CN105928309A - Temperature adjustment cabinet system based on multi-temperature control independent circulation and hot water supply - Google Patents
Temperature adjustment cabinet system based on multi-temperature control independent circulation and hot water supply Download PDFInfo
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- CN105928309A CN105928309A CN201610313385.6A CN201610313385A CN105928309A CN 105928309 A CN105928309 A CN 105928309A CN 201610313385 A CN201610313385 A CN 201610313385A CN 105928309 A CN105928309 A CN 105928309A
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- Prior art keywords
- temperature
- electromagnetic valve
- sensitive head
- cabinet
- fresh
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D23/00—General constructional features
- F25D23/12—Arrangements of compartments additional to cooling compartments; Combinations of refrigerators with other equipment, e.g. stove
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47B—TABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
- A47B77/00—Kitchen cabinets
- A47B77/04—Provision for particular uses of compartments or other parts ; Compartments moving up and down, revolving parts
- A47B77/08—Provision for particular uses of compartments or other parts ; Compartments moving up and down, revolving parts for incorporating apparatus operated by power, including water power; for incorporating apparatus for cooking, cooling, or laundry purposes
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B41/00—Fluid-circulation arrangements
- F25B41/20—Disposition of valves, e.g. of on-off valves or flow control valves
Abstract
The invention discloses a temperature adjustment cabinet system based on multi-temperature control independent circulation and hot water supply. The temperature adjustment cabinet system comprises an inverter compressor, a first condenser, a drying filter, a temperature controller, a freezing chamber evaporator, a freshness preservation chamber evaporator, a refrigerating chamber evaporator, a freezing chamber temperature sensing head, a freshness preservation chamber temperature sensing head, a refrigerating chamber temperature sensing head, a capillary tube, a suspended ceiling, a wall, a water temperature sensing head, an electric water heater, a cold water pipe, an upper cabinet and a lower cabinet, wherein the freezing chamber evaporator and the freezing chamber temperature sensing head are positioned in the upper cabinet; the freshness preservation chamber temperature sensing head, the refrigerating chamber temperature sensing head, the water temperature sensing head, the electric water heater, the freshness preservation chamber evaporator and the refrigerating chamber evaporator are positioned in the lower cabinet; the inverter compressor is arranged above the suspended ceiling. The temperature adjustment cabinet system combines a refrigerator and a cabinet structure, fully utilizes space, lowers the noise generated when the refrigerator works, and reduces energy consumption.
Description
Technical field
The present invention relates to a kind of novel cabinet system, it particularly relates to one is held concurrently based on the discrete circulation of many temperature controls
The homoiothermic cabinet system of supplying hot water.
Background technology
Society, household electric refrigerator has become people and has modernized a part indispensable in comfortable life.Electric refrigerator
Simple gate, two-door, three, clamshell doors etc. can be divided into by structural form classification, and along with the raising of people's living standard, three open-door,
The refrigerator (Large Copacity and big storage capacity refrigerator) that opens the door such as clamshell doors increasingly receives publicity more.According to the market survey of 2015, with
Consumer food fresh keeping and healthy requirement are gradually increased, have many warm areas and can more preferably preserve the multi-door product of food and be subject to
To the favor of consumer, the average price of the product of many enablings simultaneously glides and also promotes its proportion to have significantly to promote.Data show,
Within 2014, multi-door refrigerator retail sales increases by 47.0% on a year-on-year basis, and clamshell doors increases by 17.5% on a year-on-year basis.As can be seen here, household electric refrigerator positive day
Benefit develops towards Large Copacity, the big direction that stores.In addition, the room rate in present city, in foreseeable future, is still persistently increasing
Long, in order to effectively utilize the interior space, if the cabinet of refrigerator with kitchen is organically combined, it is possible not only to facilitate daily
Dietetic life, it is also possible to effectively save the interior space.
Summary of the invention
Technical problem: at present to Large Copacity and the big demand storing refrigerator, the embodiment of the present invention provide a kind of based on
The discrete circulation of many temperature controls is held concurrently the homoiothermic cabinet system of supplying hot water, refrigerator and cabinet structure is combined, takes full advantage of space,
The noise produced when reducing refrigerator work, reduces energy consumption.
