CN106595028A - Cyclic tubular energy-saving efficient water heater - Google Patents
Cyclic tubular energy-saving efficient water heater Download PDFInfo
- Publication number
- CN106595028A CN106595028A CN201611108541.1A CN201611108541A CN106595028A CN 106595028 A CN106595028 A CN 106595028A CN 201611108541 A CN201611108541 A CN 201611108541A CN 106595028 A CN106595028 A CN 106595028A
- Authority
- CN
- China
- Prior art keywords
- layer
- heat pipe
- saving
- trocar sheath
- touring
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H1/00—Water heaters, e.g. boilers, continuous-flow heaters or water-storage heaters
- F24H1/10—Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium
- F24H1/101—Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium using electric energy supply
- F24H1/102—Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium using electric energy supply with resistance
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B3/00—Ohmic-resistance heating
- H05B3/78—Heating arrangements specially adapted for immersion heating
Abstract
The invention discloses a cyclic tubular energy-saving efficient water heater. The cyclic tubular energy-saving efficient water heater comprises a quartz glass tube, wherein water flows through the quartz glass tube and is heated by the quartz glass tube; the quartz glass tube comprises an inner heat tube and an outer sleeve; the outer sleeve sleeves the outer side of the inner heat tube; space for allowing low-temperature water to be recycled is formed between main structural parts of the outer sleeve and the inner heat tube; the inner heat tube is further provided with an electrical heating layer which generates heat when electrified and then heats the inside of the inner heat tube; and the electric heating layer is arranged on at least part of the region outside the inner heat tube. According to the technical scheme disclosed by the invention, hot water can be efficiently and rapidly supplied immediately by the quartz glass tube with the electrical heating layer. The cyclic tubular energy-saving efficient water heater is simple and convenient to use; the heat supply efficiency is improved; and energy consumption is reduced.
Description
Technical field
The invention discloses a kind of electrical heating water supply installation, particularly a kind of touring tubular type efficient energy-saving hydrothermal device.
Background technology
Immediately in order to meet daily life facility and emerge needed for safety and sanitation, it meets for hot water supply
The requirement to healthiness proposed needed for the living standard that modern people day by day improve.As drinking water hygiene is required, in the past
Typically using continuous heating equipment such as water dispenser etc. or hot water storage device such as heat-insulation water bottle etc., the former can produce and be repeated several times
Hot plate and affect drinking-water health, and the latter is then using more bothering.On this basis instant hot water supply equipment then arises at the historic moment,
Daily drinking-water Health and Living facility for people brings conveniently.
And existing instant hot water supply system, then it is the efficiency of utilization by directly heating to hot water in pipeline
It is not high, more energy dissipation is caused, and there is certain danger, slightly do not note easy initiation fire or scald.
The content of the invention
To solve the above problems, the invention discloses a kind of touring tubular type efficient energy-saving hydrothermal device, in arranging
There is preheating heating function actively to reduce thermal losses for heat pipe and outer sleeve structure, while coordinating the knot such as electrothermal layer and far infrared layer
Structure auxiliary reduces heat loss, so as to reduce heat leakage, realizes efficiently quickly hot water and supplies immediately, using simple and convenient and
Improve heating efficiency, reducing energy consumption.
Other inlet and outlet pipes, control, water storage, feedback in the present invention program etc. can be using this area routine skills
Art, and scheme of the invention is not particularly limited, nor affect on its enforcement.
Touring tubular type efficient energy-saving hydrothermal device disclosed by the invention, including the quartz glass tube for flowing and heating that supplies water,
Quartz glass tube includes interior heat pipe and trocar sheath, and trocar sheath is set between interior heat pipe outside and both dominant structural moieties
Have for the touring space of water at low temperature, when trocar sheath one end has the water inlet of water at low temperature water inlet and works trocar sheath have and
Only water inlet is open state remainder closing for water inlet, and interior-heat pipe has water inlet end and a water side, water inlet end with
Trocar sheath inner space connects and water inlet end is arranged in trocar sheath the other end away from its water inlet pipe, interior-heat pipe have to
Increase contact with water at low temperature in trocar sheath extension agent structure, interior heat pipe be additionally provided with energization work generate heat and it is right
The electrothermal layer heated in interior heat pipe, electrothermal layer is arranged at least part of region outside interior heat pipe.Heat pipe within this programme
To reheating through the current of preliminary preheating in trocar sheath, heat is made full use of so as to both realize, it is to avoid wave
Take, while and control pipe wall contacts temperature can be played by the water in trocar sheath, prevent temperature too high and boiling hot so as to play
The purpose of wound so as to can be with directly contact.
