blocks 18,Dentation engagement between described heat-conducting block 18,Each described heat-conducting block 18 top and bottom are respectively equipped with an exhaust outlet 5 and an air inlet 4,The upper surface of described heat-conducting block 18 is the lower surface of described exhaust outlet 5,The lower surface of described heat-conducting block 18 is the upper surface of described air inlet 4,Described gas passage 6 top and bottom are connected with indoor with air inlet 4 by exhaust outlet 5 respectively.
It may also be seen that, described heat-conducting block 18 medial surface is fitted with described radiator main body 10 lateral surface, described radiator main body 10 top and bottom are concordant with the top and bottom of described heat-conducting block 18 respectively, described heat-conducting block 18 outer surface is concordant with described wall main body 1 medial surface, a vent 17 it is equipped with on each described heat-conducting block 18, described air inlet 4, ventilation fan 11 and wind deflector 7 are installed in described exhaust outlet 5 and described vent 17 respectively, wherein said wind deflector 7 outer surface is concordant with described wall main body 1 medial surface, described wind deflector 7 is shutter, it is provided with heat-insulation layer 2 near outdoor side in described wall main body 1, it is internal that described heat-insulation layer 2 is positioned at described wall main body 1.
It is additionally provided with humidity control system in described wall main body 1, described humidity control system includes humidity sensor 15, high-pressure pump 13 and waterfog head 14, described high-pressure pump 13 water inlet end is connected with outlet pipe 9 by the first pipeline 12, described high-pressure pump 13 water side is connected with waterfog head 14 by second pipe 16, described humidity sensor 15 electrically connects with high-pressure pump 13, and described waterfog head 14 is fixedly mounted on described gas passage 6 lower end.
nullEmbodiment 2,Such as Fig. 2、Shown in Fig. 3,A kind of central heating system,Including wall main body 1,Side is embedded is provided with heat-conducting layer 3 near indoor for described wall main body 1,It is provided with gas passage 6 between described heat-conducting layer 3 and described wall main body 1,It is installed with heating installation in described gas passage 6,Described heating installation includes radiator main body 10、Water inlet pipe 8 and outlet pipe 9,Described water inlet pipe 8 and described outlet pipe 9 are connected with described radiator main body 10 respectively,Described heat-conducting layer 3 includes two heat-conducting blocks 18,Dentation engagement between described heat-conducting block 18,Each described heat-conducting block 18 top and bottom are respectively equipped with two exhaust outlets 5 and two air ports 4,The upper surface of described heat-conducting block 18 is the lower surface of described exhaust outlet 5,The lower surface of described heat-conducting block 18 is the upper surface of described air inlet 4,Described gas passage 6 top and bottom are connected with indoor with air inlet 4 by exhaust outlet 5 respectively.
It may also be seen that, described heat-conducting block 18 medial surface is fitted with described radiator main body 10 lateral surface, described radiator main body 10 top and bottom are concordant with the top and bottom of described heat-conducting block 18 respectively, described heat-conducting block 18 outer surface is concordant with described wall main body 1 medial surface, two vents 17 it are equipped with on each described heat-conducting block 18, described air inlet 4, ventilation fan 12 and wind deflector 7 are installed in described exhaust outlet 5 and described vent 17 respectively, wherein said wind deflector 7 outer surface is concordant with described wall main body 1 medial surface, described wind deflector 7 is shutter, it is provided with heat-insulation layer 2 near outdoor side in described wall main body 1, it is internal that described heat-insulation layer 2 is positioned at described wall main body 1.
It is additionally provided with humidity control system in described wall main body 1, described humidity control system includes humidity sensor 15, high-pressure pump 13 and waterfog head 14, described high-pressure pump 13 water inlet end is connected with outlet pipe 9 by the first pipeline 12, described high-pressure pump 13 water side is connected with waterfog head 14 by second pipe 16, described humidity sensor 15 electrically connects with high-pressure pump 14, and described waterfog head 14 is fixedly mounted on described gas passage 6 lower end.
The electrical connection of described humidity control system is as shown in Figure 4, when temperature inductor 15 outfan is connected with amplifier 21 input in the same direction, amplifier 21 reverse input end grounded resistance R1 ground connection, amplifier 21 outfan connects with the negative input of comparator 22, comparator 22 positive input is held in the same direction with power supply through a fixed resistance R3 and is connected, the base stage of this comparator 22 output termination audion 20, the colelctor electrode of this audion 20 connects with high-pressure pump 13, the emitter stage of this audion 20 connect with high-pressure pump 13 other end after ground connection.
Finally need explanation; foregoing description is only preferred embodiment of the present utility model; those skilled in the art is under enlightenment of the present utility model; on the premise of this utility model objective and claim; represent, within such conversion each falls within protection domain of the present utility model as can making multiple types.
Claims (9)
1. a central heating system, including wall main body (1), it is characterized in that: side is embedded is provided with heat-conducting layer (3) near indoor for described wall main body (1), gas passage (6) it is provided with between described heat-conducting layer (3) and described wall main body (1), described gas passage is installed with heating installation in (6), described heating installation includes radiator main body (10), water inlet pipe (8) and outlet pipe (9), described gas passage (6) upper end is connected with indoor by exhaust outlet (5), described gas passage (6) lower end is connected with indoor by air inlet (4);
It is provided with humidity control system in described wall main body (1), described humidity control system includes humidity sensor (15), high-pressure pump (13) and waterfog head (14), described high-pressure pump (13) water inlet end is connected with outlet pipe (9) by the first pipeline (12), described high-pressure pump (13) water side is connected with waterfog head (14) by second pipe (16), described humidity sensor (15) electrically connects with high-pressure pump (13), and described waterfog head (14) is fixedly mounted on described gas passage (6) lower end.
A kind of central heating system the most according to claim 1, it is characterized in that: described heat-conducting layer (3) includes at least two heat-conducting blocks (18), dentation engagement between described heat-conducting block (18), described heat-conducting block (18) outer surface is concordant with described wall main body (1) medial surface.
A kind of central heating system the most according to claim 2, it is characterized in that: described heat-conducting block (18) medial surface is fitted with described radiator main body (10) lateral surface, and described radiator main body (10) top and bottom are concordant with the top and bottom of described heat-conducting block (18) respectively.
A kind of central heating system the most according to claim 3, it is characterized in that: each described heat-conducting block (18) top and bottom are respectively equipped with at least one described air inlet (4) and described exhaust outlet (5), each described heat-conducting block (18) is provided with more than one vent (17).
A kind of central heating system the most according to claim 4, it is characterized in that: the upper surface of described heat-conducting block (18) is the lower surface of described exhaust outlet (5), the lower surface of described heat-conducting block (18) is the upper surface of described air inlet (4).
A kind of central heating system the most according to claim 4, it is characterised in that: in described air inlet (4), described exhaust outlet (5) and described vent (17), ventilation fan (11) is installed respectively.
A kind of central heating system the most according to claim 4, it is characterized in that: be mounted on wind deflector (7) in described air inlet (4), described exhaust outlet (5) and described vent (17), described wind deflector (7) outer surface is concordant with described wall main body (1) medial surface.
A kind of central heating system the most according to claim 7, it is characterised in that: described wind deflector (7) is shutter.
A kind of central heating system the most according to claim 8, it is characterized in that: being provided with heat-insulation layer (2) described wall main body (1) near outdoor side, it is internal that described heat-insulation layer (2) is positioned at described wall main body (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520909508.3U CN205536055U (en) | 2015-11-16 | 2015-11-16 | Novel heating system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520909508.3U CN205536055U (en) | 2015-11-16 | 2015-11-16 | Novel heating system |
Publications (1)
Publication Number | Publication Date |
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CN205536055U true CN205536055U (en) | 2016-08-31 |
Family
ID=56761604
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201520909508.3U Expired - Fee Related CN205536055U (en) | 2015-11-16 | 2015-11-16 | Novel heating system |
Country Status (1)
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CN (1) | CN205536055U (en) |
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2015
- 2015-11-16 CN CN201520909508.3U patent/CN205536055U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
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: 20160831 Termination date: 20161116 |