CN207702555U - Distributed multi-source distributing system - Google Patents
Distributed multi-source distributing system Download PDFInfo
- Publication number
- CN207702555U CN207702555U CN201721656770.7U CN201721656770U CN207702555U CN 207702555 U CN207702555 U CN 207702555U CN 201721656770 U CN201721656770 U CN 201721656770U CN 207702555 U CN207702555 U CN 207702555U
- Authority
- CN
- China
- Prior art keywords
- heat
- water
- pipeline
- user
- pump group
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Air Conditioning Control Device (AREA)
Abstract
The utility model discloses a kind of distributed multi-source distributing system comprising heat source station, heat exchange station, low-temperature receiver station and control system.The heat exchanger at heat source station is connected by circulation by heat supplying pipeline in heat power supply device, and heat supplying pipeline is equipped with heat supply valve group and heat supply pump group.Heat exchange station is connected by circulation by heat exchanging pipe in heat exchanger, and is connected by circulation in user by user's pipeline, and heat exchanging pipe is equipped with heat exchange valve group and heat exchange pump group.The cold source device at low-temperature receiver station is connected by circulation by cooling pipeline in heat exchange station, and cooling pipeline is equipped with cooling valve group and cooling pump group.Control system includes multiple data acquisition devices, controller and processor.Multiple data acquisition devices are at least set to heat supplying pipeline, heat exchanging pipe and user's pipeline, at least to acquire cold and hot amount, the temperature and pressure of each place system.Controller is connected to heat supply valve group, heat supply pump group, heat exchange valve group, heat exchange pump group, cooling valve group and cooling pump group.Processor is connected to controller and multiple data acquisition devices.
Description
Technical field
The utility model is related to a kind of distributed multi-source distributing systems.
Background technology
The control structure of existing distributing system has been continued to use for many years, cannot be satisfied the industry requirement of current HVAC industry already,
Such as it is unstable with pipe network imbalance, heat, heating load differs greatly round the clock, is difficult in a manner of more wisdom for system loading
The problems such as control, has become the main crux of limitation distributing system development.Especially in the knot of the control system of existing distributing system
In structure design, control system uses the structure design for individually connecting and controlling for each function device of distributing system, can be right
The load judgement of distributing system has an impact, and is unfavorable for stable operation and the energy-saving run of entire distributing system.
Utility model content
One main purpose of the utility model is to overcome at least one defect of the above-mentioned prior art, provides a kind of base
The distributed multi-source distributing system sent in information concentrated collection and instruction set is realized in concentrating the control system of connection structure.
To achieve the above object, the utility model adopts the following technical solution:
One side according to the present utility model provides a kind of distributed multi-source distributing system, wherein the distribution is more
Source distributing system includes heat source station, heat exchange station, low-temperature receiver station and control system.The heat source station includes heat power supply device and heat exchange
Device, the heat exchanger are connected by circulation by heat supplying pipeline in the heat power supply device, the heat supplying pipeline be equipped with heat supply valve group and
Heat supply pump group.The heat exchange station is connected by circulation by heat exchanging pipe in the heat exchanger, and by user's pipeline be connected by circulation in
User, the heat exchanging pipe are equipped with heat exchange valve group and heat exchange pump group.The low-temperature receiver station includes cold source device, the cold source device
It is connected by circulation in the heat exchange station by cooling pipeline, the cooling pipeline is equipped with cooling valve group and cooling pump group.The control
System processed includes multiple data acquisition devices, controller and processor.Multiple data acquisition devices are at least set to the confession
Pipe line, heat exchanging pipe and user's pipeline, at least to acquire cold and hot amount, the temperature and pressure of each place system.The controller
It is connected to the heat supply valve group, heat supply pump group, heat exchange valve group, heat exchange pump group, cooling valve group and cooling pump group.The processing
Device is connected to the controller and multiple data acquisition devices.Wherein, the processor acquires each data
The information of device acquisition is analyzed, and the controller controls the heating valve respectively according to the analysis result of the processor
Group, heat supply pump group, heat exchange valve group, heat exchange pump group, cooling valve group and cooling pump group.
One of embodiment according to the present utility model, the heat source station further includes heat-storing device.The heat accumulation dress
It sets and is connected by circulation in the heat supplying pipeline by heat accumulation pipeline, the heat storage tube road is equipped with heat accumulation valve group and heat accumulation pump group, institute
It states controller and is connected to the heat accumulation valve group and heat accumulation pump group.
One of embodiment according to the present utility model, the heat supplying pipeline are connected to city by the first water pipe
Political affairs water supply network, first water pipe are equipped with the first moisturizing pump group and the first water softener group, first water pipe
Equipped with the data acquisition device, the controller is connected to the first moisturizing pump group.
One of embodiment according to the present utility model, the heat exchange station include water knockout drum and water collector, the use
Family pipeline includes water supply pipe and water return pipeline, and the water knockout drum is connected to the user, the collection by the water supply pipe
Hydrophone is connected to the user by the water return pipeline;Wherein, the water supply pipe is equipped with water supply valve group, the return pipe
Road is equipped with return water pump group, and the data acquisition device, the control are further respectively had on the water supply pipe and water return pipeline
Device is connected to the water supply valve group and return water pump group.