A kind of improvement of touring tubular type efficient energy-saving hydrothermal device disclosed by the invention, the agent structure of interior heat pipe its at least
Part overlaps in the bearing of trend of trocar sheath:The cellular construction of overlapping have at least one and cellular construction connect each other simultaneously
Make interior heat pipe that integrally there is the free air space of insertion, (bearing of trend is with the tangent line of centrage for cellular construction its bearing of trend
Direction determines, similarly hereinafter) it is parallel with the bearing of trend of trocar sheath or to intersect (less than 45° angle degreeAnd its
Approximate form, here only to illustrate cellular construction its bearing of trend parallel with the bearing of trend of trocar sheath or to be less than
45° angle degree intersects, rather than technical scheme is defined).The cellular construction of this programme is realized in whole temperature ladder
Uniform heat (referring to loss heat) in the range of degree is exchanged, so that preheating temperature is uniform, so as to provide in whole operation interval
The relatively stable hot water of temperature.
A kind of improvement of touring tubular type efficient energy-saving hydrothermal device disclosed by the invention, the agent structure of interior heat pipe its at least
Part overlaps in the direction of the bearing of trend perpendicular to trocar sheath:The cellular construction of overlapping has at least one and cellular construction phase
Connect and make interior heat pipe that integrally there is the free air space of an insertion between mutually, cellular construction its bearing of trend (bearing of trend with
The tangential direction of centrage determines, similarly hereinafter) it is vertical with the bearing of trend of trocar sheath or to intersect (more than 45° angle degreeAnd its approximate form, it is only here signal its bearing of trend of cellular construction and the extension side of trocar sheath
To vertical or to intersect more than 45° angle degree, rather than technical scheme is defined).The cellular construction reality of this programme
Show the flexible variation exchanged in different temperatures region interior-heat (referring to loss heat), such as concentrated in low-temperature space and discharge, high-temperature region dispersion
Release, so as to improve the utilization ratio to loss heat.
A kind of improvement of touring tubular type efficient energy-saving hydrothermal device disclosed by the invention, electrothermal layer is stannic oxide layer.
A kind of improvement of touring tubular type efficient energy-saving hydrothermal device disclosed by the invention, electrothermal layer is micron order stannum oxide
Layer.The electrothermal layer of middle selection micron order crystalline structure in this programme, so as to play the purpose of control crystal resistance, it is to avoid in nanometer
Materials conductive rate is too high under crystal form state, and affects heating efficiency.
A kind of improvement of touring tubular type efficient energy-saving hydrothermal device disclosed by the invention, touring tubular type efficient energy-saving hydro-thermal dress
Put and also include far infrared layer, far infrared layer is arranged on quartz glass tube at least part of region outside electrothermal layer.This programme passes through
The far infrared layer being arranged on the outside of electrothermal layer, operationally, with far infrared layer energy of the electrothermal layer to loss on the outside of glass tubing is absorbed
Measure and launch far infrared wave, energy back is carried out to far infrared layer inner side, particularly in glass tubing in the way of radiant heating
Water is heated, so as to while saving energy, reducing energy dissipation, by the efficiency of heating surface.
A kind of improvement of touring tubular type efficient energy-saving hydrothermal device disclosed by the invention, far infrared layer is arranged on outside electrothermal layer
Layer, and be engaged with electrothermal layer size.
