RU30243U1 - Device for defrosting frozen food blocks (options) - Google Patents

Abstract

1. A device for defrosting frozen food product blocks, comprising at least one working container with a side wall and a bottom mounted on the frame, and supports for frozen blocks located in the working container, a working medium supply system, characterized in that the device is additionally equipped with a pump, at least one drain pipe with a shut-off valve, a fluid collection system, a collection tank with a drain line equipped with an outlet valve, at least one removable cover, at least one a temperature sensor, an opening in the upper part of the side wall of the working container, at least one inlet pipe with a control valve, inlet and outlet pipes, with a removable cover mounted above the cavity of the working tank, a temperature sensor element is installed in the body of the frozen block, one end of the inlet pipe fixed in the hole of the working medium supply system, and its other end brought into the cavity of the working capacity through an opening in its side wall, the number of holes in the side wall of the working capacity and corresponds to the number of inlet pipes, the supports are mounted on a removable part, the working tanks are removable, the inlet pipe is in communication with the collecting tank and the pump, the outlet pipe is connected to the pump and the working medium supply system, the volume of the working capacity cavity under the frozen block is at least equal to the volume of the frozen unit, and the volumes of the cavities of the elements of the working circuit of the device are interconnected by the relation V-V + V + VVVVVVV-V + VVVV-V + V> 0, where V is the volume of the cavity of the collecting tank, m; V is the total volume of the cavities of the working tanks,

Description

DEVICE FOR DEFROSTATION OF FROZEN FOOD BLOCKS

IPC (b) A 23 in 4/06, A 23 L 3/365

The invention relates to food palpitations and can be used to defrost frozen blocks of food products and, in particular, frozen blocks of oysters with shfa,

 A device for destroying a frozen food product block, comprising a table for laying a product with wedge-shaped breaking elements with rounded ends, an organ with movable destructive elements, mounted above the table with the possibility of reciprocating movement in the vertical plane / A.с. USSR No. 1620082, A 23 B 4/06, A 22 C 25/18. Discovery Bulletin. Inventions No. 2, 1991 /. Destructive elements mounted on various structural elements are staggered relative to each other.

A disadvantage of the known device is that when the frozen block is destroyed, the product is relatively intensively injured as a result of the destructive elements being exposed to the block, and there is also no control over the temperature of the frozen block, which affects the consumer properties of food products.

A device for defrosting frozen blocks of fish and its salting, containing a bath, a nozzle for feeding brine, mesh brine separator, a grid for moving blocks of fish, located in the upper part of the bath device for moving and tilting fish, consisting of a frame mounted on a horizontal shaft with a pusher and flexible prisms placed on it / A.s. USSR No. 486736, A

PRODUCTS (l:) af) uaH7ti)

23 B 3/06. Bulletin “Oftpity. Inventions Industrial samples. Trademarks. No. 37, 1975 /.

A disadvantage of the known device is the relatively intense injury to food products as a result of exposure to them with a device for moving and tipping.

The closest in technical essence to the claimed device is a device for defrosting frozen food blocks, containing a vacuum chamber, consisting of autonomous sections, each of which has supports for frozen blocks and a funnel with a hatch installed in the bottom for unloading defrosted foods, a steam-liquid supply system mixtures and nozzles for water supply / A.s. USSR. No. 938890, A 23 B 4/06. Discovery Bulletin. Inventions Industrial samples. Trademarks. No. 24.1982 /.

The disadvantage of this device is that when exposed to a vapor-liquid flow on a food block, an intense local increase in the temperature of its outer surface occurs, as a result of which the consumer properties of food products deteriorate.

The objective of the invention is to remedy this drawback, namely, the implementation of the defrosting of food Hf products without creating high temperature gradients in the frozen food block.

To solve this problem, the first version of the device, containing at least one working tank with a side wall and a bottom installed on the frame, located in the working "support tanks for frozen blocks, a working medium supply system, is proposed:

- additionally supply a pump, drain pipes with shut-off valves, a system for collecting the working medium, a collection tank with a drain line and an outlet valve, removable fasteners, temperature sensors, holes in the upper part

3X) O-1fO-f {d side wall of working tanks, inlet pipes with control valves, inlet and outlet pipes;

- Install removable covers over the cavities of the working tanks; place sensitive elements of temperature sensors in the body of a frozen block;

- fix one end of the inlet pipe in the hole of the working medium supply system, and bring its other end to the cavity of the working tank through the hole in its side wall;

- the number of holes in the side wall of the working tank must be equal to the number of inlet pipes;

- supports to be fixed on a removable part;

-work containers to be removable;

- Inlet pipe to communicate with the collection tank and pump;

- connect the outlet pipe to the pump and the medium supply system;

- ensure that the volume of the cavity of the working container under the frozen block is at least equal to the volume of the frozen block;

- the volume of the cavities of the elements of the working circuit of the device to choose according to the ratio, taking into account the relationship of the volumes of various elements of the flowing part of the device.

