CN207336633U - Power consumption amount detection systems - Google Patents
Power consumption amount detection systems Download PDFInfo
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- CN207336633U CN207336633U CN201720948933.2U CN201720948933U CN207336633U CN 207336633 U CN207336633 U CN 207336633U CN 201720948933 U CN201720948933 U CN 201720948933U CN 207336633 U CN207336633 U CN 207336633U
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Abstract
The utility model discloses a kind of power consumption amount detection systems, the power consumption amount detection systems include:Inner sleeve, the inner sleeve is interior to have the temperature spot layout area for being used for arranging temperature detection part;Overcoat, it is described to be set in outside on the outside of the inner sleeve;Inner sleeve thermic load unit, the inner sleeve thermic load unit are used to provide thermic load into the inner sleeve;Overcoat control temperature unit, the overcoat control temperature unit are used for temperature control in the overcoat.Power consumption amount detection systems according to the present utility model, can be as the standard laboratory of detection air conditioner power consumption.
Description
Technical field
Power consumption detection technique field is the utility model is related to, more particularly, to a kind of power consumption amount detection systems.
Background technology
In correlation technique, power consumption examination criteria of the room air adjuster under continuous operating status differs, different
The more difficult unification of mode testing result.
Utility model content
The utility model is intended at least solve one of technical problem existing in the prior art.For this reason, the utility model exists
In proposing a kind of power consumption amount detection systems, the standard configuration that the power consumption amount detection systems can be detected as power consumption, is used for
Detect power consumption.
Power consumption amount detection systems according to the present utility model, including:Inner sleeve, the inner sleeve is interior to be had for arranging that temperature is examined
Survey the temperature spot layout area of part;Overcoat, it is described to be set in outside on the outside of the inner sleeve;Inner sleeve thermic load unit, the inner sleeve heat
Load cell is used to provide thermic load into the inner sleeve;Overcoat control temperature unit, the overcoat control temperature unit are used for described outer
Temperature control in set.
Power consumption amount detection systems according to the present utility model, can be as the standard laboratory of detection air conditioner power consumption.
In certain embodiments, the inner sleeve is surrounded by brick wall.
In certain embodiments, the inner sleeve wall is lightweight brick structure, and patch outdoor tile, inner side on the outside of the brick wall
Fan ash.
In certain embodiments, at least a portion side wall of the inner sleeve is shared with the overcoat, and overcoat is shared with inner sleeve
Partial wall thickness is 0.27 meter, the wall thickness of unshared part is 0.21 meter.
In certain embodiments, the inner sleeve roof is monolithic reinforced concrete structure, and thickness is 0.1 meter, and described interior
Set roof is flat-top and does water-proofing treatment.
In certain embodiments, a part of side wall of the inner sleeve is shared with the overcoat, the inner sleeve and the overcoat
Shared wall is equipped with width and is less than 1.4 meters, is highly not less than 5 × 10 less than 1.5 meters, thickness of glass-3The plastic-steel glass knot of rice
Structure.
In certain embodiments, the inner sleeve be formed as length in the range of 3.2 meters to 4.85 meters, width arrives at 2.5 meters
Cuboid in the range of 3.3 meters and highly in the range of 2.6 meters to 3 meters.
In certain embodiments, the overcoat is surrounded by heat room plate.
In certain embodiments, the power consumption amount detection systems further include:Insulating space, the insulating space are located at described
On the outside of inner sleeve, and the insulating space coordinates around the inner sleeve, and the insulating space and the inner sleeve with the overcoat
Inner space separates, and the wall of the insulating space, which is equipped with, to be used to connect the door outside the inner sleeve and/or the insulating space.
In certain embodiments, the door is the boarded door that width is 0.9 meter and height is 2 meters.
The additional aspect and advantage of the utility model will be set forth in part in the description, partly by from following description
In become obvious, or recognized by the practice of the utility model.
Brief description of the drawings
Fig. 1 is the schematic diagram according to the power consumption amount detection systems of the utility model embodiment;
Fig. 2 is the schematic diagram according to the power consumption amount detection systems of the utility model other embodiments;
Fig. 3 is the schematic diagram of the detecting system of temperature control regulator according to the present utility model;
Fig. 4 is the flow chart of the detection method of air conditioner power consumption under the refrigeration mode according to the utility model embodiment;
Fig. 5 is the temperature changing curve diagram according to the utility model one embodiment.
Reference numeral:
Power consumption amount detection systems 100, inner sleeve 11, temperature detecting point E, overcoat 12, insulating space 13,
Power consumption amount detection systems 200, indoor 21, outside 22, heat room plate 23,
Air-conditioning adjuster 300,
Detecting system 400, temperature detection part 41, bar 42, heating element 43,
Embodiment
The embodiment of the utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning
Same or similar element is represented to same or similar label eventually or there is same or like element.Below by ginseng
The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and it is not intended that to the utility model
Limitation.
Power consumption amount detection systems 100 below with reference to Fig. 1-Fig. 3 descriptions according to the utility model embodiment.