Technical scheme: for solving above-mentioned technical problem, the embodiment of the present invention adopts the following technical scheme that
A kind of homoiothermic cabinet system of supplying hot water of holding concurrently based on the discrete circulation of many temperature controls, this system include frequency-changeable compressor, first
Condenser, device for drying and filtering, temperature controller, freezer evaporator, fresh-keeping chamber vaporizer, refrigerator evaporator, refrigerating chamber sense
Temperature head, fresh-keeping chamber temperature-sensitive head, cold room temperature-sensitive head, capillary tube, furred ceiling, body of wall, water temperature temperature-sensitive head, little kitchen treasured, cold water pipe, upper cupboard
Cabinet and lower cabinet;Wherein, furred ceiling is fixedly connected on body of wall top;Upper cabinet and lower cabinet are respectively fixedly connected with on body of wall, and
It is positioned at below furred ceiling;Upper cabinet is positioned at above lower cabinet;Frequency-changeable compressor is positioned at above furred ceiling;Freezer evaporator and refrigerating chamber
Temperature-sensitive head is respectively positioned in cabinet, and refrigerating chamber temperature-sensitive head is positioned at by freezer evaporator;Fresh-keeping chamber temperature-sensitive head, cold room temperature-sensitive
Head, water temperature temperature-sensitive head, little kitchen treasured, fresh-keeping chamber vaporizer and refrigerator evaporator are respectively positioned in lower cabinet, fresh-keeping chamber temperature-sensitive head position
By fresh-keeping chamber vaporizer, cold room temperature-sensitive head is positioned at by refrigerator evaporator, and water temperature temperature-sensitive head is positioned in the treasured of little kitchen;Little kitchen is precious
Water inlet be connected with cold water pipe, the precious outlet in little kitchen is connected with hot-water line;The air vent of frequency-changeable compressor is by the first electricity
Magnet valve is connected with the second condenser inlet of little kitchen treasured, and the second condensator outlet is connected by the entrance of check-valves with device for drying and filtering
Connect;Meanwhile, the air vent of frequency-changeable compressor is connected by the entrance of the second electromagnetic valve and the first condenser, going out of the first condenser
Mouth is connected with the entrance of device for drying and filtering;The outlet of device for drying and filtering is connected with capillary tube, and the outlet of capillary tube is divided into three
Road, the first branch road is that the outlet of capillary tube is connected by the entrance of the 3rd electromagnetic valve and freezer evaporator, freezer evaporator
Outlet be connected with the air entry of frequency-changeable compressor;Second branch road is that the outlet of capillary tube is by the 4th electromagnetic valve and the 5th electromagnetism
Valve, is connected with the entrance of refrigerator evaporator, and the outlet of refrigerator evaporator is connected with the air entry of frequency-changeable compressor;3rd
Road be the outlet of capillary tube by the 4th electromagnetic valve and the 6th electromagnetic valve, be connected with the entrance of fresh-keeping chamber vaporizer, fresh-keeping chamber steam
The outlet sending out device is connected with the air entry of frequency-changeable compressor;The signals collecting end of temperature controller respectively with refrigerating chamber temperature-sensitive head,
Fresh-keeping chamber temperature-sensitive head, cold room temperature-sensitive head, water temperature temperature-sensitive head connect, the signal output part of temperature controller respectively with the first electromagnetism
Valve, the second electromagnetic valve, the 3rd electromagnetic valve, the 4th electromagnetic valve, the 5th electromagnetic valve and the 6th electromagnetic valve connect.
As preference, the homoiothermic cabinet system of described a kind of supplying hot water of holding concurrently based on the discrete circulation of many temperature controls, also wrap
Including metal radiant panel, metal radiant panel is fixedly connected on the end face of furred ceiling, and the first condenser is fixedly connected on metal radiant panel.
As preference, described the 3rd electromagnetic valve, the 4th electromagnetic valve, the 5th electromagnetic valve and the 6th electromagnetic valve are respectively positioned on wall
In body.
As preference, the homoiothermic cabinet system of described supplying hot water of holding concurrently based on the discrete circulation of many temperature controls, also include keeping away
Shake rubber blanket, and anti-vibration rubber blanket is fixedly connected between furred ceiling end face and frequency-changeable compressor bottom surface.
Beneficial effect: compared with prior art, the embodiment of the present invention has the advantages that and is:
1, frequency-changeable compressor is arranged on furred ceiling, is mounted with anti-vibration rubber blanket in the bottom of frequency-changeable compressor, is possible to prevent to become
Frequently compressor produces bigger vibration operating when, it is also possible to prevent frequency-changeable compressor from running the heat distributed by refrigerator
Between room absorb, it is to avoid cold-hot counteraction, system energy efficiency is higher.Meanwhile, it is arranged on furred ceiling, frequency conversion can be avoided to compress
The noise that machine produces when indoor operation.
2, the first condenser is placed on furred ceiling, and with furred ceiling as radiating surface, convection current and heat loss through radiation strengthen, radiating effect
More preferably, avoid heat dissipation capacity simultaneously and absorbed by refrigerator compartment, reduce energy consumption, also achieve the one of the first condenser and furred ceiling
Change.
3, little kitchen treasured takes full advantage of the heat radiation of condenser, heats cold water in this, as thermal source, for winter,
Warm water after heating can be used to the daily life water such as washing bowls or vegetables, can heat cold water without electrical heating, joint
About electric energy.The comprehensive utilization ratio of energy has obtained effective raising.