A kind of improvement of touring tubular type efficient energy-saving hydrothermal device disclosed by the invention, touring tubular type efficient energy-saving hydro-thermal dress
Put and also include total reflection layer, the total reflection layer is arranged on quartz glass tube at least part of region outside far infrared layer.We
Case is existed by the total reflection layer for arranging, and in the course of the work, the afterheat leaked electrothermal layer and far infrared layer are to outside glass tubing
The radiation of side loss is reflected, and the afterheat of reflection is absorbed again by water in far infrared layer and glass tubing, so that plus heat energy
Amount through multiple reflections, conversion and is absorbed with heat and far infrared wave in quartz glass tube, so as to significantly reduce heating tube
Heat loss, so as to improve the capacity usage ratio that heating is supplied water.
A kind of improvement of touring tubular type efficient energy-saving hydrothermal device disclosed by the invention, total reflection layer is arranged on far infrared layer
Outer layer, and be engaged with far infrared layer size.Far infrared layer is non-conductive material.
A kind of improvement of touring tubular type efficient energy-saving hydrothermal device disclosed by the invention, total reflection layer launches on far infrared layer
Radiation reflective to quartz glass tube inner side.This programme is arranged has the total reflection layer being internally reflected, by the total reflection structure
At work, by the energy reflections such as the heat radiation of functional structure loss within total reflection layer to internal layer, so as in far infrared layer
Utilization is circulated in water body with pipe, so as to significantly reduce energy absorbing device, utilization ratio is improved.
A kind of improvement of touring tubular type efficient energy-saving hydrothermal device disclosed by the invention, total reflection layer is aluminum rothenio-palladium list
To specular layer, and the specular layer is towards quartz glass tube side.Aluminum rothenio-palladium is consisting of 0.3-0.7wt% containing palladium, rhodium
200-500ppm, balance of aluminum and inevitable impurity.Main component is aluminum, can outer surface formed layer of oxide layer from
And play a protective role, and slightly thick alumina layer may also operate as heat-insulated effect, be conducive to anti-scald and insulation, and can
To play a part of to prevent electric leakage.This programme has the aluminum rhodium palladium of unidirectional specular layer by the inner side (glass tubing place side) for arranging
The total reflection layer of alloy, on the one hand realizes the heat radiation of the functional structure loss within total reflection layer using its direct reflection ability
Deng energy reflection to internal layer, so as to be circulated utilization in water body in far infrared layer and pipe, on the other hand, the aluminum rhodium palladium is formed
Dark specular layer, may also operate as collect can structure effect, will reflection unsuccessfully continue loss part continue absorb, with
The form of heat radiation and heat energy to internal feedback, so as to further reduce energy dissipation rate.And it can be using from the external world
Environment thermal-arrest, even if so as in the case of outer layer thermal insulation layer is not provided with, equally can preferably reduce overall rate of heat dissipation, from
And lift the heat utilization rate of whole equipment.
Need to carry out anti-creeping region in the present invention program can to realize using routine techniquess means.
Water warm-up cycle within touring tubular type efficient energy-saving hydrothermal device disclosed by the invention between heat pipe and trocar sheath
And coordinating far infrared layer and the recovery of totally reflected double energy to be circularly set, it has good energy saving capability, reduces heat consumption
8-10% is dissipated to, while having portable construction, is used conventionally, be conveniently replaceable maintenance, and with good using safety
Property, utilized by multi-level energy circulation reflection, while whole utilization efficiency is improved, the contact of outer layer can also be reduced
Temperature, is state of the functional part of equipment in can normally contact so as to avoid the occurrence of the risk of high temperature scald.
Specific embodiment
With reference to specific embodiment, the present invention is further elucidated, it should be understood that following specific embodiments are only used for
The bright present invention rather than restriction the scope of the present invention.
Embodiment 1
The touring tubular type efficient energy-saving hydrothermal device of the present embodiment, including the quartz glass tube for flowing and heating that supplies water, stone
English glass tubing includes interior heat pipe and trocar sheath, and trocar sheath is set between interior heat pipe outside and both dominant structural moieties to be had
For the space that water at low temperature is touring, trocar sheath has and only when trocar sheath one end has the water inlet of water at low temperature water inlet and works
Have water inlet for open state remainder closing for water inlet, interior-heat pipe has water inlet end and a water side, water inlet end with it is outer
Internal casing space is connected and water inlet end is arranged in trocar sheath away from the other end of its water inlet pipe, and interior-heat pipe has to increase
Plus the agent structure extended in trocar sheath contacted with water at low temperature, interior heat pipe is additionally provided with energization work heating and internal
The electrothermal layer heated in heat pipe, electrothermal layer is arranged at least part of region outside interior heat pipe, and during work, electrothermal layer is powered and sends out
Thermal technology directly heats the current in interior heat pipe, realizes that immediately heating is supplied water, while the waste heat of the outside loss of its electrothermal layer is also right
Water at low temperature between trocar sheath and interior heat pipe is preheated.
