CN207035066U - A kind of energy-saving electric boiler component - Google Patents
A kind of energy-saving electric boiler component Download PDFInfo
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- CN207035066U CN207035066U CN201720698877.1U CN201720698877U CN207035066U CN 207035066 U CN207035066 U CN 207035066U CN 201720698877 U CN201720698877 U CN 201720698877U CN 207035066 U CN207035066 U CN 207035066U
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- 238000010438 heat treatment Methods 0.000 claims abstract description 89
- 238000009413 insulation Methods 0.000 claims abstract description 57
- 238000004321 preservation Methods 0.000 claims description 49
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims description 27
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 6
- 210000000481 breast Anatomy 0.000 claims 1
- 230000000694 effects Effects 0.000 abstract description 7
- 230000009286 beneficial effect Effects 0.000 abstract description 3
- 238000010304 firing Methods 0.000 abstract description 3
- 238000012423 maintenance Methods 0.000 abstract description 3
- 230000021715 photosynthesis, light harvesting Effects 0.000 abstract description 3
- 238000009434 installation Methods 0.000 abstract description 2
- 238000002791 soaking Methods 0.000 abstract description 2
- 239000012530 fluid Substances 0.000 description 32
- 238000013461 design Methods 0.000 description 14
- 238000005516 engineering process Methods 0.000 description 6
- 239000000463 material Substances 0.000 description 3
- 230000005484 gravity Effects 0.000 description 2
- 239000012774 insulation material Substances 0.000 description 2
- 239000007788 liquid Substances 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- BPQQTUXANYXVAA-UHFFFAOYSA-N Orthosilicate Chemical compound [O-][Si]([O-])([O-])[O-] BPQQTUXANYXVAA-UHFFFAOYSA-N 0.000 description 1
- 229910000831 Steel Inorganic materials 0.000 description 1
- PNEYBMLMFCGWSK-UHFFFAOYSA-N aluminium oxide Inorganic materials [O-2].[O-2].[O-2].[Al+3].[Al+3] PNEYBMLMFCGWSK-UHFFFAOYSA-N 0.000 description 1
- 230000004087 circulation Effects 0.000 description 1
- 238000004891 communication Methods 0.000 description 1
- 239000012141 concentrate Substances 0.000 description 1
- 208000002925 dental caries Diseases 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 238000004134 energy conservation Methods 0.000 description 1
- 238000000605 extraction Methods 0.000 description 1
- 239000011810 insulating material Substances 0.000 description 1
- 239000011490 mineral wool Substances 0.000 description 1
- 238000012544 monitoring process Methods 0.000 description 1
- 230000000717 retained effect Effects 0.000 description 1
- 239000010959 steel Substances 0.000 description 1
Abstract
The utility model discloses a kind of energy-saving electric boiler component.It includes input channel, heater, connecting pipe, attemperator and output channel, heater includes accommodating cavity and main heating chamber, input channel connects with accommodating cavity, main heating chamber is placed in accommodating cavity body, attemperator includes heat-insulated cavity and heat insulation module, heat insulation module is detachably arranged in heat-insulated cavity, heat insulation module connects with heat-insulated cavity, main heating chamber is connected by connecting pipe with heat insulation module, heat-insulated cavity and heat insulation module connect with output channel, the bottom of heater is provided with heated holder, the bottom of attemperator is provided with support frame.The beneficial effects of the utility model are:The efficiency of heating surface is improved, accelerates firing rate, heat build-up is more easy to, capacity controllable, avoids energy dissipation, play energy-saving effect;The loss of heat, soaking time length, installation and dismounting aspect are reduced, is advantageous to the maintenance in later stage, expands the scope of application, improve heat insulation effect, security reliability is high.
Description
Technical field
Electric boiler correlative technology field is the utility model is related to, refers in particular to a kind of energy-saving electric boiler component.
