JPH0573500U - Hot air circulation furnace - Google Patents

Abstract

(57) [Summary] [Purpose] The work does not reach the specified temperature even though the temperature inside the hot-air circulation furnace has reached the specified temperature, or only the upper end of the work is overheated. In addition, the entire work can be heated uniformly so that it is not partially heated depending on the shape of the work, and the temperature distribution in the furnace can be set arbitrarily as needed. To do. [Composition] A wind direction / air volume adjusting means 11 is provided at each outlet 5 for blowing hot air into the furnace 4, and a reference temperature sensor S ₀ for detecting a reference temperature of the furnace 4 and a temperature distribution of a heated work W are detected. A plurality of temperature sensors S _1, S _2, S ₃ are installed, and the temperature control device 14 controls the heating amount / cooling amount of the temperature control device based on the temperature detected by the reference temperature sensor S _0.
A temperature distribution control device 16 for controlling the wind direction and air volume based on the temperature distribution of the work W detected by _1, S _{2 and} S ₃ is provided.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a hot-air circulation furnace that sucks gas from a suction port opened in the furnace and circulates the gas again from the blow-out port into the heat treatment furnace.

[0002]

[Prior Art]

 The hot-air circulation furnace controls the heating or cooling of the gas flowing through the gas flow path to a preset temperature in the gas flow path that sucks the gas in the furnace from the suction port and circulates it again from the blow-out port into the furnace. A heating device is installed. This temperature controller compares the detected temperature with a preset temperature based on the output signal of the temperature sensor that detects the temperature inside the furnace, and detects the gas flowing through the gas flow path according to the temperature difference. The temperature of the air supplied is maintained constant by heating or cooling. In order to prevent uneven distribution of temperature in the furnace, a large number of hot air outlets are provided along the upper and lower sides of the furnace and along the longitudinal direction, so that hot air of a predetermined temperature is uniformly supplied to the entire furnace. It is designed to maintain a constant temperature inside the furnace and to obtain a uniform temperature distribution.

[0003]

[Problems to be solved by the device]

 However, since the high-temperature gas is light, even if hot air is blown into the furnace uniformly, there are cases where the furnace ceiling side becomes hot and the furnace floor surface side where the work is loaded cannot be heated to a predetermined temperature. Even if the temperature inside the furnace is maintained at the set temperature, if the work height is close to the ceiling inside the furnace, the upper end may be overheated and heated evenly. It is not possible, and there is a possibility that quality defects will occur.

Further, depending on the shape of the work, the amount of heat required to heat it to a predetermined temperature may be partially different, and it was impossible to uniformly heat such a work. Furthermore, depending on the type of work, if it is desired to heat-treat the first half at a high temperature and the second half at a relatively low temperature, it is not possible to set the temperature distribution in one furnace arbitrarily. there were.

Therefore, according to the present invention, the work does not reach the predetermined temperature in part even though the temperature in the furnace reaches the predetermined temperature, or only the upper end of the work is excessively heated. The technology is to be able to uniformly heat the whole work so that it is not partially heated depending on the shape of the furnace, and at the same time, to set the temperature distribution in the furnace arbitrarily. It is a specific subject.

[0006]

[Means for Solving the Problems]

 In order to solve this problem, the present invention has a gas flow path that sucks gas from an inlet formed in the furnace and circulates the gas from the outlet again into the furnace at a preset temperature. In a hot-air circulation furnace in which a temperature control device for heating or cooling is provided, a plurality of outlets are formed, and each outlet is provided with an air-direction / air-amount adjusting means for adjusting the wind direction or volume of hot air. In the furnace, a reference temperature sensor that detects the reference temperature in the furnace is installed, and a plurality of temperature sensors that detect the temperature distribution of the work are installed, and the temperature detected by the reference temperature sensor is A temperature control device that determines the heating amount or cooling amount of the temperature control device by comparing it with a preset temperature, and compares the temperature distribution of the workpiece detected by the temperature sensors with the preset temperature distribution. Wind from each outlet Or it characterized with a temperature distribution control device for adjusting the air volume.

