CN209540990U - A kind of building intelligent cooling/warming system - Google Patents

Abstract

The utility model relates to technical field of energy utilization, a kind of building intelligent cooling/warming system are provided, including the cooling supply pipe network being laid in building and heating network；For the energy-storage system and interior circulating heat pump system to cooling supply pipe network and heating network energy supply；Multiple miniature energy storage devices being connect in building with cooling supply pipe network, heating network；For controlling the intelligence control system of energy-storage system, interior circulating heat pump system and the work of miniature energy storage device；Energy-storage system includes: the changes in temperature tank being arranged in parallel with interior circulating heat pump system and hot pond tank.In such a way that interior circulating heat pump system is in conjunction with energy-storage system, it is applicable to different temperature environment variations, the stability and economy of energy supply is effectively ensured, it is used to carry out energy supplement to each room by miniature energy storage device, the non-uniform problem of Energy distribution in building is quickly coped with, the comfort of user is improved, to have the advantages that energy utilization rate is high, energy supply is stablized, the uniform energy supply timeliness of Energy distribution is high.

Description

A kind of building intelligent cooling/warming system

Technical field

The utility model relates to technical field of energy utilization, are provided in particular in a kind of building intelligent cooling/warming system.

Background technique

With the raising of economic development and living standards of the people, air-conditioning, heating and domestic hot-water's energy consumption build energy in China Specific gravity is significantly increased in consumption, gradually develops into a major part in building energy consumption, brings to the energy and environment Bigger pressure.

Currently, urban heat supplying planning can not achieve central heating region, it is general to heat using using distributed centralization.Due to Heating scale is restricted, and is all made of non-coal-fired as heat source.It is single regardless of being heated using the heating of the transmission energy with renewable energy One heat resource equipment heating technology is easy to be influenced by external environment and increase energy consumption, and cost is also higher, while because building are built It is uneven to build heat energy distribution, be easy to cause capacity usage ratio low.

Utility model content

The purpose of this utility model is to provide a kind of building intelligent cooling/warming systems, it is intended to solve building in the prior art and build Build it is middle using single source equipment heating technology when that there are capacity usage ratios is low with the non-uniform technical problem of Energy distribution.

A kind of in order to achieve the above purposes, the technical solution adopted by the utility model is: building intelligent cooling/warming system, comprising: Cooling supply pipe network and the heating network being laid in building；For to the cooling supply pipe network, the heating network heat supply or cooling supply Energy-storage system and interior circulating heat pump system；It is multiple it is in the building, connect with the cooling supply pipe network, the heating network Miniature energy storage device；And for controlling the energy-storage system, the interior circulating heat pump system and the miniature energy storage device The intelligence control system of work；The energy-storage system includes: the changes in temperature tank being arranged in parallel with the interior circulating heat pump system and heat Pond tank.

Further: the miniature energy storage device includes: energy storage canister and circulating pump system；Storage is built-in in the energy storage canister Energy material, the pipeline between the energy storage canister and the room of the building are pumped equipped with heat release.

Further: the circulating pump system includes: evaporator, compressor, condenser and expansion valve, the condenser with The energy storage canister connection.

Further: every layer of building, which are set to, multiple miniature energy storage devices, and the miniature energy storage device is used for Top room to the building and changes in temperature supply is carried out by the surrounding room of external environment.

Further: the interior circulating heat pump system includes: the circulating pump system of multiple groups parallel connection.

Further: electric heater is equipped in the hot pond tank, the hot pond tank is equipped with the first thermometric instrument.

Further: heat-exchangers of the plate type, the plate being connected with by pipeline between the changes in temperature tank and the hot pond tank Pipeline between formula heat exchanger and the changes in temperature tank is equipped with control valve and switch valve, the heat-exchangers of the plate type and the heat Pipeline between the tank of pond is equipped with high-temperature pump.

Further: the building intelligent cooling/warming system further include: the benefit being sequentially communicated by pipeline and the changes in temperature tank Water pump, softening water tank and automatic cleaner；The automatic cleaner is connected to water inlet pipe.

