CN201237376Y - Splitting solar water heater - Google Patents

Abstract

The utility model discloses a split type solar water heater comprising a heat collection connecting box (15), a plurality of heat collection and heat conduction units which are arranged in parallel, a hot water storage box (8) and a temperature difference control unit; the hot water storage box (8) is connected with the heat collection connecting box (15) through an A guide pipe (6) and a B guide pipe (7), a circulating pump (11) is arranged on the B guide pipe (7), a B temperature sensor (13) is arranged on the inner wall of a hot water storage box (8), the B temperature sensor (13) is used for sensing water temperature in the hot water storage box (8), that is, hot water temperature T13, the hot water temperature T13 is output to a temperature difference controller (14); an A temperature sensor (12) is arranged at the outer wall of a C heat conduction pipe (3c) of the third group of heat connection and heat conduction units, an A temperature sensor (12) is used for sensing temperature in a vacuum heat collection pipe of the third group of the heat connection and heat conduction units, that is heat energy temperature T12, the heat energy temperature T12 is output to the temperature difference controller (14); the temperature difference controller (14) carries out the difference comparison of the received hot water temperature T13 and the heat energy temperature T12, thereby obtaining opening and closing information delta T which is equal to T12 minus T13 and used for driving the circulating pump (11).

Description

A kind of separated type solar water heater

Technical field

The utility model relates to a kind of solar water heater, more particularly says, is meant that mode that a kind of employing circulates the liquid forced heat-exchanging carries out the separated type solar water heater of exchange heat.

Background technology

Solar water heater is made up of complete glass vacuum sun thermal-collecting tube (or claiming vacuum tube, vacuum heat collection pipe), attemperater, bearing support three big parts, and its core set thermal element is an all-glass vacuum thermal-collecting tube.Plate multilayer gradual change aluminium-nitrogen-aluminized coating or stainless steel aluminium nitride through magnetron sputtering technology at the outer wall of inner tube of thermal-collecting tube, this coating can stand 400 ℃ high temperature to the selective absorption of sunshine, its absorptance 〉=0.92, and emission is than≤0.09 (80 ℃).Vacuum heat collection pipe selectivity absorption sunshine is converted into heat energy with luminous energy constantly heats the water in the vacuum tube.Because " thermal siphon " effect, promptly the proportion of cold water is bigger, and the proportion of hot water is less, thereby the hot water in the vacuum tube enters water tank naturally constantly toward come-up.Water in water tank constantly sinks naturally, enters vacuum heat collection pipe.Go round and begin again, the water in solar water heater's attemperater also just has been heated.

Direct insertion all-glass vacuum thermal-collecting tube solar water heater, be high-absorbility and the low-launch-rate that utilizes vacuum heat collection pipe to have, convert the solar radiation that absorbs to heat energy, utilize cold water than great, the characteristics that hot water proportion is little form cold water from top to bottom, hot water Natural Circulation from bottom to top in vacuum tube, the temperature of whole water is progressively raise, reach uniform temperature.But the pipe inner storing water amount of existing vacuum heat collection pipe is excessive, and heat conduction toggle speed is slow, easily causes heat waste.Water capacity is 3L in the general diameter 58mm, the pipe of the vacuum heat collection pipe of long 1.8m, and the solar water heater water tank capacity of one 30 arm is 250L, and then the water in the vacuum heat collection pipe will reach 90L, account for 26% of Total Water.Because of the defective of existing structure, store this part water in vacuum heat collection pipe and entrained heat thereof after the intensification, not only can not be used effectively, play the effect of heat radiation on the contrary.

The defective that existing direct insertion all-glass vacuum thermal-collecting tube solar water heater roughly exists is as follows:

(1) water yield in the vacuum heat collection pipe is excessive, and toggle speed is slow.With diameter 58mm, the vacuum heat collection pipe of long 1.5m is an example, and the water yield accounts for about 1/3 of water volume that can be utilized in the pipe, and the water in the necessary first heating tube of the heat of the sun of conversion is so cause toggle speed slow;

(2) heat waste is big, and available heat is low.Water in the vacuum heat collection pipe pipe not only can not use, and cause heat waste, make the water that resides in the vacuum heat collection pipe play the reaction of heat radiation, especially the water in the pipe is through night or cloudy day cooling, when solar temperature rising once more, must heat the water of having lowered the temperature earlier.This problem especially severe in northerly winter, especially when ice and snow covered, the water freezing in the pipe caused breaking of vacuum tube, causes the thing of systemic breakdown to occur repeatedly;

