RU186818U1 - Device for drying moisture-containing raw materials - Google Patents

Abstract

The proposed technical solution relates to the field of drying and can be used for drying various types of moisture-containing vegetable raw materials at lower cost of electric energy. The device for drying moisture-containing vegetable raw materials contains a heat-insulating frame, a sealed chamber, a tray with moisture-containing vegetable raw materials, a humidity sensor installed inside the sealed chamber , an auxiliary compartment, mounted on the end surface of the insulating frame, a temperature sensor, the first and second ve the heaters, the air cooler and the controller are located inside the auxiliary compartment, while the controller is connected by its respective inputs to the corresponding outputs of the temperature sensor, humidity sensor and the reference signal source, and by its respective outputs to the corresponding control inputs of the first, second, third and fourth controlled keys, providing alternating voltage to the inputs of the heater, fans and air cooler. The technical result is achieved by the proposed A technical solution of patenting is to provide optimal, necessary and sufficient drying of water-containing vegetable raw mode and in the reduction of electrical energy consumption for creation of a predetermined thermal mode.

Description

The proposed technical solution relates to the field of drying and can be used for drying a moisture-containing plant material with less electric energy.

A device for drying a moisture-containing plant material is known, see the description of the invention to the patent of the Russian Federation No. 2451258, which is selected as the closest analogue, prototype, and which contains:

a heat-insulating metal frame of a rectangular shape with perforated metal sheets of a rectangular shape installed with gaps relative to the inner side surfaces of a heat-insulating metal frame of a rectangular shape;

double doors hermetically mounted on the corresponding (right) end surface of a rectangular rectangular heat-insulating metal frame;

a pallet for placing moisture-containing plant materials in it, installed inside a rectangular heat-insulating metal frame;

an air heater, made in the form of a heater, installed inside a rectangular heat-insulating metal frame and connected with its outlet to its internal gap cavity;

a first fan installed inside a rectangular heat-insulating metal frame and connected by its outlet to the air heater inlet and by its entrance to an internal cavity of a rectangular heat-insulating metal frame gap;

a second exhaust fan installed in the hole made in the end wall of the rectangular heat-insulating metal frame and connected with its entrance to the inner cavity of the rectangular heat-insulating metal frame and with its outlet to the atmosphere;

a temperature sensor installed inside a heat-insulating metal frame of a rectangular shape;

a humidity sensor installed inside a heat-insulating metal frame of a rectangular shape and interacting with its entrance with an internal cavity of a heat-insulating metal frame of a rectangular shape;

a controller installed inside a rectangular heat-insulating metal frame and connected with 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, its first output to the control input of the first controlled key connected by its output to one of the inputs of the heater, 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 input to the control input of the third controlled key, connected by its output to one of the inputs of the second exhaust fan, by its fourth output to the control input of the fourth controlled key, connected by one of its output to one of the inputs of the drive, providing an opening for the outlet of heated air with the output of the second exhaust fan into the atmosphere;

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, third, fourth controlled keys and the corresponding inputs of the heater, the first and second fans and the drive.

Common features of a patented technical solution and prototype are:

heat insulating frame;

double doors sealed on the corresponding end surface of the insulating frame;

a pallet for placing moisture-containing plant materials in it;

air heater made in the form of a heater

the first fan connected by its output to the input of the heater;

second fan;

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

humidity sensor;

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 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, by its third output to the control input of the third managed key, connected of its output to one of the inputs of the second fan and its fourth output to the control input of the fourth controllable switch;

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, third, fourth controlled keys and to the corresponding inputs of the heater, first and second fans.

The technical result consists in creating optimal, necessary and sufficient drying modes for moisture-containing plant materials and in reducing the cost of electric energy to create a given thermal regime in a heat-insulating frame.

The reason for the impossible achievement of the above technical result is that only a part of the incoming electrical energy is used to heat the circulating air flow, and a significant part of this incoming electrical energy is spent on heating the inside of the insulating metal frame of the fan, air heater, controller, sensors, etc. .P.

The technical result indicated above is achieved by the fact that the device for drying a moisture-containing plant material contains a heat-insulating frame, an air heater, a first fan connected with its output to the inlet of the air heater, a second fan, a temperature sensor interacting with its input with a heated air stream, a humidity sensor, the controller, while inside the heat-insulating frame there is a sealed chamber with internal lateral perforated sheets installed with gaps relative to of the inner side walls of the airtight chamber, the humidity sensor is installed inside the airtight chamber, the device is additionally equipped with an auxiliary compartment, inside of which there are a controller, temperature sensor, air heater, first fan, second fan connected by its input to the internal volost of the airtight chamber and connected to the air cooler by its outlet while the controller is connected by its respective inputs to the corresponding outputs of the temperature sensor, humidity sensor and the source of the task signals, and their respective outputs to the corresponding control inputs of the first, second, third and fourth controlled keys, providing an alternating voltage to the inputs of the heater, fans and air cooler.

