CN101852533A

CN101852533A - Refrigerator and disinfecting cabinet integrated machine

Info

Publication number: CN101852533A
Application number: CN200910133279A
Authority: CN
Inventors: 凌建军; 黄鹂
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-03-30
Filing date: 2009-03-30
Publication date: 2010-10-06

Abstract

The invention discloses a refrigerator and disinfecting cabinet integrated machine of a waste heat utilization type, which can raise the condensing temperature in winter and reduce the condensing temperature in summer. The integrated machine comprises an integrated machine shell, a refrigerated chamber inner container, a refrigerating chamber inner container, a disinfecting cabinet inner container, a disinfecting cabinet condenser fan, a compressor, a disinfecting cabinet condenser, an electromagnetic valve, capillary tubes, a refrigerated chamber evaporator, a refrigerating chamber evaporator, a temperature sensor and a program controller, wherein the refrigerated chamber evaporator and the refrigerating chamber evaporator are respectively connected with two capillary tubes in parallel; and the disinfecting cabinet condenser fan is mounted inside the disinfecting cabinet inner container. The capillary tube with high flow can be selected in winter, the condensing temperature is raised and the drying speed of table wares in the disinfecting cabinet is quickened, and the energy efficiency ratio of the compressor is improved; the disinfecting cabinet condenser fan is turned on in summer, the heat dispersion speed of the disinfecting cabinet condenser is enhanced, the condensing temperature in summer can be reduced, and high efficiency and energy saving can be realized.

Description

Refrigerator-disinfection cabinet all-in-one machine

Affiliated technical field

The present invention relates to a kind of refrigerator-disinfection cabinet all-in-one machine, particularly a kind of used heat utilizes the type refrigerator-disinfection cabinet all-in-one machine.

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 can be realized the characteristics of the preservation by low temperature of object because of it, has entered huge numbers of families, numerous market and numerous laboratory, 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 by every refrigerator power consumption every day 0.70 degree, there are 1,000,000,000 refrigerators in the whole world, annual power consumption 2,550 hundred million degree in the whole world, and every degree power consumption coal 360 grams, 9,198 ten thousand tons in conversion consumption coal is equivalent to 15,636 ten thousand tons of earth row carbon dioxide.

Along with the raising of people's living standard, people are more and more high to the hygienic requirements degree of tableware, and it is more and more fast that disinfection cabinet enters the speed of family, to the whole world in 2008 2.4 hundred million disinfection cabinets arranged.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.Because freezer compressor often needs refrigeration, in refrigeration time, is with heat extraction, disinfection cabinet can utilize the useless heat of these discharges to keep high temperature drying (after the drying, bacterium dries out and can't survive), and be used ozone generator or ultraviolet germicidal lamp when being necessary, can realize the tableware germ-free condition.

The patent ZL200820002104.6 of the energy-saving refrigerator of the band UTILIZATION OF VESIDUAL HEAT IN type disinfection cabinet that the applicant submits to has found the not high slower problem of tableware rate of drying that causes in the disinfection cabinet of condensation temperature in winter in the prototyping testing process; The another one problem be summer condensation temperature too high and the heat radiation insufficient; How to improve condensation temperature and to strengthen summer disinfection cabinet condenser heat dissipation problem be the important topic of pendulum in face of ours in winter.

Summary of the invention

In order to solve the low excessively problem of condensation temperature in winter, the present invention is incorporated into two refrigerating circuit refrigerators with the double capillary thinking, not only with refrigerator evaporator two capillaries in parallel or many capillaries, and simultaneously with freezer evaporator two capillaries in parallel or many capillaries.Use so in the winter time than short capillary or than the coarse wool tubule, can significantly improve condensation temperature, meanwhile also can increase substantially the Energy Efficiency Ratio of compressor.In order to solve the too high and inadequate problem of heat radiation of condensation temperature in summer, the present invention increases a speed-regulating fan in disinfection cabinet, get final product the heat radiation of strengthen disinfection cabinet condenser, can reduce condensation temperature, and can increase substantially the Energy Efficiency Ratio of compressor.

A kind of used heat of the present invention utilizes the type refrigerator-disinfection cabinet all-in-one machine, it is characterized in that evaporator of refrigerator passes through to form a refrigerating and heat-supplying closed-loop path between the double capillary of one group of parallel connection and the disinfection cabinet condenser, wherein the flow of the capillary in the double capillary is greater than the flow of another capillary.

