CN-122015377-A - Edible ice evaporator

Abstract

The invention belongs to the technical field of edible ice block preparation, and discloses an edible ice evaporator. The edible ice evaporator comprises a platy ice mold, wherein heart-shaped, strawberry-shaped or triangular ice making grooves are formed in the front surface and the rear surface of the ice mold, a refrigerant flow passage is arranged in the middle layer of the ice mold, a refrigerant inlet is formed in the bottom of one end of the ice mold, and a refrigerant outlet is formed in the top of one end of the ice mold. The invention realizes diversified formation of the edible ice through the personalized ice making groove, improves the added value of products, ensures uniform ice making by the interlayer refrigerant flow channel, improves the quality of the edible ice, has simple and reasonable integral structure, is suitable for various edible ice preparation scenes, solves the problems of single ice making form and uneven ice making of the existing evaporator, and has strong practicability.

Inventors

• ZHOU XIAOJIE
• ZHOU ZHENYE

Assignees

• 卡缪(山西)食品有限公司

Dates

Publication Date

20260512

Application Date

20260309

Claims (7)

1. 1. The edible ice evaporator is characterized by comprising a plate-shaped ice mold, wherein ice making grooves are formed in the front surface and the rear surface of the ice mold, a refrigerant flow passage is arranged in the middle layer of the ice mold, a refrigerant inlet is formed in the bottom of one end of the ice mold, and a refrigerant outlet is formed in the top of one end of the ice mold; the ice making groove is heart-shaped, strawberry-shaped or triangular.
2. 2. The edible ice evaporator of claim 1, wherein the top end of the ice mold is provided with a water distribution pipe along the transverse direction, water outlets are arranged in front of and behind the water distribution pipe in a downward manner, water outlet falling points of the water outlets are positioned on the top surface of the ice mold, and slopes for guiding water flow to the front surface and the rear surface are respectively arranged on the front section and the rear section of the top surface of the ice mold.
3. 3. An edible ice evaporator according to claim 2 wherein the bottom of the ice mould is connected to a water collection trough, the bottom of the ice mould is provided with a front and a rear inclined surfaces for converging water flow to the upper part of the water collection trough, the water collection trough is connected to a water source through a water return pipe, the water distribution pipe is connected to a water pump through a water supply pipe, and the water pump absorbs water from the water source.
4. 4. The edible ice evaporator according to claim 3, wherein the bottoms of the left end and the right end of the ice mold are fixedly connected with the adapter blocks, the adapter blocks are fixedly connected with the swinging shafts outwards, the swinging shafts rotate and are axially and slidably connected to the swinging seats, the swinging shafts at the right end penetrate through the swinging seats and are fixedly provided with the locking blocks at the end parts, the right end surface of the swinging seats is correspondingly provided with the locking grooves, when the ice mold is positioned at the left dead point, the locking blocks are inserted into the locking grooves, the ice mold cannot swing back and forth, and when the ice mold is positioned at the right dead point, the locking blocks are separated from the locking grooves, and the ice mold can swing back and forth.
5. 5. The edible ice evaporator of claim 4, wherein the swing seat is fixedly mounted on a bottom plate, slope-shaped ice falling plates are respectively arranged on the front side and the rear side of the ice mold, the two ice falling plates correspond to limit positions of the front and the rear swing of the ice mold, the ice mold is respectively attached to the front ice falling plate and the rear ice falling plate when swinging to a front dead point and a rear dead point, a refrigerator is placed below the ice mold on the bottom plate, and the refrigerator receives the bottom ends of the ice falling plates.
6. 6. The edible ice evaporator of claim 4, wherein a grip is provided at the right end of the ice mold.
7. 7. A method of preparing ice for consumption, using the ice for consumption evaporator of claim 5, further comprising the steps of: S1, pushing the ice mold to the left to a left dead point in a vertical state, and inserting a locking block into a locking groove to keep the ice mold vertical; S2, the refrigerating mechanism charges the refrigerant into the refrigerant flow channel from the refrigerant inlet, and the refrigerant flowing through the ice mold flows back from the refrigerant outlet; the water pump sends water to the water distribution pipe, then the water flows to the top surface of the ice mold from the water outlet hole, then the water flows to the front surface and the back surface of the ice mold along the inclined surface of the top surface, the water flows through the converging inclined surfaces at the bottom end of the ice mold after passing through the front surface and the back surface of the ice mold, and then the water flows into the water collection tank to reflux to form water circulation; S3, after a certain time, when the ice cubes grow to the required thickness, ice is ready to be removed, the hot fluorine is conveyed to heat the ice mold through the refrigerant channel, the ice cubes are attached to the ice making groove to start melting, and the ice cubes start falling; S4, moving the ice mold rightward, enabling the locking block to be separated from the locking groove, enabling the ice mold to swing forward to the ice falling plate in front of collision and lamination, enabling ice cubes in the ice making groove on the front surface of the ice mold to collide with the ice falling plate in front of the ice making groove, then enabling the ice mold to swing backward to the ice falling plate behind the collision and lamination, enabling the ice cubes in the ice making groove on the rear surface of the ice mold to collide with the ice falling plate behind the ice falling plate, resetting the ice mold, and enabling the ice cubes collided on the ice falling plate to slide to the refrigerator along an inclined plane to obtain edible ice cubes.

