CN201193910Y - High-efficient energy-saving multifunctional refrigerator with each storage chamber capable of independently closed and temperature zone adjustable - Google Patents

Abstract

The utility model discloses an efficiently energy-saving, multi-functional refrigerator with independently closable storage chambers and adjustable temperature zones, which comprises a programmable controller, a low-temperature storage chamber assembly, a disinfecting cabinet console assembly, a low-temperature storage chamber console assembly, a waste heat utilization type disinfecting cabinet assembly and a pump assembly with multiple heat sources. The storage chambers which do not store articles can be shut down at any time according to requirements, and as a result, not only can electric energy be saved, but also the peculiar smell or stink of the storage chambers can be thoroughly removed regularly. Each storage chamber is provided with multiple temperature zones for selection, thereby, the utilization rate of the refrigerator can be greatly increased, and when a great deal of food such as fish and meat bought during a festival needs to be refrigerated, more storage chambers can be adjusted into refrigerating chambers. The waste heat emitted in the process of compressor refrigeration can be utilized to realize the high-temperature drying and disinfection functions of disinfecting cabinets. The liquid in a liquid storage tank can be utilized to absorb heat in order to enhance refrigeration effect, and therefore the refrigerator can efficiently save energy.

Description

The high-efficiency energy-saving multi-functional refrigerator that each storage chamber capable of independently closed and temperature zone is adjustable

Affiliated technical field

The utility model relates to a kind of refrigerator, be particularly related to the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone, can close one or more apothecas of not depositing article at any time according to user's needs, so not only can saves energy, and can regularly thoroughly remove the peculiar smell or the stink of apotheca; Each apotheca has a plurality of temperature zones for selection, can improve the utilization rate of refrigerator so greatly, needs then can be adjusted into refrigerating chamber to more apotheca when freezing as bought food such as a large amount of fishes, meat, seafood in the festive occasion; Can utilize the useless heat that distributes in the compressor cooling process to realize the high temperature drying and the high-temperature sterilization of disinfection cabinet, thereby can save the electric energy of disinfection cabinet; Thereby can utilize the liquid in the liquid reserve tank to absorb heat raising refrigeration, can realize the energy-efficient of refrigerator.

Background technology

Along with the depletion and the environmental pollution of resource are serious day by day, countries in the world are all towards the target of setting up a conservation-minded society and effort, the vital task that energy-saving and emission-reduction are pendulum in face of we everyone.

Refrigerator or refrigerator-freezer can be realized the characteristics of the preservation by low temperature of object because of it, have entered huge numbers of families and numerous laboratories, for the human lives brings great convenience.Because refrigerator is in running order for a long time, so refrigerator has become the household electrical appliance of power consumption in the family, calculate (200 liters of energy-saving refrigerators power consumption every day, 0.7 degree) by every refrigerator power consumption every day 0.70 degree, there are annual power consumption 2,550 hundred million degree of 1,000,000,000 refrigerators (wherein China is 1.5 hundred million) in the whole world, conversion consumption 9,198 ten thousand tons in coal (every degree power consumption coal 360g) is equivalent to 15,636 ten thousand tons of earth row carbon dioxide.If can economize on electricity 30%, 76,600,000,000 degree that then can economize on electricity can be economized on coal 2,759 ten thousand tons, but 4,691 ten thousand tons of reducing emission of carbon dioxide.

Along with the raising of people's living standard, people are more and more high to the hygienic requirements degree of tableware, the speed that disinfection cabinet enters family more and more fast (state-owned 4,000 ten thousand disinfection cabinets in 2008 have 2.4 hundred million disinfection cabinets in the world).But popular in the market disinfection cabinet need consume a large amount of electric energy, calculates by every disinfection cabinet power consumption every day 0.54 degree, global annual disinfection cabinet power consumption 39,400,000,000 degree, and 1,420 ten thousand tons in conversion consumption coal is equivalent to 2,410 ten thousand tons of earth row carbon dioxide.If can utilize the used heat of freezer compressor to realize the high temperature drying and the high-temperature sterilization of disinfection cabinet, then can save a large amount of electric energy.Because freezer compressor often needs refrigeration, with heat extraction, disinfection cabinet utilizes these useless heats just can keep high temperature drying and germ-free condition, really reaches the purpose of sterilization in the time of refrigeration.