The invention discloses a kind of refrigerator-disinfection cabinet all-in-one machine, it comprises all-in-one shell, refrigerating chamber inner bag, refrigerating chamber inner bag, disinfection cabinet inner bag, disinfection cabinet condenser fan, disinfection cabinet venthole, compressor, compressor exhaust pipe, dew eliminating tube, disinfection cabinet condenser, high temperature tube connector, device for drying and filtering, magnetic valve, capillary, refrigerator evaporator, low temperature tube connector, freezer evaporator, muffler, refrigerator temperature sensor, freezer temperature sensor, condensation temperature sensor, environment temperature sensor, cyclelog; Described refrigerating chamber inner bag and refrigerating chamber inner bag are installed in the all-in-one shell; Described disinfection cabinet inner bag is installed in the all-in-one shell; Described compressor exhaust pipe one end links to each other with compressor, and the other end links to each other with dew eliminating tube; Described disinfection cabinet condenser one end links to each other with dew eliminating tube, and the other end links to each other with the high temperature tube connector; Described device for drying and filtering one end links to each other with the high temperature tube connector, and the other end links to each other with magnetic valve; Described magnetic valve links to each other with many capillaries; Described environment temperature sensor is close on the all-in-one shell; Described condensation temperature sensor is installed on the compressor exhaust pipe; It is characterized in that described disinfection cabinet condenser is installed between disinfection cabinet inner bag and the all-in-one shell; Described refrigerator evaporator and freezer evaporator be parallel connection at least two capillaries respectively; Described disinfection cabinet condenser fan is installed in the disinfection cabinet inner bag.Described refrigerator-disinfection cabinet all-in-one machine also can be installed ozone generator, ultraviolet germicidal lamp and electrothermal tube in the disinfection cabinet inner bag, also the freezer evaporator fan can be installed in refrigerating chamber.

The effect of refrigerator-disinfection cabinet all-in-one machine disclosed by the invention is as follows:

1) adopts in the winter time than short capillary or than the coarse wool tubule, can improve the condensation temperature in winter, thereby improve the temperature in the disinfection cabinet, and then can add the snack container rate of drying.

2) adopt in the winter time than short capillary or than the coarse wool tubule, can reduce resistance capillaceous like this, and the specific volume that can reduce cold-producing medium can increase the density of cold-producing medium, thereby can improve the Energy Efficiency Ratio of compressor.

3) adopt than short capillary or than the coarse wool tubule, can improve refrigerating speed greatly.

4) not only can realize Optimum Matching under the standard ambient temperature (25 ℃), and can under hot environment, (overgauge environment temperature) start the disinfection cabinet condenser fan, realize the enhanced heat exchange of disinfection cabinet condenser, the compressor Energy Efficiency Ratio in the time of can improving summer greatly.

5) if also use than short capillary or than the coarse wool tubule in spring, autumn, will the problem that condensation temperature raises appears, can start the disinfection cabinet condenser fan and come the heat exchange of strengthen disinfection cabinet condenser this moment, can improve the compression mechanism speed of cooling like this, is particularly suitable for quick-frozen this moment.

6) refrigerator suitable environment temperature range is wider.

7) help the compressor life-time dilatation.

8) realized the used heat utilization, realized energy-efficient.

Description of drawings

Fig. 1 is the principle schematic of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Fig. 2 is the principle schematic of second embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Fig. 3 is the principle schematic of the 3rd embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Fig. 4 is the principle schematic of the 4th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Fig. 5 is the principle schematic of the 5th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Fig. 6 is the principle schematic of the 6th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Fig. 7 is the principle schematic of second embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Fig. 8 is the principle schematic of the 3rd embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Fig. 9 is the principle schematic of the 4th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Figure 10 is the principle schematic of the 5th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Figure 11 is the principle schematic of the 6th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Figure 12 is the principle schematic of second embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Figure 13 is the principle schematic of the 3rd embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Figure 14 is the principle schematic of the 4th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention;

Figure 15 is the principle schematic of the 5th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention.

Wherein Reference numeral is expressed as follows:

All-in-one shell 1, refrigerating chamber inner bag 2, refrigerating chamber inner bag 3, disinfection cabinet inner bag 4, ozone generator 5, ultraviolet germicidal lamp 6, electrothermal tube 7, disinfection cabinet condenser fan 8, disinfection cabinet venthole 9, compressor 10, compressor exhaust pipe 11, dew eliminating tube 12, disinfection cabinet condenser 13, high temperature tube connector 14, device for drying and filtering 15, four five-way electromagnetic valves 16, first capillary 17, second capillary 18, three capillary 19, the 4th capillary 20, refrigerator evaporator 21, low temperature tube connector 22, freezer evaporator 23, muffler 24, refrigerator temperature sensor 25, freezer temperature sensor 26, condensation temperature sensor 27, environment temperature sensor 28, freezer evaporator fan 29, refrigerator evaporator fan 30, the 5th capillary 31, the 6th capillary 32, temperature-changing chamber evaporimeter 33, temperature-changing chamber temperature sensor 34, temperature-changing chamber inner bag 35, first two-position three way magnetic valve 1601, second two-position three way magnetic valve 1602, the 3rd two-position three way magnetic valve 1603, first three position four-way electromagnetic valve 1604, six seven three-way electromagnetic valves 1605, the 4th two-position three way magnetic valve 1606, the 5th two-position three way magnetic valve 1607, second three position four-way electromagnetic valve 1608, the 3rd three position four-way electromagnetic valve 1609, cyclelog (not marking).

The specific embodiment

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

First embodiment

Fig. 1 is the principle schematic of refrigerator-disinfection cabinet all-in-one machine of the present invention.

As shown in Figure 1, refrigerator-disinfection cabinet all-in-one machine of the present invention, it comprises all-in-one shell 1, refrigerating chamber inner bag 2, refrigerating chamber inner bag 3, disinfection cabinet inner bag 4, ozone generator 5, ultraviolet germicidal lamp 6, electrothermal tube 7, disinfection cabinet condenser fan 8, disinfection cabinet venthole 9, compressor 10, compressor exhaust pipe 11, dew eliminating tube 12, disinfection cabinet condenser 13, high temperature tube connector 14, device for drying and filtering 15, four five-way electromagnetic valves 16, first capillary 17, second capillary 18, three capillary 19, the 4th capillary 20, refrigerator evaporator 21, low temperature tube connector 22, freezer evaporator 23, muffler 24, refrigerator temperature sensor 25, freezer temperature sensor 26, condensation temperature sensor 27, environment temperature sensor 28, cyclelog.

Described refrigerating chamber inner bag 2 and refrigerating chamber inner bag 3 are installed in the all-in-one shell 1; Described disinfection cabinet inner bag 4 is installed in the all-in-one shell 1; Described ozone generator 5 is installed in the disinfection cabinet inner bag 4; Described ultraviolet germicidal lamp 6 is installed in the disinfection cabinet inner bag 4; Described electrothermal tube 7 is installed in the disinfection cabinet inner bag 4; Described disinfection cabinet condenser fan 8 is installed in the disinfection cabinet inner bag 4; Described disinfection cabinet venthole 9 runs through the disinfection cabinet wall of inner container; Described compressor exhaust pipe 11 1 ends link to each other with compressor 10, and the other end links to each other 12 with dew eliminating tube; Described disinfection cabinet condenser 13 1 ends link to each other with dew eliminating tube 12; The other end links to each other with high temperature tube connector 14; Described device for drying and filtering 15 1 ends link to each other with high temperature tube connector 14, and the other end links to each other with four five-way electromagnetic valves 16; Described four five-way electromagnetic valves 16 link to each other with first capillary 17, second capillary 18, three capillary 19, the 4th capillary 20; Described first capillary 17 and second capillary 18 are parallel to the arrival end of refrigerator evaporator 21 simultaneously; Described three capillary 19 and the 4th capillary 20 are parallel to the arrival end of freezer evaporator 23 simultaneously; Described low temperature tube connector 22 1 ends link to each other with the port of export of refrigerator evaporator 21, and the other end links to each other with the arrival end of freezer evaporator 23; Described muffler 24 1 ends link to each other with freezer evaporator 23 ports of export, and the other end links to each other with compressor 10; Described refrigerator temperature sensor 25 is close on the wall of refrigerating chamber inner bag 2; Described freezer temperature sensor 26 is close on the wall of refrigerating chamber inner bag 3; Described condensation temperature sensor 27 is installed on the compressor exhaust pipe 11; Described disinfection cabinet condenser 13 is installed between disinfection cabinet inner bag 4 and the all-in-one shell 1; Described cyclelog can just start disinfection cabinet condenser fan 8 according to the signal of condensation temperature sensor 27; Described cyclelog can be selected different capillaries according to the signal of condensation temperature sensor 27.

Refrigerator-disinfection cabinet all-in-one machine of the present invention can improve condensation temperature and reduce the condensation temperature in summer in winter.Utilize used heat to realize table-ware disinfection.Following surface analysis refrigerator-disinfection cabinet all-in-one machine of the present invention is the condensation temperature that how to improve winter, be how to reduce the condensation temperature in summer and be how to utilize used heat to realize table-ware disinfection.