Background technology
Traditional electric boiler insulation mostly uses complex heat-preservation technology, and internal layer is using exotic material such as alumina silicate etc., outer layer
Using low thermal conductivity insulation material such as mineral wool etc., outermost layer is used as outer casing by the use of color steel.The thermal insulating material of traditional electric boiler
Material and heat preservation technology have developed for many years, and heat preservation technology and material have tended to be ripe, insulation material do not occur breakthrough development or
Before person's heat preservation technology revolutionary change does not occur, heat insulation effect is difficult to greatly improve.Electric boiler operation logic is to use resistance
Or Electromagnetic Heating, forming available hot water or steam supply can equipment use.
Utility model content
The utility model is above-mentioned in order to overcome the shortcomings of to exist in the prior art, there is provided a kind of efficiency of heating surface is high and drops
The energy-saving electric boiler component of loss low in calories.
To achieve these goals, the utility model uses following technical scheme:
A kind of energy-saving electric boiler component, including input channel, heater, connecting pipe, attemperator and output channel,
Described heater includes accommodating cavity and main heating chamber, described input channel and connected with accommodating cavity, and described master adds
Hot cell is placed in accommodating cavity body, and described attemperator includes heat-insulated cavity and heat insulation module, and described heat insulation module is detachable
Be arranged in heat-insulated cavity, described heat insulation module connects with heat-insulated cavity, described main heating chamber by connecting pipe and
Heat insulation module is connected, and described heat-insulated cavity and heat insulation module are connected with output channel, and the bottom of the heater is provided with
Heated holder, described heated holder are made up of chassis and telescopic column, and the bottom of the attemperator is provided with support frame,
Described support frame is made up of at least three telescopic supporting legs.
Wherein:The heating component heated for fluid is provided with heater, being provided with convection body in attemperator is carried out
The fluid heated is delivered to attemperator by the heat insulation module of insulation, heater, and attemperator is according to can equipment need
Ask by output channel to its trandfer fluid.This energy-saving electric boiler is heated using being heater and attemperator independent design
When only heat fluid in heater, and the high temperature fluid after heating is inputted into attemperator, heating is concentrated so as to realize, by
Fluid in heater is relatively few, so as to realize quick heating;Fluid is fed rapidly into use by output channel to set
In standby, it can be temporarily placed in without heating part fluid in attemperator;So design reached the efficiency of heating surface it is high and
Reduce the purpose of thermal loss.
Preferably, described main heating chamber is placed in the middle of accommodating cavity, the bottom of the accommodating cavity and with master
The position corresponding section of heating chamber is provided with heating component, and convection channel, institute are provided between described accommodating cavity and main heating chamber
The upper end middle for stating main heating chamber is connected with connecting pipe, and guiding subassembly is provided with described connecting pipe.Pass through main heating
The design of room so that the fluid in accommodating cavity body is divided into two parts, and a portion enters main heating by convection channel
In room, another part is then retained in accommodating cavity body, only needs to heat the fluid in main heating chamber by heating component during use
, the efficiency of heating surface is improved, simultaneously because the small volume of heating, greatly accelerates firing rate.
Preferably, described main heating chamber includes main chamber and cover plate, the cover plate is shaped as taper, the cover plate
Openend down, the madial wall of main chamber room is provided with some guide rails, is provided with the open end edge of the cover plate with leading
The corresponding guide groove of rail, described convection channel are placed at the sidewall bottom of main chamber.Pass through the design of guide rail and guide groove so that
The capacity of main heating chamber can be controlled, and can be heated according to the suitable capacity of selection is actually needed, so as to improve heating
Efficiency, expand the scope of application;Passing through the structure design of main heating chamber so that main heating chamber is more easy to heat build-up, so main heating chamber
Interior fluid heating is faster.
Preferably, the upper end of the accommodating cavity is provided with the cover body matched with accommodating cavity body phase, the accommodating cavity
Bottom is provided with base, and described heating component is arranged on the lower section of base, and described heating component is heating spool rest or electromagnetism
One of which in drum, described water pump are placed in the end that connecting pipe is located at main heating chamber.Pass through the design of cover body, energy
Enough prevent the thermal loss in accommodating cavity body.