The second basic version of the device, containing working containers mounted on the frame with side walls and a bottom, located in the working capacity of the support for frozen blocks and a system for supplying a working medium, is proposed:

- additionally provide drain pipes with shut-off valves, a system for collecting the working fluid, a collection tank with a drain line with an outlet valve, removable covers, temperature sensors, holes in the upper part of the side walls of the working tanks, inlet pipes with control valves and pressure pipes and pressure tanks;

-the upper parts of pressure vessels should be located above the corresponding working tanks;

- one end of the inlet pipe ufepit in the hole of the working fluid supply system, and the other end to bring into the cavity of the working container through the hole in its side wall;

-the number of holes in the side wall of the working tank to ensure equal to the number of inlet pipes;

- supports to be fixed on a removable part;

-work containers to be removable;

- a pressure pipe to connect with a pressure head capacity and system of supply of a working environment;

- ensure that the volume of the cavity of the working container under the frozen block is at least equal to the volume of the frozen block;

-volume of the cavities of the elements of the working circuit of the device, select lio to a ratio that takes into account the relationship between the volumes of various elements in the flow part of the device.

The second combined version of the device is offered:

- In addition, provide a pump, inlet and outlet pipes, a distribution pipe, inlet pipes and valves on them;

- Inlet pipe to communicate with the collection tank and pump;

- connect the outlet pipe to the pump and the distribution pipe;

- the number of supply pipes should be equal to the number of pressure tanks;

- close one end of the inlet pipe in the opening of the distribution pipe, place its other end above the pressure vessel;

- the volume of the cavities of the elements of the working circuit of the device to choose according to the ratio, taking into account the relationship of the volumes of various elements of the flowing part of the device.

In a number of device designs it is proposed: Supports of the first type are proposed:

-perform in the form of rods of relatively small diameter;

-the upper base of the rods should be equipped with spherical elements;

-the lower base of the rods to strengthen on a removable part;

- install the removable part on the bottom of the working tank;

-Spherical elements to place with touching the bottom surface of the frozen block.

Supports of the second type are proposed:

-to make from rods of relatively small diameter;

-install them horizontally with a gap in relation to the bottom of the working tank with touching the bottom surface of the frozen block;

- end supports to be fixed on a removable part mounted on the periphery of the bottom of the working tank.

Supports of the third type are proposed:

-perform in the form of rods of relatively small diameter;

-install them horizontally with a gap in relation to the bottom of the working tank with touching the bottom surface of the frozen block;

- end supports to be fixed on a removable part, having the form of a frame;

- place the removable part on the protrusions made on the inner surface of the side wall of the working container.

In some designs of devices with a pump, it is proposed to connect the inlet and outlet pipes to each other by a bypass line with a flow regulator.

In some devices, it is proposed to connect the temperature sensor with an electrical measuring device and / with a temperature level indicator.

In some devices, it is proposed to install a temperature sensor element in the geometric center of a frozen block. 5 The invention is illustrated by drawings, where in FIG. 1 image

a device with a pump, a collecting tank and supports of the second type; in Fig 2. a device with pressure vessels, a collection tank and supports of the first type; in FIG. 3 - a device with pressure vessels, a collecting tank and supporting elements of the first type; in FIG. 4 - a device with a pump, pressure tanks, collection tank and supporting elements of the third type; in FIG. 5 and 6, respectively, side and top views of the working capacity with supporting elements of the first type; in FIG. 7 and 8, respectively, side and top views of the working capacity with supporting elements

second type; in FIG. 9 and 10 are respectively side and top views of the working capacity with supporting elements of the third type.

The first embodiment of the device (figure 1) for defrosting frozen food blocks is implemented as follows.

At least one working tank 2 with a side wall 3 and a bottom 4 is installed on the frame 1. In the working tank 2 there are supports 5 for frozen blocks 6.

