RU2450844C2 - Device for extraction of fluid from moisture-containing raw stock - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: proposed invention relates to evaporation equipment. Proposed device incorporates temperature and moisture pickups, blower to extract steam from inner space of metal carcass. Aforesaid pickups are arranged inside said carcass. Aforesaid blower is fitted in opening arranged in metal carcass face wall. Said opening communicates with cooler inlet. One input of blower is connected with AC circuit output. Second input of said blower is connected via control switch to another output of AC circuit. Controller is connected by its first input to setting signal source output. Controller second input is connected to temperature pickup. Controller third input is connected to moisture pickup. Controller first output is connected to control input of first controlled switch. Heat power source is made up of air heater. One input of air heater is connected with AC circuit output. Another input of air heater is connected with another AC circuit output via second control switch. Its control input is connected to controller second input and air heater blower second input. Its first input is connected with AC circuit output. Second input of said blower is connected via control switch to another output of AC circuit.

EFFECT: optimum performances, power savings.

Description

The invention relates to the field of evaporation technology and can be used to produce liquids from moisture-containing raw materials with less electrical energy.

Similar technical solutions are known, see, for example, the description of the invention to the USSR copyright certificate No. 929977, which contains the following set of essential features:

- a metal frame of a rectangular shape;

- a drive vertically mounted inside a metal frame of a rectangular shape;

- a mounting unit mounted on the upper end of the shaft (rotor) of the drive;

- moisture-containing material in the form of wood logs fixed in the mount;

- a source of thermal energy installed inside a metal frame of a rectangular shape;

- prefabricated containers pivotally attached to the ends of the mount, to collect the liquid removed from the wood.

Common features of the proposed technical solution and technical solution of the description of the invention according to the USSR copyright certificate No. 929977 are:

- a metal frame of a rectangular shape;

- a moisture-containing material (wood raw material) located inside a metal frame of a rectangular shape .;

- a source of thermal energy installed inside a metal frame of a rectangular shape;

- a container for collecting liquid removed from the moisture-containing material.

A similar technical solution is also known, see, for example, the description of the invention to the USSR copyright certificate No. 1205922, which contains the following set of essential features:

- container with evaporated raw materials;

- the first evaporator connected with its internal cavity to the outlet of the tank with the evaporated raw material and to the outlet of the source of heating steam;

- a second evaporation apparatus connected by its internal cavity to the internal cavity of the first evaporation apparatus and to the output of the source of heating steam;

- a steam condenser connected by its internal cavity to the internal cavity of the second evaporator;

- distillate cooler, made in the form of a multi-stage adiabatic evaporator, connected by its input to the output of the steam condenser;

- a container for collecting liquid removed from the feedstock, connected by its internal cavity through the receiver to the outlet of the cooler.

Common features of the proposed technical solution and a similar technical solution presented in the description of the invention to the USSR copyright certificate No. 1205922 are:

- at least one evaporator;

- source of thermal energy;

- evaporated raw materials inside the evaporator;

- a cooler connected by its inlet to the internal cavity of the evaporator;

- a capacity for collecting liquid from the evaporated raw material, connected by its internal cavity to the outlet of the cooler.

A similar technical solution is also known, see, patent of the Russian Federation No. 21115737, which is selected as the closest analogue (prototype) and which contains the following set of essential features:

- vertically mounted, metal body of cylindrical shape;

- the first source of thermal energy located in the lower part of the cylindrical body and forming the first evaporation chamber;

- a second source of thermal energy located above the first source of thermal energy and forming a second evaporation chamber connected by its internal cavity to the outlet of the tank with evaporated raw materials;

- a third source of thermal energy located above the second source of thermal energy and forming a third evaporation chamber connected by its internal cavity to the internal cavity of the second evaporation chamber;

- a fourth source of thermal energy located above the third source of thermal energy and forming a fourth evaporation chamber connected by its internal cavity to the internal cavity of the third evaporation chamber;

- a fifth source of thermal energy located above the fourth source of thermal energy and forming a fifth evaporation chamber connected by its internal cavity to the internal cavity of the fourth evaporation chamber and to the inlet of the liquid collection tank;