Preferably, described heat insulation module includes insulation pedestal, heat-preservation liner and heater strip, described heat-preservation liner peace
On insulation pedestal, one end of the heater strip is arranged on insulation pedestal, and described heater strip is placed in the interior of heat-preservation liner
Portion middle, described insulation pedestal are detachably connected with heat-insulated cavity, described heat-preservation liner respectively with connecting pipe, output
Pipeline connects with heat-insulated cavity.By being incubated the design of pedestal, the dismountable purpose of the heat insulation module is met;By in insulation
The cooperation of courage and heater strip, the different demands with energy equipment are disclosure satisfy that, expand the scope of application.
Preferably, first through hole on the right side of the heat-preservation liner, described heat-preservation liner passes through first through hole and company
Pipeline communication is connect, the right side of the heat-preservation liner is provided with the second through hole, and described heat-preservation liner passes through the second through hole and insulation
Cavity connects, and the bottom of the heat-preservation liner is provided with third through-hole, and described heat-preservation liner passes through third through-hole and output channel
Connection, the position of described first through hole and the second through hole on heat-insulated cavity be close to insulation pedestal position, described first
The distance of through hole to insulation pedestal is less than the second through hole to the distance of insulation pedestal.Pass through first through hole and the position of the second through hole
Design, can prevent fluid from being flowed back to from first through hole in inlet channel.
Preferably, described heat-insulated cavity is provided with micropressure valve, described micropressure valve includes housing, valve rod, balancing weight
And limited block, the shape of cross section of the housing is U-shaped, and the openend of the housing is detachably arranged on heat-insulated cavity,
The bottom of the housing is provided with fourth hole, and described valve rod is arranged in fourth hole, and described balancing weight is arranged on valve rod
One end and be placed in the outside of housing, described limited block be arranged on valve rod the other end and be placed in the inside of housing, the limit
The area of position block is more than the area of fourth hole.By the design of micropressure valve, the pressure in heat-insulated cavity can be ensured, to ensure
The security reliability of device;By the structure design between housing and heat-insulated cavity, the later maintenance to micropressure valve can be facilitated.
Preferably, being provided with temperature sensor in described heat-preservation liner, described insulation pedestal is provided with temperature controller, institute
The temperature sensor and heater strip stated are connected with temperature controller, and described output channel is provided with three-way magnetic valve, the threeway
Wherein one end of magnetic valve is connected with output channel, and the other end is connected with heat-preservation liner, and remaining one end connects with heat-insulated cavity.It is logical
The design of three-way magnetic valve is crossed, disclosure satisfy that the extraction to fluid in heat-preservation liner and heat-insulated cavity.
Preferably, described input channel is provided with the first Unidirectional solenoid valve, described connecting pipe is provided with second
Unidirectional solenoid valve, described output channel is provided with check valve, the first infrared detector is provided with described accommodating cavity body, described
Heat-insulated cavity in be provided with the second infrared detector, the first described Unidirectional solenoid valve is connected with the first infrared detector, described
The second Unidirectional solenoid valve be connected with the second infrared detector.Pass through setting for the first infrared detector and the first Unidirectional solenoid valve
Meter, it is ensured that the fluid level in accommodating cavity body, prevent that liquid level is too high and causes the damage of the equipment, improve the use of the equipment
Security;Pass through the design of the second infrared detector and the second Unidirectional solenoid valve, it is ensured that the fluid level in heat-insulated cavity, prevent
Liquid level is too high and causes the damage of the equipment, improves the safety in utilization of the equipment.
The beneficial effects of the utility model are:The efficiency of heating surface is improved, greatly accelerates firing rate, is more easy to heat build-up, is held
Measure controllable, avoid energy dissipation, play energy-saving effect;The loss of heat, soaking time length, installation and dismounting aspect are reduced, is had
Beneficial to the maintenance in later stage, the scope of application is expanded, improves heat insulation effect, security reliability is high.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the structural representation of heater;
Fig. 3 is the structural representation of attemperator;
Fig. 4 is the structural representation of micropressure valve.
