CN104482718A - Instant liquid cooling device, water dispenser and refrigerating method - Google Patents

Abstract

The invention discloses an instant liquid cooling device which comprises a refrigerating system and a water container. The refrigerating system comprises a compressor, a condenser, a throttle assembly and an evaporator which are communicated with one another, the evaporator is a titanium tube evaporator, the titanium tube evaporator is arranged inside the water container, a water inlet and a water outlet are formed in the water container, and water which flows into the water container from the water inlet can be refrigerated by the titanium tube evaporator and then flows from the water outlet. The invention further discloses a water dispenser and a refrigerating method. The instant liquid cooling device, the water dispenser and the refrigerating method have the advantages that the refrigerating speeds can be effectively increased, the refrigerating time can be shortened, and the instant liquid cooling device, the water dispenser and the refrigerating method bring convenience for users during usage; the water inside the water container of the instant liquid cooling device can be effectively prevented from being contaminated.

Description

Liquid and device for cooling, water dispenser and refrigerating method

Technical field

The present invention relates to water dispenser technical field, particularly relate to a kind of liquid and device for cooling, water dispenser and refrigerating method.

Background technology

At present; existing refrigerating drinker generally comprises cold tank; the evaporimeter for freezing to cold tank is rotary with at cold tank outer disk; generally need the dozens of minutes even time of a hours just can reach default cryogenic temperature from unlatching refrigeration mode to shutdown; cooling time is long, and after cannot meeting the start of user, the short period goes out the demand of cold water.Although can shorten cooling time by the mode strengthening compressor refrigerating capacity, its cost is higher, and compares waste electric energy.

Summary of the invention

Main purpose of the present invention is to provide a kind of liquid and device for cooling, water dispenser and refrigerating method, is intended to solve the longer technical problem of cooling time.

Liquid provided by the invention and device for cooling, comprise and be communicated with by compressor, condenser, orifice union and evaporimeter the refrigeration system formed, described evaporimeter is titanium pipe evaporator, described liquid and device for cooling also comprise water receptacle, it is inner that described titanium pipe evaporator is placed in described water receptacle, described water receptacle is provided with water inlet and delivery port, and the water being flowed into described water receptacle by described water inlet is flowed out by described delivery port by warp after described titanium pipe evaporator refrigeration.

Preferably, described titanium pipe evaporator comprises the first titanium pipe and is sheathed on the second titanium pipe outside described first titanium pipe.

Preferably, described titanium pipe evaporator is that bending is arranged.

Preferably, described titanium pipe evaporator in the shape of a spiral or snakelike shape arrange.

Preferably, described water receptacle has the water storage cavity for accommodating water, and described titanium pipe evaporator is bending to be arranged in described water storage cavity.

Preferably, described water receptacle has the water storage cavity for accommodating water, and described water storage cavity is in arranging with the shape of described titanium pipe evaporator adaptation, and described titanium pipe evaporator is placed in described water storage cavity.

Preferably, described liquid and device for cooling also comprise the temperature sensor be fixedly installed on described water receptacle and the controller be electrically connected with described temperature sensor, and described controller is also electrically connected with described compressor; Described temperature sensor detects the temperature of the water of described water receptacle inside in real time, and exports the temperature value of detection to described controller; Described controller controls described compressor according to described temperature value and opens or cut out.

The water dispenser that the present invention further provides, described water dispenser comprises liquid and device for cooling, described liquid and device for cooling comprise and are communicated with by compressor, condenser, orifice union and evaporimeter the refrigeration system formed, described evaporimeter is titanium pipe evaporator, described liquid and device for cooling also comprise water receptacle, it is inner that described titanium pipe evaporator is placed in described water receptacle, described water receptacle is provided with water inlet and delivery port, and the water being flowed into described water receptacle inside by described water inlet is flowed out by described delivery port by warp after described titanium pipe evaporator refrigeration.

The refrigerating method that the present invention further provides comprises the following steps:

Described temperature sensor detects the temperature of the water of described water receptacle inside in real time, and exports the temperature value of detection to described controller;

Described controller judges whether described temperature value is more than or equal to the first preset temperature;

When described temperature value is more than or equal to described first preset temperature, then described controller controls the unlatching of described compressor;

When described temperature value is less than described first preset temperature, then described controller judges whether described temperature value is less than or equal to the second preset temperature;

When described temperature value is less than or equal to described second preset temperature, then described controller controls the cut out of described compressor;

When described temperature value is greater than the second preset temperature and is less than the first preset temperature, then described controller controls described compressor maintenance current operating conditions;

Wherein, described first preset temperature is greater than described second preset temperature.

Preferably, the difference of described second preset temperature and described first preset temperature is 3 to 5 degrees Celsius.

Liquid provided by the invention and device for cooling, by the evaporimeter of refrigeration system is set to titanium pipe evaporator, and titanium pipe evaporator is positioned over water receptacle inside, freezed by the water of titanium pipe evaporator to water receptacle inside, water receptacle is arranged water inlet and delivery port, the water entering water receptacle inside via water inlet in minutes reduces temperature rapidly under the refrigeration of titanium pipe evaporator, and flows out via delivery port, quotes for user.Liquid provided by the invention and device for cooling, improve refrigerating speed effectively, shortens cooling time, is more convenient to the use of user.In addition, also to effectively prevent the water of water receptacle inside contaminated for liquid provided by the invention and device for cooling.

Accompanying drawing explanation

Fig. 1 is the structural representation of liquid of the present invention and device for cooling one embodiment;

Fig. 2 is the structural representation of liquid of the present invention and another embodiment of device for cooling;

Fig. 3 is the schematic flow sheet of an embodiment of the refrigerating method of liquid of the present invention and device for cooling.

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

The invention provides a kind of liquid and device for cooling, with reference to Fig. 1, Fig. 1 is the structural representation of liquid of the present invention and device for cooling one embodiment, in one embodiment, this liquid and device for cooling comprise by compressor 10, condenser 20, orifice union 30 is communicated with the refrigeration system of composition with evaporimeter 40, described evaporimeter 40 is titanium pipe evaporator 40, described liquid and device for cooling also comprise water receptacle 50, it is inner that described titanium pipe evaporator 40 is placed in described water receptacle 50, described water receptacle 50 is provided with water inlet 51 and delivery port 52, through being flowed out by described delivery port 52 after the water being flowed into described water receptacle 50 by described water inlet 51 is freezed by described titanium pipe evaporator 40.

In the present embodiment, above-mentioned refrigeration system can also comprise filter 60, and above-mentioned orifice union 30 is capillary, and above-mentioned compressor 10, condenser 20, filter 60, capillary are communicated with successively with evaporimeter 40, forms kind of refrigeration cycle path.

Above-mentioned evaporimeter 40 adopts titanium pipe to make, it is inner that titanium pipe evaporator 40 is placed in water receptacle 50, to freeze to the water of water receptacle 50 inside, because evaporimeter 40 directly contacts with the water of water receptacle 50 inside, therefore effectively improve refrigerating speed, shorten cooling time, make user just can obtain cold water rapidly after start a few minutes.In addition, because the corrosion resistance of titanium pipe is good, and cryogenic property is good, even if it is inner to be therefore positioned over water receptacle 50, be also not easy to be corroded, the water that therefore effectively prevent water receptacle 50 inside is contaminated.

It should be noted that above-mentioned water receptacle 50 is also provided with the through hole for passing for the two ends of titanium pipe evaporator 40, the quantity of through hole can be one or two.When arranging a through hole, arrival end and the port of export of titanium pipe evaporator 40 are fitted; When arranging two through holes, the arrival end of titanium pipe evaporator 40 and the port of export are each passed through one of them through hole.Preferably, in order to prevent water receptacle 50 from leaking, between titanium pipe evaporator 40 and through hole, being provided with seal, leaking to prevent through hole.Seal can be selected according to actual needs, such as, can be sealing ring, sealing strip etc.

Liquid provided by the invention and device for cooling, by the evaporimeter 40 of refrigeration system is set to titanium pipe evaporator 40, and it is inner titanium pipe evaporator 40 to be positioned over water receptacle 50, freezed by the water of titanium pipe evaporator 40 pairs of water receptacle 50 inside, water receptacle 50 is arranged water inlet and delivery port 52, the water entering water receptacle 50 inside via water inlet in minutes reduces temperature rapidly under the refrigeration of titanium pipe evaporator 40, and flows out via delivery port 52, quotes for user.Liquid provided by the invention and device for cooling, improve refrigerating speed effectively, shortens cooling time, is more convenient to the use of user.In addition, also to effectively prevent the water of water receptacle 50 inside contaminated for liquid provided by the invention and device for cooling.

