CN208537355U - Sensor circuit for range hood and range hood with sensor circuit - Google Patents

Abstract

The utility model discloses a sensor circuit for a range hood, which comprises an infrared receiving module, wherein one end of the infrared receiving module is connected with a power supply, and the other end of the infrared receiving module is connected with a differential amplifying module; one end of the DA conversion module is connected with the processor, and the other end of the DA conversion module is connected with the differential amplification module; the input end of the differential amplification module is respectively connected with the infrared receiving module and the DA conversion module, and the automatic zero setting function is achieved; the processor is connected with the DA conversion module; a range hood is also disclosed. The utility model discloses a DA signal real-time adjustment zero setting circuit of output DA conversion module; when infrared receiving module receives ambient light or temperature influence, can adjust zero point through output DA signal, make the output signal deviation of circuit little, make it better reaction detection concentration.

Description

Sensor circuit and its kitchen ventilator for kitchen ventilator

Technical field

The utility model belongs to kitchen ventilator control technology field, and in particular to a kind of sensor circuit for kitchen ventilator and Its kitchen ventilator.

Background technique

Traditional zeroing circuit is usually fixed zeroing, this is to by the infrared receiving tube of environment light and ambient temperature effect Inadequate, different environment light and environment temperature will affect infrared receiving tube and export different electric currents, to make fixed zeroing Method loses meaning；When infrared receiving tube is influenced by environment light and environment temperature, it is dense to oil smoke infrared receiving tube to be reduced The detection range of degree is allowed to that due detection range is not achieved, to influence detection effect.

Utility model content

In view of this, the main purpose of the utility model is to provide sensor circuits and its oil smoke for kitchen ventilator Machine.

In order to achieve the above objectives, the technical solution of the utility model is achieved in that

The utility model embodiment provides a kind of sensor circuit for kitchen ventilator, including infrared receiving module, DA turn Change the mold block, differential amplification module, processor；

The infrared receiving module, one end connect to power supply, and the other end is connect with differential amplification module, for acquiring resistance Voltage and be sent to differential amplification module, whether the environment light or environment temperature for being also used to detect current environment change And it is sent to processor；

The D/A conversion module, one end are connect with processor, and the other end is connect with differential amplification module, are used for infrared receiver When module detects that the environment light of current environment or environment temperature change, output DA signal to differential amplification module；

The input terminal of the differential amplification module is connect with infrared receiving module, D/A conversion module respectively, for connecing respectively The voltage and DA signal for receiving acquisition resistance, will export after the voltage amplification for acquiring resistance, generate zeroing letter according to the DA signal Number and export the zeroed signal；

The processor, connect with D/A conversion module, for infrared receiving module detect current environment environment light or When environment temperature changes, control signal is sent to D/A conversion module.

In above scheme, the infrared receiving module includes infrared receiving tube J1, first resistor R1, thermistor RZ, Power supply is accessed in one end of ten resistance R10, the infrared receiving tube J1, and the other end is grounded by first resistor R1；The temperature-sensitive electricity It hinders the one end RZ and connects power supply, the other end is grounded by the tenth resistance R10 and first resistor R1, the electricity of the thermistor RZ and the tenth Processor is connected between resistance R10.

It further include reserved resistance R3 in above scheme, the one end reserved resistance R3 ground connection, an end is connected to infrared receiving Between block, differential amplification module.

In above scheme, the differential amplification module includes second level differential amplifier circuit, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7, the 8th resistance R8, the 9th resistance R9；The first of the second level differential amplifier circuit is negative defeated Entering end to connect through the 4th resistance R4 with D/A conversion module, the first positive input terminal is connect through second resistance R2 with infrared receiving module, First output end is connected between the 4th resistance R4 and the first negative input end by the 5th resistance R5；The second level differential amplifier circuit The second negative input end be connected to second output terminal through the 7th resistance R7, the first positive input terminal is connected to the 5th resistance through the 6th resistance R6 Between the first output end, mono- end the 8th resistance R8 is connected between second output terminal and the 7th resistance R7, another to be terminated at Processor, mono- end the 9th resistance R9 are connected between the second negative input end and the 7th resistance R7, other end ground connection.