Embodiment 2
The touring tubular type efficient energy-saving hydrothermal device of the present embodiment, including the quartz glass tube for flowing and heating that supplies water, stone
English glass tubing includes interior heat pipe and trocar sheath, and trocar sheath is set between interior heat pipe outside and both dominant structural moieties to be had
For the space that water at low temperature is touring, trocar sheath has and only when trocar sheath one end has the water inlet of water at low temperature water inlet and works
Have water inlet for open state remainder closing for water inlet, interior-heat pipe has water inlet end and a water side, water inlet end with it is outer
Internal casing space is connected and water inlet end is arranged in trocar sheath away from the other end of its water inlet pipe, and interior-heat pipe has to increase
Plus the agent structure extended in trocar sheath contacted with water at low temperature, interior heat pipe is additionally provided with energization work heating and internal
The electrothermal layer heated in heat pipe, into strips spiral is arranged on interval outside quartz glass tube electrothermal layer, during work, electric heating
Layer heating power work directly heats the current in interior heat pipe, realizes that immediately heating is supplied water, while the outside loss of its electrothermal layer
Waste heat is also preheated to the water at low temperature between trocar sheath and interior heat pipe.
Embodiment 3
The touring tubular type efficient energy-saving hydrothermal device of the present embodiment, including the quartz glass tube for flowing and heating that supplies water, stone
English glass tubing includes interior heat pipe and trocar sheath, and trocar sheath is set between interior heat pipe outside and both dominant structural moieties to be had
For the space that water at low temperature is touring, trocar sheath has and only when trocar sheath one end has the water inlet of water at low temperature water inlet and works
Have water inlet for open state remainder closing for water inlet, interior-heat pipe has water inlet end and a water side, water inlet end with it is outer
Internal casing space is connected and water inlet end is arranged in trocar sheath away from the other end of its water inlet pipe, and interior-heat pipe has to increase
Plus the agent structure extended in trocar sheath contacted with water at low temperature, interior heat pipe is additionally provided with energization work heating and internal
The electrothermal layer heated in heat pipe, electrothermal layer is arranged on outside quartz glass tube, and there is electrothermal layer strip-type grille to tie
Structure --- i.e. two strip electrodes are arranged along glass tubing diameter parallel, and heating function part is in strip with interval side-by-side parallel ground
It is arranged between strip electrode, during work, the work of electrothermal layer heating power directly heats the current in interior heat pipe, realizes adding immediately
Heat supplies water, while the waste heat of the outside loss of its electrothermal layer is also preheated to the water at low temperature between trocar sheath and interior heat pipe.
Embodiment 4
The touring tubular type efficient energy-saving hydrothermal device of the present embodiment, including the quartz glass tube for flowing and heating that supplies water, stone
English glass tubing includes interior heat pipe and trocar sheath, and trocar sheath is set between interior heat pipe outside and both dominant structural moieties to be had
For the space that water at low temperature is touring, trocar sheath has and only when trocar sheath one end has the water inlet of water at low temperature water inlet and works
Have water inlet for open state remainder closing for water inlet, interior-heat pipe has water inlet end and a water side, water inlet end with it is outer
Internal casing space is connected and water inlet end is arranged in trocar sheath away from the other end of its water inlet pipe, and interior-heat pipe has to increase
Plus the agent structure extended in trocar sheath contacted with water at low temperature, interior heat pipe is additionally provided with energization work heating and internal
The electrothermal layer heated in heat pipe, electrothermal layer is arranged on outside quartz glass tube, electrothermal layer equably integral setting, work
When, the work of electrothermal layer heating power directly heats the current in interior heat pipe, realizes that immediately heating is supplied water, while its electrothermal layer is outside
The waste heat of loss is also preheated to the water at low temperature between trocar sheath and interior heat pipe.
