CN103216931A - Electric heating energy-saving boiled water production line - Google Patents
Electric heating energy-saving boiled water production line Download PDFInfo
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- CN103216931A CN103216931A CN201310178701XA CN201310178701A CN103216931A CN 103216931 A CN103216931 A CN 103216931A CN 201310178701X A CN201310178701X A CN 201310178701XA CN 201310178701 A CN201310178701 A CN 201310178701A CN 103216931 A CN103216931 A CN 103216931A
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Abstract
The invention provides four schemes for an electric heating energy-saving boiled water production line and four schemes for a fuel-burning energy-saving boiled water production line, i.e., eight new energy-saving boiled water production lines in all. A heat pipe exchanger, a plate type heat exchanger, a tubular heat exchanger or a tube-in-tube heat exchanger and an electric water boiler or a fuel-burning water boiler are combined with a boiled water bottling production line, so as to form various plain boiled water production lines (saving energy by 60 percent above), and therefore, the electric heating energy-saving boiled water production line is suitable for use for manufacturers who produce drinking water on a large scale, and more suitable for use for entrepreneurs who build a new factory for producing healthy drinking plain boiled water.
Description
Technical field: the present invention is a kind of boiling water production line, especially a kind of electrothermal energy saving water boiling production line.
Background technology: in drinking water manufacturing technology field, pure water is arranged, production technologies such as mineral matter drinking water all are not energy-conservation, it is that the heat transfer power-saving technology is isolated in the circulation of burning combustion gas that a kind of energy-conservation mode of boiling water is arranged, do not find to utilize the electric heating mode of heating, adopt heat exchanger, heat pipe circulation preheating is used in reality and open issue in relevant patent scientific paper with the technology that plain boiled water is produced in cooling, the present invention promptly opens up a new approach in the present technique field, the novel sterilization plain boiled water production line of drinking of design one cover, be used for large-scale production and drink plain boiled water supply consumers in general, realize the environmental protection purpose of energy-saving and emission-reduction.
Summary of the invention: the problem that the present invention mainly solves is after the common direct electrical heating of running water up to standard is reached the above temperature sterilization of 99 degree, by the exchange of heat pipe cycling hot, utilize the adopting heat pipes for heat transfer function to be preheated to 60 degree from the 25-30 degree and to enter the electrical heated pipings section after above and reflux to lower the temperature after electrical heating reaches the above temperature sterilization of 99 degree again and repeat to start described process preparing to be used to heat the running water of producing boiling water.Produce the drinking water of criterion of acceptability by this technology, its production cost, promptly the required heat energy of its heat sterilization is reduced to about 40% by original 100% and gets final product.This is the main purpose that this falls in economize on electricity of the present invention.
Specific embodiment: by square large pipeline 1, electrothermal tube 2, heat pipe exchanger dividing plate 3, unidirectional heat transfer heat pipe 4, from the beginning water valve 5, boiled water pail 6, power switch 7, bottling product line 8, magnetic valve temperature probe 9, temperature controller 10, temperature control valve 11, etc. parts form.
Concrete number of assembling steps is: at first electrothermal tube (2) is installed and is electrically connected with power switch (7) at the boiling water heating clamber of the end of square large pipeline (1); Temperature control valve (11) then is installed at the warm water inlet of the terminal heating clamber of square large pipeline (1) or at front end cold water inlet place, is electrically connected with power switch (7) at boiling water exit, the below plug-in mounting temperature probe (9) of the terminal heating clamber of square large pipeline (1) and with temperature controller (10); The monoblock heat pipe exchanger that heat pipe exchanger dividing plate (3) boring is formed by heat pipe (4) solid welding of the some unidirectional heat transfers of Chinese character pin-shaped plug-in mounting is packed into and is fixed in the tube chamber of square pipeline (1) then, front end at square pipeline (1) picks out lower intake respectively and connects water valve (5) and boiled water pail (6) from the beginning respectively then, and the delivery port of boiled water pail (6) and bottling product line (8) are connected and installed forms dress water bottle production line continuously; So far, the assembling of electrothermal energy saving water boiling production line is finished, and can test-manufacture and use.
Except aforementioned first scheme, alternative plan of the present invention is: the heat pipe exchanger that adopts present general heat-exchangers of the plate type to replace in first scheme is combined into second kind of plain boiled water economize on electricity production line.Concrete number of assembling steps is: adopt the water inlet of existing electric heater to be connected with one of them delivery port of heat-exchangers of the plate type, delivery port with electric heater is connected with one of them water inlet of heat-exchangers of the plate type then, then another water inlet with heat-exchangers of the plate type is connected with running water switch, and another delivery port with heat-exchangers of the plate type is connected with the water inlet of plain boiled water water butt at last.Certainly, can also adopt tubular type, tube-in-tube heat exchanger to replace the heat pipe exchanger of first alternative plan and the energy-conservation production line of novel plain boiled water that heat-exchangers of the plate type is combined into the three or four kind of scheme.In addition, also can adopt the heat pipe exchanger of drinking water boiler and aforementioned four kinds of schemes, heat-exchangers of the plate type, tubing heat exchanger, existing general heat exchanger such as tube-in-tube heat exchanger makes up the boiling water barrelling respectively, bottling product line constitutes the 5th, six, seven, eight kind of fuel burning, as the energy-conservation production line equipment series of novel plain boiled water of multiple model forms such as coal, faggot, combustion gas, biogas, abbreviate the energy-conservation production line of novel plain boiled water as.Concrete assembling is assembled by schematic representations:
Fig. 1 is the present invention's first scheme implementation assembling schematic diagram.
Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8 are the second enforcement sketches to all directions case.
Operation principle: the course of work of apparatus of the present invention scheme one is: when the user turns down the control temperature of temperature controller 10, allow temperature-sensing valve 11 open automatically, then will be from the beginning water valve 5 open and allow running water flow into that pipeline enters electrothermal tube 2 heating clambers on the heat pipe exchanger.Then stamping power switch 7 allows electrothermal tube 2 begin to add hot tap-water and the water valve of cutting out boiled water pail 6 tops does not allow cold water flow into water butt, adjust temperature controller to 99 degree then, allow temperature-sensing valve 1 close automatically, treat that a few minutes open bucket 6 top water valves, the water temperature liter in the heating clamber reached the open automatically temperature-sensing valve of 99 temperature controllers when spending and waited to bottle by flowing into to store the boiled water pail 6 from pipeline down by boiling water this moment, started bottling product line then and began bottling and manufacture a finished product and drink plain boiled water.In aforesaid production flow process, crucial electricity principle is, when the plain boiled water after being heated to 99 degree kill bacteria flows through the following pipeline of heat pipe exchanger, the opposite heat tube hypomere is actual to be heated, the heat pipe hypomere has absorbed the heat of plain boiled water in other words conj.or perhaps, at this moment, heat pipe hypomere endotherm section heat absorption back becomes gas to the working medium liquid water heating evaporation in the pipe and rises to the heat pipe epimere and emit heat the running water that flows through is carried out preheating.Flow through the in other words running water of heat pipe epimere has absorbed heat that the heat pipe epimere the is called condensation segment again temperature that raise.Be condensed into and become steam after the heat absorption of current hypomere again and rise to the heat pipe epimere again and repeat aforementioned process owing to the steam of heat pipe epimere loses heat at the same time, since be loaded on heat pipe exchanger up and down ducted heat pipe be that the Chinese character pin-shaped comb of One's name is legion absorbs heat at the same time and conducts heat so cold water that epimere flows through then gradually is preheating to high temperature by heat pipe from low temperature, reach at last 60 spend about.Return the plain boiled water that comes out from heating clamber and just flowed into boiled water pail below absorbing and cooling temperature to 40 degree gradually by heat pipe from 99 degree of high temperature, this running water that is elevated to about 60 degree through preheating enters heating clamber, only need to consume the heat that only needs to absorb 40% the electric energy in other words temperature that just can raise and reach 99 degree, the maximum temperature of promptly sterilizing has reached us and has produced the purpose of drinking plain boiled water.Energy-conservation thus economize on electricity in other words economizes the electricity charge and reaches about 60%, and this is an electricity principle.
Social effect: the present invention has the performance of economize on electricity 60%, can reduce the production cost of drinking plain boiled water, more can satisfy the human pure water of drinking no mineral materials and the mineral water that carries disease germs and the unhealthy custom of running water of taking leave of, started and drunk the healthy plain boiled water epoch, can at home and abroad apply as the present invention, to produce important practical sense to social environment, human health, energy-saving and emission-reduction aspect.
Claims (8)
- The energy-conservation plain boiled water production line of electrothermal comprise square large pipeline 1, electrothermal tube 2, heat pipe exchanger dividing plate 3, unidirectional heat transfer heat pipe 4, from the beginning water valve 5, boiled water pail 6, power switch 7, bottling product line 8, magnetic valve temperature probe 9, temperature controller 10, temperature control valve 11, etc. parts form;Concrete number of assembling steps is: at first electrothermal tube (2) is installed and is electrically connected with power switch (7) at the boiling water heating clamber of the end of square large pipeline (1); Temperature control valve (11) then is installed at the warm water inlet of the terminal heating clamber of square large pipeline (1) or at front end cold water inlet place, is electrically connected with power switch (7) at boiling water exit, the below plug-in mounting temperature probe (9) of the terminal heating clamber of square large pipeline (1) and with temperature controller (10); The monoblock heat pipe exchanger that heat pipe exchanger dividing plate (3) boring is formed by heat pipe (4) solid welding of the some unidirectional heat transfers of Chinese character pin-shaped plug-in mounting is packed into and is fixed in the tube chamber of square pipeline (1) then, front end at square pipeline (1) picks out lower intake respectively and connects water valve (5) and boiled water pail (6) from the beginning respectively then, and the delivery port of boiled water pail (6) and bottling product line (8) are connected and installed forms dress water bottle production line continuously.
