CN207262524U - Blocking energy-storage wall module, cooling and heating circulation system and fabricated structure - Google Patents

Abstract

The utility model discloses a kind of blocking energy-storage wall module, cooling and heating circulation system and fabricated structure, the cooling and heating circulation system includes blocking energy-storage wall module, control centre, solar thermal collector, for the first temperature sensor of energy storage temperature and the second temperature sensor of the leaving water temperature for detecting solar thermal collector for detecting energy storage central core, the water inlet of the Single port connection solar thermal collector of circulating line, the water outlet of the another port connection solar thermal collector of circulating line, control centre adjusts solar thermal collector based on the temperature data that the first temperature sensor and second temperature sensor gather.Blocking energy-storage wall module, cooling and heating circulation system and fabricated structure provided by the utility model, the circulating line of energy-storage wall module is connected into solar thermal collector, and control centre carries out recirculated water flow quantity control by both temperature values to both, reasonable energy stores of the energy-storage wall module to solar thermal collector are realized.

Description

Blocking energy-storage wall module, cooling and heating circulation system and fabricated structure

Technical field

The utility model is related to Building technology, and in particular to a kind of blocking energy-storage wall module, cooling and heating circulation system with And fabricated structure.

Background technology

In traditional architecture, wall is mainly as the supporting structure of building and the partition-type structures of inner space, external wall Body also has insulation effect, and insulating layer can be provided with the exterior wall of the northern region.

In recent years, as INTELLIGENT BUILDING TECHNIQUE is fast-developing and application, wall can be included into as building intelligence system A part, such as Application No. 201510524099.X, authorized announcement date 2017.4.26 days, entitled " one kind, which can control, stores heat release Phase change wall system " patent of invention, it include phase-changing wall, heat insulation facing, heat exchange pipeline, connecting pipe and heat source dress Put；Wherein, cycle heat exchange pipeline is located in phase-changing wall, is located at the heat power supply device outside phase-changing wall through connecting pipe and heat exchange Pipeline connects into closed type circulation line.Isolated in heat-accumulating process with heat insulation facing, when heat release removes heat insulation facing by wall Heat release, reduce room use heat demand, realize energy saving purpose.

It is in place of the deficiencies in the prior art, needs the operation heat insulation facing of related frequency to open and close when in use, Since no fan etc. drives the device of recycle heat, it is excessively slow that it changes speed to indoor temperature.

Meanwhile phase-changing wall of the prior art is as just an additional set of existing each circulatory system of building Part, shortage are efficiently and reasonably merged with the existing circulatory system.

Utility model content

The purpose of this utility model is to provide a kind of blocking energy-storage wall module, cooling and heating circulation system and assembled and builds Thing is built, to solve above-mentioned shortcoming of the prior art.

To achieve these goals, the utility model provides following technical solution：

A kind of blocking energy-storage wall module, including energy storage central core and the insulating layer for being arranged at energy storage central core both sides, The circulating line flowed through for fluid is provided with wherein described energy storage central core, to realize that the energy of extraneous and energy storage central core is handed over Change.

A kind of cooling and heating circulation system, including above-mentioned blocking energy-storage wall module, it is arranged at blocking energy-storage wall mould First temperature of main pipeline, control centre, solar thermal collector outside block, the energy storage temperature for detecting the energy storage central core The second temperature sensor of sensor and the leaving water temperature for detecting the solar thermal collector is spent, wherein：

The circulating line is connected with the main pipeline with journey；

The water inlet of the Single port connection solar thermal collector of the main pipeline, the another port connection institute of the main pipeline State the water outlet of solar thermal collector；

The control centre communicates to connect the solar thermal collector, the first temperature sensor and second temperature sensing respectively Device, and the solar energy heating is controlled based on the temperature data that first temperature sensor and second temperature sensor gather The operating status of device.

Above-mentioned cooling and heating circulation system, further includes heat source, and the heat source is connected in series in the solar thermal collector On the main pipeline, and the water inlet of the heat source connects the water outlet of the solar thermal collector, the water outlet of the heat source Mouth connects the water inlet of the circulating line；

The leaving water temperature data for the heat source that the control centre is gathered based on three-temperature sensor are described to control Heat source.

