CN205090690U - Atomizing successive layer refrigeration device - Google Patents

Abstract

The utility model provides an atomizing successive layer refrigeration device, it includes makes refrigerator, cold water storage cistern, the lower part design air conditioning chamber of system refrigerator, the design of air conditioning chamber bottom has the slip track, the design has gliding storage refrigerator from beginning to end on the slip track, the upper portion design of system refrigerator has the spraying water tank, spraying water tank upper portion has let in high -pressure gas, spraying water tank sub -unit connection has the atomising head of the downward array of nozzle, the spraying water tank with the cold water storage cistern links to each other, system refrigerator upper portion is equipped with the air conditioning module, air conditioning module gas outlet with air conditioning chamber left side upper portion intercommunication, air conditioning module air inlet with air conditioning chamber right side upper portion intercommunication. The ice pellets volume of the device preparation is littleer, is convenient for to the parcel of the freezing object of needs, can be so that cold -stored space utilization be higher, and littleer volume makes the holistic area of contact of ice pellets bigger simultaneously, and freezing efficiency is higher.

Description

Atomizing is refrigerating plant successively

Technical field

The utility model relates to ice cube technical field of processing equipment, is specifically related to a kind of atomizing successively refrigerating plant.

Background technology

Aqueous water can be frozen into the ice cube of solid in subzero, and ice cube can only be kept at subzero at normal temperatures and pressures, and ice cube can absorb a large amount of heat at heat post liquefaction, contributes to the Cord blood of article.Therefore ice cube is often used in food preservation aspect, to prevent the corruption of food.Ice machine can be divided into sheet ice machine and block ice machine according to the difference of ice making shape, and the ice cube that sheet ice machine makes is sheet, not rule, and block ice machine need to use mould, operating process is comparatively loaded down with trivial details, and simultaneously efficiency is lower.And the no matter sheet ice cube that ice machine makes or its volume of block ice cube are comparatively large, be used for needing food wrap when storing food with ice cube like this, more ice cube of using up, ice cube can take more volume.

Summary of the invention

For above problem, the utility model provides a kind of by spray structure, directly the droplet of atomization is frozen into the atomizing successively refrigerating plant of ice cube.

The utility model solves the technical scheme that its technical problem adopts: this atomizing successively refrigerating plant comprises ice making case, cold water storage cistern, the bottom design cold air cavity of described ice making case, described cold air cavity bottom design has sliding rail, and described sliding rail is designed with can the ice storage box of slide anteroposterior; Described ice making upper box part is designed with spray water tank, and described spray water tank top has passed into gases at high pressure, and described spray water tank bottom is connected with the fog-spray nozzle of the downward array of nozzle, and described spray water tank is connected with described cold water storage cistern; Described ice making upper box part is equipped with cold air module, and described cold air module gas outlet is communicated with described cold air cavity left upper portion, and described cold air module air inlet is communicated with described cold air cavity right upper portion.

As preferentially, described sliding rail is designed with heater.

As preferably, the upper edge of described ice storage box along and the lower edges closing contact of described cold air cavity, ice storage box and described cold air cavity form closed cavity.

As preferentially, the cold air temperature that described cold air module is made is lower than subzero 15 DEG C.

As preferably, described ice making lower box part is hinged with bin gate, and described ice storage box enters described cold air cavity bottom from described bin gate push-and-pull.

The beneficial effects of the utility model are: during the successively refrigerating plant use of this atomizing, ice storage box is pushed described cold air cavity bottom, described cold air module is opened, cold air is blown in cold air cavity, described cold water storage cistern inputs cold water to spray water tank, and described fog-spray nozzle is opened, and makes fog-spray nozzle in cold air cavity, spray the vaporific globule in the upper gas of spray water tank, the vaporific globule becomes small ice pellets in the position rapid condensation of cold air, relies on gravity to be successively laid on described ice storage box inner.The suitable measurer of spray water tank, has the function of quantitative ice making; The gases at high pressure on described spray water tank top not only can make spray water tank form water under high pressure, and the water in described spray water tank and described fog-spray nozzle can all squeeze out by gases at high pressure simultaneously, prevents the water freezing of its inside from damaging device.The ice pellets volume that this device makes is less, is convenient to, to the parcel needing freezing object, refrigerating space utilization rate can be made higher, and less volume makes the contact area of ice pellets entirety larger simultaneously, and freezing efficiency is higher.

Accompanying drawing explanation

Fig. 1 is the structural representation of this atomizing successively refrigerating plant.

