CN206905103U

CN206905103U - Solar energy combination Multisource heat pump heating system

Info

Publication number: CN206905103U
Application number: CN201720699059.3U
Authority: CN
Inventors: 李吉武; 李勇武; 刘中成
Original assignee: DONGYING MINGHUI NEW ENERGY TECHNOLOGY Co Ltd
Current assignee: Shandong Mingbang Power Technology Co.,Ltd.
Priority date: 2017-06-15
Filing date: 2017-06-15
Publication date: 2018-01-19
Anticipated expiration: 2027-06-15

Abstract

The utility model belongs to heating technology field, and in particular to a kind of solar energy combination Multisource heat pump heating system, including solar thermal collector, ultra-low temperature air source heat pump, hot water storage tank and water resource heat pump.The hot water of enough heats can be produced by solar thermal collector when shining upon preferable daytime, is directly heated for indoor end system；Night or shine upon deficiency can not produce the hot water of sufficient temp when, ultra-low temperature air source heat pump automatic start, the water in heat hot water storage tank, is heated to 20 DEG C or so, as the heat source side of water resource heat pump, heated after water resource heat pump extracts heat for indoor end system.The utility model heats solar energy and the Multisource heat pumps such as ultra-low temperature air source heat pump, water resource heat pump to indoor end system, and heating effect is good, and energy-saving and emission-reduction.

Description

Solar energy combination Multisource heat pump heating system

Technical field

A kind of solar energy combination Multisource heat pump heating system is the utility model is related to, belongs to heating technology field.

Background technology

Solar energy is the infrared radiant energy of the sun, and it is very big to reach the solar radiant energy total amount of earth surface, some areas of China With abundant solar energy resources, at present, the most crucial domestic. applications of solar energy are solar water heaters, but because solar energy provides Source utilizes and had a great influence by weather, therefore the heat that current technology means can not be using solar energy as indoor end heating system Source.

Utility model content

The technical problems to be solved in the utility model is：Overcome deficiency of the prior art, there is provided it is a kind of by solar energy with The Multisource heat pumps such as ultra-low temperature air source heat pump, water resource heat pump heat to indoor end system, and heating effect is good and energy-conservation subtracts The solar energy combination Multisource heat pump heating system of row.

Solar energy combination Multisource heat pump heating system described in the utility model, including solar thermal collector, ultralow temperature are empty Air supply heat pump, hot water storage tank and water resource heat pump, the cooling water inlet of solar thermal collector are connected by cold water pipe and hot water storage tank Connect, hot water outlet connects hot water storage tank by hot-water line, and tap water supply pipe is connected on hot water storage tank；Ultra-low temperature air source Cold water inlet, the warm water delivery port of heat pump are connected by the first pipeline, the second pipeline with hot water storage tank respectively；Hot water water storage Case is provided with two-way heating tube, and heating tube is hot water outlet pipe all the way, directly enters indoor end system, and another way heating tube is water Source heat pump water inlet pipe, the heat source side as water resource heat pump；On water resource heat pump have first entrance, first outlet, second entrance and Second outlet, water resource heat pump water inlet pipe access first entrance, first outlet connect hot water storage tank, second entrance by return pipe The water return pipeline of end system in junction chamber, second outlet pass through end system in water resource heat pump outlet pipe junction chamber.

Operation logic of the present utility model is as follows：

Winter, solar thermal collector can produce the hot water of enough heats when shining upon preferable daytime, directly be Indoor end system heats；Night or shine upon deficiency can not produce the hot water of sufficient temp when, ultra-low temperature air source heat Pump automatic start (is actually needed according to ordinary operation mode, basis and sets the ceiling temperature of ultra-low temperature air source heat pump i.e. in advance Can, once the water temperature of hot water storage tank is less than the ceiling temperature, ultra-low temperature air source heat pump will automatic start, in heating shape State, when supply water temperature reaches ceiling temperature, ultra-low temperature air source heat pump, which is in, shuts down keeping warm mode), heat hot water storage tank Interior water, 20 DEG C or so are heated to, are indoor end after water resource heat pump extracts heat as the heat source side of water resource heat pump System heats.

Preferably, described solar thermal collector uses flat-plate solar collector, and flat-plate solar collector includes saturating Bright cover plate, absorber plate, thermal-arrest main pipe, thermal insulation layer and housing；Absorber plate sets polylith, and each absorber plate is in the same plane, inhales Hot plate uses micro heat pipe array flat-plate heat pipe, and the absorber plate body of micro heat pipe array flat-plate heat pipe is interior to be connected with heat transferring medium provided with a plurality of Vacuum pore duct, every vacuum pore duct is that is, a Miniature collecting heat pipe, and the end for the plate body that absorbs heat has and collection Arcwall face that hot main pipe is engaged simultaneously is fitted by glue bonding layer and thermal-arrest main pipe；Absorber plate, thermal insulation layer are set from top to bottom In housing, transparent cover plate covers on housing from top and the space of closing is formed with housing, and the both ends of thermal-arrest main pipe are from housing Passed in side wall.