Above-mentioned cooling and heating circulation system, further includes hot water supply system, the hot water supply system includes boiler, described Boiler is series on the main pipeline, and a water inlet of the boiler connects the water outlet of the heat source, the hot water One water outlet of case connects the water inlet of the circulating line.

Above-mentioned cooling and heating circulation system, the hot water supply system further include overflow pipe and water circulating pump：

One end of the overflow pipe is connected to the boiler；

The water circulating pump is series on the main pipeline between the boiler and the circulating line；

The control centre controls according to the temperature data that first temperature sensor and second temperature sensor gather The keying of the overflow valve.

Above-mentioned cooling and heating circulation system, further includes fresh air system, and the fresh air system includes heat exchanger, and the heat exchanger is simultaneously It is coupled on the main pipeline between the water outlet of the solar thermal collector and the circulating line, from the circulating line stream The liquid gone out flows through the water inlet for entering the solar thermal collector after the heat exchanger.

Above-mentioned cooling and heating circulation system, further includes the 4th temperature sensor and throttle valve：

4th temperature sensor, the indoor temperature in the target space adjusted for detecting the fresh air system；

The throttle valve, is arranged at the water inlet of the heat exchanger；

The control centre adjusts the opening of the throttle valve based on the indoor temperature that the 4th temperature sensor gathers Degree；And/or

The energy storage temperature for the energy storage central core that the control centre is gathered based on first temperature sensor and institute The indoor temperature for stating the collection of the 4th temperature sensor controls the rotating speed of the water circulating pump.

Above-mentioned cooling and heating circulation system, further includes smart home communication module, and the control centre is used to pass through the intelligence Can household communication module and intelligent domestic system progress data interaction.

A kind of fabricated structure, it is configured with above-mentioned cooling and heating circulation system.

In the above-mentioned technical solutions, energy-storage wall module provided by the utility model, using wall as an energy-storage module, So on the one hand after its installation in use without row operation again, user's impression and traditional wall are almost consistent, On the other hand, it is used for the excess energy of all kinds of the circulatory systems such as solar energy system, fresh air system etc. for storing intelligent building, real It is existing energy saving；Another further aspect, itself has preferable high insulating efficiency, realizes to the high-efficiency insulated of building.

Cooling and heating circulation system provided by the utility model, solar energy heating is connected by the circulating line of energy-storage wall module Device, and control centre carries out recirculated water flow quantity control by both temperature values to both, so realizes energy-storage wall module To the reasonable energy stores of solar thermal collector.

Since above-mentioned cooling and heating circulation system has above-mentioned technique effect, the assembled for being configured with the cooling and heating circulation system is built Building thing naturally also has corresponding technique effect.

Brief description of the drawings

In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, below will be to institute in embodiment Attached drawing to be used is needed to be briefly described, it should be apparent that, drawings in the following description are only described in the utility model Some embodiments, for those of ordinary skill in the art, other attached drawings can also be obtained according to these attached drawings.

Fig. 1 is the part-structure schematic diagram of the circulatory system for the cooling and heating circulation system that the utility model embodiment provides.

Fig. 2 is the front view for the energy-storage wall module that a kind of embodiment of the utility model provides；

Fig. 3 is the side view for the energy-storage wall module that a kind of embodiment of the utility model provides；

Fig. 4 is the front view for the energy-storage wall module that the utility model another kind embodiment provides；

Fig. 5 is the side view for the energy-storage wall module that the utility model another kind embodiment provides；

Fig. 6 is the structure diagram of the window portion for the energy-storage wall module that the utility model embodiment provides；

Fig. 7 is the structure diagram for the energy-storage wall module that the utility model another embodiment provides.

Description of reference numerals：

1st, wall；2nd, circulating line；3rd, energy storage central core；4th, insulating layer；5th, energy-storage units；6th, main pipeline；7th, window；8、 Skeleton structure；9th, outer finishing coat；10th, solar thermal collector；11st, fresh air system；12nd, control centre；13rd, the first temperature sensor； 14th, hot water supply system；15th, boiler；16th, heat exchanger；17th, heat source；18th, throttle valve；19th, water circulating pump；20th, overflow pipe； 21st, second temperature sensor；22nd, three-temperature sensor；23rd, the 4th temperature sensor.