In above scheme, the differential amplification module includes second level differential amplifier circuit, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7, the 8th resistance R8, the 9th resistance R9, voltage follower U4A；The second level differential amplification First negative input end of circuit is connect through the 4th resistance R4 with D/A conversion module, and the first positive input terminal is through second resistance R2, voltage Follower U4A is connect with infrared receiving module, and to be connected to the 4th resistance R4 and first negative defeated by the 5th resistance R5 for the first output end Enter between end；Second negative input end of the second level differential amplifier circuit is connected to second output terminal through the 7th resistance R7, and first just Input terminal is connected between the 5th resistance and the first output end through the 6th resistance R6, and mono- end the 8th resistance R8 is connected to the second output Between end and the 7th resistance R7, another to be terminated at processor, mono- end the 9th resistance R9 is connected to the second negative input end and the 7th Between resistance R7, other end ground connection.

In above scheme, the differential amplification module includes second level differential amplifier circuit, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7, the 8th resistance R8, the 9th resistance R9, the tenth resistance R10, grid resistance RG, voltage with With device U4A；First negative input end of the second level differential amplifier circuit is through the 4th resistance R4, grid resistance RG and the second negative input End connection, the first positive input terminal are connect through second resistance R2 with infrared receiving module, and the first output end connects by 3rd resistor R3 Between the first negative input end and grid resistance RG；First positive input terminal of the second level differential amplifier circuit is through the tenth resistance R10 is connected between grid resistance RG and the second negative input end in processor, second output terminal through the 5th resistance R5, the 4th electricity Resistance mono- end R4 is connected between the first output end and 3rd resistor R3, another the first positive input terminal for being terminated at voltage follower U4A, Mono- end 6th resistance R6 is connected between second output terminal and the 5th resistance R5, another to be terminated at the of voltage follower U4A One negative input end, the output end of the voltage follower U4A connect processor all the way, and another way is connected to the 6th electricity through the 7th resistance R7 Between the first negative input end for hindering R6 and voltage follower U4A.

The utility model embodiment also provides appoints in a kind of kitchen ventilator, including kitchen ventilator ontology, turbine and such as above scheme Sensor circuit described in meaning one, is arranged turbine on the kitchen ventilator ontology, described in the edge air inlet setting of the turbine Sensor circuit.

Compared with prior art, the utility model adjusts zeroing circuit by the DA signal of output D/A conversion module in real time； When infrared receiving module is influenced by environment light or temperature, the output of circuit can be made to believe by exporting DA Signal Regulation zero point Number deviation is little, is allowed to better reaction detection concentration.

Detailed description of the invention

Fig. 1 provides a kind of connection block diagram of sensor circuit for kitchen ventilator for the utility model embodiment；

Fig. 2 is that the utility model embodiment 1 provides a kind of circuit diagram of sensor circuit for kitchen ventilator；

Fig. 3 is that the utility model embodiment 2 provides a kind of circuit diagram of sensor circuit for kitchen ventilator；

Fig. 4 is that the utility model embodiment 3 provides a kind of circuit diagram of sensor circuit for kitchen ventilator；

Fig. 5 provides a kind of structural schematic diagram of kitchen ventilator for the utility model embodiment.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

The utility model embodiment provides a kind of sensor circuit for kitchen ventilator, as shown in Figure 1, including infrared receiver Module 1, D/A conversion module 2, differential amplification module 3, processor 4；

The infrared receiving module 1, one end are connect with processor 4, and the other end is connect with differential amplification module 3, for adopting Collect resistance voltage and be sent to differential amplification module 3, be also used to detect current environment environment light or environment temperature whether It changes and is sent to processor 4；

The D/A conversion module 2, one end are connect with processor 4, and the other end is connect with differential amplification module 3, for infrared When receiving module 1 detects that the environment light of current environment or environment temperature change, output DA signal to differential amplification module 3；

The input terminal of the differential amplification module 3 is connect with infrared receiving module 1, D/A conversion module 2 respectively, for distinguishing The voltage and DA signal for receiving acquisition resistance, will export after the voltage amplification for acquiring resistance, are generated and are returned to zero according to the DA signal Signal and export the zeroed signal；

The processor 4, connect with D/A conversion module 2, and the environment light of current environment is detected for infrared receiving module 1 Or environment temperature sends control signal to D/A conversion module 2 when changing.