After connecting power supply, cyclelog starts compressor 10, high-temperature high-pressure refrigerant is with the priority compressor exhaust pipe 11 of flowing through, dew eliminating tube 12, disinfection cabinet condenser 13, high temperature tube connector 14, device for drying and filtering 15, connect the capillary of appointment through four five-way electromagnetic valves 16 then, concrete which capillary of connecting will be determined according to the temperature value that environment temperature sensor 28 is surveyed: 1. in the winter time, the temperature that environment temperature sensor 28 is surveyed is lower, when giving the refrigerating chamber separate refrigeration if desired, then connect the big three capillary 19 of flow (short capillary or thicker capillary), condensation temperature will rise this moment, to improve the sterilization in-cabinet temperature, help the tableware dry disinfection; When freezing to refrigerating chamber if desired, then connect the first big capillary 17 of flow (short capillary or thicker capillary), condensation temperature will rise this moment, will improve the sterilization in-cabinet temperature, help the tableware dry disinfection.2. when environment temperature is near 25 ℃ of the standard ambient temperatures, when giving the refrigerating chamber separate refrigeration if desired, then connect the 4th capillary 20 (long capillary or thinner capillary), condensation temperature will remain on reasonable range this moment, can realize tableware dry disinfection in the disinfection cabinet; When freezing to refrigerating chamber if desired, connect second capillary 18 (long capillary or thinner capillary), condensation temperature will remain on reasonable range this moment, can realize tableware dry disinfection in the disinfection cabinet.3. when environment temperature exceeds to a certain degree than 25 ℃, when giving the refrigerating chamber separate refrigeration if desired, then connect the 4th capillary 20 (long capillary or thinner capillary), when in case the condensation temperature that condensation temperature sensor 27 is surveyed sets value greater than certain, then start disinfection cabinet condenser fan 8, condensation temperature is higher, and then the rotating speed of disinfection cabinet condenser fan 8 is faster.4. when environment temperature is hanged down to a certain degree than 25 ℃, the general big capillary of flow (short capillary or thicker capillary) of connecting, when giving the refrigerating chamber separate refrigeration if desired, then connect the big three capillary 19 of flow, condensation temperature will rise this moment, in case when the condensation temperature of condensation temperature sensor 27 detections sets value greater than certain, then start disinfection cabinet condenser fan 8, condensation temperature is higher, and then the rotating speed of disinfection cabinet condenser fan 8 is faster.When freezing to refrigerating chamber if desired, then connect the first big capillary 17 of flow (short capillary or thicker capillary), condensation temperature will rise this moment, when in case the condensation temperature that condensation temperature sensor 27 is surveyed sets value greater than certain, then start disinfection cabinet condenser fan 8, condensation temperature is higher, and then the rotating speed of disinfection cabinet condenser fan 8 is faster.

In process of refrigerastion, the heat that disinfection cabinet condenser 13 distributes will make the tableware temperature in the disinfection cabinet raise, after temperature raises, moisture on the tableware will evaporate, tableware will keep high temperature, drying, and under the environment of high temperature and drying, bacterium can not survive, thereby make disinfection cabinet be in disinfection for a long time, this disinfecting process is not need to consume any additional electrical energy.If necessary, can start automatically or manually start ozone generator 5 or ultraviolet germicidal lamp 6 is further sterilized.Under very urgent situation, can manually start electrothermal tube 7 and realize high-temperature sterilization (this situation seldom occurs).

Second embodiment

Fig. 2 is the principle schematic of second embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, second embodiment and first embodiment are basic identical, just four five-way electromagnetic valves 16 have been changed into three two-position three way magnetic valves, i.e. first two-position three way magnetic valve 1601, second two-position three way magnetic valve 1602, the 3rd two-position three way magnetic valve 1603.Described first two-position three way magnetic valve 1601 links to each other with device for drying and filtering 15 with second two-position three way magnetic valve 1602, the 3rd two-position three way magnetic valve 1603 respectively.Described second two-position three way magnetic valve 1602 is parallel to the arrival end of refrigerator evaporator 21 more respectively through described first capillary 17, second capillary 18.Described the 3rd two-position three way magnetic valve 1603 passes through the arrival end that described three capillary 19 and the 4th capillary 20 are parallel to freezer evaporator 23 simultaneously more respectively.Described device for drying and filtering 15 is connected on the disinfection cabinet condenser 13 of disinfection cabinet through high temperature tube connector 14, in the refrigerator process of refrigerastion, the heat that disinfection cabinet condenser 13 distributes will make the tableware temperature in the disinfection cabinet raise, after temperature raises, the moisture on the tableware will evaporate, and tableware will keep high temperature, drying, under the environment of high temperature and drying, bacterium can not survive, thereby makes disinfection cabinet be in disinfection for a long time, and this disinfecting process is not need to consume any additional electrical energy.