Embodiment

In order to make those skilled in the art more fully understand the technical solution of the utility model, below in conjunction with attached drawing pair The utility model is further detailed.

As shown in figs. 1-7, a kind of blocking energy-storage wall module that the utility model embodiment provides, including wall 1, institute Stating wall 1 includes energy storage central core 3 and the insulating layer 4 for being arranged at 3 both sides of energy storage central core, wherein in the energy storage central core 3 The circulating line 2 flowed through for fluid is provided with, to realize the extraneous energy exchange with energy storage central core 3.

It specifically, wall 1 is the partition-type structures of all kinds of buildings, and can be the wall 1 of reinforced concrete structure, also may be used To be the plate wall 1 that for example plank, composite plate, sheet metal are formed, the wall that other materials are formed also or in the prior art Body 1.Wall 1 can be the interior wall of building, be such as provided with the wall of door or the exterior wall of building, such as set fenestrate Wall.

Energy-storage wall module provided in this embodiment, more preferably, it can be assembled wall, i.e., in advance in factory Wall element is prefabricated into, building site is then transported into and is assembled.

In the present embodiment, insulating layer 4, the pars intermedia that two insulating layers 4 clamp are both provided with two metopes of wall 1 It is divided into energy storage central core 3, insulating layer 4 is the insulation construction made of thermal insulation material, in the present embodiment, in insulating layer 4 and energy storage Central layer 3 is preferably the different structure formed by unlike material, but optionally, if the main body of energy storage central core 3 and its surface are Structure with good thermal insulation property, then insulating layer 4 and energy storage central core 3 can be integral structures.

In the present embodiment, energy storage central core 3 is used to store energy, it is to be capable of the structure of good absorption heat, circulation pipe Road 2 is arranged in energy storage central core 3, is sent power into energy storage central core 3 by circulating line 2 or is given by energy storage central core 3 It is connected with output, such as circulating line 2 with solar thermal collector 10, the sunlight preferable period on daytime, by solar thermal collector The hot water of 10 heating is sent into energy storage central core 3 by circulating line 2, and the temperature of energy storage central core 3 is lifted after heat exchange and is dropped The temperature of current in low circulation pipeline 2.And when needing to use hot water at night, then the cold water of low temperature can be inputted to circulating line 2, Export and use after being heated via energy storage central core 3, so realize the storage to the solar energy on daytime.It is apparent that except height Temperature, can also reduce storage of the temperature realization of energy storage central core 3 to " low temperature ".Meanwhile it will be appreciated by those skilled in the art that remove Outside solar thermal collector 10, energy storage central core 3 can be connected with other circulatory systems for needing heat exchange of building, such as fresh air System 11, ground heating system, air-conditioning system etc..

In the present embodiment, energy storage central core 3 can be made of the larger material of all kinds of specific heat capacities, so more to store Energy, more preferably, energy storage central core 3 is phase-transition heat-storage structure, phase-transition heat-storage structure be it is a kind of using phase-changing energy storage material as The heat storage structure on basis, its heat accumulation ultrahigh in efficiency.

Energy-storage wall module provided by the utility model, using wall 1 as an energy-storage module, so on the one hand its installation Afterwards in use without row operation again, user's impression is almost consistent with traditional wall 1, and on the other hand, it is used for The excess energy of all kinds of circulatory systems such as solar thermal collector 10, fresh air system 11 etc. of intelligent building is stored, is realized energy saving；Again On the one hand, itself has preferable high insulating efficiency, realizes to the high-efficiency insulated of building.

As shown in Figure 1, the utility model also provides a kind of cooling and heating circulation system, including above-mentioned blocking energy-storage wall mould Block, the main pipeline 6 being arranged at outside blocking energy-storage wall module, control centre 12, solar thermal collector 10, for detecting The of first temperature sensor 13 of the energy storage temperature of energy storage central core 3 and the leaving water temperature for detecting solar thermal collector 10 Two temperature sensors 21, wherein, circulating line 2 is connected with main pipeline 6 with journey；The Single port connection solar energy heating of main pipeline 6 The water inlet of device 10, the water outlet of the another port connection solar thermal collector 10 of main pipeline 6；Control centre 12 communicates respectively Solar thermal collector 10, the first temperature sensor 13 and second temperature sensor 21 are connected, and is based on the first temperature sensor 13 and second temperature sensor 21 gather temperature data control solar thermal collector 10 operating status.