The radiator coil tube of refrigerator nearly all wraps in the outermost layer of heat-insulation layer at present, and radiating rate is very slow, has a strong impact on the refrigeration of refrigerator, if allow these radiator coil tubes by liquid reserve tank, allows the interior liquid of liquid reserve tank absorb heat, then can improve refrigeration greatly.

Summary of the invention

The utility model discloses the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone, it comprises that cyclelog, low-temperature storage chamber assembly, duty control panel assembly, used heat utilize type disinfection cabinet assembly, Multisource heat pump assembly, it is characterized in that described duty control panel assembly is installed on the low-temperature storage chamber assembly; Described used heat utilizes type disinfection cabinet assembly to link to each other with the low-temperature storage chamber assembly; Having at least the radiator coil tube of a described Multisource heat pump assembly to be installed in used heat utilizes the sterilizing and heat-preserving of type disinfection cabinet assembly indoor.

Described duty control panel assembly comprises at least one low-temperature storage chamber control panel assembly, Disinfector Control Panel assembly; Described low-temperature storage chamber control panel assembly comprises low-temperature storage chamber control button, closes indicator lamp, closes designator, at least one warm area indicator lamp, at least one warm area designator, at least one implicit warm area relay indicating light, at least one implicit warm area work designator; Described Disinfector Control Panel assembly comprises that ultraviolet lamp sign, ultraviolet lamp start key, heat pump heat sign, heat pump heating starting key, negative oxygen ion sign, negative oxygen ion start key, heat-generating pipe heating sign, heat-generating pipe heating starting key at once at once.

Described low-temperature storage chamber assembly comprises at least one low-temperature storage chamber, at least one low-temperature storage door, and described low-temperature storage is indoor installs a heat absorption coil pipe at least; Described used heat utilizes type disinfection cabinet assembly to comprise at least one disinfect box, at least one sterilizing and heat-preserving chamber, at least one venthole, at least one quartz burner, at least one negative oxygen ion generator, at least one heat-generating pipe, at least one ozone generator.

Described Multisource heat pump assembly comprises compressor, at least one high temperature pipe, at least one radiator coil tube, at least one choke valve, at least one heat absorption coil pipe, at least one liquid reserve tank, and the low-temperature storage that described heat absorption coil pipe is installed in the low-temperature storage chamber assembly is indoor; Described radiator coil tube is installed in used heat and utilizes the sterilizing and heat-preserving of type disinfection cabinet assembly indoor and/or be installed in the liquid reserve tank; Described Multisource heat pump assembly also comprises three-way magnetic valve and a bypass pipe; Described three-way magnetic valve is connected with the 3rd high temperature pipe, bypass pipe, hot coil that scatters respectively; Described bypass pipe one end links to each other with three-way magnetic valve, and the other end links to each other with the 4th high temperature pipe.

The adjustable high-efficiency energy-saving multi-functional refrigerator of disclosed each storage chamber capable of independently closed and temperature zone of the utility model, can close one or more apothecas of not depositing article at any time according to user's needs, so not only can saves energy, and can regularly thoroughly remove the peculiar smell or the stink of apotheca; Each apotheca has a plurality of temperature zones for selection, can improve the utilization rate of refrigerator so greatly, needs then can be adjusted into refrigerating chamber to more apotheca when freezing as bought food such as a large amount of fishes, meat, seafood in the festive occasion; Can utilize the useless heat that distributes in the compressor cooling process to realize the high temperature drying and the high-temperature sterilization of disinfection cabinet, thereby can save the electric energy of disinfection cabinet; Thereby can utilize the liquid in the liquid reserve tank to absorb heat raising refrigeration, can realize the energy-efficient of refrigerator.

