CN100424438C - Multiple heat source automatic hot water supply system - Google Patents

Multiple heat source automatic hot water supply system Download PDF

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Publication number
CN100424438C
CN100424438C CNB2006100125125A CN200610012512A CN100424438C CN 100424438 C CN100424438 C CN 100424438C CN B2006100125125 A CNB2006100125125 A CN B2006100125125A CN 200610012512 A CN200610012512 A CN 200610012512A CN 100424438 C CN100424438 C CN 100424438C
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China
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storage tank
hot water
water
housed
temperature sensor
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Expired - Fee Related
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CNB2006100125125A
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CN1821678A (en
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赵振田
赵宁
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/44Heat exchange systems

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Abstract

The present invention relates to a multi-heat source automatic hot water supply system which comprises a solar energy heat collector, a water storage tank, a heating heat exchanger and a water supply pipe, wherein the water supply pipe enters the water storage tank via the upper part of the side wall of the water storage tank and extends towards the bottom of the water storage tank; the heating heat exchanger is positioned at the lower part of the water storage tank. The present invention is characterized in that the present invention also comprises a hot water circulating pipeline, an automatic control instrument, a temperature sensor, a water level sensor, an electromagnetic valve, a hot water circulating pump, a heat collecting circulating pump, a pipeline electromagnetic heater, an elevation tracking mechanism and a water intake hose, wherein the temperature sensor and the water level sensor are connected with the input end of the automatic control instrument; the electromagnetic valve, the hot water circulating pump, the heat collecting circulating pump, the pipeline electromagnetic heater, the elevation tracking mechanism and the water intake hose are connected with the output end of the automatic control instrument. The present invention has the advantages that the present invention has the characteristics of intelligent automation control, multi-heat source complementary advantages, automatic conversion, automatic water refill and all weather 24-hour hot water supply and can automatically track a definite warm water layer in the water storage tank for water intake, which is very convenient for users.

