RU186724U1 - Device for producing liquid from a moisture-containing raw material - Google Patents

Abstract

The proposed technical solution relates to the field of evaporation technology and can be used to produce liquid from a moisture-containing plant material with the lowest cost of electric energy. A device for producing a liquid from a moisture-containing plant material contains a heat-insulating frame with an internal sealed chamber with perforated distribution sheets installed with gaps relative to the internal the lateral surfaces of the sealed chamber, a tray to accommodate moisture-containing grow raw materials inside the sealed chamber, an auxiliary compartment mounted on the surface of the insulating frame, an air heater made, for example, in the form of a heater installed inside the auxiliary compartment and interacting with its outlet with the internal cavity of the sealed chamber, the first fan installed inside the auxiliary compartment and connected to its inlet to the internal cavity of the sealed chamber and its output to the inlet of the heater, a temperature sensor installed inside the auxiliary from section, a humidity sensor located inside the sealed chamber and interacting with its entrance with the inner cavity of the insulating frame, an air cooler, made, for example, in the form of a metal heat exchanger and a second fan, interacting with its entrance with the inner cavity of the sealed chamber, and with its outlet with the corresponding section of the outer surface heat exchanger, and located inside the auxiliary compartment, a container for collecting liquid, a controller installed inside the auxiliary compartment connected by its first input to the output of the reference signal source, its second input to the output of the temperature sensor, its third input to the output of the humidity sensor, and its corresponding outputs to the corresponding control inputs of the controlled keys connected by their respective inputs through the power switch to the outputs of the AC voltage network and their respective outputs to one of the corresponding inputs of the heater, the first and second fans and air cooler connected by other E inputs to the respective outputs vyklyuchatelya.Tehnichesky result achieved the proposed device for water-containing liquid from plant material, it is to create optimal, necessary and sufficient conditions to obtain a liquid of water-containing vegetable raw materials and to reduce electric energy cost of its preparation.

Description

The proposed technical solution relates to the field of evaporation technology and can be used to obtain liquid from a moisture-containing raw material with the least expenditure of electrical energy.

Similar technical solutions are known, see, for example, the description of the utility model for the patent of the Russian Federation No. 27689, which contains the following set of essential features:

- a metal frame made in the form of a sublimator with a lid and moisture-containing vegetable raw materials located inside the sublimator, providing ice formation by freezing the moisture-containing vegetable raw materials, and converting the formed ice into steam using a refrigeration unit;

- a fan that provides steam to the surface of the evaporator and its transformation into a liquid obtained from a moisture-containing plant material and its flow into a liquid collecting tank installed at the outlet of the evaporator;

- a control unit connected by its respective outputs to the corresponding inputs of the refrigerator, fan and evaporator.

Common features of the proposed technical solution for patenting and the above-described well-known similar technical solutions are:

- frame with cover;

- a fan that provides steam to the outer surface of the evaporator;

- a container for collecting liquid obtained from a moisture-containing plant material and installed at the outlet of the evaporator;

- a control unit connected by its respective outputs to the corresponding inputs of the air cooler (refrigeration unit), fan and evaporator.

A similar technical solution is also known, see the description of the invention to the patent of the Russian Federation No. 2450844, which is selected as the closest analogue, prototype and which contains:

- insulating frame;

-temperature sensor installed inside the insulating frame;

- a humidity sensor installed inside the insulating frame;

- an air heater made in the form of a heater installed inside a heat-insulating frame;

- the first fan installed inside the insulating frame and connected with its output to the input of the heater;

- a second fan for extracting steam from the inner cavity of the insulating frame installed inside the insulating frame;

- an air cooler connected by its inlet to the outlet of the second fan through an opening made in the rear end wall of the insulating frame;

- a container for collecting liquid located in its internal cavity at the outlet of the air cooler;

- a controller connected by its first input to the output of the reference signal source, by its second input to the output of the temperature sensor, by its third input to the output of the humidity sensor, by its first output to the control input of the first managed key connected by its output to one of the inputs of the heater, by its second the output to the control input of the second managed key, connected by its output to one of the inputs of the first fan, its third output to the control input of the third managed key, connected of its output to one of the second fan input, its fourth output to the control input of the fourth controllable switch, its output connected to one input of the air cooler;

- a switch connected by its respective inputs to the outputs of the AC voltage network and its respective outputs to the corresponding inputs of the first, second, third, fourth controlled keys and to the corresponding inputs of the air heater, fans and air cooler.