Description of drawings

Fig. 1 is the schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Fig. 2 is the duty control panel assembly schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Fig. 3 is the low-temperature storage chamber control panel assembly schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Fig. 4 is the Disinfector Control Panel assembly schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Fig. 5 is the schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model when opening.

Fig. 6 is the adjustable schematic diagram of high-efficiency energy-saving multi-functional refrigerator when removing disinfect box of each storage chamber capable of independently closed and temperature zone of the utility model.

Fig. 7 is the refrigeration heat extraction schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Fig. 8 is the refrigeration sterilization schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Fig. 9 is the back schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Figure 10 is the duty control panel assembly schematic diagram of second embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Figure 11 is the duty control panel assembly schematic diagram of the 3rd embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Figure 12 is the duty control panel assembly schematic diagram of the 4th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Figure 13 is the duty control panel assembly schematic diagram of the 5th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Figure 14 is the duty control panel assembly schematic diagram of the 6th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Figure 15 is the duty control panel assembly schematic diagram of the 7th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Figure 16 is the duty control panel assembly schematic diagram of the 8th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Figure 17 is the duty control panel assembly schematic diagram of the 9th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Figure 18 is the duty control panel assembly schematic diagram of the tenth embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Figure 19 is the duty control panel assembly schematic diagram of the 11 embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Figure 20 is the duty control panel assembly schematic diagram of the 12 embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Wherein Reference numeral is as follows:

Refrigerator shell 1, first disinfect box 2, second disinfect box 3, the 3rd disinfect box 4, the first low-temperature storage door 5, the second low-temperature storage door 6, the 3rd low-temperature storage door 7, the 4th low-temperature storage door 8, duty control panel assembly 9, the first low-temperature storage chamber 10, the second low-temperature storage chamber 11, the 3rd low-temperature storage chamber 12, the 4th low-temperature storage chamber 13, the first sterilizing and heat-preserving chamber 14, the second sterilizing and heat-preserving chamber 15, the 3rd sterilizing and heat-preserving chamber 16, compressor 17, the first high temperature pipe 18, first radiator coil tube 19, second radiator coil tube 20, the second high temperature pipe 21, the 3rd radiator coil tube 22, the 3rd high temperature pipe 23, three-way magnetic valve 24, bypass pipe 25, hot coil 26 that scatters, liquid reserve tank 27, the 4th high temperature pipe 28, choke valve 29, first cryotronl 30, one advances four goes out magnetic valve 31, second cryotronl 32, the first heat absorption coil pipe 33, the 3rd cryotronl 34, the 4th cryotronl 35, the second heat absorption coil pipe 36, the 5th cryotronl 37, the 6th cryotronl 38, the 3rd heat absorption coil pipe 39, the 7th cryotronl 40, the 8th cryotronl 41, the 4th heat absorption coil pipe 42, the 9th cryotronl 43, the tenth cryotronl 44, first quartz burner 45, first negative oxygen ion generator 46, first heat-generating pipe 47, second quartz burner 48, second negative oxygen ion generator 49, second heat-generating pipe 50, the 3rd quartz burner 51, the 3rd negative oxygen ion generator 52, the 3rd heat-generating pipe 53, escape pipe 54, the first low-temperature storage chamber control panel assembly 91, the second low-temperature storage chamber control panel assembly 92, the 3rd low-temperature storage chamber control panel assembly 93, the 4th low-temperature storage chamber control panel assembly 94, the 5th low-temperature storage chamber control panel assembly 95, the 6th low-temperature storage chamber control panel assembly 96, locking key 97, Disinfector Control Panel assembly 98, low-temperature storage chamber control button 9100, close indicator lamp 9101, close designator 9102, the first warm area indicator lamp 9103, the first warm area designator 9104, the second warm area indicator lamp 9105, the second warm area designator 9106, three-temperature-zone indicator lamp 9107, three-temperature-zone designator 9108, four-temperature region indicator lamp 9109, four-temperature region designator 9110, implicit warm area relay indicating light 9111, implicit warm area work designator 9112, negative oxygen ion sign 9801, negative oxygen ion start key 9802, ultraviolet lamp sign 9803, ultraviolet lamp start key 9804, heat pump heats sign 9805 at once, heat pump is heating starting key 9806 at once, heat-generating pipe heating sign 9807, heat-generating pipe heating starting key 9808, cyclelog (not marking among the figure), temperature sensor (not marking among the figure), ozone generator (not marking among the figure).