The 3rd embodiment

Fig. 3 is the principle schematic of the 3rd embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, the 3rd embodiment and first embodiment are basic identical, have just changed four five-way electromagnetic valves 16 into one first three position four-way electromagnetic valve 1604 and one the 3rd two-position three way magnetic valve 1603.Promptly first three position four-way electromagnetic valve 1604 links to each other with device for drying and filtering 15, the 3rd two-position three way magnetic valve 1603, first capillary 17, second capillary 18 respectively; Described first capillary 17, second capillary 18 are parallel to the arrival end of refrigerator evaporator 21.The 3rd two-position three way magnetic valve 1603 that is connected on first three position four-way electromagnetic valve 1604 passes through the arrival end that described three capillary 19 and the 4th capillary 20 are parallel to freezer evaporator 23 simultaneously more respectively; Described device for drying and filtering 15 is connected on the disinfection cabinet condenser 13 of disinfection cabinet through high temperature tube connector 14, in the refrigerator process of refrigerastion, the heat that disinfection cabinet condenser 13 distributes will make the tableware temperature in the disinfection cabinet raise, after temperature raises, the moisture on the tableware will evaporate, and tableware will keep high temperature, drying, under the environment of high temperature and drying, bacterium can not survive, thereby makes disinfection cabinet be in disinfection for a long time, and this disinfecting process is not need to consume any additional electrical energy.

The 4th embodiment

Fig. 4 is the principle schematic of the 4th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, and the 4th embodiment and first embodiment are basic identical, and freezer evaporator fan 29 just has been installed in refrigerating chamber inner bag 3, and refrigerating chamber has become air-cooled like this.

The 5th embodiment

Fig. 5 is the principle schematic of the 5th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, and the 5th embodiment and second embodiment are basic identical, and freezer evaporator fan 29 just has been installed in refrigerating chamber inner bag 3, and refrigerating chamber has become air-cooled like this.

The 6th embodiment

Fig. 6 is the principle schematic of the 6th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, and the 6th embodiment and the 3rd embodiment are basic identical, and freezer evaporator fan 29 just has been installed in refrigerating chamber inner bag 3, and refrigerating chamber has become air-cooled like this.

The 7th embodiment

Fig. 7 is the principle schematic of the 7th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, the 7th embodiment and first embodiment are basic identical, different is: 1. refrigerating chamber inner bag 2 and refrigerating chamber inner bag 3 have become position, left and right sides relation by original upper-lower position relation, refrigerator evaporator fan 30 has been installed in the refrigerating chamber inner bag 2, freezer evaporator fan 29 has been installed in the refrigerating chamber inner bag 3, and promptly refrigerator has become the clamshell doors wind cooling refrigerator; 2. refrigerator evaporator 21 and freezer evaporator 23 have become relation in parallel, and this moment, refrigerating chamber and refrigerating chamber process of refrigerastion did not disturb mutually.

The 8th embodiment

Fig. 8 is the principle schematic of the 8th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, the 8th embodiment and the 7th embodiment are basic identical, just four five-way electromagnetic valves 16 have been changed into three two-position three way magnetic valves, i.e. first two-position three way magnetic valve 1601, second two-position three way magnetic valve 1602, the 3rd two-position three way magnetic valve 1603.

The 9th embodiment

Fig. 9 is the principle schematic of the 8th embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, the 9th embodiment and the 7th embodiment are basic identical, have just changed four five-way electromagnetic valves 16 into one first three position four-way electromagnetic valve 1604 and one the 3rd two-position three way magnetic valve 1603.

The tenth embodiment

Figure 10 is the principle schematic of the tenth embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, the tenth embodiment and first embodiment are basic identical, and different is has increased the 5th capillary 31, the 6th capillary 32, temperature-changing chamber evaporimeter 33, temperature-changing chamber temperature sensor 34, temperature-changing chamber inner bag 35, six seven three-way electromagnetic valves 1605; This moment, refrigerator became three-door refrigerator; Described the 5th capillary 31, the 6th capillary 32 and first capillary 17, second capillary 18, three capillary 19, the 4th capillary 20 are received six seven three-way electromagnetic valves 1605 together; Described the 5th capillary 31, the 6th capillary 32 are parallel to the arrival end of temperature-changing chamber evaporimeter 33; Described temperature-changing chamber temperature sensor 34 is installed on the wall of temperature-changing chamber inner bag 35.