One of embodiment according to the present utility model, the water collector are connected to municipal administration by the second water pipe
Water supply network, second water pipe are equipped with the second moisturizing pump group and the second water softener group, and second water pipe is set
There are the data acquisition device, the controller to be connected to the second moisturizing pump group.
One of embodiment according to the present utility model, the user according to heating height be divided into high area user, in
Area user and low area user;Wherein, the water supply pipe includes high area's water supply pipe, middle area's water supply pipe and low area's feed pipe
Road, the water return pipeline include high area's water return pipeline, middle area's water return pipeline and low area's water return pipeline, and the high area user is led to respectively
Excessively high area's water supply pipe and high area's water return pipeline are connected to the water knockout drum and water collector, and the middle area user passes through middle area respectively
Water supply pipe and middle area's water return pipeline are connected to the water knockout drum and water collector, and the low area user passes through low area's feed pipe respectively
Road and low area's water return pipeline are connected to the water knockout drum and water collector, high area's water supply pipe, middle area's water supply pipe and low area
It is equipped with water supply valve group on water supply pipe, is equipped on high area's water return pipeline, middle area's water return pipeline and low area's water return pipeline
Return water pump group, and high area's water supply pipe, middle area's water supply pipe, low area's water supply pipe, high area's water return pipeline, middle area's return pipe
It is equipped with the data acquisition device on road and low area's water return pipeline.
One of embodiment according to the present utility model, the distribution multi-source distributing system includes multiple heat exchange
It stands, multiple heat exchange stations are connected in parallel in the heat source station, and multiple heat exchange stations are connected in parallel in the low-temperature receiver station.
One of embodiment according to the present utility model, the data acquisition device include at least cold and hot gauge, temperature
Degree meter and pressure gauge, the cold and hot gauge is to acquire the cold and hot amount of system where it, and the thermometer is where to acquire its
The temperature of system, the pressure gauge is acquiring the pressure of system where it.
One of embodiment according to the present utility model, the data acquisition device further include being set to the user
Airspeedometer, to acquire the wind speed of the user;And/or the data acquisition device further includes the illumination set on the user
Meter, to acquire the illumination of the user;And/or the data acquisition device further includes the hygrometer set on the user, is used
To acquire the humidity of the user.
One of embodiment according to the present utility model, the distribution multi-source distributing system further includes weather station.
The weather station is connected to the processor of the control system, and the weather station is believed to acquire the meteorological of external environment
Breath, for the processor by the information of each data acquisition device acquisition and the weather information in conjunction with and analyze.
As shown from the above technical solution, the utility model proposes distributed multi-source distributing system the advantages of and good effect
It is:
The utility model for existing distributing system pipe network it is uneven, the mount of using heat is unstable, heating load difference is outstanding round the clock
The uncontrollable problem of heating load, passes through the certain bits in distributed multi-source distributing system when very and for heat supply or cooling
Install multiple data acquisition devices, the processor of control system and each data acquisition device concentrated and connected, at the same pass through by
The controller of control system is concentrated with each function device and system pipeline and is connected, and concentrated collection, processing and the control of data are realized
The concentration of system instruction is assigned, and the distribution multi-source distributing system is made to become a distribution type wisdom distributing system.Due to this practicality
The novel data acquisition for using too many levels, and the analytic operation through processor, it is possible to provide relatively reasonable heating load is sentenced
Disconnected and control.
Description of the drawings
The following detailed description to preferred embodiments of the present invention is considered in conjunction with the accompanying drawings, the utility model
Various targets, feature and advantage will become apparent.Attached drawing is only the exemplary diagram of the utility model, not necessarily
It is drawn to scale.In the accompanying drawings, same reference numeral always shows same or similar component.Wherein:
Fig. 1 is a kind of system schematic of distributed multi-source distributing system shown according to an illustrative embodiments.
Wherein, the reference numerals are as follows:
110. heat power supply device;Area's water supply pipe in 322.;
120. heat exchanger;323. low area's water supply pipes;
130. heat supplying pipeline;324. water supply valve groups;
131. heat supply valve group;331. high area's water return pipelines;
132. heat supply pump group;Area's water return pipeline in 332.;
140. heat-storing device;333. low area's water return pipelines;
150. heat accumulation pipelines;334. return water pump groups;
151. heat accumulation valve groups;340. water knockout drum;
152. heat accumulation pump groups;350. water collector;
160. first water pipes;360. second water pipes;
161. first moisturizing pump groups;361. second moisturizing pump groups;
162. first water softener groups;362. second water softener groups;
171. heat source station data acquisition devices;371. heat exchange station data acquisition devices;
172. heat source stand control cabinets;372. heat exchange station switch boards;
210. cold source device;410. controller;
220. cooling pipelines;420. processor;
221. cooling valve groups;430. monitoring displays;
222. cooling pump groups;500. weather station;
230. low-temperature receiver stand control cabinets;610. high area users;
310. heat exchanging pipe;Area user in 620.;
311. heat exchange valve groups;630. low area users;
312. heat exchange pump groups;641. user data vasculums;
321. high area's water supply pipes;642. user's control cabinets.