The specific embodiment

Below in conjunction with accompanying drawing the specific embodiment of the present utility model is described in detail.

First embodiment

Fig. 1 is the schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model, Fig. 2 is the duty control panel assembly schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model, Fig. 3 is the low-temperature storage chamber control panel assembly schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model, Fig. 4 is the Disinfector Control Panel assembly schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model, Fig. 5 is the schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model when opening, Fig. 6 is the adjustable schematic diagram of high-efficiency energy-saving multi-functional refrigerator when removing disinfect box of each storage chamber capable of independently closed and temperature zone of the utility model, Fig. 7 is the refrigeration heat extraction schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model, Fig. 8 is the refrigeration sterilization schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model, and Fig. 9 is the back schematic diagram of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.

Shown in Fig. 1～9, the high-efficiency energy-saving multi-functional refrigerator that each storage chamber capable of independently closed and temperature zone of the utility model is adjustable, it comprises that low-temperature storage chamber assembly, duty control panel assembly, used heat utilize type disinfection cabinet assembly, Multisource heat pump assembly, cyclelog (not marking among the figure).

Described low-temperature storage chamber assembly comprises refrigerator shell 1, the first low-temperature storage door 5, the second low-temperature storage door 6, the 3rd low-temperature storage door 7, the 4th low-temperature storage door 8, the first low-temperature storage chamber 10, the second low-temperature storage chamber 11, the 3rd low-temperature storage chamber 12, the 4th low-temperature storage chamber 13, temperature sensor (not marking among the figure).

Described duty control panel assembly comprises low-temperature storage chamber control panel assembly, Disinfector Control Panel assembly.

Described low-temperature storage chamber control panel assembly comprises the first low-temperature storage chamber control panel assembly 91, the second low-temperature storage chamber control panel assembly 92, the 3rd low-temperature storage chamber control panel assembly 93, the 4th low-temperature storage chamber control panel assembly 94, locking key 97, Disinfector Control Panel assembly 98, low-temperature storage chamber control button 9100, close indicator lamp 9101, close designator 9102, the first warm area indicator lamp 9103, the first warm area designator 9104, the second warm area indicator lamp 9105, the second warm area designator 9106, three-temperature-zone indicator lamp 9107, three-temperature-zone designator 9108, four-temperature region indicator lamp 9109, four-temperature region designator 9110.

Described Disinfector Control Panel assembly 98 comprises that negative oxygen ion sign 9801, negative oxygen ion start key 9802, ultraviolet lamp sign 9803, ultraviolet lamp start key 9804, heat pump heat sign 9805, heat pump heating starting key 9806, heat-generating pipe heating sign 9807, heat-generating pipe heating starting key 9808 at once at once.

Described used heat utilizes type disinfection cabinet assembly to comprise first disinfect box 2, second disinfect box 3, the 3rd disinfect box 4, the first sterilizing and heat-preserving chamber 14, the second sterilizing and heat-preserving chamber 15, the 3rd sterilizing and heat-preserving chamber 16, first quartz burner 45, first negative oxygen ion generator 46, first heat-generating pipe 47, second quartz burner 48, second negative oxygen ion generator 49, second heat-generating pipe 50, the 3rd quartz burner 51, the 3rd negative oxygen ion generator 52, the 3rd heat-generating pipe 53, escape pipe 54, ozone generator (not marking among the figure).