Common features of the proposed technical solutions for patenting and prototype are:

- insulating frame;

- a temperature sensor interacting with its input with a heated air stream;

- humidity sensor;

- air heater made in the form of a heater;

- the first fan, acting with its output on the input of the heater;

- air cooler;

- the second fan, acting with its output on the air cooler;

- a container for collecting liquid located in its internal cavity at the outlet of the air cooler;

- a controller connected by its first input to the output of the reference signal source, by its second input to the output of the temperature sensor, by its third input to the output of the humidity sensor, by its first output to the control input of the first managed key connected by its output to one of the inputs of the heater, by its second the output to the control input of the second managed key, connected by its output to one of the inputs of the first fan, its third output to the control input of the third managed key, connected of its output to one of the second fan input, its fourth output to the control input of the fourth controllable switch, its output connected to one input of the air cooler;

- a switch connected by its respective inputs to the outputs of the AC voltage network and its respective outputs to the corresponding inputs of the first, second, third, fourth controlled keys and to the corresponding inputs of the air heater, fans and air cooler.

The technical result, which cannot be achieved by any of the above-described similar technical solutions, is to create optimal, necessary and sufficient modes for producing liquid from a moisture-containing raw material and to reduce the cost of electric energy for its production.

The reason for the impossibility of obtaining the above technical result is that in similar technical solutions there are no humidity sensors, heat-insulating protective layers and the nodes and blocks included in the devices for obtaining liquid from moisture-containing raw materials are not rationally placed.

Given the characterization and analysis of known technical solutions, we can conclude that the task of creating devices that provide liquid from moisture-containing raw materials by creating the necessary optimal modes for producing steam from moisture-containing plant materials and its conversion into liquid with the least expenditure of electrical energy is relevant today .

The technical result indicated above is achieved by the fact that a device for producing liquid from a moisture-containing raw material containing a heat-insulating frame, a temperature sensor, a humidity sensor, an air heater made in the form of a heater, a first fan, which exits its output to the inlet of the heater, an air cooler, a second fan, acting on its output to the air cooler inlet, a liquid collection tank located at the air cooler outlet, a controller, while inside the heat-insulating frame an airtight chamber is laid with inner side perforated sheets installed with gaps relative to the inner side walls of the airtight chamber, the device is additionally equipped with an auxiliary compartment fixed to the outer surface of the insulating frame, while the air heater is installed inside the auxiliary compartment and interacts with its outlet with the internal cavity of one of the gaps, made between the side wall of the sealed chamber and the perforated sheet of the sealed chamber, and the first the fan installed inside the auxiliary compartment interacts with its entrance with the inner cavity of the other of the gaps made between the other perforated sheet and the other side wall of the sealed chamber, while the air cooler, the second fan and the temperature sensor are located inside the auxiliary compartment.

The controller is connected by its first input to the output of the reference signal source, by its second input to the output of the temperature sensor, by its third input to the output of the humidity sensor, by its first output to the control input of the first controlled key, connected by its output to one of the inputs of the heater, by its second output to the control input of the second managed key connected by its output to one of the inputs of the first fan, its third output to the control input of the third managed key connected to one output to one of the inputs of the second fan, its fourth output to the control input of the fourth controlled key, connected by its output to one of the inputs of the air cooler, and a switch connected by its respective inputs to the outputs of the AC voltage network and its corresponding outputs to the corresponding inputs of the first, second , the third, fourth controlled keys and to the corresponding inputs of the heater, the first and second fans and air cooler.

The introduction of an auxiliary compartment, an airtight chamber with internal perforated side walls, placement of an air heater, first and second fans, a temperature sensor and an air cooler inside the auxiliary compartment allows, when an alternating voltage of -220 V is applied to the corresponding inputs of the air heater, air is heated and it is supplied through perforated openings into the internal cavity of the sealed container and heat the moisture-containing raw materials.

Using a temperature sensor, measure the temperature inside the sealed container and, if it is exceeded, using a computer and the necessary equipment included to control the process of obtaining liquid from moisture-containing plant materials, disconnect the supply of an alternating voltage of -220 V from the air heater, and when the temperature drops inside capacity again to provide an alternating voltage of -220V and, thus, implement a strictly specified value of the temperature of the air inside a sealed container, which contributes to a more economical use of electric energy, since electric energy is used more efficiently and without loss of heating, previously located inside a sealed chamber, air heater, fans, temperature sensor, etc. elements and the creation of optimal air heating modes.

Using a humidity sensor, measure the air humidity inside the sealed chamber and, if it is exceeded, using a computer and the necessary equipment included to control the process of obtaining liquid from moisture-containing plant materials, disconnect the -220V AC supply from the air cooler and the second fan, and while reducing the humidity inside the sealed chamber, again ensure the supply of an alternating voltage of -220V and, thus, carry out a strictly specified value the moisture content of the air inside the sealed chamber and the release of steam from the moisture-containing vegetable raw materials, which through the second fan enters the outer surface of the proposed air cooler heat exchanger and turns into liquid droplets from the moisture-containing vegetable raw materials, which enter the liquid collection tank, thus ensuring creation of optimal necessary regimes for obtaining liquid from a moisture-containing plant material with less electric energy . What is the achievement of the above technical result.