The first variant of the device also includes a system for supplying 7 working medium, a pump 8, at least one drain pipe 9 with a shut-off valve 10, a system for collecting 11 working medium, a collecting tank 12 with a drain line 13 equipped with an outlet valve 14, at least one removable 1 flask 15, at least one temperature sensor 16, a hole 17 in the upper part of the side wall 3 of the working tank 2, at least one inlet pipe 18 with a control valve 19, inlet 20 and outlet 21 pipes.

A removable hinge 15 is mounted above the cavity of the working vessel 2. A removable hinge 15 eliminates the oxidation of the surface of the frozen block by 6 rays of daylight. The sensor 22 of the temperature sensor 16 is installed in the body

frozen block 6. Temperature sensor 16 is designed to prevent exceeding a predetermined temperature level of the frozen block 6.

One end of the inlet pipe 18 is fixed in the hole of the supply system 7 of the working medium, and the other end is brought into the cavity of the working tank 2 through the hole 17 in its side wall 3.

The number of holes 17 in the side wall 3 of the working tank 2 corresponds to the number of inlet pipes 18.

The supports 5 are mounted on a removable part 23. This ensures a good flush of the cavities of the working containers 2 and the structural elements located therein.

Working containers 2 are removable. This allows you to serve the working capacity 2 independently of each other.

The inlet pipe 20 is in communication with the collection tank 12 and the pump 8.

The output pipe 21 is connected to the pump 8 and the supply system 7 of the working medium.

The volume of the cavity of the working container 2 under the frozen block 6 is at least equal to the volume of the frozen block 6. This provides relatively free access to the lower surface of the frozen block 6 and unhindered separation of the thawed foods QT of the frozen block 6 during its defrosting.

The volume of the cavities of the elements of the working circuit of the device are interconnected by the ratio

Vce-Vpe + Von + V36-Von-VH-V V3B-Veo-Vcn-VBB + V "rV, n-Vp, -V" cr-V + Vc "0, (1)

where Vce is the volume of the cavity of the collecting tank, Vpe is the total volume of the cavities of the working tanks located between the bottom and the hole in the side wall of the working tank, Von is the total volume of the supports, Vse is the total volume of frozen blocks, Vcn is the total volume of the cavity of the supply system, m; VH is the volume of the cavity of the pump, VCT is the volume of the cavity of the drain pipe, VSB is the total volume of the cavity

shut-off valves, Vcc is the total volume of the drainage system, USY is the volume of the cavity of the drain line, VBB is the volume of the cavity of the outlet valve, Uda is the total volume of temperature sensors in the parts of the working tanks filled with the working medium, UVP is the total volume of the cavities of the inlet pipes, Urv is the total volume of the cavities control valves, UVHT - the volume of the cavity of the inlet pipe, UVT - the volume of the cavity of the outlet pipe, Uod - the total volume of removable parts, m

The second version of the device (figure 2 and 3) for defrosting frozen food blocks is made as follows.

At least one working tank 2 with a side wall 3 and a bottom 4 is installed on the frame 1.,.

In the working tank 2, supports 5 for frozen blocks 6 are installed.

The second basic version of the device also includes a system 7 for supplying a working medium, at least one drain pipe 9 with a shut-off valve 10, a collection system 11 for a working medium, an assembled tank 12 with a main line 13, equipped with an outlet valve 14, at least one removable hinge 15 at least one temperature sensor 16, openings 17 in the upper part of the side wall 3 of the working vessel 2, at least one inlet pipe 18c with an adjustment valve 19, at least one pressure pipe 24 and at least one pressure vessel 25.

A removable hinge 15 is installed above the cavity of the working tank 2.

The sensing element 22 of the temperature sensor 16 is installed in the body of the frozen block 6.

At least the upper part of the pressure vessel 25 is located above its corresponding working tanks 2.

One end of the inlet pipe 18 is fixed in the hole of the supply system 7 of the working medium, and the other end is brought into the cavity of one of the working tanks 2 through the hole 17 in its side wall 3.

The number of holes 17 in the side wall 3 of the working tank 2 corresponds to the number

inlet pipes 18.

The supports 5 are mounted on a removable part 23,

The working tanks 2 are made removable.

The pressure pipe 24 is connected to the pressure tank 25 and the supply system 7 of the working medium.