Distinguish with above-described embodiment, the agent structure of interior heat pipe its fold at least partially in the bearing of trend of trocar sheath
Close:The cellular construction of overlapping have one (cellular construction quantity can also for two, three, four, five or more)
And cellular construction is connected each other and makes interior heat pipe integrally have a free air space of insertion, cellular construction its bearing of trend
It is parallel with the bearing of trend of trocar sheath.
Distinguish with above-described embodiment, the agent structure of interior heat pipe its fold at least partially in the bearing of trend of trocar sheath
Close:The cellular construction of overlapping have one (cellular construction quantity can also for two, three, four, five or more)
And cellular construction is connected each other and makes interior heat pipe integrally have a free air space of insertion, cellular construction its bearing of trend
With the bearing of trend of trocar sheath intersecting less than 45° angle degree.
Distinguish with above-described embodiment, the agent structure of interior heat pipe its at least partially in perpendicular to the extension side of trocar sheath
To direction overlapping:The cellular construction of overlapping have one (cellular construction quantity can also for two, three, four, five or
Person more) and cellular construction connect each other and make interior heat pipe that integrally there is the free air space of insertion, cellular construction
Its bearing of trend is vertical with the bearing of trend of trocar sheath.
Distinguish with above-described embodiment, the agent structure of interior heat pipe its at least partially in perpendicular to the extension side of trocar sheath
To direction overlapping:The cellular construction of overlapping have one (cellular construction quantity can also for two, three, four, five or
Person more) and cellular construction connect each other and make interior heat pipe that integrally there is the free air space of insertion, cellular construction
Its bearing of trend and the bearing of trend of trocar sheath more than 45° angle degree intersecting.
Distinguish with above-described embodiment, electrothermal layer is stannic oxide layer.
Distinguish with above-described embodiment, electrothermal layer is micron order stannic oxide layer.Compared with previous embodiment sample at least
Economize on electricity 3-5%.
Distinguish with above-described embodiment, the micron order stannic oxide layer of electrothermal layer, wherein average grain size are 3 microns
(can also for 3.1,3.2,3.3,3.4,3.5,3.6,3.7,3.8,3.9,4,4.1,4.2,4.3,4.4,4.5,4.6,4.7,
4.8th, 4.9,5 and 3-5 micrometer ranges in other arbitrary values).
Distinguish with above-described embodiment, touring tubular type efficient energy-saving hydrothermal device also includes far infrared layer, far infrared layer
At least part of region being arranged on quartz glass tube outside electrothermal layer.
Distinguish with above-described embodiment, far infrared layer is arranged on electrothermal layer outer layer, and be engaged with electrothermal layer size.
At least economize on electricity 3-5% compared with previous embodiment sample, and heat dissipation reduces 10-15%.
Distinguish with above-described embodiment, touring tubular type efficient energy-saving hydrothermal device also includes total reflection layer, total reflection layer
At least part of region being arranged on quartz glass tube outside far infrared layer.
Distinguish with above-described embodiment, total reflection layer is arranged on far infrared layer outer layer, and with far infrared layer size phase
Coordinate.At least economize on electricity 6-8% compared with previous embodiment sample, and heat dissipation reduces 13-18%.
Distinguish with above-described embodiment, far infrared layer is non-conductive material.
Distinguish with above-described embodiment, the radiation reflective that total reflection layer launches on far infrared layer is into quartz glass tube
Side.
Distinguish with above-described embodiment, total reflection layer is the unidirectional specular layer of aluminum rothenio-palladium, and the specular layer is in court
To quartz glass tube side.At least economize on electricity 10-12% compared with previous embodiment sample, and heat dissipation reduces 15-20%.
Distinguish with above-described embodiment, aluminum rothenio-palladium consisting of 0.3-0.7wt% containing palladium, rhodium 200-500ppm,
Balance of aluminum and inevitable impurity.
Distinguish with above-described embodiment, the outer surface of the unidirectional specular layer of totally reflected aluminum rothenio-palladium is also formed with oxygen
Change aluminum overcoat.
