CN104515176B - Hot water circuit converter - Google Patents
Hot water circuit converter Download PDFInfo
- Publication number
- CN104515176B CN104515176B CN201310488719.XA CN201310488719A CN104515176B CN 104515176 B CN104515176 B CN 104515176B CN 201310488719 A CN201310488719 A CN 201310488719A CN 104515176 B CN104515176 B CN 104515176B
- Authority
- CN
- China
- Prior art keywords
- water
- storage room
- heating
- water storage
- hot water
- 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.)
- Active
Links
Landscapes
- Steam Or Hot-Water Central Heating Systems (AREA)
Abstract
The present invention provides a kind of hot water circuit converter, works between waste-heat recovery device and hot water heating pipe network, its structure includes:Electrically operated valve group, the first water storage room, the second water storage room and one-way cock group;Both first water storage room and the second water storage room structure are identical;Under the control of electrically operated valve group, the job order of hot water circuit converter is:The heating hot water accumulated in first water storage room is supplied water by one-way cock from bottom to hot water heating pipe network;Hot water heating pipe network low-temperature return water enters the first water storage room by electrically operated valve from top;The low temperature heating return water accumulated in second water storage room provides moisturizing by electrically operated valve from top to waste-heat recovery device;Heating hot water from waste-heat recovery device enters the second water storage room by one-way cock from bottom;By setting time, the first water storage room and the second water storage room carry out process contrary to the above respectively.
Description
Technical field
The present invention relates to heat supply process, more particularly to hot water circuit converter.
Background technology
In China's industrial and agricultural production, a large amount of 50-100 DEG C of spent hot water is discharged, since spent hot water contains impurity,
Thermal energy is difficult to recycle, all waste emission.Wherein, the washing slag water of iron and steel enterprise is exactly an exemplary.
China has been the big country of steel production, and the annual output of steel accounts for the 40% of Gross World Product.Either steel-making is gone back
It is ironmaking, a large amount of clinker will be generated.Clinker is accompanied generation with steel, it is the byproduct of smelting iron and steel, and is one
The primary condition of the important metallurgical reaction of series, it directly participates in the physical-chemical reaction and mass-and heat-transfer mistake of steel smelting procedure
Journey, it not only influences iron and steel output, quality, but also has close relationship with the consumption of raw material, energy.
In Ferrous Metallurgy stove, 1400-1500 DEG C of high temperature furnace slag is generated, enters flushing cinder after cinder notch flows out, then through slag runner
When chute, with certain water, hydraulic pressure and the chute gradient, make water with slag stream at certain angle of cut, slag is burst by cold shock
At the qualified grain slag of certain particle size.After pulp water separation, clinker is used as construction material;The flushing cinder of heat exchange is carried out with high temperature furnace slag
Water, into flushing cinder pond.
Flushing cinder pond usually takes up an area thousands of square metres, and hot vapour is emptied above flushing cinder pond, and flushing cinder coolant-temperature gage is maintained at throughout the year
60-80 DEG C, be a huge potential thermal energy energy, if can effectively be used, such as utilizes the heat of washing slag water
Can, winter heats for residential block, can be not only that country saves a large amount of fuel, but also reduces carbon emission, protect environment.
The heat energy recycle problem of washing slag water, there are no be well solved so far.
Due to washing slag water Reusability, the plurality of inorganic salt contained in clinker and oxide have been dissolved into washing slag water, have been formed
The almost saline and alkaline aqueous solution of saturation.During clinker is burst into grain slag by cold shock, some tiny clinker
Into suspending in water.Through actually detected, flushing cinder water turbidity is 60-80mg/l.
Certain heating enterprise, by dividing wall type heat exchanger, by the heat transfer of washing slag water to recirculated water, using recirculated water to residence
It heats in people area.Only one winter, the heating duration less than 4 months, the washing slag water side of dividing wall type heat exchanger, fouling reach 3-5 lis
Rice, dirty layer is hard, becomes loose after weathering.
To think after analysis, the composition of washing slag water fouling in heat exchanger is a variety of inorganic salts containing the crystallization water, such as containing
The silicate of the crystallization water.The hard crystallization incrustation scale of washing slag water, makes dividing wall type heat exchanger almost scrap.