(3) breaking of single vacuum tube promptly caused the whole system paralysis, special circumstances, and as balcony wall-hanging, peril is easily brewageed in breaking of single vacuum tube;

(4) because of the requirement of manufacturing process and installation, ligament is big, and the photo-thermal conversion ratio of unit are is low.With the vacuum tube of diameter 58mm, long 1.8m, tube pitch is from being generally 80mm, and its photo-thermal conversion ratio generally is lower than 55%;

(5) vacuum heat-collecting in-tube fouling and precipitation have a strong impact on exchange heat, even make the vacuum heat-collecting tube failure.

Summary of the invention

The purpose of this utility model provides the separated type solar water heater that mode that a kind of employing circulates the liquid forced heat-exchanging is carried out exchange heat, this separated type solar water heater has solved existing direct insertion vacuum heat-collecting cast solar water heater is used as exchange heat with nature " thermal siphon " mode, to force the mode of power cycle, heat in the vacuum heat collection pipe is swapped out, and the water in the thermal storage water tank is heated.

The utility model is a kind of separated type solar water heater, and it includes a thermal-arrest header (15), a plurality of thermal-arrest heat-conducting unit that is arranged in parallel, a thermal storage water tank (8), a temperature difference control module; The structure of described a plurality of thermal-arrest heat-conducting units that are arranged in parallel is identical, and adopts the layout that is arranged in parallel to be installed on the thermal-arrest header (15); Thermal storage water tank (8) is connected with thermal-arrest header (15) by A conduit (6), B conduit (7), B conduit (7) is provided with circulating pump (11), B temperature sensor (13) is installed on thermal storage water tank's (8) the inwall, and B temperature sensor (13) is used for the water temperature hot water water temperature T in the perception thermal storage water tank (8) ₁₃, and with the hot water water temperature T ₁₃Export to differential temperature controller (14); A temperature sensor (12) is installed in the outer wall of the C heat pipe (3c) of the 3rd group of thermal-arrest heat-conducting unit, and the temperature that A temperature sensor (12) is used in the 3rd group of thermal-arrest heat-conducting unit vacuum heat collection pipe of perception is the heat energy temperature T ₁₂, and with the heat energy temperature T ₁₂Export to differential temperature controller (14); The hot water water temperature T of differential temperature controller (14) to receiving ₁₃, the heat energy temperature T ₁₂Carry out difference relatively, obtain to drive the opening and closing information Δ T=T of circulating pump (11) ₁₂-T ₁₃

Separated type solar water heater of the present utility model has following advantage:

(1) provide a kind of novel heat exchange pattern, the power that provides with circulating pump 11 makes the water in the thermal-arrest header 15 realize the forced circulation heat exchange, compares with the heating of nature " thermal siphon " heat exchange carrying out water, and shortened 10%～25% its heat time heating time;

(2) realized efficient heat-collecting heat conduction, by the low amounts of water of only depositing in the heat pipe that is installed in vacuum heat collection pipe inside, and outer power drives water circulation the heat in the thermal-collecting tube taken out of, improves day available that a heat reach 10%～30% effectively;

(3) adopt vacuum tube solid matter mode, the vacuum tube that with the diameter is 58mm is an example, spacing in the existing solar water heater between vacuum tube and the vacuum tube is that 80mm, gap are 22mm, and the spacing that can narrow down between vacuum tube and the vacuum tube after the utility model employing close-spaced technique is that 60mm, gap are 2mm, has improved unit thermal-arrest rate effectively and can reach 25%;

(4) inside pipe wall of pipe does not have water directly contact with it in vacuum heat collection pipe, so heat waste reduces significantly;

(5) the pipe-in-pipe structure of employing intensify heat transfer pipe, heat pipe, vacuum heat collection pipe can be because of the bombing that contacts of water and vacuum heat-collecting tube wall, even single vacuum heat collection pipe cracking can not make the paralysis of overall thermal hydrophone yet;

(6) the utility model employing circulates liquid forced heat-exchanging mode and can really realize quick conductive, owing to adopt close-spaced technique by the collector tube inner wall location, the integral thickness of thermal-arrest header 15 in the utility model, thermal-arrest heat-conducting unit is reduced greatly, reach the ultrathin design of 8～10cm, easily combine with building;

(7) heat pipe in the vacuum heat collection pipe and the water between the intensify heat transfer pipe are taken away the incrustation scale in the heat pipe simultaneously by forcing power cycle, have solved effectively that incrustation scale heap in the vacuum heat collection pipe is tied and the problem that influences heat exchange; Simultaneously, also solved vacuum tube direct plugging-in water heater because of mobile not thorough, the not smooth secondary pollution problem that forms of the water in the vacuum tube.