As shown in Figure 1, according to the power consumption amount detection systems 100 of the utility model embodiment, including:Inner sleeve 11, overcoat 12,
11 thermic load unit of inner sleeve and 12 control temperature unit of overcoat.
Specifically, inner sleeve 11 can be ordinary user's house, have the temperature for being used for arranging temperature detection part in inner sleeve 11
Point layout area, temperature spot layout area is used to arrange temperature detecting point E, to detect the temperature of each position in inner sleeve 11, into
And detect the average temperature value in inner sleeve 11.Overcoat 12 is located at the outside of inner sleeve 11;Overcoat 12 can be the insulation construction of house.
11 thermic load unit of inner sleeve is used to provide thermic load into inner sleeve 11, for example, 11 thermic load unit of inner sleeve is used to simulate human body
Thermic load.12 control temperature unit of overcoat is used to temperature control in overcoat 12, i.e. 12 temperature conditioning unit of overcoat are used to control to adjust in overcoat 12
Temperature, so as to adjust the environment temperature of inner sleeve 11.Such as the variation of ambient temperature of one day 24h of simulation.
, can be as the mark of detection air conditioner power consumption according to the power consumption amount detection systems 100 of the utility model embodiment
Quasi-experiment room.
One specific embodiment of the power consumption amount detection systems 100 of the utility model embodiment is described below.
As shown in Figure 1, the power consumption amount detection systems 100 of the utility model embodiment include:Inner sleeve 11, overcoat 12, inner sleeve
12 temperature conditioning unit of 11 thermic load units and overcoat.Wherein, the power consumption amount detection systems 100 of the utility model embodiment are actual for inspection
Survey the standard laboratory of air conditioner power consumption.For example, air conditioner be using air-cooled condenser, totally-enclosedmotor-compressor,
Refrigerating capacity is in the family expenses of below 4.5kW and the room air conditioner of similar applications.
As shown in Figure 1, in certain embodiments, overcoat 12 is surrounded by heat room plate.In certain embodiments, inner sleeve 11 can
To be surrounded by brick wall.Preferably, 11 wall of inner sleeve is lightweight brick structure, and outdoor tile, inner sleeve are pasted on the outside of the brick wall of inner sleeve 11
Fan ash on the inside of 11 brick wall.Preferably, 11 roof of inner sleeve can be monolithic reinforced concrete structure, and thickness is 0.1 meter, and inner sleeve
11 roofs is flat-tops and do water-proofing treatment.
Further, inner sleeve 11 be formed as length in the range of 3.2 meters to 4.85 meters, width is in 2.5 meters to 3.3 meters scopes
Cuboids interior and that height is in the range of 2.6 meters to 3 meters.I.e. the size of inner sleeve 11 meets:3.2m≤length≤4.85m, 2.5m≤
Width≤3.3m, 2.6m≤height≤3m.
Wherein, at least a portion side wall of inner sleeve 11 is shared with overcoat 12, the wall thickness of overcoat 12 and 11 common sparing of inner sleeve
Wall thickness for 0.27 meter, unshared part is 0.21 meter.For example, the wall thickness of overcoat 12 is 0.27 meter (thickness containing finishing material),
The wall thickness of inner sleeve 11 is 0.21 meter (thickness containing finishing material), when a part of side wall and the overcoat 12 of inner sleeve 11 are common, i.e. the portion
Be allocated as overcoat 12 when, then the wall thickness of the part be 0.27 meter.To ensure the intensity of overcoat 12 and heat-insulating property.
Preferably, a part of side wall of inner sleeve 11 is shared with overcoat 12, and inner sleeve 11 is equipped with modeling with the wall that overcoat 12 shares
Profiled bar glass structure, and the width of plastic-steel glass structure is less than or equal to 1.4 meters, is highly not less than less than or equal to 1.5 meters, thickness of glass
5×10-3Rice.Plastic-steel glass structure is the window of house.
In some embodiments of the utility model, as shown in Figure 1, power consumption amount detection systems 100 can also include:Isolation
Space 13, insulating space 13 is located at the outside of inner sleeve 11, and insulating space 13 coordinates around inner sleeve 11, and insulating space with overcoat 12
13 separate with the inner space of inner sleeve 11, and the wall of insulating space 13, which is equipped with, to be used to connect outside inner sleeve 11 and/or insulating space 13
The door in portion.
Further, door is the boarded door that width is 0.9 meter and height is 2 meters.
Wherein, the heat transfer coefficient of each component of the above-mentioned power consumption amount detection systems 100 of the utility model meets:The heat transfer on roof
Coefficient≤3.56 (W/m2·K);Heat transfer coefficient≤1.46 (the W/m of overcoat 122·K);Heat transfer coefficient≤1.58 (the W/ of inner sleeve 11
m2·K);Heat transfer coefficient≤2.00 (the W/m of plastic-steel glass structure (window)2·K);Heat transfer coefficient≤2.00 (the W/m of door2·
K)。
Power consumption amount detection systems 200 below with reference to Fig. 2 descriptions according to the utility model second aspect embodiment.
As shown in Figure 1, according to the power consumption amount detection systems 200 of the utility model embodiment, including:Indoor 21 and outdoor
Side 22.