In above-mentioned flat-plate solar collector, each vacuum pore duct in absorber plate is all independent operating, therefore, such as Wall scroll vacuum pore duct in fruit absorber plate is damaged, and can't influence the work in other vacuum pore ducts on the absorber plate Make, so as to ensure the normal work of heat collector；Absorber plate is fitted by its end arcwall face with thermal-arrest main pipe, not directly Connect and contacted with the water in thermal-arrest main pipe, i.e., absorber plate separates with water route, can so prevent absorber plate surface scale, absorb heat simultaneously Plate will not also be corroded because of water quality reason, so as to extend the service life of absorber plate；Absorber plate uses modularized design, works as heat absorption The impaired area of plate is larger, when can not ensure the Heat-collecting effect of solar thermal collector, can directly by individually some or certain it is several Absorber plate is changed, easy to operate, and need not change the miscellaneous part of solar thermal collector, therefore can substantially reduce dimension Repair maintenance cost.

It is further preferred that there are at least 24 vacuum pore ducts in the absorber plate body of micro heat pipe array flat-plate heat pipe, Each vacuum pore duct independent operating, there is high thermal conductivity and high reliability.

It is further preferred that the heat absorption plate body of micro heat pipe array flat-plate heat pipe uses aluminum alloy material, it is ensured that good suction Heat, heat-transfer effect.

It is further preferred that described housing is combined by bottom plate and aluminum alloy frame.It is it is further preferred that described Bottom plate is using cotton ginning aluminum soleplate.

It is further preferred that described transparent cover plate uses safety glass, because safety glass have solar transmission than it is high, lead The advantage that hot coefficient is small, impact strength is high, therefore, more solar energy can either be made enough to be entered by absorber plate, and can to absorber plate Row effectively protection.

It is further preferred that described thermal insulation layer uses phenolic resin insulation material, effectively heat is prevented to scatter and disappear, it is ensured that too The overall Heat-collecting effect of positive energy heat collector.

It is further preferred that the upper surface Vacuum Deposition indigo plant titanium film of described micro heat pipe array flat-plate heat pipe, passes through blue titanium film Can be by the infrared radiant energy of the efficient absorption sun, and anti-overheat is durable in use.

Preferably, described flat-plate solar collector tilts installation, and angle of inclination is 37 °~42 °, and endotherm area is big, Ensure Heat-collecting effect.

Possessed beneficial effect is the utility model compared with prior art：

1st, the utility model by the Multisource heat pump such as solar energy and ultra-low temperature air source heat pump, water resource heat pump to indoor end system System is heated, and heating effect is good and energy-saving and emission-reduction；

2nd, the solar thermal collector that the utility model uses is using the absorber plate and absorber plate of modularized design and water route point From Heat-collecting effect can either be ensured, and can enough ensures service life, and absorber plate changes that convenient, overall maintenance maintenance cost is low.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the structural representation of the present embodiment middle plateform solar thermal collector；

Fig. 3 is the sectional view of micro heat pipe array flat-plate heat pipe in flat-plate solar collector.

Wherein：1st, solar thermal collector；2nd, cold water pipe；3rd, hot-water line；4th, tap water supply pipe；5th, hot water storage tank；6、 Water resource heat pump water inlet pipe；7th, return pipe；8th, water resource heat pump；9th, water resource heat pump outlet pipe；10th, the return pipe of indoor end system Road；11st, hot water outlet pipe；12nd, the first pipeline；13rd, the second pipeline；14th, ultra-low temperature air source heat pump；15th, transparent cover plate；16、 Blue titanium film；17th, absorber plate；18th, thermal insulation layer；19th, bottom plate；20th, glue bonding layer；21st, thermal-arrest main pipe；22nd, aluminum alloy frame；23、 Absorb heat plate body；24th, vacuum pore duct.

