JP2763914B2 - Combustion control device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial application field) The present invention detects a room temperature by a room temperature detecting element, compares the detected room temperature with a set temperature, and responds to the temperature difference. The present invention relates to a combustion control device that variably controls the amount of combustion in multiple stages set in advance.

(Prior Art) This type of combustion control device changes the amount of combustion in accordance with the temperature difference between room temperature and a set temperature. That is, when the temperature difference between the room temperature and the set temperature is large, the amount of combustion is increased, and as the temperature difference becomes smaller, the amount of combustion is reduced stepwise to control the combustion so that the room temperature becomes the set temperature.

In such a combustion control device, a test of the combustion control is performed on a manufacturer side before shipment.

In the past, a variable resistor was used instead of the room temperature sensing element, and the variable resistor was manually operated to change the input level as if the room temperature had changed and test how the combustion amount changed. .

(Problems to be Solved by the Invention) However, in such a method in which the variable resistor is operated to perform the pseudo-change of the room temperature to change the combustion amount, it is not guaranteed that the combustion amount surely changes one step at a time. Therefore, there was a problem that the change in the combustion amount could not be accurately grasped.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a combustion control device that can accurately grasp a change in a combustion amount in a test mode and has a simple configuration.

According to the present invention, a room temperature is detected by a room temperature detecting element, the detected room temperature is compared with a set temperature, and a combustion amount is determined in advance according to the temperature difference. In a combustion control device that performs variable control in a set multi-stage, at least two input terminals, level determining means for determining the input levels of the two input terminals when power is turned on, and a specific setting predetermined by the level determining means. Mode setting means for setting the combustion amount variable test mode when the level judgment is made, and when the combustion amount variable test mode is set by this mode setting means, it is set in advance by a predetermined existing switch operation. The combustion amount variable control means for varying the combustion amount stage is provided.

(Operation) In the present invention having such a configuration, the combustion state variable test mode is set by turning on the power while setting the level states of the two input terminals to a specific level state. When the existing switch determined in this state is operated, the combustion amount changes based on the set combustion amount stage.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

In FIG. 1, reference numeral 1 denotes a microcomputer constituting a control unit main body. The microcomputer 1 controls the combustion control circuit 2 based on a program set internally. The combustion control circuit 2 controls an electromagnetic pump for supplying fuel to a carburetor, a carburetor heater for heating the carburetor, a combustion motor for supplying air to a combustion unit, and the like. , 3, 4, and 5 are mode setting switches.
Reference numerals 4 and 5 are connected between the + Vcc terminal and the ground via resistors 6, 7, and 8, respectively. Then the connection point between the switch 3 and the resistor 6 via a resistor 9 connected to the input port (input terminal) P ₀ of the microcomputer 1, the connection point between the switch 4 and the resistor 7 via a resistor 10 wherein connected to the input port (input terminal) P ₁ of the microcomputer 1, by connecting the connection point between the switch 5 and the resistor 8 through the resistor 11 to the input port (input terminal) P ₂ of the microcomputer 1 I have.

12 is a rest set switch for setting a so-called rest operation, for example, to stop the combustion operation after performing the combustion operation for one hour, and 13 is a rest switch for resetting the contents set by the rest set switch 12. A rest reset switch 14 is an early set switch for setting a so-called early operation, for example, to perform a combustion operation for one hour by setting a timer, and 15 is an early switch for resetting the contents set by the early set switch 14. Reset switch.

The switches 12, 13, 14, and 15 are connected between the + Vcc terminal and ground via resistors 16, 17, 18, and 19, respectively. A connection point between the switch 12 and the resistor 16 is connected to an input terminal of the microcomputer 1 via a resistor 20, and a connection point between the switch 13 and the resistor 17 is connected to an input terminal of the microcomputer 1 via a resistor 21. A connection point between the switch 14 and the resistor 18 is connected to an input terminal of the microcomputer 1 via a resistor 22, and a connection point between the switch 15 and the resistor 19 is connected via a resistor 23 to the microcomputer. It is connected to the input terminal of the computer 1.

Reference numeral 24 denotes a room temperature thermistor which is a room temperature detecting element. The room temperature thermistor 24 is connected via a resistor 25 between the + Vcc terminal and the ground. A connection point between the room temperature thermistor 24 and the resistor 25 is connected to the microcomputer 1 via a resistor 26.
Connected to the input terminal.

The microcomputer 1 has a reset circuit 27.
, A reset signal ▲ ▼ is input.

The microcomputer 1 performs a test flag setting process shown in FIG. 2 and a combustion amount setting process shown in FIG.

First test flag set processing, 1 second at S ₁ Exit F
Check whether (flag) is “1”. And it is determined that "1" unless it is when the power is turned on, at S ₂ 1
Wait for seconds. This 1 second is the reset circuit 27 after the power is turned on.
Reset is released, and each input port (input terminal)
It is time to stabilize.

When one second elapses after the power is turned on, “1” is set to the end F for one second.

Next, check whether the input level of the input port P ₀ at S ₃ has become "H", that is, high level. And followed if the high-level input level of the input port P ₁ at S ₄ to check whether or not it is "H", ie high level. Test if input port P ₁ = H
Set “1” to 1F (flag). Also input port P ₁
If = L, "0" is set to test 1F (flag).

Next, check whether the input level of the input port P2 at S ₅ is "H", ie high level. If the input port P ₂ = H, “1” is set to the test 2F (flag). Test 2F if input port P ₂ = L
(Flag) is set to “0”.

Further, the combustion amount setting process is performed by the switches 12, 13, 14, 1
5 detects a rising edge of the (existing switches), checks whether test 2F (flag) = 1 or at S _6. The rest set F at followed by S ₇ if the test 2F = 1
Check whether (flag) = 1. If the rest set F = 1, it is determined that the rest set switch 12 has been operated, and the rest set F is set to "0" and the combustion amount is set to +1. That is, it is raised by one step.

Then to check whether or not the rest reset F (flag) = 1 or at S _8. If the rest reset F = 1, it is determined that the rest reset switch 13 has been operated, the rest reset F is set to "0", and the combustion amount is decremented by one. That is, it is lowered by one step.

The test 2F at check of test 2F in the S ₆
If = 0 Then to check whether or not the input port P ₂ = H at S _9. If the input port P ₂ = H, save F
(Flag) is set to “0”, and a combustion amount setting operation is performed.

In addition, following if the input port P ₂ = L to check whether or not the save F = 1 or at S _10. And, if the save F = 1 at S ₁₁ checks room> set temperature + 1 ° C. or. In this check, if room temperature ≦ set temperature + 1 ° C., save F = 0 is set, and combustion amount setting control is performed. If room temperature> set temperature + 1 ° C., save F = 1, and the digestion operation is performed.

If saving F = 0 in the check of the S ₁₀ checks whether room ≧ the set temperature + 3 ° C. at S _12. In this check, if room temperature ≧ set temperature + 3 ° C., save F =
Set to 1 to perform the digestion operation. If room temperature <set temperature + 3 ° C., save F = 0 is set and the combustion amount setting operation is performed.

In this embodiment having such a configuration, when turning on the power is turned on operating the mode setting switch 3 and 5, "1" to the test 2F since the input ports P ₀ and P ₂ becomes a high level
Is set. In this state, the combustion amount increases by one step each time the rest set switch 12 is turned on. Each time the rest reset switch 13 is turned on, the combustion amount decreases by one step. In this way, by operating the existing rest switch 12 and rest reset switch 13, the combustion amount can be accurately changed step by step based on the combustion amount stage set. Therefore, it is possible to reliably test how the combustion amount changes step by step.

Further, when the mode setting switch 5 is turned on after one second has passed since the power was turned on, it is determined whether the switching between the continuation of the combustion operation and the execution of the digestion operation is performed at room temperature ≧ set temperature + 3 ° C., or room temperature> set. Judgment or switching based on temperature + 1 ° C. That is, the auto save function is switched.

When the power is turned on by turning on the mode setting switches 3 and 4, the input ports P ₀ and P ₁ become high level, so “1” is set in the test 1 F.
When = 1, the time shortening mode is set, and each unit can operate in a shorter time than the normal clock time.

In the above-described embodiment, the case where the change in the combustion amount is performed by the rest set switch 12 and the rest reset switch 13 has been described. However, the present invention is not necessarily limited to this, and the change is performed by the early set switch 14 and the early reset switch 15. You may do so.

[Effects of the Invention] As described above in detail, according to the present invention, the combustion amount can be surely changed one step at a time in the test mode, so that the change in the combustion amount can be accurately grasped, and the combustion can be performed using the existing switch. Since the operation of changing the amount is performed, a combustion control device having a simple configuration can be provided.

[Brief description of the drawings]

FIG. 1 shows an embodiment of the present invention. FIG. 1 is a circuit diagram, and FIGS. 2 and 3 are flow charts showing main part processing by a microcomputer. 1 ... microcomputer, 2 ... combustion control circuit, 3
-5: Mode setting switch, 12: Rest set switch, 13: Rest reset switch, 24: Room temperature thermistor.

Claims (1)

(57) [Claims] 1. A combustion control apparatus for detecting a room temperature by a room temperature detecting element, comparing the detected room temperature with a set temperature, and variably controlling a combustion amount in a preset multi-stage according to the temperature difference. At least two input terminals, level determining means for determining the input levels of the two input terminals when power is turned on, and a combustion amount variable test when a predetermined level determination is made by the level determining means. Mode setting means for setting a mode, and combustion amount variable control means for changing a preset combustion amount stage by operating a predetermined switch when a combustion amount variable test mode is set by the mode setting means. A combustion control device comprising: