CN205897447U - Intelligent power -saving control ware of building air conditioner water wireless network distribution self -discipline - Google Patents
Intelligent power -saving control ware of building air conditioner water wireless network distribution self -discipline Download PDFInfo
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- CN205897447U CN205897447U CN201620602544.XU CN201620602544U CN205897447U CN 205897447 U CN205897447 U CN 205897447U CN 201620602544 U CN201620602544 U CN 201620602544U CN 205897447 U CN205897447 U CN 205897447U
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Abstract
The utility model relates to an intelligent power -saving control ware of building air conditioner water wireless network distribution self -discipline. It has solved technical problem such as current air conditioner water controller poor stability. Including the controller cabinet body, delivery pipe, wet return, bellows difference in temperature pressure differential control valve and water pump, loop type delivery pipe side bellows, loop type wet return side bellows, main water route valve, main water route adjustment mechanism, bypass pipe, bypass pipe valve and bypass regulation structure, main water route valve passes through pump control mechanism with the bypass pipe valve and links to each other with the water pump. The advantage lies in: 1, controlgear can install with diversion box rear portion or coil pipe return circuit terminally in a flexible way, each way water supply requirement of accurate control. 2, do not have a large amount of automatic control demands, all controls all on the spot manual control and maintain convenient. 3, equipment is small, and simple to operate can install old equipment under the not shut down circumstances, also can add at any time in the new engineering system.
Description
Technical field
This utility model belongs to air conditioner technical field, especially relates to a kind of air conditioner water wireless network distribution of building certainly
Rule intellectual electricity-saving controller.
Background technology
With expanding economy, the shared ratio more and more higher in entire society's total energy consumption of building energy consumption, reach
30% about, and in the middle of whole building energy consumption, the energy consumption of central air-conditioning account for about 40%~50%, therefore excavates central air-conditioning
The energy-conservation science and technology of system, not only can bring huge energy saving profit, be also beneficial to realize target for energy-saving and emission-reduction.
Central air-conditioning supplies backwater only to pass through machine room main frame and the offer of water pump linked system, due to the use in each room at present
Situation and personnel status distinguish so that the heat exchange of recirculated water end is uneven, when part room end heat exchange amount is big, machine room main frame
And water pump need to be maintained under higher-wattage and run to meet requirement, but the water supply that simultaneously also result in other rooms is excessive, in vain
Waste mass energy.
In order to solve the problems, such as prior art, there are various solutions.For example, Chinese patent literature
Disclose a kind of water cooled central air conditioner water pump adaptive power conservation control device [publication number: cn204227635u], although it passes through
Monitoring device linkage reduces part surplus power, can be little for the effect of end water exchange capability of heat, and equipment electrical control
System is excessive, controls complex process.
Content of the invention
The purpose of this utility model is for the problems referred to above, provides a kind of simple and reasonable, can precise control conditioner disk
The building air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller of the stability of pipe end streamflow regime.
For reaching above-mentioned purpose, this utility model employs following technical proposal: this building air conditioner water wireless network distribution
Self-discipline intellectual electricity-saving controller, including controller cabinet it is characterised in that being equipped with mutually corresponding in described controller cabinet
The feed pipe of setting and return pipe, described feed pipe is sequentially installed with corrugated tube temperature difference differential pressure control valve and water pump, described
Corrugated tube temperature difference differential pressure control valve be connected with return pipe simultaneously, and described corrugated tube temperature difference differential pressure control valve includes being arranged on
Between feed pipe and return pipe and be respectively arranged with sensitive temperature and become the ring-like feed pipe side corrugated tube of liquid and ring-like return pipe side wave stricture of vagina
Pipe, described feed pipe is provided with main Water path valve, and described main Water path valve is connected with can be according to feed pipe and return pipe
Pressure difference controlling main Water path valve to adjust the main water route governor motion of feed pipe water yield size, described ring-like water supply tube side
Corrugated tube and ring-like return pipe side corrugated tube are provided with bypass pipe, and described bypass pipe and are provided with bypass tube valve, and described
Bypass tube valve be connected with can according between feed pipe and return pipe pressure reduction change be subjected to displacement thus automatically adjust feed pipe and
The bypass adjustment structure of return pipe both sides pressure reduction, and described main Water path valve with bypass tube valve pass through water pump controlling organization with
Water pump is connected.
In above-mentioned building air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller, described main water route adjusts machine
Structure includes the ring-like thermal insulation action plate being separately positioned in ring-like feed pipe side corrugated tube and ring-like return pipe side corrugated tube, and institute
The ring-like thermal insulation action plate stated is connected with the ring-like corrugated tube Summer and winter transducer becoming liquid equipped with sensitive temperature, the ring-like corrugated tube winter
Summer transducer is connected with main Water path valve governor motion, and main Water path valve is connected with main Water path valve governor motion.
In above-mentioned building air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller, described bypass adjustment structure
Including the fixing device being fixedly installed in bypass pipe, and described fixing device is provided with spring, and described spring one end
It is connected with bypass tube valve, the other end is arranged on the securing means.
In above-mentioned building air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller, described feed pipe and backwater
Pipe is arranged in parallel.
In above-mentioned building air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller, described water pump controlling organization
Including the water pump controlling switch with main Water path valve and bypass tube valve linkage respectively, water pump controlling switch Water pump connected.
Compared with prior art, the advantage of this building air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller exists
In: 1, control device can flexibly be installed and diversion box rear portion or coil circuit end, precise control each road water supply requirement.2nd, no
A large amount of automatic control demands, all controls all can Non-follow control and easy to maintenance on the spot.3rd, equipment volume is little, easy for installation, can be
In the case of not shutting down, old equipment is installed, also can add in newly built construction system at any time.
Brief description
The structural representation that Fig. 1 provides for this utility model.
In figure, controller cabinet 1, feed pipe 2, return pipe 3, corrugated tube temperature difference differential pressure control valve 4, ring-like feed pipe side wave
Stricture of vagina pipe 5, ring-like return pipe side corrugated tube 6, ring-like thermal insulation action plate 7, ring-like corrugated tube Summer and winter transducer 8, main Water path valve
Governor motion 9, main Water path valve 10, bypass tube valve 11, spring 12, fixing device 13, bypass pipe 14, water pump controlling switch
15th, water pump 16.
Specific embodiment
The utility model is described in more detail with reference to the accompanying drawings and detailed description.
As shown in figure 1, this building air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller, including controller cabinet 1,
It is equipped with the feed pipe 2 being mutually correspondingly arranged and return pipe 3, feed pipe 2 is parallel to each other with return pipe 3 and sets in controller cabinet 1
Put, feed pipe 2 is sequentially installed with corrugated tube temperature difference differential pressure control valve 4 and water pump 16, corrugated tube temperature difference differential pressure control valve 4 is simultaneously
Be connected with return pipe 3, and corrugated tube temperature difference differential pressure control valve 4 include being arranged between feed pipe 2 and return pipe 3 and be respectively arranged with quick
Temperature-sensitive becomes ring-like feed pipe side corrugated tube 5 and the ring-like return pipe side corrugated tube 6 of liquid, and feed pipe 2 is provided with main Water path valve
10, main Water path valve 10 is connected with and main Water path valve 10 adjustment can be controlled to supply water according to the pressure difference of feed pipe 2 and return pipe 3
The main water route governor motion of pipe 2 water yield size, ring-like feed pipe side corrugated tube 5 and ring-like return pipe side corrugated tube 6 are provided with side
It is provided with bypass tube valve 11 in siphunculus 15, and bypass pipe 15, and bypassing tube valve 11, be connected with can be according to feed pipe 2 and return pipe
Between 3, pressure reduction change is subjected to displacement thus automatically adjusting feed pipe 2 and the bypass adjustment structure of return pipe 3 both sides pressure reduction, and main
Water path valve 10 is connected with water pump 16 by water pump controlling organization with bypass tube valve 11.
Specifically, main water route governor motion here includes being separately positioned on ring-like feed pipe side corrugated tube 5 and ring-like time
Ring-like thermal insulation action plate 7 in water pipe side corrugated tube 6, and ring-like thermal insulation action plate 7 and the ring-like ripple becoming liquid equipped with sensitive temperature
Stricture of vagina pipe Summer and winter transducer 8 connects, and ring-like corrugated tube Summer and winter transducer 8 is connected with main Water path valve governor motion 9, main water route
Valve 10 is connected with main Water path valve governor motion 9.Wherein, bypass adjustment structure here includes being fixedly installed on bypass pipe 15
Interior fixing device 13, and fixing device 13 is provided with spring 12, and spring 12 one end is connected with bypass tube valve 11, the other end
It is arranged in fixing device 13, water pump controlling organization here includes linking with bypass tube valve 11 with main Water path valve 10 respectively
Water pump controlling switch 15, water pump controlling switch 15 Water pump connected 16.