Detailed description of the invention

Below in conjunction with embodiment, the utility model is further illustrated:

As shown in the embodiment shown in fig, this atomizing successively refrigerating plant comprises ice making case 1, cold water storage cistern 2, the bottom design cold air cavity 11 of described ice making case 1, described cold air cavity 11 bottom design has sliding rail 12, and described sliding rail 12 is designed with can the ice storage box 3 of slide anteroposterior; Described ice making case 1 upper design has spray water tank 13, and described spray water tank 13 top has passed into gases at high pressure, and described spray water tank 13 bottom is connected with the fog-spray nozzle 14 of the downward array of nozzle, and described spray water tank 13 is connected with described cold water storage cistern 2; Described ice making case 1 top is equipped with cold air module 4, and described cold air module 4 gas outlet is communicated with described cold air cavity 11 left upper portion, and described cold air module 4 air inlet is communicated with described cold air cavity 11 right upper portion.

During the successively refrigerating plant use of this atomizing, ice storage box 3 is pushed described cold air cavity 11 bottom, described cold air module 4 is opened, cold air is blown in cold air cavity 11, described cold water storage cistern 2 inputs cold water to spray water tank 13, described fog-spray nozzle 14 is opened, hydraulic pressure is provided in the upper gas of spray water tank 13, fog-spray nozzle 14 is made to spray the vaporific globule in cold air cavity 11, the vaporific globule is due to small volume, be easy to icing, under the effect of cold air, rapid condensation becomes small ice pellets, relies on gravity to be successively laid on described ice storage box 3 inner.The suitable measurer of spray water tank 13, has the function of quantitative ice making, exactly to after spray water tank 13 injects quantitative water, is closed by described spray water tank 13 water inlet, then automatic stopping after the water spray in spray water tank 13 completes.The gases at high pressure on described spray water tank 13 top not only can make spray water tank 13 form water under high pressure, water in described spray water tank 13 and described fog-spray nozzle 14 can all squeeze out by gases at high pressure simultaneously, prevents the water freezing of its inside from damaging device.The ice pellets volume that this device makes is less, is convenient to, to the parcel needing freezing object, refrigerating space utilization rate can be made higher, and less volume makes the contact area of ice pellets entirety larger simultaneously, and freezing efficiency is higher.Described cold air module 4 flows into from described cold air cavity 11 one end, flows out, the temperature of described cold air cavity 11 can be kept like this to maintain lower temperature from the other end, and the described cold air that can prevent leaks outside simultaneously, and capacity usage ratio is higher.

Described sliding rail 12 is designed with heater.This device is after having made ice pellets, and described sliding rail 12 and ice storage box 3 may freeze together, by the heater on sliding rail 12, and can so that being separated of described sliding rail 12 and ice storage box 3.

As shown in Figure 1, the upper edge of described ice storage box 3 is along the lower edges closing contact with described cold air cavity 11, and ice storage box 3 and described cold air cavity 11 form closed cavity.The outflow of cold air can be prevented like this, advantageously in insulation.

Specifically, position keeps described cold air cavity 11 to be condensed by mist pearl fast, and the cold air temperature that described cold air module 4 is made is lower than subzero 15 DEG C.

As shown in Figure 1, described ice making case 1 lower hinge has bin gate, and described ice storage box 3 enters described cold air cavity bottom from described bin gate push-and-pull.Like this can so that the putting into of described ice storage box 3, and the taking-up of ice storage box 3 after the full ice pellets of system.

Claims (5)

1. an atomizing successively refrigerating plant, it comprises ice making case (1), cold water storage cistern (2), bottom design cold air cavity (11) of described ice making case (1), it is characterized in that: described cold air cavity (11) bottom design has sliding rail (12), described sliding rail (12) is designed with can the ice storage box (3) of slide anteroposterior; Described ice making case (1) upper design has spray water tank (13), described spray water tank (13) top has passed into gases at high pressure, described spray water tank (13) bottom is connected with the fog-spray nozzle (14) of the downward array of nozzle, and described spray water tank (13) is connected with described cold water storage cistern (2); Described ice making case (1) top is equipped with cold air module (4), described cold air module (4) gas outlet is communicated with described cold air cavity (11) left upper portion, and described cold air module (4) air inlet is communicated with described cold air cavity (11) right upper portion.

2. atomizing according to claim 1 successively refrigerating plant, is characterized in that: (12) are designed with heater to described sliding rail.

3. atomizing according to claim 1 successively refrigerating plant, it is characterized in that: the upper edge of described ice storage box (3) is along the lower edges closing contact with described cold air cavity (11), and ice storage box (3) and described cold air cavity (11) form closed cavity.

4. atomizing according to claim 1 successively refrigerating plant, is characterized in that: the cold air temperature that described cold air module (4) is made is lower than subzero 15 DEG C.

5. atomizing according to claim 1 successively refrigerating plant, is characterized in that: described ice making case (1) lower hinge has bin gate, and described ice storage box (3) enters described cold air cavity bottom from described bin gate push-and-pull.