Distinguish with above-described embodiment, the oxidation that the outer surface of the unidirectional specular layer of totally reflected aluminum rothenio-palladium is formed
The thickness of aluminum overcoat is 5-10 microns.It is made under the thickness when protective action is played, also with anti-scald and insulation
Effect.
Distinguish with above-described embodiment, the oxidation that the outer surface of the unidirectional specular layer of totally reflected aluminum rothenio-palladium is formed
The thickness of aluminum overcoat is 5 microns, and (thickness of aluminum oxide protective layer can also be following arbitrary:5.1、5.2、5.3、5.4、5.5、
5.6、5.7、5.8、5.9、6、6.1、6.2、6.3、6.4、6.5、6.6、6.7、6.8、6.9、7、7.1、7.2、7.3、7.4、7.5、
7.6、7.7、7.8、7.9、8、8.1、8.2、8.3、8.4、8.5、8.6、8.7、8.8、8.9、9、9.1、9.2、9.3、9.4、9.5、
9.6th, 9.7,9.8,9.9,10 and 5-10 micrometer ranges in other arbitrary values).
Above-mentioned implementations are included, without being limited in interior embodiment, total reflection layer can be adopted and include without limit
In following cited materials Examples:
Materials Example 1
Aluminum rothenio-palladium in the present embodiment is consisting of 0.3wt% containing palladium, rhodium 200ppm, balance of aluminum and inevitably
Impurity.
Materials Example 2
Aluminum rothenio-palladium in the present embodiment is consisting of 0.4wt% containing palladium, rhodium 300ppm, balance of aluminum and inevitably
Impurity.
Materials Example 3
Aluminum rothenio-palladium in the present embodiment is consisting of 0.5wt% containing palladium, rhodium 400ppm, balance of aluminum and inevitably
Impurity.
Materials Example 4
Aluminum rothenio-palladium in the present embodiment is consisting of 0.6wt% containing palladium, rhodium 500ppm, balance of aluminum and inevitably
Impurity.
Materials Example 5
Aluminum rothenio-palladium in the present embodiment is consisting of 0.7wt% containing palladium, rhodium 450ppm, balance of aluminum and inevitably
Impurity.
In the aluminum rothenio-palladium of above-mentioned material embodiment:Palladium content can also be include, without being limited to it is following arbitrary:
0.31wt%, 0.32wt%, 0.33wt%, 0.34wt%, 0.35wt%, 0.36wt%, 0.37wt%, 0.38wt%,
0.39wt%, 0.41wt%, 0.42wt%, 0.43wt%, 0.44wt%, 0.45wt%, 0.46wt%, 0.47wt%,
0.48wt%, 0.49wt%, 0.51wt%, 0.52wt%, 0.53wt%, 0.54wt%, 0.55wt%, 0.56wt%,
0.57wt%, 0.58wt%, 0.59wt%, 0.61wt%, 0.62wt%, 0.63wt%, 0.64wt%, 0.65wt%,
Other arbitrary values in the range of 0.66wt%, 0.67wt%, 0.68wt%, 0.69wt% and 0.3-0.7wt%;Rhodium content may be used also
Think include, without being limited to it is following arbitrary:210ppm、220ppm、230ppm、240ppm、250ppm、260ppm、270ppm、
280ppm、290ppm、310ppm、320ppm、330ppm、340ppm、350ppm、360ppm、370ppm、380ppm、390ppm、
410ppm, 420ppm, 430ppm, 440ppm, 450ppm, 460ppm, 470ppm, 480ppm, 490ppm and 200-500ppm
In the range of other arbitrary values.
The touring tubular type efficient energy-saving hydrothermal device that the present invention program is obtained, wherein in the case of equal bore and flow velocity,
(as water temperature reaches 40 DEG C) power demand under equal use condition reduces by 25% or so, while quartz glass tube outside directly connects
Tactile temperature is less than 50 degrees Celsius at summer, and 40 degrees Celsius are less than during winter.