Specifically, indoor 21 has enclosure space, and has the temperature for being used for arranging temperature detection part in indoor 21
Point layout area, it is preferable that indoor 21 is surrounded by heat room plate 23.Outside 22 is located at the outside of indoor 21, outside
22 have enclosure space, and indoor 21 and outside 22 are separated by heat room plate 23, it is preferable that outside 22 is also by heat room
Plate 23 surrounds.Wherein, the temperature of indoor 21 and outside 22 is adjustable.
According to the power consumption amount detection systems 200 of the utility model embodiment, 300 power consumption of detection air-conditioning adjuster can be used as
The standard laboratory of amount.
The power consumption amount detection systems 200 of one specific embodiment of the utility model are described with reference to Fig. 2.
There is the indoor 21 surrounded by heat room plate 23 according to the power consumption amount detection systems 200 of the utility model embodiment
With outside 22, wherein, indoor 21 and outside 22 are enclosure space, and outside 22 is located at the outside of indoor 21.
Wherein, indoor 21 be formed as length in the range of 3.6 meters to 4.4 meters, width is in the range of 3.3 meters to 4.0 meters
And cuboid of the height in the range of 2.6 meters to 3 meters.I.e. the size of 21 enclosure space of indoor meets:3.6m≤length≤4.4m,
3.3m≤wide≤4.0m, 2.6m≤height≤3m.
In some embodiments of the utility model, detecting system 200 can also include:21 thermic load unit of indoor,
21 thermic load unit of indoor is used to provide thermic load to indoor 21.For example, 21 thermic load unit of indoor can be used for mould
Intend the thermic load of human body in room.
In certain embodiments, detecting system 200 can also include:22 control temperature unit of outside, 22 temperature control list of outside
Member is used for 22 temperature control of outside.In this way, when the outdoor operating mode to indoor 21 requires, 22 room of outside can be utilized
22 temperature on the outside of unit regulation room, so that the operating mode of indoor 21 maintains in a specific range.For example, it can be used for mould
Intend the variation of ambient temperature of one day 24h.
Further, 22 control temperature unit of outside of detecting system 200 can include:Quenching system and hot-air system, it is cold
The inner space of wind system and hot-air system with outside 22 connects.Quenching system and hot-air system are used for 22 on the outside of controlling chamber
Temperature in enclosure space.
In certain embodiments, detecting system 200 can also include:Air flow regulator, air flow regulator are used to adjust
Save the wind speed of outside 22 or the exterior space of indoor 21 and outside 22.For example, air flow regulator can make power consumption
Air velocity around amount detection systems 200 is no more than 2.5m/s.Thus, it is possible to avoid air speed influence accuracy of detection.
In addition, if the operating mode of indoor 21 requires, air flow regulator can also keep air conditioner during experiment
Airflow field cannot change.
In certain embodiments, temperature spot layout area and top surface, bottom surface and the side of indoor 21 separate.Thus,
Can be to avoid the temperature detection of the external environment influence indoor 21 of indoor 21.
In certain embodiments, as shown in Fig. 2, indoor 21 and outside 22 are rectangle, and indoor 21 and room
Outside 22 shares a side wall.Such as shown in Fig. 2, the indoor 21 and outside 22 of power consumption amount detection systems 200 are in rectangular
Shape, and heat room plate 23 is equipped between indoor 21 and outside 22, heat room plate 23 is by the sky of indoor 21 and outside 22
Between be spaced apart.Wherein, air conditioner to be measured can be set on the heat room plate 23 between indoor 21 and outside 22.
Detecting system 400 with reference to Fig. 1-Fig. 3 descriptions according to the air-conditioning adjuster 300 of the utility model embodiment.
As shown in figure 3, there is multiple temperature detection parts 41 in the test space, multiple temperature detecting units are empty in test
In in the horizontal direction and vertical direction is arranged at interval, the inner top surface of multiple temperature detection parts 41 and the test space,
Face and medial surface are spaced apart.Wherein, the test space is the inner space in laboratory, and air-conditioning adjuster 300 is used in the sky
Interior adjusting temperature.
According to the detecting system 400 of the air-conditioning adjuster 300 of the utility model embodiment, by being set in the test space
Multiple temperature detection parts 41, can detect the temperature of multiple and different points in the test space, thus, it is possible to calculate in the test space
Mean temperature, so as to detect power consumption of the air-conditioning adjuster 300 under the conditions of specific operation.
For example, accumulation power consumption of the measure air-conditioning adjuster 300 in work 24h.
Wherein, when detecting, if air-conditioning tune machine is separated wall hanging type air conditioner, its indoor unit is hung on from the ground between two parties
On 2.1m~2.3m positions (indoor unit lower edge is apart from ground level).
In certain embodiments, multiple temperature detection parts 41 with for install adjuster to be measured metope minimum range not
Less than 0.4 meter.Thus, it is possible to avoid the accuracy of detection of metope influence temperature detection part 41.
As shown in Figure 3, it is preferable that the cloth on above-below direction (such as above-below direction shown in Fig. 3) of temperature detection part 41
It is set to multiple rows of.To improve accuracy of detection.