Further: being connected with the first water collector on the changes in temperature pipe network, second is connected on the heating network and is catchmented Device is in series with first pressure gauge, first flow on the pipeline between second water collector and the hot pond tank, the changes in temperature tank Valve and variable frequency pump；The outlet conduit of the variable frequency pump is equipped with second temperature instrument.

Further: the changes in temperature tank, the hot pond tank and the interior circulating heat pump system are set to the building of the building It pushes up, is additionally provided with the solar water heating system connecting with the hot pond tank or the interior circulating heat pump system on the roof.

The utility model has the beneficial effects that

A kind of building intelligent cooling/warming system provided by the utility model, passes through the heating network and cooling supply being laid in building Pipe network, in each room into building, to pass through energy transmission caused by interior circulating heat pump system and energy-storage system Mode of the interior circulating heat pump system in conjunction with energy-storage system, is applicable to different environmental changes, and the stabilization of energy supply is effectively ensured Property and economy, meanwhile, by multiple miniature energy storage devices in building be used for each room carry out energy supplement, rapidly Solve the problems, such as that Energy distribution is non-uniform in building, making building effectively becomes a thermostat building, improves the energy The comfort of utilization rate and user, and controlled by intelligence control system, make the building intelligent cooling/warming system that there is the energy The advantage that utilization rate is high, energy supply is stablized, the uniform energy supply timeliness of Energy distribution is high.

Detailed description of the invention

It, below will be to embodiment or the prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing needed in description is briefly described, it should be apparent that, the accompanying drawings in the following description is only that this is practical new Some embodiments of type for those of ordinary skill in the art without any creative labor, can be with It obtains other drawings based on these drawings.

Fig. 1 is the attachment structure schematic diagram of building intelligent cooling/warming system provided by the embodiment of the utility model；

Fig. 2 is the attachment structure schematic diagram of miniature energy storage device in the utility model embodiment.

Appended drawing reference: 1, building；101, cooling supply pipe network；102, heating network；103, user；2, energy-storage system；21, changes in temperature Tank；22, hot pond tank；221, electric heater；222, the first thermometric instrument；3, miniature energy storage device；31, energy storage canister；32, circulating pump System；321, evaporator；322, compressor；323, condenser；324, expansion valve；33, heat release pumps；34, third thermometric instrument； 35, the 4th thermometric instrument；4, interior circulating heat pump system；5, control valve；6, switch valve；7, high-temperature pump；8, small pump；9, softened water Case；10, automatic cleaner；11, the first water collector；12, the second water collector；121, regulating valve；122, the 6th thermometric instrument；123, Second flow valve；13, first pressure gauge；14, first flow valve；15, variable frequency pump；16, second temperature instrument；17, board-like heat is handed over Parallel operation；18, water inlet pipe；19, the 5th thermometric instrument.

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model Limitation.

In the description of the present invention, it should be understood that term " length ", " width ", "upper", "lower", " preceding ", The orientation or positional relationship of the instructions such as " rear ", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is based on attached Orientation or positional relationship shown in figure, is merely for convenience of describing the present invention and simplifying the description, rather than indication or suggestion Signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to this The limitation of utility model.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be Mechanical connection, is also possible to be electrically connected；It can be directly connected, two can also be can be indirectly connected through an intermediary The interaction relationship of connection or two elements inside element.It for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term in the present invention.

It please refers to shown in Fig. 1-2, the present embodiment is to provide a kind of building intelligent cooling/warming system, the building intelligent changes in temperature system System includes: the cooling supply pipe network 101 and heating network 102 being laid in building 1, for cooling supply pipe network 101, heating network 102 The energy-storage system 2 and interior circulating heat pump system 4 of heat supply or cooling supply, multiple in building 1 and cooling supply pipe networks 101, heating tube The miniature energy storage device 3 that net 102 connects, and for controlling energy-storage system 2, interior circulating heat pump system 4 and miniature energy storage device 3 The intelligence control system of work.Wherein, energy-storage system 2 includes: the changes in temperature tank 21 being arranged in parallel with interior circulating heat pump system 4 and heat Pond tank 22.