The 11 embodiment

Figure 11 is the principle schematic of the 11 embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, the 11 embodiment and the tenth embodiment are basic identical, have just changed six seven magnetic valves 1605 into first two-position three way magnetic valve 1601, second two-position three way magnetic valve 1602, the 3rd two-position three way magnetic valve 1603, the 4th two-position three way magnetic valve 1606, the 5th two-position three way magnetic valve 1607.Described first two-position three way magnetic valve 1601 links to each other with device for drying and filtering 15 with the 4th two-position three way magnetic valve 1606, the 3rd two-position three way magnetic valve 1603 respectively; The 4th two-position three way magnetic valve 1606 links to each other with first two-position three way magnetic valve 1601, the 5th two-position three way magnetic valve 1607, second two-position three way magnetic valve 1602 respectively; Described the 5th two-position three way magnetic valve 1607 passes through the arrival end that described the 5th capillary 31 and the 6th capillary 32 are parallel to temperature-changing chamber evaporimeter 33 simultaneously more respectively; Described second two-position three way magnetic valve 1602 passes through the arrival end that described first capillary 17 and second capillary 18 are parallel to refrigerator evaporator 21 simultaneously more respectively; Described the 3rd two-position three way magnetic valve 1603 passes through the arrival end that described three capillary 19 and the 4th capillary 20 are parallel to freezer evaporator 23 simultaneously more respectively.

The 12 embodiment

Figure 12 is the principle schematic of the 12 embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, the 11 embodiment and the tenth embodiment are basic identical, have just changed six seven magnetic valves 1605 into first two-position three way magnetic valve 1601, second three position four-way electromagnetic valve 1608, the 3rd three position four-way electromagnetic valve 1609.Described first two-position three way magnetic valve 1601 links to each other with device for drying and filtering 15 with second three position four-way electromagnetic valve 1608, the 3rd three position four-way electromagnetic valve 1609 respectively; Described second three position four-way electromagnetic valve 1608 is connected with the 5th capillary 31 with first capillary 17, second capillary 18 respectively again; Described the 3rd three position four-way electromagnetic valve 1609 is connected with three capillary 19, the 4th capillary 20 and the 6th capillary 32 respectively again; Described first capillary 17 and second capillary 18 are parallel to the arrival end of refrigerator evaporator 21 simultaneously; Described three capillary 19 and the 4th capillary 20 are parallel to the arrival end of freezer evaporator 23 simultaneously; Described the 5th capillary 31 and the 6th capillary 32 are parallel to the arrival end of temperature-changing chamber evaporimeter 33 simultaneously.

The 13 embodiment

Figure 13 is the principle schematic of the 13 embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, the 13 embodiment and the tenth embodiment are basic identical, just freezer evaporator fan 29 has been installed in refrigerating chamber inner bag 3, refrigerating chamber has become air-cooled like this.

The 14 embodiment

Figure 14 is the principle schematic of the 14 embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, the 14 embodiment and the 11 embodiment are basic identical, just freezer evaporator fan 29 has been installed in refrigerating chamber inner bag 3, refrigerating chamber has become air-cooled like this.

The 15 embodiment

Figure 15 is the principle schematic of the 15 embodiment of refrigerator-disinfection cabinet all-in-one machine of the present invention, the 15 embodiment and the 12 embodiment are basic identical, just freezer evaporator fan 29 has been installed in refrigerating chamber inner bag 3, refrigerating chamber has become air-cooled like this.

The present invention 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 invention.Double capillary as refrigerator-disinfection cabinet all-in-one machine of the present invention can be replaced by three capillary, promptly at the arrival end of freezer evaporator three capillaries in parallel; Also comprise the refrigerator and the disinfecting cabinet integrated machine of single evaporimeter as refrigerator-disinfection cabinet all-in-one machine of the present invention, wherein the capillary group only comprises first capillary 17, second capillary 18, and wherein the flow of the capillary in the double capillary group is greater than another capillary; Also comprise the showcase and the disinfecting cabinet integrated machine of single evaporimeter as refrigerator-disinfection cabinet all-in-one machine of the present invention, wherein the capillary group only comprises first capillary 17, second capillary 18.Wherein the flow of the capillary in the double capillary group is greater than another capillary.

Claims

1. a used heat utilizes the type refrigerator-disinfection cabinet all-in-one machine, it is characterized in that evaporator of refrigerator passes through to form a refrigerating and heat-supplying closed-loop path between the double capillary of one group of parallel connection and the disinfection cabinet condenser, wherein the flow of the capillary in the double capillary is greater than the flow of another capillary.