Solar thermal collector 10 is used for the thermal energy for converting solar energy into respective cycle liquid, and blocking energy-storage wall module is The energy storage component of solar thermal collector, the intelligent control portion of solar energy system of the control centre 12 residing for solar thermal collector 10 Point, the first temperature sensor 13 is used for the temperature for detecting energy storage central core 3 in real time, and second temperature sensor 21 is used to detect in real time The temperature of circulation fluid such as water in solar thermal collector 10.When the temperature of circulation fluid is higher than energy storage center in heat collector 10 in solar energy During the temperature of layer, such as sun-drenched daytime, control centre 12 starts corresponding driving device such as water circulating pump 19, by the sun High temperature circulation liquid such as water in energy heat collector 10 are transported in circulating line 2, and circulating line 2 is deposited these energy by heat transfer In energy storage central core 3, the circulation fluid after being cooled down by energy storage central core 3 is transmitted back in solar thermal collector 10 again, by the sun Circulating line 2 can be transferred to again after the heating of heat collector 10, circulate storage of the above-mentioned flow realization to heat circulating system excess energy, Until the temperature of energy storage central core 3 and the temperature of circulation fluid in solar thermal collector 10 are equal or approximately equal, (temperature difference, which is less than, to be set Such as 5 degrees Celsius of fixed predetermined value)；And when the temperature of circulation fluid is less than the temperature of energy storage central core 3 in heat collector 10 in solar energy When, such as night, control centre 12 is then controlled so that the high-temp liquid heated in circulating line 2 by energy storage central core 3 is passed through supervisor Road 6 is delivered to solar thermal collector 10, to realize the release of storage energy.Realize energy-storage wall module to too by above-mentioned flow The storage and release of the energy of positive energy heat collector 10.

In the present embodiment, solar thermal collector 10 and blocking energy-storage wall module can be one or two More than or, i.e. a solar thermal collector 10 coordinates multiple blocking energy-storage wall modules, and multiple solar thermal collectors 10 are matched somebody with somebody Unification blocking energy-storage wall module, or multiple solar thermal collectors 10 coordinate multiple blocking energy-storage wall modules.

Cooling and heating circulation system provided by the utility model, solar thermal collector is connected by the circulating line of energy-storage wall module 10, and control centre 12 carries out recirculated water flow quantity control by both temperature values to both, so realizes energy-storage wall mould Storage of the block to 10 energy of solar thermal collector.

In the present embodiment, further, further include heat source 17, heat source 17 is boiler, heat pump it is this kind of by electricity, fossil feedstock or The equipment that person's other manner heats circulation fluid, heat source 17 are arranged at connecting for circulating line 2 and solar thermal collector 10 Be connected on main pipeline 6, the water outlet of the water inlet of heat source 17 connection solar thermal collector 10, the water outlet connection of heat source 17 The water inlet of circulating line 2；The leaving water temperature data for the heat source 17 that control centre 12 is gathered based on three-temperature sensor 22 come Control the operation of heat source 17.The temperature for the recirculated water for ensureing to be exported by heat source 17 is higher than the temperature of energy storage central core 3.Heat source 17 For the spare heating unit of solar thermal collector 10, when solar thermal collector 10 can not heat, and the heat that energy storage central core 3 stores After amount is depleted, control centre 12 starts heat source 17 and circulation fluid is heated.

In the present embodiment, further, hot water supply system 14 is further included；Hot water supply system 14 includes boiler 15, boiler 15 is series on the main pipeline, and a water inlet of boiler 15 is connected with the pipeline of solar thermal collector 10 Logical, a water outlet of boiler 15 is connected with the water inlet of circulating line 2, and boiler 15 is hot water supply system's 14 Water storage apparatus, the hot water that solar thermal collector 10 heats are flowed into boiler 15 and taken in order to live, connected by boiler 15 Logical solar thermal collector 10, heat source 17 and circulating line 2, realize conveying of the thermal energy to domestic hot-water of this three.

Preferably, overflow pipe 20 is provided with boiler 15, control centre 12 is according to 13 He of the first temperature sensor The keying for the temperature data control overflow pipe 20 that second temperature sensor 21 gathers, as when in solar thermal collector 10 and energy storage When the temperature of central layer 3 reaches the apex region of design, overflow pipe 20 can be opened at this time, unnecessary hot water is directly given outer Row.