Description of drawings

Fig. 1 is the circulating fluid forced heat-exchanging schematic diagram of the utility model solar water heater.

Figure 1A is the installation diagram of the utility model solar water heater.

Fig. 2 is the structure chart of the utility model thermal-arrest heat-conducting unit.

Fig. 2 A is the blast diagrammatic sketch of Fig. 2.

Fig. 3 is the configuration diagram of the utility model thermal-arrest header.

Fig. 3 A is another configuration diagram of the utility model thermal-arrest header.

Among the figure: 1a.A vacuum heat collection pipe 1b.B vacuum heat collection pipe 1c.C vacuum heat collection pipe 1d. through hole

2a.A heat pipe 2b.B heat pipe 2c.C heat pipe 2d. wire 21. openends

22. closed end 3a.A intensify heat transfer pipe 3b.B intensify heat transfer pipe 3c.C intensify heat transfer pipe 31.A openend

32.B the openend 4. mainstream channel outer tube 4a.A outer tube mouth 4b.B of the UNICOM outer tube mouth 4c.C of UNICOM outer tube UNICOM mouths

41. pipe UNICOM mouth in the pipe 5a.A in outer wall 42. inwalls 43. incubation cavities 5. mainstream channels

5b.B the pipe mouth 6.A of UNICOM conduit 7.B conduit 8. thermal storage water tanks in the interior pipe mouth 5c.C of UNICOM

801.A interface 802.B interface 803.C interface 804.D interface 81. air bleeding valves

82. altitude valve 83.C conduit 84.D conduit 85.A valve 86.B valve

9a.A thermal resistance plug 9c.C location, thermal resistance plug 9b.B location, location thermal resistance plug 91. central through holes 92. stick harnesses

11. circulating pump 12.A temperature sensor 13.B temperature sensor 14. differential temperature controllers

15. thermal-arrest header 151.A interface 152.B interface 153. right-hand member end faces 154. left end end faces

16.A thermal-arrest heat-conducting unit 17.B thermal-arrest heat-conducting unit 18.C thermal-arrest heat-conducting unit

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described in further detail.

Shown in Fig. 1, Figure 1A, separated type solar water heater of the present utility model includes a thermal-arrest header 15, a plurality of thermal-arrest heat-conducting unit that is arranged in parallel, thermal storage water tank 8, a temperature difference control module; A plurality of thermal-arrest heat-conducting units that are arranged in parallel are installed on the thermal-arrest header 15, and thermal storage water tank 8 realizes being connected with thermal-arrest header 15 by conduit;

Described a plurality of thermal-arrest heat-conducting unit that is arranged in parallel be meant A thermal-arrest heat-conducting unit 16, B thermal-arrest heat-conducting unit 17, C thermal-arrest heat-conducting unit 18, In the utility model, the arrangement number of thermal-arrest heat-conducting unit can be mated assembling according to the hot water amount that the user uses.As a water heater that uses the hot water amount as 350L, 30～35 support thermal conductance hot cells that can be arranged in parallel are assemblied on the thermal-arrest header 15.

Described temperature difference control module is made up of A temperature sensor 12, B temperature sensor 13, differential temperature controller 14, circulating pump 11; The temperature value that this temperature difference control module is exported to differential temperature controller 14 according to A temperature sensor 12, B temperature sensor 13 is used to provide difference relatively, decide to start or close circulating pump 11, thus the unlatching of heat exchange or stop between control solar thermal collector part and the thermal storage water tank 8.

Have A interface 801, B interface 802, C interface 803,804 4 interfaces of D interface on the described thermal storage water tank 8, thermal storage water tank 8 upper end is equipped with air bleeding valve 81, altitude valve 82 is installed on thermal storage water tank 8 the side plate, altitude valve 82 and A valve 85 UNICOMs, in the utility model, by altitude valve 82 control and regulation thermal storage water tanks' 8 water inlet water level, for use in opening or closing A valve 85;

A interface 801 is connected with the B interface 152 of thermal-arrest header 15 by A conduit 6;

B interface 802 is connected with the A interface 151 of thermal-arrest header 15 by B conduit 7, and B conduit 7 is provided with circulating pump 11;

C interface 803 is connected by the water supply end of C conduit 83 with the outside, realizes that cold water injects in the thermal storage water tank 8, A valve 85 is installed, water level controller 82 and A valve 85 UNICOMs on the C conduit 83;

D interface 804 is supplied with the output of the hot water in the thermal storage water tank 8 to the user by D conduit 84 and is used, and B valve 86 is installed on the D conduit 84, and B valve 86 is used to open or close the supply of hot water.

