CN208671348U - A kind of electromagnetism steam self-loopa heater - Google Patents
A kind of electromagnetism steam self-loopa heater Download PDFInfo
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- CN208671348U CN208671348U CN201821155698.4U CN201821155698U CN208671348U CN 208671348 U CN208671348 U CN 208671348U CN 201821155698 U CN201821155698 U CN 201821155698U CN 208671348 U CN208671348 U CN 208671348U
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Abstract
The utility model discloses a kind of electromagnetism steam self-loopa heaters, it is provided with electromagnetic eddy heating unit, warm air radiator, water storage box, the import of warm air radiator is connected by steam throttling pipe with electromagnetic eddy heating unit, the outlet of warm air radiator is connected by return pipe with water storage box, and water storage box is connected by water supplying pipe with electromagnetic eddy heating unit;Atmospheric steam is generated using electromagnetic heater, atmospheric steam is delivered to after warm air radiator heat release by steam throttling pipe to be condensed into water in return pipe and flow back into water storage box, and water is sent to electromagnetic eddy heating unit by water supplying pipe and generates steam by the water of water storage box;It realizes to supply water by heating evaporation, exothermic condensation, reflux and forms Natural Circulation, constantly heat, heat release, realize heating.In this process, circulating pump is eliminated, heating auxiliary energy consumption is reduced, reduces radiator area, saved copper, aluminium, steel that radiator uses, and anhydrous pump noise generates.
Description
Technical field
The utility model relates to the fields such as electromagnetic heating technique, are a kind of electromagnetism steam self-loopa warm wind dresses specifically
It sets.
Background technique
Hot-water heating heater used at present is to be pumped into heat dissipation dress by circulation after heating in a reservoir using water mostly
Set it is middle heat is come out, realize heating.This heating system needs circulating pump to provide heat source conveying energy, at runtime
There is noise, there is maintenance and generates the possibility of failure.When taking hot water warm wind, spreader surface temperature is low, required area
Greatly, materials'use is more, and volume is big, and especially under dispersed supply of heating, it is larger to account for area.
Utility model content
The purpose of this utility model is that designing a kind of electromagnetism steam self-loopa heater, electromagnetic heater is utilized
Atmospheric steam is generated, atmospheric steam is delivered to after warm air radiator heat release by steam throttling pipe and is condensed into water in return pipe simultaneously
Water storage box is flowed back into, water is sent to electromagnetic eddy heating unit by water supplying pipe and generates steam by the water of water storage box;It realizes and passes through
Heating evaporation, exothermic condensation, reflux, which are supplied water, forms Natural Circulation, constantly heats, heat release, realizes heating.In this process, it takes
Disappeared circulating pump, reduces heating auxiliary energy consumption, reduces radiator area, saved copper, aluminium, steel that radiator uses, and
And anhydrous pump noise generates.
The utility model is achieved through the following technical solutions: a kind of electromagnetism steam self-loopa heater is provided with electromagnetism
The import of eddy heating for heating unit, warm air radiator, water storage box, warm air radiator is single by steam throttling pipe and electromagnetic eddy heating
Member is connected, and the outlet of warm air radiator is connected by return pipe with water storage box, and water storage box passes through water supplying pipe and electromagnetic eddy
Heating unit is connected.
Further is that the utility model is better achieved, and especially uses following setting structures: the electromagnetic eddy heating
Unit includes that at least one control unit, one group of electromagnetic coil and a heating chamber, the electromagnetic coil are set in heating chamber,
Control unit connection control electromagnetic coil.
Further is that the utility model is better achieved, and especially use following setting structures: the warm air radiator is set
Set the top in heating chamber and water storage box.
Further is that the utility model is better achieved, and especially uses following setting structures: the heating chamber and water storage
Case is connected by upper bracket to be cooperated, and the lower part of the heating chamber connects the lower part of water storage box by water supplying pipe.
Further is that the utility model is better achieved, and especially uses following setting structures: described control unit setting
It is formed by area of space in heating chamber, upper bracket, water storage box and water supplying pipe.