- 2. second embodiment of electrothermal energy saving water boiling production line: the heat pipe exchanger that adopts general heat-exchangers of the plate type now to replace in first scheme is formed second kind of boiling water economize on electricity production line, and concrete number of assembling steps is: adopt the water inlet of existing electric heater to be connected with one of them delivery port of heat-exchangers of the plate type.
- 3. third party's case of electrothermal energy saving water boiling production line is that the heat pipe exchanger that adopts existing tubing heat exchanger to replace first scheme constitutes the third energy saving water boiling production line.
- 4. the cubic case of electrothermal energy saving water boiling production line is to adopt ready-made bushing type temperature interchanger to constitute the 4th kind of energy-conservation production line of plain boiled water.
- 5. the 5th scheme of energy saving water boiling production line is to adopt boiler existing combustion of fossil fuels or biomass fuel, heat pipe exchanger, and bottling product line constitutes the 5th kind of energy saving water boiling production line.
- 6. the 6th scheme of energy saving water boiling production line is to adopt existing boiler, and heat-exchangers of the plate type, bottling product line assembling connect and compose the 6th kind of energy saving water boiling production line.
- 7. the 7th scheme of energy saving water boiling production line is to adopt existing boiler and tubing heat exchanger, bottling product line to constitute the 7th kind of energy-conservation production line of boiling water.
- 8. according to the described device of claim 1, assembling is connected other parts and constitutes the 8th kind of energy saving water boiling production line the boiling water heating clamber that it is characterized in that adopting existing boiler and tube-in-tube heat exchanger to replace first scheme with heat pipe exchanger.
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CN201310178701.XA CN103216931B (en) | 2013-05-15 | 2013-05-15 | Electrothermal energy saving boiling water product line device |
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CN201310178701.XA CN103216931B (en) | 2013-05-15 | 2013-05-15 | Electrothermal energy saving boiling water product line device |
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CN103216931B CN103216931B (en) | 2015-11-25 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103438570A (en) * | 2013-09-05 | 2013-12-11 | 广西玉林宏江能源科技有限公司 | Fast-heating and fast-cooling water storage type tap water power-saving boiled water production machine |
Citations (7)
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CN2099938U (en) * | 1991-04-27 | 1992-03-25 | 王庆华 | Non-pressure multipurpose hot-water supply boiler |
CN1121166A (en) * | 1995-07-26 | 1996-04-24 | 覃祖柱 | Heat energy-reusing enery-saving water boiling method and apparatus |
CN1130747A (en) * | 1995-03-09 | 1996-09-11 | 于兆范 | Full heat pipe boiler |
US20020186969A1 (en) * | 2001-06-12 | 2002-12-12 | Henry Sam W. | Intergral heating and cooling unit |
CN1428579A (en) * | 2001-12-27 | 2003-07-09 | 高玉国 | Power-saving water heater |
CN1908543A (en) * | 2006-08-02 | 2007-02-07 | 广东美的电器股份有限公司 | Air source heat pump boiler |
CN102393063A (en) * | 2011-11-14 | 2012-03-28 | 赵金举 | Warm type electric water boiler |
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2013
- 2013-05-15 CN CN201310178701.XA patent/CN103216931B/en not_active Expired - Fee Related
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2099938U (en) * | 1991-04-27 | 1992-03-25 | 王庆华 | Non-pressure multipurpose hot-water supply boiler |
CN1130747A (en) * | 1995-03-09 | 1996-09-11 | 于兆范 | Full heat pipe boiler |
CN1121166A (en) * | 1995-07-26 | 1996-04-24 | 覃祖柱 | Heat energy-reusing enery-saving water boiling method and apparatus |
US20020186969A1 (en) * | 2001-06-12 | 2002-12-12 | Henry Sam W. | Intergral heating and cooling unit |
CN1428579A (en) * | 2001-12-27 | 2003-07-09 | 高玉国 | Power-saving water heater |
CN1908543A (en) * | 2006-08-02 | 2007-02-07 | 广东美的电器股份有限公司 | Air source heat pump boiler |
CN102393063A (en) * | 2011-11-14 | 2012-03-28 | 赵金举 | Warm type electric water boiler |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103438570A (en) * | 2013-09-05 | 2013-12-11 | 广西玉林宏江能源科技有限公司 | Fast-heating and fast-cooling water storage type tap water power-saving boiled water production machine |
CN103438570B (en) * | 2013-09-05 | 2015-12-02 | 广西玉林宏江能源科技有限公司 | Fast hot rapid cooling storage-type running water economize on electricity boiling water production machine |
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