Filter filtering washing slag water is attempted to, to solve the problems, such as washing slag water scaling on heat exchangers.Washing slag water is
The saline-alkali water of Multiple components, for saline-alkali water, filter is completely useless.Saline-alkali water can pass through any filter, and
It has arrived inside heat exchanger, has encountered cold heat exchanger wall surface, saline-alkali water cooling, supersaturation crystallizes on cold wall face at once.
In saline and alkaline aqueous solution, the process of Crystallization is known as crystallizing.There are two types of the method for crystallization is general:It is molten one is evaporating
Agent method, it, which is suitable for temperature, influences solubility little substance.Coastal area produces this method exactly utilized of evaporating brine.Separately
One is the hot saturated solution method of cooling, this method is increased suitable for temperature, solubility also increased substance.Such as the salt of northern area
Lake, summer temperature is high, occurs without crystal on lake surface;Every winter, temperature reduce, crystal soda (Na2CO310H2O), saltcake
(Na2SO410H2O) etc. substances just separate out in salt lake.Washing slag water fouling is cooled down just because of on heat exchanger wall surface
Saline and alkaline hydro-thermal saturated solution, the crystallization of generation.
In industrial or agricultural and people's lives, various sewage are discharged, a portion is that temperature is 50-100 DEG C useless
Hot water, such as washing slag water.Since the impurity component contained in spent hot water is complicated, if recycling heat using common dividing wall type heat exchanger
Can, heat exchanger may be contaminated and cisco unity malfunction soon.
For the recycling problem of spent hot water's thermal energy, a kind of waste-heat recovery device-directly-heated machine using phase-change heat-exchange meet the tendency of and
It is raw, solve the pollution problem of the various impurity heat exchanging devices in spent hot water well.
But spent hot water's phase-change heat-exchanger including directly-heated machine is different from common dividing wall type heat exchanger, it is direct
Contact heat exchanger.It by the steam-heated heating circulation water of spent hot water, is mixed with steam in heat exchanger, heating circulation water is not
It in Bottomhole pressure, but is sprayed in heat exchanger, the water droplet of sprinkling is interrupted flow.Such case just brings a problem:
Heating cycle aquaporin in interrupted heat exchanger, it is impossible to be a part for closed regional hot water heating network, that is, the two
It cannot directly be connected to.
So, how the waste-heat recovery devices such as directly-heated machine are generated into heating circulation hydro-thermal amount and passes into hot water heating pipe
Net, in order to solve this problem, simplest method are exactly to utilize a dividing wall type heat exchanger, and side is hot water floor heating heat
Water flow passage, the other side are the heating circulation water flow passages of directly-heated machine output.
But solve to conduct heat between directly-heated machine and hot water floor heating using dividing wall type heat exchanger, bring two problems:
1, this dividing wall type heat exchanger heat exchange amount is huge, of high cost;
2, the heat transfer temperature difference of dividing wall type heat exchanger makes the heat of output reduce heat supply temperature.
The above-mentioned background technology in relation to heat supply method and heating plant, has a detailed description in following monograph:
1, Harbin Archetectural Engineering College is edited, Heat Supply Engineering, Beijing:China Construction Industry Press, 1989.
2, (U.S.) salad, Sai Kulike write, Cheng Linyi, design of heat exchanger technology, Beijing:China Machine Press, 2010.
3, Chen Dong is thanked after red volume, heat pump techniques handbook, Beijing:Chemical Industry Press, 2012.
Invention content
A kind of hot water circuit converter, works between heating equipment and hot water heating pipe network, its structure includes:It is electronic
Valve group, the first water storage room, the second water storage room and one-way cock group;Both first water storage room and the second water storage room structure are identical;
Under the control of electrically operated valve group, the job order of hot water circuit converter is:The heating hot water accumulated in first water storage room leads to
One-way cock is crossed, is supplied water from bottom to hot water heating pipe network;Hot water heating pipe network low-temperature return water, by electrically operated valve, from top
Into the first water storage room;The low temperature heating return water accumulated in second water storage room is carried by electrically operated valve from top to heating equipment
For moisturizing;Heating hot water from heating equipment enters the second water storage room by one-way cock from bottom;By setting time,
First water storage room and the second water storage room carry out process contrary to the above respectively, i.e.,:The heating hot water accumulated in second water storage room,
By one-way cock, supply water from bottom to hot water heating pipe network;Hot water heating pipe network low-temperature return water, by electrically operated valve, from top
Portion enters the second water storage room;The low temperature heating return water accumulated in first water storage room, by electrically operated valve, from top to heating equipment
Moisturizing is provided;Heating hot water from heating equipment enters the first water storage room by one-way cock from bottom;
(1) the electrically operated valve group described in, it includes 1 controller and 4 electrically operated valves;
(2) the one-way cock group described in, it includes 4 one-way cocks.
The electrically operated valve group, its structure include:Outer circulation return pipe, interior recycling outlet, the first water receiving pipe, second
Water receiving pipe, 4 electrically operated valves and controller;Under the action of controller, the job order of electrically operated valve is
(1) two electrically operated valve is open-minded, and low temperature heating return water is entered by outer circulation return pipe, by the first water receiving pipe, into
Enter the first water storage room;The low temperature heating return water accumulated in second water storage room, by the second water receiving pipe, via interior recycling outlet,
Moisturizing is provided to heating equipment;
(2) pass through setting time, above-mentioned two electrically operated valve is closed, other two electrically operated valve is open-minded, and low temperature heating returns
Water is entered by outer circulation return pipe, by the second water receiving pipe, into the second water storage room;The low temperature heating accumulated in first water storage room
Return water, via interior recycling outlet, moisturizing is provided to heating equipment by the first water receiving pipe;
(3) pass through setting time, above-mentioned two electrically operated valve is closed, returned to (1).
The water storage room, including the first water storage room and the second water storage room, the structure of single water storage room include:Upper hose, on
End socket, cylinder, upper sieve plate, lower sieve plate, low head and downcomer;Individually the work schedule of cistern is:
(1) upper hose of upper cover, connects outer circulation return pipe, and heating low-temperature return water enters water storage room, cocurrent from top
Through upper sieve plate;Due to push effect, the indoor heating hot water of water storage flows through lower sieve plate, follows by the downcomer of low head and outside
Ring outlet pipe, into heating hot water pipe net;
(2) pass through setting time, the heating hot water of heating equipment supply passes through the lower water of interior recirculation return pipe and low head
Pipe, enters water storage room, and flow through lower sieve plate from bottom;Due to push effect, the indoor heating low-temperature return water of water storage flows through sieve
Plate, the upper hose by upper cover and interior recycling outlet, into heating equipment;
(3) pass through setting time, return to (1).
The one-way cock group, its structure include:Outer circulation outlet pipe, interior recirculation return pipe, the first water receiving pipe, second
Water receiving pipe and 4 one-way cocks, the job order of one-way cock are:
(1) two one-way cock is open-minded, and the heating hot water from heating equipment is entered by interior recirculation return pipe, passes through second
Water receiving pipe enters the second water storage room from bottom;The heating hot water accumulated in first water storage room, leads from bottom by the first water receiving pipe
Go out, via outer circulation outlet pipe, supplies water to heating hot water pipe net;
(2) pass through setting time, above-mentioned one-way cock is closed, other two one-way cock is open-minded, from heating equipment
Heating hot water is entered by interior recirculation return pipe, by the first water receiving pipe, enters the first water storage room from bottom;It is stored in second water storage room
Long-pending heating hot water is exported from bottom by the second water receiving pipe, via outer circulation outlet pipe, into heating hot water pipe net;
(3) pass through setting time, above-mentioned two one-way cock is closed, returned to (1).
Description of the drawings
The step of Fig. 1 is hot water circuit conversion method of the present invention is schemed;
Fig. 2 is the water storage room structure chart of hot water circuit converter embodiment of the present invention;
Fig. 3 is the electrically operated valve group structure chart of hot water circuit converter embodiment of the present invention;
Fig. 4 is the one-way cock group structure chart of hot water circuit converter embodiment of the present invention;
Fig. 5 is the overall operation figure of hot water circuit converter embodiment of the present invention.
Specific implementation mode
With reference to the accompanying drawings and examples, present invention is further described in detail.
Fig. 1, which gives the step of hot water circuit conversion method of the present invention, to scheme.
Hot water circuit conversion method of the present invention is to carry out hot water thermal between heating equipment and regional hot water heating network
Measure the method transmitted.Heating equipment includes steam jet heat pump and directly-heated machine, they are all spent hot water's phase-change heat-exchangers, is profit
With the heating equipment of waste heat.It is different from common dividing wall type heat exchanger, they are all direct-contact heat exchangers.It is steamed by spent hot water
The heating circulation water of vapour heating, mixes in heat exchanger with steam, heating circulation water is not instead of in Bottomhole pressure, in heat exchanger
Interior sprinkling, the water droplet of sprinkling are interrupted flows.