The analysis of well-known technical solutions showed that none of them contains both the totality of essential features and distinctive features, which allowed us to conclude that the proposed technical solution for patenting has a "novelty" and "inventive step".

The proposed device for producing liquid from a moisture-containing raw material is illustrated by the following description and drawings, in which Fig. 1 shows the design of a device for producing a liquid from a moisture-containing raw material, and Fig. 2 shows a functional diagram of a process for controlling a liquid from a moisture-containing plant material.

A device for producing liquid from a moisture-containing raw material contains:

- an external heat-insulating frame, consisting, for example, of metal sheets, the inner surface of which is covered with heat-insulating layers-4, 5, 6, made, for example, of mineral wool and fixed to the corresponding surfaces of the metal sheets (not indicated in the drawing),

- inside the heat-insulating frame there is a sealed chamber made, for example, in the form of side metal sheets-1, 2, rear end metal sheet-3, lower and upper metal sheets (not shown and not indicated in the drawing) and interconnected by their side edges , for example, by welding and consisting additionally of two lateral perforated walls-7, 8 of a rectangular shape, installed with gaps-9, 10 relative to the inner surfaces of the metal side sheets-1, 2;

- double-leaf doors-11 with a handle-12, hermetically mounted on the end surface of the insulating frame;

- perforated pallet-13 for placement of moisture-containing vegetable raw materials in it, installed in the inner cavity of the sealed chamber between the inner surfaces of two perforated metal sheets-7, 8 on supports-14 (15);

- auxiliary metal compartment-16 with door-17 and handle-18, fixed by one of its end surfaces to the outer end surface of the insulating frame;

- an air heater, made, for example, in the form of a heater-19, installed in the inner cavity of the auxiliary compartment-16 and interacting with its output with the inner cavity of one of the gaps-10;

- the first fan-20, installed in the inner cavity of the auxiliary compartment-16 and interacting with its entrance with the inner cavity of the other from the gaps-9 and its output with the inlet of the air heater-19 through the metal inlet pipe-21;

- a temperature sensor-22 mounted on a corresponding portion of the outer surface of the inlet pipe body-21 and interacting with its entrance with a heated air stream coming from the internal cavity of the sealed chamber;

- humidity sensor-23, located inside the sealed chamber and interacting with its entrance with its internal cavity;

- an air cooler, made, for example, in the form of a metal heat exchanger-24, and a second fan-25, interacting with its inlet with the internal cavity of the sealed chamber, and with its outlet with the corresponding section of the outer surface of the metal heat exchanger-24, and located inside the auxiliary compartment -16;

- capacity-26 for collecting liquid obtained from moisture-containing plant materials, installed at the outlet of the heat exchanger-24 air cooler;

- controller-27 installed inside the auxiliary compartment -16 and connected by its first input to the output of the source-28 of the reference signals, its second input to the output of the temperature sensor-22, its third input to the output of the humidity sensor-23, its first output to the control input the first managed key-29, connected by its output to one of the inputs of the heater-19, its second output to the control input of the second managed key-30, connected by its output to one of the inputs of the first fan-20, by its third output to the control input of the third controlled key-31, connected by its output to one of the inputs of the second fan-25 and its fourth output to the control input of the fourth controlled key-32, connected by its output to one of the inputs of the heat exchanger-24;

- switch-33, connected by its respective inputs to the outputs of the AC voltage network and its corresponding outputs to the corresponding inputs of the first-29, second-30, third-31, fourth-32 controlled keys and to the corresponding inputs of Claorifer-19, fans-20, 25 and heat exchanger-24,

The proposed device for producing liquid from a moisture-containing plant material is as follows.

In the inner cavity of the sealed chamber, for example, a perforated metal pallet-13 is placed with moisture-containing plant material placed therein and the double-leaf doors-11 are closed. They turn on the switch-33 and provide the AC voltage of the 220V network through the contacts of the controlled keys-29, 30, 31 and 32, which are currently closed, and directly to the corresponding inputs of the air heater-19, first fan-20, second fan-25 and heat exchanger- 24.

Upon receipt of an alternating voltage of 220V, the air heater-19 provides heating of the air, and the first fan-20, acting on the air inlet of the air-heater-19 with its air flow, supplies heated air to the gap-10 of the airtight chamber, and then heated air through the perforated openings of the wall-8 enters the central part of the sealed chamber and heats the moisture-containing plant material, releasing moisture, which during heating turns into steam and through the perforated holes of wall-7 this steam under the influence of a second about fan-25 enters the outer surface of the air cooler, made, for example, in the form of a metal heat exchanger-24 and turns into droplets of liquid, and flows from its surface into a container-26, designed to collect liquid obtained from moisture-containing plant materials.