Described Multisource heat pump assembly comprises compressor 17, the first high temperature pipe 18, first radiator coil tube 19, second radiator coil tube 20, the second high temperature pipe 21, the 3rd radiator coil tube 22, the 3rd high temperature pipe 23, three-way magnetic valve 24, bypass pipe 25, hot coil 26 that scatters, liquid reserve tank 27, the 4th high temperature pipe 28, choke valve 29, first cryotronl 30, one advances four goes out magnetic valve 31, second cryotronl 32, the first heat absorption coil pipe 33, the 3rd cryotronl 34, the 4th cryotronl 35, the second heat absorption coil pipe 36, the 5th cryotronl 37, the 6th cryotronl 38, the 3rd heat absorption coil pipe 39, the 7th cryotronl 40, the 8th cryotronl 41, the 4th heat absorption coil pipe 42, the 9th cryotronl 43, the tenth cryotronl 44.

Described used heat utilizes type disinfection cabinet assembly to be installed on the low-temperature storage chamber assembly or is linked as integral body, described first radiator coil tube 19 is installed in the first sterilizing and heat-preserving chamber 14, described second radiator coil tube 20 is installed in the second sterilizing and heat-preserving chamber 15, described the 3rd radiator coil tube 22 is installed in the 3rd sterilizing and heat-preserving chamber 16, and described hot coil 26 that scatters is installed in the liquid reserve tank 27; The described first heat absorption coil pipe 33 is installed in the first low-temperature storage chamber 10, the described second heat absorption coil pipe 36 is installed in the second low-temperature storage chamber 11, described the 3rd heat absorption coil pipe 39 is installed in the 3rd low-temperature storage chamber 12, and described the 4th heat absorption coil pipe 42 is installed in the 4th low-temperature storage chamber 13.

The described first high temperature pipe, 18 1 ends link to each other with the outlet of compressor 17, and the other end links to each other with first radiator coil tube 19; Described second radiator coil tube, 20 1 ends link to each other with first radiator coil tube 19, and the other end links to each other with the second high temperature pipe 21; Described the 3rd radiator coil tube 22 1 ends link to each other with the second high temperature pipe 21, and the other end links to each other with the 3rd high temperature pipe 23; Described three-way magnetic valve 24 links to each other with the 3rd high temperature pipe 23, bypass pipe 25, hot coil 26 that scatters respectively; Described the 4th high temperature pipe 28 links to each other with scatter hot coil 26, choke valve 29 of bypass pipe 25, respectively; Described one advances four goes out magnetic valve 31 and links to each other with first cryotronl 30, second cryotronl 32, the 4th cryotronl 35, the 6th cryotronl 38, the 8th cryotronl 41 respectively; The described first heat absorption coil pipe 33 two ends link to each other with the 3rd cryotronl 34 with second cryotronl 32 respectively; The described second heat absorption coil pipe 36 two ends link to each other with the 5th cryotronl 37 with the 4th cryotronl 35 respectively; Described the 3rd heat absorption coil pipe 39 two ends link to each other with the 7th cryotronl 40 with the 6th cryotronl 38 respectively; Described the 4th heat absorption coil pipe 42 two ends link to each other with the 9th cryotronl 43 with the 8th cryotronl 41 respectively; Described the tenth cryotronl 44 links to each other with inlet tube, the 3rd cryotronl 34, the 5th cryotronl 37, the 7th cryotronl 40, the 9th cryotronl 43 of compressor 17 respectively.

How does following each apotheca of surface analysis independently close? how to adjust warm area? how to carry out disinfection? how to utilize heat pump to carry out heating disinfection immediately? how to realize energy-efficient?

When refrigerator dispatched from the factory, each apotheca all had oneself implicit warm area, behind the connection power supply, each apotheca will be started working according to implicit separately warm area, and behind the work certain hour, locking key 97 pins parameter current automatically, release if desired, (several seconds) pushes down locking key 97 then to need the long period; Illustrate below: if the first low-temperature storage chamber 10 does not have storage purposes, for using electricity wisely, then the long period is pushed down locking key 97 and makes its locking key release, then by the low-temperature storage chamber control button 9100 on the first low-temperature storage chamber control panel assembly 91, light up to closing indicator lamp 9101, then will no longer freeze in the first low-temperature storage chamber 10, not do any operation in the certain hour, and locking key 97 is with self-locking.

If adjust the operation temperature area of the first low-temperature storage chamber 10, equally after release, by the low-temperature storage chamber control button 9100 on the first low-temperature storage chamber control panel assembly 91, the warm area indicator lamp of wishing up to you lights, this low-temperature storage chamber will be by the warm area work of new settings like this, do not do any operation in the certain hour, locking key 97 is with self-locking.

Because the compressor 17 of refrigerator will move certain hour at set intervals, during compressor operating with compressed refrigerant, fluid after the compression shows as the condition of high temperature, high temperature fluid will flow to successively by high temperature pipe 18 and be installed in sterilizing and heat-preserving chamber (14,15,16) Nei radiator coil tube (19,20,22), radiator coil tube (19,20,22) heat that sends is with heating disinfection case (2,3,4) and sterilizing and heat-preserving chamber (14,15,16), after temperature raises, moisture wherein will evaporate, disinfect box (2,3,4) and sterilizing and heat-preserving chamber (14,15,16) will keep high temperature, dry, under the environment of high temperature and drying, bacterium can not survive, and reaches the purpose of sterilization.

For sterilization better, can start ultraviolet lamp start key 9804, when compressor 17 work, ultraviolet lamp this moment will work asynchronously (cyclelog can realize lagging behind start ultraviolet lamp, ultraviolet lamp is closed in hysteresis).

For sterilization better can also start negative oxygen ion start key 9802, when compressor 17 work, negative oxygen ion generator this moment will work asynchronously (cyclelog can realize lagging behind start negative oxygen ion generator, negative oxygen ion generator is closed in hysteresis).

Virus killing immediately if desired, then can be by heat pump heating starting key 9806 (cyclelog will synchronously or lag behind and start ultraviolet lamp and negative oxygen ion generator) at once, compressor 17 will commence work without delay, this moment is in order to heat better, cyclelog will start three-way magnetic valve 24 makes cold-producing medium by-passing pipe 25, the target of compressor operating is exactly the lower limit that the temperature of each apotheca is dropped to warm area, thereby reach the purpose of the more heats of release, this process can realize heating the dual purpose of refrigeration simultaneously.

Under special circumstances, also can heat-generating pipe be generated heat improve the temperature of sterilizing and heat-preserving chamber by heat-generating pipe heating starting key 9808.

Second embodiment

Figure 10 is the duty control panel assembly schematic diagram of second embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.Second embodiment and first embodiment are basic identical, and just duty control panel assembly only comprises a low-temperature storage chamber control panel assembly (91); This moment, a low-temperature storage chamber control panel assembly can be controlled a plurality of low-temperature storage chamber.

The 3rd embodiment

Figure 11 is the duty control panel assembly schematic diagram of the 3rd embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.The 3rd embodiment and first embodiment are basic identical, and just duty control panel assembly only comprises two low-temperature storage chamber control panel assemblies (91,92); This moment, each low-temperature storage chamber control panel assembly can be controlled a plurality of low-temperature storage chamber.

The 4th embodiment

Figure 12 is the duty control panel assembly schematic diagram of the 4th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.The 4th embodiment and first embodiment are basic identical, and just duty control panel assembly only comprises three low-temperature storage chamber control panel assemblies (91,92,93); This moment, each low-temperature storage chamber control panel assembly can be controlled a plurality of low-temperature storage chamber.