This place embodiment is in place of the claimed non-limit of technical scope midrange and in embodiment technology
The equal replacement of single or multiple technical characteristics is formed new technical scheme in scheme, equally all in application claims
In the range of protection;Simultaneously the present invention program it is all enumerate or unrequited embodiment in, in the same embodiment each
Parameter is merely representative of an example (i.e. a kind of feasible scheme) of its technical scheme, and does not exist between parameters strict
Cooperation and qualified relation, wherein each parameter can be replaced mutually when stating without prejudice to axiom and the present invention and asking, special declaration
Except.
Technological means disclosed in the present invention program are not limited only to the technological means disclosed in above-mentioned technological means, also include
The technical scheme being made up of above technical characteristic combination in any.The above is the specific embodiment of the present invention, should be referred to
Go out, for those skilled in the art, under the premise without departing from the principles of the invention, can also make some
Improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.
Claims (10)
1. a kind of touring tubular type efficient energy-saving hydrothermal device, including the quartz glass tube for flowing and heating that supplies water, the quartzy glass
Glass pipe includes interior heat pipe and trocar sheath, and the trocar sheath is set between interior heat pipe outside and both dominant structural moieties to be had
For the space that water at low temperature is touring, there be trocar sheath when described trocar sheath one end has the water inlet of water at low temperature water inlet and works
And only water inlet is open state remainder closing for water inlet, the interior-heat pipe has water inlet end and water side, institute
State that water inlet end is connected with trocar sheath inner space and water inlet end is arranged in trocar sheath the other end away from its water inlet pipe, it is described
Interior-heat pipe has to increase the agent structure extended in trocar sheath contacted with water at low temperature, and the interior heat pipe is additionally provided with
The electrothermal layer for generating heat during energization work and internally being heated in heat pipe, the electrothermal layer is arranged at least part of outside interior heat pipe
Region.
2. touring tubular type efficient energy-saving hydrothermal device according to claim 1, it is characterised in that the main body of the interior heat pipe
Structure its at least partially in trocar sheath bearing of trend overlap:The cellular construction of overlapping has at least one and cellular construction is mutual
Between connect and make interior heat pipe that integrally there is the free air space of insertion, the extension of its bearing of trend of cellular construction and trocar sheath
Direction is parallel or with intersecting less than 45° angle degree.
3. touring tubular type efficient energy-saving hydrothermal device according to claim 1, it is characterised in that the main body of the interior heat pipe
Structure its at least partially in the bearing of trend perpendicular to trocar sheath direction overlap:The cellular construction of overlapping have at least one and
Cellular construction is connected each other and makes interior heat pipe integrally have a free air space of insertion, its bearing of trend of cellular construction with
The bearing of trend of trocar sheath is vertically or with intersecting more than 45° angle degree.
4. touring tubular type efficient energy-saving hydrothermal device according to claim 1, it is characterised in that the electrothermal layer is oxidation
Tin layers.
5. touring tubular type efficient energy-saving hydrothermal device according to claim 4, it is characterised in that the electrothermal layer is micron
Level stannic oxide layer.
6. according to the arbitrary described touring tubular type efficient energy-saving hydrothermal device of claim 1-5, it is characterised in that the tour pipe
Formula efficient energy-saving hydrothermal device also includes far infrared layer, and the far infrared layer is arranged on quartz glass tube outside electrothermal layer at least
Subregion.
7. touring tubular type efficient energy-saving hydrothermal device according to claim 6, it is characterised in that the far infrared layer is arranged
In electrothermal layer outer layer, and it is engaged with electrothermal layer size.
8. according to the arbitrary described touring tubular type efficient energy-saving hydrothermal device of claim 1-5, it is characterised in that the tour pipe
Formula efficient energy-saving hydrothermal device also includes total reflection layer, and the total reflection layer is arranged on quartz glass tube outside far infrared layer extremely
Small part region.
9. touring tubular type efficient energy-saving hydrothermal device according to claim 8, it is characterised in that the total reflection layer is arranged
In far infrared layer outer layer, and it is engaged with far infrared layer size.
10. touring tubular type efficient energy-saving hydrothermal device according to claim 9, it is characterised in that the total reflection layer will
The radiation reflective of far infrared layer transmitting is to quartz glass tube inner side.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201611108541.1A CN106595028A (en) | 2016-12-06 | 2016-12-06 | Cyclic tubular energy-saving efficient water heater |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201611108541.1A CN106595028A (en) | 2016-12-06 | 2016-12-06 | Cyclic tubular energy-saving efficient water heater |
Publications (1)
Publication Number | Publication Date |
---|---|
CN106595028A true CN106595028A (en) | 2017-04-26 |
Family
ID=58596393
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201611108541.1A Pending CN106595028A (en) | 2016-12-06 | 2016-12-06 | Cyclic tubular energy-saving efficient water heater |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106595028A (en) |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2005069570A (en) * | 2003-08-25 | 2005-03-17 | Truweal Inc | Clean heater |
CN102410621A (en) * | 2011-12-20 | 2012-04-11 | 王磊 | Rapid water heating device based on carbon fiber far infrared radiation |
CN102840676A (en) * | 2012-09-19 | 2012-12-26 | 张剑锋 | Instant heating type electromagnetic water heater heating element with safe, efficient, and low electromagnetic radiation |
CN103759406A (en) * | 2014-01-24 | 2014-04-30 | 陈国良 | Single-tank, double-pipe and bidirectional electric heating device and air energy instant electric water heater |
CN204730474U (en) * | 2015-07-02 | 2015-10-28 | 黄其杰 | A kind of water heater carbon fiber electrical heating module |
-
2016
- 2016-12-06 CN CN201611108541.1A patent/CN106595028A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2005069570A (en) * | 2003-08-25 | 2005-03-17 | Truweal Inc | Clean heater |
CN102410621A (en) * | 2011-12-20 | 2012-04-11 | 王磊 | Rapid water heating device based on carbon fiber far infrared radiation |
CN102840676A (en) * | 2012-09-19 | 2012-12-26 | 张剑锋 | Instant heating type electromagnetic water heater heating element with safe, efficient, and low electromagnetic radiation |
CN103759406A (en) * | 2014-01-24 | 2014-04-30 | 陈国良 | Single-tank, double-pipe and bidirectional electric heating device and air energy instant electric water heater |
CN204730474U (en) * | 2015-07-02 | 2015-10-28 | 黄其杰 | A kind of water heater carbon fiber electrical heating module |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106595028A (en) | Cyclic tubular energy-saving efficient water heater | |
CN104833090A (en) | Water tank | |
CN106595031A (en) | Energy-saving efficient water heating device | |
CN201811413U (en) | Electromagnetic heat exchanger | |
CN207378369U (en) | A kind of external application formula oil pipeline defroster | |
CN107490185A (en) | A kind of electric heating system of water heater, electric heater and control method | |
CN202048268U (en) | Multifunctional cold and hot water faucet | |
CN205717956U (en) | A kind of water heater heat-insulating circulating system that hot water can be kept to export | |
CN103940127A (en) | Outer coiled tube heater of solar water tank | |
CN209655411U (en) | A kind of high-efficiency heat-accumulating electric heating furnace | |
JP6436332B2 (en) | Water heater and floor heating system | |
CN101773882A (en) | One-piece instantaneous shower set | |
CN204285788U (en) | A kind of warm-air drier with LED | |
CN209415808U (en) | Heat-exchanger rig and solar water heater | |
CN208154800U (en) | A kind of infrared heating water heater | |
CN108692453A (en) | A kind of phase-change accumulation energy magnetic energy water heater | |
CN201335519Y (en) | Energy-saving instant-heating type heater | |
CN101398218B (en) | Carbon-heated immediately heating water heater | |
CN201617739U (en) | One-piece instant heating shower | |
CN110906551A (en) | Electromagnetic heating oil temperature conduction type water heater | |
CN208859847U (en) | A kind of carbon fiber electrically water heater | |
CN108507151A (en) | A kind of infrared heating water heater | |
CN209436974U (en) | A kind of three temperature drinking machine of energy-saving quick heating type | |
CN216409110U (en) | Multifunctional heater of intelligent temperature control system | |
CN204006620U (en) | A kind of multi-functional water heater |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
RJ01 | Rejection of invention patent application after publication |
Application publication date: 20170426 |
|
RJ01 | Rejection of invention patent application after publication |