Specific implementation mode
Embodying the exemplary embodiments of the utility model features and advantages will describe in detail in the following description.It should be understood that
Various variations can be had in different embodiments by being the utility model, all not depart from the scope of the utility model, and
Explanation therein and attached drawing are inherently illustrative, rather than to limit the utility model.
In being described below the different illustrative embodiments to the utility model, carried out with reference to attached drawing, the attached drawing
The part of the utility model is formed, and wherein shows many aspects of achievable the utility model by way of example not
Same example arrangement, system and step.It should be understood that other of component, structure, exemplary means, system and step can be used
Specified scheme, and structural and functional modification can be carried out without departing from the scope of the utility model.Although moreover, originally
Can be used in specification term " side ", " between " etc. the different example features and element of the utility model are described, but this
A little terms in this article merely for convenient, such as with reference to the accompanying drawings described in exemplary direction.It is any interior in this specification
Appearance is not necessarily to be construed that the specific three dimensional direction of Structure of need is just fallen into the scope of the utility model.
Refering to fig. 1, the distributed multi-source transmission & distribution system of the principles of the present invention can be embodied by being representatively illustrated in Fig. 1
The system schematic of system.It will be readily appreciated by those skilled in the art that configure the distribution multi-source distributing system to other
Similar system or equipment, and a variety of remodeling, addition, replacement, deletion or other variations are made to following specific implementation modes,
These variation still the utility model proposes distributed multi-source distributing system principle in the range of.
As shown in Figure 1, in the present embodiment, the utility model proposes distributed multi-source distributing system include mainly heat
Source station, low-temperature receiver station, multiple heat exchange stations, control system and weather station 500.Below in conjunction with attached drawing, to the utility model proposes
Each major function equipment of distributed multi-source distributing system, pipeline, valve group and pump group structural relation or connection type carry out it is detailed
It describes in detail bright.
In the present embodiment, heat source station owner will include heat power supply device 110, heat exchanger 120, heat-storing device 140 and moisturizing
Component.As shown in Figure 1, heat supplying pipeline 130 has been connected by circulation between heat power supply device 110 and heat exchanger 120, and heat supplying pipeline 130
It is equipped with heat supply valve group 131 and heat supply pump group 132.By said structure design, heat power supply device 110 heats the medium of such as water
Be delivered to heat exchanger 120 by by heat supplying pipeline 130, heat exchanger 120 by the heat of the hot water in heat supplying pipeline 130 be connected to
The other equipment (heat exchange station) of heat exchanger 120 carries out heat exchange, and the hot water to cool down by heat exchange is defeated via heat supplying pipeline 130
Send heat power supply device 110 back to, heat power supply device 110 heats these hot water and repeats the above steps again.Wherein, heat supplying pipeline 130
The heat supply valve group 131 of upper setting can control the circulation status of heat supplying pipeline 130, and heat supply valve group 131 can be in heat supplying pipeline
The valve member of multiple such as motor-driven valves of 130 different location setting, can be used to individually control heat supplying pipeline 130 by heat power supply device
110 pipelines to 120 water delivery of heat exchanger or the pipeline by 120 heat source device of heat exchanger, 110 return water, it is also possible to control simultaneously
The pipeline of above-mentioned water delivery and return water.Heat supply pump group 132 can be that the water pump being arranged on the pipeline of above-mentioned water delivery and/or return water is set
It is standby, power can be provided with flowing of the medium in heat supplying pipeline 130 is thought.
As shown in Figure 1, in the present embodiment, heat storage tube has been connected by circulation between heat power supply device 110 and heat-storing device 140
Road 150, and heat accumulation pipeline 150 is equipped with heat accumulation valve group 151 and heat accumulation pump group 152.Heat power supply device 110 adds the medium of such as water
After heat, such as exchanges heat without water delivery to heat exchanger 120, then hot water can be delivered to heat-storing device via heat accumulation pipeline 150
140, and hot water storage is got up and kept the temperature using heat-storing device 140, when needing heat exchange, heat-storing device 140 passes through again
Heat accumulation pipeline 150 exports hot water.Heat accumulation pipeline 150 is preferably coupled on heat supplying pipeline 130, i.e. heat accumulation pipeline 150 1
The above-mentioned hydraulic pipeline of heat supplying pipeline 130 is may connect to, heat accumulation pipeline 150 another may connect to the above-mentioned of heat supplying pipeline 130
Water return pipeline.Wherein, the heat accumulation valve group 151 being arranged on heat accumulation pipeline 150 can control the circulation status of heat accumulation pipeline 150, storage
Thermal valve group 151 can be used to individually store up in the valve member of multiple such as motor-driven valves of the different location setting of heat accumulation pipeline 150
Any above-mentioned branch of pipe line 150, it is also possible to control the above-mentioned two branch of heat accumulation pipeline 150 simultaneously.Heat accumulation pump group 152
It can be the pump equipment being arranged on any above-mentioned branch road, can be moved with thinking that flowing of the medium in heat accumulation pipeline 150 provides
Power.