In the present embodiment, further, fresh air system 11 is further included, fresh air system 11 includes heat exchanger 16, heat exchanger 16 are used to heat fresh air, and heat exchanger 16 is in parallel with being connected the pipeline of solar thermal collector 10 and circulating line 2, heat exchanger 16 Water inlet connects the water outlet of circulating line 2, the water inlet of the water outlet connection solar thermal collector 10 of heat exchanger 16, i.e., by following The recirculated water that endless tube road comes out is divided into two branch pipe(tube) operations, and one is directly transports to solar thermal collector 10, secondly being defeated Heat exchanger 16 is sent to, transfers to solar thermal collector 10 after being heated to fresh air again.Generally, the water temperature of boiler 15 is high, Up to 50-100 degree, and fresh air system 11 is used to provide suitable temperature for interior, and primary demand is in 20-30 degree, the present embodiment In, 30 degree are still above after being cooled down by the hot water that boiler 15 inputs via energy storage central core 3, at this time again fully using its heat Can be to heat fresh air, by fresh air again to inputting solar thermal collector 10 after circulating water cooling.

In the present embodiment, the water inlet of heat exchanger 16 can set throttle valve 18, and throttle valve 18 is used to control flow direction heat exchange The hot water amount of device 16, is so its required rational flow of heat exchanger 16.

In the utility model, the connection and closing of various pipes, and circulation fluid such as water conveying by respective pump and The control of valve can be completed, pump, the common knowledge and the usual skill that automatically control as corresponding field of this kind of fluid machinery of valve Art means, the present embodiment do not repeat the specific location arrangement of this kind equipment and using controls one by one.

In the present embodiment, further, the indoor temperature in the target space for detecting the adjusting of fresh air system 11 is further included The 4th temperature sensor 23, it can be one, be arranged in a fresh air space or multiple, be arranged at multiple In different fresh air spaces.Each temperature sensor is communicated to connect with control centre 12, it is used to send phase to control centre 12 The temperature data answered, control centre 12 realize intelligence control according to the temperature data to above-mentioned each heat circulating system and energy-storage module System, when reaching the energy storage upper limit such as energy storage central core 3, or when water temperature of boiler 15 is less than certain amplitude, stops energy storage, and or Recirculated water after cooling etc. is not inputted when the temperature of person's fresh air system 11 is pleasant then.

In the present embodiment, further, control centre 12 includes smart home communication module, and control centre is used to pass through intelligence Energy household communication module carries out data interaction with intelligent domestic system, and smart home communication module can be wireline interface, such as RS485 communication interfaces or wireless communication module, it is such by control such as WIFI module, 4G modules or 5G modules The heart 12 is included in smart home, realizes the overall control of smart home.

The utility model also provides a kind of fabricated structure, it is configured with above-mentioned cooling and heating circulation system.Due to above-mentioned Cooling and heating circulation system there is above-mentioned technique effect, being configured with the fabricated structure of the cooling and heating circulation system naturally also has pair The technique effect answered.

In the present embodiment, further, 3 local array of energy storage central core is disposed with multiple energy-storage units 5, energy-storage units 5 For carrying out energy storage, at this time, energy storage central core 3 includes agent structure and the energy-storage units 5 inside agent structure, energy storage list The specific heat capacity of member 5 is larger, it is the nuclear structure of energy storage, generally, specific heat capacity is difficult to two as 1 material of wall greatly with suitably Entirely, the main body of such energy storage central core 3 can still use common 1 material of wall, and set energy storage list in the inside of main body Member 5 so obtains satisfactory to both parties for energy storage between energy storage and building function.

In the present embodiment, energy-storage units 5 can be block structure, platy structure, net structure, its according to material character and The demand of realization determines that more preferably, multiple energy-storage units 5 are arranged as two layers in energy storage central core 3, and circulating line 2 is set Between two layers of energy-storage units 5, so that the even heat of circulating line 2 is distributed to two layers of energy-storage units 5.