- a first condensate column connected by its inlet to the inner cavity of the first evaporation chamber and by its outlet to the inner cavity of the second evaporation chamber;

- a second condensate column connected by its inlet to the inner cavity of the second evaporation chamber and by its outlet to the inner cavity of the third evaporation chamber;

- a third condensate column connected by its inlet to the inner cavity of the third evaporation chamber and by its outlet to the inner cavity of the fourth evaporation chamber;

- a fourth condensate column connected by its inlet to the inner cavity of the fourth evaporation chamber and by its outlet to the inner cavity of the fifth evaporation chamber;

- a cooler connected by its input to the output of the fourth condensate column and to the inner cavity of the fifth evaporation chamber;

- a container for collecting liquid removed from the feedstock, connected by its internal cavity to the outlet of the cooler.

Common features of the proposed technical solution and prototype are:

- metal carcass;

- a source of thermal energy located inside the metal frame;

- feedstock located inside the metal frame;

- a cooler connected by its inlet to the internal cavity of the metal frame;

- a container for collecting liquid removed from the feedstock, located with its internal cavity at the outlet of the cooler.

The technical result, which cannot be achieved by any of the similar technical solutions described above, is to create optimal heating modes and produce steam from a moisture-containing raw material.

The reason for the impossible achievement of the above technical result is that the current practice in creating means for producing liquids from moisture-containing raw materials did not pay due attention to the creation of optimal heating modes and obtaining steam from moisture-containing raw materials.

The technical result indicated above is achieved in that a device for producing liquid from a moisture-containing raw material containing a metal frame, a heat source located inside the metal frame, a moisture-containing raw material located inside the metal frame, a cooler connected by its inlet to the inner cavity of the metal frame, and a container for collecting liquid, installed by its internal cavity at the outlet of the cooler, is equipped with a temperature sensor mounted inside a metal of the frame, a humidity sensor installed inside the metal frame, a fan for extracting steam from the inner cavity of the metal frame, installed in the hole made in the rear end wall of the metal frame, communicating with its output with the cooler input and connected with its input to one of the AC voltage outputs and its second input through the first controlled key to another output of the AC voltage network, and a controller connected by its first input to the output of the source the task of the task, its second input to the output of the temperature sensor, its third input to the output of the humidity sensor and its first output to the control input of the first controlled key, while the heat source (fan heater) is made in the form of a heater connected by its first input to one of the outputs AC voltage and its second input to another output of the AC voltage through a second controlled key connected by its control input to the second output of the controller, and a fan for wa heater, connected to its first input to one of the outputs of the network alternating voltage and its second input via a second controllable switch to a different output alternating voltage network. In this case, the metal frame is made in a rectangular shape.

The introduction of a temperature sensor, a humidity sensor, a fan for extracting steam and a controller, their location and connection, as well as the implementation of a heat energy source, as described above, makes it possible to heat a moisture-containing raw material placed inside a metal frame by means of a heat energy source and to perform it using a temperature sensor temperature measurement inside the metal frame, which, if it is exceeded, is processed in the controller, in accordance with the program recorded in the block the controller’s memory, and the controller generates a control signal that is fed to the control input of the second controlled key and disconnects the AC voltage network from the input of the heat energy source, thereby reducing the heating temperature of the moisture-containing raw materials inside the metal frame, and while lowering the heating temperature of the moisture-containing raw materials inside the metal frame to a predetermined temperature value, the controller stops the formation and supply of a control signal to the control input w A controlled key that connects the AC voltage network to the inputs of the heat energy source, providing the next cycle of heating the moisture-containing raw materials in the metal frame and thereby regulating the more economical use of electric energy to power the thermal energy source in the process of heating the moisture-containing raw materials and receiving steam from it.

When measuring by means of a humidity sensor the humidity value inside the metal frame, which, if exceeded, is processed in the controller, in accordance with the program recorded in the controller memory block, and the controller generates a control signal that is fed to the control input of the first controlled key and connects the AC voltage network to the fan inlets for extracting steam from the inner cavity of the metal frame and supplying it to the cooler inlet, in which the steam is cooled and in the form of a liquid poured into a container for collecting fluid.

