CN204438725U - A kind of Intelligent internet of things drying unit - Google Patents

Abstract

The utility model provides a kind of Intelligent internet of things drying unit, belongs to drying materials technical field.It solve the problem that existing technology energy utilization rate is not high.This Intelligent internet of things drying unit, comprise baking room, solar energy heating unit and air source heat pump, solar energy heating unit comprises solar heat-collection plate, dividing plate and the solar ventiduct be made up of solar heat-collection plate and dividing plate, heat pump air channel is formed between dividing plate and baking room, drying unit also comprises diverver gate mechanism, pressure fan, be arranged on the temperature sensor one in baking room and humidity sensor, be arranged on light sensation probe and temperature sensor two and the controller at solar heat-collection plate place, temperature sensor one, humidity sensor, light sensation is popped one's head in, temperature sensor two, pressure fan, air source heat pump and diverver gate mechanism are all electrically connected with controller.This drying unit automatically can control the switching of two kinds of thermals source and change the air channel leading to baking room when sunshine deficiency, and energy utilization rate is high.

Description

A kind of Intelligent internet of things drying unit

Technical field

The utility model belongs to drying materials technical field, relates to a kind of Intelligent internet of things drying unit, particularly a kind of for controlling the Intelligent internet of things drying unit that two kinds of thermals source automatically switch.

Background technology

Along with Agricultural Industrialization Development, various pesticide pair soil bit product and deep processed product thereof need large-scale drying plant.Meanwhile, people's health care consciousness constantly strengthens, and what require food and agricultural quality improves constantly, and tradition adopts the coal-fired drying mode making thermal source to make material sulfur content large, even change material properties, bring body and mind injury in various degree, in the urgent need to New drying equipment.

For above-mentioned Problems existing, existing Chinese patent literature discloses the two insulation solar heat heat pump drying unit of the two thermal-arrest of a kind of greenhouse type, comprise drying unit, by the solar energy heating unit formed from heat collection unit and outer heat collection unit, the auxiliary heating element be made up of heat pump, dehumidification by condensation waste heat recovery unit and automatic monitoring control unit, describedly be positioned at above drying unit from heat collection unit, described outer heat collection unit is positioned at drying unit side, describedly comprise light-passing board and solar energy greenhouse from heat collection unit, described solar energy greenhouse is surrounded by the extinction shell of light-passing board and drying unit, described outer heat collection unit comprises solar thermal collector, water pump, attemperater, circulating pump and fin, described solar thermal collector, water pump and attemperater are by cross current and form a closed-loop path, described circulating pump, fin and attemperater are by cross current and form another closed-loop path, and described fin is located in the drying chamber of drying unit.Described automatic monitoring control unit by the temperature sensor be located on attemperater, be located at temperature sensor in drying chamber and humidity sensor, the temperature sensor being located at heat pump main frame side and master controller form.This drying unit effectively overcome agricultural byproducts etc. adopt the conventional sun to be exposed to the sun and traditional energy dries cause pollution, decolouring, the rotten and drawback that consumes energy, but this drying unit still has the following disadvantages: 1, this drying unit only arranges an air channel, when solar energy is not enough far away, heat pump works, in the air channel of hot-air through solar energy heating unit, its heat is absorbed by solar energy heating unit on the contrary, causes the waste of the energy; 2, this drying unit can not carry out Long-distance Control, and it is convenient not to operate.

Summary of the invention

The purpose of this utility model there are the problems referred to above for existing technology, propose a kind of Intelligent internet of things drying unit, this drying unit automatically can control the switching of two kinds of thermals source and change the air channel leading to baking room when sunshine deficiency, and energy utilization rate is high.

The purpose of this utility model realizes by following technical proposal: a kind of Intelligent internet of things drying unit, comprise baking room, be positioned at the solar energy heating unit above baking room and the air source heat pump being positioned at baking room side, it is characterized in that, described solar energy heating unit comprises solar heat-collection plate, dividing plate and the solar ventiduct be made up of solar heat-collection plate and dividing plate, heat pump air channel is formed between described dividing plate and baking room, described drying unit also comprises for carrying out the diverver gate mechanism of selecting to open to solar ventiduct and heat pump air channel, hot blast for the hot blast that produced by air source heat pump and solar heat-collection plate place is transported to the pressure fan that baking room carries out drying materials, be arranged on the temperature sensor one in baking room and humidity sensor, be arranged on the light sensation probe at solar heat-collection plate place and temperature sensor two and for needing heating and dehumidification in baking room time control pressure fan and start and the controller controlling air source heat pump startup and control diverver gate mechanism unlatching heat pump air channel when the heat energy judging that solar heat-collection plate place produces is not enough, described temperature sensor one, humidity sensor, light sensation is popped one's head in, temperature sensor two, pressure fan, air source heat pump and diverver gate mechanism are all electrically connected with controller.

This Intelligent internet of things drying unit, the temperature and humidity in room is gathered according to the temperature sensor arranged in baking room and humidity sensor, controller is when judging to need heating and dehumidification, the intensity of illumination signal that the light sensation probe arranged according to solar heat-collection plate place and temperature sensor gather and temperature signal, judge that whether the heat energy that sunshine provides is sufficient, if solar energy is sufficient, then by the air at solar heat-collection plate place, heating and dehumidification is carried out to the material in baking room, otherwise start air source heat pump simultaneously, when solar energy is not enough far away, control air source heat pump unlatching work, simultaneously in order to avoid hot-air through solar heat-collection plate air channel on the contrary by situation that solar heat-collection plate absorbs heat, control diverver gate mechanism solar heat-collection plate air channel is closed, open heat pump air channel, air source heat pump generation hot blast enters baking room and carries out drying materials under the effect of pressure fan, pressure fan and air source heat pump closedown is controlled when temperature reaches material optimum temperature value in baking room, when in baking room, temperature reduces, pressure fan and air source heat pump restart, repeat aforesaid operations, until material completes oven dry.Can automatically control to start air source heat pump when solar energy is not enough by this drying unit, while guarantee material can carry out drying materials under various circumstances, energy utilization rate can be improved again, in addition, by the work of diverver gate mechanism, solar ventiduct can be closed, prevents hot-air from being absorbed by solar heat-collection plate on the contrary by solar ventiduct, decrease unnecessary energy waste, further increase energy utilization rate.

In above-mentioned Intelligent internet of things drying unit, described controller is also connected with the timer for carrying out timing to the drying materials time, described controller is used for control pressure fan and compressor when the time of timer institute timing reaches material the best drying time value and quits work.The best drying time value of material is preset in controller, when drying unit startup is dried material, timer starts simultaneously, timing is carried out to drying time and sends controller to constantly, when timing time reaches material the best drying time value, explanation completes drying materials work, then control pressure fan and air source heat pump quit work, and take out material and carry out preserving.

In above-mentioned Intelligent internet of things drying unit, the surface of described dividing plate scribbles the heat-insulation layer with insulation effect.Be coated with heat-insulation layer in baffle surface, hot-air can be reduced by heat energy loss when solar ventiduct and heat pump air channel, improve energy utilization rate.

In above-mentioned Intelligent internet of things drying unit, described baking room is made up of cellular board, and described cellular board is fixed on by two pieces of panels that honeycomb core both sides are formed.Adopt cellular board to manufacture baking room, the heat insulation effect of its baking room has relative to the baking room become by normal wood head group and promotes widely, ensure that baking room can utilize the energy efficiently.

In above-mentioned Intelligent internet of things drying unit, the first half of described baking room offers return air inlet, and described return air inlet place is connected with the regenerator for being carried out recycling by the hot blast of discharging from return air inlet.Arrange regenerator at return air inlet, may be used for the heat of absorption air to be dehumidified and carry out just heating to air to be heated, make full use of heat, drying efficiency is high.

In above-mentioned Intelligent internet of things drying unit, described regenerator comprises two passages one arranged in a crossed manner and passage two, one end of described passage one is connected with return air inlet, carry out condensation recovery for the hot blast of discharging from return air inlet is transported to evaporimeter, described passage two carries out heating recovery for flowing to condenser after the hot blast reclaimed through evaporator condensation being carried out just heating.

In above-mentioned Intelligent internet of things drying unit, described air source heat pump comprise the compressor be electrically connected with controller, the expansion valve be connected with compressor and for generation of the condenser of heat and be connected with expansion valve for the damp-heat air produced in drying course being carried out condensation and the hot blast after dehumidifying being carried out the evaporimeter recycled.

In above-mentioned Intelligent internet of things drying unit, described diverver gate mechanism comprises the motor that is electrically connected with controller and for by Electric Machine Control and then the diverver gate opening solar ventiduct or heat pump air channel, described diverver gate is connected with motor.

In above-mentioned Intelligent internet of things drying unit, described controller is also connected with for receiving the long-range GPS wireless communication module to controller input control parameter.Controller is connected by GPS wireless communication module and the equipment such as remote computer or mobile phone, the parameter being convenient to the long-range heating-up temperature to different material of personnel, humidity and drying time is arranged, simultaneously also convenient to the temperature in baking room, humidity and drying materials situation are monitored, conveniently real-time adjustment is made to drying course, optimize stoving process.

In above-mentioned Intelligent internet of things drying unit, described controller is also connected with the button for inputting each controling parameters.Each controling parameters comprises desired temperature and humidity set point for judging whether to need heating and dehumidification, for judging the light intensity setting value that solar energy is whether sufficient and sunshine temperature value and drying materials Best Times value, the setting of button, this drying unit can be made can to carry out oven dry operation to different material, and the type for material arranges drying materials Best Times value, desired temperature and humidity set point.

Compared with prior art, this Intelligent internet of things drying unit has the following advantages:

1, this drying unit reasonably can utilize the thermal source of sunshine and air source heat pump, material is made to carry out drying and dewatering in baking room, be applicable to the oven dry of the materials such as each agricultural byproducts, marine product, and mainly adopt ambient air as thermal source as the air source heat pump of auxiliary thermal source, environmental protection and energy saving and avoiding the materials such as agricultural byproducts and environment.

2, this drying unit adopts regenerator carry out dehumidification by condensation to air to be dehumidified and carry out just heating to air to be heated, and farthest achieve the recycling of hot blast, energy utilization rate is high, good drying effect.

3, this drying unit adopts two air channels to carry hot blast and adopts diverver gate mechanism to carry out choose reasonable to air channel, while Appropriate application solar energy, it also avoid solar energy more weak time anti-consumption to the energy, energy utilization rate is high, farthest ensure that the utilization rate of the energy.

4, the dividing plate adopted in this drying unit and baking room all have heat insulation effect, the heat insulation effect of dividing plate can reduce the consumption of hot blast in course of conveying, guarantee the Appropriate application of the energy, the heat insulation effect of baking room improves can ensure that material can obtain more effectively drying in baking room, and drying efficiency improves.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is structure distribution figure of the present utility model.

In figure, 1, controller; 2, temperature sensor one; 3, humidity sensor; 4, light sensation probe; 5, temperature sensor two; 6, diverver gate mechanism; 7, pressure fan; 8, air source heat pump; 81, compressor; 82, condenser; 83, expansion valve; 84, evaporimeter; 9, regenerator; 10, baking room; 11, solar ventiduct; 12, heat pump air channel; 13, solar heat-collection plate; 14, dividing plate; 15, air channel; 16, return air inlet.

Detailed description of the invention

Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiments.

As Fig. 1, shown in 2, this Intelligent internet of things drying unit, comprise baking room 10, be positioned at the solar energy heating unit above baking room 10 and the air source heat pump 8 being positioned at baking room 10 side, solar energy heating unit comprises solar heat-collection plate 13, dividing plate 14 and the solar ventiduct 11 be made up of solar heat-collection plate 13 and dividing plate 14, heat pump air channel 12 is formed between dividing plate 14 and baking room 10, drying unit also comprises for carrying out the diverver gate mechanism 6 of selecting to open to solar ventiduct 11 and heat pump air channel 12, hot blast for the hot blast that produced by air source heat pump 8 and solar heat-collection plate 13 place is transported to the pressure fan 7 that baking room 10 carries out drying materials, be arranged on the temperature sensor 1 in baking room 10 and humidity sensor 3, be arranged on the light sensation probe 4 at solar heat-collection plate 13 place and temperature sensor 25 and for needing heating and dehumidification in baking room 10 time control pressure fan 7 and to start and control air source heat pump 8 starts and controls the controller 1 that heat pump air channel 12 is opened by diverver gate mechanism 6 when judging the heat energy deficiency that solar heat-collection plate 13 place produces, temperature sensor 1, humidity sensor 3, light sensation probe 4, temperature sensor 25, pressure fan 7, air source heat pump 8 and diverver gate mechanism 6 are all electrically connected with controller 1.

Specifically,

As preferably, controller 1 being also connected with the timer for carrying out timing to the drying materials time, controlling pressure fan 7 described controller 1 is for reaching the best drying time value of material during in the time of timer institute timing and compressor 81 quits work.The best drying time value of material is preset in controller 1, when drying unit startup is dried material, timer starts simultaneously, timing is carried out to drying time and sends controller 1 constantly to, when timing time reaches material the best drying time value, explanation completes drying materials work, then control pressure fan 7 and air source heat pump 8 quit work, and take out material and carry out preserving.

As preferably, the surface of dividing plate 14 scribbles the heat-insulation layer with insulation effect.Be coated with heat-insulation layer on dividing plate 14 surface, hot-air can be reduced by heat energy loss when solar ventiduct 11 and heat pump air channel 12, improve energy utilization rate.

As preferably, baking room 10 is made up of cellular board, and cellular board is fixed on by two pieces of panels that honeycomb core both sides are formed.Adopt cellular board to manufacture baking room 10, the heat insulation effect of its baking room 10 has relative to the baking room 10 become by normal wood head group and promotes widely, ensure that baking room 10 can utilize the energy efficiently.

As preferably, the first half of baking room 10 offers return air inlet 16, and return air inlet 16 place is connected with the regenerator 9 for being carried out recycling by the hot blast of discharging from return air inlet 16.Arrange regenerator 9 at return air inlet 16, may be used for the heat of absorption air to be dehumidified and carry out just heating to air to be heated, make full use of heat, drying efficiency is high.

As preferably, regenerator 9 comprises two passages one arranged in a crossed manner and passage two, one end of described passage one is connected with return air inlet 16, carry out condensation recovery for the hot blast of discharging from return air inlet 16 being transported to evaporimeter 84, passage two carries out heating recovery for flowing to condenser 82 after the hot blast reclaimed through evaporator 84 condensation being carried out just heating.

Air source heat pump 8 comprise the compressor 81 be electrically connected with controller 1, the expansion valve 83 be connected with compressor 81 and for generation of the condenser 82 of heat and be connected with expansion valve 83 for the damp-heat air produced in drying course being carried out condensation and the hot blast after dehumidifying being carried out the evaporimeter 84 recycled.

Diverver gate mechanism 6 comprises the motor that is electrically connected with controller 1 and for by Electric Machine Control and then the diverver gate opening solar ventiduct 11 or heat pump air channel 12, diverver gate is connected with motor.One end of diverver gate to be fixed with dividing plate 14 by rotating mechanism and to be connected, under the effect of motor, rotating mechanism can control diverver gate and carry out activity, as closed heat pump air channel 12 or opening heat pump air channel 12, wherein for drive diverver gate to turn to power source except motor, can also the power-equipments such as cylinder be adopted.

As preferably, controller 1 is also connected with for receiving the long-range GPS wireless communication module to controller 1 input control parameter.Controller 1 is connected by GPS wireless communication module and the equipment such as remote computer or mobile phone, the parameter being convenient to the long-range heating-up temperature to different material of personnel, humidity and drying time is arranged, simultaneously also convenient to the temperature in baking room 10, humidity and drying materials situation are monitored, conveniently real-time adjustment is made to drying course, optimize stoving process.

As preferably, controller 1 is also connected with the button for inputting each controling parameters.Each controling parameters comprises desired temperature and humidity set point for judging whether to need heating and dehumidification, for judging the light intensity setting value that solar energy is whether sufficient and sunshine temperature value and drying materials Best Times value, the setting of button, this drying unit can be made can to carry out oven dry operation to different material, and the type for material arranges drying materials Best Times value, desired temperature and humidity set point.

The specific works process of this Intelligent internet of things drying unit is:

First each controling parameters value is set, as ensure material optimum efficiency to be dried bake out temperature value, dry humidity value and best drying time value and for judging solar energy whether sufficient light intensity settings and sunshine temperature value, wherein sunshine temperature value can equal the bake out temperature value of material to be dried, also can be other setting value, each parameter value of above-mentioned setting can be value range.After completing each controling parameters value set, material to be dried is placed in baking room 10, when the temperature and humidity that the temperature sensor 1 arranged in baking room 10 and humidity sensor 3 collect is not all in the scope of the bake out temperature value preset with oven dry humidity value, determine that the material in baking room 10 needs heating and dehumidification, judge by the intensity of illumination signal of the light sensation probe 4 and temperature sensor 25 collection that are arranged on solar heat-collection plate 13 and temperature signal again, when intensity of illumination signal and temperature signal are all greater than the light intensity settings and sunshine temperature value that preset, judge that the energy that sunshine provides is sufficient, then control pressure fan 7 to start, air source heat pump 8 does not work, pressure fan 7 start by solar ventiduct 11 drive the air at solar heat-collection plate 13 place through air channel 15 circulation enter baking room 10, heating and dehumidification is carried out to the material in baking room 10, air after heating and dehumidification is transported to evaporimeter 84 by the passage one of regenerator 9, evaporimeter 84 is transmitted back to the passage two of regenerator 9 after carrying out dehumidification by condensation to this air, air after dehumidification by condensation recycles after carrying out just heating by passage two, when the bake out temperature value that the temperature in baking room 10 reaches default being detected, control pressure fan 7 to quit work, all have heat-insulation layer at solar heat-collection plate 13 and dividing plate 14 place, do not affect temperature in baking room 10, when temperature reduces in baking room 10, control pressure fan 7 and restart, the air channel 15 of this drying unit adopts upwards blows below baking room 10, and return air inlet 16 is positioned at the top of baking room 10, makes moisture to increase, gives vent to anger from return air inlet 16, and meet the principle that hot gas rises, effect on moisture extraction is good, and dehumidification rate is high.And whole baking room 10 adopts cellular board to make, and heat insulating coefficient reaches 0.2, and relative to common wood, heat insulation effect promotes greatly.

The light intensity settings two lower than light intensity settings and sunshine temperature value and sunshine temperature value two is pre-set in controller 1, if the luminous intensity gathered at solar heat-collection plate 13 place is greater than light intensity settings two and is less than light intensity settings, when the temperature that solar heat-collection plate 13 place gathers is greater than sunshine temperature value two and is less than sunshine temperature value, judge that solar energy has certain heat energy inadequate, now the compressor 81 controlled in air source heat pump 8 starts, heat is produced by condenser 82, driven by pressure fan 7, the air at the heat produce condenser 82 and solar heat-collection plate 13 place is transported to baking room 10 jointly through solar ventiduct 11 and air channel 15, oven dry operation is carried out to material, when the bake out temperature value that the temperature in baking room 10 reaches default being detected, control pressure fan 7 and compressor 81 quit work, and when in baking room 10, temperature reduces, control pressure fan 7 and compressor 81 restart.

If the luminous intensity gathered at solar heat-collection plate 13 place is less than light intensity settings two, when the temperature that solar heat-collection plate 13 place gathers is less than sunshine temperature value two, judge that solar energy is not enough far away, if hot blast still from solar ventiduct 11 by entering baking room 10, hot-air may be caused to be absorbed heat by solar heat-collection plate 13 on the contrary through solar ventiduct 11, then solar ventiduct 11 is closed by the diverver gate controlled in diverver gate mechanism 6, open heat pump air channel 12, hot blast enters baking room 10 through heat pump air channel 12 and air channel 15, carries out oven dry operation to material.

In the top/bottom latitude that temperature remains on the bake out temperature value of setting in baking room 10 and timer time oven dry activity duration when reaching the best drying time value of setting, control the mechanism such as pressure fan 7 and compressor 81 and quit work, drying work completes.Wherein when drying operation, can be monitored oven dry situation by long-range, simultaneously can by terminal to controller 1 input control parameter with adjust in real time associated control parameters when carrying out ovens dry operation to material, to reach the drying effect of the best.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Although more employ the terms such as controller 1, temperature sensor 1, humidity sensor 3, light sensation probe 4, temperature sensor 25, diverver gate mechanism 6, pressure fan 7, air source heat pump 8, compressor 81, condenser 82, expansion valve 83, evaporimeter 84, regenerator 9, baking room 10, solar ventiduct 11, heat pump air channel 12, solar heat-collection plate 13, dividing plate 14, air channel 15, return air inlet 16 herein, do not get rid of the possibility using other term.These terms are used to be only used to describe and explain essence of the present utility model more easily; The restriction that they are construed to any one additional is all contrary with the utility model spirit.

Claims (10)

1. an Intelligent internet of things drying unit, comprise baking room (10), be positioned at the solar energy heating unit of baking room (10) top and be positioned at the air source heat pump (8) of baking room (10) side, it is characterized in that, described solar energy heating unit comprises solar heat-collection plate (13), dividing plate (14) and the solar ventiduct (11) be made up of solar heat-collection plate (13) and dividing plate (14), heat pump air channel (12) is formed between described dividing plate (14) and baking room (10), described drying unit also comprises for carrying out the diverver gate mechanism (6) of selecting to open to solar ventiduct (11) and heat pump air channel (12), hot blast for the hot blast that produced by air source heat pump (8) and solar heat-collection plate (13) place is transported to the pressure fan (7) that baking room (10) carries out drying materials, be arranged on the temperature sensor one (2) in baking room (10) and humidity sensor (3), be arranged on light sensation probe (4) at solar heat-collection plate (13) place and temperature sensor two (5) and for needing heating and dehumidification in baking room (10) time control pressure fan (7) and start and the controller (1) controlling air source heat pump (8) startup and control diverver gate mechanism (6) unlatching heat pump air channel (12) when the heat energy judging that solar heat-collection plate (13) place produces is not enough, described temperature sensor one (2), humidity sensor (3), light sensation probe (4), temperature sensor two (5), pressure fan (7), air source heat pump (8) and diverver gate mechanism (6) are all electrically connected with controller (1).

2. Intelligent internet of things drying unit according to claim 1, it is characterized in that, described controller (1) being also connected with the timer for carrying out timing to the drying materials time, controlling pressure fan (7) described controller (1) is for reaching the best drying time value of material during in the time of timer institute timing and compressor (81) quits work.

3. Intelligent internet of things drying unit according to claim 2, is characterized in that, the surface of described dividing plate (14) scribbles the heat-insulation layer with insulation effect.

4. Intelligent internet of things drying unit according to claim 3, is characterized in that, described baking room (10) is made up of cellular board, and described cellular board is fixed on by two pieces of panels that honeycomb core both sides are formed.

5. Intelligent internet of things drying unit according to claim 1, it is characterized in that, the first half of described baking room (10) offers return air inlet (16), and described return air inlet (16) place is connected with the regenerator (9) for being carried out recycling by the hot blast of discharging from return air inlet (16).

6. Intelligent internet of things drying unit according to claim 5, it is characterized in that, described regenerator (9) comprises two passages one arranged in a crossed manner and passage two, one end of described passage one is connected with return air inlet (16), carry out condensation recovery for the hot blast of discharging from return air inlet (16) is transported to evaporimeter (84), described passage two carries out heating recovery for flowing to condenser (82) after the hot blast reclaimed through evaporator (84) condensation being carried out just heating.

7. Intelligent internet of things drying unit according to claim 6, it is characterized in that, described air source heat pump (8) comprise the compressor (81) be electrically connected with controller (1), the expansion valve (83) be connected with compressor (81) and for generation of the condenser (82) of heat and be connected with expansion valve (83) for the damp-heat air produced in drying course being carried out condensation and the hot blast after dehumidifying being carried out the evaporimeter (84) recycled.

8. Intelligent internet of things drying unit according to claim 7, it is characterized in that, described diverver gate mechanism (6) comprises the motor that is electrically connected with controller (1) and for by Electric Machine Control and then the diverver gate opening solar ventiduct (11) or heat pump air channel (12), described diverver gate is connected with motor.

9. Intelligent internet of things drying unit according to claim 1, is characterized in that, described controller (1) is also connected with for receiving the long-range GPS wireless communication module to controller (1) input control parameter.

10. the Intelligent internet of things drying unit according to claim 1 or 9, is characterized in that, described controller (1) is also connected with the button for inputting each controling parameters.