In the utility model, shown in Fig. 1, Figure 1A, described thermal-arrest header 15 is made of pipe 5 in mainstream channel outer tube 4 and the mainstream channel, pipe 5 places and forms the pipe-in-pipe structure in the mainstream channel outer tube 4 in the mainstream channel, and the right-hand member 51 of pipe 5 is connected for sealing with the madial wall of the right-hand member end face 153 of mainstream channel outer tube 4 in the mainstream channel;

Have A interface 151 on the left end end face 154 of mainstream channel outer tube 4, have B interface 152 on the right-hand member end face 153 of mainstream channel outer tube 4, the body of mainstream channel outer tube 4 below has a plurality of outer tube UNICOM's mouths (the mouth 4a of A outer tube UNICOM, the mouth 4b of B outer tube UNICOM, the mouth 4c of C outer tube UNICOM), and this outer tube UNICOM mouth is used for being connected with the heat pipe of thermal-arrest heat-conducting unit (connection herein can be weld, be threaded, grafting etc.); A interface 151 is connected with circulating pump 11 by B conduit 7, and the other end of circulating pump 11 is connected with thermal storage water tank's B interface 802 again; B interface 152 connects by A conduit 6 thermal storage water tanks 802 interface B.In the utility model, can be placed with filler in the mainstream channel outer tube 4, this filler can be glass microballoon, baton round, washing ball (existing use in washing machine).The placement filler is to be the moisture storage capacity that reduces in the circulation road outer tube 4 in circulation road outer tube 4, helps improving the speed of thermal energy exchange, and day available heat that gets.

The left end of pipe 5 is sealing in the mainstream channel, and right-hand member 51 is an opening; In the mainstream channel body of pipe 5 below have a plurality of in pipe UNICOM mouths (in the A in pipe the mouth 5a of UNICOM, the B in pipe the mouth 5b of UNICOM, the C pipe mouth 5c of UNICOM), pipe UNICOM mouth is used for being connected with the intensify heat transfer pipe of thermal-arrest heat-conducting unit (connection herein can be weld, be threaded, grafting etc.) in this.

Be depicted as another structure of mainstream channel outer tube 4 referring to Fig. 3, Fig. 3 A.Mainstream channel outer tube 4 is a double-decker, be that mainstream channel outer tube 4 is made of mainstream channel outer tube wall 42, mainstream channel outer tube outer wall 41 and incubation cavity 43, be incubation cavity 43 between the mainstream channel outer tube wall 42 of mainstream channel outer tube 4 and the mainstream channel outer tube outer wall 41, can place insulation material in the incubation cavity 43 or vacuumize.

In the utility model, about thermal-arrest header 15 be connected (shown in Figure 1A) as described below with a plurality of thermal-arrest heat-conducting units (A thermal-arrest heat-conducting unit 16, B thermal-arrest heat-conducting unit 17, C thermal-arrest heat-conducting unit 18): the pipe mouth 5a of UNICOM is connected in the A in the A openend 31 of the A intensify heat transfer pipe 3a of A thermal-arrest heat-conducting unit 16 and the mainstream channel on the pipe 5, and the mouth 4a of A outer tube UNICOM that the B openend 32 of A intensify heat transfer pipe 3a passes on the mainstream channel outer tube 4 is placed in the A heat pipe 2a of A thermal-arrest heat-conducting unit 16; The A openend of the B intensify heat transfer pipe 3b of B thermal-arrest heat-conducting unit 17 is connected with the pipe mouth 5b of UNICOM in the interior B that manages on 5 of mainstream channel, and the mouth 4b of B outer tube UNICOM that the B openend of B intensify heat transfer pipe 3b passes on the mainstream channel outer tube 4 is placed in the B heat pipe 2b of B thermal-arrest heat-conducting unit 17; The A openend of the C intensify heat transfer pipe 3c of C thermal-arrest heat-conducting unit 18 is connected with the pipe mouth 5c of UNICOM in the interior C that manages on 5 of mainstream channel, and the mouth 4c of C outer tube UNICOM that the B openend of C intensify heat transfer pipe 3c passes on the mainstream channel outer tube 4 is placed in the C heat pipe 2c of C thermal-arrest heat-conducting unit 18.