When the humidity level inside the metal frame decreases to a predetermined humidity value, the controller stops generating and supplying a control signal to the control input of the first controlled key, which disconnects the AC voltage network from the fan inputs to extract steam from the internal cavity of the metal frame, providing the next steam production cycle and adjusting thus more economical use of electrical energy for heating moisture-containing raw materials inside the metal frame a and deriving therefrom a pair, as thus there is still even a further heating and superheating steam, inside the metal frame.

What is the achievement of the above technical result.

Given the characteristics and analysis of known similar technical solutions, we can conclude that the task of creating tools for producing liquids from moisture-containing raw materials is relevant today.

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 a device for producing liquid from a moisture-containing raw material, and Fig. 2 shows a control circuit.

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

- a metal frame 1 of a rectangular shape with internal heat-insulating 2 and heat-reflecting 3 layers;

- double doors 4, 5 with a handle 6 and with internal heat-insulating 7, 8 and heat-reflecting 9, 10 layers installed on the front end wall of a metal frame 1 of a rectangular shape;

- a moisture-containing (high-moisture) raw material 11, for example wood, fruits, vegetables and the like, located inside a metal frame 1 of a rectangular shape;

- a temperature sensor 12 mounted inside a metal frame 1 of a rectangular shape;

- humidity sensor 13 mounted inside the metal frame 1 of a rectangular shape ;.

- cooler 14, connected at its entrance to the inner cavity of the metal frame 1 of a rectangular shape through an opening 15 made in the rear end wall of the metal frame 1 of a rectangular shape;

- a reservoir 16 for collecting liquid located in its internal cavity at the outlet of the cooler 14;

- a fan 17 for extracting steam from the inner cavity of the metal frame 1 of a rectangular shape, located inside the metal frame 1 of a rectangular shape and installed with its outlet in the hole 15 made in the rear end wall of the metal frame 1 of a rectangular shape, communicating with its output with the input of the cooler 14 and connected its first input to one of the outputs of the AC voltage network and its second input to the other output of the AC voltage network through the first controlled key 18 (see figure 2);

- a source of thermal energy (fan heater), made in the form of a heater 19, connected by its first input to one of the outputs of the AC voltage and its second input through a second controlled key 20 to another output of the AC voltage, and a fan 21 for blowing the heater 19, connected its first input to one of the outputs of the AC voltage network and its second input through the second controlled key 20 to the other output of the AC voltage network;

- a controller 22 connected by its first input to the output of the signal source of the reference 23, by its second input to the output of the temperature sensor 12, by its third input to the output of the humidity sensor 13, by its first output to the control input of the first controlled key 18 and by its second output to the control input second managed key 20;

- a hole 24 for supplying air from the surrounding space, made in the rear end wall of the metal frame 1 of a rectangular shape.

The controller, temperature sensor and humidity sensor of NEATESO company can be used as a controller, temperature sensor, and humidity sensor (see the website http://www.heateco.ru/PLEN/hightree/.

All other elements and blocks included in the proposed device for producing liquid from a moisture-containing raw material are widely known and published in the scientific and technical literature.

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

Moisture-containing raw materials 11 are placed in the inner cavity of the metal frame 1 and double doors 4, 5 are closed.

An alternating voltage is applied through the closed contacts of the second controlled key 18 and directly to the first and second inputs of the air heater 19 and fan 21 for blowing the air heater 19 and provide heating of the air, which heats the moisture-containing raw materials 11 located inside the metal frame 1, and releases moisture from it, which during heating turns into steam.

When the temperature inside the metal frame 1 is reached above a predetermined signal, received from the output of the temperature sensor 12 to the second input of the controller 22, in accordance with the commands received at the first input of the controller 22 from the output of the source 23 of the reference signals, and is processed in accordance with the specified program, and from the second output of the controller 22 to the control input of the second managed key 20 receives a signal generated by the controller 22, which opens the closed contacts of the second managed key 20 and disconnects the network of changes th voltage of the heater 19 and the blower 21 for blowing air heater 19 and the thermal energy source is switched off.