The volume of the cavity of the working container 7 under the frozen block 6 is at least equal to the volume of the frozen block 6.

The volume of the cavities of the elements of the working circuit of the device are interconnected by the ratio

Uoe-Ure + Uop + Uzb-Us „-Uskh-Uzv-Uss-U Uvv + UdgUv“ -Urv- + Ued-U ”, - U„ e О, (1) WHERE Voe is the volume of the cavity of the collecting tank, Vpe is the total the volume of the cavities of the working tanks located between the bottom and the hole in the side wall of the working tank, Von is the total volume of the supports, Uz is the total volume of frozen blocks, Yen is the total volume of the cavity of the supply system, VCT is the volume of the cavity of the drain pipe, VSB is the total volume of the cavity of the shut-off valves , m; Vcc is the total volume of the cavity of the drain system, USL is the volume of the cavity of the drain line, VBB is the volume of the cavity of the outlet valve, Uda is the total volume of temperature sensors in the parts of the working tanks filled with the working medium, UVP is the total volume of the cavities of the inlet pipes, Urv is the total volume of the cavities of the control valves, USD total volume of removable parts, Utt - the total volume of the cavities of the pressure pipes, Y „- the total volume of the cavities of the pressure vessels, m

The second combined version of the device (Fig. 4), in comparison with the second basic version of the device, can be additionally equipped with a pump 8, an inlet 20 and an outlet 21, a distribution pipe 26, inlet pipes 27 and valves 28 on the inlet pipes 27. in this embodiment, the device is inlet pipe 20 is in communication with the collection tank

12 n pump 8, the outlet pipe 21 is connected to the pump 8 and the distribution pipe 26.

The number of supply pipes 27 corresponds to the number of pressure tanks 25.

One end of the supply pipe 27 is sealed in the opening of the distribution pipe 26, and the other end is located above the pressure tank 25.

The volume of the cavities of the elements of the working circuit in this device are interconnected by the ratio

Uoe-Ure + Uop + Uzb-Usp-U-UsgUzv-Uss-Usl-Uvv + Udg-Uvp-Urv-Uv sg-Uvt-UngU „e + Usd 0,

where Vce is the volume of the cavity of the collecting tank, Vpe is the total volume of the cavities of the working tanks located between the bottom and the hole in the side wall of the working tank, Von is the total volume of the supports, Uzb is the total volume of the frozen blocks, Vcn is the total volume of the cavity of the supply system, VH is the volume of the cavity of the pump, VCT - the volume of the cavity of the drain pipe, m; UZV is the total volume of the cavity of the shut-off valves, Vcc is the total volume of the cavity of the drain system, Vcn is the volume of the cavity of the drain line, VBR is the volume of the cavity of the outlet valve, V is the total volume of temperature sensors in the parts of the working tanks filled with the working medium, Ven is the total volume of the cavities of the inlet nozzles, Vpa - the total volume of the cavities of the control valves, VBXT - the volume of the cavity of the inlet pipe, VBT the volume of the cavity of the outlet pipe, Vm- - the total volume of the cavities of the pressure pipes, VHB - the total volume of the cavities of the pressure vessels, Vca - the total volume of removable x parts m.

In some versions of the devices, the pressure tank 25 is equipped with a level gauge 29, and the working tanks 2 are equipped with a level sensor 30 of the working medium (Figs. 1-4). This eliminates the overflow of the working medium through the side walls of the respective containers 2 and 25, for example, during operation of the pump 8.

0-MO-fC f3

10 Supports 5 of the first unit (Figs. 5 and 6) are made in the form of at least three

rods of relatively small diameter. The upper base of the supports 5 is equipped with a spherical element 31, and their lower base is mounted on a removable part 23 mounted on the bottom 4 of the working container 2. The spherical elements 31 are installed by touching the lower surface of the frozen block 6, Spherical elements exclude intensive injury of thawed products in the working container 2 .

The supports 5 of the second type (Figs. 7 and 8) are made in the form of at least two rods of relatively small diameter, mounted horizontally with a gap in relation to the bottom 4 of the working container 2 with the touch of the lower surface of the frozen block 6. The ends of the supports 5 are mounted on a removable part 23 mounted on the periphery of the bottom 4 of the working tank 2.