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 air 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, connect connected with its output to one of the inputs of the second fan, its fourth output to the control input of the fourth controlled key, 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, third, fourth controlled keys and to the corresponding inputs of the heater, the first and second fans. The auxiliary compartment is mounted on the outer end surface of the insulating metal frame.

The introduction of the auxiliary compartment, its fixing on the corresponding external surface of the insulating frame, the introduction of the air cooler and its placement, the air heater, fans, temperature sensor and controller with the source of reference signals inside the auxiliary compartment allow, when applying 220 V AC voltage through controlled keys to one of the inputs and from the output of the AC 220 V circuit breaker to the other of the inputs of the air heater, fans, air cooler and in accordance necessary signals of the task, to heat the air coming from the inner cavity of the sealed chamber through the first fan to the inlet of the air heater, and to ensure the supply of heated air to the inner cavity of the sealed chamber, which through the perforated holes made in the side walls acts on the moisture-containing plant material and, in accordance with with preset drying parameters, a strictly set temperature value is maintained inside the heat-insulating frame and steam is produced from moisture-containing plant material, which through a second fan enters from the interior of the sealed chamber to the inlet of the air cooler, which carries out its “utilization”, thus ensuring a decrease in humidity inside the sealed chamber to a predetermined value, indicating the completion of the drying process of the moisture-containing plant material and while ensuring the creation of optimal, necessary and sufficient drying conditions for moisture-containing plant materials, and therefore provides and high-quality drying of moisture-containing plant materials with lower costs of electric energy, since all electric energy is almost completely spent only on heating the air circulating stream and is not spent on heating the controller, fan, temperature and humidity sensors, which were previously inside the heat-insulating metal frame, etc. What is the achievement of the above technical result.

The proposed device for drying a moisture-containing plant material is illustrated by the following description of an example construction and drawings, where in FIG. 1 shows the design of a device for drying a moisture-containing plant material, and FIG. 2 presents a functional diagram of the control process of drying a moisture-containing plant material.

A device for drying a moisture-containing plant material contains:

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, mounted on the respective 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 lateral 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 of two perforated metal sheets - 7, 8 of a rectangular shape, installed with gaps - 9, 10 relative to the inner surfaces of the metal side sheets - 1, 2;

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

perforated tray - 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 a door - 17 and a handle - 18, fixed by one of its end surfaces to the outer end surface of the heat-insulating frame;

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

the first fan - 20, installed inside the auxiliary metal compartment - 16 and interacting with its input with the internal cavity of the other from the gaps - 9, and connected with its output to the air inlet - 19, through the pipe - 21 with a damper - 22, regulating the air supply from the fan outlet - twenty;

pipe - 23 for removing heated air from the inner cavity of the sealed chamber into the surrounding space through the shutter - 24 and connected by its input to the inner cavity of the pipe - 21;

sensor - 25 temperature of the air flow in the inner cavity of the sealed chamber, mounted on the corresponding section of the outer surface of the housing of the inlet pipe - 21;

sensor - 26 humidity of the air stream located in the inner cavity of the sealed chamber and interacting with its entrance with its inner cavity;

an air cooler, made, for example, in the form of a metal heat exchanger - 27 and a second fan - 28, connected by its input to the internal volost of the sealed chamber and interacting with its output with the corresponding section of the outer surface of the heat exchanger - 27, and located inside the auxiliary compartment - 16;

controller - 29, providing control of the drying process of moisture-containing plant materials, installed on the corresponding section of the corresponding inner surface of the auxiliary compartment - 16 (see Fig. 2) and connected by its first input to the output of the source-30 of the reference signals, its second input to the output of the sensor - 25 temperature, its third input to the sensor output - 26 humidity, its first output to the control input of the first managed key - 31, connected by its output to one of the inputs of the air heater - 19, its the second output to the control input of the second controlled key - 32, connected by its output to one of the inputs of the first fan - 20, its third output to the control input of the third controlled key - 33, connected by its output to one of the inputs of the second fan, its fourth output to the control the input of the fourth controlled key - 34, connected by its output to one of the inputs of the air cooler (heat exchanger-27);

switch - 35, connected by its inputs to the AC voltage network and its outputs to the corresponding inputs of the controlled keys - 31, 32, 33, 34 and to the inputs of the air heater - 19, the first fan - 20, the second fan - 28, and the air cooler (heat exchanger - 27 )

The proposed device for drying a moisture-containing plant material is as follows.

