JPH076644U - Hot air generator - Google Patents

Abstract

(57) [Abstract] [Purpose] To perform automatic temperature / air volume control of hot air, temperature / air volume priority control, memory setting, power saving timer standby, program control, rapid heating control, and safety control of equipment with simple operations. [Structure] In addition to controlling the air volume and the heater temperature by a blower motor, it has a program control of the required temperature air volume and the temperature air volume of different states and these memory functions, and performs these controls by a simple operation. In addition, it consists of various operating devices required for the above. [Effect] It is possible to obtain hot air of a desired temperature and air volume efficiently and reliably by simple operation, and to obtain hot air according to the program according to the memory by memory setting and program control, further power saving and rapid heating are possible, and abnormal The safety of the equipment at the time can be achieved.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a hot air generator in which the blower motor rotation speed and the hot air discharge temperature are controlled in conjunction.

[0002]

[Prior art]

 In the hot air generator 1 shown in FIG. 7, the heater power source is turned on / off by the temperature sensor 3 provided at the hot air outlet 2 and the temperature controller 4 controlled by the microcomputer, and the set temperature of the blowout temperature is kept constant. The output of the tachogenerator directly connected to the motor of the blower 5 is detected to control the feedback of the thyristor, and the rotation speed of the motor is manually adjusted by the airflow adjustment knob 6. The air volume is adjusted by adjusting the temperature, or the opening / closing degree of the damper 7 provided on the blower 5 is manually adjusted to adjust the air volume. The air volume adjustment knob 6 is not linked.

Further, as shown in FIG. 8, the relationship between the hot air blowing temperature T and the blowing air amount Q is represented by a characteristic curve in which the blowing air amount T decreases as the blowing air amount Q increases.

[0004]

[Problems to be solved by the device]

 As is clear from the characteristic curve shown in FIG. 8, even if the temperature is set to a high temperature in a large air volume state, the air volume control knob 6 must be manually operated to adjust the air volume to the desired set temperature. The hot air that reaches does not blow out.

Further, as described above, there is no device in which the temperature controller and the air volume adjusting knob are interlocked.

[0006]

[Means for Solving the Problems]

 A tachogenerator or a magnetic sensor or an optical sensor that detects the blower motor rotation speed and an air volume controller that automatically detects the difference between the detected motor rotation speed and the frequency or voltage by a microprocessor. In addition to installing a temperature controller / indicator that performs automatic control within the allowable set temperature range of the hot air generator, the air flow controller and temperature controller / indicator have a relationship between the hot air blowing amount and the blowing temperature. A microcomputer or IC circuit that tracks the characteristics and is linked to each other is automatically controlled to obtain the required air volume and temperature, and temperature priority control, air volume priority control, rapid heating control, temperature, air volume and time. Program control combining these, memory settings for these controls, and timer standby control for power saving can be performed easily by the digital transmission method. For the purpose of Ukoto.

[0007]

[Action]

  Temperature priority mode When the temperature is set within the allowable set temperature range of the hot air generator and the automatic button of the automatic / manual switch button is pressed, temperature priority control is performed by the temperature controller / display, as shown in Fig. 8. When the maximum air volume is reached at the temperature determined by the temperature / air volume characteristic curve and the temperature does not rise to the set temperature, the air volume is automatically reduced and the temperature is raised to the set temperature.

Memory operation If the memory switch button and the memory set button are pressed in a stable state when the blowout temperature reaches the set temperature, the temperature / air volume modes determined by different usage conditions and purposes are stored, and the temperature setting will be performed from the next time. Even if you do not press, the temperature and air volume will be set just by pressing the memory switch button.

Further, when the temperature and the air volume corresponding thereto are preset by the memory set button, the temperature and the air volume set by only pressing the memory switch button are obtained.

Timer Standby Mode Before starting the operation, turn on the temperature / timer setting display shown in FIG. 3 to the timer side by operating the time timer / temperature display changeover switch, and after turning on the main power switch of the hot air generator. By controlling the air volume during the standby state before starting use, shorten the heater ON time at the set temperature, lengthen the OFF time, and adjust the temperature and air volume to minimize power consumption.

Further, when the time timer is set to ON in the memory, the mode is automatically set after the fact.

Program Operation and Program Memory As shown in FIG. 4, the first 60 minutes (T₁) To high temperature (C₁) In the middle 30 minutes (T ₂ ) To medium temperature (C₂), The last 30 minutes (T₃) To high temperature (C₃The program switch controls the temperature to be automatically changed at an appropriate time interval.