The utility model adjusts zeroing circuit by the DA signal of output D/A conversion module 2 in real time；When infrared receiving module 1 When being influenced by environment light or temperature, the output signal deviation of circuit can be kept little, be allowed to by exporting DA Signal Regulation zero point Better reaction detection concentration.

Embodiment 1

The utility model embodiment 1 provides a kind of sensor circuit for kitchen ventilator, as shown in Fig. 2, including infrared connect Receive module 1, D/A conversion module 2, differential amplification module 3, processor 4；

The infrared receiving module 1 includes infrared receiving tube J1, first resistor R1, thermistor RZ, the tenth resistance R10, Power supply is accessed in one end of the infrared receiving tube J1, and the other end is grounded by first resistor R1；The one end the thermistor RZ connects Power supply is connect, the other end is grounded by the tenth resistance R10 and first resistor R1, between the thermistor RZ and the tenth resistance R10 Connect processor 4.

The D/A conversion module includes DA chip, the model AD5320 that the DA can be used.

It further, further include reserved resistance R3, the one end reserved resistance R3 ground connection, an end is connected to infrared receiving module 1, between differential amplification module 3, convenient for detection ground resistance.

The differential amplification module 3 includes second level differential amplifier circuit, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7, the 8th resistance R8, the 9th resistance R9；First negative input end of the second level differential amplifier circuit is through the 4th Resistance R4 is connect with D/A conversion module 2, and the first positive input terminal is connect through second resistance R2 with infrared receiving module 1, the first output End is connected between the 4th resistance R4 and the first negative input end by the 5th resistance R5；The second of the second level differential amplifier circuit is negative Input terminal is connected to second output terminal through the 7th resistance R7, and the first positive input terminal is connected to the 5th resistance and first defeated through the 6th resistance R6 Between outlet, mono- end the 8th resistance R8 is connected between second output terminal and the 7th resistance R7, another to be terminated at processor 4, Mono- end 9th resistance R9 is connected between the second negative input end and the 7th resistance R7, other end ground connection.

The output signal of the infrared receiving tube J1 is obtained by acquiring the voltage of sample resistance, sample resistance electricity Pressure is amplified by differential amplifier circuit, is finally output to A/D chip；

Automatic zero set function is the DA signal balancing by D/A conversion module 2, when environment light or temperature make infrared receiving tube Initial voltage variation when, then by processor 4 control DA chip export a relevant voltage to differential amplifier circuit, make circuit Output signal is restored to target value, to achieve the purpose that zeroing；

The environment temperature to obtain infrared receiving tube J1 is divided by thermistor RZ.

The differential amplifier circuit is amplified using two-stage, and the first order is differential amplification, and the second level is conventional voltage amplification, such as Fruit design requirement allows, and uses level-one amplification can also be with；Automatic zero set function realizes that difference is put according to differential amplifier circuit Big circuit formula:

Without reserved resistance R3

There is reserved resistance R3

Wherein, U0 is output voltage, U1 is detection infrared tube signal voltage, U2 is zeroing infrared tube zeroing voltage；Without pre- It stays resistance formula to be suitable for ignore the shunting of reserved resistance, there is reserved resistance formula to be suitable for point of negligible reserved resistance Stream.When environment light or environment temperature change, the voltage U1 of infrared tube becomes larger or becomes smaller, and the U0 that single-chip microcontroller is read can also become Greatly or become smaller, is made at this time by the voltage that single-chip microcontroller controls to adjust U2Initial value is near 0, at the beginning of finally making U0 It is little to be worth deviation, to achieve the purpose that automatic zero set.

Embodiment 2

The utility model embodiment 2 provides a kind of sensor circuit for kitchen ventilator, as shown in figure 3, including infrared connect Receive module 1, D/A conversion module 2, differential amplification module 3, processor 4；

The infrared receiving module 1 includes infrared receiving tube J1, first resistor R1, thermistor RZ, the tenth resistance R10, Power supply is accessed in one end of the infrared receiving tube J1, and the other end is grounded by first resistor R1；The one end the thermistor RZ connects Power supply is connect, the other end is grounded by the tenth resistance R10 and first resistor R1, between the thermistor RZ and the tenth resistance R10 Connect processor 4.

The D/A conversion module includes DA chip, the model AD5320 that the DA can be used.

It further, further include reserved resistance R3, the one end reserved resistance R3 ground connection, an end is connected to infrared receiving module 1, between differential amplification module 3, convenient for detection ground resistance.

The differential amplification module 3 includes second level differential amplifier circuit, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7, the 8th resistance R8, the 9th resistance R9, voltage follower U4A；The first of the second level differential amplifier circuit Negative input end is connect through the 4th resistance R4 with D/A conversion module 2, and the first positive input terminal is through second resistance R2, voltage follower U4A It is connect with infrared receiving module 1, the first output end is connected between the 4th resistance R4 and the first negative input end by the 5th resistance R5； Second negative input end of the second level differential amplifier circuit is connected to second output terminal through the 7th resistance R7, and the first positive input terminal is through Six resistance R6 are connected between the 5th resistance and the first output end, and mono- end the 8th resistance R8 is connected to second output terminal and the 7th electricity Hinder between R7, it is another to be terminated at processor 4, mono- end the 9th resistance R9 be connected to the second negative input end and the 7th resistance R7 it Between, other end ground connection.

The output signal of the infrared receiving tube J1 is obtained by acquiring the voltage of sample resistance, sample resistance electricity Pressure is amplified by differential amplifier circuit, is finally output to A/D chip；

Automatic zero set function is the DA signal balancing by D/A conversion module 2, when environment light or temperature make infrared receiving tube Initial voltage variation when, then by processor 4 control DA chip export a relevant voltage to differential amplifier circuit, make circuit Output signal is restored to target value, to achieve the purpose that zeroing；

The environment temperature to obtain infrared receiving tube J1 is divided by thermistor RZ.

The differential amplifier circuit is amplified using two-stage, and the first order is differential amplification, and the second level is conventional voltage amplification, such as Fruit design requirement allows, and uses level-one amplification can also be with；Automatic zero set function realizes that difference is put according to differential amplifier circuit Big circuit formula:

Wherein, U0 is output voltage, U1 is detection infrared tube signal voltage, U2 is zeroing infrared tube zeroing voltage；Environment When light or environment temperature change, the voltage U1 of infrared tube can become larger or become smaller, the U0 that single-chip microcontroller is read can also become larger or Become smaller, is made at this time by the voltage that single-chip microcontroller controls to adjust U2Initial value finally makes U0 initial value 0 near 0 Near, to achieve the purpose that automatic zero set.

Embodiment 3

The utility model embodiment 3 provides a kind of sensor circuit for kitchen ventilator, as shown in figure 4, including infrared connect Receive module 1, D/A conversion module 2, differential amplification module 3, processor 4；

The infrared receiving module 1 includes infrared receiving tube J1, first resistor R1, thermistor RZ, the tenth resistance R10, Power supply is accessed in one end of the infrared receiving tube J1, and the other end is grounded by first resistor R1；The one end the thermistor RZ connects Power supply is connect, the other end is grounded by the tenth resistance R10 and first resistor R1, between the thermistor RZ and the tenth resistance R10 Connect processor 4.

The D/A conversion module includes DA chip, the model AD5320 that the DA can be used.

It further, further include reserved resistance R3, the one end reserved resistance R3 ground connection, an end is connected to infrared receiving module 1, between differential amplification module 3, convenient for detection ground resistance.

The differential amplification module 3 includes second level differential amplifier circuit, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7, the 8th resistance R8, the 9th resistance R9, the tenth resistance R10, grid resistance RG, voltage follower U4A；It is described First negative input end of second level differential amplifier circuit is connect through the 4th resistance R4, grid resistance RG with the second negative input end, and first Positive input terminal is connect through second resistance R2 with infrared receiving module 1, and to be connected to first negative defeated by 3rd resistor R3 for the first output end Enter between end and grid resistance RG；First positive input terminal of the second level differential amplifier circuit is through the tenth resistance R10 in processor 4, second output terminal is connected between grid resistance RG and the second negative input end through the 5th resistance R5, the 4th resistance R4 mono- termination Between the first output end and 3rd resistor R3, another the first positive input terminal for being terminated at voltage follower U4A, the 6th electricity Resistance mono- end R6 is connected between second output terminal and the 5th resistance R5, another the first negative input end for being terminated at voltage follower U4A, The output end of the voltage follower U4A connects processor 4 all the way, and another way is connected to the 6th resistance R6 and voltage through the 7th resistance R7 Between the first negative input end of follower U4A.

The output signal of the infrared receiving tube J1 is obtained by acquiring the voltage of sample resistance, sample resistance electricity Pressure is amplified by differential amplifier circuit, is finally output to A/D chip；

Automatic zero set function is the DA signal balancing by D/A conversion module 2, when environment light or temperature make infrared receiving tube Initial voltage variation when, then by processor 4 control DA chip export a relevant voltage to differential amplifier circuit, make circuit Output signal is restored to target value, to achieve the purpose that zeroing；

The environment temperature to obtain infrared receiving tube J1 is divided by thermistor RZ.

The differential amplifier circuit is amplified using two-stage, and the first order is differential amplification, and the second level is conventional voltage amplification, such as Fruit design requirement allows, and uses level-one amplification can also be with；Automatic zero set function realizes that difference is put according to differential amplifier circuit Big circuit formula:

Wherein, U0 is output voltage, U1 is detection infrared tube signal voltage, U2 is zeroing infrared tube zeroing voltage；Environment When light and environment temperature change, the U1 of infrared tube can become larger or become smaller, and the U0 that single-chip microcontroller is read also can become larger or become smaller, Make (U1-U2) initial value near 0 by the voltage that single-chip microcontroller controls to adjust U2 at this time, makes U0 initial value near 0, finally to reach To the purpose of automatic zero set.

In the embodiment 1-3, processor 4 is not limited to auspicious Sa single-chip microcontroller, is also possible to STM32, PIC, AVR, flies to think card You etc., may be implemented the single-chip microcontroller of this requirement.

The voltage and zeroed signal of the sample resistance of D/A conversion module output amplification are to A/D chip, the A/D chip It can integrate in processor 4, standalone module can also be used, if A/D chip uses standalone module, it is also necessary to pass through communication Agreement sends a signal to processor 4.

The utility model embodiment also provides a kind of kitchen ventilator, as shown in figure 5, including kitchen ventilator ontology 5, turbine 6 and reality Sensor circuit described in any one of 1-3 is applied, turbine 6, the edge of the turbine 6 are set on the kitchen ventilator ontology 5 The sensor circuit is arranged in air inlet.

The above, the only preferred embodiment of the utility model, are not intended to limit the protection of the utility model Range.

Claims (7)

1. a kind of sensor circuit for kitchen ventilator, which is characterized in that including infrared receiving module (1), D/A conversion module (2), differential amplification module (3), processor (4)；

The infrared receiving module (1), one end connects to power supply, and the other end is connect with differential amplification module (3), for acquiring electricity It the voltage of resistance and is sent to differential amplification module (3), whether the environment light or environment temperature for being also used to detect current environment are sent out Changing and it is sent to processor (4)；

The D/A conversion module (2), one end are connect with processor (4), and the other end is connect with differential amplification module (3), for red When outer receiving module (1) detects that the environment light of current environment or environment temperature change, output DA signal to differential amplification Module (3)；

The input terminal of the differential amplification module (3) is connect with infrared receiving module (1), D/A conversion module (2) respectively, for dividing The voltage and DA signal that resistance Jie Shou not acquired will export after the voltage amplification for acquiring resistance, are generated and adjusted according to the DA signal Zero-signal and export the zeroed signal；

The processor (4), connect with D/A conversion module (2), and the environment of current environment is detected for infrared receiving module (1) When light or environment temperature change, control signal is sent to D/A conversion module (2).