Further, in the present invention in a certain or all embodiments, described titanium pipe evaporator 40 comprises the first titanium pipe (not indicating in figure) and is sheathed on the second titanium pipe (not indicating in figure) outside described first titanium pipe, first titanium pipe inside is provided with for the passage for refrigerant circulation, described second titanium pipe is provided with the cavity for accommodating described first titanium pipe, the concrete shape of the first titanium pipe and the second titanium pipe can be arranged according to actual needs, as long as the first titanium pipe can be made to be placed in the cavity of the second titanium pipe.Preferably, described cavity is in arranging with the shape of described first titanium pipe adaptation.The diameter of cavity is slightly larger than the external diameter of the first titanium pipe.More preferably, described first titanium pipe and the second titanium pipe are coaxially arranged.The present embodiment by arranging the first titanium pipe and the second titanium pipe, thus prevents the water of water receptacle 50 inside contaminated further.

Further, in the present invention in a certain or all embodiments, described titanium pipe evaporator 40 is arranged in bending.By the shape that titanium pipe evaporator 40 is set to bend, the length of the titanium pipe evaporator 40 being positioned at water receptacle 50 inside can be increased, save the space of water receptacle 50 inside, increase the contact area between the water of water receptacle 50 inside and titanium pipe evaporator 40, therefore further increase the refrigerating speed to the water in water receptacle 50.

Particularly, the shape of titanium pipe evaporator 40 can be arranged according to actual needs, such as, titanium pipe evaporator 40 can be set to helical form or snakelike shape, or other are any in bending shape, as long as guarantee the length of the titanium pipe evaporator 40 increasing water receptacle 50 inside, to improve refrigerating speed.

The concrete shape of above-mentioned water receptacle 50 can be arranged according to actual needs, such as, can be cylindric, rectangular-shaped etc., or also can be helical form or snakelike shape etc.

Particularly, in the present invention in a certain or all embodiments, please referring again to Fig. 1, described water receptacle 50 has the water storage cavity 53 for accommodating water, and described titanium pipe evaporator 40 is bending to be arranged in described water storage cavity 53.Above-mentioned water inlet 51 and delivery port 52 are communicated with water storage cavity 53 and arrange, water storage cavity 53 can be set to cylindrical shape, rectangular-shaped or other shapes, the size of water storage cavity 53 can be arranged according to actual needs, as long as titanium pipe evaporator 40 can be placed in inside completely.In the present embodiment, the shape of titanium pipe evaporator 40 can be helical form or snakelike shape, or other shapes.

Particularly, in the present invention in a certain or all embodiments, with reference to Fig. 2, Fig. 2 is the structural representation of liquid of the present invention and another embodiment of device for cooling, described water receptacle 50 has the water storage cavity 53 for accommodating water, described water storage cavity 53 is in arranging with the shape of described titanium pipe evaporator 40 adaptation, and described titanium pipe evaporator 40 is placed in described water storage cavity 53.In the present embodiment, the shape of above-mentioned water storage cavity 53 is substantially identical with the shape of titanium pipe evaporator 40, such as, with reference to Fig. 2, water storage cavity 53 and titanium pipe evaporator 40 are all set to snakelike shape, the diameter of water storage cavity 53 is greater than the external diameter of titanium pipe evaporator 40, and titanium pipe evaporator 40 is placed in water storage cavity 53, forms the space being used for accommodating water between the inwall for the formation of water storage cavity 53 of water receptacle 50 and the outer wall of titanium pipe evaporator 40.In the present embodiment, water storage cavity 53 and titanium pipe evaporator 40 can also be set to helical form or other shapes.In the present embodiment, by water storage cavity 53 is set to the shape with titanium pipe evaporator 40 adaptation, thus the water in water storage cavity 53 is more effectively contacted with titanium pipe evaporator 40, further increase the refrigerating speed to the water in water receptacle 50, thus further shorten cooling time, the use of convenient user.

Further, in the present invention in a certain or all embodiments, described liquid and device for cooling also comprise the temperature sensor 70 be fixedly installed on described water receptacle 50 and the controller 80 be electrically connected with described temperature sensor 70, and described controller 80 is also electrically connected with described compressor 10; Described temperature sensor 70 detects the temperature of the water of described water receptacle 50 inside in real time, and exports the temperature value of detection to described controller 80; Described controller 80 controls described compressor 10 according to described temperature value and opens or cut out.

In the present embodiment, said temperature sensor 70 is preferably fixedly installed on water receptacle 50 lateral wall, by the temperature of the water of temperature sensor 70 Real-Time Monitoring water receptacle 50 inside.It should be noted that in other embodiments, it is inner that temperature sensor 70 also can be located at water receptacle 50.

Temperature sensor 70 generates temperature signal, and is exported in controller 80 by temperature signal.A temperature range preset by controller 80, and such as, can preset a temperature range T1 to T2, wherein, the size of T1 and T2 can be arranged according to actual needs, and such as T1 can be set to 5 degree, and T2 can be set to 9 degree.Preferably, the difference general control of T2 and T1 is between 3 to 5 degree.After controller 80 receives temperature signal, judge whether the temperature of the water of current water receptacle 50 inside is greater than T2, when the temperature of the water of water receptacle 50 inside is greater than T2, then controller 80 controls compressor 10 and opens work, makes above-mentioned titanium pipe evaporator 40 start to freeze to the water of water receptacle 50 inside; When the temperature of the water of water receptacle 50 inside is less than T2, controller 80 judges whether the temperature of the water of current water receptacle 50 inside is less than T1 again, when the temperature of the water of water receptacle 50 inside is less than T1, then controller 80 controls compressor 10 and quits work, and makes above-mentioned titanium pipe evaporator 40 stop freezing to the water of water receptacle 50 inside; When controller 80 judges that the temperature of the water of current water receptacle 50 inside is between T1 and T2, namely the temperature of current water receptacle 50 inside is more than or equal to T1 degree, and is less than or equal to T2 when spending, then compressor 10 keeps current duty.The present embodiment controls unlatching or the closedown of compressor 10 by controller 80, makes compressor 10 to open frequently or to close, has effectively saved electric energy.

The present invention also provides a kind of water dispenser, and this water dispenser comprises liquid and device for cooling, and the structure of this liquid and device for cooling can refer to above-described embodiment, does not repeat them here.Naturally, the water dispenser due to the present embodiment have employed the technical scheme of aforesaid liquid and device for cooling, and therefore this water dispenser has aforesaid liquid and all beneficial effect of device for cooling.

The present invention also provides a kind of refrigerating method realized based on aforesaid liquid and device for cooling, and be the schematic flow sheet of an embodiment of the refrigerating method of liquid of the present invention and device for cooling with reference to Fig. 3, Fig. 3, this refrigerating method comprises the following steps:

Step S10, described temperature sensor 70 detects the temperature of the water of described water receptacle 50 inside in real time, and exports the temperature value of detection to described controller 80;

Step S20, described controller 80 judges whether described temperature value is more than or equal to the first preset temperature;

Step S30, when described temperature value is more than or equal to described first preset temperature, then described controller 80 controls described compressor 10 and opens;

Step S40, when described temperature value is less than described first preset temperature, then described controller 80 judges whether described temperature value is less than or equal to the second preset temperature;

Step S50, when described temperature value is less than or equal to described second preset temperature, then described controller 80 controls described compressor 10 and cuts out;

Step S60, when described temperature value is greater than the second preset temperature and is less than the first preset temperature, then described controller 80 controls described compressor 10 and keeps current operating conditions;

Wherein, described first preset temperature is greater than described second preset temperature.

Temperature sensor 70 generates temperature signal, and is exported in controller 80 by temperature signal.A temperature range preset by controller 80, such as, a temperature range T1 (i.e. above-mentioned second preset temperature) to T2 (i.e. above-mentioned first preset temperature) can be preset, wherein, the size of T1 and T2 can be arranged according to actual needs, such as T1 can be set to 5 degree, and T2 can be set to 9 degree.Preferably, the difference general control of T2 and T1 is between 3 to 5 degree.After controller 80 receives temperature signal, judge whether the temperature of the water of current water receptacle 50 inside is greater than T2, when the temperature of the water of water receptacle 50 inside is greater than T2, then controller 80 controls compressor 10 and opens work, makes above-mentioned titanium pipe evaporator 40 start to freeze to the water of water receptacle 50 inside; When the temperature of the water of water receptacle 50 inside is less than T2, controller 80 judges whether the temperature of the water of current water receptacle 50 inside is less than T1 again, when the temperature of the water of water receptacle 50 inside is less than T1, then controller 80 controls compressor 10 and quits work, and makes above-mentioned titanium pipe evaporator 40 stop freezing to the water of water receptacle 50 inside; When controller 80 judges that the temperature of the water of current water receptacle 50 inside is between T1 and T2, namely the temperature of current water receptacle 50 inside is more than or equal to T1 degree, and is less than or equal to T2 when spending, then compressor 10 keeps current duty.The present embodiment controls unlatching or the closedown of compressor 10 by controller 80, makes compressor 10 to open frequently or to close, has effectively saved electric energy.

These are only the preferred embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every utilize description of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (10)

1. a liquid and device for cooling, comprise and be communicated with by compressor, condenser, orifice union and evaporimeter the refrigeration system formed, it is characterized in that, described evaporimeter is titanium pipe evaporator, described liquid and device for cooling also comprise water receptacle, it is inner that described titanium pipe evaporator is placed in described water receptacle, and described water receptacle is provided with water inlet and delivery port, and the water being flowed into described water receptacle by described water inlet is flowed out by described delivery port by warp after described titanium pipe evaporator refrigeration.

2. liquid as claimed in claim 1 and device for cooling, is characterized in that, described titanium pipe evaporator comprises the first titanium pipe and is sheathed on the second titanium pipe outside described first titanium pipe.

3. liquid as claimed in claim 1 and device for cooling, is characterized in that, described titanium pipe evaporator is that bending is arranged.

4. liquid as claimed in claim 3 and device for cooling, is characterized in that, described titanium pipe evaporator in the shape of a spiral or snakelike shape arrange.

5. the liquid as described in claim 3 or 4 and device for cooling, is characterized in that, described water receptacle has the water storage cavity for accommodating water, and described titanium pipe evaporator is bending to be arranged in described water storage cavity.

6. the liquid as described in claim 3 or 4 and device for cooling, is characterized in that, described water receptacle has the water storage cavity for accommodating water, and described water storage cavity is in arranging with the shape of described titanium pipe evaporator adaptation, and described titanium pipe evaporator is placed in described water storage cavity.

7. liquid as claimed in claim 1 and device for cooling, it is characterized in that, described liquid and device for cooling also comprise the temperature sensor be fixedly installed on described water receptacle and the controller be electrically connected with described temperature sensor, and described controller is also electrically connected with described compressor; Described temperature sensor detects the temperature of the water of described water receptacle inside in real time, and exports the temperature value of detection to described controller; Described controller controls described compressor according to described temperature value and opens or cut out.

8. a water dispenser, is characterized in that, described water dispenser comprises liquid as described in any one of claim 1 to 7 and device for cooling.

9. the refrigerating method utilizing liquid as claimed in claim 7 and device for cooling to carry out, is characterized in that, comprise the following steps:

Described temperature sensor detects the temperature of the water of described water receptacle inside in real time, and exports the temperature value of detection to described controller;

Described controller judges whether described temperature value is more than or equal to the first preset temperature;

When described temperature value is more than or equal to described first preset temperature, then described controller controls the unlatching of described compressor;

When described temperature value is less than described first preset temperature, then described controller judges whether described temperature value is less than or equal to the second preset temperature;

When described temperature value is less than or equal to described second preset temperature, then described controller controls the cut out of described compressor;

When described temperature value is greater than the second preset temperature and is less than the first preset temperature, then described controller controls described compressor maintenance current operating conditions;

Wherein, described first preset temperature is greater than described second preset temperature.

10. refrigerating method as claimed in claim 9, it is characterized in that, the difference of described second preset temperature and described first preset temperature is 3 to 5 degrees Celsius.