Description

Multiple heat source automatic hot water supply system
Technical field
The present invention relates to a kind of multiple heat source automatic hot water supply system, belong to hot water bathing facility technology field.
Background technology
Chinese patent CN2413229Y discloses a kind of " many thermals source vacuum heat collection pipe four seasons applied heat hydrophone ", and it mainly includes solar energy hot water tank, draining overflow pipe, vacuum heat collection pipe, heating heat-exchange device, heating water inlet pipe, heating return pipe, upper and lower conduit etc.Its water supplementing method is manual moisturizing, and boiler water manually stops moisturizing after completely.Its shortcoming is that manual moisturizing is loaded down with trivial details, needs moisturizing every day, if forget moisturizing, does not just have hot water to use in second day.
In addition, the mixed water mode of above-mentioned water heater when bathing mixed water for mixing the water valve formula.Its shortcoming is the water-mixing temperature instability, regulates difficulty, needs to regulate repeatedly just can reach needed water temperature.
Summary of the invention
Technical problem to be solved by this invention provides that a kind of intelligent automatic control, many thermals source are had complementary advantages, conversion, round-the-clock 24 hours heat supply water automatically, and the constant temperature water layer that can set in the motion tracking storage tank multiple heat source automatic hot water supply system of fetching water.
The technical solution adopted for the present invention to solve the technical problems:
Solar thermal collector, storage tank, heating heat-exchange device, upper hose have been the present invention includes; Upper hose enters in the storage tank and stretches to the bottom of storage tank from described storage tank side wall upper part; The heating heat-exchange device is located in the described storage tank and is positioned at the bottom of storage tank; It is characterized in that: described multiple heat source automatic hot water supply system also includes hot water circulating pipeline, water intaking flexible pipe, auto-controller, lifting follower;
Described hot water circulating pipeline is connected between the delivery port and water return outlet of storage tank, and the heat supply water pipe that passes to each user is housed on this hot water circulating pipeline, hot water gauge and check valve is housed successively passing on each user's the heat supply water pipe respectively; On the described upper hose magnetic valve is housed;
Described solar thermal collector is connected with described storage tank by the pipeline that the thermal-arrest circulating pump is housed; Near on the described hot water circulating pipeline at described storage tank delivery port place pipeline electromagnetic heater and hot water circulating pump are being housed successively;
First temperature sensor is housed in described solar thermal collector; In described storage tank the 2 3rd, the 43 temperature sensor and a level sensor are housed, described second temperature sensor and the 3rd temperature pass the middle and upper part that temperature is contained in described storage tank madial wall; Described level sensor is contained in the top of described storage tank madial wall; The the 5th, the 6 two temperature sensor is housed on described hot water circulating pipeline, and wherein the 5th temperature sensor is contained in the water outlet oral-lateral of described pipeline electromagnetic heater, and the 6th temperature sensor is contained in the backwater oral-lateral of described hot water circulating pipeline; Described lifting follower is made up of motor, the reel, weight, weight lead-in wire, travel switch and the governor motion thereof that are contained on the motor output shaft; The upper end of described weight lead-in wire is fixed on the spool of reel, and weight immerses in the interior water of described storage tank; The delivery port of described hot water circulating pipeline is positioned at the middle part of storage tank sidewall; Described water intaking flexible pipe is arranged in the water of storage tank, and the one end is connected with the delivery port of described hot water circulating pipeline, and its other end is fixed on the described weight lead-in wire of weight top by the support that is positioned at described storage tank; Described the 4th temperature sensor is fixed on this support; Described travel switch connects the input of auto-controller, the forward and backward of the output control motor of auto-controller and the break-make of motor power;
Described the first, second, third, fourth, the 5th, the 6th temperature sensor is connected with the input of described auto-controller with level sensor; Described magnetic valve, hot water circulating pump, thermal-arrest circulating pump, pipeline electromagnetic heater and lifting follower are connected with the output of described auto-controller respectively.
The invention has the beneficial effects as follows that it has that intelligent automation control, many thermals source are had complementary advantages, the characteristics of conversion automatically, automatic water supplement, round-the-clock 24 hours heat supply water.And can fetch water from the constant temperature water layer in the motion tracking storage tank, greatly facilitate the user.
Description of drawings
Fig. 1 is a structural representation of the present invention.
Fig. 2 is the A-A cutaway view Amplified image (structural representation of water level controller) of Fig. 1.
The specific embodiment
By the embodiment shown in Fig. 1,2 as can be known, it includes solar thermal collector 1, storage tank 39, heating heat-exchange device 32, upper hose 38; Upper hose 38 enters in the storage tank and stretches to the bottom of storage tank from the storage tank side wall upper part; Heating heat-exchange device 32 is positioned at the bottom of storage tank; It is characterized in that it also includes hot water circulating pipeline 22, auto-controller, the temperature sensor that is connected with the auto-controller input and level sensor, the magnetic valve that is connected with the auto-controller output respectively, hot water circulating pump 35, thermal-arrest circulating pump 3, pipeline electromagnetic heater 37, lifting follower, the flexible pipe 16 of fetching water;
Solar thermal collector 1 is connected with storage tank 39 by the pipeline 2 that thermal-arrest circulating pump 3 is housed; Near on the hot water circulating pipeline 22 at storage tank delivery port place pipeline electromagnetic heater 37 and hot water circulating pump 35 are being housed successively;
First temperature sensor 4 is housed in solar thermal collector 1; Second, third is housed respectively in storage tank, 18,19,20 and level sensor 42, the second temperature sensors 18 of the four or three temperature sensor and three-temperature sensor 19 are contained in the middle and upper part of storage tank madial wall; Level sensor 42 is contained in the top of storage tank 39; On hot water circulating pipeline 22, be equipped with the 5th and the 6 two temperature sensor 36,23, the five temperature sensor 36 be contained in the water outlet oral-lateral of pipeline electromagnetic heater 37, the 6th temperature sensor 23 is contained in the backwater oral-lateral of hot water circuit pipeline; The heat supply water pipe that passes to each user is housed on the hot water circuit pipeline, hot water gauge 34 and check valve 33 are housed respectively on the heat supply water pipe successively;