In figure:1. attemperator, 2. heaters, 3. output channels, 4. connecting pipes, 5. second Unidirectional solenoid valves, 6.
Cover body, 7. first Unidirectional solenoid valves, 8. input channels, 9. valve rods, 10. check valves, 11. first infrared detectors, 12. pairs of circulations
Road, 13. heating components, 14. bases, 15. main chamber, 16. cover plates, 17. accommodating cavitys, 18. main heating chambers, 19. balancing weights,
20. housing, 21. limited blocks, 22. fourth holes, 23. micropressure valves, 24. second through holes, 25. heat-insulated cavities, 26. third through-holes,
27. three-way magnetic valve, 28. heat-preservation liners, 29. heater strips, 30. first through hole, 31. insulation pedestals, 32. heated holders, 33.
Support.
Embodiment
The utility model is further described with reference to the accompanying drawings and detailed description.
In embodiment as described in Figure 1, a kind of energy-saving electric boiler component, including input channel 8, heater 2, connecting tube
Road 4, attemperator 1 and output channel 3, heater 2 include accommodating cavity 17 and main heating chamber 18, and input channel 8 is with housing
Cavity 17 is connected, and main heating chamber 18 is placed in accommodating cavity 17, and attemperator 1 includes heat-insulated cavity 25 and heat insulation module, insulation
Component is detachably arranged in heat-insulated cavity 25, and heat insulation module connects with heat-insulated cavity 25, and main heating chamber 18 passes through connecting tube
Road 4 is connected with heat insulation module, and heat-insulated cavity 25 and heat insulation module connect with output channel 3, and the bottom of heater 2, which is provided with, to be added
Hot support 32, heated holder 32 are made up of chassis and telescopic column, and the bottom of attemperator 1 is provided with support frame 33, support
Frame 33 is made up of at least three telescopic supporting legs.Input channel 8 is provided with the first Unidirectional solenoid valve 7, is set on connecting pipe 4
There is the second Unidirectional solenoid valve 5, output channel 3 is provided with check valve 10, is provided with the first infrared detector 11 in accommodating cavity 17, protects
The second infrared detector is provided with warm cavity 25, the first Unidirectional solenoid valve 7 is connected with the first infrared detector 11, the second unidirectional electricity
Magnet valve 5 is connected with the second infrared detector.
As shown in Fig. 2 main heating chamber 18 is placed in the middle of accommodating cavity 17, house cavity 17 bottom and with main heating
The position corresponding section of room 18 is provided with heating component 13, accommodating that convection channel 12 is provided between cavity 17 and main heating chamber 18, main
The upper end middle of heating chamber 18 is connected with connecting pipe 4, and guiding subassembly is provided with connecting pipe 4.Main heating chamber 18 includes master
Chamber 15 and cover plate 16, cover plate 16 are shaped as taper, the openend of cover plate 16 down, if the madial wall of main chamber 15 is provided with
Dry guide rail, the guide groove corresponding with guide rail is provided with the open end edge of cover plate 16, convection channel 12 is placed in the side of main chamber 15
At wall bottom.The upper end of accommodating cavity 17 is provided with the cover body 6 to match with accommodating cavity 17, and the bottom of accommodating cavity 17 is provided with bottom
Seat 14, heating component 13 are arranged on the lower section of base 14, and heating component 13 is wherein one in heating spool rest or electromagnetic wire coil
Kind, water pump is placed in the end that connecting pipe 44 is located at main heating chamber 18.