Waste-heat recovery device-directly-heated machine or steam jet heat pump, to export pipeline, they are heating equipments, it interior
Portion is interrupted hot water channel, cycle referred to as in hot water;Closed regional hot water heating network, is continuous hot water channel,
Referred to as hot water outer circulation.Hot water circuit conversion method of the present invention is exactly cycle and the side of connection of both hot water outer circulations in hot water
Method.
The step of hot water circuit conversion method of the present invention, is as follows:
1, if there are two water storage rooms:First water storage room 200 and the second water storage room 300;
2, if there are two valve groups:Electrically operated valve group 100 and one-way cock group 400;
3, directly-heated machine generates 65 DEG C of high-temperature water and is passed through interior cycle by the 400 groups of controls of electrically operated valve group 100 and one-way cock
Return pipe 410 enters the first water storage room from 200 bottom of the first water storage room;It is existing inside the first water storage room due to push effect
45 DEG C of water at low temperature are returned to directly-heated machine and are supplied water, go to be heated up from water storage room top by interior recycling outlet 110;
4,45 DEG C of low-temperature return waters of heating are controlled by electrically operated valve group and one-way cock group, by outer circulation return pipe
120, enter the second water storage room from 300 top of the second water storage room;Due to push effect, existing 65 DEG C of height inside the second water storage room
Warm water flows into closed regional hot water heating network, is externally supplied from water storage room bottom by outer circulation outlet pipe 420
Heat;
5, directly-heated machine generates 65 DEG C of high-temperature water, is controlled by electrically operated valve group and one-way cock group, passes through interior recirculation return pipe
410, enter the second water storage room from 300 bottom of the second water storage room;Due to push effect, 300 inside existing 45 of the second water storage room
DEG C water at low temperature is returned to directly-heated machine and is supplied water, go to be heated up from water storage room top by interior recycling outlet 110;
6,45 DEG C of low-temperature return waters of heating are controlled by electrically operated valve group and one-way cock group, by outer circulation return pipe
120, enter the first water storage room from 200 top of the first water storage room;Due to push effect, existing 65 DEG C of height inside the first water storage room
Warm water flows into closed regional hot water heating network, is externally supplied from water storage room bottom by outer circulation outlet pipe 420
Heat;
7,3 are returned to, is carried out repeatedly.
Fig. 2 gives the water storage room structure chart of hot water circuit converter embodiment of the present invention.
There are two water storage rooms for hot water circuit converter embodiment of the present invention:First water storage room and the second water storage room, two storages
Pool construction is just the same, and function is also identical, and only at work, two cistern Inlet and outlet water having times are poor.
The structure of cistern includes:Upper hose 210, upper cover 215, cylinder 230, upper sieve plate 225, lower sieve plate 235, lower envelope
First 240 and downcomer 245.
Individually the work schedule of cistern is:
(1) upper hose 210 of upper cover 215 connects outer circulation return pipe by electrically operated valve group, receives 45 DEG C of heating
Return water.Due to push effect, the indoor 65 DEG C of hot water of water storage, by the downcomer 245 of low head 240, by one-way cock group,
Logical outer circulation outlet pipe, provides district heating pipe network, as heating hot water.
(2) after cistern is full of 45 DEG C of water, the upper hose 210 of upper cover 215 connects interior cycle by electrically operated valve group
Outlet pipe, indoor 45 DEG C of the heating water return of water storage is supplied to directly-heated machine by interior recycling outlet, as upper water.Meanwhile
Under the action of interior circulating hot-water pump, 65 DEG C of heating hot water of directly-heated machine supply passes through interior recirculation return pipe and one-way cock
Group, by the downcomer 245 of low head 240, into cistern.
(3) it after cistern is full of 65 DEG C of water, returns to (1).
It will be clear that the selection flowed in one-way cock group, is the heating water return pressure under electrically operated valve control
With the coefficient result of interior circulating hot-water pump.The indoor 65 DEG C of water of water storage, flows out from water storage room through one-way cock, is due to storing
45 DEG C of heating water return of hydroecium upper hose 210 enters, the result squeezed 65 DEG C of water;65 DEG C of supplying hot waters enter through one-way cock
Water storage room squeezes 45 DEG C of heating water return and flows out water storage room, is the control due to electrically operated valve group and interior circulating hot water pumping action
Result.
