CN207702575U - Overhead type electric compensation heating solar thermal utilization terminal - Google Patents
Overhead type electric compensation heating solar thermal utilization terminal Download PDFInfo
- Publication number
- CN207702575U CN207702575U CN201721541670.XU CN201721541670U CN207702575U CN 207702575 U CN207702575 U CN 207702575U CN 201721541670 U CN201721541670 U CN 201721541670U CN 207702575 U CN207702575 U CN 207702575U
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- temperature
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Abstract
Overhead type electric compensation heating solar thermal utilization terminal belongs to the scope of solar energy optical-thermal utilizing works.It is made of shell, wind turbine, radiator, steering gate, built-in control chip, it is characterized in that:Shell is assemblied in the top of indoor suspended ceiling, the air inlet below shell and indoor conducting;The tilting middle part being assemblied in shell of radiator;Wind turbine is assemblied in the top of shell, and air inlet is connected with shell, and air outlet is connect by air duct with the air inlet for the steering gate being assemblied on furred ceiling;Built-in control chip is assemblied in shell or steering gate;The water inlet pipe and outlet pipe of radiator export hull outside.The utility model can be round-the-clock to provide heating heating for interior based on solar energy optical-thermal, supplemented by the heating of electric servo.
Description
Technical field
The utility model belongs to the scope of solar energy optical-thermal utilizing works.
Background technology
Now, solar energy techniques have used warming engineering, but solar energy heat utilization is by the cloudy day
Influence, be unable to all weather operations;It is affected by this, we are opposite, and utilization terminal of the exploitation with compensation function is necessary.
Utility model content
Needed for above, spy devises this overhead type electric compensation heating solar thermal utilization terminal.
The solution of the utility model is:Overhead type electric compensation heating solar thermal utilization terminal by shell, wind turbine, dissipates
Hot device, steering gate, built-in control chip composition, it is characterized in that:Shell is assemblied in the top of indoor suspended ceiling, the air inlet below shell
Mouth and indoor conducting;The tilting middle part being assemblied in shell of radiator;Wind turbine is assemblied in the top of shell, and air inlet is led with shell
Logical, air outlet is connect by air duct with the air inlet for the steering gate being assemblied on furred ceiling;Built-in control chip be assemblied in shell or
In steering gate;The water inlet pipe and outlet pipe of radiator export hull outside.
As described above, radiator is made of upper manifold trunk, lower manifold trunk, heat-dissipating pipe, squama fin;Upper manifold trunk collects under
Rule connects a plurality of heat-dissipating pipe between pipe, and intensive squama fin is fixed on heat-dissipating pipe;Assemble water inlet pipe, the other end in upper manifold trunk one end
Fitting temperature inductive probe;Outlet pipe is assembled in lower manifold trunk one end, and the other end assembles electric heater.
As described above, built-in control chip connects wind turbine, temperature sense probe, electric heater by controlling power cord, and
Reserved external temperature inductive connector and circulating pump control joint;Built-in control chip is controlled by hand-held remote controller or control panel.
As described above, water inlet pipe and outlet pipe can exchange use;Steering gate can be oriented to outlet air each up and down
Direction.
As described above, water inlet pipe connects the heat preservation water of solar energy heat distribution system with outlet pipe by circulating pump with circulation line
Case, circulating pump connect the reserved circulating pump control joint of built-in control chip by power cord, and the temperature sense of attemperater is visited
Head connects the reserved external temperature inductive probe control joint of built-in control chip by signal wire.
As described above, transmitting starting-up signal, built-in control to built-in control chip by control panel or hand-held remote controller
Chip is reacted by the temperature sensor of the temperature sense probe on attemperater, if the water temperature in attemperater is higher than interior
The heat supply temperature of control chip setting is set, built-in control chip starts circulating pump and wind turbine immediately, and export hot wind is to indoor heating;
If the water temperature in attemperater is less than the heat supply temperature that built-in control chip is arranged, built-in control chip starts electrical heating immediately
Device and wind turbine compensate formula heat supply using electrical heating, and wind turbine exports hot wind to indoor heating.
As described above, the heating temperature of electric heater is more than the highest heat supply temperature of built-in control chip setting, built-in control
Electric heater is closed in coremaking sector-meeting, when temperature drops to the minimum heat supply temperature of built-in control chip setting, built-in control chip
Electric heater can be automatically turned on.
The advantageous effect of the utility model is:The utility model can be heated to be based on solar energy optical-thermal with electric servo
It is auxiliary, it is round-the-clock to provide heating heating for interior.
Description of the drawings
The utility model is further illustrated below in conjunction with the accompanying drawings
Attached drawing 1 is the utility model structural schematic diagram.
32 times manifold trunks of manifold trunk 33 radiate on 1 shell, 11 air inlet, 2 wind turbine, 3 radiator 31 in figure
Built in 38 electric heater of pipe 34 squama fin, 35 water inlet pipe, 36 temperature sense probe, 37 outlet pipe, 4 steering gate 5
Control 8 air duct of chip 6 circulating pump, 7 attemperater, 71 external temperature inductive probe, 9 furred ceiling.
Specific implementation mode
Overhead type electric compensation heating solar thermal utilization terminal, by shell(1), wind turbine(2), radiator(3), steering gate(4)、
Built-in control chip(5)Composition, it is characterized in that:Shell(1)It is assemblied in indoor suspended ceiling(9)Top, shell(1)Following air inlet
Mouthful(11)With indoor conducting;Radiator(3)It is tilting to be assemblied in shell(1)Interior middle part;Wind turbine(2)It is assemblied in shell(1)It is upper
Portion, wind turbine(2)Air inlet and shell(1)Top is connected, wind turbine(2)Air outlet passes through air duct(8)Be assemblied in furred ceiling(9)On
Steering gate(4)Air inlet connection;Built-in control chip(5)It is assemblied in shell(1)Or steering gate(4)On;Radiator(3)Into
Water pipe(35)And outlet pipe(37)Export shell(1)Outside.
As described above, radiator(3)By upper manifold trunk(31), lower manifold trunk(32), heat-dissipating pipe(33), squama fin(34)Group
At;Upper manifold trunk(31)With lower manifold trunk(32)Between rule connect a plurality of heat-dissipating pipe(33), heat-dissipating pipe(33)Upper intensive fixation
Squama fin(34);Upper manifold trunk(31)Assemble water inlet pipe in one end(35), other end fitting temperature inductive probe(36);Lower manifold trunk
(32)Assemble outlet pipe in one end(37), other end assembly electric heater(38).
As described above, built-in control chip(5)Wind turbine is connected by controlling power cord(2), temperature sense probe(36), electricity
Heater(38), and reserved external temperature inductive probe(71)Control joint and circulating pump(6)Control joint;Built-in control chip
(5)It is controlled by hand-held remote controller or control panel.
As described above, water inlet pipe(35)And outlet pipe(37)Use can be exchanged;Steering gate(4)Outlet air can be oriented to
Lower left and right all directions.
As described above, water inlet pipe(35)And outlet pipe(37)Pass through circulating pump(6)Solar-heating is connected with circulation line
The attemperater of system(7), circulating pump(6)Built-in control chip is connected by power cord(5)Reserved circulating pump(6)Control connects
Head, attemperater(7)External temperature inductive probe(71)Built-in control chip is connected by signal wire(5)Reserved external temperature
Spend inductive probe(71)Control joint.
As described above, giving built-in control chip by control panel or hand-held remote controller(5)Transmit starting-up signal, built-in control
Coremaking piece(5)Pass through attemperater(7)On external temperature inductive probe(71)Temperature sensor react, if heat preservation water
Case(7)In water temperature be higher than built-in control chip(5)The heat supply temperature of setting, built-in control chip(5)Start circulating pump immediately
(6)And wind turbine(2), export hot wind is to indoor heating;If attemperater(7)In water temperature be less than built-in control chip(5)If
The heat supply temperature set, built-in control chip(5)Start electric heater immediately(38)And wind turbine(2), compensated using electrical heating
Formula heat supply, wind turbine(2)Hot wind is exported to indoor heating.
As described above, electric heater(38)Heating temperature be more than built-in control chip(5)The highest heat supply temperature of setting,
Built-in control chip(5)Electric heater can be closed(38), when temperature drops to built-in control chip(5)The minimum heat supply temperature of setting
When, built-in control chip(5)Electric heater can be automatically turned on(38).