In certain embodiments, as shown in Figure 1, multiple temperature detection parts 41 are arranged to from bottom surface in the up-down direction
Highly it is respectively 0.1 meter, 0.7 meter, 1.2 meters and 1.7 meters of four rows.For example, multiple temperature detection parts 41 are arranged to vertically
Four rows in direction, first row are 0.1m apart from floor height, and second row is 0.7m apart from floor height, and the 3rd array pitch is from bottom surface height
It is 1.7m from floor height to spend for 1.2m, the 4th array pitch.
In some instances, as shown in figure 3, the detection piece often arranged transversely is arranged with longitudinal direction into matrix array.Thus,
Accuracy of detection can be improved.
Further, in the spacing of two adjacent temperature detecting units of laterally (such as left and right directions shown in Fig. 3)
For 0.5 meter, the spacing of two adjacent temperature detecting units is 0.5 meter on longitudinal direction (such as anteroposterior direction shown in Fig. 3).
Advantageously, projection of multiple rows of temperature detection part 41 on ground overlaps.
In certain embodiments, such as Fig. 1 and with reference to shown in Fig. 3, multiple temperature detection parts 41 along the vertical direction, left and right directions
And anteroposterior direction is arranged to the form of cubical array, and along the vertical direction, left and right directions and adjacent two of anteroposterior direction
Temperature detection part 41 is spaced 0.5 meter.Thus, temperature detection part 41 is made to be evenly spaced in the test space, arrangement is convenient,
And make accuracy of detection more accurate.
In certain embodiments, vertically aligned temperature detection part 41 is fixed on the vertically extending rope of same root
On son or bar 42.Thus, rope or bar 42 can be with support temperature detection pieces 41, so that convenient be vertically arranged multiple temperature detections
Part 41.
In certain embodiments, it is provided with heating element 43 at least one in the sidepiece of the test space, top and bottom.
Heating element 43 can simulate indoor heat load.Preferably, heating element 43 has been equipped with it on the opposite side wall of the test space.
The detection side of the power consumption of air conditioner under the refrigeration mode of the utility model embodiment described below in conjunction with the accompanying drawings
Method.
Fig. 4 is the flow of the detection method of the power consumption of air conditioner under the refrigeration mode according to the utility model embodiment
Figure.
As shown in figure 4, under the refrigeration mode of the utility model embodiment the power consumption of air conditioner detection method, including with
Lower step:
S1, opens at least one electric heating equipment being disposed in the interior, to provide thermic load to indoor environment.
In one embodiment of the utility model, closing brick wall structure or structure mould equipped with door/window can be passed through
Intend indoor environment and outdoor environment.Wherein, can be hardened according to storehouse when simulating indoor environment and outdoor environment by structure
The material of structure is modified the thermic load of structure.
, can also be first before the electric heating equipment being disposed in the interior is opened in one embodiment of the utility model
Under beginning operating condition of test, indoor environment temperature is gathered by multiple temperature sensors, and obtains multiple temperature sampling values, then basis
Multiple temperature sampling values judge whether indoor environment is stablized.If indoor environment is stablized, by indoor environment and outdoor environment every
Open.
Wherein, initial trial operating mode may include:Indoor environment temperature is the first preset temperature, and the temperature of corresponding wet bulb is
Second preset temperature, and outdoor environment temperature is the 3rd preset temperature, the temperature of corresponding wet bulb is the 4th preset temperature, indoor
The mean temperature of wall between outdoor is the 5th preset temperature.In a specific embodiment of the utility model, first
The value of preset temperature is 29-31 DEG C, and the value of the second preset temperature is 21-23 DEG C, and the value of the 3rd preset temperature is 29-31
DEG C, the value of the 4th preset temperature is 21-23 DEG C, and the value of the 5th preset temperature is 29-31 DEG C.
Specifically, the multiple temperature sampling values collected for multiple temperature sensors, if each temperature sampling value
Difference between the indoor environment temperature in initial trial operating mode is respectively less than preset temperature threshold value, then judges that indoor environment is steady
It is fixed.When indoor environment is stablized, indoor environment and outdoor environment can be separated by closing the modes such as door/window.
Wherein, the precision of temperature sensor meets the regulation of GB/T 7725-2004.
S2, control air conditioner are run with default operating condition.
Wherein, default operating condition includes at least:Supply voltage is rated voltage, running frequency is rated frequency, default
Temperature, wind speed are automatic wind shelves, air hole is closed;And if the wind guide vane of air conditioner is vertical wind guide vane, vertical wind-guiding
Leaf is in maximum outlet air position, if the wind guide vane of air conditioner is horizontal wind guide vane, horizontal wind guide vane in a chiller mode under
Factory default angle is set.
S3, during air conditioner is with default operating condition operation, outdoor environment temperature is adjusted according to preset rules.