Fig. 3 gives the electrically operated valve group structure chart of hot water circuit converter embodiment of the present invention.
The electrically operated valve group of hot water circuit converter embodiment of the present invention, its structure include:Outer circulation return pipe 120,
Interior recycling outlet 110, the first water receiving pipe 130, the second water receiving pipe 140, electrically operated valve 131, electrically operated valve 132, electrically operated valve
133, electrically operated valve 134 and controller 150.4 electrically operated valves form a bridge type return, it has 4 inlet and outlet.
Under the action of controller 150, the job order of electrically operated valve group is
1, electrically operated valve 131 and electrically operated valve 134 are open-minded simultaneously, and two-way flow starts:
It is all the way:45 DEG C of low temperature heating return water is entered by outer circulation return pipe 120, by electrically operated valve 131, passes through
One water receiving pipe 130, into the first water storage room;
Another way is:45 DEG C of the low temperature heating return water accumulated in second water storage room, is entered by the second water receiving pipe 140, is led to
Electrically operated valve 134 is crossed, via interior recycling outlet 110, moisturizing is provided to directly-heated machine.
2, by setting time, electrically operated valve 131 and electrically operated valve 134 simultaneously close off.
3, electrically operated valve 132 and electrically operated valve 133 are open-minded simultaneously, have other two-way flow to start:
It is all the way:45 DEG C of low temperature heating return water is entered by outer circulation return pipe 120, by electrically operated valve 132, passes through
Two water receiving pipes 140, into the second water storage room;
Another way is:45 DEG C of the low temperature heating return water accumulated in first water storage room, is entered by the first water receiving pipe 130, is led to
Electrically operated valve 133 is crossed, via interior recycling outlet 110, moisturizing is provided to directly-heated machine.
4, by setting time, electrically operated valve 132 and electrically operated valve 133 simultaneously close off.
5, return to 1.
Fig. 4 gives the one-way cock group structure chart of hot water circuit converter embodiment of the present invention.
The one-way cock group of hot water circuit converter embodiment of the present invention shares 4 one-way cocks, forms a bridge-type and returns
Road, it has 4 inlet and outlet.
The structure of one-way cock group includes:Outer circulation outlet pipe 420, interior recirculation return pipe 410, the first water receiving pipe 430, the
Two water receiving pipes 440, one-way cock 431, one-way cock 432, one-way cock 433 and one-way cock 434.
The job order of one-way cock group is
1, one-way cock 432 and one-way cock 433 are open-minded simultaneously, there is the startup of two-way flow:
It is all the way:65 DEG C of the heating hot water from directly-heated machine is entered by interior recirculation return pipe 410, passes through one-way cock
432, by the second water receiving pipe 440, enter the second water storage room from bottom;
Another way is:65 DEG C of the heating hot water that bottom is accumulated in first water storage room, is exported by the first water receiving pipe 430, is led to
One-way cock 433 is crossed, via outer circulation outlet pipe 420, is supplied water to district heating heat supply network.
2, by setting time, one-way cock 432 and one-way cock 433 simultaneously close off.
3, one-way cock 431 and one-way cock 434 are open-minded simultaneously, and in addition two-way flow starts:
It is all the way:65 DEG C of the heating hot water from directly-heated machine is entered by interior recirculation return pipe 410, passes through one-way cock
431, by the first water receiving pipe 430, enter the first water storage room from bottom;
Another way is:65 DEG C of the heating hot water that bottom is accumulated in second water storage room, is exported by the second water receiving pipe 440, is led to
One-way cock 434 is crossed, via outer circulation outlet pipe 420, is supplied water to district heating heat supply network.
4, by setting time, one-way cock 431 and one-way cock 434 simultaneously close off.
5, return to 1.
It is noted that the power of one-way cock switch, until the pressure of interior circulating backwater and outer circulation return water, and it is unidirectional
Valve event sequence is determined by aforementioned electrically operated valve sequence of movement.That is, the flow that electrically operated valve is opened, passes through water storage room
Afterwards, corresponding one-way cock is pushed open.
Fig. 5 is the overall operation figure of hot water circuit converter embodiment of the present invention.
The overall structure of hot water circuit converter embodiment of the present invention, it includes:Electrically operated valve group, the first water storage room 200,
Second water storage room 300, one-way cock group.
Under the action of controller 150, the job order of hot water circuit converter is
1, electrically operated valve 131 and electrically operated valve 134 are open-minded simultaneously, and two-way flow starts:
It is all the way:45 DEG C of low temperature heating return water is entered by outer circulation return pipe 120, by electrically operated valve 131, passes through
One water receiving pipe, into the first water storage room;65 DEG C of the heating hot water that bottom is accumulated in first water storage room, is led by the first water receiving pipe
Go out, is supplied water to district heating heat supply network via outer circulation outlet pipe 420 by one-way cock 433.
Another way is:45 DEG C of the low temperature heating return water accumulated in second water storage room is exported by the second water receiving pipe, passes through electricity
Movable valve 134 provides moisturizing via interior recycling outlet 110 to directly-heated machine;65 DEG C of the heating hot water from directly-heated machine is by interior
Recirculation return pipe 410 enters, and by one-way cock 432, by the second water receiving pipe, enters the second water storage room from bottom.
2, by setting time, electrically operated valve 131 and electrically operated valve 134 simultaneously close off.
3, electrically operated valve 132 and electrically operated valve 133 are open-minded simultaneously, have other two-way flow to start:
It is all the way:45 DEG C of low temperature heating return water is entered by outer circulation return pipe 120, by electrically operated valve 132, passes through
Two water receiving pipes, into the second water storage room;65 DEG C of the heating hot water that bottom is accumulated in second water storage room, is led by the second water receiving pipe
Go out, is supplied water to district heating heat supply network via outer circulation outlet pipe 420 by one-way cock 434.
Another way is:45 DEG C of the low temperature heating return water accumulated in first water storage room is exported by the first water receiving pipe, passes through electricity
Movable valve 133 provides moisturizing via interior recycling outlet 110 to directly-heated machine;65 DEG C of the heating hot water from directly-heated machine is by interior
Recirculation return pipe 410 enters, and by one-way cock 431, by the first water receiving pipe, enters the first water storage room from bottom.
4, by setting time, electrically operated valve 132 and electrically operated valve 133 simultaneously close off.
5, return to 1.
Claims (4)
1. a kind of hot water circuit converter, works between heating equipment and hot water heating pipe network, its structure includes:Motor-driven valve
Door group, the first water storage room, the second water storage room and one-way cock group;Both first water storage room and the second water storage room structure are identical;?
Under the control of electrically operated valve group, the job order of hot water circuit converter is:The heating hot water accumulated in first water storage room, passes through
One-way cock supplies water from bottom to hot water heating pipe network;Hot water heating pipe network low-temperature return water, by electrically operated valve, from top into
Enter the first water storage room;The low temperature heating return water accumulated in second water storage room is provided by electrically operated valve from top to heating equipment
Moisturizing;Heating hot water from heating equipment enters the second water storage room by one-way cock from bottom;By setting time,
One water storage room and the second water storage room carry out process contrary to the above respectively, i.e.,:The heating hot water accumulated in second water storage room leads to
One-way cock is crossed, is supplied water from bottom to hot water heating pipe network;Hot water heating pipe network low-temperature return water, by electrically operated valve, from top
Into the second water storage room;The low temperature heating return water accumulated in first water storage room is carried by electrically operated valve from top to heating equipment
For moisturizing;Heating hot water from heating equipment enters the first water storage room by one-way cock from bottom, it is characterised in that:
(1) the electrically operated valve group described in, it includes 1 controller and 4 electrically operated valves;
(2) the one-way cock group described in, it includes 4 one-way cocks.
2. hot water circuit converter described in accordance with the claim 1, it is characterised in that:The electrically operated valve group, its structure packet
It includes:Outer circulation return pipe, interior recycling outlet, the first water receiving pipe, the second water receiving pipe, 4 electrically operated valves and controller;It is controlling
Under the action of device, the job order of electrically operated valve is:
(1) two electrically operated valve is open-minded, and low temperature heating return water is entered by outer circulation return pipe, by the first water receiving pipe, into
One water storage room;The low temperature heating return water accumulated in second water storage room, by the second water receiving pipe, via interior recycling outlet, to confession
Hot equipment provides moisturizing;
(2) pass through setting time, above-mentioned two electrically operated valve close, other two electrically operated valve is open-minded, low temperature heating return water by
Outer circulation return pipe enters, by the second water receiving pipe, into the second water storage room;The low temperature heating accumulated in first water storage room returns
Water, via interior recycling outlet, moisturizing is provided to heating equipment by the first water receiving pipe;
(3) pass through setting time, above-mentioned two electrically operated valve is closed, returned to (1).