Claims (7)
1. overhead type electric compensation heating solar thermal utilization terminal, by shell(1), wind turbine(2), radiator(3), steering gate(4), it is interior
Set control chip(5)Composition, it is characterized in that:Shell(1)It is assemblied in indoor suspended ceiling(9)Top, shell(1)Following air inlet
(11)With indoor conducting;Radiator(3)It is tilting to be assemblied in shell(1)Interior middle part;Wind turbine(2)It is assemblied in shell(1)Top,
Wind turbine(2)Air inlet and shell(1)Top is connected, wind turbine(2)Air outlet passes through air duct(8)Be assemblied in furred ceiling(9)On lead
To grid(4)Air inlet connection;Built-in control chip(5)It is assemblied in shell(1)Or steering gate(4)On;Radiator(3)Water inlet
Pipe(35)And outlet pipe(37)Export shell(1)Outside.
2. overhead type electric compensation heating solar thermal utilization terminal according to claim 1, it is characterized in that:Radiator(3)By
Upper manifold trunk(31), lower manifold trunk(32), heat-dissipating pipe(33), squama fin(34)Composition;Upper manifold trunk(31)With lower manifold trunk
(32)Between rule connect a plurality of heat-dissipating pipe(33), heat-dissipating pipe(33)Upper intensive fixed squama fin(34);Upper manifold trunk(31)One
End assembly water inlet pipe(35), other end fitting temperature inductive probe(36);Lower manifold trunk(32)Assemble outlet pipe in one end(37), separately
Assemble electric heater in one end(38).
3. overhead type electric compensation heating solar thermal utilization terminal according to claim 1, it is characterized in that:Built-in control chip
(5)Wind turbine is connected by controlling power cord(2), temperature sense probe(36), electric heater(38), and reserved external temperature induction
Probe(71)Control joint and circulating pump(6)Control joint;Built-in control chip(5)It is controlled by hand-held remote controller or control plane
Plate.
4. overhead type electric compensation heating solar thermal utilization terminal according to claim 1, it is characterized in that:Water inlet pipe(35)With
Outlet pipe(37)Use can be exchanged;Steering gate(4)Outlet air can be oriented to all directions up and down.
5. overhead type electric compensation heating solar thermal utilization terminal according to claim 1, it is characterized in that:Water inlet pipe(35)With
Outlet pipe(37)Pass through circulating pump(6)The attemperater of solar energy heat distribution system is connected with circulation line(7), circulating pump(6)It is logical
Cross the built-in control chip of power cord connection(5)Reserved circulating pump(6)Control joint, attemperater(7)External temperature induction
Probe(71)Built-in control chip is connected by signal wire(5)Reserved external temperature inductive probe(71)Control joint.
6. overhead type electric compensation heating solar thermal utilization terminal according to claim 1, it is characterized in that:Pass through control panel
Or hand-held remote controller gives built-in control chip(5)Transmit starting-up signal, built-in control chip(5)Pass through attemperater(7)On
External temperature inductive probe(71)Temperature sensor react, if attemperater(7)In water temperature be higher than built-in control core
Piece(5)The heat supply temperature of setting, built-in control chip(5)Start circulating pump immediately(6)And wind turbine(2), export hot wind is to interior
Heating;If attemperater(7)In water temperature be less than built-in control chip(5)The heat supply temperature of setting, built-in control chip(5)
Start electric heater immediately(38)And wind turbine(2), formula heat supply, wind turbine are compensated using electrical heating(2)Hot wind is exported to interior
Heating.
7. overhead type electric compensation heating solar thermal utilization terminal according to claim 1, it is characterized in that:Electric heater(38)
Heating temperature be more than built-in control chip(5)The highest heat supply temperature of setting, built-in control chip(5)Electric heater can be closed
(38), when temperature drops to built-in control chip(5)When the minimum heat supply temperature of setting, built-in control chip(5)It can automatically turn on
Electric heater(38).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721541670.XU CN207702575U (en) | 2017-11-17 | 2017-11-17 | Overhead type electric compensation heating solar thermal utilization terminal |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721541670.XU CN207702575U (en) | 2017-11-17 | 2017-11-17 | Overhead type electric compensation heating solar thermal utilization terminal |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207702575U true CN207702575U (en) | 2018-08-07 |
Family
ID=63022797
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721541670.XU Expired - Fee Related CN207702575U (en) | 2017-11-17 | 2017-11-17 | Overhead type electric compensation heating solar thermal utilization terminal |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207702575U (en) |
-
2017
- 2017-11-17 CN CN201721541670.XU patent/CN207702575U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180807 Termination date: 20191117 |
|
CF01 | Termination of patent right due to non-payment of annual fee |