In one embodiment of the utility model, preset rules can be obtained as follows:Multiple cities are obtained to exist
The outdoor environment temperature and the correspondence between the time in refrigeration season, and the temperature rise in the object time is obtained according to correspondence
Period and its corresponding temperature rise and temperature drop period and its corresponding temperature drop.Wherein, temperature rising-time section and temperature drop period it
With for the object time, the corresponding pass between the correspondence between temperature rising-time section and temperature rise, and temperature drop period and temperature drop
It is for preset rules.
For example, can according to 17 main cities in the whole nation (Beijing, Foochow, Guangzhou, Harbin, Hefei, Nanchang, Nanjing,
Nanning, Qingdao, Xiamen, Shanghai, Shenzhen, Wuhan, Xi'an, Changsha, Chongqing, Zhuhai) meteorological data instant time temperature average value, obtain
To the temperature variation curve shown in Fig. 2.As shown in Figure 2, freeze season temperature rising-time from morning 6:00 to afternoon 14:00 is
8h, temperature drop time from afternoon 14:00 to the next morning 6:00 is 16h.
In order to obtain preset rules, each temperature time of origin of outdoor environment sends out each temperature when can be run according to cooling condition
Time noise is given birth into 24h.Wherein, each temperature time of origin of outdoor environment waits ratio from 24 DEG C to 38 DEG C when cooling condition can be run
Example is converted to temperature rise 8h, obtains the correspondence between temperature rising-time section and the temperature rise shown in table 1:
Temperature/DEG C | 24 | 25 | 26 | 27 | 28 | 29 | 30 | 31 | 32 | 33 | 34 | 35 | 36 | 37 | 38 |
Time/min | 23 | 41 | 41 | 48 | 41 | 41 | 46 | 45 | 44 | 40 | 32 | 26 | 9 | 2 | 1 |
Table 1
From 38 DEG C to 24 DEG C, equal proportion is converted to temperature drop to each temperature time of origin of outdoor environment when can cooling condition be run
16h, obtains the correspondence between temperature drop period and the temperature drop shown in table 2:
Temperature/DEG C | 38 | 37 | 36 | 35 | 34 | 33 | 32 | 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
Time/min | 2 | 4 | 19 | 52 | 64 | 79 | 89 | 90 | 93 | 81 | 83 | 95 | 82 | 81 | 46 |
Table 2
According to the data of above Tables 1 and 2, the temperature variation curve of shown expression preset rules can obtain.
Thus, during air conditioner is with default operating condition operation, can according to above-mentioned Tables 1 and 2 and, to outdoor ring
Border temperature is adjusted.
In one embodiment of the utility model, above-mentioned initial trial operating mode can also be obtained according to the preset rules.
Specifically, outdoor environment minimum temperature or outdoor environment when air conditioner is run by cooling condition can be obtained according to above-mentioned preset rules
The time of maximum temperature and the available machine time of air conditioner, extrapolate outdoor environment temperature during air conditioner start.For example, if
Fixed 22:00 air conditioner is started shooting, morning 6:24 DEG C of outdoor environment minimum temperature determines when 00 temperature is run by cooling condition, afternoon
14:38 DEG C of outdoor environment maximum temperature determines when 00 temperature is run by cooling condition.From 14:00 38 DEG C of maximum temperature is to pusher
As at night 22 at the time of calculating 8h (480min):The initial time of 00 start, temperature is 30 DEG C at this time, so can be by night 22:
00 corresponding 30 DEG C as the outdoor environment temperature under initial trial operating mode, i.e. the 3rd preset temperature.
S4, when the run time of air conditioner reaches the object time, obtains the power consumption of air conditioner operation.
That is, can be using accumulative power consumption of the air conditioner within the object time of setting as testing result.
, can also be pre- every second when air conditioner runs the first preset time in one embodiment of the utility model
If the time gathers indoor environment temperature by the multiple temperature sensors being disposed in the interior, until the run time of air conditioner reaches
Object time, to judge the refrigeration effect of air conditioner according to indoor environment temperature at different moments.Specifically, if indoor environment
Temperature is higher relative to desired temperature range, then can determine whether that refrigeration effect is poor, if indoor environment temperature is in desired
It is within temperature range or relatively low relative to desired temperature range, then it can determine whether that refrigeration effect is preferable.
In addition, it is necessary to explanation, after air conditioner runs the first preset time with default operating condition, multiple temperature sensing
The average value that device collects indoor environment temperature is less than or equal to target temperature, wherein, target temperature is more than in default operating condition
Preset temperature.In a specific embodiment of the utility model, target temperature can be 28 DEG C.
In a specific embodiment of the utility model, the first preset time is 25-35min, and the second preset time is
4-6min, object time 22-26h.
According to the detection method of the power consumption of air conditioner under the refrigeration mode of the utility model embodiment, set by opening
At least one electric heating equipment indoors, to provide thermic load to indoor environment, and controls air conditioner to preset operating condition
Operation, and during air conditioner is with default operating condition operation, according to preset rules adjusting outdoor environment temperature, and
When the run time of air conditioner reaches the object time, the power consumption of air conditioner operation is obtained.Thereby, it is possible to convenient and exactly
Detect the power consumption of air conditioner under refrigeration mode.