The supports 5 of the third type (Figs. 9 and 10) are made in the form of at least two rods of relatively small diameter, mounted horizontally with a gap with respect to the bottom 4 of the working container 2 with the touch of the lower surface of the frozen block 6. The ends of the supports 5 are mounted on a removable part 23, having the form of a frame. The removable part 23 is located on at least three protrusions 32, mounted on the inner surface of the side wall 3 of the working tank 2.

In devices with a pump 8, the inlet 20 and outlet 21 pipes can be interconnected by a bypass line 33 with a flow regulator 34 (Fig. 1 and 2). Bypass line 33 is designed to provide fine adjustment of the flow rate of the working medium in the working circuit of the device.

In some devices, the temperature sensor 16 is connected to an electrical measuring device 35 and / or an indicator of the temperature level 36. (Fig. 1 - 4). As an indicator of the temperature level 36 can be used light bulbs.

Sensing elements 22 of the temperature sensor 16 can be installed in the geometric center of the frozen block 6. Operation of the first embodiment of the device, the circuit of which is used

pump 8 is produced as follows;

- frozen blocks 6 are placed in working containers 2;

-in the openings of the frozen blocks 6 establish the sensing elements 22 of the temperature sensors 16;

-temperature sensors 16 are connected to electrical measuring devices 35 and / or to temperature level indicators 36;

-cavity of the working tank 2 from above is closed with removable covers 15;

- block the outlet valve 14 of the drain line 13 and the shut-off valves 10 of the drain tubes 9;

- open the control valves 19 of the inlet pipes 18;

- determine the temperature of the frozen blocks 6 using electrical meters 35 and / or an indicator of the temperature level 36;

-after reaching the required higher temperature values of the frozen blocks 6, turn on the pump 8 and supply the working medium through the outlet pipe 21, the supply system 7 of the working medium and the inlet pipes 18 in the cavity of the working containers 2;

- using level 30 sensors control the level of the working medium in the working tank 2;

- turn off the pump 8;

-adjusting valves 19 provide a position of the level of the working medium between the upper surface of the frozen block 6 and the lower part of the hole 17 in the side walls 3 of the working tanks 2;

-Frozen blocks 6 are kept in a working environment;

- thawed food products are removed from the working tank 2;

ii-lC f6 b

12 The indicated operations are repeated as many times as necessary.

To completely stop the device:

- open the outlet valve 14 of the drain line 13;

- the working medium is removed from the device circuit, for example, through a drainage system.

The operation of the second basic variant of the device, in the working circuit of which pressure vessels are used, is carried out as follows:

- frozen blocks 6 are placed in a working container 2;

-in the holes of the frozen blocks 6 set the sensing elements 22

temperature sensors 16;

- temperature sensors 16 are connected to electrical measuring devices 35 and / or temperature level indicators 36;

-cavities of working tanks 2 are closed from above with removable hinges 15;

-cross off the control valves 19 of the inlet pipes 18 and the outlet valve 14 of the drain line 13;

- pressure vessels 25 are filled with a working medium;

- block the shut-off valves 10 of the drain pipes 9;

- determine the temperature of the frozen blocks 6 by electrical measuring instruments 35 and / or temperature level indicators 36;

-after reaching the required higher temperature values of the frozen blocks 6, open the control valves 19 and through the pressure pipes 24 and inlet pipes 18, the working medium is fed into the cavity of the working tanks 2;

- using a level sensor 30 control the level of the working environment in the working tank 2;

-adjusting valves 19 are shut off at the moment when the level of the working medium occupies the position & ukdu the upper surface of the frozen block 6 and the lower part of the hole 17 in the side walls 3 of the working tank 2;

- thawed wheat products are removed from the working containers 2;

-open shut-off valves 10 drain pipes 9;

the working medium through the drain tubes 9, the collection system 11 is diverted to the collection tank 12;

- open the outlet valve 14 of the drain line 13;

- the working medium is removed from the working circuit of the device, for example, through a drainage system.