The control method of this building air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller, comprises the steps: to lead to
Feed pipe 2 water temperature is converted to a pressure by the ring-like feed pipe side corrugated tube 5 crossing corrugated tube temperature difference differential pressure control valve 4, ring-like
Return pipe 3 water temperature is converted to a pressure by return pipe side corrugated tube 6, and main water route governor motion passes through both pressure differences and drives master
Water path valve 10 controls feed pipe 2 current size, and bypass adjustment structure is passed through pressure reduction change between feed pipe 2 and return pipe 3 and adjusted
Tube valve 11 action of whole bypass is thus automatically adjust feed pipe 2 and return pipe 3 both sides pressure reduction, when the temperature difference reaches the maximum of setting
Or pressure reduction reach setting to maximum when, main Water path valve 10 and bypass tube valve 11 linkage water pump controlling organization will connect,
It is normal that water pump 16 automatically turns on guarantee extreme case operation of air conditioner.
Specifically, main water route governor motion here includes being separately positioned on ring-like feed pipe side corrugated tube 5 and ring-like time
Ring-like thermal insulation action plate 7 in water pipe side corrugated tube 6, and ring-like thermal insulation action plate 7 and the ring-like ripple becoming liquid equipped with sensitive temperature
Stricture of vagina pipe Summer and winter transducer 8 connects, and ring-like corrugated tube Summer and winter transducer 8 is connected with main Water path valve governor motion 9, main water route
Valve 10 is connected with main Water path valve governor motion 9, and wherein, main Water path valve 10 current adjustment concrete steps here include:
Ring-like thermal insulation action plate 7 is subjected to displacement with return pipe 3 pressure difference by feed pipe 2, and the main Water path valve governor motion 9 that links drives
Main Water path valve 10 controls feed pipe 2 current size, and ring-like corrugated tube Summer and winter transducer 8 passes through ring-like feed pipe side corrugated tube
5 and the temperature automatic conversion Summer and winter pattern of ring-like return pipe side corrugated tube 6 transmission, bypass adjustment structure here includes fixing
It is arranged on the fixing device 13 in bypass pipe 15, and fixing device 13 is provided with spring 12, and spring 12 one end and bypass pipe valve
Door 11 is connected, and the other end is arranged in fixing device 13, water pump controlling organization here include respectively with main Water path valve 10 with
The water pump controlling switch 15 of bypass tube valve 11 linkage, water pump controlling switch 15 Water pump connected 16.
As an embodiment, saved using the building air conditioner water wireless network distribution self-discipline intelligence described in this utility model
Electric controller is installed on front side of room tail end air conditioner coil pipe, and the summer temperature difference is set to 10 DEG C, and the winter temperature difference is set to 10 DEG C, ring-like
Corrugated tube Summer and winter transducer is set greater than 25 DEG C and switches to winter mode, switches to summer mode less than 25 DEG C, main water route
Valve controlling flow becomes big with the temperature difference and improves, and the temperature difference diminishes and reduces, and bypass tube valve increases with pressure and opens, and pressure subtracts
Little and close, the automatic water pump when the temperature difference is more than 10 DEG C, provide extra power for main frame water pump, when pressure reduction is more than 0.3mpa
Automatic water pump, forms end circulation it is ensured that air-conditioning work effect by bypass valve.
Air conditioner water situation | Summer | Winter |
Supply water | 7℃ | 42℃ |
Backwater | 17℃ | 32℃ |
Minimum differntial pressure | 0.1mpa | 0.1mpa |
Maximum differential pressure | 0.3mpa | 0.3mpa |
Specific embodiment described herein is only explanation for example to this utility model spirit.This utility model institute
Belong to those skilled in the art described specific embodiment can be made with various modifications or supplement or using similar
Mode substitute, but without departing from of the present utility model spirit or surmount scope defined in appended claims.