The 5th embodiment

Figure 13 is the duty control panel assembly schematic diagram of the 5th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.The 5th embodiment and first embodiment are basic identical, and just duty control panel assembly comprises five low-temperature storage chamber control panel assemblies (91,92,93,94,95); This moment, each low-temperature storage chamber control panel assembly also can be controlled a plurality of low-temperature storage chamber.

The 6th embodiment

Figure 14 is the duty control panel assembly schematic diagram of the 6th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.The 6th embodiment and first embodiment are basic identical, and just duty control panel assembly comprises six low-temperature storage chamber control panel assemblies (91,92,93,94,95,96); This moment, each low-temperature storage chamber control panel assembly also can be controlled a plurality of low-temperature storage chamber.

The 7th embodiment

Figure 15 is the duty control panel assembly schematic diagram of the 7th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.The 7th embodiment and first embodiment are basic identical, remove warm area indicator lamp (9103,9105,9107,9109) and warm area designator (9104,9106,9108,9110) on the control panel assembly of low-temperature storage chamber, on the control panel assembly of low-temperature storage chamber, increased implicit warm area relay indicating light 9111, implicit warm area work designator 9112.

The 8th embodiment

Figure 16 is the duty control panel assembly schematic diagram of the 8th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.The 8th embodiment and second embodiment are basic identical, remove warm area indicator lamp and warm area designator on the control panel assembly of low-temperature storage chamber, on the control panel assembly of low-temperature storage chamber, increased implicit warm area relay indicating light, implicit warm area work designator.

The 9th embodiment

Figure 17 is the duty control panel assembly schematic diagram of the 9th embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.The 9th embodiment and the 3rd embodiment are basic identical, remove warm area indicator lamp and warm area designator on the control panel assembly of low-temperature storage chamber, on the control panel assembly of low-temperature storage chamber, increased implicit warm area relay indicating light, implicit warm area work designator.

The tenth embodiment

Figure 18 is the duty control panel assembly schematic diagram of the tenth embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.The tenth embodiment and the 4th embodiment are basic identical, remove warm area indicator lamp and warm area designator on the control panel assembly of low-temperature storage chamber, on the control panel assembly of low-temperature storage chamber, increased implicit warm area relay indicating light, implicit warm area work designator.

The 11 embodiment

Figure 19 is the duty control panel assembly schematic diagram of the 11 embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.The 11 embodiment and the 5th embodiment are basic identical, remove warm area indicator lamp and warm area designator on the control panel assembly of low-temperature storage chamber, on the control panel assembly of low-temperature storage chamber, increased implicit warm area relay indicating light, implicit warm area work designator.

The 12 embodiment

Figure 20 is the duty control panel assembly schematic diagram of the 12 embodiment of the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone of the utility model.The 12 embodiment and the 6th embodiment are basic identical, remove warm area indicator lamp and warm area designator on the control panel assembly of low-temperature storage chamber, on the control panel assembly of low-temperature storage chamber, increased implicit warm area relay indicating light, implicit warm area work designator.

Other embodiment

The utility model is not limited to above-mentioned preferred implementation, above-mentioned preferred implementation only is exemplary, those skilled in the art can make the various modifications that are equal to and replacement and various combination, and obtain different embodiments according to spiritual essence of the present utility model.

Claims (14)

1. the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone, it comprises that cyclelog, low-temperature storage chamber assembly, duty control panel assembly, used heat utilize type disinfection cabinet assembly, Multisource heat pump assembly, it is characterized in that described duty control panel assembly is installed on the low-temperature storage chamber assembly; Described used heat utilizes type disinfection cabinet assembly to link to each other with the low-temperature storage chamber assembly; Described Multisource heat pump assembly has at least a radiator coil tube to be installed in used heat to utilize the sterilizing and heat-preserving of type disinfection cabinet assembly indoor.

2. the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone according to claim 1 is characterized in that described duty control panel assembly comprises Disinfector Control Panel assembly, at least one low-temperature storage chamber control panel assembly.

3. the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone according to claim 1 and 2 is characterized in that described low-temperature storage chamber control panel assembly comprises low-temperature storage chamber control button, closes indicator lamp, closes designator.

4. according to claim 1 or the adjustable high-efficiency energy-saving multi-functional refrigerator of 2 or 3 described each storage chamber capable of independently closed and temperature zone, it is characterized in that described low-temperature storage chamber control panel assembly also comprises at least one warm area indicator lamp, at least one warm area designator.

5. according to claim 1 or the adjustable high-efficiency energy-saving multi-functional refrigerator of 2 or 3 or 4 described each storage chamber capable of independently closed and temperature zone, it is characterized in that described low-temperature storage chamber control panel assembly also comprises at least one implicit warm area relay indicating light, at least one implicit warm area work designator

6. the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone according to claim 1 and 2 is characterized in that described Disinfector Control Panel assembly comprises that ultraviolet lamp sign, ultraviolet lamp start key, heat pump heat sign, heat pump heating starting key at once at once.

7. according to claim 1 or the adjustable high-efficiency energy-saving multi-functional refrigerator of 2 or 6 described each storage chamber capable of independently closed and temperature zone, it is characterized in that described Disinfector Control Panel assembly also comprises negative oxygen ion sign, negative oxygen ion start key.

8. according to claim 1 or the adjustable high-efficiency energy-saving multi-functional refrigerator of 2 or 6 or 7 described each storage chamber capable of independently closed and temperature zone, it is characterized in that described Disinfector Control Panel assembly also comprises heat-generating pipe heating sign, heat-generating pipe heating starting key.

9. the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone according to claim 1 is characterized in that described low-temperature storage chamber assembly comprises at least one low-temperature storage chamber, at least one low-temperature storage door, at least one temperature sensor; It is indoor that described temperature sensor is installed in low-temperature storage; Described low-temperature storage is indoor installs a heat absorption coil pipe at least.

10. the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone according to claim 1 is characterized in that described used heat utilizes type disinfection cabinet assembly to comprise at least one disinfect box, at least one sterilizing and heat-preserving chamber, at least one venthole, at least one quartz burner.

11., it is characterized in that described used heat utilizes type disinfection cabinet assembly also to comprise at least one negative oxygen ion generator, at least one heat-generating pipe, at least one ozone generator according to claim 1 or the adjustable high-efficiency energy-saving multi-functional refrigerator of 10 described each storage chamber capable of independently closed and temperature zone.

12. the adjustable high-efficiency energy-saving multi-functional refrigerator of each storage chamber capable of independently closed and temperature zone according to claim 1 is characterized in that described Multisource heat pump assembly comprises compressor, at least one high temperature pipe, at least one radiator coil tube, at least one choke valve, at least one heat absorption coil pipe, at least one liquid reserve tank; The low-temperature storage that described heat absorption coil pipe is installed in the low-temperature storage chamber assembly is indoor; Described radiator coil tube is installed in used heat and utilizes the sterilizing and heat-preserving of type disinfection cabinet assembly indoor and/or be installed in the liquid reserve tank.

13., it is characterized in that described Multisource heat pump assembly also comprises three-way magnetic valve and a bypass pipe according to claim 1 or the adjustable high-efficiency energy-saving multi-functional refrigerator of 11 described each storage chamber capable of independently closed and temperature zone; Described three-way magnetic valve is connected with the 3rd high temperature pipe, bypass pipe, hot coil that scatters respectively; Described bypass pipe one end links to each other with three-way magnetic valve, and the other end links to each other with the 4th high temperature pipe.

14., it is characterized in that described low-temperature storage chamber control panel assembly controls at least one low-temperature storage chamber according to claim 1 or 2 or 3 or the 4 or 5 adjustable high-efficiency energy-saving multi-functional refrigerators of described each storage chamber capable of independently closed and temperature zone.

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