The lifting follower by motor 13, be contained in reel 11, the weight 21 on the motor output shaft and go between 15, travel switch and governor motion thereof form, the upper end of weight lead-in wire 15 is fixed on the spool of reel 11, in the water that weight 21 immerses in the storage tank 39; The delivery port of hot water circulating pipeline 22 is positioned at the middle part of storage tank 39 sidewalls, and water intaking flexible pipe 16 is arranged in the water of storage tank 39, and the one end is connected with the delivery port of hot water circulating pipeline, and its other end is fixed on the lead-in wire 15 of weight 21 tops by support 17; The 4th temperature sensor 20 is fixed on the support 17; Travel switch connects the input of auto-controller, the forward and backward of the output control motor of auto-controller and the break-make of motor power.
On upper hose 38, water level controller is housed, water level controller is made up of little water tank 41, ball-cock assembly 43, upper hose 38 stretches into little water tank 41 backs and at its delivery port place ball-cock assembly 43 is housed, and the delivery port of little water tank 41 is connected by the top of upper hose 38 with storage tank 39; Magnetic valve 40 is housed on upper hose 38.
Heating heat-exchange device 32 is connected with the corresponding mouth of pipe of heating thermal source by heating upper hose 25 and heating return pipe 30, and first valve 26, normally open solenoid valve 24 are housed on heating upper hose 25 successively, and second valve 31 is housed on heating return pipe 30; Between heating upper hose 25 and heating return pipe 30, be provided with a connecting pipe road 29, one end of this pipeline 29 is connected with heating upper hose 25 between the normally open solenoid valve 24 and first valve 26, the other end of this pipeline 29 is connected with the heating return pipe 30 of second valve, 31 tops, on this pipeline 29 normally closed solenoid valve 28 is housed; The 7th temperature sensor 27 is housed on heating upper hose 25.
Travel switch and governor motion thereof by upper limit travel switch 12, lower bound range switch 8, upper end have nut slip feeler lever 10, guide post 9, form with the coaxial screw rod that is connected 6 of motor output shaft, adjusting screw(rod) 5, switch base 7; Upper limit travel switch 12 is installed on the support 14, lower bound range switch 8 is installed on the support 14 by switch base 7 and adjusting screw(rod) 5, adjusting screw(rod) 5 is threaded with support 14, switch base 7 is hinged with adjusting screw(rod) 5, and guide post 9 is fixed on the support 14 after passing the hole that is positioned on switch base 7 and the slip feeler lever 10; The slip feeler lever 10 of upper end band nut be threaded with the coaxial screw rod that is connected 6 of motor shaft.
The course of work of present embodiment is as follows:
(1) first temperature sensor 4 in being contained in solar thermal collector 1 be contained in second sensor, 18 measured temperatures in the storage tank 39 when differing 10 ℃, auto-controller starts thermal-arrest circulating pump 3 automatically; When the temperature balance of the temperature of the water in the solar thermal collector and the water in the storage tank 39, auto-controller stops the work of thermal-arrest circulating pump 3.
When the temperature that records when first temperature sensor 4 was 5 ℃, auto-controller started thermal-arrest circulating pump 3 and carries out antifreeze circulation.
When first temperature sensor 4 recorded temperature and is higher than 85 ℃, auto-controller sent the buzzing alarm signal.
(2) level sensor 42 is high water level control sensor, and when the water level in the storage tank 39 reached the position of level sensor 42, auto-controller was closed normally open solenoid valve 40, thereby stops to go up water.
(3) when the user opens check valve 33 and uses hot water, water flow switch starts hot water circulating pump 35 work, and when the temperature that the 5th temperature sensor 36 on being installed in hot water circulating pipeline 22 records reached 38 ℃, auto-controller stopped the work of hot water circulating pump 35; When the temperature that records when the 6th temperature sensor 23 was lower than 5 ℃, auto-controller started hot water circulating pump 35 work, carries out antifreeze circulation.
(4) when three-temperature sensor 19 records water temperature in the storage tank and is lower than 37 ℃, auto-controller is according to the concrete size of water temperature, control pipeline electromagnetic heater 37 enters 1 grade, 2 grades, 3 grades readiness, when the user opened check valve 33 waters, water flow switch started 37 work of pipeline electromagnetic heater.
(5) when the 5th temperature sensor 36 records temperature and reaches 42 ℃, auto-controller turn-offs the power supply of pipeline electromagnetic heater 37.
(6) when the temperature of the water in the heating upper hose that the 7th temperature sensor 27 records is lower than 42 ℃, auto-controller sends instruction and turn-offs normally open solenoid valve 24, and open normally closed solenoid valve 28 simultaneously, allow in the heating of low temperature the water heating heat-exchange device 32 of not flowing through, and directly get back to heating return pipe 30, thereby avoid the heating medium of low temperature and the high-temperature water of storage tank to carry out heat exchange through pipeline 29.
(7) process of fetching water of the constant temperature water layer in the motion tracking storage tank:
At first setting the upper and lower limit temperature of constant temperature water layer, is the bottom that enters storage tank 39 from upper hose 38 because cold water replenishes, so in storage tank 39, the water temperature on upper strata is higher than lower floor.If the capping water temperature is 40.8 ℃, the lower limit water temperature is 39.2 ℃, so, the water inlet of water intaking flexible pipe 16 should be immersed in automatically under the control of auto-controller and lifting follower in the water temperature layer of 39.2≤T≤40.8 ℃ and fetch water, and its detailed process is as follows:
When the 4th temperature sensor 20 records water temperature and is higher than 40.8 ℃, auto-controller control motor 13 is just changeing, at this moment, weight 21 moves downward, thereby driving water intaking flexible pipe 16 moves downward, when the temperature of being surveyed when the 4th temperature sensor 20 was lower than 40.8 ℃, auto-controller sends instruction shut down motor 13.The constant temperature water that water intaking flexible pipe 16 is drawn in the constant temperature water layer uses for bathing, continuous minimizing along with the water in the constant temperature layer, cold water constantly replenishes, water temperature constantly reduces, when the water temperature of being surveyed when the 4th temperature sensor 20 is lower than 39.2 ℃, and 13 counter-rotatings of auto-controller control motor, reel 11 drives water intaking flexible pipe 16 and moves up, when moving to 39.2 ℃, auto-controller disconnects the power supply of motor 13, makes water intaking flexible pipe 16 can supply the interior hot water of constant temperature water layer all the time.
When the water temperature in the storage tank 39 is higher or lower than design temperature,, turn-off motor powers by upper and lower limit travel switch 12,8, to guarantee the safe operation of system if motor 13 drives water intaking flexible pipes 16 when moving at the bottom of peak level place in the storage tank 39 or the case.