[0007]

[Action]

 According to the present invention, the temperature in the furnace detected by the reference temperature sensor installed in the furnace is compared with the preset temperature, and the gas supplied into the furnace is heated to a predetermined temperature, and hot air is blown. When the air is blown into the furnace from the air outlet, the heat heats the work. At this time, if hot air is blown out uniformly from all the outlets, the temperature inside the furnace becomes higher on the ceiling side, and the temperature distribution of the work becomes lower in the lower part and higher in the upper part. Therefore, for example, when heating the work while maintaining a uniform temperature distribution, the temperature distribution of the work is detected by each temperature sensor, and when the temperature at the upper end side is high, for example, the outlets formed above The work is heated with a uniform temperature distribution by directing the air flow direction of the downward direction or by decreasing the amount of air blown from the upper outlet to increase the amount of air blown from the lower outlet. For example, when the front half of the work is heat-treated at high temperature and the rear half is heat-treated at relatively low temperature, the detected temperature distribution is compared with the preset temperature distribution and blown out from the rear outlet. Since the amount of air blown out from the front air outlet is increased by reducing the amount of air flow, the front half and rear half of the workpiece are heat treated at different temperatures.

[0008]

【Example】

 Hereinafter, the present invention will be described in detail based on embodiments shown in the drawings. FIG. 1 is a flow sheet showing a hot air circulating furnace of the present invention.

In the figure, reference numeral 1 denotes a hot-air circulation furnace for heat-treating a work W carried in by a conveyor 2, which sucks gas in the furnace 4 from a suction port 3 opened in a ceiling part and is opened in a furnace wall. A gas flow path 6 is formed so as to circulate the gas from the outlet 5 again into the furnace 4. A circulation fan 7 for circulating the gas in the furnace 4 is disposed in the suction port 3, and the gas sucked from the furnace 4 is heated to a preset temperature in the gas passage 6. A temperature control device 8 for cooling is provided.

A plurality of outlets 5 and 5 are vertically opened along the furnace wall, and are formed at predetermined intervals along the longitudinal direction of the furnace 1. Each of the outlets 5 has a cylindrical case 9 rotatably engaged with the outlet 5 so that the wind direction can be adjusted in the vertical direction and the front-back direction. A hemispherical nozzle 11 is pivotally engaged. In addition, 12 and 13 are motors for rotating the cylindrical case 9 and the nozzle 11 by a predetermined angle, respectively.

A reference temperature sensor S ₀ for detecting the reference temperature of the furnace 4 is installed in the furnace 4, and a plurality of temperature sensors S _1, S _2, S ₃ for detecting the temperature distribution of the work W are provided. Are attached to the surface of the work W, a cage for carrying the work W, or the like. Reference numeral 14 compares the in-furnace temperature detected by the reference temperature sensor S ₀ with the temperature preset by the setter 15 to determine the heating amount of the temperature control device 8 arranged in the gas flow path 6 or The temperature control device 16 for determining the cooling amount compares the temperature distribution detected by the temperature sensors S _1, S _2, S ₃ with the temperature distribution preset by the setting device 15, This is a temperature distribution control device that adjusts the wind direction from each outlet 5 by moving the motors 12 and 13 according to the temperature difference at the measurement point.

The above is an example configuration of the present invention, and its operation will be described below. First, when the work W is to be heated uniformly, first, the temperature control device 8 continues heating until the temperature inside the furnace detected by the reference temperature sensor S ₀ reaches the set temperature. At this time, the conditions of temperature distribution, so that the measured temperature of each measuring point is uniform, that is, the temperature sensors S _1, S _2, temperatures T ₁ detected by S _3, T _2, T ₃ equals Thus, T ₁ = T ₂ = T ₃ is set. Then, the hot air heated by the temperature control device 8 is blown out from each of the outlets 5, 5 ... To heat the work W _, and the temperature distribution detected by each of the temperature sensors S _1, S _{2, and} S _3. When T ₁ <T ₂ <T ₃ , the upper temperature is too high, so the nozzle 11 of the upper outlet 5 is moved to adjust the blowing direction of the hot air downward.

Next, when the temperature inside the furnace is further raised and the lower part of the work W is heated by the direct contact of the hot air with the work, and the temperature distribution is T ₁ > T ₂ > T ₃ , The direction of the nozzle 11 is adjusted so that the hot air blown from the upper outlet 5 toward the work W is blown toward the front or slightly above so as not to directly hit the work W. In this way, the temperature distribution of the work W is detected, the direction of the nozzle 11 is adjusted based on the temperature distribution, and hot air is blown out to uniformly heat the work W regardless of its shape. It does not cause product defects due to partial heating.

When the front half and the rear half of the work W are heat-treated at different temperatures, the cylindrical case 9 is rotated 90 ° to erect the rotary shaft 10 so that the wind direction can be adjusted in the front-back direction. Thus, for example, when heat-treating the front half at high temperature, the nozzle 11 should be directed forward. Further, the air outlet 5 is not limited to the case where the air direction is changed, and a damper may be provided to change the air volume. In this case, based on the detected temperature distribution, the air volume of the hot air blown from the air outlet 5 facing the high temperature portion is reduced, so that the air is blown from the air outlet 5 facing the low temperature portion. It is possible to increase the amount of hot air to be heated and to heat uniformly, and it is also possible to use these in combination. Furthermore, the air outlet 5 is not limited to the case of being provided so as to be rotatable with respect to the two orthogonal axes, but may be, for example, a case of rotating only in the vertical direction or a case of rotating only in the front-back direction.

[0015]

[Effect of the device]

 As described above, according to the present invention, the temperature distribution of the work is directly detected and the wind direction or volume of the hot air is adjusted. The entire work can be heated uniformly without the part of the work reaching the specified temperature, the upper end of the work being overheated, or the work being partially heated. At the same time, it has a very excellent effect that the temperature distribution inside the furnace can be set arbitrarily.

[Brief description of drawings]

FIG. 1 is a flow sheet showing a hot air circulating furnace according to the present invention.

[Explanation of symbols]

1-Hot air circulating furnace 2-Conveyor W-Work 3-Suction port 4-Inside furnace 5-Blowout port 6 ... ... Gas flow path 7 ... Circulation fan 8 ... Temperature control device 11 ... Nozzle (wind direction adjusting means) S ₀ ... Reference temperature sensor S _1, S _2, S ₃ ... Temperature sensor 14 ... Temperature control device 16 ... Temperature distribution control device

Claims (1)

[Scope of utility model registration request] 1. A gas flow path (6) for sucking gas from a suction port (3) formed in the furnace (4) and circulating the gas from the blow-out port (5) to the furnace (4) again. A hot air circulating furnace provided with a temperature control device (8) for heating or cooling gas to a preset temperature, the blowout port (5)
A plurality of air conditioners are formed, and each air outlet (5) is provided with an airflow direction / airflow volume adjusting means (11) for adjusting the airflow direction or air volume of the hot air. A reference temperature sensor (S ₀ ) for detecting the reference temperature is installed, and
A plurality of temperature sensors (S ₁ , S ₂ , S ₃ ) for detecting the temperature distribution of the work (W) are installed, and the reference temperature sensor (S
Temperature controller (14) for determining the heating amount or cooling amount of the temperature controller (8) by comparing the temperature detected by ( ₀ ) with a preset temperature, and the plurality of temperature sensors (S ₁ , S). ₂ ,
S ₃₎ further comprising: a temperature distribution control device (16) for adjusting the air direction or air flow from the air outlet in comparison with a preset temperature distribution and the temperature distribution (5) of the detected workpiece (W) with A hot air circulation furnace.