As shown in Figure 1, in the present embodiment, when adopting water as heat transferring medium, moisturizing component includes mainly the first benefit
Water lines 160, heat supplying pipeline 130 (i.e. heat source) is connected to municipal network water supply by the first water pipe 160, to pass through first
Water pipe 160 is from municipal network water supply moisturizing into heat supplying pipeline 130.Wherein, the first water pipe 160 is equipped with first and mends
Water pump group 161 and the first water softener group 162 are respectively used to provide circulation power to the first water pipe 160 and to supplement
Water is softened.
As shown in Figure 1, in the present embodiment, low-temperature receiver station owner will include cold source device 210.Specifically, cold source device
210 are connected by circulation by cooling pipeline 220 in heat exchange station, and cooling pipeline 220 is equipped with cooling valve group 221 and cooling pump group 222.
By said structure design, cold source device 210 is by (or directly utilizing cold water) after the medium cooling of such as water via cooling pipeline
220 are delivered to heat exchange station, and user is being delivered to by heat exchange station, to realize the operating mode of cooling.Wherein, on cooling pipeline 220
The cooling valve group 221 of setting can control the circulation status of cooling pipeline 220, and cooling valve group 221 can be in cooling pipeline 220
Different location setting multiple such as motor-driven valves valve member, can be used to individually control cooling pipeline 220 from cold source device 210 to
The pipeline of heat exchange station water delivery or from heat exchange station to the pipeline of 210 return water of cold source device, it is also possible to control simultaneously above-mentioned water delivery and
The pipeline of return water.Cooling pump group 222 can be the pump equipment being arranged on the pipeline of above-mentioned water delivery and/or return water, can be used to
Power is provided for flowing of the medium in cooling pipeline 220.
As shown in Figure 1, in the present embodiment, multiple heat exchange stations are connected by circulation by heat exchanging pipe in heat exchanger respectively
120, and the heat exchanging pipe of multiple heat exchange stations is relative to the pipeline structure that heat exchanger 120 is in Parallel Design.Each heat exchange station divides again
It is not connected by circulation in user by user's pipeline, and heat exchanging pipe is equipped with heat exchange valve group and heat exchange pump group.Pass through above structure
Design, the medium of such as water in heat exchanging pipe by heat exchanger 120 in heat supplying pipeline 130 (or cooling pipeline 220)
After water heat exchange, the hot water (or cold water) in heat exchanging pipe is delivered to user by heat exchange station, to realize the work(of heat supply or cooling
Energy.
Specifically, as shown in Figure 1, in the present embodiment, heat exchange station includes mainly water knockout drum 340 and water collector 350,
And user's pipeline includes water supply pipe and water return pipeline, 340 side of water knockout drum is connected to heat exchanger 120 by heat exchanging pipe, separately
Side is connected to user by water supply pipe, and water collector 350 leads to side and is connected to heat exchanger 120, the other side by heat exchanging pipe
It is connected to user by water return pipeline, water supply pipe and water return pipeline are respectively connected to heat exchange station and are connected together, to shape
At being connected by circulation between the water knockout drum 340 and water collector 350 and heat exchanger 120 of heat exchange station, user then by water supply pipe by
The water knockout drum 340 of heat exchange station supplies water, and by water return pipeline by 350 return water of water collector of heat exchange station.Wherein, it is set on water supply pipe
There are water supply valve group 324, water return pipeline to be equipped with return water pump group 334.Water supply valve group 324 can be used to control the circulation shape of water supply pipe
State, return water pump group 334 can provide power with flowing of the medium in water return pipeline is thought.
Further, as shown in Figure 1, in the present embodiment, heat exchange station further includes moisturizing component.Wherein, when using water
For heat transferring medium when, the moisturizing component mainly include the second water pipe 360, water collector 350 (i.e. heat exchange station) pass through second benefit
Water lines 360 are connected to municipal network water supply, to be mended from municipal network water supply to water collector 350 by the second water pipe 360
Water.Wherein, the second water pipe 360 is equipped with the second moisturizing pump group 361 and the second water softener group 362, is respectively used to second
Water pipe 360 provides circulation power and softens to the water of supplement.
It, can be according to being connected to identical heat exchange station not in addition, the requirement according to existing user's form for cold/heat supply
These users are divided into high area user 610, middle area user 620 and low area user 630 by the heating height with user.It holds, this reality
High area's water supply pipe 321, middle area's water supply pipe 322 and low area's feed pipe can be further comprised by applying the above-mentioned water supply pipe in mode
Road 323, three groups of pipelines are parallel with one another.Accordingly, the above-mentioned water return pipeline in present embodiment can further comprise high area's return water
Pipeline 331, middle area's water return pipeline 332 and low area's water return pipeline 333, three groups of pipelines are parallel with one another.Specifically, high area user
610 are connected to water knockout drum 340 and water collector 350 by high area's water supply pipe 321 and high area's water return pipeline 331 respectively, and middle area uses
Family 620 is connected to water knockout drum 340 and water collector 350, low area by middle area's water supply pipe 322 and middle area's water return pipeline 332 respectively
User 630 is connected to water knockout drum 340 and water collector 350 by low area's water supply pipe 323 and low area's water return pipeline 333 respectively.And
And it is respectively equipped with water supply valve group 324, high area on high area's water supply pipe 321, middle area's water supply pipe 322 and low area's water supply pipe 323
It is respectively equipped with return water pump group 334 on water return pipeline 331, middle area's water return pipeline 332 and low area's water return pipeline 333.