Embodiment

Embodiment of the present utility model is described further below in conjunction with the accompanying drawings：

As shown in figure 1, solar energy combination Multisource heat pump heating system described in the utility model, including solar thermal collector 1st, ultra-low temperature air source heat pump 14, hot water storage tank 5 and water resource heat pump 8, the cooling water inlet of solar thermal collector 1 pass through cold water pipe 2 are connected with hot water storage tank 5, and hot water outlet connects hot water storage tank 5 by hot-water line 3, and running water is connected on hot water storage tank 5 Feed pipe 4；Cold water inlet, the warm water delivery port of ultra-low temperature air source heat pump 14 pass through the first pipeline 12, the second pipeline respectively 13 are connected with hot water storage tank 5；Hot water storage tank 5 is provided with two-way heating tube, and heating tube is hot water outlet pipe 11 all the way, directly Enter indoor end system, another way heating tube is water resource heat pump water inlet pipe 6, the heat source side as water resource heat pump 8；Water resource heat pump 8 Upper to have first entrance, first outlet, second entrance and second outlet, water resource heat pump water inlet pipe 6 accesses first entrance, and first goes out Mouthful hot water storage tank 5 is connected by return pipe 7, the water return pipeline 10 of end system in second entrance junction chamber, second outlet is led to Cross end system in the junction chamber of water resource heat pump water inlet pipe 9.

Operation logic of the present utility model is as follows：

Winter, solar thermal collector 1 can produce the hot water of enough heats when shining upon preferable daytime, directly be Indoor end system provides 45-40 DEG C of supplying hot water, indoor temperature is not less than 18 DEG C in the winter time；At night or shine upon not When foot can not produce the hot water of sufficient temp, the automatic start of ultra-low temperature air source heat pump 14 is (according to ordinary operation mode, according to reality Border needs to set the ceiling temperature of ultra-low temperature air source heat pump 14 in advance, once the water temperature of hot water storage tank 5 is less than on this Limit temperature, ultra-low temperature air source heat pump 14 will automatic start, in heated condition, when supply water temperature reaches ceiling temperature, Ultra-low temperature air source heat pump, which is in, shuts down keeping warm mode), the water in heat hot water storage tank 5,20 DEG C or so are heated to, made For the heat source side of water resource heat pump 8, heated after water resource heat pump 8 extracts heat for indoor end system.

In the present embodiment, solar thermal collector 1 uses flat-plate solar collector, and it mainly includes transparent cover plate 15, inhaled Hot plate 17, thermal-arrest main pipe 21, thermal insulation layer 18 and housing；Absorber plate 17 sets polylith, and each absorber plate 17 is in the same plane, inhales The end of hot plate body 23 has the arcwall face being engaged with thermal-arrest main pipe 21 and is affixed by glue bonding layer 20 and thermal-arrest main pipe 21 Close, absorber plate 17 uses micro heat pipe array flat-plate heat pipe, and being provided with 24 in the heat absorption plate body 23 of micro heat pipe array flat-plate heat pipe leads to There is the vacuum pore duct 24 of heat transferring medium, every vacuum pore duct 24 is that is, a Miniature collecting heat pipe, independent operating, Set 9 pieces of absorber plates 17 to be calculated by every square meter, there is 216 Miniature collecting heat pipes, the thermal-arrest utensil so formed per square meter There are high thermal conductivity and high reliability；Absorber plate 17, thermal insulation layer 18 are arranged in housing from top to bottom, and transparent cover plate 15 is from top lid The space of closing is formed on housing and with housing, the both ends of thermal-arrest main pipe 21 pass from housing sidewall.Wherein, micro heat pipe battle array The heat absorption plate body 23 of row flat-plate heat pipe uses aluminum alloy material, it is ensured that good heat absorption, heat-transfer effect；Housing is by bottom plate 19 and aluminium Alloy frame 22 combines, and bottom plate 19 is using cotton ginning aluminum soleplate 19；Transparent cover plate 15 uses tempering glass of the thickness for 3.2mm Glass, because safety glass has solar transmission than advantage high, that thermal conductivity factor is small, impact strength is high, therefore, it can either make more Solar energy is enough effectively protected absorber plate 17 by absorber plate 17, and can；Thermal insulation layer 18 uses phenolic resin insulation material, has Effect prevents heat to scatter and disappear, it is ensured that the overall Heat-collecting effect of solar thermal collector 1；The upper surface vacuum of micro heat pipe array flat-plate heat pipe Blue titanium film 16 is plated, can be by the infrared radiant energy of the efficient absorption sun by blue titanium film 16, and anti-overheat is durable in use.