Further, the mode can be set in the memory.

Further, it is possible to program the temperature priority and the air volume priority at desired intervals to automatically operate.

Air volume priority mode Following the temperature / air volume characteristic curve (FIG. 8), the air volume is prioritized and automatically adjusted to the maximum temperature that can be set by the set air volume.

After setting the desired air volume with the air volume controller, the air volume priority button is pressed to blow the hot air with the set air volume priority.

When the mode is set in the memory, the air volume priority control is automatically performed after the fact.

An air volume controller equipped with an air volume sensor and an air volume adjustment knob, or an air volume adjustment button of an up-down type, which controls the air volume to qm ³ / min, and the maximum temperature corresponding to the air volume or less than the maximum temperature. Automatically set to the set temperature that can be set with.

Further, the mode can be preset and the memory can be set.

Rapid heating mode As shown in FIG. 5, the blower is stopped until just before reaching the set temperature, and the rapid heating control is automatically turned on after T ₁ minutes when t ₁ ℃ is reached. To do it.

Further, in accordance with the method of digital data transmission for controlling the temperature and air volume in the previous term, the number of transmission lines is controlled to be less than the actual number, for example, 2 or 4 lines, and the remote control is performed. Can be performed using radio waves or light.

Heat power supply cut-off automatic cooling control When the power of the hot air generator is turned off, the power of the heater is first turned off, and the blower blows air until the discharge temperature falls below the safe temperature (eg 40 ° C). Continue, and stop the blower when the discharge temperature falls below the preset temperature.

Abnormal temperature detection automatic stop control (1) Abnormal temperature rise prevention control As shown in FIG. 6, a heater control triac, a heater, a temperature control sensor, a CPU, an overheat prevention sensor, a breaker, and a brake. -A driver, CPU error detector, driver input interface / buffer and error indicator (light emitting diode or pilot lamp) are provided. Abnormal temperature is detected and the power supply of the heater is cut off by a system different from the temperature control.

(2) Other anomaly prevention control Detects microcomputer runaway, damage, and other anomalies (clock pulse anomaly detection, stop detection, runaway detection, etc.) and cuts off the heater breaker when an anomaly occurs. Then turn on the error indicator.

[0025]

【Example】

 FIG. 1 is an external view of the present invention, in which a blower motor 9 is connected to a hot air generator main body 8 and hot air heated by a heater 10 provided in the main body 8 is blown out from a discharge port 8a.

A temperature adjustment sensor 11 is provided at the discharge port 8 a, and an overheat prevention sensor 12 is provided near the heater 10.

Reference numeral 13 is an air volume adjusting knob, around which an air volume indicating light emitting diode 14 is provided.

An air volume controller 15 measures the air volume with an air volume sensor 16 provided at the discharge port 9 a of the blower, and adjusts the air volume by operating an automatic / manual switch 17.

Reference numeral 18 is a temperature controller / display unit, 19 is a time timer / temperature display changeover switch, and 19a is its display section.

Reference numeral 20 denotes a heater controller which stores the hot air blowing temperature and the blower motor rotational speed at that time when the memory set switch 21 is turned on and the memory switch button 22 is turned on.

Reference numeral 23 is an air volume priority button, 24 is a rapid heating button, 25 is a program switch, 26 is an original power switch, 27 is an air volume priority button pilot lamp, and 28 is a rapid heating button pilot lamp.

FIG. 2 is a circuit block diagram according to the present invention, in which a control board 29 shows all the control and display circuits.

Reference numeral 12a is a power source breaker for preventing overheating.

FIG. 6 is a circuit block diagram related to protection in the event of an abnormality. 30 is a heater control triac, 31 is a heater, 32 is a temperature control sensor, 33 is an overheat prevention sensor, 34 is a CPU, Reference numeral 35 is a breaker, 36 is a breaker driver, 37 is a CPU abnormality detector, 38 is a driver input interface / buffer, and 39 is an abnormality indicator (light emitting diode or pilot lamp).

[0035]

[Effect of device]

 Since the temperature adjustment and the air volume control are performed in tandem, the hot air having the desired temperature and air volume can be reliably obtained with simple operation.

When the memory is set to the desired set temperature and air volume, hot air through the memory can be easily obtained from the next time by a simple operation.

In addition, the timer standby control accelerates the start of work to obtain the effect of power saving, and also facilitates rapid heating if necessary.

[Submission date] January 31, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content] [Detailed description of the device] [Industrial applications]

 The present invention relates to a hot air generator, in which the blower motor rotation speed and the hot air discharge temperature are interlocked.

2. Description of the Related Art In a hot air generator 1 shown in FIG. 7, a heater power source is turned on / off by a temperature sensor 3 and a temperature controller 4 provided at a hot air outlet 2 of the hot air outlet 2 to keep a set temperature of an outlet air constant. The blown air volume is maintained by adjusting the rotation speed of the motor of the blower 5 by manually operating the air volume adjustment knob 6, or by manually adjusting the opening / closing degree of the damper 7 provided on the blower 5 to adjust the air volume. Although the hot air blowing temperature and the blowing air amount are adjusted separately, the temperature controller 4 and the air amount adjusting knob 6 are not linked. Further, the relationship between the hot air blowing temperature T and the blowing air amount Q is represented by a characteristic curve in which the blowing temperature T decreases as the blowing air amount Q increases, as shown in FIG.

[Problems to be solved by the device]

As is clear from the characteristic curve shown in FIG. 8, even if the temperature is set to a high temperature in a large air volume state, the air volume control knob 6 must be manually operated to adjust the air volume to the desired set temperature. The hot air that reaches does not blow out. Further, as described above, there is no device in which the temperature controller and the air volume controller work together.

[Means for Solving the Problems]

Temperature sensor for detecting the discharge temperature of the hot-air generator, a microprocessor that automatically adjusts so that the difference of the comparison set temperature between the set temperature and the detected temperature (hereinafter you abbreviated as CPU.), Is controlled by the CPU that through the semiconductor switches connected heater, means for detecting a rotational speed of the blower motor (magnetic or optical transmitter sensing Takojenere data, etc.) and the rotational speed detected by said means enter into the CPU set airflow or temperature on means to control the rotational speed of reading the blower motor to stop lowering or rise in temperature of Noboriritsu (triac, thyristor, inverter, etc.) and an element capable of storing conditions such as between the set temperature and the air volume and during operation (a plurality of memory ) and the operation unit and a display setting displays various states of the provided temperature priority control, air volume priority control, rapid heating control, set the temperature, wind amount and time Combined Purokuramu control of control memory settings, timer standby control for power saving, the power interruption heater automatic cooling delay Buroamo over data stops at, it shall be the remote control and objects easily make these control.

[Action]

A Temperature priority mode When the temperature is set within the allowable temperature range of the hot air generator and the automatic button of the automatic / manual switching button is pressed, temperature priority control is performed by the temperature controller / display, and the temperature shown in Fig. 8 is displayed. -The air volume will be in accordance with the temperature determined by the air volume characteristic curve . The stopping of the reduction or the temperature rise in the temperature increase rate when up to the set temperature without raising the temperature detected by Mycobacterium down, to automatically raised to a set temperature reduces the air volume. B memory operations blowout temperature becomes the set temperature stable state in the memory switch button 2 0a of FIG. 1, 20b, when pressed 20c and memory set button 21, and temperature definitive in their use state, the air volume (such as rotation of the blower motor) From the next time, the temperature and air volume will be set just by pressing the memory switch button without setting the temperature. When the temperature and the air volume corresponding thereto are preset with the memory set button within the range of the characteristic curve shown in FIG. 8, the temperature and the air volume set by only pressing the memory switch button are obtained as in the above . C timer standby mode If you set the set temperature and the use start time by operating the time timer / temperature display changeover switch before starting work , the heater power will be turned on at the set time to rapidly heat to the set temperature, and then power consumption Stand by with the air volume suppressed to minimize . During work start need only it matches the predetermined airflow, thereby saving power standby. The temperature was preset to both air flow, after the standby setting, automatically start to reach the set temperature and the set air volume set time if the ON automatic switch 16a in FIG. 1 is adjusted automatically. Note that FIG. 3 shows an example of a temperature table. It is also possible to set the timer standby mode in the memory and repeatedly set the same temperature at the same time every day . D Program Operation and Program Memory As shown in FIG. 4, the first 60 minutes (T ₁ ) is high temperature (C ₁ ), the middle 30 minutes (T ₂ ) is medium temperature (C ₂ ), and the last 30 minutes (T ₂ ). T ₃₎ can be determined promptly by using an control for changing the temperature automatically by a program switch at appropriate time intervals so that a high temperature (C _3). Also, the mode can be set to the memory. Furthermore, temperature priority and air volume priority can be programmed at desired intervals for automatic operation. E Air volume priority mode Following the temperature / air volume characteristic curve (Fig. 8), the air volume is prioritized and automatically adjusted to the maximum temperature that can be set with the set air volume. After setting the desired air volume with the air volume controller, press the air volume priority button to blow hot air with the set air volume priority. Further, when the mode is set to the memory , the air volume priority control is automatically performed only by turning on the memory button . F Automatic adjustment mode If the temperature controller / display unit 17 and the air volume controller 13 shown in FIG. 1 are adjusted within the range of the characteristic curve shown in FIG. 8 and the automatic switch 16a is turned on, the set temperature and the air volume are automatically set. Is adjusted to . G Manual Adjustment Mode When the manual switch 16a shown in FIG. 1 is turned on, the temperature adjustment and the air volume adjustment can be performed separately and independently . H rapid heating mode As shown in FIG. 5, the blower is stopped until just before reaching the set temperature, and the rapid heating control is automatically performed such that the blower switch is turned on after T ₁ minute when t ₁ ℃ is reached. Further, according to the method of digital data transmission, the temperature and air volume control mentioned above can be controlled by the number of transmission lines which is smaller than the actual one, such as 2 or 4 lines, and this remote control can be performed by using radio waves or light. . I Heater power cut-off automatic cooling control When turning off the power of the hot air generator, first turn off the power of the heater, and the blower continues to blow air until the discharge temperature falls below the safe temperature (eg 40 ° C), and the discharge temperature changes. Stop the blower when the temperature falls below the preset safe temperature. J Abnormality detection automatic stop control (1) Abnormal temperature rise prevention control As shown in Fig. 6, heater control triac, heater, temperature control sensor, CPU, overheat prevention sensor, breaker, breaker driver, CPU abnormality detector, dry It consists of an input interface / buffer and an anomaly indicator (light emitting diode or pilot lamp) .A sensor for anomalous temperature rise is provided separately from the temperature control to detect anomalous temperature above the set value. Controls to turn off the heater power. (2) Other abnormality prevention control The microcomputer runs away, is damaged, and detects other abnormalities (clock pulse abnormality detection, stop detection, etc.), and when an abnormality occurs, the heater breaker is cut off and the abnormality indicator is turned on. (Fig. 6)

【Example】

FIG. 1 is an external view of the present invention, in which a blower motor 9 is connected to a hot air generator main body 8 and hot air heated by a heater 10 provided in the main body 8 is blown out from a discharge port 8a. A temperature control sensor 11 is provided at the discharge port 8a, and an overheat prevention sensor 12 is provided at an appropriate place in the electric furnace . Reference numeral 13 is an air volume controller, around which an air volume display light emitting diode 14 is provided. Although the volume control is shown in the figure, an up / down push button may be used . Adjust the air volume by the operation of air-flow control device 13 detects the air volume in the air flow sensor 15 provided in the discharge opening 9a of the blower, automatically adjusting the temperature and air volume in the set value within the characteristic curve shown in FIG. 8 . Further, if the air flow sensor 15 is not attached and the temperature is prioritized, the temperature is stopped or the decrease in the rate of increase is calculated in accordance with the characteristic curve shown in FIG. 8, and the rotation speed of the blower motor 9 is decreased to increase the temperature to a predetermined temperature. Let 17 is a temperature controller and display unit, 18 18a a time timer Temperature display switch is a display unit of the switching state, temperature display or time by the operation of the time timer temperature display switching switch 18 The display is distinguished . 20a, 20b, 20c is a memory switch button, stores the temperature and air volume (motor speed) set by the temperature controller and display unit 17 and the air volume regulator 13, memory switch button 20a, 20b, 20c of is intended to fix in the memory set button 21 to select whether to store in any case, 20 is a pilot lamp memory setting display. 16a and 16b are automatic / manual changeover switches, 22 is an air volume priority button, 23 is a rapid heating button, 24 is a program switch, 24a is a program memory button, 24b is a pilot lamp of the program memory button, 25 is a main power switch, and 26 is The pilot lamp for the air volume priority button and 27 are the pilot lamps for the rapid heating button. Figure 2 is a circuit block diagram according to the present invention, 19 to detect the actual temperature by the temperature sensor 11 a heater controller (TRIAL click), the set temperature is the arithmetic control by the CPU together with the air volume regulator 13 Turn the heater power on and off . The control system is shown on the control board 28 , and 29 is a power breaker for preventing overheating and for abnormal stop . Figure 6 is a circuit block diagram for the Protection of the abnormal occurrence, 30 heater control DOO Raiakku, 31 heater, temperature control sensors 11, 12 prevent overheating sensor, 3 2 CPU, 33 is circuit breaker, 34 Breaker A driver, 35 is a CPU abnormality detector, 36 is a driver input interface / buffer, and 37 is an abnormality indicator (light emitting diode or pilot lamp).

[Effect of device]

Since the temperature adjustment and the air volume control are performed in conjunction with each other, the hot air having the desired temperature and air volume can be reliably obtained with a simple operation. If the memory is set to the desired set temperature and air volume, hot air through the memory can be easily obtained from the next time with a simple operation. In addition, the timer standby control accelerates the start of work and saves power . In addition, quick heating can be easily performed if necessary, and the power can be quickly cooled to a safe temperature even when the power is off .

[Brief description of drawings]

FIG. 1 is an external view showing the device of the present invention.

FIG. 2 is a circuit block diagram according to the present invention.

FIG. 3 is a front view showing a temperature / timer setting indicator according to the present invention.

FIG. 4 is an explanatory view showing an embodiment for performing program control in the present invention.

FIG. 5 is an explanatory view showing an embodiment for performing rapid heating control in the present invention.

FIG. 6 is a circuit block diagram relating to protection in the event of an abnormality according to the present invention.

FIG. 7 is an external view showing a conventional hot air generator.

FIG. 8 is a characteristic curve diagram showing a relationship between a hot air blowing temperature and a blowing air amount.

[Explanation of symbols]

9 Blower motor 10, 31 Heater 1
1 Temperature adjustment sensor 12, 33 Overheat prevention sensor 15 Air volume controller 16 Air volume sensor 17 Automatic / manual switch 18 Temperature controller / display 19 Time timer / temperature display switch 2
0 Heater controller 21 Memory set switch 22 Memory switch button 23 Air volume priority button 24 Rapid heating button 30 Heater control triac 34 CPU 35 Breaker 37
CPU abnormality detector

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[Procedure amendment]

[Submission date] January 31, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

[Title of device] Hot air generator

[Scope of utility model registration request]

[Brief description of drawings]

FIG. 1 is an external view showing the device of the present invention.

FIG. 2 is a circuit block diagram according to the present invention.

FIG. 3 is a front view showing a temperature / timer setting indicator according to the present invention.

FIG. 4 is an explanatory view showing an embodiment for performing program control in the present invention.

FIG. 5 is an explanatory view showing an embodiment for performing rapid heating control in the present invention.

FIG. 6 is a circuit block diagram relating to protection in the event of an abnormality according to the present invention.

FIG. 7 is an external view showing a conventional hot air generator.

FIG. 8 is a characteristic curve diagram showing a relationship between a hot air blowing temperature and a blowing air amount.

[Explanation of Codes] 9 Blower Motor 10, 30 Heater Control Triac 11 Temperature Control Sensor 12 Overheat Prevention Sensor 1
3 Air flow controller 15 Air flow sensors 16a, 16b Automatic / manual switch 17 Temperature controller / display 18 Time timer / temperature display switch 18a Time timer / temperature display switching status display 19
Heater controller 20 Memory setting display pilot lamps 20a, 20b, 20c 24a Memory switch button 21 Memory set button 22 Air volume priority button 23 Rapid heating button 31 Heater 32 CPU 33 Breaker 35
CPU abnormality detector

Claims (1)

[Scope of utility model registration request] 1. A program in which the blower motor rotation speed and the hot air discharge temperature are interlockedly controlled by a sensor and a microcomputer or a means equivalent thereto, and temperature priority control, air volume priority control, rapid heating control, temperature, air volume and time are combined. Control, memory setting of these controls, timer standby control for power saving, safety control in case of abnormality, cooling stop control when heater power is cut off, and the various controls described above using digital transmission method to reduce the number of lines, radio waves or optical signals. A hot air generator characterized by being remotely controlled by.