CN202254453U - Water ring energy-saving refrigerator/refrigerating cabinet - Google Patents

Abstract

The utility model belongs to the technical field of refrigerators and refrigerating cabinets, and particularly relates to a water ring energy-saving refrigerator/refrigerating cabinet, which includes a refrigerator body and a refrigeration system, wherein the refrigeration system includes a compressor, a condenser and a closed thermal insulation water tank; the compressor is communicated with the condenser through a first pipeline filled with refrigerant; one part of the first pipeline extends into the thermal insulation water tank; a water inlet and a water outlet are formed in the thermal insulation water tank; and the water inlet and the water outlet are connected with a water inlet pipe and a water outlet pipe respectively. The water ring energy-saving refrigerator/refrigerating cabinet has high refrigerating efficiency, reduces the energy consumption, and improves the water use efficiency.

Description

Water ring energy-saving refrigerator, refrigerator-freezer

Technical field

The utility model relates to a kind of refrigerator or refrigerator-freezer, refers to a kind of water ring energy-saving refrigerator, refrigerator-freezer especially.

Background technology

Common refrigerator or ice chest refrigeration system mainly are interconnected from beginning to end through pipeline each other by compressor, condenser, device for drying and filtering, capillary and evaporimeter and form.Cold-producing medium is housed in the pipeline, and refrigeration system adopts the circulation of single stage compress system, the circulation of cold-producing medium in refrigeration system just.

During work, after cold-producing medium sucks compression by compressor, become the superheated steam of HTHP; Get into condenser through exhaust outlet of compressor; Through extraneous air free convection heat is dispersed into the liquid that is condensed into temperature in the high pressure behind the outside air, cold-producing medium gets in the capillary after through the device for drying and filtering moisture absorption then, is obstructed because of capillary channel is elongated; Cold-producing medium is got in the evaporimeter and vaporizes by the step-down of damming.Low-temperature low-pressure refrigerant liquid in evaporimeter absorbs the heat in refrigerator or the refrigerator-freezer in a large number and intensifies and is dry saturated steam.Temperature in refrigerator or the refrigerator-freezer is reduced, and the low-pressure steam of generation is compressed machine once more and sucks, and cold-producing medium so goes round and begins again and constantly circulates.But the refrigerant superheat steam that from the compressor of refrigerator or refrigerator-freezer, comes out directly gets in the condenser, because natural convection air distribute heat speed is slow, refrigerating efficiency is not high, makes energy consumption of refrigerator big, does not meet the energy-saving and cost-reducing policy that modern society advocates.

The utility model content

The purpose of the utility model is to provide a kind of water ring energy-saving refrigerator, refrigerator-freezer, and the high and energy consumption that reduced refrigerator, refrigerator-freezer of its refrigerating efficiency can improve water-use efficiency simultaneously.

To achieve these goals, the technical solution of the utility model is: a kind of water ring energy-saving refrigerator, refrigerator-freezer comprise casing and refrigeration system; Said refrigeration system comprises compressor and condenser; Be communicated with through first pipeline that cold-producing medium is housed between said compressor and the condenser, wherein also comprise the attemperater of sealing, the part of said first pipeline stretches in the attemperater; Said attemperater is provided with entery and delivery port, connects inlet tube and outlet tube on the said entery and delivery port respectively.

The utility model water ring energy-saving refrigerator, refrigerator-freezer, wherein said water inlet pipe are running water pipe.

The utility model water ring energy-saving refrigerator, refrigerator-freezer, wherein said attemperater and casing are the one formation or are formed by connecting.

The utility model water ring energy-saving refrigerator, refrigerator-freezer, first pipe section that wherein stretches into said attemperater is a helix tube, it is coiled on the body or is coiled on the said attemperater internal chamber wall.

After adopting such scheme, the utility model water ring energy-saving refrigerator, refrigerator-freezer immerse in the cold water in the attemperater pipeline between compressor and the condenser through between compressor and condenser, setting up attemperater; Make the high-temperature high-pressure refrigerant superheated steam from compressor the cooling earlier of coming out through cold water the attemperater; Attemperater will obtain replenishing of normal temperature running water continually through water inlet pipe, reduce the temperature of attemperater, become warm water from the water that attemperater comes out simultaneously; Can supply the water demand such as kitchen or toilet in the daily life; Improved water-use efficiency, also practiced thrift the electricity charge that improve the running water temperature and consume, cooled cold-producing medium gets into and cools through outside air heat loss through convection secondary in the condenser in attemperater; Because water for cooling efficient is high more a lot of than cross-ventilation cooling efficient; Therefore most heat dispels the heat in attemperater, and remaining fraction heat gets in the condenser and dispels the heat, and the refrigeration of this refrigerator, refrigerator-freezer is improved greatly; Also reduced simultaneously the number of starts of compressor, the energy consumption of refrigerator, refrigerator-freezer is reduced greatly.

Description of drawings

Fig. 1 be the utility model water ring energy-saving refrigerator structural representation;

Fig. 2 be the energy-conservation refrigerator-freezer of the utility model water ring structural representation.

Below in conjunction with accompanying drawing, the utility model is done further explanation through embodiment;

The specific embodiment

See also shown in Figure 1ly, the utility model water ring energy-saving refrigerator comprises casing 1 and refrigeration system 2, and refrigeration system 2 comprises the attemperater 6 of compressor 3, condenser 4, device for drying and filtering 10, capillary 11, evaporimeter 12 and sealing.Compressor 3, condenser 4, device for drying and filtering 10, capillary 11, evaporimeter 12 are communicated with through the fluorine pipe successively from beginning to end, and the fluorine pipe is the inner pipeline that the cold-producing medium fluorine is housed.Compressor 3 and condenser 4 are positioned at the outside of casing 1, and the fluorine pipe that is connected between compressor 3 and the condenser 4 is that the part that first pipeline, 5, the first pipelines 5 of fluorine are equipped with in inside stretches in the attemperater 6.This stretches into part for being coiled in the helix tube on the cylindrical tube 9.Stretch into here first pipelines 5 in the attemperater 6 also can be designed to along the inwall coiling of attemperater 6 can, do not limit here.With stretching into partial design is the contact area that helix tube can increase body and water, thereby makes cold-producing medium in attemperater 6, distribute a large amount of heats.

Attemperater 6 is a rectangular box, attemperater 6 be positioned at casing 1 below, attemperater 6 is welded with casing 1.In the storage tank of compressor 3 between casing 1 and attemperater 6.The refrigerator structure compact of design does not account for usable floor area, easy to use like this, is processed with water inlet and delivery port on the attemperater 6, connects water inlet pipe 7 and outlet pipe 8 on water inlet, the delivery port respectively.Water inlet pipe 7 is a running water pipe; Water inlet pipe 7 remains the water tap opening, because the needs of daily life water can make running water get into continually in the attemperater 6; Flow out from outlet pipe 8 again simultaneously; Make the water in the attemperater 6 be circulation water, guarantee that like this cold water temperature in the attemperater 6 is very low all the time, with the fluorine steam heat in maximize absorption first pipeline 5.And the water that comes out from outlet pipe 8 has been owing to absorbed the fluorine steam heat, and cold water has become warm water, and it uses in the time of can offering kitchen or bathing.The part electric weight that family or trade company expend in order to make the domestic hot-water has been practiced thrift in design like this, so can play the effect of using electricity wisely.

Please refer to shown in Figure 2, the structural representation of the energy-conservation refrigerator-freezer of the utility model water ring, its structure with above-mentioned energy-saving refrigerator is similar basically; Comprise refrigeration system 2 equally, different is that refrigerator-freezer comprises cabinet 13, and the shape of cabinet 13 is slightly different with the casing of refrigerator 1 shape; Casing 1 height of refrigerator is greater than its length, and the height of the cabinet 13 of refrigerator-freezer is less than its length, in addition when the refrigerator-freezer volume is very big; Be designed to attemperater 6 with Refrigerating cabinet body 13 just inconvenient for the structure of one; Therefore when the volume ratio of refrigerator-freezer greatly the time, with attemperater 6 be designed to cabinet 13 be two branch body structures, a side that attemperater 6 is positioned over cabinet 13 gets final product.Certainly in the volume ratio of refrigerator-freezer hour, cabinet 13 is designed to integrative-structure with attemperater and is fine.

During work; After being compressed by compressor 3 suctions, fluorine becomes the superheated steam of HTHP; Get in the attemperaters 6 through first pipeline 5, get into again in the condenser 4 after HTHP fluorine superheated steam is cooled through the running water in the attemperater 6, through the outside air heat loss through convection fluorine is carried out secondary and cool; Because water for cooling efficient is high more a lot of than cross-ventilation cooling efficient; Therefore most heat dispels the heat in attemperater 6, and remaining fraction heat gets into heat radiation in the condenser 4, makes the refrigeration of the utility model water ring energy-saving refrigerator, refrigerator-freezer improve greatly like this; Also reduced simultaneously the number of starts of compressor 3, the energy consumption of refrigerator, refrigerator-freezer is reduced greatly; Attemperater 6 is connected with life running water system; Can be and become warm water through water demands such as kitchen the daily life or toilets from the water that attemperater 6 outlet pipes come out; And under the running water system supply, can obtain replenishing of normal temperature running water in the attemperater 6 continually, reduced the temperature of attemperater 6; Compare with ordinary tap water; Having no under the situation of attachment device, can be the kitchen available warm water is provided, improving water-use efficiency; Be accustomed to according to daily water consumption; The cleaning efficiency of hot water is higher than the normal temperature running water, and hot water expend the running water that quantity will be lower than normal temperature, so it has saved the electricity charge that improve the running water temperature and consume.

The above embodiment describes the preferred implementation of the utility model; Be not that scope to the utility model limits; Under the prerequisite that does not break away from the utility model design spirit; Various distortion and improvement that the common engineers and technicians in this area make the technical scheme of the utility model all should fall in the protection domain that claims of the utility model confirm.

Claims (4)

1. a water ring energy-saving refrigerator, refrigerator-freezer; Comprise casing (1) and refrigeration system (2); Said refrigeration system (2) comprises compressor (3) and condenser (4), is communicated with through first pipeline (5) that cold-producing medium is housed between said compressor (3) and the condenser (4), it is characterized in that: the attemperater (6) that also comprises sealing; The part of said first pipeline (5) stretches in the attemperater (6); Said attemperater (6) is provided with entery and delivery port, connects inlet tube and outlet tube (7,8) on the said entery and delivery port respectively.

2. water ring energy-saving refrigerator as claimed in claim 1, refrigerator-freezer is characterized in that: said water inlet pipe (7) is a running water pipe.

3. according to claim 1 or claim 2 water ring energy-saving refrigerator, refrigerator-freezer is characterized in that: said attemperater (6) and casing (1) are for the one formation or be formed by connecting.

4. water ring energy-saving refrigerator as claimed in claim 3, refrigerator-freezer is characterized in that: first pipeline (5) part that stretches into said attemperater (6) is helix tube, and it is coiled in body (9) and goes up or be coiled on said attemperater (6) internal chamber wall.

Images