Installed as shown in figure 3, heat insulation module includes insulation pedestal 31, heat-preservation liner 28 and heater strip 29, heat-preservation liner 28
On insulation pedestal 31, one end of heater strip 29 is arranged on insulation pedestal 31, and heater strip 29 is placed in the inside of heat-preservation liner 28
Middle, insulation pedestal 31 be detachably connected with heat-insulated cavity 25, heat-preservation liner 28 respectively with connecting pipe 4, output channel 3 and
Heat-insulated cavity 25 connects.First through hole 30 on the right side of heat-preservation liner 28, heat-preservation liner 28 pass through first through hole 30 and connecting tube
Road 4 connects, and the right side of heat-preservation liner 28 is provided with the second through hole 24, and heat-preservation liner 28 passes through the second through hole 24 and heat-insulated cavity 25
Connection, the bottom of heat-preservation liner 28 are provided with third through-hole 26, and heat-preservation liner 28 is connected by third through-hole 26 with output channel 3,
Position of the through hole 24 of first through hole 30 and second on heat-insulated cavity 25 is to be arrived close to the position of insulation pedestal 31, first through hole 30
The distance for being incubated pedestal 31 is less than the second through hole 24 to the distance of insulation pedestal 31.Temperature sensor is provided with heat-preservation liner 28,
Insulation pedestal 31 is provided with temperature controller, and temperature sensor and heater strip 29 are connected with temperature controller, and output channel 3 is provided with threeway
Magnetic valve 27, wherein one end of three-way magnetic valve 27 are connected with output channel 3, and the other end is connected with heat-preservation liner 28, are left one
End connects with heat-insulated cavity 25.
As shown in figure 4, heat-insulated cavity 25 is provided with micropressure valve 23, micropressure valve 23 includes housing 20, valve rod 9, balancing weight 19
With limited block 21, the shape of cross section of housing 20 is U-shaped, and the openend of housing 20 is detachably arranged on heat-insulated cavity 25,
The bottom of housing 20 is provided with fourth hole 22, and valve rod 9 is arranged in fourth hole 22, and balancing weight 19 is arranged on one end of valve rod 9
And the outside of housing 20 is placed in, limited block 21 is arranged on the other end of valve rod 9 and is placed in the inside of housing 20, the face of limited block 21
Area of the product more than fourth hole 22.
In use, first, the Unidirectional solenoid valve opened on input channel 8 causes fluid to enter in accommodating cavity 17, with
This simultaneously, fluid is entered in main heating chamber 18 by convection channel 12;Then, guide rail and guide groove are passed through according to the demand of reality
To adjust the capacity of main heating chamber 18;Afterwards, the heating component 13 on base 14 is operated, to the fluid in main heating chamber 18
Heated, influenceed by the main structure of 18 cover plate of heating chamber 16 so that main heating chamber 18 is more easy to heat build-up, and heating is more
It hurry up, and capacity controllable;Finally, the fluid in winner's heating chamber 18 is made to be flowed out from connecting pipe 44 by water pump.It is this accommodating
The structure design of cavity 17 and main heating chamber 18 so that heater 2 itself further concentrates heating, only heat during heating it is main plus
Fluid in hot cell 18, due to the small volume of main heating chamber 18, heating is very fast during heating so that the fluid in main heating chamber 18
It is brought rapidly up, and is rapidly introduced into by guiding subassembly in connecting pipe 4, at the same time, the fluid in accommodating cavity 17 passes through
Convection channel 12 is continued in main heating chamber 18 and heated, and realizes that i.e. heating exports, and the energy loss of midway is small, and
The electric energy that heat needed for whole heater 2 will be far smaller than by heating the required electric energy of main heating chamber 18, be needed in a small amount of heat
Energy dissipation is avoided in the case of wanting, plays energy-saving effect.