A kind of building intelligent cooling/warming system provided by the embodiment of the utility model, passes through the heating tube being laid in building 1 Net 102 and cooling supply pipe network 101, so as to by energy transmission caused by interior circulating heat pump system 4 and energy-storage system 2 into building 1 Each room in, in such a way that interior circulating heat pump system 4 is combined with energy-storage system 2, be applicable to different temperature environments Variation, is effectively ensured the stability and economy of energy supply, meanwhile, it is used for by multiple miniature energy storage devices 3 in building 1 to each A room carries out energy supplement, has quickly coped with the non-uniform problem of Energy distribution in building 1, has become building 1 effectively One thermostat building, and can be achieved at the same time the supply of cold water, hot water and heating, thus improve the energy utilization rate and The comfort of user 103, and controlled by intelligence control system, make the building intelligent cooling/warming system that there is energy utilization rate The advantage that high, energy supply is stablized, the uniform energy supply timeliness of Energy distribution is high.

Specifically, in the present embodiment, miniature energy storage device 3 includes: energy storage canister 31 and circulating pump system 32.Wherein, it stores up It can be built-in with energy storage material in tank 31, energy storage material can be lava, conduction oil or water, be used for cold-storage and heat accumulation.Wherein energy storage Pipeline between tank 31 and the room of building 1 is equipped with heat release pump 33, and heat release pump 33 is for providing power to the water in pipeline, often One miniature energy storage device 3 is equipped with a third thermometric instrument 34, for monitoring the temperature of miniature energy storage device 3, each At room be equipped with the 4th thermometric instrument 35, for monitoring the temperature at room, with the temperature of effective monitoring building 1 everywhere with And its energy loss.

More specifically, in the present embodiment, circulating pump system 32 includes: evaporator 321, compressor 322, condenser 323 With expansion valve 324, wherein condenser 323 is connected to energy storage canister 31, and circulating pump system 32 is used for cold-storage or accumulation of heat, and energy storage canister 31 is used It is laid in the energy provided circulating pump system 32, for the use of user 103.Wherein, evaporator 321, compressor 322, Concatenated multiple groups can be set in condenser 323 and expansion valve 324.

In the present embodiment, miniature energy storage device 3 can be with the heating network 102 and cooling supply pipe that are individually laid in building 1 Net 101 connects, i.e., miniature energy storage device 3 individually connects a set of heating network 102 and cooling supply pipe network 101, and energy-storage system 2 is followed with interior Ring heat pump system 4 connects a set of heating network 102 and cooling supply pipe network 101 jointly, is conducive in this way to 1 surrounding of building and top room Between heat load distribution otherness solved.In the present embodiment, it is possible to which source source is mainly transformed by electric energy, still Further include the converting heat for collecting air energy, water source, underground heat, converts these low-quality or low value energy to high attached Value added using energy source.

Preferably: every floor of building 1 has been set to multiple miniature energy storage devices 3, in the present embodiment, miniature energy storage dress It sets there are two 3 every layer of settings, miniature energy storage device 3 is mainly used for the top room to building 1 and the surrounding room by external environment Between carry out changes in temperature supply.The top room of building 1 and the surrounding room of close external environment, can because directly contacting with the external world Amount loss is very fast, it is therefore desirable to provide supplement energy in time.And miniature energy storage device 3 can rapidly carry out energy supplement, and supply Energy stroke is short, and each room of building 1 is effectively made to be in a temperature constant state, so that building 1 become a temperature-constant building.At it In his the present embodiment, miniature energy storage device 3 is configured in the quantity that every floor is arranged according to the size of building 1.In other realities It applies in example, miniature energy storage device 3 equally can also carry out function to the room at 1 middle part of building, wherein the room at middle part, which refers to, to be removed Go to 1 top room of building and the surrounding room close to external environment.