In a specific embodiment of the utility model, initial trial operating mode can be as shown in table 3:
Table 3
Wherein, the deviation of the permitted indoor and outdoor temperature of initial trial operating mode is no more than GB/T 7725-2004 defineds
Deviation, the deviation of specific dry-bulb temperature is within ± 0.5 DEG C, and the deviation of wet-bulb temperature is within ± 0.3 DEG C.Pass through brick wall structure
During simulation, the deviation of wall mean temperature is within ± 1 DEG C, and when being simulated by structure, to the inclined of wall mean temperature
Difference does not require.
Default operating condition may include:
1) power supply:Rated voltage, rated frequency;
2) operational mode:Refrigeration, if there is energy saver mode, into energy saver mode;
3) design temperature:27 DEG C or other preset temperatures;
4) wind speed:Automatic wind shelves;
5) wind-guiding grate:Vertical wind guide vane presses maximum outlet air position, and horizontal wind guide vane is by refrigeration default angle;
6) air hole:Close;
7) other miscellaneous functions:Close.
, can be upper before air conditioner start during using brick wall structure or structure simulation indoor environment and outdoor environment
State under initial trial operating mode, record indoor environment temperature data, and judge whether indoor environment is stablized.Judging that indoor environment is steady
After fixed, by closing door/window of brick wall structure or structure, indoor environment and outdoor environment are separated.
At least one electric heating equipment simulation human body thermic load is then turned on, and opens air conditioner, and control air conditioner
Run with above-mentioned default operating condition.When controlling air conditioner to be run with above-mentioned default operating condition, according to shown default rule
Then adjust outdoor environment temperature.
Specific adjusting process is as shown in table 4:
Table 4
Table 4 be to continuously run according to cooling condition 24h carry out that outdoor environment temperature adjusts as a result, wherein,
When outdoor environment temperature is adjusted, temperature fluctuation is with adjusting the difference of preferred temperature within ± 1 DEG C.
When the run time of air conditioner reaches 24h, the total power consumption of air conditioner operation 24h is obtained.
Meanwhile since air conditioner runs 30min, every the room that 5min one group of multiple temperature sensor of record collect
Interior environment temperature.Until when the run time of air conditioner reaches 24h, calculate each record moment each temperature sensor and collect
Indoor environment temperature average value, and judge according to the average value at each record moment being calculated the refrigeration effect of air conditioner
Fruit.
Thus, the power consumption of air conditioner can not only easily and accurately be detected, additionally it is possible to effectively obtain the refrigeration of air conditioner
Performance, is evaluated beneficial to the energy-saving effect to air conditioner and comfort.
Corresponding above-described embodiment, the utility model also propose a kind of non-transitorycomputer readable storage medium.
The non-transitorycomputer readable storage medium of the utility model embodiment, is stored thereon with computer program, its
In, when which is executed by processor, it can be achieved that the utility model above-described embodiment propose refrigeration mode under air conditioner consumption
The detection method of electricity.
According to the non-transitorycomputer readable storage medium of the utility model embodiment, by the calculating for performing its storage
Machine program, being capable of power consumption that is convenient and being accurately detected air conditioner under refrigeration mode.
Corresponding above-described embodiment, the utility model also propose a kind of detection dress of the power consumption of air conditioner under refrigeration mode
Put.
The detection device of the power consumption of air conditioner under the refrigeration mode of the utility model embodiment, including:At least one electricity
Heating equipment, control module, adjustment module and acquisition module.
Wherein, at least one electric heating equipment is disposed in the interior, to provide thermic load to indoor environment;Control module is used for
Control at least one electric heating equipment to open, and control air conditioner to be run with default operating condition;Adjustment module is used in air-conditioning
During device is with default operating condition operation, outdoor environment temperature is adjusted according to preset rules;Acquisition module is used in air-conditioning
When the run time of device reaches the object time, the power consumption of air conditioner operation is obtained.
In one embodiment of the utility model, closing brick wall structure or structure mould equipped with door/window can be passed through
Intend indoor environment and outdoor environment.
In one embodiment of the utility model, human body thermic load can be simulated by least one heating equipment.
Wherein, can be according to the material of structure to storehouse when simulating indoor environment and outdoor environment by structure
The thermic load of harden structure is modified.
In one embodiment of the utility model, detection device may also include acquisition module, and acquisition module may include to set
Put multiple temperature sensors indoors., can also be in initial trial operating mode before the electric heating equipment being disposed in the interior is opened
Under, indoor environment temperature is gathered by multiple temperature sensors, and multiple temperature sampling values are obtained, then adopted according to multiple temperature
Sample value judges whether indoor environment is stablized.If indoor environment is stablized, indoor environment and outdoor environment are separated.
Wherein, initial trial operating mode may include:Indoor environment temperature is the first preset temperature, and the temperature of corresponding wet bulb is
Second preset temperature, and outdoor environment temperature is the 3rd preset temperature, the temperature of corresponding wet bulb is the 4th preset temperature, indoor
The mean temperature of wall between outdoor is the 5th preset temperature.In a specific embodiment of the utility model, first
The value of preset temperature is 29-31 DEG C, and the value of the second preset temperature is 21-23 DEG C, and the value of the 3rd preset temperature is 29-31
DEG C, the value of the 4th preset temperature is 21-23 DEG C, and the value of the 5th preset temperature is 29-31 DEG C.