In the present embodiment, control system includes mainly multiple data acquisition devices, controller 410 and processor 420.
Specifically, as shown in Figure 1, multiple data acquisition devices at least may be provided at heat supplying pipeline 130, heat exchanging pipe, the first moisturizing
Water supply pipe (including high area's water supply pipe 321, the middle area's water supply pipe of pipeline 160, the second water pipe 360, user's pipeline
322 and low area's water supply pipe 323) and water return pipeline (including high area's water return pipeline 331, middle area's water return pipeline 332 and low area's return water
Pipeline 333).Wherein, above-mentioned data acquisition device can include at least cold and hot gauge, thermometer and pressure gauge, cold and hot gauge to
The cold and hot amount of system where acquiring it, to acquire the temperature of its place system, pressure gauge is thermometer to acquire its place
The pressure of system.Also, in the present embodiment, the above-mentioned above-mentioned each pipeline for being provided with data acquisition device can be respectively set cold
Calorimeter, thermometer and pressure gauge, to acquire the cold and hot amount, medium temperature and pipeline pressure of each pipeline respectively.In other realities
It applies in mode, other monitoring elements also can be used and substitute above-mentioned cold and hot gauge, thermometer or pressure gauge, to realize that each data are adopted
The acquisition of the cold and hot amount, temperature and pressure of system where acquisition means.
Further, as shown in Figure 1, in the present embodiment, data acquisition device further includes airspeedometer, illumination photometer and wet
Degree meter.Wherein, can be arranged at each user (including high area user 610, middle area user 620 and low area user 630) airspeedometer,
At least one of illumination photometer and hygrometer, to acquire wind speed, illumination and the humidity at the user respectively.
Further, the characteristics of as shown in Figure 1, in order to advanced optimize the utility model data concentrated collection, in this reality
It applies in mode, corresponds to the different function equipment or other positions of distributed multi-source distributing system, distributed multi-source distributing system
It is additionally provided with multiple data acquisition devices.For example, the data cabling concentration of each data acquisition device at heat source station is connected to heat source station
Data acquisition device 171, these data acquisition devices include mainly being arranged on heat supplying pipeline 130 and the first water pipe 160
Cold and hot gauge, thermometer and pressure gauge.For another example, the data cabling concentration of each data acquisition device of each heat exchange station, which is connected to, changes
Heat stations data acquisition device 371, these data acquisition devices include mainly being arranged on heat exchanging pipe and the second water pipe 360
Cold and hot gauge, thermometer and pressure gauge.For another example, the data cabling concentration of each data acquisition device of user is connected to user data
Vasculum 641, these data acquisition devices include mainly cold and hot gauge, thermometer and the pressure gauge being arranged on user's pipeline,
Also include thermometer, airspeedometer, illumination photometer and the hygrometer being arranged at user simultaneously.
Processor 420 is connected to multiple data acquisition devices, specifically, as shown in Figure 1, in present embodiment
In, processor 420 is to be connected to heat source station data acquisition device 171, each heat exchange station data acquisition device 371 and each user data
Vasculum 641, at each pipeline of concentrated collection distribution multi-source distributing system or each user cold and hot amount, temperature, pressure,
Wind speed, illumination and humidity, the information to be acquired to each data acquisition device for processor 420 are analyzed.
Controller 410 is connected to each function device of distributed multi-source distributing system, and controller 410 is connected to place
Manage device 420.Specifically, as shown in Figure 1, the characteristics of in order to advanced optimize the utility model centralized control, in this embodiment party
In formula, correspond to the valve group and pump group of the different function equipment of distributed multi-source distributing system, distributed multi-source distributing system is also
It is provided with multiple switch boards.For example, each heat supply valve group 131 at heat source station, heat supply pump group 132, each heat accumulation valve group 151, heat accumulation pump
The control cabling of group 152 and the first moisturizing pump group 161 concentration is connected to heat source stand control cabinet 172.For another example, each cooling at low-temperature receiver station
Valve group 221, the concentration of cooling pump group 222 are connected to low-temperature receiver stand control cabinet.For another example, each heat exchange valve group of each heat exchange station, heat exchange pump
Group, the second moisturizing pump group 361 and each return water pump group 334 concentration are connected to heat exchange station switch board 372, in addition, each heat exchange station
Each concentration of water supply valve group 324 is connected to user's control cabinet 642.
Accordingly, as shown in Figure 1, in the present embodiment, controller 410 is to be connected to heat source stand control cabinet 172, cold
Source station switch board, each heat exchange station switch board 372 and each user's control cabinet 642, to each pump to distributed multi-source distributing system
Group and each valve group carry out centralized control.Also, controller 410 is the analysis knot for recording gathered data to it according to processor 420
Fruit and centralized control is carried out to each valve group and each pump group respectively.
Further, as shown in Figure 1, in the present embodiment, control system further includes monitoring display 430.Wherein, should
Monitoring display 430 is connected to processor 420 and controller 410, to the collected each data of video-stream processor 420 and control
The various control instructions that device 410 processed is sent out.Further, which is also provided with operation panel or touch-control
Screen is intervened the control instruction of controller 410 for operator or is carried out to other functions of distributed multi-source distributing system manually
It manually controls.
Further, as shown in Figure 1, in the present embodiment, the processor 420 of control system can also be with a weather station
500 connections, the weather station 500 can coordinate distributed multi-source distributing system to be separately provided, or directly by processor 420 in work
The weather station 500 of proximal site connects.Wherein, which can acquire the weather information of external environment, such as temperature,
Humidity, wind speed and atmospheric pressure, the information that device 420 for processing acquires each data acquisition device and weather information in conjunction with and into
Row concentrates analysis.
From the above, based on the above-mentioned structure design about distributed multi-source distributing system, the utility model proposes point
Cloth multi-source distributing system can at least realize two kinds of operating modes of heat supply and cooling.
Specifically, as shown in Figure 1, in the present embodiment, being closed when controller 410 controls cold source device 210, simultaneously
It controls cooling valve group 221 and cooling pump group 222 is closed, and the other equipment of distributed multi-source distributing system is opened when running,
Then distributed multi-source distributing system switches to supplying thermal condition.
Further, supplying thermal condition at least can also be divided into general mode, heat accumulation pattern and energy saver mode.Wherein, in heat supply
Under operating mode, when controller further controls heat accumulation valve group 151 and heat accumulation pump group 152 is closed, 110 output high temperature of heat power supply device is situated between
Matter (such as fluid media (medium) of water), and exchange heat into heat exchanger 120, then user is transferred to by heat exchange station, it is as distributed
General mode under multi-source distributing system supplying thermal condition.Under supplying thermal condition, when controller further controls related pump group and valve
When group is closed, 110 output high-temperature medium of heat power supply device simultaneously enters heat-storing device 140, and heat is then stored in heat-storing device 140,
Heat accumulation pattern under as distributed multi-source distributing system supplying thermal condition.Under supplying thermal condition, when controller further controls phase
When closing pump group and valve group closing, heat supplying pipeline 130 is in parallel with heat accumulation pipeline 150 for mixed water piping system, the i.e. production of heat power supply device 110
The high-temperature medium of high-temperature medium and heat-storing device 140 storage gone out is simultaneously to 120 heat supply of heat exchanger, as distributed multi-source transmission & distribution
Energy saver mode under system supplying thermal condition.
As shown in Figure 1, in the present embodiment, when each equipment, valve group and pump group that controller 410 controls heat source station are closed
It closes, while controlling heat exchange valve group 311 and closing, and the other equipment of distributed multi-source distributing system is opened when running, then is distributed
Formula multi-source distributing system switches to cooling operating mode.At this point, 210 output cryogenic media of cold source device (such as fluid media (medium) of water),
And enter heat exchange station through cooling pipeline 220 and part heat exchanging pipe 310, user is being transferred to by heat exchange station.
Wherein, the utility model makes above-mentioned distributed multi-source distributing system become one group of distribution by said structure design
Formula wisdom distribution multi-source distributing system.Specifically, the design concept that the utility model is superimposed using " wisdom " with " transmission & distribution ",
Simple heat-exchange system in being different from the prior art.That is, passing through all types of data acquisition devices and processor and controller phase
The structure design of cooperation so that distributed multi-source distributing system can be in the fortune under automating stronger and more science strategy
Row.Furthermore distributed multi-source distributing system, can by the structure design of the modules such as above-mentioned heat source station, low-temperature receiver station and heat exchange station
Realize how heat source or low-temperature receiver be assigned to each user equipment and each end in a manner of more intelligent.
It should be noted here that the distributed multi-source distributing system for showing in attached drawing and describing in the present specification, only
An example in many kinds of distributed multi-source distributing systems of the utility model principle can be used.It should be clearly understood that
The principles of the present invention are only limitted to show in attached drawing absolutely not or distributed multi-source distributing system described in this specification is appointed
Any part of what details or distributed multi-source distributing system.
In conclusion the utility model for existing distributing system the mount of using heat it is unstable, heating load differs greatly round the clock
And heating load uncontrollable problem when for heat supply or cooling, pass through the specific position in distributed multi-source distributing system
Multiple data acquisition devices are set, the processor of control system and each data acquisition device are concentrated and connected, while by that will control
The controller of system processed is concentrated with each function device and system pipeline and is connected, and concentrated collection, processing and the control of data are realized
The concentration of instruction is assigned, and the distribution multi-source distributing system is made to become a distribution type wisdom distributing system.Since this practicality is new
Type uses the data acquisition of too many levels, and the analytic operation through processor, it is possible to provide relatively reasonable heating load judges
With control.In addition, compared to existing distributing system, the utility model passes through at least one heat source station and at least one low-temperature receiver station
Integration, realize the structure design of multi-source system.