Further is that the utility model is better achieved, and especially uses following setting structures: in the heating chamber and electricity
Thermal insulation layer is provided between magnetic coil.
Further is that the utility model is better achieved, and especially uses following setting structures: in the electromagnetic coil
Outer layer is provided with shielded layer.
Further is that the utility model is better achieved, and especially uses following setting structures: setting on the water storage box
It is equipped with water level controller, fill hole and air hole.
It is further for the utility model is better achieved, especially use following setting structures: the heating chamber for 1 with
Serial or parallel connection mode can be used when upper and constitute a multiunit heating cavity.
It is further for the utility model is better achieved, especially use following setting structures: the heating chamber for 1 with
When upper, control unit connection one group of electromagnetic coil of control.
The utility model compared with prior art, have the following advantages that and the utility model has the advantages that
(1) the utility model solves the shortcoming of hot-water heating warm wind, generates atmospheric steam, normal pressure using electromagnetic heater
Steam is delivered to after warm air radiator heat release by steam throttling pipe to be condensed into water in return pipe and flows back into water storage box, water storage
Water is sent to electromagnetic eddy heating unit by water supplying pipe and generates steam by the water of case;Realize by heating evaporation, exothermic condensation,
Reflux supplies water and forms Natural Circulation, constantly heats, heat release, realizes heating.In this process, circulating pump is eliminated, reduces and supplies
Warm auxiliary energy consumption, reduces radiator area, has saved copper, aluminium, steel that radiator uses, and anhydrous pump noise generates.
(2) the utility model uses steam self-circulation mode, can be with flexible configuration at the heating system of different capacity, can be with
Circulating pump is cut, energy consumption and noise are reduced.
(3) the utility model proposes steam warm wind reduce the area of convector, reduce overall structure and material
Material.
(4) the utility model generates steam using electromagnetic heating mode, fast compared to resistance-type generation vapor (steam) velocity, thermal inertia
It is small.
Detailed description of the invention
Fig. 1 is the utility model section view.
Fig. 2 is the utility model top view.
Fig. 3 is the electric control theory figure of the utility model.
Wherein, the appended drawing reference in attached drawing is respectively as follows: 1- control unit, 2- electromagnetic coil, 2.1- loop A end, 2.2- line
Enclose the end B, 2.3 shielded layers, 3- heating chamber, 3.1 thermal insulation layers, 4- warm air radiator, 4.1- import, the outlet 4.2-, 5- steam throttling
Pipe, 6- return pipe, 7- water storage box, 7.1- fill hole, 7.2- air hole, 8- water supplying pipe, 9- water level controller, 10- upper bracket.
Specific embodiment
The utility model is described in further detail below with reference to embodiment, but the embodiments of the present invention is not
It is limited to this.
Embodiment 1:
The utility model proposes a kind of electromagnetism steam self-loopa heaters, solve the shortcoming of hot-water heating warm wind, benefit
Atmospheric steam is generated with electromagnetic heater, atmospheric steam is flowing back after being delivered to warm air radiator heat release by steam throttling pipe
It is condensed into water in pipe and flows back into water storage box, water is sent to electromagnetic eddy heating unit by water supplying pipe and generates steaming by the water of water storage box
Vapour;It realizes to supply water by heating evaporation, exothermic condensation, reflux and forms Natural Circulation, constantly heat, heat release, realize heating.?
During this, circulating pump is eliminated, heating auxiliary energy consumption is reduced, reduces radiator area, saved what radiator used
Copper, aluminium, steel, and anhydrous pump noise generates, and as shown in Figure 1 and Figure 2, especially uses following setting structures: being provided with electromagnetism whirlpool
Heating unit, warm air radiator 4, water storage box 7 are flowed, the import 4.1 of warm air radiator 4 passes through steam throttling pipe 5 and electromagnetic eddy
Heating unit is connected, and the outlet 4.2 of warm air radiator 4 is connected by return pipe 6 with water storage box 7, and water storage box 7 passes through confession
Water pipe 8 is connected with electromagnetic eddy heating unit.