Claims (4)

1. multiple heat source automatic hot water supply system, it includes solar thermal collector (1), storage tank (39), heating heat-exchange device (32), upper hose (38); Upper hose (38) enters in the storage tank and stretches to the bottom of storage tank from described storage tank side wall upper part; Heating heat-exchange device (32) is located in the described storage tank and is positioned at the bottom of storage tank; It is characterized in that: described multiple heat source automatic hot water supply system also includes hot water circulating pipeline (22), water intaking flexible pipe, auto-controller and lifting follower;
Described hot water circulating pipeline (22) is connected between the delivery port and water return outlet of storage tank, and the heat supply water pipe that passes to each user is housed on this hot water circulating pipeline, hot water gauge (34) and check valve (33) is housed successively passing on each user's the heat supply water pipe respectively; Magnetic valve (40) is housed on the described upper hose (38);
Described solar thermal collector (1) is connected with described storage tank (39) by the pipeline (2) that thermal-arrest circulating pump (3) are housed; Near on the described hot water circulating pipeline (22) at described storage tank delivery port place pipeline electromagnetic heater (37) and hot water circulating pump (35) are being housed successively;
First temperature sensor (4) is housed in described solar thermal collector (1); In described storage tank, be equipped with second, third, the four or three temperature sensor (18,19,20) and a level sensor (42), described second temperature sensor (18) and the 3rd temperature pass the middle and upper part that temperature (19) is contained in described storage tank madial wall; Described level sensor (42) is contained in the top of described storage tank (39) madial wall; The the 5th, the 6 two temperature sensor (36,23) is housed on described hot water circulating pipeline (22), wherein the 5th temperature sensor (36) is contained in the water outlet oral-lateral of described pipeline electromagnetic heater (37), and the 6th temperature sensor (23) is contained in the backwater oral-lateral of described hot water circulating pipeline; Described lifting follower by motor (13), be contained in reel (11) on the motor output shaft, weight (21), weight lead-in wire (15), travel switch and governor motion thereof and form; The upper end of described weight lead-in wire (15) is fixed on the spool of reel (11), and weight (21) immerses in the interior water of described storage tank (39); The delivery port of described hot water circulating pipeline (22) is positioned at the middle part of storage tank (39) sidewall; Described water intaking flexible pipe (16) is arranged in the water of storage tank (39), the one end is connected with the delivery port of described hot water circulating pipeline, and its other end is fixed on the described weight lead-in wire (15) of weight (21) top by the support (17) that is positioned at described storage tank; Described the 4th temperature sensor (20) is fixed on the interior support (17) of described storage tank; Described travel switch connects the input of auto-controller, the forward and backward of the output control motor of auto-controller and the break-make of motor power;
Described the first, second, third, fourth, the 5th, the 6th temperature sensor is connected with the input of described auto-controller with level sensor; Described magnetic valve, hot water circulating pump (35), thermal-arrest circulating pump (3), pipeline electromagnetic heater (37) and lifting follower are connected with the output of described auto-controller respectively.
2. multiple heat source automatic hot water supply system according to claim 1, it is characterized in that: water level controller is housed in described upper hose (38) upper end, this water level controller is made up of little water tank (41), ball-cock assembly (43), described upper hose (38) stretches into little water tank (41) back and at its delivery port place described ball-cock assembly is housed, and the delivery port of little water tank (41) is connected by the top of described upper hose (38) with described storage tank (39).
3. multiple heat source automatic hot water supply system according to claim 2, it is characterized in that: described heating heat-exchange device (32) is connected with the corresponding mouth of pipe of heating thermal source by heating upper hose (25) and heating return pipe (30), first valve (26), normally open solenoid valve (24) are housed on heating upper hose (25) successively, second valve (31) is housed on heating return pipe (30); Between heating upper hose (25) and heating return pipe (30), be provided with a connecting pipe road (29), one end of this connecting pipe (29) is connected with described heating upper hose (25) between normally open solenoid valve (24) and first valve (26), the other end of this connecting pipe (29) is connected with the described heating return pipe (30) of described second valve (31) top, and normally closed solenoid valve (28) is housed on this connecting pipe (29); The 7th temperature sensor (27) is housed on heating upper hose (25); Described the 7th temperature sensor is connected with the input of described auto-controller; Described normally open solenoid valve (24), normally closed solenoid valve (28) are connected with the output of described auto-controller.
4. multiple heat source automatic hot water supply system according to claim 3 is characterized in that: described travel switch and governor motion thereof have the slip feeler lever (10), guide post (9), adjusting screw(rod) (5), switch base (7) of nut by upper limit travel switch (12), lower bound range switch (8), upper end and form with the coaxial screw rod that is connected of motor output shaft (6); Described upper limit travel switch (12) is installed on the support (14) that is positioned at outside the described storage tank, described lower bound range switch (8) is installed on the described support (14) that is positioned at outside the storage tank by described switch base (7) and described adjusting screw(rod) (5), described adjusting screw(rod) (5) is threaded with the described support (14) that is positioned at outside the storage tank, described switch base (7) is hinged with described adjusting screw(rod) (5), and described guide post (9) is fixed on the described support (14) that is positioned at outside the storage tank after passing the hole that is positioned on described switch base (7) and the described slip feeler lever (10); The slip feeler lever (10) of described upper end band nut be threaded with the coaxial screw rod that is connected of motor output shaft (6).
CNB2006100125125A 2006-03-24 2006-03-24 Multiple heat source automatic hot water supply system Expired - Fee Related CN100424438C (en)