For example, a perforated tray - 13 with a moisture-containing plant material is placed in the internal cavity of the sealed chamber, and double-leaf doors - 11 are closed.

They turn on the switch - 35 and supply alternating voltage through the closed contacts of the first controlled key - 31 to the corresponding inputs of the air heater - 19, through the closed contacts of the second controlled key - 32 to the corresponding inputs of the fan - 20, through the closed contacts of the third controlled key - 33 to the corresponding inputs the second fan and through the closed contacts of the fourth controlled key - 34 to the corresponding inputs of the air cooler (heat exchanger-27).

As a result of this, the air heater - 19 heats up, and the first fan - 20 directs a stream of air from the internal cavity of the airtight chamber to the air heater - 19 inlet, which also heats up from the outlet of the air heater - 19 into the gap - 10, and then through the perforated holes made in metal sheet - 8 into the internal cavity of the sealed chamber and into the gap - 9. In this case, the heated air stream acts on the moisture-containing plant material and carries out a gradual drying process.

When the controller receives 29 signals from the sensor output 25 at the second input of the temperature signal that a critical temperature has appeared inside the heat-insulating cage, controller 29 responds to commands from the source output with 30 reference signals and a program stored in the controller’s memory block 29 , at the output - 1 and 2 generates the corresponding signals that are fed to the control inputs of the controlled keys - 31 and 32, and which turn off the supply voltage of the air heater - 19 and the first fan - 20, and the air temperature and, inside the sealed chamber, it begins to decline, and when the set temperature is reached at the first and second outputs of the controller - 29, previously generated signals disappear. As a result of this, the controlled keys - 31 and 32 are triggered and again supply voltage to the inputs of the air heater - 19 and the first fan - 20, and the drying process of the moisture-containing plant material continues until the next moment the temperature of the air inside the sealed chamber rises.

In this case, when the supply voltage to the inputs of the air heater - 19 and the first fan - 20 is received, intense moisture is released from the dried moisture-containing plant material and steam is formed, which creates a humid environment inside the heat-insulating frame, therefore, with the appearance of steam obtained from the moisture-containing plant material, the second fan - 28 provides constant "pumping" of steam from the internal cavity of the sealed chamber and provides steam to the inlet of the air cooler (heat exchanger - 27), which carries out its utilization and thus ensures a decrease in humidity inside the heat-insulating frame, and when the specified humidity value is reached, the drying process of the moisture-containing plant material is terminated, which indicates the end of the drying process of the moisture-containing plant material.

With the switch - 35, the air heater-19 and the first fan - 20 are disconnected from the AC voltage, open the shutter - 24, to release the remaining hot steam inside the sealed chamber, double doors - 11 are opened and the dried moisture-containing plant material is removed.

Thus, the proposed device for drying moisture-containing plant materials, due to the presence of the auxiliary compartment and the air cooler located inside the auxiliary compartment and the heaters, fans, temperature sensor and controller placed inside it, provide, at the lowest possible cost of electrical energy, the creation of the necessary optimal thermal inside the sealed chamber drying mode of moisture-containing plant materials.

Claims (3)

1. A device for drying a moisture-containing raw material containing a heat-insulating frame, an air heater, a first fan connected with its output to the inlet of the air heater, a second fan, a temperature sensor interacting with its input with a heated air stream, a humidity sensor, a controller, characterized in that inside the heat-insulating frame there is a sealed chamber with inner side perforated sheets installed with gaps relative to the inner side walls of the sealed chamber, sensor The humidity infrared is installed inside the sealed chamber, in addition, the device is equipped with an auxiliary compartment, inside of which there is a controller, temperature sensor, air heater, first fan, second fan connected to the internal cavity of the sealed chamber by its input and connected to the air cooler by its outlet, while the controller is connected by its respective inputs to the corresponding outputs of the temperature sensor, humidity sensor and the source of the reference signals, and your corresponding odes to respective control inputs of the first, second, third and fourth controlled keys providing alternating supply voltage to the inputs of the heater, fan and air cooler. 2. The device for drying moisture-containing raw materials according to claim 1, characterized in that the controller is 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, its first output to the control input of the first controlled key connected by its output to one of the inputs of the heater, its second output to the control input of the second controlled key connected by its output to one of the inputs of the first fan, its t a third output to the control input of a third controlled key connected by its output to one of the inputs of the second fan, its fourth output to the control input of the fourth controlled key, 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, third, fourth controlled keys and to the corresponding inputs of the air heater, the first and second fans. 3. A device for drying a moisture-containing plant material according to claim 1, characterized in that the auxiliary compartment is mounted on the outer end surface of the heat-insulating metal frame.

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