When operating the second combined version of the device, in the circuit of which pressure tanks x and a pump are installed, the following operations are performed:

- close the shut-off valves 10 of the drain pipes 9, the output valve 14 of the drain pipe 13 and the control valves 19 of the inlet pipes 18;

- open the valves 28 of the inlet pipes 29;

- turn on the pump 8;

-through the outlet pipe 21, the distribution pipes 26 and the supply pipes 27 fill the pressure vessels 25 with the working medium;

-with the help of level gauges 29, they control the level of the working medium in pressure vessels 25;

- turn on the pump 8;

- the vents 28 of the inlet pipes 27 are closed at the moment when the level of the working medium reaches the required position in the pressure vessels 25;

- frozen blocks 6 are placed in working containers 2;

-in the openings of the frozen blocks 6 establish the sensing elements 22 of the temperature sensor 16;

-temperature sensors 16 are connected to electrical measuring devices 35 and temperature level indicators 36;

- determine the temperature of the frozen block 6 using an electrical

instrument 35 and / or temperature level indicator 36;

- after reaching the required higher temperature values of the frozen blocks 6, the control valves 19 of the inlet pipes 18 open and the working medium is supplied through the pressure pipes 24, the supply system 7 of the working medium and the inlet pipes 18 in the cavity of the working containers 2;

-with the help of level sensors 30 of the working environment, monitor its level in the working tanks 2;

-adjustment valves 19 of the inlet pipes 18 are closed at the moment when the level of the working medium reaches a position between the upper surface of the frozen block 6 and the lower part of the hole 17 in the side wall 3 of the working tank 2;

-Frozen blocks 6 are kept in a working environment;

- thawed food products are removed from the working containers 2;

-open shut-off valves 10 drain pipes 9;

the working medium through the drain tube 9, the collection system 11 is diverted to the collection tank 12.

The indicated operations are repeated as many times as necessary. To completely stop the device:

- open the outlet valve 14 of the drain line 13;

- the working medium from the working contour of the device is diverted, for example, into the drainage system.

Prototypes of the first version of the device (with pump 8 in the circuit), the second basic version of the device (with pressure tanks 25) and the second combined version of the device (with pump 8 and pressure tanks 25) were created. Their performance and effectiveness are shown.

Devices tested with caviar defrosting. freezing blocks of hawks with

Claims (24)