3. hot water circuit converter described in accordance with the claim 1, it is characterised in that:The water storage room, including the first water storage room
Structure with the second water storage room, single water storage room includes:Upper hose, upper cover, cylinder, upper sieve plate, lower sieve plate, low head is under
Water pipe;Individually the work schedule of cistern is:
(1) upper hose of upper cover connects outer circulation return pipe, and heating low-temperature return water enters water storage room from top, and flows through
Sieve plate;Due to push effect, the indoor heating hot water of water storage flows through lower sieve plate, is gone out by the downcomer and outer circulation of low head
Water pipe, into heating hot water pipe net;
(2) pass through setting time, the heating hot water of heating equipment supply, by the downcomer of interior recirculation return pipe and low head,
Enter water storage room from bottom, and flows through lower sieve plate;Due to push effect, the indoor heating low-temperature return water of water storage flows through upper sieve plate,
Upper hose by upper cover and interior recycling outlet, into heating equipment;
(3) pass through setting time, return to (1).
4. hot water circuit converter described in accordance with the claim 1, it is characterised in that:The one-way cock group, its structure packet
It includes:Outer circulation outlet pipe, interior recirculation return pipe, the first water receiving pipe, the second water receiving pipe and 4 one-way cocks, the work of one-way cock
Work sequence be:
(1) two one-way cock is open-minded, and the heating hot water from heating equipment is entered by interior recirculation return pipe, passes through the second water receiving
Pipe enters the second water storage room from bottom;The heating hot water accumulated in first water storage room, exports from bottom by the first water receiving pipe, passes through
By outer circulation outlet pipe, supply water to heating hot water pipe net;
(2) pass through setting time, above-mentioned one-way cock is closed, other two one-way cock is open-minded, the heating from heating equipment
Hot water is entered by interior recirculation return pipe, by the first water receiving pipe, enters the first water storage room from bottom;It is accumulated in second water storage room
Heat hot water, is exported from bottom by the second water receiving pipe, via outer circulation outlet pipe, into heating hot water pipe net;
(3) pass through setting time, above-mentioned two one-way cock is closed, returned to (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201310488719.XA CN104515176B (en) | 2013-10-01 | 2013-10-01 | Hot water circuit converter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201310488719.XA CN104515176B (en) | 2013-10-01 | 2013-10-01 | Hot water circuit converter |
Publications (2)
Publication Number | Publication Date |
---|---|
CN104515176A CN104515176A (en) | 2015-04-15 |
CN104515176B true CN104515176B (en) | 2018-10-30 |
Family
ID=52790868
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201310488719.XA Active CN104515176B (en) | 2013-10-01 | 2013-10-01 | Hot water circuit converter |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN104515176B (en) |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS61295466A (en) * | 1985-06-24 | 1986-12-26 | Daiwa House Ind Co Ltd | Boiler used both for hot water supply and for space heating |
CN1038342A (en) * | 1988-05-31 | 1989-12-27 | 株式会社三丰 | Has the capacitive type measurement transducer that improves electrode spread |
CN102084190A (en) * | 2009-04-21 | 2011-06-01 | 松下电器产业株式会社 | Hot water storage-type hot water supply device, hot water supply and heating device, operation control device, operation control method, and program |
CN202092224U (en) * | 2011-04-01 | 2011-12-28 | 厦门同力节能科技有限公司 | Multi-stage flow-varied hot-water supply device |
CN102483243A (en) * | 2009-08-25 | 2012-05-30 | 迈克尔·洛夫勒 | Symmetrical intermediate reservoir for a heat pump with cyclic drainage into a primary system |
CN202885076U (en) * | 2012-10-08 | 2013-04-17 | 广东美的电器股份有限公司 | Air source heat pump hot-water system |