2. used heat according to claim 1 utilizes the type refrigerator-disinfection cabinet all-in-one machine, it is characterized in that described evaporator of refrigerator (21,23,33) end is successively by double capillary in parallel, multidigit various way solenoid valve (16,1601,1602,1603,1604,1605,1606,1607,1608,1609), device for drying and filtering (15), high temperature tube connector (14) links to each other with described disinfection cabinet condenser (13) one ends, described evaporator of refrigerator (21,23, the 33) other end is by muffler (24), freezer compressor (10) links to each other with described disinfection cabinet condenser (13) other end.

3. used heat according to claim 2 utilizes the type refrigerator-disinfection cabinet all-in-one machine, it is characterized in that described double capillary group (17,18,19,20) comprises first capillary (17), second capillary (18), three capillary (19) and the 4th capillary (20); Described evaporator of refrigerator (21,22) comprises refrigerator evaporator (21) and freezer evaporator (23); Wherein said first capillary (17) and second capillary (18) are parallel to the arrival end of refrigerator evaporator (21); Described three capillary (19) and the 4th capillary (20) are parallel to the arrival end of freezer evaporator (23) simultaneously.

4. utilize the type refrigerator-disinfection cabinet all-in-one machine according to the described used heat of claim 2-3, it is characterized in that described multidigit various way solenoid valve (16,1601,1602,1603,1604) is four five-way electromagnetic valves (16),

Described first capillary (17), second capillary (18), three capillary (19) and the 4th capillary (20) are connected on described four five-way electromagnetic valves (16) simultaneously.

5. utilize the type refrigerator-disinfection cabinet all-in-one machine according to the described used heat of claim 2-3, it is characterized in that described multidigit various way solenoid valve (16,1601,1602,1603,1604) comprises first two-position three way magnetic valve

(1601), second two-position three way magnetic valve (1602), the 3rd two-position three way magnetic valve (1603); Described first two-position three way magnetic valve (1601) links to each other with second two-position three way magnetic valve (1602), the 3rd two-position three way magnetic valve (1603) and described device for drying and filtering (15) respectively; Described second two-position three way magnetic valve (1602) is connected with described first capillary (17), second capillary (18) more respectively; Described the 3rd two-position three way magnetic valve (1603) is connected with described three capillary (19) and the 4th capillary (20) more respectively.

6. utilize the type refrigerator-disinfection cabinet all-in-one machine according to the described used heat of claim 2-3, it is characterized in that described multidigit various way solenoid valve (16,1601,1602,1603,1604) comprise one first three position four-way electromagnetic valve (1604) and one second two-position three way magnetic valve (1602); Described first three position four-way electromagnetic valve (1604) links to each other with described device for drying and filtering (15), described second two-position three way magnetic valve (1602), described first capillary (17), described second capillary (18) respectively; Described second two-position three way magnetic valve (1602) links to each other with the 4th capillary (20) with described three capillary (19) respectively again.

7. used heat according to claim 2 utilizes the type refrigerator-disinfection cabinet all-in-one machine, it is characterized in that described double capillary group (17,18,19,20,31,32) comprise first capillary (17), second capillary (18), three capillary (19), the 4th capillary (20), the 5th capillary (31) and the 6th capillary (32); Wherein said first capillary (17) and second capillary (18) are parallel to the arrival end of refrigerator evaporator (21); Described three capillary (19) and the 4th capillary (20) are parallel to the arrival end of freezer evaporator (23) simultaneously; Described the 5th capillary (31) and the 6th capillary (32) are parallel to the arrival end of temperature-changing chamber evaporimeter (33) simultaneously.

8. utilize the type refrigerator-disinfection cabinet all-in-one machine according to the described used heat of claim 2-3, it is characterized in that described multidigit various way solenoid valve is six seven three-way electromagnetic valves (1605), described first capillary (17), second capillary (18), three capillary (19), the 4th capillary (20), the 5th capillary (31) and the 6th capillary (32) are connected on described six seven three-way electromagnetic valves (1605) simultaneously.

