CN204757508U - Many freezers refrigerator that can adjust in real time - Google Patents

Abstract

The utility model provides a many freezers refrigerator that can adjust in real time, its includes a plurality of compressors, a plurality of freezer, condenser, a plurality of evaporimeter, current amount control means, compressor, freezer are the same with evaporimeter quantity, current amount control means has a plurality of exports, each evaporimeter is connected respectively in each export, each is located respectively to each evaporimeter in the freezer, be equipped with temperature sensor in the freezer respectively, temperature sensor with current amount control means connects, the temperature data of temperature sensor in with the freezer send to current amount control means, the current amount control means basis temperature data controls access to the flow of the condensation medium of each evaporimeter. The utility model discloses an it acquires the temperature in each freezer in real time to set up temperature sensor in each freezer to according to the refrigerating medium flow that each freezer of temperature regulation in each freezer acquireed, refrigeration effect's optimization has been guaranteed.

Description

A kind of many refrigerating chambers refrigerator that can regulate in real time

Technical field

The utility model relates to a kind of refrigerator with multiple independent refrigerating chamber, particularly a kind of refrigerator regulating freezing indoor temperature according to real time temperature in refrigerating chamber.

Background technology

The refrigerating capacity of distributing between the refrigerating chamber of the refrigeration system that current refrigerator adopts can not regulate and control, and causes refrigeration not good.

Utility model content

For solving the problems of the technologies described above, the utility model provides a kind of many refrigerating chambers refrigerator that can regulate in real time, it comprises multiple compressor, multiple refrigerating chamber, condenser, multiple evaporimeter, flow controlling unit, and described compressor, refrigerating chamber are identical with evaporimeter quantity;

Described each compressor is connected with described condenser respectively, and described condenser is connected with described flow controlling unit, and described flow controlling unit has multiple outlet, and described each outlet connects each evaporimeter respectively, and described each evaporimeter is located in each described refrigerating chamber respectively;

Temperature sensor is respectively equipped with in described refrigerating chamber, described temperature sensor is connected with described flow controlling unit, temperature data in refrigerating chamber is sent to described flow controlling unit by described temperature sensor, and described flow controlling unit controls according to described temperature data the flow entering the cooling medium of each evaporimeter.

Preferably, each outlet of described flow controlling unit has a high gear, middle gear and low gear respectively, and the difference in flow between described high gear, middle gear is equal with the difference in flow between middle gear, low gear.

Preferably, described flow controlling unit comprises a magnetic valve and single-chip microcomputer, and each rate of discharge of described magnetic valve is adjustable, and described each rate of discharge passes through Single-chip Controlling.

Preferably, described temperature sensor cooling degrees of data is sent to described single-chip microcomputer, and described single-chip microcomputer regulates each rate of discharge of described magnetic valve according to temperature data.

The utility model has following beneficial effect:

The utility model by the temperature in each refrigerating chamber in each refrigerating chamber of set temperature sensor Real-time Obtaining, and regulates the refrigerant flow accessed by each refrigerating chamber according to the temperature in each refrigerating chamber, ensure that the optimization of refrigeration.

Certainly, implement arbitrary product of the present utility model might not need to reach above-described all advantages simultaneously.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the utility model embodiment, be briefly described describing the required accompanying drawing used to embodiment below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Many refrigerating chambers refrigerator structure schematic diagram that can regulate in real time that Fig. 1 provides for the utility model embodiment.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making other embodiments all obtained under creative work prerequisite, all belong to the scope of the utility model protection.

The utility model embodiment provides a kind of many refrigerating chambers refrigerator that can regulate in real time, and it comprises multiple compressor, multiple refrigerating chamber, condensation, 3, multiple evaporimeter, flow controlling unit 4, described compressor, refrigerating chamber are identical with evaporimeter quantity; In the present embodiment, compressor is two, is respectively the first compressor 1 and the second compressor 2, and refrigerating chamber comprises in the first refrigerating chamber 6 and the second refrigerating chamber 8, first refrigerating chamber 6 being provided with in the first evaporimeter 5, second refrigerating chamber 8 and is provided with the second evaporimeter 10;

First compressor 1, second compressor 2 is connected 3 with condenser respectively, and condenser 3 is connected with flow controlling unit 4, and flow controlling unit 4 has multiple outlet, and described each outlet connects each evaporimeter respectively, and described each evaporimeter is located in each refrigerating chamber respectively;

Temperature sensor 9 and temperature sensor 7 is respectively equipped with in first refrigerating chamber 6 and the second refrigerating chamber 8, temperature sensor 7, temperature sensor 9 are connected with flow controlling unit 4 respectively, temperature data in the refrigerating chamber of place is sent to flow controlling unit 4 by each temperature sensor, and flow controlling unit 4 controls according to described temperature data the flow entering the cooling medium of each evaporimeter.

Certainly, the present embodiment only gives a kind of embodiment of the present utility model, and in the utility model, the quantity of compressor, refrigerating chamber also can be two or more, does not impracticablely novelly do concrete restriction.

In some preferred embodiments, each outlet of flow controlling unit 4 has a high gear, middle gear and low gear respectively, and the difference in flow between described high gear, middle gear is equal with the difference in flow between middle gear, low gear;

Flow controlling unit 4 control procedure is:

S1:: obtain the real time temperature in each refrigerating chamber by temperature sensor;

S2: when the real time temperature in two refrigerating chambers any in described each refrigerating chamber is not identical, the rate of discharge that freezing indoor evaporator the highest for temperature connects is adjusted to high gear, the rate of discharge that freezing indoor evaporator minimum for temperature connects is transferred to minimum gear, other outlets are middle gear simultaneously; Keep this shifting state work until arbitrary refrigerating chamber reaches the temperature value of setting in two freezer temperatures, now each rate of discharge is adjusted to normal discharge gear;

S3: continue to perform step 1 and 2.

In some preferred embodiments, flow controlling unit 4 comprises a magnetic valve and single-chip microcomputer, and each rate of discharge of described magnetic valve is adjustable, and described each rate of discharge passes through Single-chip Controlling.Described temperature sensor cooling degrees of data is sent to described single-chip microcomputer, and described single-chip microcomputer regulates each rate of discharge of described magnetic valve according to temperature data.

The utility model by the temperature in each refrigerating chamber in each refrigerating chamber of set temperature sensor Real-time Obtaining, and regulates the refrigerant flow accessed by each refrigerating chamber according to the temperature in each refrigerating chamber, ensure that the optimization of refrigeration.

Disclosed the utility model preferred embodiment just sets forth the utility model for helping above.Preferred embodiment does not have all details of detailed descriptionthe, does not limit the detailed description of the invention that this utility model is only described yet.Obviously, according to the content of this description, can make many modifications and variations.This description is chosen and is specifically described these embodiments, is to explain principle of the present utility model and practical application better, thus makes art technical staff understand well and to utilize the utility model.The utility model is only subject to the restriction of claims and four corner and equivalent.

Claims (4)

1. many refrigerating chambers refrigerator that can regulate in real time, is characterized in that, comprise multiple compressor, multiple refrigerating chamber, condenser, multiple evaporimeter, flow controlling unit, described compressor, refrigerating chamber are identical with evaporimeter quantity;

Described each compressor is connected with described condenser respectively, and described condenser is connected with described flow controlling unit, and described flow controlling unit has multiple outlet, and described each outlet connects each evaporimeter respectively, and described each evaporimeter is located in each described refrigerating chamber respectively;

Temperature sensor is respectively equipped with in described refrigerating chamber, described temperature sensor is connected with described flow controlling unit, temperature data in refrigerating chamber is sent to described flow controlling unit by described temperature sensor, and described flow controlling unit controls according to described temperature data the flow entering the cooling medium of each evaporimeter.

2. many refrigerating chambers refrigerator that can regulate in real time as claimed in claim 1, it is characterized in that, each outlet of described flow controlling unit has a high gear, middle gear and low gear respectively, and the difference in flow between described high gear, middle gear is equal with the difference in flow between middle gear, low gear.

3. many refrigerating chambers refrigerator that can regulate in real time as claimed in claim 1, is characterized in that, described flow controlling unit comprises a magnetic valve and single-chip microcomputer, and each rate of discharge of described magnetic valve is adjustable, and described each rate of discharge passes through Single-chip Controlling.

4. many refrigerating chambers refrigerator that can regulate in real time as claimed in claim 3, is characterized in that, described temperature sensor cooling degrees of data is sent to described single-chip microcomputer, and described single-chip microcomputer regulates each rate of discharge of described magnetic valve according to temperature data.