In setting, electromagnetism steam self-loopa heater is provided with electromagnetic eddy heating as a preferred technical solution,
Unit, warm air radiator 4 and water storage box 7, wherein the import 4.1 of warm air radiator 4 connects electromagnetism whirlpool by steam throttling pipe 5
Heating unit is flowed, some auxiliary materials will be passed through when connecting cooperation between steam throttling pipe 5 and import 4.1 and electromagnetic eddy heating unit
(pipe fitting connection universal equipment) cooperation a variety of fit systems such as () welding, be spirally connected, be clamped connects;The outlet 4.2 of warm air radiator 4
Electromagnetic eddy heating unit is connected by return pipe 6, connects and matches between return pipe 6 and outlet 4.2 and electromagnetic eddy heating unit
The connection such as (weld, be spirally connected, be clamped a variety of fit systems) will be cooperated when conjunction by some auxiliary materials (pipe fitting connection universal equipment);Into
One step, water storage box 7 is also connected by water supplying pipe 8 with electromagnetic eddy heating unit;When in use, electromagnetic eddy heating unit
Heating is carried out to the water in it and generates atmospheric steam, atmospheric steam is delivered to warm wind heat dissipation through import 4.1 by steam throttling pipe 5
It is condensed into water in return pipe 6 and flows back into water storage box 7, water storage box into return pipe 6 using 4.2 output of outlet after 4 heat release of device
Water is sent to electromagnetic eddy heating unit generation steam by water supplying pipe 8 and reached in the case where not needing circulating pump by 7 water
The effect of iterative cycles work;But the connection of the embodiment or setting relationship are without being limited thereto.
Embodiment 2:
The present embodiment is further to optimize on the basis of the above embodiments, further for more as shown in Fig. 1~2
The utility model is realized well, and especially use following setting structures: the electromagnetic eddy heating unit includes at least one control
1, one group of electromagnetic coil 2 of unit and a heating chamber 3, the electromagnetic coil 2 are set in heating chamber 3, control unit connection control
Electromagnetic coil 2 processed.
In setting, it is preferable to provide scheme are as follows: electromagnetic eddy heating unit is provided at least one control unit 1, one
Group electromagnetic coil 2 and a heating chamber 3;Wherein, control unit 1 is used as control unit, is separately connected as the power supply of electromagnetic coil 2
Power supply and electromagnetic coil 2, power supply provide working power under the control action of control unit 1 for electromagnetic coil 2;Electromagnetic coil
2 are wound on the outer layer of heating chamber 3, in use, power supply is logical by the high-frequency ac (preferably 15-50KHz) that control unit 1 generates
It crosses 2 both ends of electromagnetic coil (loop A end 2.1 and the end coil B 2.2) formation closed circuit and generates steam in heating chamber 3, pass through
Steam throttling pipe 5 arrives warm air radiator 4, and the water after heat release returns to water storage box 7 and heats using water supplying pipe 8 to heating chamber 3, instead
Multiple self-loopa work.
Preferably, described control unit 1 can be configured to different capacity and different units according to heating-amount, and at least wrap
Include one of temperature control, water level control, starting control and excessive low water level protection or multiple combinations.
The electromagnetic coil 2 can use higher temperature line, enameled wire, twisted wire, copper pipe, copper wire or other electric conductors.
The heating chamber 3 can be it is round, rectangular or oval, by the metal or nonmetallic materials that can generate electromagnetic eddy
It is made;Heating chamber 3 can be cavity type heating chamber, jacket type heating chamber or screw type heating chamber.
The warm air radiator 4 can be coiled radiator, fin radiator, panel radiator or tubular radiator, adopt
It is radiated with forced convection or free convection mode.
The input current of described control unit 1 can be three-phase, single phase industrial frequence AC or DC electric current;But the embodiment
Connection or setting relationship are without being limited thereto.
Embodiment 3:
The present embodiment is to advanced optimize based on any of the above embodiments, and further is that this reality is better achieved
With novel, as shown in Fig. 1~2, especially use following setting structures: the warm air radiator 4 is arranged in heating chamber 3 and water storage box
7 top.
As the scheme that is preferable to provide, the top of heating chamber 3 and water storage box 7 is arranged in warm air radiator 4, radiates in warm wind
It is connected by steam throttling pipe 5 with the upper end of heating chamber 3 at the import 4.1 of device 4, and between steam throttling pipe 5 and import 4.1
Using a variety of connection types such as being spirally connected or weld or be clamped, using welding or auxiliary tubing between steam throttling pipe 5 and heating chamber 3
Connection or other connection type are attached;Pass through the upper end phase of return pipe 6 and water storage box 7 in the outlet of warm air radiator 4 4.2
Connection, and used between return pipe 6 and outlet 4.2 and a variety of connection types, return pipe 6 and the water storage such as be spirally connected or weld or be clamped
Using welding or assisting, tubing is connected or other connection type is attached between case 7;But the connection or setting of the embodiment are closed
It is without being limited thereto.
Embodiment 4:
The present embodiment is to advanced optimize based on any of the above embodiments, and further is that this reality is better achieved
With novel, as shown in Fig. 1~2, especially use following setting structures: the heating chamber 3 passes through upper bracket 10 with water storage box 7 and connect
Cooperation, the lower part of the heating chamber 3 connect the lower part of water storage box 7 by water supplying pipe 8.
As scheme is preferable to provide, can also be used, at the top of heating chamber 3 and water storage box 7 setting upper bracket 10 or
Bracket 10 is set between 7 adjacent surface of heating chamber 3 and water storage box, and the lower part or lower end of heating chamber 3 connect water storage box by water supplying pipe 8
7 lower part or lower end, but the embodiment connection or setting relationship it is without being limited thereto.
Embodiment 5:
The present embodiment is to advanced optimize based on any of the above embodiments, and further is that this reality is better achieved
With novel, as shown in Fig. 1~2, especially use following setting structures: the setting of described control unit 1 heating chamber 3, upper bracket 10,
Water storage box 7 and water supplying pipe 8 are formed by area of space.
As scheme is preferable to provide, space region is formed by heating chamber 3, upper bracket 10, water storage box 7 and water supplying pipe 8
For control unit 1 to be arranged in domain, and fixed setting or detachable set-up mode and heating chamber 3, upper branch can be used in control unit 1
Any side or multi-party cooperation between frame 10, water storage box 7 and water supplying pipe 8;But the connection of the embodiment or setting relationship are without being limited thereto.
Embodiment 6:
The present embodiment is to advanced optimize based on any of the above embodiments, and further is that this reality is better achieved
With novel, as shown in Fig. 1~2, especially use following setting structures: be provided between the heating chamber 3 and electromagnetic coil 2 every
Thermosphere 3.1.
As scheme is preferable to provide, it is provided with thermal insulation layer 3.1 in heating chamber 3, is arranged electromagnetic wire on thermal insulation layer 3.1
Circle 2.
Embodiment 7:
The present embodiment is to advanced optimize based on any of the above embodiments, and further is that this reality is better achieved
With novel, as shown in Fig. 1~2, especially use following setting structures: the outer layer of the electromagnetic coil 2 is provided with shielded layer
2.3, it is preferred that shielded layer 2.3 encloses barricade using half.
Embodiment 8:
The present embodiment is to advanced optimize based on any of the above embodiments, and further is that this reality is better achieved
With novel, as shown in Fig. 1~2, following setting structures are especially used: being provided with water level controller 9 on the water storage box 7, mend
Water hole 7.1 and air hole 7.2.
As the scheme that is preferable to provide, the setting of water level controller 9 is on water storage box 7 or interior, being capable of water level in water storage box 7
Detection and control, water level controller 9 preferably uses float-ball type or electric pole type, and water level controller 9 is connected by control unit 1
Control;The top of water storage box 7 is all arranged in preferred fill hole 7.1 and air hole 7.2;Water storage box 7 using carbon steel, stainless steel,
One of high temperature plastics material is made.When the water level in water storage box 7 be lower than certain altitude when, the electrode of water level controller 9 or
Height of water level is become switching threshold by person's floating ball, is disconnected heating power supply soft start switch lower than height of water level, is stopped heating power supply
Work, plays a protective role, prevents calandria dry combustion method.
