KR0123998Y1 - Heat recovery apparatus of furnace - Google Patents

Abstract

The present invention relates to a waste heat recovery device of the furnace, in the furnace (3) formed with the inlet 1 and the outlet (2), extending from the outlet (2) is provided to a predetermined position of the inlet (1) Consists of a duct 4 and a blower 7 driven by a motor 6 in the inlet 5 of the duct 4 located at the outlet 2, the panel and mask assembly member entering the interior of the furnace. By preheating by the duct, the current in the furnace can be significantly reduced.

Description

Waste heat recovery system

1 is a schematic installation state of the present invention.

2 is a state diagram used in the present invention.

* Explanation of symbols for main parts of the drawings

1: entrance 2: exit

3: to 4: duct

5: entry part 6: motor

7: blower

The present invention relates to a device for recovering the waste heat generated in the furnace to heat the CRT panel and the mask to balance the force between the panel and the interior parts, in particular, by extending and installing the duct from the outlet to the inlet of the furnace The present invention relates to a waste heat recovery apparatus of a furnace, which recovers waste heat generated inside the furnace and supplies it to the inlet of the furnace to preheat the cooled panel and mask.

In general, the core components of the CRT are panels and masks installed in front of the CRT. When welding is performed in the process of assembling the panel and mask, the panel and mask are balanced by heating to recrystallization temperature to remove the stress caused by welding and the intrinsic stress of metal embedded parts. Stabilization of the assembled state is a stabi (Stabi) process, there is a stabiro as a means for performing such a stabi process. Conventional stabiro is provided with a chain belt which is circulated and moved by a transfer roller inside the main body, and a plurality of arbors are arranged on the upper surface of the chain belt and the assembled panels and masks are placed into the inside of the stabi. It will move.

Here, the assembled panel and the mask is heated to a predetermined temperature when moving into the stabiro to balance the power, wherein the heat generated in the furnace was to flow directly to the outside through the outlet. Therefore, since the assembled panels and masks are initially cooled when entering the furnace from the inlet, the heating temperature of the heating and entering the furnace should be constant so that a lot of current is consumed. Time was delayed, causing huge losses in economic terms.

The present invention is devised to solve the above problems, by installing a duct from the outlet to the inlet of the furnace to recover the waste heat exiting through the outlet to supply the pre-assembled panel and mask 1 It is an object of the present invention to provide a waste heat recovery device of a furnace to be heated in a furnace at a more reduced state by preheating the car.

The present invention for achieving the above object is characterized in that the installation, extending the duct from the outlet to the inlet of the furnace.

In addition, the present invention is characterized in that the blower is installed so that the waste heat from the outlet portion is surely supplied to the duct.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention extends from the outlet part 2 in the furnace 3 in which the inlet part 1 and the outlet part 2 are formed as shown in FIGS. 1 and 2 of the accompanying drawings. It consists of the duct 4 provided to the predetermined position of (1), and the blower 7 driven by the motor 6 to the entrance part 5 of the duct 4 located in this exit part 2. As shown in FIG.

Here, reference numeral 8 is a chain belt, 9 is a driving roller, 10 is a settable, 11 is a panel and mask assembly member.

The operation and effects of the present invention configured as described above are as follows.

According to the present invention, the panel and the mask assembly member 11 are first placed on the support 10 manufactured in a predetermined size, and then the chain 3 of the furnace 3 is circulated by the driving of the driving roller 9. The panel and mask assembly 11 are heated to a recrystallization temperature by a heating means (not shown) in the furnace 3.

Here, since the waste heat generated in the furnace 3 flows out through the outlet part 2, the entrance part 5 of the duct 4 having a predetermined length is formed in the outlet part 2. Waste heat exiting through the outlet part 2 flows directly into the inlet part 5. The blower 7 is installed in the entry portion 5, and when the blower 7 is driven by the driving of the motor 6, the introduced waste heat passes through the inside of the duct 4, and then the duct 4 Since the length is extended to the inlet 1 of the furnace 3, the waste heat passing through the inside of the duct 4 reaches the inlet 1 and is discharged. Accordingly, the panel and mask assembly member 11 to be entered is preheated primarily by waste heat, and when the panel and mask assembly member 11 is moved to the inside of the furnace 3 in this state, the panel and mask assembly member 11 is preheated. The recrystallization temperature can be obtained even by heating.

Therefore, a considerable amount of current required by the heating means can be saved.

As described above, the present invention can significantly reduce the current caused by heating in the furnace by preheating the panel and mask assembly members that enter the inside of the furnace by the duct, thereby reducing the enormous cost of the entire work process.

Claims (1)

In the furnace 3 in which the inlet part 1 and the outlet part 2 were formed, the duct 4 extended from the said outlet part 2 to the predetermined position of the inlet part 1, and this outlet part 2 Waste heat return device of the furnace, characterized in that consisting of a blower (7) driven by a motor (6) in the inlet (5) of the duct (4) located in the).