When the air temperature inside the sealed chamber is higher than the set, the signal received from the output of the temperature sensor-22 to the second input of the controller-27, in accordance with the signals received at the first input of the controller-27 from the output of the source-28 of the reference signals and in accordance with the set the program recorded in the memory block of the controller-27 is processed and from the first output of the controller-27 to the control input of the first managed key-29, as well as from the second output of the controller-27 to the control input of the second managed key-30 etsya signal flow. The contacts of the first-29 and second-30 controlled keys open and turn off the AC 220V supply to the inputs of the air heater-19 and the first fan-20 and the air heating stops, as does the supply of heated air to the internal cavity of the sealed chamber.

When the air temperature inside the sealed chamber decreases, the first and second outputs of the controller-27 again generate signals that are fed to the corresponding inputs of the air-heater-19 and the first fan-20 and the entire process of heating the air and its entry into the internal cavity of the sealed chamber continues.

When the air humidity inside the sealed chamber is higher than the specified one, the signal received from the output of the humidity sensor-23 to the third input of the controller-27, and the signal received from the output of the source-28 of the reference signals to the first input of the controller-27, in accordance with the specified program, recorded in the memory block of the controller-27, it is processed from the third and fourth outputs of the controller-27 to the control inputs of the third and fourth managed keys-31 and 32 receive the corresponding signals generated by the controller-27. The contacts of the third-31 and fourth-32 controlled keys open and turn off the supply of alternating voltage 220V to the inputs of the second fan-25 and heat exchanger-24, thereby preventing the entry of steam to the surface of the heat exchanger-24 and stopping the collection of liquid obtained from the moisture-containing plant material in the tank -26.

When the air humidity inside the sealed chamber decreases, the generated signals again appear on the third and fourth outputs of controller-27, which are fed to the corresponding control inputs of the third-31 and fourth-32 controlled keys and close their contacts. As a result of this, the AC voltage of the 220V network is again supplied to the corresponding inputs of the second fan-25 and heat exchanger-24 and the whole process of obtaining liquid from moisture-containing plant materials continues, with visual inspection by the operator. At the end of the flow of fluid from the surface of the heat exchanger-24 into the internal cavity of the tank-26, the switch-33 turns off the supply of AC voltage 220V from all nodes and units of the device for receiving fluid from moisture-containing plant materials. Double-leaf doors-11 are opened, the residual dehydrated moisture-containing plant material is removed from the internal cavity of the sealed chamber, and the next batch of moisture-containing plant material is loaded to carry out the next process of obtaining liquid from the moisture-containing plant material.

Thus, the proposed device for producing liquid from a moisture-containing plant material, by creating the necessary and sufficient optimal modes of heating the air and producing steam from a moisture-containing plant material, allows to obtain a liquid with the least expenditure of electrical energy.

Claims (2)

1. A device for producing liquid from a moisture-containing raw material, comprising a heat insulating frame, a temperature sensor, a humidity sensor, an air heater made in the form of a heater, a first fan acting on its output to the air heater inlet, an air cooler, a second fan acting on its output to the air cooler inlet, a container for collecting liquid, located at the outlet of the air cooler, a controller, characterized in that a sealed chamber with internal booths is located inside the heat-insulating frame perforated sheets installed with gaps relative to the inner side walls of the sealed chamber, the device is additionally equipped with an auxiliary compartment mounted on the outer surface of the insulating frame, while the air heater is installed inside the auxiliary compartment and interacts with its outlet with the internal cavity of one of the gaps made between the side wall of the sealed chamber and perforated sheet of the sealed chamber, and the first fan installed inside the auxiliary of the compartment, interacts with its entrance with the inner cavity of the other of the gaps made between the other perforated sheet and the other side wall of the sealed chamber, while the air cooler, the second fan and the temperature sensor are located inside the auxiliary compartment. 2. A device for producing liquid from a moisture-containing raw material according to claim 1, characterized in that the controller is connected by its first input to the output of the reference signal source, by its second input to the output of the temperature sensor, its third input to the output of the humidity sensor, its first output - to the control input of the first managed key connected by its output to one of the inputs of the heater, by its second output to the control input of the second managed key connected by its output to one of the inputs of the first fan, by its third output to the control input of the third controlled key connected by its output to one of the inputs of the second fan, by its fourth output to the control input of the fourth controlled key connected by its output to one of the inputs of the air cooler, and a switch connected by its respective inputs to the network outputs AC voltage and its corresponding outputs to the corresponding inputs of the first, second, third, fourth controlled keys and to the corresponding inputs of cal periphery, said first and second fan and air cooler.

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