Specifically, the multiple temperature sampling values collected for multiple temperature sensors, if each temperature sampling value
Difference between the indoor environment temperature in initial trial operating mode is respectively less than preset temperature threshold value, then judges that indoor environment is steady
It is fixed.When indoor environment is stablized, indoor environment and outdoor environment can be separated by closing the modes such as door/window.
Wherein, the precision of temperature sensor meets the regulation of GB/T 7725-2004.
In one embodiment of the utility model, default operating condition includes at least:Supply voltage is rated voltage, fortune
Line frequency is rated frequency, preset temperature, wind speed are that automatic wind shelves, air hole are closed;And if the wind guide vane of air conditioner is
Vertical wind guide vane, then vertical wind guide vane is horizontal if the wind guide vane of air conditioner is horizontal wind guide vane in maximum outlet air position
Wind guide vane in a chiller mode under factory default angle set.
, can be by obtaining outdoor environment temperature of multiple cities in refrigeration season in one embodiment of the utility model
Correspondence between the time, and according to correspondence obtain the object time in temperature rising-time section and its corresponding temperature rise and
Temperature drop period and its corresponding temperature drop.Wherein, the sum of temperature rising-time section and temperature drop period are the object time, temperature rising-time section
Correspondence between correspondence between temperature rise, and temperature drop period and temperature drop is preset rules.
For example, can according to 17 main cities in the whole nation (Beijing, Foochow, Guangzhou, Harbin, Hefei, Nanchang, Nanjing,
Nanning, Qingdao, Xiamen, Shanghai, Shenzhen, Wuhan, Xi'an, Changsha, Chongqing, Zhuhai) meteorological data instant time temperature average value, obtain
To the temperature variation curve shown in Fig. 2.As shown in Figure 2, freeze season temperature rising-time from morning 6:00 to afternoon 14:00 is
8h, temperature drop time from afternoon 14:00 to the next morning 6:00 is 16h.
In order to obtain preset rules, each temperature time of origin of outdoor environment sends out each temperature when can be run according to cooling condition
Time noise is given birth into 24h.Wherein, each temperature time of origin of outdoor environment waits ratio from 24 DEG C to 38 DEG C when cooling condition can be run
Example is converted to temperature rise 8h, obtains the correspondence between temperature rising-time section and the temperature rise shown in table 1.
From 38 DEG C to 24 DEG C, equal proportion is converted to temperature drop to each temperature time of origin of outdoor environment when can cooling condition be run
16h, obtains the correspondence between temperature drop period and the temperature drop shown in table 2.
According to the data of above Tables 1 and 2, the temperature variation curve of shown expression preset rules can obtain.
Thus, during air conditioner is with default operating condition operation, can according to above-mentioned Tables 1 and 2 and, to outdoor ring
Border temperature is adjusted.
In one embodiment of the utility model, above-mentioned initial trial operating mode can also be obtained according to the preset rules.
Specifically, outdoor environment minimum temperature or outdoor environment when air conditioner is run by cooling condition can be obtained according to above-mentioned preset rules
The time of maximum temperature and the available machine time of air conditioner, extrapolate outdoor environment temperature during air conditioner start.For example, if
Fixed 22:00 air conditioner is started shooting, morning 6:24 DEG C of outdoor environment minimum temperature determines when 00 temperature is run by cooling condition, afternoon
14:38 DEG C of outdoor environment maximum temperature determines when 00 temperature is run by cooling condition.From 14:00 38 DEG C of maximum temperature is to pusher
As at night 22 at the time of calculating 8h (480min):The initial time of 00 start, temperature is 30 DEG C at this time, so can be by night 22:
00 corresponding 30 DEG C as the outdoor environment temperature under initial trial operating mode, i.e. the 3rd preset temperature.
, can be by accumulative consumption of the air conditioner within the object time of setting when the run time of air conditioner reaches the object time
Electricity is as testing result.
The detection device of the power consumption of air conditioner may also include judgment module under the refrigeration mode of the utility model embodiment,
Acquisition module can gather indoor environment temperature, until empty when air conditioner runs the first preset time every the second preset time
The run time of device is adjusted to reach the object time;Judge to touch the indoor environment at different moments that block can be used for gathering according to acquisition module
Temperature judges the refrigeration effect of air conditioner.Specifically, if indoor environment temperature is higher relative to desired temperature range, sentence
It is disconnected to touch block and can determine whether that refrigeration effect is poor, if indoor environment temperature is within desired temperature range or relative to desired
Temperature range is relatively low, then judges that touching block can determine whether that refrigeration effect is preferable.
In addition, it is necessary to explanation, after air conditioner runs the first preset time with default operating condition, multiple temperature sensing
The average value that device collects indoor environment temperature is less than or equal to target temperature, wherein, target temperature is more than in default operating condition
Preset temperature.In a specific embodiment of the utility model, target temperature can be 28 DEG C.