4, temperature controller gathers refrigerating chamber, fresh-keeping chamber and the variations in temperature of cold room, and analyzing and processing judges room needs between which
Freeze, thus control the opening and closing of electromagnetic valve to needing room between starting to freeze to freeze.For need not refrigeration
Between room, then close and lead to the electromagnetic valve of this room, it is ensured that unnecessary cold waste and excessively refrigeration, thus reduce energy consumption.Ratio
As said the spring and autumn of south China some areas, cold room is substantially without refrigeration, then just can close and lead to cold room
Electromagnetic valve;The Northeast can not use refrigerating chamber in winter, can close the electromagnetic valve of refrigerating chamber, thus save energy.
According to the change of an indoor heat load, freeze, in time temperature is reduced to required scope, it is achieved accurately control, press
Need cooling, decrease unnecessary energy consumption.
5, achieve the combination of refrigerator and cabinet, saved space, make use of space efficiently, facilitate kitchen simultaneously
The use in room.Refrigerator, reach in freezer and antistaling cabinet organically combine with cabinet, thus ensure that the room noise that refrigerator causes is low, with
Time with the integrated type cabinet refrigerator of kitchen cabinet organic integration.
Accompanying drawing explanation
Fig. 1 is the structural representation of the embodiment of the present invention;
Fig. 2 is the top view after condenser is connected with furred ceiling in the embodiment of the present invention.
Wherein have: frequency-changeable compressor the 1, first condenser 2, device for drying and filtering 3, anti-vibration rubber blanket 4, temperature controller 5,
Freezer evaporator 6, fresh-keeping chamber vaporizer 7, refrigerator evaporator 8, refrigerating chamber temperature-sensitive head 9, fresh-keeping chamber temperature-sensitive head 10, cold room
Temperature-sensitive head the 11, the 3rd electromagnetic valve the 12, the 4th electromagnetic valve the 13, the 5th electromagnetic valve the 14, the 6th electromagnetic valve 15, capillary tube 16, furred ceiling 17,
Metal radiant panel the 18, first electromagnetic valve the 19, second electromagnetic valve 20, water temperature temperature-sensitive head 21, little kitchen treasured the 22, second condenser 23, only
Return valve 24, cold water pipe 25, upper cabinet 26, lower cabinet 27.
Detailed description of the invention
1 the invention will be further described below in conjunction with the accompanying drawings, and this embodiment is only better embodiment of the present invention, not with
Any mode limits the present invention.
As depicted in figs. 1 and 2, the homoiothermic cupboard of a kind of supplying hot water of holding concurrently based on the discrete circulation of many temperature controls of the embodiment of the present invention
Cabinet system, including frequency-changeable compressor the 1, first condenser 2, device for drying and filtering 3, temperature controller 5, freezer evaporator 6, fresh-keeping
Room vaporizer 7, refrigerator evaporator 8, refrigerating chamber temperature-sensitive head 9, fresh-keeping chamber temperature-sensitive head 10, cold room temperature-sensitive head 11, capillary tube 16,
Furred ceiling 17, body of wall, water temperature temperature-sensitive head 21, little kitchen treasured 22, cold water pipe 25, upper cabinet 26 and lower cabinet 27.Furred ceiling 17 is fixing to be connected
On body of wall top.Upper cabinet 26 and lower cabinet 27 are respectively fixedly connected with on body of wall, and are positioned at below furred ceiling 17.Upper cabinet 26
Above lower cabinet 27.Frequency-changeable compressor 1 is positioned at above furred ceiling 17.Freezer evaporator 6 and refrigerating chamber temperature-sensitive head 9 are respectively positioned on
In cabinet 26, it is other that refrigerating chamber temperature-sensitive head 9 is positioned at freezer evaporator 6.Fresh-keeping chamber temperature-sensitive head 10, cold room temperature-sensitive head 11, water temperature
Temperature-sensitive head 21, little kitchen treasured 22, fresh-keeping chamber vaporizer 7 and refrigerator evaporator 8 are respectively positioned in lower cabinet 27, fresh-keeping chamber temperature-sensitive head 10
Being positioned at fresh-keeping chamber vaporizer 7 other, it is other that cold room temperature-sensitive head 11 is positioned at refrigerator evaporator 8, and it is precious that water temperature temperature-sensitive head 21 is positioned at little kitchen
In 22.The water inlet of little kitchen treasured 22 is connected with cold water pipe 25, and the outlet of little kitchen treasured 22 is connected with hot-water line.Frequency-changeable compressor 1
Air vent be connected with the second condenser 23 entrance of little kitchen treasured 22 by the first electromagnetic valve 19, the second condenser 23 exports and passes through
Check-valves 24 is connected with the entrance of device for drying and filtering 3.Meanwhile, the air vent of frequency-changeable compressor 1 is by the second electromagnetic valve 20 and the
The entrance of one condenser 2 connects, and the outlet of the first condenser 2 is connected with the entrance of device for drying and filtering 3;Going out of device for drying and filtering 3
Mouth is connected with capillary tube 16, and the outlet of capillary tube 16 is divided into three branch roads, and the first branch road is that the outlet of capillary tube 16 is by the 3rd
The entrance of electromagnetic valve 12 and freezer evaporator 6 connects, and the outlet of freezer evaporator 6 connects with the air entry of frequency-changeable compressor 1
Connect.Second branch road be the outlet of capillary tube 16 by the 4th electromagnetic valve 13 and the 5th electromagnetic valve 14, with entering of refrigerator evaporator 8
Mouth connects, and the outlet of refrigerator evaporator 8 is connected with the air entry of frequency-changeable compressor 1;3rd branch road is the outlet of capillary tube 16
By the 4th electromagnetic valve 13 and the 6th electromagnetic valve 15, it is connected with the entrance of fresh-keeping chamber vaporizer 7, the outlet of fresh-keeping chamber vaporizer 7
It is connected with the air entry of frequency-changeable compressor 1.The signals collecting end of temperature controller 5 respectively with refrigerating chamber temperature-sensitive head 9, fresh-keeping chamber sense
Temperature 10, cold room temperature-sensitive head 11, water temperature temperature-sensitive head 21 connect, the signal output part of temperature controller 5 respectively with the first electromagnetism
Valve the 19, second electromagnetic valve the 20, the 3rd electromagnetic valve the 12, the 4th electromagnetic valve the 13, the 5th electromagnetic valve 14 and the 6th electromagnetic valve 15 connect.
It is divided into following several operating mode during the cabinet system work of above-described embodiment:
Operating mode 1: judge the 3rd electromagnetic valve the 12, the 4th electromagnetic valve the 13, the 5th electromagnetic valve 14 and the opening and closing of the 6th electromagnetic valve 15, thus
Judge the working condition of refrigerating chamber, fresh-keeping chamber, cold room.
(1) freezer evaporator 6 works, i.e. refrigerating chamber refrigeration: temperature controller (5) gathers refrigerating chamber temperature-sensitive head (9), protects
Fresh room temperature-sensitive head (10), the signal of cold room temperature-sensitive head (11) also process judgement.If refrigerating chamber needs refrigeration, then open the 3rd
Electromagnetic valve 12, cuts out the 4th electromagnetic valve the 13, the 5th electromagnetic valve the 14, the 6th electromagnetic valve 15.Refrigerant vapour is pressed through frequency-changeable compressor 1
Contracting, discharges from air vent, by condenser heat radiation condensation.Flow to the first condenser 2 herein or the second condenser 23 needs
Judged by operating mode 2.If flowing to the first condenser 2, then the most condensed refrigerant fluid flows to dried
Filter 3;If flowing to the second condenser 23, then condensed refrigerant fluid flows to dry after the second condenser 23 flows out
Dry filter 3.Cold-producing medium, through device for drying and filtering 3, is dried by condensed refrigerant fluid, dried cold-producing medium warp
Crossing capillary tube 16 to throttle, the cold-producing medium after throttling, through the 3rd electromagnetic valve 12, enters freezer evaporator 6, and cold-producing medium is in freezing
Evaporation endothermic in room vaporizer 6, takes away the heat in refrigerating chamber, the then air-breathing by frequency-changeable compressor of the cold-producing medium after evaporation
Pipe returns to frequency-changeable compressor 1.
(2) fresh-keeping chamber vaporizer 7 works, i.e. fresh-keeping chamber refrigeration: temperature controller 5 gathers refrigerating chamber temperature-sensitive head 9, fresh-keeping chamber
Temperature-sensitive head 10, the signal of cold room temperature-sensitive head 11 also process judgement.If it is judged that need refrigeration for fresh-keeping chamber, then open the
Four electromagnetic valve 13 and the 6th electromagnetic valves 15, cut out the 3rd electromagnetic valve 12 and the 5th electromagnetic valve 14.Refrigerant vapour compresses through frequency conversion
Machine 1 compresses, and discharges from air vent, by condenser heat radiation condensation.Flow to the first condenser 2 or the second condenser 23 herein
Need to be judged by operating mode 2.If flowing to the first condenser 2, then the most condensed refrigerant fluid flows to dry
Dry filter 3;If flowing to the second condenser 23, then condensed refrigerant fluid flows after the second condenser 23 flows out
To device for drying and filtering 3.Cold-producing medium, through device for drying and filtering 3, is dried by condensed refrigerant fluid, dried refrigeration
Agent throttles through capillary tube 16, and the cold-producing medium after throttling, through the 4th electromagnetic valve 13 and the 6th electromagnetic valve 15, enters fresh-keeping chamber and steams
Sending out device 7, cold-producing medium is evaporation endothermic in fresh-keeping chamber vaporizer 7, takes away the heat in fresh-keeping chamber, and then the cold-producing medium after evaporation leads to
The suction nozzle crossing frequency-changeable compressor returns in frequency-changeable compressor 1.