Specifically, in the present embodiment, interior circulating heat pump system 4 includes: the circulating pump system 32 that multiple groups are arranged in parallel, should Circulating pump system 32 equally includes: evaporator 321, compressor 322, condenser 323 and expansion valve 324.

Specifically, in the present embodiment, it is equipped with electric heater 221 in hot pond tank 22, electric heater 221 is used for hot pond tank Water in 22 is heated, wherein the first thermometric instrument 222 is equipped on hot pond tank 22, the first thermometric instrument 222 is for monitoring Temperature in hot pond tank 22.

Preferably, heat-exchangers of the plate type 17 is connected with by pipeline between changes in temperature tank 21 and hot pond tank 22, board-like heat is handed over Pipeline between parallel operation 17 and changes in temperature tank 21 is equipped with control valve 5 and switch valve 6, between heat-exchangers of the plate type 17 and hot pond tank 22 Pipeline be equipped with high-temperature pump 7.Wherein, switch valve 6 is arranged in water at low temperature and is flowed on the pipeline of heat-exchangers of the plate type 17, high temperature Pump 7, which is arranged in, has the high-temperature water in hot pond tank 22 to be flowed on the pipeline of heat-exchangers of the plate type 17, and control valve 5 is arranged by board-like On the pipeline of the high-temperature water outflow of heat exchanger 17.Wherein, switch valve 6, control valve 5 and high-temperature pump 7 are for realizing energy-storage system 2 It is with being exported by energy requirement for interior circulating heat pump system 4, i.e., only interior to follow when switch valve 6, control valve 5 and high-temperature pump 7 are turned off Ring pumping system 32 carries out energy supply output, conversely, energy supply exports jointly for energy-storage system 2 and interior circulating heat pump system 4.

Specifically, building intelligent cooling/warming system further include: the small pump 8 that is sequentially communicated by pipeline with changes in temperature tank 21, soft Change water tank 9 and automatic cleaner 10；Wherein, automatic cleaner 10 is connected to water inlet pipe 18, and automatic cleaner 10 is used for preliminary mistake Carry out the impurity in ordinary tap water, softening water tank 9 is used to by electronically softening reduce common tap water wherein Calcium ions and magnesium ions concentration, to make calcium ions and magnesium ions will not be with the hydroxide ion in water in conjunction with carbanion, to reduce The fouling rate that scale is generated in pipeline, has been effectively ensured the heating of pipeline or the efficiency of refrigeration.Liquid is additionally provided on changes in temperature tank 21 Position instrument, liquid level instrument are used to monitor the water level in changes in temperature tank 21, carry out moisturizing to control small pump 8 to changes in temperature tank 21.? Under normal circumstances, the selection paddy electricity period carries out moisturizing, and the moisturizing of paddy electricity period is used to avoid the peak period of urban water.

Specifically, it is connected with the first water collector 11 on changes in temperature pipe network, the second water collector is connected on heating network 102 12, the first water collector 11 and the second water collector 12 mainly play Water storage.Wherein, in the second water collector 12 and hot pond tank 22, cold First pressure gauge 13, first flow valve 14 and variable frequency pump 15 are in series on pipeline between warm tank 21；The outlet of variable frequency pump 15 Road is equipped with second temperature instrument 16.Wherein first pressure gauge 13, first flow valve 14, variable frequency pump 15 and second temperature instrument 16 For controlling the energy supply ratio of energy-storage system 2.I.e. energy-storage system 2 and interior circulating heat pump system 4 at work, followed in adjustment Ring heat pump system 4 for energy, this is provided for the difference of energy and demand by energy-storage system 2.

Specifically, heating network 102 includes that heat supply general pipeline and each heat supply are in charge of, on the second water collector 12 and total heat general pipeline Equipped with regulating valve 121, the 6th thermometric instrument 122 and second flow valve 123, wherein regulating valve 121,122 and of the 6th thermometric instrument Second flow valve 123 is mainly used for controlling the energy supply demand at 1 middle part of building, cooperates with miniature energy storage device 3, controls building 1 entire energy supply demand, so that the uniformity and stability of 1 Energy distribution of building be effectively guaranteed.

It is equipped with the 5th thermometric instrument 19 at the outlet of interior circulating heat pump system 4, is controlled according to the 5th thermometric instrument 19 Make the operation quantity of the circulatory system in interior circulating heat pump system 4.

Specifically, in the present embodiment, changes in temperature tank 21, hot pond tank 22 and interior circulating heat pump system 4 are set to the building of building 1 Top is additionally provided with and hot pond tank 22 or interior circulating heat pump system to reduce occupied area and reduce energy transmission loss on roof The solar water heating systems of 4 connection of system, can be carried out heating water using the sun, for energy saving, reduce cost.

The course of work of the building intelligent cooling/warming system of this implementation is as follows: when 1 environment temperature of building is in ideal interval (referring generally to the temperature change as caused by normal Changes in weather) closes energy-storage system 2, is supplied by interior circulating heat pump system 4 Energy.Wherein control mode is: according to the 5th thermometric instrument 19 at interior 4 outlet of circulating heat pump system come control loop pumping system 32 operation quantity is in circulating pump system 32 under work declared working condition and runs, and control valve 5 is shown in a fully open operation at this time.

When 1 environment of building is in non-ideal section, non-ideal section refers generally to specific time period, peak regulation period, extremely cold day Gas, non-ideal section are judged according to the actual situation.At this point, starting energy-storage system 2, by interior circulating heat pump system 4 and energy storage System 2 is combined and is energized.Wherein control mode is: the 5th thermometric instrument 19 is under work declared working condition and runs, and downward follows The energy supply ratio of loop system is provided with the difference of demand by energy-storage system 2.Wherein, second at 15 outlet of variable frequency pump The energy supply ratio of the control energy-storage system 2 of thermometric instrument 16.In the present embodiment, interior circulating heat pump system 4 energizes ratio 70% ~90%, the Energy Efficiency Ratio highest realized in the range, energy utilization rate highest.

Wherein, energize principle: under weather conditions harsh conditions, 1 load of building increases, preferential to increase by 2 heat supply of energy-storage system, It is stepped up the quantity that puts into operation of circulating pump system 32 in interior circulating heat pump system 4 again, otherwise 1 load reduction of building the case where Under, it is preferential to close 2 heat supply of energy-storage system, then gradually reduce the quantity that puts into operation of circulating pump system 32 in interior circulating heat pump system 4.? It heats in the case of peak load shifting, 1 load of building increases, and circulating pump system 32 puts into operation in the preferential interior circulating heat pump system 4 of increase Then quantity is further added by 2 heat supply of energy-storage system, otherwise in the case where 1 load reduction of building, it is preferential to reduce interior circulating heat pump system The quantity that puts into operation of circulating pump system 32, then turns off 2 heat supply of energy-storage system in system 4.

In the present embodiment, miniature energy storage device 3 carries out energy storage as the energy using the electric energy of paddy electricity period at night, wherein The paddy electricity period is 23:00~next day 07:00, and in other embodiments, the paddy electricity period is configured according to different cities situation.

In the present embodiment, intelligence control system is dcs, referred to as DCS (Distributed Control System).DCS is used for the data according to acquisitions such as each thermometric instrument, pressure gauges, and comes in conjunction with weather condition etc. Control the energy output of energy-storage system 2, interior circulating heat pump system 4 and miniature energy storage device 3.In other embodiments, intelligence control System processed further includes remote work station or mobile phone terminal APP.