Although more employing controller cabinet 1, feed pipe 2, return pipe 3, corrugated tube temperature difference differential pressure control valve herein
4th, ring-like feed pipe side corrugated tube 5, ring-like return pipe side corrugated tube 6, ring-like thermal insulation action plate 7, ring-like corrugated tube Summer and winter turn
Parallel operation 8, main Water path valve governor motion 9, main Water path valve 10, bypass tube valve 11, spring 12, fixing device 13, bypass pipe
14th, the term such as water pump controlling switch 15, water pump 16, but it is not precluded from the probability using other terms.Using these terms only
Merely to more easily describing and explaining essence of the present utility model;Being construed as any additional restriction is all
Contrary with this utility model spirit.
Claims (5)
1. a kind of building air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller, including controller cabinet (1), its feature exists
In being equipped with the feed pipe (2) being mutually correspondingly arranged and return pipe (3) in described controller cabinet (1), described feed pipe
(2) it is sequentially installed with corrugated tube temperature difference differential pressure control valve (4) and water pump (16) on, described corrugated tube temperature difference differential pressure control valve
(4) it is connected with return pipe (3) simultaneously, and described corrugated tube temperature difference differential pressure control valve (4) includes being arranged on feed pipe (2) and returning
Between water pipe (3) and be respectively arranged with ring-like feed pipe side corrugated tube (5) and the ring-like return pipe side corrugated tube that sensitive temperature becomes liquid
(6), described feed pipe (2) is provided with main Water path valve (10), and described main Water path valve (10) is connected with can be according to water supply
Pipe (2) to control the main water route that main Water path valve (10) adjusts feed pipe (2) water yield size to adjust with the pressure difference of return pipe (3)
Section mechanism, described ring-like feed pipe side corrugated tube (5) is provided with bypass pipe (15) with ring-like return pipe side corrugated tube (6), and institute
Be provided with bypass tube valve (11) in the bypass pipe (15) stated, and described bypass tube valve (11) be connected with can be according to feed pipe
(2) pressure reduction change is subjected to displacement thus automatically adjusting feed pipe (2) and return pipe (3) both sides pressure reduction and return pipe (3) between
Bypass adjustment structure, and described main Water path valve (10) passes through water pump controlling organization and water pump (16) with bypass tube valve (11)
It is connected.
2. building according to claim 1 air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller it is characterised in that
Described main water route governor motion includes being separately positioned on ring-like feed pipe side corrugated tube (5) and ring-like return pipe side corrugated tube
(6) ring-like thermal insulation action plate (7) in, and described ring-like thermal insulation action plate (7) and the ring-like ripple becoming liquid equipped with sensitive temperature
Stricture of vagina pipe Summer and winter transducer (8) connects, and ring-like corrugated tube Summer and winter transducer (8) is connected with main Water path valve governor motion (9),
Main Water path valve (10) is connected with main Water path valve governor motion (9).
3. building according to claim 2 air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller it is characterised in that
Described bypass adjustment structure includes the fixing device (13) being fixedly installed in bypass pipe (15), and described fixing device
(13) it is provided with spring (12), and described spring (12) one end is connected with bypass tube valve (11), the other end is arranged on fixation
On device (13).
4. the building air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller according to claim 1 or 2 or 3, it is special
Levy and be, described feed pipe (2) is arranged in parallel with return pipe (3).
5. building according to claim 4 air conditioner water wireless network distribution self-discipline intellectual electricity-saving controller it is characterised in that
Described water pump controlling organization includes the water pump controlling switch linking with bypass tube valve (11) respectively with main Water path valve (10)
(15), water pump controlling switch (15) Water pump connected (16).
Priority Applications (1)
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CN201620602544.XU CN205897447U (en) | 2016-06-18 | 2016-06-18 | Intelligent power -saving control ware of building air conditioner water wireless network distribution self -discipline |
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CN201620602544.XU CN205897447U (en) | 2016-06-18 | 2016-06-18 | Intelligent power -saving control ware of building air conditioner water wireless network distribution self -discipline |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106016623A (en) * | 2016-06-18 | 2016-10-12 | 杭州滨创能源科技有限公司 | Building air conditioner water wireless network distribution self-discipline intelligent energy-saving controller and control method |
-
2016
- 2016-06-18 CN CN201620602544.XU patent/CN205897447U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106016623A (en) * | 2016-06-18 | 2016-10-12 | 杭州滨创能源科技有限公司 | Building air conditioner water wireless network distribution self-discipline intelligent energy-saving controller and control method |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170118 Effective date of abandoning: 20220422 |
|
AV01 | Patent right actively abandoned |
Granted publication date: 20170118 Effective date of abandoning: 20220422 |
|
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |