SU937923A1 - Ice generator - Google Patents

Description

(5) LEDGENERATOR

,one

The invention relates to refrigeration engineering, in particular to devices for the preparation of ice, and can be applied in medical institutions, as well as in various industries: chemical, pharmaceutical and food, requiring ice.

Ice Generator Can also be used in camping conditions. The closest in technical essence to the present invention is an ice maker containing a refrigeration unit and an ice generator connected in parallel to the power source, a control unit, as well as sensors for water and ice level. Connected to the input of the control unit, which consists of relay-contact elements 1 I.

The disadvantage of this ice maker is that it does not provide sufficient reliability due to

use of ladder elements.

The purpose of the invention is to increase reliability.

This goal is achieved by the fact that in an ice maker containing a refrigeration unit and ice connected in parallel to a power source, a generator, a control unit, as well as water and ice level sensors connected to the input of the control unit, the control unit is equipped with two parallel connected simulators , in series with each of which an autonomous protection element is included, while the triacs are connected to one of the poles of the power source directly and through

Claims (1)

20 sensors of water availability and ice level, and to the other pole of the power source, the triacs are connected through a cooling unit and an ice former. FIG. 1 and 2 — the proposed ice generator, a general view; in fig. 3, the control unit, a general view ;, FIG. and 5 ice machine, section, fig 6, an electrical circuit diagram of the ice generator (only the main elements are shown. All units of the proposed ice generator are mounted inside the frame 1 closed front and back with the casings 2, and on the side with covers 3. The cooling unit k is installed at the bottom of the ice generator A collector 5 is provided on the back wall of the ice maker for draining the melted water and a connector 6 for connecting the control unit 7. In the upper part of the ice maker there are a water tank 8, a hopper 9 for ice collecting, an ice former 10 intermediate tank 11, temperature sensor-relay 13. The ice maker is equipped with a water presence sensor 1 and an ice level sensor 15. In control unit 7, two parallel connected triacs 16 and 17 are placed in series with each of which are autonomous elements 18 and 19 of protection, each of which are designed for the full load current. The control electrodes 20 and 21 of the triacs 16 and 17 are connected via resistors 22 and 23 to the common control circuit, the anodes 2 and 25 to the power supply pole 26, and the cathodes 27 and 28 each cue switch 1 8 and T9 to the inlet 29 of the load circuit of the ice former 10 and the refrigeration unit i |, the output 30 of which is connected to the electrical pole of the power supply. Each autonomous element 18 and 19 of the protection is connected independently and provided with a manual control element. The load circuit is formed by parallel-connected electrically driven elements of the refrigeration unit C and the ice former 10. The ice maker operates as follows. When connected to a power source, when the switching elements of water availability sensor 1 and ice level sensor 15 are closed in the triac control circuit 1b and 17, this indicates water availability and no overflow with bunker E) and both autonomous protection elements 18 and 19 are turned on, current flows through the control circuits of both triacs 16 and 17. However, that of the triacs 16 or 17 / turns on. By which, due to the inevitable spread of characteristics, the armature current is less than that of the other and supplies power to the electric motors of the refrigeration unit 4 and the ice former 10. Each of the triacs 16 and 17 is selected from calculation of the transmission of the full load current. The water entering the ice generator 10 from the tank 8 through the intermediate tank 3 starts to cool, freezes, is cut off the walls of the ice former 10 and is fed through tray 12 to the hopper 9. When the ice generator is operating, the temperature sensor 13 switches automatically provides the required operation mode of the cooling unit Q Sun the ice generator besides filling the tank 8 with water and removing it from the bunker 9 of the prepared ice, occurs automatically. If the working triac 16 or 17 goes out of order, then; Regardless of whether the libr breaks short circuit in the triac circuit, the second triac starts automatically and takes over the entire load, ensuring the normal operation of the ice maker without interruption in operation (the break in operation cannot exceed 0 , 01 s at a frequency of 50 Hz supply current). As a result, the reliability is improved (the survivability of the ice maker is 1.5-1.6 times as compared to ice makers of known constructions. Claim of the invention: The ice maker contains a refrigeration unit and an ice former connected in parallel with the power source, as well as water and level sensors ice connected to the input of the control unit, characterized in that, in order to increase reliability, the control unit is equipped with two parallel connected triacs in series with each of which An autonomous protection element is turned on, while the triacs are connected to one of the channels of the power source directly and through sensors — water level and ice level, and to the other pole of the power source, the triacs are connected through a cooling unit and an ice former. Sources of information taken into account in the examination 1. US patent number, class. 62-138, 1969 .. iF 2 Lj Fig.Z H 4 # 4