Building intelligent cooling/warming system provided by the utility model has the advantage that

1. passing through the coupling of energy-storage system 2 and interior circulating heat pump system 4, building intelligent cooling/warming system energy supply ensure that Stability and safety, while the Energy Efficiency Ratio of interior circulating heat pump system 4 is also improved, reduce operation and maintenance cost；

2. can be realized being precisely controlled for each room room temperature by miniature energy storage device 3, being filled by miniature energy storage The loss of 3 supplement room temperatures is set, with fast, the accurate advantage of reaction speed, building 1 is effectively guaranteed and are in a constant temperature shape State；

3. energy-storage system 2, interior circulating heat pump system 4 to be arranged in the roof of building 1, reduce land occupation and pipeline is laid at This, and the loss of energy transmission can be reduced；

4. realization divides room control by intelligence control system, be conducive to the experience and the comfort that improve user 103.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (10)

1. a kind of building intelligent cooling/warming system characterized by comprising

The cooling supply pipe network (101) and heating network (102) being laid in building (1)；

For to the cooling supply pipe network (101), the heating network (102) heat supply or cooling supply energy-storage system (2) and interior circulation Heat pump system (4)；

Multiple miniature storages in the building (1), being connect with the cooling supply pipe network (101), the heating network (102) It can device (3)；

And for controlling the energy-storage system (2), the interior circulating heat pump system (4) and the miniature energy storage device (3) work The intelligence control system of work；

The energy-storage system (2) includes: the changes in temperature tank (21) and hot pond tank being arranged in parallel with the interior circulating heat pump system (4) (22)。

2. a kind of building intelligent cooling/warming system according to claim 1, it is characterised in that: the miniature energy storage device (3) It include: energy storage canister (31) and circulating pump system (32)；Energy storage material, the energy storage canister (31) are built-in in the energy storage canister (31) Pipeline between the room of the building (1) is equipped with heat release pump (33).

3. a kind of building intelligent cooling/warming system according to claim 2, it is characterised in that: circulating pump system (32) packet It includes: evaporator (321), compressor (322), condenser (323) and expansion valve (324), the condenser (323) and the energy storage Tank (31) connection.

4. a kind of building intelligent cooling/warming system according to claim 3, it is characterised in that: every layer of building (1) is set to There are multiple miniature energy storage devices (3), the miniature energy storage device (3) is used for the top room to the building (1) and leans on The surrounding room of external environment carries out changes in temperature supply.

5. a kind of building intelligent cooling/warming system according to claim 3, it is characterised in that: the interior circulating heat pump system (4) include: multiple groups parallel connection the circulating pump system (32).

6. a kind of building intelligent cooling/warming system according to any one of claims 1-5, it is characterised in that: the hot pond tank (22) electric heater (221) are equipped in, the hot pond tank (22) is equipped with the first thermometric instrument (222).

7. a kind of building intelligent cooling/warming system according to any one of claims 1-5, it is characterised in that: the changes in temperature tank (21) be connected with heat-exchangers of the plate type (17) between the hot pond tank (22) by pipeline, the heat-exchangers of the plate type (17) with Pipeline between the changes in temperature tank (21) is equipped with control valve (5) and switch valve (6), the heat-exchangers of the plate type (17) with it is described Pipeline between hot pond tank (22) is equipped with high-temperature pump (7).

8. a kind of building intelligent cooling/warming system according to claim 7, it is characterised in that: the building intelligent cooling/warming system Further include: small pump (8), softening water tank (9) and the automatic cleaner being sequentially communicated by pipeline and the changes in temperature tank (21) (10)；The automatic cleaner (10) is connected to water inlet pipe (18).

9. a kind of building intelligent cooling/warming system according to claim 8, it is characterised in that: on the cooling supply pipe network (101) It is connected with the first water collector (11), is connected with the second water collector (12) on the heating network (102), second water collector (12) first pressure gauge (13), first flow are in series on the pipeline between the hot pond tank (22), the changes in temperature tank (21) Valve (14) and variable frequency pump (15)；The outlet conduit of the variable frequency pump (15) is equipped with second temperature instrument (16).

10. a kind of building intelligent cooling/warming system according to claim 1, it is characterised in that: the changes in temperature tank (21), described Hot pond tank (22) and the interior circulating heat pump system (4) are set to the roof of the building (1), are additionally provided on the roof and institute State the solar water heating system of hot pond tank (22) or the interior circulating heat pump system (4) connection.