CN103184299A (en) * | 2012-07-26 | 2013-07-03 | 哈尔滨工大金涛科技股份有限公司 | Heat recovery method and heat recovery device for slag flushing water of iron and steel plant |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6991028B2 (en) * | 2004-01-29 | 2006-01-31 | Comeaux Vernal J | Thermal reservoir for two-pipe hydronic air-conditioning system |
-
2013
- 2013-10-01 CN CN201310488719.XA patent/CN104515176B/en active Active
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS61295466A (en) * | 1985-06-24 | 1986-12-26 | Daiwa House Ind Co Ltd | Boiler used both for hot water supply and for space heating |
CN1038342A (en) * | 1988-05-31 | 1989-12-27 | 株式会社三丰 | Has the capacitive type measurement transducer that improves electrode spread |
CN102084190A (en) * | 2009-04-21 | 2011-06-01 | 松下电器产业株式会社 | Hot water storage-type hot water supply device, hot water supply and heating device, operation control device, operation control method, and program |
CN102483243A (en) * | 2009-08-25 | 2012-05-30 | 迈克尔·洛夫勒 | Symmetrical intermediate reservoir for a heat pump with cyclic drainage into a primary system |
CN202092224U (en) * | 2011-04-01 | 2011-12-28 | 厦门同力节能科技有限公司 | Multi-stage flow-varied hot-water supply device |
CN103184299A (en) * | 2012-07-26 | 2013-07-03 | 哈尔滨工大金涛科技股份有限公司 | Heat recovery method and heat recovery device for slag flushing water of iron and steel plant |
CN202885076U (en) * | 2012-10-08 | 2013-04-17 | 广东美的电器股份有限公司 | Air source heat pump hot-water system |
Also Published As
Publication number | Publication date |
---|---|
CN104515176A (en) | 2015-04-15 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN109457070A (en) | Blast furnace grain slag process steam disappears and heat recovery system | |
CN2926914Y (en) | Waste heat recovery type heat pump water heater | |
CN101462809A (en) | Comprehensive recovery method for heat energy and water from printing and dyeing industry wastewater and heat-exchanging system | |
CN1862208A (en) | Device for recovering waste water and waste heat | |
CN207050270U (en) | A kind of sulfur removal technology residual neat recovering system | |
CN103060496A (en) | Method and system suitable for recovering waste heat of blast furnace slag flushing water | |
CN103185331A (en) | Medium-high temperature waste water heat energy recovery method and device | |
CN104913294B (en) | A kind of power plant boiler smoke waste heat recovery system | |
CN105222146A (en) | A kind of flue gas waste heat recovery apparatus | |
CN103184299B (en) | Heat recovery method and heat recovery device for slag flushing water of iron and steel plant | |
CN108534127A (en) | A kind of boiler supply water deaerating system | |
CN201803598U (en) | Device for recovering waste heat of baking furnace | |
CN105091062B (en) | Directly-heated machine | |
CN202132931U (en) | System for recycling residual heat of discharged sewage of boiler | |
CN214370122U (en) | Steam waste heat recycling system for aerated brick production | |
CN104515176B (en) | Hot water circuit converter | |
CN202415575U (en) | System for utilizing waste heat of slag quenching water of blast furnace | |
CN209292376U (en) | Blast furnace grain slag process steam disappears and heat recovery system | |
CN209399804U (en) | Boiler steam condensate-water utilizes system | |
CN202808950U (en) | Cold-rolling titanium belt degreasing process device | |
CN203949348U (en) | Continous way electric water-boiling device | |
CN203656899U (en) | Waste heat boiler blowdown heat exchange device | |
CN102313454A (en) | Waste heat recovery device of calcinator | |
CN203820804U (en) | System for preheating boiler water by washing blast furnace slag water | |
CN201626849U (en) | Horizontal tube falling film evaporation device utilizing solar energy or waste heat |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20230414 Address after: Room 402, Building A, No. 20 Xinghai Road, Hanan Industrial New City, Harbin Economic and Technological Development Zone, Harbin City, Heilongjiang Province, 150000 Patentee after: HIT (HARBIN INSTITUTE OF TECHNOLOGY) KINT TECHNOLOGY Co.,Ltd. Address before: 150100 Xinxing Village, Xinxing Township, Shuangcheng City, Heilongjiang Province Patentee before: HEILONGJIANG JINYONG SCIENCE AND TECHNOLOGY DEVELOPMENT Co.,Ltd. |