Description

Edible ice evaporator Technical Field The invention belongs to the technical field of edible ice cake preparation, and particularly relates to an edible ice evaporator. Background The edible ice is widely applied to the scenes of drink modulation, dessert decoration, cold chain preservation and the like, and the preparation efficiency, the product form and the sanitary safety of the edible ice directly influence the production operation of related industries. At present, in edible ice preparation equipment on the market, an evaporator is used as a core ice making component, and a plurality of problems to be solved still exist. The existing ice making mould of the edible ice evaporator mostly adopts a single plane or a simple groove structure, the ice making shape is monotonous, the conventional forms such as square, cylindrical and the like are mostly adopted, the requirements of industries such as drinks, desserts and the like on personalized and attractive edible ice cannot be met, and the added value of products is difficult to improve. Meanwhile, the water distribution structure of the existing evaporator mostly adopts a single water outlet mode, water flows can not uniformly cover all ice making areas of the ice making mould, the problems of uneven ice making thickness and irregular ice block forming are easy to occur, and the quality of edible ice is influenced. In addition, the existing edible ice evaporator is mainly in an ice removing mode by manually removing ice, the ice removing efficiency of the manual handheld ice mold is low, the labor intensity is high, the edible ice is easy to pollute, in addition, in the ice removing and falling process, inconvenient ice cubes are collected, and the ice cubes are easy to damage, so that the ice cube yield is reduced. Aiming at the defects of the prior art, a need exists for an edible ice evaporator which can realize personalized ice making, uniform water distribution, convenient and efficient ice removal and simple and reasonable structure, so as to solve the problems in the prior art. Disclosure of Invention In order to overcome the technical problems, the invention provides an edible ice evaporator. The invention adopts the following technical scheme: An edible ice evaporator comprises a plate-shaped ice mold, wherein ice making grooves are formed in the front surface and the rear surface of the ice mold, a refrigerant flow channel is arranged in an intermediate layer of the ice mold, a refrigerant inlet is formed in the bottom of one end of the ice mold, and a refrigerant outlet is formed in the top of one end of the ice mold; the ice making groove is heart-shaped, strawberry-shaped or triangular. Preferably, the top of the ice mold is provided with a water distribution pipe along the transverse direction, the front and the rear of the water distribution pipe are respectively provided with a water outlet hole in a downward direction, the water outlet falling point of the water outlet hole is positioned on the top surface of the ice mold, and the front section and the rear section of the top surface of the ice mold are respectively provided with a slope for guiding water flow to the front surface and the rear surface. Preferably, the bottom of the ice mold is connected with a water collecting tank, the bottom end of the ice mold is provided with a front inclined plane and a rear inclined plane so as to collect water flow above the water collecting tank, the water collecting tank is connected with a water source through a water return pipe, the water distribution pipe is connected with a water pump through a water supply pipe, and the water pump absorbs water from the water source. Preferably, the bottoms of the left end and the right end of the ice mold are fixedly connected with the adapter blocks, the adapter blocks are fixedly connected with the swinging shafts outwards, the swinging shafts rotate and are axially and slidably connected to the swinging seats, the swinging shafts at the right end penetrate through the swinging seats and are fixedly provided with the locking blocks at the end parts, the right end surface of the swinging seats is correspondingly provided with the locking grooves, when the ice mold is positioned at the left dead point, the locking blocks are inserted into the locking grooves, the ice mold cannot swing back and forth, and when the ice mold is positioned at the right dead point, the locking blocks are separated from the locking grooves, and the ice mold can swing back and forth. Preferably, the swing seat is fixedly arranged on the bottom plate, slope-shaped ice falling plates are respectively arranged on the front side and the rear side of the ice mold, the two ice falling plates correspond to limit positions of the front-back swing of the ice mold, the front ice falling plate and the rear ice falling plate are respectively attached when the ice mold swings to a front dead point and a rear dead point, the bottom plate is p