2. the sensor circuit according to claim 1 for kitchen ventilator, which is characterized in that the infrared receiving module It (1) include infrared receiving tube J1, first resistor R1, thermistor RZ, the tenth resistance R10, one end of the infrared receiving tube J1 Power supply is accessed, the other end is grounded by first resistor R1；The one end the thermistor RZ connects power supply, and the other end is by the tenth electricity It hinders R10 and first resistor R1 to be grounded, connects processor (4) between the thermistor RZ and the tenth resistance R10.

3. the sensor circuit according to claim 1 or 2 for kitchen ventilator, which is characterized in that further include reserved resistance R3, the one end reserved resistance R3 ground connection, an end is connected between infrared receiving module (1), differential amplification module (3).

4. the sensor circuit according to claim 3 for kitchen ventilator, which is characterized in that the differential amplification module It (3) include second level differential amplifier circuit, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7, the 8th resistance R8, the 9th resistance R9；First negative input end of the second level differential amplifier circuit connects through the 4th resistance R4 and D/A conversion module (2) It connects, the first positive input terminal is connect through second resistance R2 with infrared receiving module (1), and the first output end is connected to by the 5th resistance R5 Between 4th resistance R4 and the first negative input end；Second negative input end of the second level differential amplifier circuit connects through the 7th resistance R7 In second output terminal, the first positive input terminal is connected between the 5th resistance and the first output end through the 6th resistance R6, the 8th electricity Resistance mono- end R8 is connected between second output terminal and the 7th resistance R7, another to be terminated at processor (4), one end the 9th resistance R9 It is connected between the second negative input end and the 7th resistance R7, other end ground connection.

5. the sensor circuit according to claim 3 for kitchen ventilator, which is characterized in that the differential amplification module It (3) include second level differential amplifier circuit, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7, the 8th resistance R8, the 9th resistance R9, voltage follower U4A；First negative input end of the second level differential amplifier circuit through the 4th resistance R4 with D/A conversion module (2) connection, the first positive input terminal connect through second resistance R2, voltage follower U4A and infrared receiving module (1) It connects, the first output end is connected between the 4th resistance R4 and the first negative input end by the 5th resistance R5；The second level differential amplification Second negative input end of circuit is connected to second output terminal through the 7th resistance R7, and the first positive input terminal is connected to the 5th through the 6th resistance R6 Between resistance and the first output end, mono- end the 8th resistance R8 is connected between second output terminal and the 7th resistance R7, the other end It is connected to processor (4), mono- end the 9th resistance R9 is connected between the second negative input end and the 7th resistance R7, other end ground connection.

6. the sensor circuit according to claim 3 for kitchen ventilator, which is characterized in that the differential amplification module It (3) include second level differential amplifier circuit, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7, the 8th resistance R8, the 9th resistance R9, the tenth resistance R10, grid resistance RG, voltage follower U4A；The first of the second level differential amplifier circuit Negative input end is connect through the 4th resistance R4, grid resistance RG with the second negative input end, the first positive input terminal through second resistance R2 with Infrared receiving module (1) connection, the first output end are connected between the first negative input end and grid resistance RG by 3rd resistor R3； First positive input terminal of the second level differential amplifier circuit is through the tenth resistance R10 in processor (4), and second output terminal is through the 5th electricity Resistance R5 is connected between grid resistance RG and the second negative input end, and mono- end the 4th resistance R4 is connected to the first output end and third electricity It hinders between R3, another the first positive input terminal for being terminated at voltage follower U4A, mono- end the 6th resistance R6 is connected to the second output Between end and the 5th resistance R5, another the first negative input end for being terminated at voltage follower U4A, the voltage follower U4A's Output end connects processor (4) all the way, another way through the 7th resistance R7 be connected to the 6th resistance R6 and voltage follower U4A it is first negative Between input terminal.

7. a kind of kitchen ventilator, which is characterized in that including kitchen ventilator ontology (5), turbine (6) and the biography as described in claim 1-6 Turbine (6) are arranged on the kitchen ventilator ontology (5) in sensor circuit, and the sensor is arranged in the edge air inlet of the turbine (6) Circuit.