Embodiment 9:
The present embodiment is to advanced optimize based on any of the above embodiments, and further is that this reality is better achieved
With novel, as shown in Fig. 1~2, following setting structures are especially used: series connection or simultaneously can be used when the heating chamber 3 is 1 or more
Gang mould formula constitutes a multiunit heating cavity.
Embodiment 10:
The present embodiment is to advanced optimize based on any of the above embodiments, and further is that this reality is better achieved
With novel, as shown in Fig. 1~2, following setting structures are especially used: when the heating chamber 3 is 1 or more, a control unit 1
Connection one group of electromagnetic coil 2 of control.
It is multiple to be controlled with one-to-one 1 concentrated setting of control unit of heating chamber 3 when heating chamber 3 is more than one
In cabinet or it is distributed in every group of electromagnetic eddy heating unit.
As the scheme that is preferable to provide, switch (soft start, water level switch, temperature detect switch (TDS) etc. one is provided in control unit 1
Kind is a variety of) and power-switching circuit unit, and a kind of preferred scheme is soft start, water level switch, temperature detect switch (TDS) use
Series model structure;It is handed in use, power supply (alternating current or direct current) is converted into high frequency by Switching Power Supply conversion circuit unit
Stream (preferably 15-50KHz) forms closed circuit by 2 both ends of electromagnetic coil (loop A end 2.1 and the end coil B 2.2) and is adding
Steam is generated in hot chamber 3, arrives warm air radiator 4 by steam throttling pipe 5, the water after heat release returns to water storage box 7 using water supply
Pipe 8 is heated to heating chamber 3, and self-loopa works repeatedly.
In setting, as shown in figure 3, power supply with industrial frequency AC mainly by being electrically connected as a kind of preferred plan of establishment
The power switch connect, rectifier bridge, DC filtering inductance and the DC filtering that four rectifier diodes (D1, D2, D3, D4) are constituted
The L-type filter circuit of capacitor composition is constituted;It is provided with power supply control driving plate in control unit 1, driving plate is controlled by power supply
The switch (soft start (switch S1), water level switch S2, temperature detect switch (TDS) S3) of control is connected, soft start (switch S1) is by interior
Heating temperature starting reference signal is provided, directly concatenate with indoor thermostat, when room temperature temperature controller setting indoors is warm
Spend or more when, soft start (switch S1) is in open-circuit condition, and power supply does not work, when room temperature be lower than temperature detect switch (TDS) set temperature
When, indoor thermostat closure connects soft start (switch S1), and power supply is begun to warm up.Water level switch S2 by water storage box whether water shortage
Starting reference signal is provided, when water storage box water level is higher than the water level of water level switch S2 setting, water level switch S2 closure, power supply
It starts to work, when water level of the water level lower than water level switch S2 setting, water level switch S2 is disconnected, and power supply stops working, and temperature control is opened
Closing S3, whether overtemperature provides enabling signal by calandria (heating chamber 3), when calandria surface temperature allows in temperature detect switch (TDS) S3
When in temperature, temperature detect switch (TDS) S3 closure, when calandria surface temperature is more than that temperature detect switch (TDS) S3 allows temperature, temperature detect switch (TDS) S3
It disconnects, connect soft start switch S1, water level switch S2, temperature detect switch (TDS) S3 for the starting port that power supply controls driving plate, there are three
Switch is closed at, and power supply could work;Power supply control driving plate is also connected with switching tube Q1, switching tube Q2, capacitor C2, capacitor
The connects end altogether of C3, Q1 and Q2 are connected by a resonant capacitance with the either end of electromagnetic coil 2, and capacitor C2 and capacitor C3
Connects end altogether is connected with the other end of electromagnetic coil 2, forms high-frequency series resonant heater circuit, switching tube Q1, switching tube Q2
Reverse frequency is generated by number or analog circuit (power supply controls circuit in driving plate), and passes through driving circuit driving switch pipe
Q1, switching tube Q2 work.
In setting, one kind is preferable to provide in scheme, and when electromagnetic heating power is 1.3 kilowatts, heating cavity outer layer is
76*2*450 (mm), internal layer 50*2*400,7 volume of water storage box are 1.8 liters, 16 millimeters of 8 diameter of water supplying pipe, warm air radiator 4
340 square millimeters of area, 30 watts of fan power.Electromagnetism steam self-loopa heater total volume is 400*150*500 millimeters.It is single
It is powered using single-phase 220 volts, after heating, 12 degree of 7 inlet water temperature of water storage box, heating starts steam out after 2 minutes, and detection input is handed over
Galvanic electricity is 1.4 kilowatts, detects 70 degree of fan leaving air temp highest, and return pipe 6 to water storage box 7 continues return water, and return water temperature is gradually
Increase to and be less than about 4 temperature of warm air radiator, hot wind is lasting free of discontinuities, and return water is uninterrupted without steam, realizes self-loopa heating fortune
Row, meets 15 square metres of heating.
The above is only the preferred embodiment of the utility model, not does limit in any form to the utility model
System, any simple modification made by the above technical examples according to the technical essence of the present invention, equivalent variations, each falls within
Within the protection scope of the utility model.
Claims (10)
1. a kind of electromagnetism steam self-loopa heater, it is characterised in that: be provided with electromagnetic eddy heating unit, warm air radiator
(4), the import (4.1) of water storage box (7), warm air radiator (4) is connected by steam throttling pipe (5) with electromagnetic eddy heating unit
It connects, the outlet (4.2) of warm air radiator (4) is connected by return pipe (6) with water storage box (7), and water storage box (7) passes through water supplying pipe
(8) it is connected with electromagnetic eddy heating unit.
2. a kind of electromagnetism steam self-loopa heater according to claim 1, it is characterised in that: the electromagnetic eddy adds
Hot cell includes at least one control unit (1), one group of electromagnetic coil (2) and a heating chamber (3), the electromagnetic coil (2)
It is set on heating chamber (3), control unit connection control electromagnetic coil (2).
3. a kind of electromagnetism steam self-loopa heater according to claim 2, it is characterised in that: the warm air radiator
(4) it is arranged in the top of heating chamber (3) and water storage box (7).
4. a kind of electromagnetism steam self-loopa heater according to claim 2 or 3, it is characterised in that: the heating chamber
(3) it is connect cooperation by upper bracket (10) with water storage box (7), the lower part of the heating chamber (3) connects water storage by water supplying pipe (8)
The lower part of case (7).
5. a kind of electromagnetism steam self-loopa heater according to claim 4, it is characterised in that: described control unit
(1) setting is formed by area of space in heating chamber (3), upper bracket (10), water storage box (7) and water supplying pipe (8).
6. a kind of electromagnetism steam self-loopa heater according to Claims 2 or 3 or 5, it is characterised in that: add described
Thermal insulation layer (3.1) are provided between hot chamber (3) and electromagnetic coil (2).
7. a kind of electromagnetism steam self-loopa heater according to Claims 2 or 3 or 5, it is characterised in that: in the electricity
The outer layer of magnetic coil (2) is provided with shielded layer (2.3).
8. a kind of electromagnetism steam self-loopa heater described according to claim 1 or 2 or 3 or 5, it is characterised in that: in institute
It states and is provided with water level controller (9), fill hole (7.1) and air hole (7.2) on water storage box (7).
9. a kind of electromagnetism steam self-loopa heater according to Claims 2 or 3 or 5, it is characterised in that: the heating
Chamber (3) can be used serial or parallel connection mode and constitute a multiunit heating cavity when being 1 or more.
10. a kind of electromagnetism steam self-loopa heater according to Claims 2 or 3 or 5, it is characterised in that: described to add
When hot chamber (3) is 1 or more, control unit (1) connection one group of electromagnetic coil (2) of control.
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Cited By (1)
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CN108759090A (en) * | 2018-07-20 | 2018-11-06 | 张欣翼 | A kind of electromagnetism steam self-loopa heater |
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CN108759090A (en) * | 2018-07-20 | 2018-11-06 | 张欣翼 | A kind of electromagnetism steam self-loopa heater |
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