It is described in detail above and/or illustrate the utility model proposes distributed multi-source distributing system exemplary reality
Apply mode.But the embodiment of the utility model is not limited to particular implementation as described herein, on the contrary, each embodiment
Component part and/or step can be independent with other component parts as described herein and/or step and be used separately.One reality
The each component part and/or each step for applying mode also can be with the other component parts and/or step knot of other embodiment
It closes and uses.Introduce it is described here and/or diagram element/component part/wait whens, term "one", " one " and " above-mentioned "
Deng to indicate there are one or more elements/component part/etc..Term "comprising", " comprising " and " having " are indicating out
Put the meaning of formula being included and refer to element/component part/in addition to listing also may be present other than waiting other element/
Component part/etc..
Although according to different specific embodiments to the utility model proposes distributed multi-source distributing system carry out
Description, but it will be recognized by those skilled in the art can in the spirit and scope of the claims to the implementation of the utility model into
Row change.
Claims (10)
1. a kind of distribution multi-source distributing system, which is characterized in that the distribution multi-source distributing system includes:
Heat source station, including heat power supply device and heat exchanger, the heat exchanger are connected by circulation by heat supplying pipeline in the heat power supply device,
The heat supplying pipeline is equipped with heat supply valve group and heat supply pump group;
Heat exchange station is connected by circulation by heat exchanging pipe in the heat exchanger, and is connected by circulation in user by user's pipeline, described
Heat exchanging pipe is equipped with heat exchange valve group and heat exchange pump group;
Low-temperature receiver station, including cold source device, the cold source device are connected by circulation by cooling pipeline in the heat exchange station, the cooling
Pipeline is equipped with cooling valve group and cooling pump group;And
Control system comprising:
Multiple data acquisition devices are at least set to the heat supplying pipeline, heat exchanging pipe and user's pipeline, at least to acquire each place
The cold and hot amount of system, temperature and pressure;
Controller is connected to the heat supply valve group, heat supply pump group, heat exchange valve group, heat exchange pump group, cooling valve group and cooling pump
Group;And
Processor is connected to the controller and multiple data acquisition devices;
Wherein, the processor analyzes the information of each data acquisition device acquisition, and the controller is according to
The analysis result of processor controls the heat supply valve group, heat supply pump group, heat exchange valve group, heat exchange pump group, cooling valve group and confession respectively
Cold pump group.
2. distribution multi-source distributing system according to claim 1, which is characterized in that the heat source station further includes:
Heat-storing device is connected by circulation by heat accumulation pipeline in the heat supplying pipeline, the heat storage tube road be equipped with heat accumulation valve group and
Heat accumulation pump group, the controller are connected to the heat accumulation valve group and heat accumulation pump group.
3. distribution multi-source distributing system according to claim 1, which is characterized in that the heat supplying pipeline is mended by first
Water lines are connected to municipal network water supply, and first water pipe is equipped with the first moisturizing pump group and the first water softener group, institute
It states the first water pipe and is equipped with the data acquisition device, the controller is connected to the first moisturizing pump group.
4. distribution multi-source distributing system according to claim 1, which is characterized in that the heat exchange station include water knockout drum and
Water collector, user's pipeline include water supply pipe and water return pipeline, and the water knockout drum is connected to institute by the water supply pipe
User is stated, the water collector is connected to the user by the water return pipeline;Wherein, the water supply pipe is equipped with feed water valve
Group, the water return pipeline are equipped with return water pump group, and the data acquisition is further respectively had on the water supply pipe and water return pipeline
Device, the controller are connected to the water supply valve group and return water pump group.
5. distribution multi-source distributing system according to claim 4, which is characterized in that the water collector passes through the second moisturizing
For piping connection in municipal network water supply, second water pipe is equipped with the second moisturizing pump group and the second water softener group, described
Second water pipe is equipped with the data acquisition device, and the controller is connected to the second moisturizing pump group.
6. distribution multi-source distributing system according to claim 4, which is characterized in that the user is according to heating height point
For high area user, middle area user and low area user;Wherein, the water supply pipe includes high area's water supply pipe, middle area's water supply pipe
With low area's water supply pipe, the water return pipeline includes high area's water return pipeline, middle area's water return pipeline and low area's water return pipeline, the height
Area user is connected to the water knockout drum and water collector, the middle area user by high area's water supply pipe and high area's water return pipeline respectively
The water knockout drum and water collector are connected to by middle area's water supply pipe and middle area's water return pipeline respectively, the low area user is led to respectively
Too low area's water supply pipe and low area's water return pipeline are connected to the water knockout drum and water collector, and high area's water supply pipe, middle area supply
Water supply valve group, high area's water return pipeline, middle area's water return pipeline and low area's return water are equipped in water lines and low area's water supply pipe
Return water pump group, and high area's water supply pipe, middle area's water supply pipe, low area's water supply pipe, high area's return pipe are equipped on pipeline
It is equipped with the data acquisition device on road, middle area's water return pipeline and low area's water return pipeline.