In the utility model, each vacuum pore duct 24 in absorber plate 17 is all independent operating, therefore, if heat absorption Wall scroll vacuum pore duct 24 in plate 17 is damaged, and can't influence other vacuum pore ducts 24 on the absorber plate 17 Work, so as to ensure the normal work of heat collector；Absorber plate 17 is fitted by its end arcwall face with thermal-arrest main pipe 21, Do not contacted with the water in thermal-arrest main pipe 21 directly, i.e., absorber plate 17 separates with water route, can so prevent the surface of absorber plate 17 Fouling, while absorber plate 17 will not also be corroded because of water quality reason, so as to extend the service life of absorber plate 17；Absorber plate 17 is adopted With modularized design, when the impaired area of absorber plate 17 is larger, the Heat-collecting effect of solar thermal collector 1 can not be ensured when, can be with Directly independent some or certain several absorber plates 17 are changed, it is easy to operate, and its of solar thermal collector 1 need not be changed His part, therefore maintenance maintenance cost can be substantially reduced.

Claims

A kind of 1. solar energy combination Multisource heat pump heating system, it is characterised in that：It is empty including solar thermal collector (1), ultralow temperature Air supply heat pump (14), hot water storage tank (5) and water resource heat pump (8), the cooling water inlet of solar thermal collector (1) pass through cold water pipe (2) it is connected with hot water storage tank (5), hot water outlet connects hot water storage tank (5) by hot-water line (3), on hot water storage tank (5) Connect tap water supply pipe (4)；

Cold water inlet, the warm water delivery port of ultra-low temperature air source heat pump (14) pass through the first pipeline (12), the second pipeline respectively (13) it is connected with hot water storage tank (5)；

Hot water storage tank (5) is provided with two-way heating tube, and heating tube is hot water outlet pipe (11) all the way, directly enters indoor end system System, another way heating tube are water resource heat pump water inlet pipe (6), the heat source side as water resource heat pump (8)；

There is first entrance, first outlet, second entrance and second outlet, water resource heat pump water inlet pipe (6) connects on water resource heat pump (8) Enter first entrance, first outlet connects hot water storage tank (5) by return pipe (7), end system in second entrance junction chamber Water return pipeline (10), second outlet pass through end system in water resource heat pump water inlet pipe (9) junction chamber.
2. solar energy combination Multisource heat pump heating system according to claim 1, it is characterised in that：Described solar energy collection Hot device (1) uses flat-plate solar collector, and flat-plate solar collector includes transparent cover plate (15), absorber plate (17), thermal-arrest Main pipe (21), thermal insulation layer (18) and housing；Absorber plate (17) sets polylith, and each absorber plate (17) is in the same plane, heat absorption Plate (17) uses micro heat pipe array flat-plate heat pipe, is changed in the heat absorption plate body (23) of micro heat pipe array flat-plate heat pipe provided with a plurality of be connected with The vacuum pore duct (24) of thermal medium, the end of heat absorption plate body (23) have the arcwall face being engaged with thermal-arrest main pipe (21) simultaneously Fitted by glue bonding layer (20) and thermal-arrest main pipe (21)；Absorber plate (17), thermal insulation layer (18) are arranged on housing from top to bottom Interior, transparent cover plate (15) covers on housing from top and the space of closing is formed with housing, and the both ends of thermal-arrest main pipe (21) are from shell Passed on body sidewall.
3. solar energy combination Multisource heat pump heating system according to claim 2, it is characterised in that：Micro heat pipe array flat board There are at least 24 vacuum pore ducts (24) in the heat absorption plate body (23) of heat pipe.
4. solar energy combination Multisource heat pump heating system according to claim 2, it is characterised in that：Micro heat pipe array flat board The heat absorption plate body (23) of heat pipe uses aluminum alloy material.
5. according to any described solar energy combination Multisource heat pump heating system in claim 2~4, it is characterised in that：It is described Housing combined by bottom plate (19) and aluminum alloy frame (22).
6. solar energy combination Multisource heat pump heating system according to claim 5, it is characterised in that：Described bottom plate (19) Using cotton ginning aluminum soleplate (19).
7. the solar energy combination Multisource heat pump heating system according to claim 2,3,4 or 6, it is characterised in that：Described Transparent cover plate (15) uses safety glass.
8. the solar energy combination Multisource heat pump heating system according to claim 2,3,4 or 6, it is characterised in that：Described Thermal insulation layer (18) uses phenolic resin insulation material.
9. the solar energy combination Multisource heat pump heating system according to claim 2,3,4 or 6, it is characterised in that：Micro heat pipe The upper surface Vacuum Deposition indigo plant titanium film (16) of the heat absorption plate body (23) of Array Plate heat pipe.
10. the solar energy combination Multisource heat pump heating system according to claim 2,3,4 or 6, it is characterised in that：Described Flat-plate solar collector tilts installation, and angle of inclination is 37 °~42 °.