Mainstream channel outer tube 4 can be metal tube or plastic tube.The height D of mainstream channel outer tube 4 ₄=40～200mm.

Pipe 5 can be metal tube or plastic tube in the mainstream channel.The inside diameter D of pipe 5 in the mainstream channel ₅=10～40mm.

Referring to shown in Figure 1, on the thermal-arrest header 15 in the utility model a plurality of thermal-arrest heat-conducting units can be installed, a plurality of thermal-arrest heat-conducting units adopt the layout that is arranged in parallel, as parallel placement between A thermal-arrest heat-conducting unit 16, B thermal-arrest heat-conducting unit 17, the C thermal-arrest heat-conducting unit 18, and the clearance D of each thermal-arrest heat-conducting unit=1～15mm (be clearance D=1～15mm between A thermal-arrest heat-conducting unit 16 and the B thermal-arrest heat-conducting unit 17, clearance D=1～15mm) between B thermal-arrest heat-conducting unit 17 and the C thermal-arrest heat-conducting unit 18.

In the utility model, for the structure of thermal-arrest heat-conducting unit shown in Fig. 2, Fig. 2 A, A thermal-arrest heat-conducting unit 16 is by the tube-in-tube structure that outside to inside is A vacuum heat collection pipe 1a, A heat pipe 2a, A intensify heat transfer pipe 3a in turn, A heat pipe 2a is installed in the through hole 1d of A vacuum heat collection pipe 1a by A location thermal resistance plug 9a, and A intensify heat transfer pipe 3a inserts in the A heat pipe 2a;

A location thermal resistance plug 9a adopts silica gel, vegetable cork to be processed into one-body molded, and the center of A location thermal resistance plug 9a has central through hole 91, and the cock body of A location thermal resistance plug 9a is provided with stick harness 92; The blind end 22 that the central through hole 91 of A location thermal resistance plug 9a is used for A heat pipe 2a passes through.The stick harness 92 of A location thermal resistance plug 9a and the through hole 1d inwall fluid-tight engagement of A vacuum heat collection pipe 1a do not lose with the heat that reaches in the A vacuum heat collection pipe 1a.

A vacuum heat collection pipe 1a one end is a blind end, and the other end has through hole 1d, and the end that through hole 1d is used for A heat pipe 2a passes and by A location thermal resistance plug 9a A heat pipe 2a and A vacuum heat collection pipe 1a is installed together.In the utility model, A vacuum heat collection pipe 1a selects double-deck complete glass vacuum sun thermal-collecting tube common on the market for use.A vacuum heat collection pipe 1a length H ₁=1.15～3.0m, the outer diameter D of A vacuum heat collection pipe 1a ₁=40～80mm, the inside diameter D of A vacuum heat collection pipe 1a ₁₀=30～70mm.

Be wound with wire 2d (be generally on the outer wall that inserts that section A heat pipe 2a in the A vacuum heat collection pipe 1a and be wound with wire 2d) on the outer wall of A heat pipe 2a, wire 2d is used to accelerate the conversion of heat.The end of A heat pipe 2a is a blind end 22, and the other end is an openend 21, and blind end 22 inserts in the A vacuum heat collection pipe 1a, and openend 21 connects (can be to be threaded or to peg graft or weld) on mainstream channel outer tube 4.A heat pipe 2a realizes location with A vacuum heat collection pipe 1a by A location thermal resistance plug 9a, promptly A heat pipe 2a insert in the A vacuum heat collection pipe 1a length and with being connected of A vacuum heat collection pipe 1a.The length H of A heat pipe 2a ₂=0.5～3.0m, the outer diameter D of A heat pipe 2a ₂=15～65mm, the inside diameter D of A heat pipe 2a ₂₀=10～64mm.

The two ends of A intensify heat transfer pipe 3a are opening (A openend 31, B openend 32), in the A openend 31 of A intensify heat transfer pipe 3a and the mainstream channel in the A of pipe 5 the pipe mouth 5a of UNICOM is connected (can be to be threaded or to peg graft or weld), the B openend 32 of A intensify heat transfer pipe 3a passes behind the mouth 4a of A outer tube UNICOM of mainstream channel outer tube 4 in the insertion A heat pipe 2a; Length H3=0.5～3.0m of A intensify heat transfer pipe 3a, the outer diameter D of A intensify heat transfer pipe 3a ₃=4～30mm, the inside diameter D of A intensify heat transfer pipe 3a ₃₀=1～29mm.

Shown in Fig. 1, Figure 1A, B temperature sensor 13 is installed on the inwall of press-bearing water tank 8, B temperature sensor 13 is used for the water temperature T in the perception press-bearing water tank 8 ₁₃(abbreviate the hot water water temperature T as ₁₃), and with the hot water water temperature T ₁₃Export to differential temperature controller 14.

A temperature sensor 12 is installed in the outer wall of the C heat pipe 3c of the 3rd group of thermal-arrest heat-conducting unit, and A temperature sensor 12 is used for the temperature T in the 3rd group of thermal-arrest heat-conducting unit vacuum heat collection pipe of perception ₁₂(abbreviate the heat energy temperature T as ₁₂), and with the heat energy temperature T ₁₂Export to differential temperature controller 14.

The hot water water temperature T of 14 pairs of receptions of differential temperature controller ₁₃, the heat energy temperature T ₁₂Carry out difference relatively, obtain to drive the opening and closing information Δ T=T of circulating pump 11 ₁₂-T ₁₃The temperature difference of described opening and closing information Δ T is higher than ON cycle pump 11 when being 8 ℃, i.e. Δ T=T ₁₂-T ₁₃8; When being lower than 2 ℃, the temperature difference of described opening and closing information Δ T closes circulating pump 11, i.e. Δ T=T ₁₂-T ₁₃＜2.

In the mainstream channel pipe 5 be provided with a plurality of in pipe UNICOM mouths, promptly be provided with in the A in pipe the mouth 5a of UNICOM, the B pipe mouth 5c of UNICOM in pipe the mouth 5b of UNICOM, the C in turn from A port to the B port of mainstream channel outer tube 4.The pipe mouth 5a of UNICOM is used for being connected with the end of A intensify heat transfer pipe 3a in the A, and the pipe mouth 5b of UNICOM is used for being connected with the end of B intensify heat transfer pipe 3b in the B, and the pipe mouth 5c of UNICOM is used for being connected with the end of C intensify heat transfer pipe 3c in the C.

Mainstream channel outer tube 4 is provided with a plurality of outer tube UNICOM mouth, and promptly A port to the B port from mainstream channel outer tube 4 is provided with the mouth 4a of A outer tube UNICOM, the mouth 4b of B outer tube UNICOM, the mouth 4c of C outer tube UNICOM in turn.The mouth 4a of A outer tube UNICOM is used for being connected with the end of A heat pipe 2a, and the mouth 4b of B outer tube UNICOM is used for being connected with the end of B heat pipe 2b, and the mouth 4c of C outer tube UNICOM is used for being connected with the end of C heat pipe 2c.

A location thermal resistance plug 9a realizes the location between A vacuum heat collection pipe 1a and the A heat pipe 2a is assembled; B location thermal resistance plug 9b realizes the location between B vacuum heat collection pipe 1b and the B heat pipe 2b is assembled; C location thermal resistance plug 9c realizes the location between C vacuum heat collection pipe 1c and the C heat pipe 2c is assembled.

The workflow of separated type solar water heater of the present utility model is:

(1) open A valve 85, by to thermal storage water tank's 8 water fillings, when water level arrived predetermined water level, water level controller 82 control A valves 85 were closed into water;

(2) when solar radiation is to vacuum heat collection pipe, the plated film in the vacuum heat collection pipe inner layer glass outside is a heat energy with the transform light energy more than 90%, owing to vacuumize between the vacuum heat collection pipe double glazing, top has location thermal resistance plug to stop heat to distribute again, causes the heat of vacuum heat collection pipe inside to be dispersed in the atmosphere and goes;

(3) the hot water water temperature T that receives when differential temperature controller 14 ₁₃, the heat energy temperature T ₁₂When 8 ℃ of design temperature value ranges, start circulating pump 11;

(4) under the drive of circulating pump 11, intrasystem water begins circulation.Water in the thermal storage water tank 8 are flowed out by B interface 802, enter through circulating pump 11, A interface 151 and manage 5 in the mainstream channel, again in mainstream channel in each on the pipe 5 the pipe connecting port flow in each split channel and manage.Current enter each split channel outer tube after extending into the openend of split channel outer tube separately through pipe in each split channel;

(5) at this moment, the cavity that forms between each split channel outer tube and vacuum heat-collecting inside pipe wall is a relative high-temperature area.After current pipe in each split channel flow into the split channel outer tube, current promptly were heated, and have taken away the heat in the vacuum heat collection pipe by water circulation that is:;

(6) the heated current of each split channel outer tube of flowing through through being opened in the outer tube connecting port of mainstream channel outer tube separately, import mainstream channel outer tube 4;

(7) force to take away the water that the mode of heat heats and flow among the thermal storage water tanks 8 by being recycled mobile water through A conduit 6, at this moment, the water that flows among the thermal storage water tank 8 has taken the part heat of the sunshine of vacuum heat collection pipe conversion among the thermal storage water tank 8 to through circulating of providing of circulating pump 11 power-forcedly, that is: the water in the thermal storage water tank has been heated by solar vacuum heat-collecting pipe;

(8) through the circulation of an end time, the heat energy temperature T that A temperature sensor 12 detects ₁₂Can reduce gradually, and the hot water water temperature T that B temperature sensor 13 detects ₁₃Can be gradually raise, when temperature difference T was lower than 2 ℃ of setting values, circulating pump 11 quit work;

(9) through the unlatching of circulating pump 11 repeatedly, close, the heat of solar energy will be converted to hot water continuously and be stored among the thermal storage water tank, the B valve 86 of opening the thermal storage water tank can use solar water.

Claims (9)

1, a kind of separated type solar water heater is characterized in that: include a thermal-arrest header (15), a plurality of thermal-arrest heat-conducting unit that is arranged in parallel, a thermal storage water tank (8), a temperature difference control module; The structure of described a plurality of thermal-arrest heat-conducting units that are arranged in parallel is identical, and adopts the layout that is arranged in parallel to be installed on the thermal-arrest header (15);

Have A interface (801), B interface (802), C interface (803), (804) four interfaces of D interface on the described thermal storage water tank (8), thermal storage water tank's (8) upper end is equipped with air bleeding valve (81), altitude valve (82) is installed, altitude valve (82) and A valve (85) UNICOM on thermal storage water tank's (8) the side plate;

A interface (801) is connected with the B interface (152) of thermal-arrest header (15) by A conduit (6);

B interface (802) is connected with the A interface (151) of thermal-arrest header (15) by B conduit (7), and B conduit (7) is provided with circulating pump (11);

C interface (803) is connected by the water supply end of C conduit (83) with the outside, realizes that cold water injects in the thermal storage water tank (8), A valve (85) is installed, water level controller (82) and A valve (85) UNICOM on the C conduit (83);

D interface (804) is supplied with the output of the hot water in the thermal storage water tank (8) to the user by D conduit (84) and is used, and B valve (86) is installed on the D conduit (84), and B valve (86) is used to open or close the supply of hot water;

Described thermal-arrest header (15) is made of pipe (5) in mainstream channel outer tube (4) and the mainstream channel, pipe (5) places and forms the pipe-in-pipe structure in the mainstream channel outer tube (4) in the mainstream channel, and the right-hand member (51) of pipe (5) is connected for sealing with the madial wall of the right-hand member end face (153) of mainstream channel outer tube (4) in the mainstream channel;

Have A interface (151) on the left end end face (154) of mainstream channel outer tube (4), have B interface (152) on the right-hand member end face (153) of mainstream channel outer tube (4), fluid infusion case (80) is installed on the body of mainstream channel outer tube (4), and the body of mainstream channel outer tube (4) below has a plurality of outer tube UNICOM mouth;

The left end of pipe (5) is sealing in the mainstream channel, and right-hand member (51) is an opening; The body of pipe (5) below has a plurality of interior UNICOM's mouths of managing in the mainstream channel;

A thermal-arrest heat-conducting unit (16) is by the tube-in-tube structure that outside to inside is A vacuum heat collection pipe (1a), A heat pipe (2a), A intensify heat transfer pipe (3a) in turn, A heat pipe (2a) is installed in the through hole (1d) of A vacuum heat collection pipe (1a) by A location thermal resistance plug (9a), and A intensify heat transfer pipe (3a) inserts in the A heat pipe (2a);

The center of A location thermal resistance plug (9a) has central through hole (91), and the cock body of A location thermal resistance plug (9a) is provided with stick harness (92); The blind end (22) that the central through hole (91) of A location thermal resistance plug (9a) is used for A heat pipe (2a) passes through;

A vacuum heat collection pipe (1a) end is a blind end, and the other end has through hole (1d), and the end that through hole (1d) is used for A heat pipe (2a) passes and by A location thermal resistance plug (9a) A heat pipe (2a) and A vacuum heat collection pipe (1a) is installed together;

One end of A heat pipe (2a) is blind end (22), and the other end is openend (21), and blind end (22) inserts in the A vacuum heat collection pipe (1a), and openend (21) is connected on the mainstream channel outer tube (4); Be wound with wire (2d) on the outer wall of A heat pipe (2a);

The A openend (31) of A intensify heat transfer pipe (3a) is connected with A interior pipe UNICOM's mouth (5a) of pipe (5) in the mainstream channel, and the B openend (32) of A intensify heat transfer pipe (3a) passes A outer tube UNICOM mouth (4a) back of mainstream channel outer tube (4) and inserts in the A heat pipe (2a);

Temperature difference control module is made up of A temperature sensor (12), B temperature sensor (13), differential temperature controller (14), circulating pump (11);

B temperature sensor (13) is installed on thermal storage water tank's (8) the inwall, and B temperature sensor (13) is used for the water temperature hot water water temperature T in the perception thermal storage water tank (8) ₁₃, and with the hot water water temperature T ₁₃Export to differential temperature controller (14);

A temperature sensor (12) is installed in the outer wall of the C heat pipe (3c) of the 3rd group of thermal-arrest heat-conducting unit, and the temperature that A temperature sensor (12) is used in the 3rd group of thermal-arrest heat-conducting unit vacuum heat collection pipe of perception is the heat energy temperature T ₁₂, and with the heat energy temperature T ₁₂Export to differential temperature controller (14);

The hot water water temperature T of differential temperature controller (14) to receiving ₁₃, the heat energy temperature T ₁₂Carry out difference relatively, obtain to drive the opening and closing information Δ T=T of circulating pump (11) ₁₂-T ₁₃

2, separated type solar water heater according to claim 1, it is characterized in that: mainstream channel outer tube (4) is a double-decker, be that mainstream channel outer tube (4) is made of mainstream channel outer tube wall (42), mainstream channel outer tube outer wall (41) and incubation cavity (43), be incubation cavity (43) between the mainstream channel outer tube wall (42) of mainstream channel outer tube (4) and the mainstream channel outer tube outer wall (41), place insulation material in the incubation cavity (43) or vacuumize.

3, separated type solar water heater according to claim 1 is characterized in that: the temperature difference of opening and closing information Δ T is higher than ON cycle pump (11), i.e. Δ T=T when being 8 ℃ in the temperature difference control module ₁₂-T ₁₃8; When being lower than 2 ℃, the temperature difference of opening and closing information Δ T closes circulating pump (11), i.e. Δ T=T ₁₂-T ₁₃＜2.

4, separated type solar water heater according to claim 1 is characterized in that: the mainstream channel outer tube is placed with filler in (4).

5, separated type solar water heater according to claim 1 is characterized in that: the clearance D=1～15mm of adjacent two thermal-arrest heat-conducting units in a plurality of thermal-arrest heat-conducting units.

6, separated type solar water heater according to claim 1 is characterized in that: A vacuum heat collection pipe (1a) length H ₁=1.15～3.0m, the outer diameter D of A vacuum heat collection pipe (1a) ₁=40～80mm, the inside diameter D of A vacuum heat collection pipe (1a) ₁₀=30～70mm.

7, separated type solar water heater according to claim 1 is characterized in that: the length H of A heat pipe (2a) ₂=0.5～3.0m, the outer diameter D of A heat pipe (2a) ₂=15～65mm, the internal diameter (D of A heat pipe 2a ₂₀)=10～64mm.

8, separated type solar water heater according to claim 1 is characterized in that: the length H of A intensify heat transfer pipe (3a) ₃=0.5～3.0m, the outer diameter D of A intensify heat transfer pipe (3a) ₃=4～30mm, the inside diameter D of A intensify heat transfer pipe (3a) ₃₀=1～29mm.

9, separated type solar water heater according to claim 1 is characterized in that: the height D of mainstream channel outer tube (4) ₄=40～200mm; The inside diameter D of pipe (5) in the mainstream channel ₅=10～40mm.

Images