When the temperature inside the metal frame 1 decreases, the controller 22, in accordance with a predetermined program, stops generating signals to hold the contacts of the second controlled key 20 in the closed state. The closed contacts of the second controlled key 20 open and disconnect the AC voltage network from the inputs of the heat energy source (air heater 19 and fan 21 for blowing air heater 19). The second controlled key 20 is returned to its original state, the source of thermal energy is turned back on and the process of heating the air inside the metal frame 1 continues.

When the air humidity inside the metal frame 1 is higher than the predetermined signal received from the output of the humidity sensor 13 to the third input of the controller 22, and the signal received from the output of the source 23 of the reference signals to the first input of the controller 22, in accordance with the specified program, is processed, and the first output of the controller 22 to the control input of the first managed key 18 receives a signal generated by the controller 22. The first managed key 18 closes its open contacts and provides an alternating voltage to the first and second inputs of the fan 17 for drawing steam (moist air) from the inner cavity of the metal frame 1. The fan 17 for drawing steam from the inner cavity of the metal frame 1 is turned on and provides steam through the hole 15 to the inlet of the cooler 14, in which the steam turns into liquid , which from the outlet of the cooler 14 enters the tank 16 for collecting liquid.

When the humidity of the air inside the metal frame 1 decreases, the controller 22, in accordance with a predetermined program, stops generating signals to hold the contacts of the first controlled key 18 in the closed state. The closed contacts of the first controlled key 18 open and disconnect the AC voltage from the inputs of the fan 17 for drawing steam from the inner cavity of the metal frame 1, and the process of obtaining moisture from the moisture-containing raw materials 11 continues.

At the same time, the process of fluid intake from the outlet of the cooler 14 into the internal cavity of the fluid collection tank 16 is visually controlled by the operator, and when the fluid has arrived from the outlet of the cooler 14 into the internal cavity of the fluid collection tank 16, the device for receiving liquid from the moisture-containing raw material 11 is turned off. Double doors 4, 5 are opened and the remaining dehydrated raw materials 11 are removed from the inner cavity of the metal frame 1 and the next batch of moisture-containing raw materials 11 is loaded into the metal frame 1 to carry out the next process of obtaining liquid from the moisture-containing raw materials 11.

Thus, the proposed device for producing liquid from a moisture-containing raw material makes it possible to obtain a liquid from a moisture-containing raw material at a lower cost of electric energy by creating optimal heating modes and producing steam from a moisture-containing raw material.

Therefore, the proposed device for producing liquid from a moisture-containing raw material will take its rightful place among the known objects of a similar purpose.

Claims (2)

1. A device for producing liquid from a moisture-containing raw material, comprising a metal frame, a heat source located inside the metal frame, a moisture-containing raw material located inside the metal frame, a cooler connected by its inlet to the internal cavity of the metal frame, and a liquid collection tank installed by its an internal cavity at the outlet of the cooler, characterized in that it is equipped with a temperature sensor installed inside the metal frame, a humidity sensor, installed inside the metal frame, a fan for extracting steam from the inner cavity of the metal frame, installed in the hole made in the rear end wall of the metal frame, communicating with its output with the cooler inlet and connected with its first input to one of the AC voltage outputs and its second input through the first controlled key to another output of the AC voltage network, and a controller connected by its first input to the output of the reference signal source, by its second the input to the output of the temperature sensor, its third input to the output of the humidity sensor and its first output to the control input of the first controlled key, while the heat source is made in the form of a heater connected by its first input to one of the outputs of the AC voltage network and its second input to another AC output via a second controlled key connected by its control input to the second output of the controller, and a fan for blowing the heater connected to its first the input to one of the outputs of the AC voltage network and its second input through the second controlled key to the other output of the AC voltage network. 2. A device for producing liquid from a moisture-containing raw material according to claim 1, characterized in that the metal frame is made in a rectangular shape.

Images