In the present embodiment, further, the main pipeline 6 for being arranged at the outside of energy storage central core 3 is further included, circulating line 2 has Multiple, multiple circulating lines 2 are communicated on main pipeline 6, i.e., multiple circulating lines 2 are communicated on main pipeline 6 with journey, main pipeline 6 It can be fixed on the outer surface of energy storage central core 3, the outside of wall 1 can also be directly arranged at, be followed by what is be set up in parallel Endless tube road 2 can synchronize energy storage with raising heat exchanging efficiency to multiple energy-storage units of different walls 1.

In the present embodiment, further, skeleton structure 8 is provided with energy storage central core 3, skeleton structure 8 can be reinforcing bar Structure or steel frame construction, so lift the integral strength of energy storage central core 3.

Some one exemplary embodiments of the utility model are only described by way of explanation above, undoubtedly, for Those of ordinary skill in the art, can be with a variety of in the case of the spirit and scope without departing from the utility model Mode is modified described embodiment.Therefore, above-mentioned attached drawing and description are regarded as illustrative in nature, and should not be construed as Limitation to the utility model claims protection domain.

Claims (9)

1. a kind of blocking energy-storage wall module, it is characterised in that including energy storage central core and be arranged at energy storage central core both sides Insulating layer, it is extraneous with energy storage center to realize wherein be provided with the circulating line flowed through for fluid in the energy storage central core The energy exchange of layer.

2. a kind of cooling and heating circulation system, it is characterised in that including the blocking energy-storage wall module described in claim 1, set Main pipeline, control centre, solar thermal collector outside blocking energy-storage wall module, for detecting the energy storage central core Energy storage temperature the first temperature sensor and for detect the solar thermal collector leaving water temperature second temperature sensing Device, wherein：

The circulating line is connected with the main pipeline with journey；

The main pipeline Single port connection solar thermal collector water inlet, the main pipeline another port connection described in too The water outlet of positive energy heat collector；

The control centre communicates to connect the solar thermal collector, the first temperature sensor and second temperature sensor respectively, And the solar thermal collector is controlled based on the temperature data that first temperature sensor and second temperature sensor gather Operating status.

3. cooling and heating circulation system according to claim 2, it is characterised in that further include heat source, the heat source with it is described too Positive energy heat collector is connected in series on the main pipeline, and the water inlet of the heat source connects the solar thermal collector Water outlet, the water outlet of the heat source connect the water inlet of the circulating line；

The leaving water temperature data of the heat source that the control centre is gathered based on three-temperature sensor control the heat source.

4. cooling and heating circulation system according to claim 3, it is characterised in that further include hot water supply system, the life Hot-water heating system includes boiler, and the boiler is series on the main pipeline, the water inlet connection institute of the boiler The water outlet of heat source is stated, a water outlet of the boiler connects the water inlet of the circulating line.

5. cooling and heating circulation system according to claim 4, it is characterised in that the hot water supply system further includes overflow pipe And water circulating pump：

One end of the overflow pipe is connected to the boiler；

The water circulating pump is series on the main pipeline between the boiler and the circulating line；

The control centre is according to the temperature data control that first temperature sensor and second temperature sensor gather The keying of overflow valve.

6. cooling and heating circulation system according to claim 5, it is characterised in that further include fresh air system, the fresh air system Including heat exchanger, the heat exchanger is parallel to the master between the water outlet of the solar thermal collector and the circulating line On pipeline, the water inlet of the solar thermal collector is entered after flowing through the heat exchanger from the liquid of circulating line outflow.

7. cooling and heating circulation system according to claim 6, it is characterised in that further include the 4th temperature sensor and throttling Valve：

4th temperature sensor, the indoor temperature in the target space adjusted for detecting the fresh air system；

The throttle valve, is arranged at the water inlet of the heat exchanger；

The control centre adjusts the opening degree of the throttle valve based on the indoor temperature that the 4th temperature sensor gathers； And/or

The energy storage temperature for the energy storage central core that the control centre is gathered based on first temperature sensor and described The indoor temperature of four temperature sensors collection controls the rotating speed of the water circulating pump.

8. cooling and heating circulation system according to claim 2, it is characterised in that smart home communication module is further included, it is described Control centre is used to carry out data interaction by the smart home communication module and intelligent domestic system.

9. a kind of fabricated structure, it is characterised in that it is configured with claim 2-8 any one of them cold cyclings system System.