(3) refrigerator evaporator 8 works, i.e. refrigeration chamber: temperature controller 5 gathers refrigerating chamber temperature-sensitive head 9, fresh-keeping chamber
Temperature-sensitive head 10, the signal of cold room temperature-sensitive head 11 also process judgement.If it is judged that need refrigeration for cold room, then open
4th electromagnetic valve 13 and the 5th electromagnetic valve 14, cuts out the 3rd electromagnetic valve 12 and the 6th electromagnetic valve 15.Refrigerant vapour is through frequency conversion pressure
Contracting machine 1 compresses, and discharges from air vent, by condenser heat radiation condensation.Flow to the first condenser 2 or the second condenser herein
23 need to be judged by operating mode 2.If flowing to the first condenser 2, then the most condensed refrigerant fluid flows to
Device for drying and filtering 3;If flowing to the second condenser 23, then condensed refrigerant fluid is after the second condenser 23 flows out
Flow to device for drying and filtering 3.Cold-producing medium, through device for drying and filtering 3, is dried by condensed refrigerant fluid, dried system
Cryogen throttles through capillary tube 16, and the cold-producing medium after throttling, through the 4th electromagnetic valve 13 and the 5th electromagnetic valve 14, enters cold room
Vaporizer 8, cold-producing medium is evaporation endothermic in refrigerator evaporator 8, takes away the heat in cold room, the then cold-producing medium after evaporation
Returned in frequency-changeable compressor 1 by the suction nozzle of frequency-changeable compressor.
Operating mode 2: judge the first electromagnetic valve 19 and opening and closing of the second electromagnetic valve 20, thus judge that refrigerant vapour passes through first
The situation of condenser the 2, second condenser 23.Particularly as follows:
Temperature controller 5 gathers the signal of water temperature temperature-sensitive head 21, if the temperature that water temperature not up to sets, then opens the first electromagnetism
Valve 19, cuts out the second electromagnetic valve 20.The air vent of frequency-changeable compressor 1 is by the second condensation of the first electromagnetic valve 19 with little kitchen treasured 22
Device 23 entrance connects.If reaching the temperature set, then close the first electromagnetic valve 19, open the second electromagnetic valve 20.Frequency conversion is compressed
The air vent of machine 1 is connected with the entrance of the first condenser 2 by the second electromagnetic valve 20.
In the above process, operating mode 1 and operating mode 2 are judged by temperature controller 5 simultaneously, thus control 6 electromagnetic valves
Opening and closing, control the flow direction of cold-producing medium, process and determine when respectively to refrigerating chamber, fresh-keeping chamber, refrigeration chamber and to little
Kitchen treasured heats from the cold water with cold water pipe 25.
In above-described embodiment, the first condenser 2 is arranged on the furred ceiling 17 in kitchen, with furred ceiling 17 as radiating surface, strengthens
Convection current and heat loss through radiation, can avoid heat radiation to be absorbed by refrigerator compartment simultaneously.Frequency-changeable compressor 1 and the first condenser 2 are placed in
On furred ceiling 17, constituting the refrigeration system of an overhead type, as preference, described one is followed based on many temperature controls are discrete
Ring is held concurrently the homoiothermic cabinet system of supplying hot water, also includes that metal radiant panel 18, metal radiant panel 18 are fixedly connected on the top of furred ceiling 17
Face, the first condenser 2 is fixedly connected on metal radiant panel 18.First condenser 2 is welded on metal radiant panel 18, with furred ceiling
17 combine, and form integration.
In above-described embodiment, little kitchen treasured 22 utilizes the heat radiation of the second condenser 23 as thermal source, and heating is from cold water pipe 25
Cold water out, the warm water after heating is used for daily use, such as, washes the dishes, washes dish etc..
As preference, the 3rd described electromagnetic valve the 12, the 4th electromagnetic valve the 13, the 5th electromagnetic valve 14 and the 6th electromagnetic valve 15
It is respectively positioned in body of wall.3rd electromagnetic valve the 12, the 4th electromagnetic valve the 13, the 5th electromagnetic valve 14 and the 6th electromagnetic valve 15 are arranged on body of wall
In, it is simple to lay, and it is attractive in appearance not affect body of wall.
As preference, the homoiothermic cabinet system of described a kind of supplying hot water of holding concurrently based on the discrete circulation of many temperature controls, also wrap
Including anti-vibration rubber blanket 4, anti-vibration rubber blanket 4 is fixedly connected between furred ceiling 17 end face and frequency-changeable compressor 1 bottom surface.Anti-vibration rubber is set
Rubber cushion 4, is possible to prevent frequency-changeable compressor 1 to produce bigger vibration operating when, it is also possible to prevent frequency-changeable compressor 1 from running
The heat distributed is absorbed by room between refrigerator.Meanwhile it is arranged on furred ceiling 17, frequency-changeable compressor 1 can be avoided in room
The noise produced during interior operation.
In above-described embodiment, temperature controller 5 gathers refrigerating chamber temperature-sensitive head 9, fresh-keeping chamber temperature-sensitive head 10, cold room temperature-sensitive head
11, the real time temperature of water temperature temperature-sensitive head 21, thus control the 3rd electromagnetic valve the 12, the 4th electromagnetic valve the 13, the 5th electromagnetic valve the 14, the 6th
The switch of electromagnetic valve the 15, first electromagnetic valve the 19, second electromagnetic valve 20 and the frequency conversion of frequency-changeable compressor 1 and start and stop.Refrigerating chamber sense
Temperature indoor between the measurement that temperature 9, fresh-keeping chamber temperature-sensitive head 10, cold room temperature-sensitive head 11 are real-time, and by Temperature Feedback to temperature
Controller 5, temperature controller 5 analyzes and processes, and judges, thus ensures the accurate control of each compartment temperature of refrigerator.Little kitchen
The water temperature temperature-sensitive head 21 of precious 22 measures water temperature in real time, and by Temperature Feedback to temperature controller 5, thus control the first electromagnetic valve 19
Opening and closing with the second electromagnetic valve 20.
3rd electromagnetic valve 12 controls whether refrigerating chamber works, and whether the 4th electromagnetic valve 13 controls fresh-keeping chamber and cold room
Work, the 5th electromagnetic valve 14 controls whether cold room works, and the 6th electromagnetic valve 15 controls whether fresh-keeping chamber works.First electricity
Whether magnet valve 19 controls refrigerant vapour through the second condenser 23, and the second electromagnetic valve 20 controls refrigerant vapour whether warp
Cross the first condenser 2.Temperature controller 5 controls the opening and closing of these electromagnetic valves according to concrete practical situation, it is achieved to each
The temperature of room controls and the flow direction of refrigerant vapour.
In the present embodiment, the mode that whole loop control is used is discrete multicycle mode, according to specific circumstances
Homoiothermic and realize different function (freezing, cold preservation, fresh-keeping), it is achieved accurately controlling and energy-saving run of temperature.
Temperature controller 5 gathers the variations in temperature of refrigerating chamber, fresh-keeping chamber and cold room, and analyzing and processing judges that between which, room needs
Freeze, thus control the opening and closing of electromagnetic valve to needing room between refrigeration to freeze.For need not between refrigeration
Room, then close the electromagnetic valve leading to this room, it is ensured that unnecessary cold waste and excessively refrigeration, thus reduces energy consumption.Such as,
Refrigerating chamber needs refrigeration, then frequency-changeable compressor 1 works, and waits when dropping to required minimum temperature at a temperature of refrigerating chamber, compression
Office closes.When there is refrigerating chamber and cold room needs refrigeration simultaneously, then preferential with cold room, cold room is first made
Cold.Temperature of refrigerating chamber be reduced to set within the temperature range of and run to set the operation time, then refrigeration chamber stop,
Refrigerating chamber is freezed.Equally when within the temperature range of freezer temperature drops to setting and when running to the operation set
Between, then refrigerating chamber refrigeration stops, to refrigeration chamber.When the temperature of cold room and refrigerating chamber is all reduced to the minimum of setting
After below temperature, frequency-changeable compressor 1 is shut down.When there is refrigerating chamber, cold room, fresh-keeping chamber refrigeration simultaneously, with cold preservation
Room and fresh-keeping chamber are preferential, then preferential with fresh-keeping chamber between cold room and fresh-keeping chamber, judge step by step.With above cold room with freezing
The control mode of room work is the same, the discrete control of timesharing freezing cold room, refrigerating chamber, fresh-keeping chamber.
Temperature controller 5 gathers the change of water temperature in little kitchen treasured 22, thus controls the flow direction of the refrigerant vapour of high temperature.Work as water
During the temperature that temperature not up to sets, then close the second electromagnetic valve 20, open the first electromagnetic valve 19, make high pressure refrigerant vapor pass through
The second condenser 23 in the treasured of little kitchen, and not by the first condenser 2 being combined with furred ceiling.When water temperature reaches the temperature of setting
Time, then close the first electromagnetic valve 19, open the second electromagnetic valve 20, make the refrigerant vapour of high temperature by be combined with furred ceiling first
Condenser 2 dispels the heat, and the second condenser 23 in the treasured of obstructed too small kitchen.Little kitchen treasured 22 takes full advantage of the second condenser 23
Heat radiation, in this, as thermal source heat cold water.For winter, the warm water after heating can be used to the days such as washing bowls or vegetables
Often domestic water, can heat cold water without electrical heating, save electric energy.The comprehensive utilization ratio of energy is had
The raising of effect.
The present embodiment refrigerator achieves the combination with cabinet, can be combined layout according to actual demand, side
Use, improve space availability ratio, it is achieved that cabinet is integrated with refrigerator.
The present embodiment utilizes the heat radiation heat source as little kitchen treasured of the second condenser, and the warm water after heating can conduct
Domestic hot-water for kitchen use.Use the Based Intelligent Control of the discrete circulation of many temperature controls, the operating of conservative control frequency-changeable compressor and electromagnetism
The switch of valve, it is achieved control and the energy-saving run to difference in functionality district temperature.By cabinet and freezing/refrigerating room, fresh-keeping chamber one
Change so that space has obtained effective utilization;Refrigeration system heat radiation organically combined with little kitchen treasured demand for heat, heat does not mates
Time by the condenser combined with furred ceiling, system is cold and hot to be obtained the most efficiently utilizing, and the more conventional refrigerator of system energy efficiency is high, and
Spaces compact.
The embodiment of the present invention is widely portable to all kitchens of cabinet, it is achieved the functionalization of cabinet uses.
Particular embodiments described above, has been carried out the purpose of the present invention, technical scheme and beneficial effect the most in detail
Describe in detail bright, be it should be understood that the specific embodiment that the foregoing is only the present invention, be not limited to the present invention, all
Within the spirit and principles in the present invention, any modification, equivalent substitution and improvement etc. done, should be included in the guarantor of the present invention
Within the scope of protecting.
Claims (4)
1. the homoiothermic cabinet system of a supplying hot water of holding concurrently based on the discrete circulation of many temperature controls, it is characterised in that this system includes becoming
Frequently compressor (1), the first condenser (2), device for drying and filtering (3), temperature controller (5), freezer evaporator (6), fresh-keeping chamber
Vaporizer (7), refrigerator evaporator (8), refrigerating chamber temperature-sensitive head (9), fresh-keeping chamber temperature-sensitive head (10), cold room temperature-sensitive head (11),
Capillary tube (16), furred ceiling (17), body of wall, water temperature temperature-sensitive head (21), little kitchen precious (22), cold water pipe (25), upper cabinet (26) and under
Cabinet (27);Wherein,
Furred ceiling (17) is fixedly connected on body of wall top;Upper cabinet (26) and lower cabinet (27) are respectively fixedly connected with on body of wall, and
It is positioned at furred ceiling (17) lower section;Upper cabinet (26) is positioned at lower cabinet (27) top;Frequency-changeable compressor (1) is positioned at furred ceiling (17) top;
Freezer evaporator (6) and refrigerating chamber temperature-sensitive head (9) are respectively positioned in cabinet (26), and refrigerating chamber temperature-sensitive head (9) is positioned at refrigerating chamber
Vaporizer (6) is other;Fresh-keeping chamber temperature-sensitive head (10), cold room temperature-sensitive head (11), water temperature temperature-sensitive head (21), little kitchen precious (22), fresh-keeping
Room vaporizer (7) and refrigerator evaporator (8) are respectively positioned in lower cabinet (27), and fresh-keeping chamber temperature-sensitive head (10) is positioned at fresh-keeping chamber evaporation
Device (7) is other, and it is other that cold room temperature-sensitive head (11) is positioned at refrigerator evaporator (8), and water temperature temperature-sensitive head (21) is positioned in little kitchen precious (22);
The water inlet in little kitchen precious (22) is connected with cold water pipe (25), and the outlet of little kitchen precious (22) is connected with hot-water line;
The air vent of frequency-changeable compressor (1) is connected by the second condenser (23) entrance of the first electromagnetic valve (19) with little kitchen precious (22)
Connecing, the second condenser (23) outlet is connected by the entrance of check-valves (24) with device for drying and filtering (3);Meanwhile, frequency-changeable compressor
(1) air vent is connected with the entrance of the first condenser (2) by the second electromagnetic valve (20), the outlet of the first condenser (2) and
The entrance of device for drying and filtering (3) connects;The outlet of device for drying and filtering (3) is connected with capillary tube (16), the outlet of capillary tube (16)
Being divided into three branch roads, the first branch road is that the outlet of capillary tube (16) is by the 3rd electromagnetic valve (12) and freezer evaporator (6)
Entrance connects, and the outlet of freezer evaporator (6) is connected with the air entry of frequency-changeable compressor (1);Second branch road is capillary tube
(16) outlet, by the 4th electromagnetic valve (13) and the 5th electromagnetic valve (14), is connected with the entrance of refrigerator evaporator (8), cold preservation
The outlet of room vaporizer (8) is connected with the air entry of frequency-changeable compressor (1);3rd branch road is that the outlet of capillary tube (16) is by
Four electromagnetic valves (13) and the 6th electromagnetic valve (15), be connected with the entrance of fresh-keeping chamber vaporizer (7), going out of fresh-keeping chamber vaporizer (7)
Mouth is connected with the air entry of frequency-changeable compressor (1);
The signals collecting end of temperature controller (5) respectively with refrigerating chamber temperature-sensitive head (9), fresh-keeping chamber temperature-sensitive head (10), cold room sense
Temperature head (11), water temperature temperature-sensitive head (21) connect, the signal output part of temperature controller (5) respectively with the first electromagnetic valve (19), the
Two electromagnetic valves (20), the 3rd electromagnetic valve (12), the 4th electromagnetic valve (13), the 5th electromagnetic valve (14) and the 6th electromagnetic valve (15) are even
Connect.
2., according to the homoiothermic cabinet system of the supplying hot water of holding concurrently based on the discrete circulation of many temperature controls described in claim 1, its feature exists
In, also include that metal radiant panel (18), metal radiant panel (18) are fixedly connected on the end face of furred ceiling (17), the first condenser (2)
It is fixedly connected on metal radiant panel (18).
3., according to the homoiothermic cabinet system of the supplying hot water of holding concurrently based on the discrete circulation of many temperature controls described in claim 1, its feature exists
In, described the 3rd electromagnetic valve (12), the 4th electromagnetic valve (13), the 5th electromagnetic valve (14) and the 6th electromagnetic valve (15) are respectively positioned on wall
In body.
4., according to the homoiothermic cabinet system of the supplying hot water of holding concurrently based on the discrete circulation of many temperature controls described in claim 1,2 or 3, it is special
Levy and be, also include that anti-vibration rubber blanket (4), anti-vibration rubber blanket (4) are fixedly connected on furred ceiling (17) end face and frequency-changeable compressor (1)
Between bottom surface.
Priority Applications (1)
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CN201610313385.6A CN105928309A (en) | 2016-05-12 | 2016-05-12 | Temperature adjustment cabinet system based on multi-temperature control independent circulation and hot water supply |
Applications Claiming Priority (1)
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CN201610313385.6A CN105928309A (en) | 2016-05-12 | 2016-05-12 | Temperature adjustment cabinet system based on multi-temperature control independent circulation and hot water supply |
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Family
ID=56835778
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CN201610313385.6A Pending CN105928309A (en) | 2016-05-12 | 2016-05-12 | Temperature adjustment cabinet system based on multi-temperature control independent circulation and hot water supply |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115014026A (en) * | 2022-05-09 | 2022-09-06 | 无锡英明科技有限公司 | Cabinet type freezer |
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JPS58152510A (en) * | 1982-03-05 | 1983-09-10 | サンデン株式会社 | Sink with refrigerator |
CN1693764A (en) * | 2005-06-15 | 2005-11-09 | 曾建一 | Multifunction gas stove with kitchen ventilator |
CN102650489A (en) * | 2011-02-25 | 2012-08-29 | 刘爱东 | Cupboard type refrigerator |
CN103017447A (en) * | 2013-01-21 | 2013-04-03 | 谢逢华 | Water-cooling combination cabinet refrigerator |
CN204128269U (en) * | 2014-04-25 | 2015-01-28 | 合肥晶弘电器有限公司 | A kind of is the refrigerator of water heater heat supply |
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2016
- 2016-05-12 CN CN201610313385.6A patent/CN105928309A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS58152510A (en) * | 1982-03-05 | 1983-09-10 | サンデン株式会社 | Sink with refrigerator |
CN1693764A (en) * | 2005-06-15 | 2005-11-09 | 曾建一 | Multifunction gas stove with kitchen ventilator |
CN102650489A (en) * | 2011-02-25 | 2012-08-29 | 刘爱东 | Cupboard type refrigerator |
CN103017447A (en) * | 2013-01-21 | 2013-04-03 | 谢逢华 | Water-cooling combination cabinet refrigerator |
CN204128269U (en) * | 2014-04-25 | 2015-01-28 | 合肥晶弘电器有限公司 | A kind of is the refrigerator of water heater heat supply |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN115014026A (en) * | 2022-05-09 | 2022-09-06 | 无锡英明科技有限公司 | Cabinet type freezer |
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Application publication date: 20160907 |