9. utilize the type refrigerator-disinfection cabinet all-in-one machine according to the described used heat of claim 2-3, it is characterized in that described multidigit various way solenoid valve comprises first two-position three way magnetic valve (1601), second two-position three way magnetic valve (1602), the 3rd two-position three way magnetic valve (1603), the 4th two-position three way magnetic valve (1606), the 5th two-position three way magnetic valve (1607); Described first two-position three way magnetic valve (1601) links to each other with the 4th two-position three way magnetic valve (1606), the 3rd two-position three way magnetic valve (1603) and device for drying and filtering (15) respectively; The 4th two-position three way magnetic valve (1606) links to each other with first two-position three way magnetic valve (1601), the 5th two-position three way magnetic valve (1607), second two-position three way magnetic valve (1602) respectively; Described second two-position three way magnetic valve (1602) passes through the arrival end that described first capillary (17) and second capillary (18) are parallel to refrigerator evaporator (21) simultaneously more respectively; Described the 3rd two-position three way magnetic valve (1603) passes through the arrival end that described three capillary (19) and the 4th capillary (20) are parallel to freezer evaporator (23) simultaneously more respectively; Described the 5th two-position three way magnetic valve (1607) passes through the arrival end that described the 5th capillary (31) and the 6th capillary (32) are parallel to temperature-changing chamber evaporimeter (33) simultaneously more respectively.

10. utilize the type refrigerator-disinfection cabinet all-in-one machine according to the described used heat of claim 2-3, it is characterized in that described multidigit various way solenoid valve comprises first two-position three way magnetic valve (1601), second three position four-way electromagnetic valve (1608) and the 3rd three position four-way electromagnetic valve (1609); Described first two-position three way magnetic valve (1601) links to each other with second three position four-way electromagnetic valve (1608), the 3rd three position four-way electromagnetic valve (1609) and device for drying and filtering (15) respectively; Described second three position four-way electromagnetic valve (1608) is connected with first capillary (17), second capillary (18) and the 5th capillary (31) respectively again; Described the 3rd three position four-way electromagnetic valve (1609) is connected with three capillary (19), the 4th capillary (20) and the 6th capillary (32) respectively again; Described first capillary (17) and second capillary (18) are parallel to the arrival end of refrigerator evaporator (21) simultaneously; Described three capillary (19) and the 4th capillary (20) are parallel to the arrival end of freezer evaporator (23) simultaneously; Described the 5th capillary (31) and the 6th capillary (32) are parallel to the arrival end of temperature-changing chamber evaporimeter 33 simultaneously.

11. utilize the type refrigerator-disinfection cabinet all-in-one machine according to one of any described used heat of claim 4-6, it is characterized in that also comprising the disinfection cabinet condenser fan (8) that is arranged in the disinfection cabinet inner bag.

12. utilize the type refrigerator-disinfection cabinet all-in-one machine according to one of any described used heat of claim 4-6, it is characterized in that also comprising being arranged on freezer evaporator fan (29) is installed in the freezer compartment of refrigerator inner bag.

13. utilize the type refrigerator-disinfection cabinet all-in-one machine according to one of any described used heat of claim 4-6, it is characterized in that also comprising the electrothermal tube (7) that is arranged in the disinfection cabinet inner bag.

14. utilize the type refrigerator-disinfection cabinet all-in-one machine according to one of any described used heat of claim 4-6, it is characterized in that also comprising the ozone generator (5) that is arranged in the disinfection cabinet inner bag.

15. utilize the type refrigerator-disinfection cabinet all-in-one machine according to one of any described used heat of claim 4-6, it is characterized in that also comprising the ultraviolet germicidal lamp (6) that is arranged in the disinfection cabinet inner bag.

16. used heat according to claim 3 utilizes the type refrigerator-disinfection cabinet all-in-one machine, it is characterized in that also comprising compressor exhaust pipe (11), dew eliminating tube (12), high temperature tube connector (14), muffler (24); Wherein said muffler (24) one ends link to each other with described freezer evaporator (23) port of export, the other end links to each other with described compressor (10), described compressor (10) links to each other with the described dew eliminating tube (12) that links to each other by compressor exhaust pipe (11), described dew eliminating tube (12) is connected to described disinfection cabinet condenser (13), and described device for drying and filtering (15) links to each other by described high temperature tube connector (14) with described disinfection cabinet condenser (13).。

17. used heat according to claim 12 utilizes the type refrigerator-disinfection cabinet all-in-one machine, it is characterized in that described disinfection cabinet condenser fan (8) can be a kind of in constant speed fan, the speed-regulating fan.

18. used heat according to claim 3 utilizes the type refrigerator-disinfection cabinet all-in-one machine, it is characterized in that also comprising cyclelog, refrigerator temperature sensor (25), freezer temperature sensor (26), condensation temperature sensor (27), environment temperature sensor (28).

19. used heat according to claim 1 utilizes the type refrigerator-disinfection cabinet all-in-one machine, it is characterized in that a capillary length in the double capillary group is greater than another capillary.

20. used heat according to claim 1 utilizes the type refrigerator-disinfection cabinet all-in-one machine, it is characterized in that a capillary diameter in the double capillary group is greater than another capillary.