Fluid is entered in heat-preservation liner 28 by connecting pipe 4 through first through hole 30, the stream in heat-preservation liner 28
Body reach the second through hole 24 opening position when, enter in heat-insulated cavity 25, three-way magnetic valve 27 typically connect output channel 3 and
Heat-preservation liner 28, when the fluid in heat-preservation liner 28 is finished, it is switched to heat-insulated cavity 25 and is connected with output channel 3.When with
When energy device for flow body has higher temperature requirement, heater strip 29 is controlled to enter the fluid in heat-preservation liner 28 by temperature controller
Row heating, and temperature monitoring is carried out by temperature sensor, when being heated to required temperature, the power supply of heater strip 29 is cut off,
Then the fluid in heat-preservation liner 28 is entered in output channel 3 by third through-hole 26, for being used with energy equipment.In addition,
Because the volume of heat-insulated cavity 25 is larger and comparatively seals, fluid is in heat-insulated cavity 25 in flow process, heat-insulated cavity 25
It is internal easily to produce air pressure change, heat-preservation liner 28 also is provided with inside heat-insulated cavity 25 in addition, is heated by heater strip 29
When, air pressure inside change is will also result in, in order to avoid the air pressure inside of heat-insulated cavity 25 is too high or too low, is entered by micropressure valve 23
Row air pressure adjustment.Inside heat-insulated cavity 25 air pressure rise, and pressure be more than balancing weight 19 gravity when, valve rod 9 slowly on
Rise, the gap discharge that gas can be between fourth hole 22 and valve rod 9, to reduce air pressure, prevent that air pressure is too high;When air pressure is too low
When, balancing weight 19 itself possesses certain gravity so that valve rod 9 declines again, and balancing weight 19 recloses fourth hole 22, allows
Ensure there is certain air pressure in heat-insulated cavity 25, help to be incubated, it also avoid heat and scatter and disappear, guarantor is played in process pause interval
The effect of temperature energy-conservation.
This energy-saving electric boiler only heats heater 2 using being heater 2 and the independent design of attemperator 1, during heating
Interior fluid, and the high temperature fluid after heating is inputted into attemperator 1, heating is concentrated so as to realize, due in heater 2
Fluid is relatively few, so as to realize quick heating;Fluid is fed rapidly into by output channel 3 and used in energy equipment, without
Heating part fluid can be temporarily placed in attemperator 1.
Claims (9)
1. a kind of energy-saving electric boiler component, it is characterized in that, including input channel (8), heater (2), connecting pipe (4), guarantor
Warm device (1) and output channel (3), described heater (2) includes accommodating cavity (17) and main heating chamber (18), described
Input channel (8) is connected with accommodating cavity (17), and described main heating chamber (18) is placed in accommodating cavity (17), described insulation
Device (1) includes heat-insulated cavity (25) and heat insulation module, and described heat insulation module is detachably arranged in heat-insulated cavity (25),
Described heat insulation module connects with heat-insulated cavity (25), and described main heating chamber (18) passes through connecting pipe (4) and heat insulation module
Connection, described heat-insulated cavity (25) and heat insulation module are connected with output channel (3), and the bottom of the heater (2) is set
There is heated holder (32), described heated holder (32) is made up of chassis and telescopic column, the bottom of the attemperator (1)
Portion is provided with support frame (33), and described support frame (33) is made up of at least three telescopic supporting legs.
2. a kind of energy-saving electric boiler component according to claim 1, it is characterized in that, described main heating chamber (18) is placed in appearance
Put the middle of cavity (17), the bottom of the accommodating cavity (17) and be provided with the position corresponding section of main heating chamber (18) plus
Hot component (13), convection channel (12), the main heating chamber are provided between described accommodating cavity (17) and main heating chamber (18)
(18) upper end middle is connected with connecting pipe (4), and water pump is provided with described connecting pipe (4).
3. a kind of energy-saving electric boiler component according to claim 2, it is characterized in that, described main heating chamber (18) includes master
Chamber (15) and cover plate (16), the cover plate (16) are shaped as taper, the openend of the cover plate (16) down, main chamber
The madial wall of room (15) is provided with some guide rails, and corresponding with guide rail lead is provided with the open end edge of the cover plate (16)
Groove, described convection channel (12) are placed at the sidewall bottom of main chamber (15).
4. a kind of energy-saving electric boiler component according to Claims 2 or 3, it is characterized in that, the accommodating cavity (17) it is upper
End is provided with the cover body (6) to match with accommodating cavity (17), and the bottom of the accommodating cavity (17) is provided with base (14), described
Heating component (13) is arranged on the lower section of base (14), and described heating component (13) is in heating spool rest or electromagnetic wire coil
One of which, described water pump are placed in the end that connecting pipe (4) is located at main heating chamber (18).