7. distribution multi-source distributing system according to claim 1, which is characterized in that the distribution multi-source distributing system
Including multiple heat exchange stations, multiple heat exchange stations are connected in parallel in the heat source station, and multiple heat exchange stations are connected in parallel in
The low-temperature receiver station.
8. distribution multi-source distributing system according to claim 1, which is characterized in that the data acquisition device at least wraps
Cold and hot gauge, thermometer and pressure gauge are included, the cold and hot gauge to acquire the cold and hot amount of its place system, use by the thermometer
To acquire the temperature of system where it, the pressure gauge to system where acquiring it pressure.
9. distribution multi-source distributing system according to claim 8, which is characterized in that the data acquisition device further includes
Set on the airspeedometer of the user, to acquire the wind speed of the user;And/or the data acquisition device further includes being set to
The illumination photometer of the user, to acquire the illumination of the user;And/or the data acquisition device further includes set on described
The hygrometer of user, to acquire the humidity of the user.
10. distribution multi-source distributing system according to claim 1, which is characterized in that the distribution multi-source transmission & distribution system
System further includes:
Weather station, is connected to the processor of the control system, and the weather station is believed to acquire the meteorological of external environment
Breath, for the processor by the information of each data acquisition device acquisition and the weather information in conjunction with and analyze.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721656770.7U CN207702555U (en) | 2017-12-01 | 2017-12-01 | Distributed multi-source distributing system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721656770.7U CN207702555U (en) | 2017-12-01 | 2017-12-01 | Distributed multi-source distributing system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207702555U true CN207702555U (en) | 2018-08-07 |
Family
ID=63024820
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721656770.7U Expired - Fee Related CN207702555U (en) | 2017-12-01 | 2017-12-01 | Distributed multi-source distributing system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207702555U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111578372A (en) * | 2020-05-29 | 2020-08-25 | 济南普赛通信技术有限公司 | Heating resident room temperature estimation method, system, medium and electronic equipment |
CN112628900A (en) * | 2021-01-21 | 2021-04-09 | 中国建筑西北设计研究院有限公司 | Regional cooling system based on partitioned energy source station |
-
2017
- 2017-12-01 CN CN201721656770.7U patent/CN207702555U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111578372A (en) * | 2020-05-29 | 2020-08-25 | 济南普赛通信技术有限公司 | Heating resident room temperature estimation method, system, medium and electronic equipment |
CN112628900A (en) * | 2021-01-21 | 2021-04-09 | 中国建筑西北设计研究院有限公司 | Regional cooling system based on partitioned energy source station |
CN112628900B (en) * | 2021-01-21 | 2022-02-22 | 中国建筑西北设计研究院有限公司 | Regional cooling system based on partitioned energy source station |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN202613835U (en) | Simultaneous cold and heat supply energy-saving system | |
CN207702555U (en) | Distributed multi-source distributing system | |
CN113654113A (en) | Heat pump air conditioner with dehumidification function | |
CN203928132U (en) | A kind of ground heating system that can subregion independence temperature control | |
CN203203175U (en) | Air conditioning system | |
CN205137786U (en) | Building power -operated control and subitem measurement system | |
CN208312750U (en) | Air energy comprehensive utilization of geothermal energy device | |
CN210624994U (en) | Refrigerant control system of double-end heat pump heating air conditioning unit | |
CN102589216B (en) | Simultaneous air-conditioning energy conserving system and control method | |
CN105318500A (en) | Building energy resource control and subentry metering system | |
CN215175460U (en) | Household floor heating air conditioner dual-combined supply system | |
CN207661917U (en) | A kind of cooling integrated cold and heat source system of modularization evaporation | |
CN212902091U (en) | Active energy storage type all-year supply system of centralized heat supply network | |
CN206944443U (en) | Hot water machine | |
CN109282456B (en) | Control method of large centralized air conditioning system capable of performing cooling decentralized control and independent operation | |
CN209386466U (en) | Across the season solar energy of one kind and earth source heat pump are provided multiple forms of energy to complement each other system | |
CN206398875U (en) | A kind of double low-temperature receivers integrated cold station system of modularized design | |
CN219715300U (en) | Test device of buried pipe heat exchanger | |
CN207599840U (en) | Double thermal source complementary heating systems | |
CN207163011U (en) | A kind of cold-hot combined supply system | |
CN216048115U (en) | Cold and heat source energy-saving control system | |
CN105444452A (en) | Air-conditioner system | |
CN216977022U (en) | Air conditioner heating system | |
CN109323346B (en) | Control method of large centralized air conditioning system with distributed cold and heat sources | |
CN203203142U (en) | Indoor cooling and heating facility turning-on and turning-off metering control device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180807 Termination date: 20191201 |
|
CF01 | Termination of patent right due to non-payment of annual fee |