In a specific embodiment of the utility model, the first preset time is 25-35min, and the second preset time is
4-6min, object time 22-26h.
According to the detection device of the power consumption of air conditioner under the refrigeration mode of the utility model embodiment, set by opening
At least one electric heating equipment indoors, with to indoor environment provide thermic load, and by control module control air conditioner with
Default operating condition operation, and by adjustment module during air conditioner is to preset operating condition operation, according to default
Rule adjustment outdoor environment temperature, and by acquisition module when the run time of air conditioner reaches the object time, obtain air-conditioning
The power consumption of device operation.Thereby, it is possible to convenient and be accurately detected the power consumption of air conditioner under refrigeration mode.
In the description of the utility model, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width
Degree ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ",
The orientation or position relationship of the instruction such as " clockwise ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " are based on shown in the drawings
Orientation or position relationship, are for only for ease of description the utility model and simplify description, rather than indicate or imply signified dress
Put or element there must be specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to the utility model
Limitation.
In addition, term " first ", " second " are only used for description purpose, and it is not intended that instruction or hint relative importance
Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed or
Implicitly include one or more this feature.In the description of the utility model, " multiple " are meant that two or two
More than, unless otherwise specifically defined.
In the utility model, unless otherwise clearly defined and limited, term " installation ", " connected ", " connection ", " Gu
It is fixed " etc. term should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integrally;Can be
Mechanically connect or be electrically connected, can also be communication;It can be directly connected, the indirect phase of intermediary can also be passed through
Even, can be the interaction relationship of connection inside two elements or two elements.For those of ordinary skill in the art
For, concrete meaning of the above-mentioned term in the utility model can be understood as the case may be.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means specific features, structure, material or the spy for combining the embodiment or example description
Point is contained at least one embodiment or example of the utility model.In the present specification, to the schematic table of above-mentioned term
State and be necessarily directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be with
Combine in an appropriate manner in any one or more of the embodiments or examples.In addition, without conflicting with each other, this area
Technical staff can by the different embodiments or example described in this specification and different embodiments or exemplary feature into
Row combines and combination.
While there has been shown and described that the embodiment of the utility model, it will be understood by those skilled in the art that:
These embodiments can be carried out with a variety of changes, modification in the case where not departing from the principle and objective of the utility model, replaced
And modification, the scope of the utility model are limited by claim and its equivalent.
Claims (10)
- A kind of 1. power consumption amount detection systems, it is characterised in that including:Inner sleeve, the inner sleeve is interior to have the temperature spot layout area for being used for arranging temperature detection part;Overcoat, it is described to be set in outside on the outside of the inner sleeve;Inner sleeve thermic load unit, the inner sleeve thermic load unit are used to provide thermic load into the inner sleeve;Overcoat control temperature unit, the overcoat control temperature unit are used for temperature control in the overcoat.
- 2. power consumption amount detection systems according to claim 1, it is characterised in that the inner sleeve is surrounded by brick wall.
- 3. power consumption amount detection systems according to claim 2, it is characterised in that the inner sleeve wall is lightweight brick structure, And patch outdoor tile, inner side fan ash on the outside of the brick wall.
- 4. power consumption amount detection systems according to claim 2, it is characterised in that at least a portion side wall of the inner sleeve with The overcoat shares, and the wall thickness of overcoat and inner sleeve common sparing is 0.27 meter, the wall thickness of unshared part is 0.21 meter.
- 5. the power consumption amount detection systems according to any one of claim 1-4, it is characterised in that the inner sleeve roof is existing Reinforced concrete structure is poured, thickness is 0.1 meter, and the inner sleeve roof for flat-top and does water-proofing treatment.
- 6. the power consumption amount detection systems according to any one of claim 1-4 a, it is characterised in that part for the inner sleeve Side wall is shared with the overcoat, and the inner sleeve is equipped with width with the wall that the overcoat shares and is less than 1.4 meters, highly less than 1.5 Rice, thickness of glass are not less than 5 × 10-3The plastic-steel glass structure of rice.
- 7. the power consumption amount detection systems according to any one of claim 1-4, it is characterised in that the inner sleeve is formed as long Spend in the range of 3.2 meters to 4.85 meters, the length that width is in the range of 2.5 meters to 3.3 meters and height is in the range of 2.6 meters to 3 meters Cube.
- 8. the power consumption amount detection systems according to any one of claim 1-4, it is characterised in that the overcoat is by heat room Plate surrounds.
- 9. the power consumption amount detection systems according to any one of claim 1-4, it is characterised in that the power consumption quantity detecting system System further includes:Insulating space, the insulating space are located on the outside of the inner sleeve, and the insulating space coordinates around institute with the overcoat Inner sleeve is stated, and the insulating space and the inner space of the inner sleeve separate, the wall of the insulating space, which is equipped with, to be used to connect Door outside the inner sleeve and/or the insulating space.
- 10. power consumption amount detection systems according to claim 9, it is characterised in that the door is width for 0.9 meter and height For 2 meters of boarded door.
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CN201720948933.2U CN207336633U (en) | 2017-07-31 | 2017-07-31 | Power consumption amount detection systems |
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