5. a kind of energy-saving electric boiler component according to claim 1, it is characterized in that, described heat insulation module includes insulation base
Seat (31), heat-preservation liner (28) and heater strip (29), described heat-preservation liner (28) are arranged on insulation pedestal (31), described to add
One end of heated filament (29) is arranged on insulation pedestal (31), and described heater strip (29) is placed in the bosom of heat-preservation liner (28)
Place, described insulation pedestal (31) is detachably connected with heat-insulated cavity (25), described heat-preservation liner (28) respectively with connecting tube
Road (4), output channel (3) connect with heat-insulated cavity (25).
6. a kind of energy-saving electric boiler component according to claim 5, it is characterized in that, on the right side of the heat-preservation liner (28)
First through hole (30), described heat-preservation liner (28) are connected by first through hole (30) with connecting pipe (4), the heat-preservation liner
(28) right side is provided with the second through hole (24), and described heat-preservation liner (28) passes through the second through hole (24) and heat-insulated cavity (25)
Connection, the bottom of the heat-preservation liner (28) are provided with third through-hole (26), and described heat-preservation liner (28) passes through third through-hole
(26) it is connected with output channel (3), the position of described first through hole (30) and the second through hole (24) on heat-insulated cavity (25)
To be less than the second through hole (24) to the distance of insulation pedestal (31) close to the position of insulation pedestal (31), the first through hole (30)
To the distance of insulation pedestal (31).
7. a kind of energy-saving electric boiler component according to claim 1 or 5 or 6, it is characterized in that, described heat-insulated cavity (25)
Micropressure valve (23) is provided with, described micropressure valve (23) includes housing (20), valve rod (9), balancing weight (19) and limited block (21),
The shape of cross section of the housing (20) is U-shaped, and the openend of the housing (20) is detachably arranged in heat-insulated cavity (25)
On, the bottom of the housing (20) is provided with fourth hole (22), and described valve rod (9) is arranged in fourth hole (22), described
Balancing weight (19) be arranged on valve rod (9) one end and be placed in the outside of housing (20), described limited block (21) is arranged on valve
The other end of bar (9) and the inside of housing (20) is placed in, the area of the limited block (21) is more than the area of fourth hole (22).
8. a kind of energy-saving electric boiler component according to claim 5 or 6, it is characterized in that, in described heat-preservation liner (28)
Provided with temperature sensor, described insulation pedestal (31) is provided with temperature controller, and described temperature sensor and heater strip (29) are equal
It is connected with temperature controller, described output channel (3) is provided with three-way magnetic valve (27), and wherein the one of the three-way magnetic valve (27)
End is connected with output channel (3), and the other end is connected with heat-preservation liner (28), and remaining one end connects with heat-insulated cavity (25).
9. a kind of energy-saving electric boiler component according to claim 1, it is characterized in that, described input channel (8) is provided with
First Unidirectional solenoid valve (7), described connecting pipe (4) are provided with the second Unidirectional solenoid valve (5), described output channel (3)
Check valve (10) is provided with, the first infrared detector (11), described heat-insulated cavity are provided with described accommodating cavity (17)
(25) the second infrared detector is provided with, described the first Unidirectional solenoid valve (7) is connected with the first infrared detector (11), described
The second Unidirectional solenoid valve (5) be connected with the second infrared detector.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720698877.1U CN207035066U (en) | 2017-06-15 | 2017-06-15 | A kind of energy-saving electric boiler component |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720698877.1U CN207035066U (en) | 2017-06-15 | 2017-06-15 | A kind of energy-saving electric boiler component |
Publications (1)
Publication Number | Publication Date |
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CN207035066U true CN207035066U (en) | 2018-02-23 |
Family
ID=61468118
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201720698877.1U Active CN207035066U (en) | 2017-06-15 | 2017-06-15 | A kind of energy-saving electric boiler component |
Country Status (1)
Country | Link |
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CN (1) | CN207035066U (en) |
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2017
- 2017-06-15 CN CN201720698877.1U patent/CN207035066U/en active Active
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