1. A device for defrosting frozen food product blocks, comprising at least one working container with a side wall and a bottom mounted on the frame, and supports for frozen blocks located in the working container, a working medium supply system, characterized in that the device is additionally equipped with a pump, at least one drain pipe with a shut-off valve, a fluid collection system, a collection tank with a drain line equipped with an outlet valve, at least one removable cover, at least one a temperature sensor, an opening in the upper part of the side wall of the working container, at least one inlet pipe with a control valve, inlet and outlet pipes, with a removable cover mounted above the cavity of the working tank, a temperature sensor element is installed in the body of the frozen block, one end of the inlet pipe fixed in the hole of the working medium supply system, and its other end brought into the cavity of the working capacity through an opening in its side wall, the number of holes in the side wall of the working capacity and corresponds to the number of inlet pipes, the supports are mounted on a removable part, the working tanks are removable, the inlet pipe is in communication with the collecting tank and the pump, the output pipe is connected to the pump and the working medium supply system, the volume of the working capacity cavity under the frozen block is at least equal to the volume of the frozen block, and the volume of the cavities of the elements of the working circuit of the device are interconnected by the ratio _{Ce pe} V -V + V + V _op -V _{cn Qzb} -V _n -V -V _{Art ulcers} -V _{cc cl} -V -V + V _cc -V _{dt sn pB} -V -V -V _{vht Mo} + V _sd > 0, where V _ce - the volume of the cavity of the collection tank, m ³ ; V _re - the total volume of the cavities of the working tanks located between the bottom and the hole in the side wall of the working tank, m ³ ; V _op - total volume of supports, m ³ ; V _ZB - the total volume of frozen blocks, m ³ ; V _SP - the total volume of the cavity of the feed system, m ³ ; V _n - the volume of the pump cavity, m ³ ; V _article - the volume of the cavity of the drain pipe, m ³ ; V _Sv - the total volume of the cavity of the shut-off valves, m ³ ; V _ss - the total volume of the drain system, m ³ ; V _SL - the volume of the cavity of the drain line, m ³ ; V _centuries - the volume of the cavity of the outlet valve, m ³ ; V _dt is the total volume of temperature sensors in the parts of the working capacities filled with the working medium, m ³ ; V _VP - the total volume of the cavities of the inlet pipes, m ³ ; V _RV - the total volume of the cavities of the control valves, m ³ ; V _input - the volume of the cavity of the inlet pipe, m ³ ; V _W - the volume of the cavity of the outlet pipe, m ³ ; V _SD - the total volume of removable parts, m ³ . 2. The device according to claim 1, characterized in that the working capacity is equipped with a level sensor of the working environment. 3. The device according to claim 1, characterized in that the supports of the first type are made in the form of at least three rods of relatively small diameter, in which the upper base is equipped with a spherical element, the lower base is mounted on a removable part mounted on the bottom of the working container, spherical elements set by touching the bottom surface of the frozen block. 4. The device according to claim 1, characterized in that the supports of the second type are made in the form of at least two rods of relatively small diameter, mounted horizontally with a gap relative to the bottom of the working tank with touching the bottom surface of the frozen block, the ends of the rods are mounted on a removable part mounted on the periphery of the bottom of the working tank. 5. The device according to claim 1, characterized in that the supports of the third type are made in the form of at least two rods of relatively small diameter, mounted horizontally with a gap in relation to the bottom of the working tank with touching the bottom surface of the frozen block, the ends of the rods are mounted on a removable part in the form of a frame, which is located on at least three protrusions made on the inner surface of the side wall of the working container. 6. The device according to claim 1, characterized in that the inlet and outlet pipes are interconnected by a bypass line with a flow regulator. 7. The device according to claim 1, characterized in that the temperature sensor is connected to an electrical meter and / or temperature indicator. 8. The device according to claim 1, characterized in that the sensing element of the temperature sensors is installed in the geometric center of the frozen block. 9. A device for defrosting frozen food product blocks, comprising at least one working container with a side wall and a bottom mounted on the frame, supports for frozen blocks located in the working container and a working medium supply system, characterized in that the device is further provided with at least one drain pipe with a shut-off valve, a fluid collection system, a collection tank with a drain line equipped with an outlet valve, at least one removable cover, at least one sensor ohm temperature, with an opening in the upper part of the side wall of the working tank, at least one inlet pipe with a control valve, at least one pressure pipe, at least one pressure tank, and a removable cover is installed above the cavity of the working tank, the sensing element of the temperature sensor is installed in the body of the frozen block, at least the upper part of the pressure vessel is located above the corresponding working tanks, one end of the inlet pipe is fixed in the hole of the feed system eyes of the medium, and its other end is brought into the cavity of one of the working tanks through an opening in its side wall, the number of holes in the side wall of the working tank corresponds to the number of inlet pipes, the supports are mounted on a removable part, the working tanks are made removable, the pressure pipe is connected to the pressure tank and a system for supplying a working medium, the volume of the cavity of the working capacity under the frozen block is at least equal to the volume of the frozen block, and the volumes of the cavities of the elements of the working circuit of the device are related V _se -V _re + V _op + V _zb -V _sp -V _st -V _sv -V _ss -V _sl -V _cc + V _dt -V _cp -V _pv + V _sd -V _nt -V _not > 0, where V _ce - the volume of the cavity of the collection tank, m ³ ; V _re - the total volume of the cavities of the working tanks located between the bottom and the hole in the side wall of the working tank, m ³ ; V _op - total volume of supports, m ³ ; V _ZB - the total volume of frozen blocks, m ³ ; V _SP - the total volume of the cavity of the feed system, m ³ ; V _article - the volume of the cavity of the drain pipe, m ³ ; V _Sv - the total volume of the cavity of the shut-off valves, m ³ ; V _ss - the total volume of the cavity of the drain system, m ³ ; V _SL - the volume of the cavity of the drain line, m ³ ; V _centuries - the volume of the cavity of the outlet valve, m ³ ; V _dt is the total volume of temperature sensors in the parts of the working capacities filled with the working medium, m ³ ; V _VP - the total volume of the cavities of the inlet pipes, m ³ ; V _RV - the total volume of the cavities of the control valves, m ³ ; V _SD - the total volume of removable parts, m ³ ; V _NT - the total volume of the cavities of the pressure pipes, m ³ ; V _not - the total volume of the cavities of the pressure vessels, m ³ . 10. The device according to claim 9, characterized in that the pressure vessel is equipped with a level gauge. 11. The device according to claim 9, characterized in that the working capacity is equipped with a level sensor of the working environment. 12. The device according to claim 9, characterized in that the supports of the first type are made in the form of at least three rods of relatively small diameter, in which the upper base is equipped with a spherical element, the lower base is mounted on a removable part mounted on the bottom of the working container, spherical elements set by touching the bottom surface of the frozen block. 13. The device according to claim 9, characterized in that the supports of the second type are made in the form of at least two rods of relatively small diameter, mounted horizontally with a gap in relation to the bottom of the working tank with touching the bottom surface of the frozen block, the ends of the rods are mounted on a removable part mounted on the periphery of the bottom of the working tank. 14. The device according to claim 9, characterized in that the supports of the third type are made in the form of at least two rods of relatively small diameter, mounted horizontally with a gap in relation to the bottom of the working tank with touching the bottom surface of the frozen block, the ends of the rods are mounted on a removable part in the form of a frame, which is located on at least three protrusions made on the inner surface of the side wall of the working container. 15. The device according to claim 9, characterized in that the temperature sensor is connected to an electrical meter and / or temperature indicator. 16. The device according to claim 9, characterized in that the sensing element of the temperature sensors is installed in the geometric center of the frozen block. 17. A device for defrosting frozen food product blocks, comprising at least one working tank with a side wall and a bottom mounted on the frame, supports for frozen blocks located in the working tank and a working medium supply system, characterized in that it is additionally equipped with an inlet pump and an outlet pipe, a dispensing pipe, inlet pipes and valves on the inlet pipes, wherein the inlet pipe is in communication with the collection tank and the pump, the outlet pipe is connected to the pump and the distribution pipe d, the number of inlet pipes corresponds to the number of pressure vessels, one end of the inlet pipe is sealed in the opening of the distribution pipe, the other end is located above the pressure vessel, and the volume of the cavities of the elements of the working circuit of the device are interconnected by the ratio _Ce V -V + V _D + V _op -V _{cn Qzb} -V _n -V -V _{Art ulcers} -V _{cc cl} -V -V + V _cc -V _{dt sn} -V _{pe vht} -V -V -V _{W nt} -V _not + V _sd > 0, where V _ce - the volume of the cavity of the collection tank, m ³ ; V _re - the total volume of the cavities of the working tanks located between the bottom and the hole in the side wall of the working tank, m ³ ; V _op - total volume of supports, m ³ ; V _ZB - the total volume of frozen blocks, m ³ ; V _SP - the total volume of the cavity of the feed system, m ³ ; V _n - the volume of the pump cavity, m ³ ; V _article - the volume of the cavity of the drain pipe, m ³ ; V _Sv - the total volume of the cavity of the shut-off valves, m ³ ; V _ss - the total volume of the cavity of the drain system, m ³ ; V _SL - the volume of the cavity of the drain line, m ³ ; V _centuries - the volume of the cavity of the outlet valve, m ³ ; V _dt is the total volume of temperature sensors in the parts of the working capacities filled with the working medium, m ³ ; V _VP - the total volume of the cavities of the inlet pipes, m ³ ; V _RV - the total volume of the cavities of the control valves, m ³ ; V _input - the volume of the cavity of the inlet pipe, m ³ ; V _W - the volume of the cavity of the outlet pipe, m ³ ; V _NT - the total volume of the cavities of the pressure pipes, m ³ ; V _not - the total volume of the cavities of the pressure vessels, m ³ ; V _SD - the total volume of removable parts, m ³ . 18. The device according to 17, characterized in that the pressure tank is equipped with a level gauge. 19. The device according to 17, characterized in that the supports of the first type are made in the form of at least three rods of relatively small diameter, in which the upper base is equipped with a spherical element, the lower base is mounted on a removable part mounted on the bottom of the working container, spherical elements set by touching the bottom surface of the frozen block. 20. The device according to 17, characterized in that the supports of the second type are made in the form of at least two rods of relatively small diameter, mounted horizontally with a gap relative to the bottom of the working tank with touching the bottom surface of the frozen block, the ends of the rods are mounted on a removable part mounted on the periphery of the bottom of the working tank. 21. The device according to 17, characterized in that the supports of the third type are made in the form of at least two rods of relatively small diameter, mounted horizontally with a gap relative to the bottom of the working tank with touching the bottom surface of the frozen block, the ends of the rods are mounted on a removable part in the form of a frame, which is located on at least three protrusions made on the inner surface of the side wall of the working container. 22. The device according to 17, characterized in that the inlet and outlet pipes are interconnected by a bypass line with a flow regulator. 23. The device according to 17, characterized in that the temperature sensor is connected to an electrical meter and / or temperature level indicator. 24. The device according to 17, characterized in that the sensing element of the temperature sensors is installed in the geometric center of the frozen block.