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Application Number Priority Date Filing Date Title
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CN100424438C true CN100424438C (en) 2008-10-08

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Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100458610C (en) * 2006-09-27 2009-02-04 孟东昕 Hot-water direct-supplying device of electric water-tank
CN102095221A (en) * 2011-02-28 2011-06-15 陕西盛田能源服务有限公司 Temperature control method for multiple heat sources
CN102788382A (en) * 2012-08-23 2012-11-21 段伟 Hot water heating system of central magnetic pump
CN103984360A (en) * 2013-02-07 2014-08-13 浙江同景科技有限公司 Sun-tracking four-quadrant measurement control system of disc-type solar thermal power generation system
CN111156583B (en) * 2019-12-25 2021-11-23 哈尔滨新中新电子股份有限公司 Campus bathing water supply system of adjustable temperature

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2479954A1 (en) * 1980-04-03 1981-10-09 Bruny Gerard Central heating and domestic hot water installation - has alternative solar or conventional heat source with valves to control supply
JPH09170819A (en) * 1995-12-19 1997-06-30 Nippon Electric Glass Co Ltd Solar heat hot water feeding apparatus
JPH1054575A (en) * 1996-06-07 1998-02-24 Inax Corp Hot water supply equipment
JP2000199646A (en) * 1998-12-28 2000-07-18 Nippon Electric Glass Co Ltd Solar heat utilizing water heater
CN2413229Y (en) * 2000-04-06 2001-01-03 王志信 Vacuum heat-collecting tube water heater using several heat sources capable of being used in four seasons
CN1558159A (en) * 2004-01-15 2004-12-29 奥阳科技发展(上海)有限公司 All-day air renewal solar energy system for heat and hot water supply of building

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2479954A1 (en) * 1980-04-03 1981-10-09 Bruny Gerard Central heating and domestic hot water installation - has alternative solar or conventional heat source with valves to control supply
JPH09170819A (en) * 1995-12-19 1997-06-30 Nippon Electric Glass Co Ltd Solar heat hot water feeding apparatus
JPH1054575A (en) * 1996-06-07 1998-02-24 Inax Corp Hot water supply equipment
JP2000199646A (en) * 1998-12-28 2000-07-18 Nippon Electric Glass Co Ltd Solar heat utilizing water heater
CN2413229Y (en) * 2000-04-06 2001-01-03 王志信 Vacuum heat-collecting tube water heater using several heat sources capable of being used in four seasons
CN1558159A (en) * 2004-01-15 2004-12-29 奥阳科技发展(上海)有限公司 All-day air renewal solar energy system for heat and hot water supply of building

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