SU976231A1 - Ice generator - Google Patents

Description

. (54) ICOGENERATOR

The invention relates to the field of refrigeration technological equipment, namely, ice generators with MSSHA performance for pre. N {l1) {public tandoods, transport, medical institutions, etc.

A ice machine with a rotatable ice form is known, consisting of ice-producing chambers open at the top and bottom, separated by a dividing partition with a built-in shaft TeJKM with supports and automation elements l; |.

The closest in technical essence and the achieved result to the proposed is an ice maker, which includes two conjugated ice forms on the shaft in the supports, separated by an elastic partition wall and an ice cell for the formation of ice and the refrigerant channel and the lid 2.

However, the well-known ice makers differ in significant dimensions and energy consumption due to the special mechanism for rotating ice molds,

The purpose of the invention is to reduce energy consumption and material consumption and ensure ease of use of an ice-generator.

 This goal is achieved by the fact that an ice maker containing two mating ice molds mounted on a shaft in supports, separated by an elastic partition and having cells for forming ice and a channel for casing agent, and a cover, is characterized in that the volume of cells located on one side of the longitudinal axis of symmetry ice forms, larger than the volume of cells located on the other side of the axis, and the shaft is installed with a shift from this axis in the horizontal plane towards smaller cells, while one of the supports has a spring-loaded pin with e Electrical contacts, and in each of the ice forms are made additional. a cell for water and a horizontal channel bounded on both sides by elastic membranes and filled with non-frozen lids with liquid, one end

25 of which is adjacent to the additional cell, and the other is intended to accommodate the pin.

FIG. 1 schematically and zobragase the proposed ice machine / common

30 view) in FIG. 2 - the same plan view.

in fig. 3 is the same, side view; in fig. 4 shows a section BB in FIG. 2

The ice maker contains two mating ice molds 1 separated by an elastic partition 2 and having channels 3 for the circulation of the refrigerant and cell 4 and 5 for the formation of ice of respectively larger and smaller volumes. Ice form 1 is mounted on shaft 6, mounted with a shift relative to their longitudinal axis of symmetry towards cells 5 of a smaller volume on supports 7. In each of ice forms 1, an additional cell 8 for water with heat insulation 9 and a horizontal channel 10 are made, bounded on both sides by elastic membranes. Nor filled with antifreeze. One end of the channel 10 is adjacent to the additional cell 8, and the other is designed to accommodate a spring-loaded pin 12 with a rounded head, mounted together with electrical contacts 13 on one of the supports 7. The ice maker is provided with a cover 14 alternately covering the ice mold 1 at their top location.

Ice machine works as follows.

At the initial moment of time, ice 1 is fixed in a horizontal position by pin 12, deforming the membrane. Not entering channel 10 Since cells 4 and 5 on both sides of the longitudinal symmetry axis of ice forms 1 have a different volume, the center of gravity of the system does not coincide with the intersection of the axes of symmetry A-A and C-C (Fig. 3) and is located at point d (to the right of the rotation axis B-b). After pouring water into the cells 4 and 5 of the top ice fi lplus 1, the center of the sheet will move up and to the left, since the weight of the water poured into the left side of the ice mold 1 is larger and is shown at point d (to the left of the B-B axis).

The cover 14 is lowered, the top ice mold is cooled due to the circulation of the refrigerant in the channels 3 and ice is formed in its cells 4 and 5. At the end of the process of ice formation, the portion of water in the additional cell 8 freezes, for which a certain thickness of the insulation layer 9 is selected, and the ice that is formed deforms the membrane 11, which through the fluid transfers force to another membrane 11 and this, in turn, pushes out pin 12 from channel 10. Pin 12, releasing the top ice mold 1 from latching, simultaneously closes contacts 13, giving a signal to lift the lid 14, after which the system of two ice molds 1 self-tilts and rotates through an angle of 180, and at displacements of the pin 12 with a channel 10

another ice mold 1 is again fixed by it in a horizontal position, while contacts 13 are opened, giving a signal to fill.

Due to the presence of friction in support 7 and the center of gravity offset relative to axis B-B, the angle of rotation of ice forms 1 is slightly less than 180, which is insufficient for fixing. However, when the ice forms 1 turn. In her cells in the cells, water flows into the ice receiver, and the central surface areas of the larger cells 4 are unfrozen, therefore in the process of turning the center

5 tons of tin of the system is shifted to a point .-, thereby ensuring its full rotation by 180 ° and fixation in a horizontal position. Then, the free upper mold 1 is poured, while the center of gravity is again shifted to the left relative to the axis of rotation B-B. At the end of the process of ice formation in the cells 4 and 5 of the upper ice mold 1, the pressure forces formed during freezing and expansion of the ice deform the partition 2 and squeeze the ice out of the cells of the lower ice mold 1 into the ice receiver. Thereafter, the cycle repeats.

0 thus provided

self-overturning of ice forms 1 with a turn of 180 and their fixation with simultaneous automation of the process of operation of the ice generator. Absence in

5 of the ice generator of the rotation mechanism of ice forms 1 simplifies its design, improves reliability, reduces weight and dimensions and energy consumption by 5-10%, and

0 process automation is provided not by special sensors, but by the structural elements of ice forms and the properties of the ice itself, which favorably affects the convenience

5 using the ice maker as a whole.

Claims (1)

Invention Formula An ice generator, including two mating ice molds mounted on a shaft in supports, separated by an elastic partition and having cells for forming ice and a channel for a refrigerant, and a lid, which also, in order to reduce energy consumption and material intensity and usability, cells located on one side of the longitudinal axis of symmetry of the ice molds, larger than the volume of the cells located on the other side of the axis, and the shaft is installed with a shift relative to this axis in the horizontal plane towards the cells of a smaller volume, n and this one of the supports is spring loaded