JP4157981B2 - Annealing furnace - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to, for example, a firing furnace (hereinafter referred to as “slow cooling furnace”) used for firing a glass substrate for a plasma display or the like in a clean environment and subsequently performing slow cooling.
[0002]
[Prior art]
As this type of slow cooling furnace, for example, one having at least one slow cooling zone as shown in FIG. 3 is generally well known. That is, the slow cooling furnace is installed in the furnace body (211) having the top wall (201) and the bottom wall (202), the top heater (221) installed in the top wall (201), and the bottom wall (202). And at least one slow cooling zone having a bottom heater (231).
[0003]
By the way, the required temperature profile varies depending on the type and size of the processing substrate. Only by adjusting the output of the top heater (221) and the bottom heater (231), the cooling rate is insufficient, and it may not be possible to gradually cool down according to a desired profile.
[0004]
In view of the above, it is assumed that the cooling rate is insufficient. As a configuration in which air is blown through a cooler with a circulation fan in the furnace (Japanese Patent Laid-Open No. 11-311484), clean air is introduced into the furnace. What has been proposed (Japanese Patent Laid-Open No. 10-67539) has been proposed.
[0005]
[Problems to be solved by the invention]
Of the two previously proposed devices, the former device has a complicated device structure and high equipment cost, and the latter device has a problem of high running cost because it requires a large amount of clean air.
[0006]
The object of the present invention is to cope with various temperature profiles, to have a simple structure and to keep equipment costs low, to use normal air instead of clean air, and to keep running costs low. An object of the present invention is to provide a slow cooling furnace that can be used.
[0007]
[Means for Solving the Problems]
An annealing furnace according to the present invention comprises a furnace body having a top wall and a bottom wall, a heater installed on the top wall, a cooling unit installed on the bottom wall, and means for supplying air into the cooling unit. It is what.
[0008]
In the slow cooling furnace according to the present invention, the inside of the furnace is cooled by supplying outside air to the cooling unit. Therefore, it is possible to make up for insufficient cooling in the furnace with a simple configuration of installing a cooling unit in the furnace body and supplying air thereto. Moreover, clean air is not required.
[0009]
In addition, the cooling unit has a plurality of flat box-shaped cooling modules laid on the top of the bottom wall so as to be aligned in the furnace body width direction, an air passage is formed in each cooling module, an inlet of the air passage and A blower may be connected to either one of the outlets. Then, the entire cooling unit can be configured by a combination of a plurality of cooling modules, the temperature distribution in the width direction of the furnace body can be performed with high accuracy, and the cooling effect can be enhanced with a simple configuration, The cooling unit can be easily installed. At this time, according to the blower, the air volume can be easily adjusted by an inverter or the like.
[0010]
In addition, the air passage has a plurality of parallel straight portions and bent portions that connect corresponding end portions of adjacent straight portions, and the cross-section wave-shaped heat radiation fins are provided in the straight portions. In this case, the cooling effect can be enhanced with a simple configuration, and the installation can be easily performed.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0012]
In the following description, front and rear refer to FIG. 1 as a reference and the front side is perpendicular to the paper surface, the opposite side is the front (arrow A), and the left and right are the left and right when viewed from the rear. The left and right sides are referred to as left and right (left and right in FIG. 1).
[0013]
Referring to FIG. 1, the slow cooling furnace includes a base (11) and a furnace body (12) installed on the upper surface thereof.
[0014]
The furnace body (12) has a rectangular shape in cross section, and includes left and right side walls (21) and (22), a top wall (23) and a bottom wall (24). These furnace walls (21) to (24) are all made of a heat insulating material.
[0015]
Rollers (25) are passed to the left and right side walls (21) and (22). The left and right end portions of the roller (25) pass through the side walls (21) and (22) on the corresponding left and right sides and protrude outwardly. The protruding end of the roller (25) is supported by a bearing (26) and connected to a drive mechanism (not shown). When the roller (25) is rotationally driven by the drive mechanism, the workpiece (W) is conveyed forward in the state of being placed on the roller (25) via the setter (S) (arrow A).
[0016]
A plurality of planar heaters (31) are installed at predetermined intervals on the lower surface of the top wall (23). A cooling unit (32) is installed on the upper surface of the bottom wall (24).
[0017]
The cooling unit (32) is composed of four cooling modules (41) arranged in the left-right direction on the upper surface of the bottom wall (24) in a state where adjacent ones are in contact with each other so as to cover the entire upper surface of the bottom wall (24). ing. The four cooling modules (41) have the same structure. Hereinafter, one cooling module (41) will be described in detail with reference to FIG.
[0018]
The cooling module (41) is in the shape of a square box that is long in the front-rear direction when viewed from the plane, and includes left and right side walls (51) (52), front and rear end walls (53) (54), top wall (55) and bottom Consists of walls (56). There are various required temperature profiles, and the length of the cooling module (41) in the front-rear direction is appropriately set so as to correspond to this.
[0019]
In the cooling module (41), vertical strip-like first to third baffle plates (61) to (63) extending in the front-rear direction and extending to the top wall (55) and the bottom wall (56) are provided from the left. They are lined up sequentially to the right. The first and third baffle plates (61) and (63) extend forward from the rear end wall (54) and end slightly before the front end wall (53). Conversely, the second baffle plate ( 62) extends rearward from the front end wall (53) and ends slightly before the rear end wall (54). Thus, a meandering air passage (71) is formed in the cooling module (41). That is, the air passage (71) includes first to fourth straight portions (sequentially arranged from the left side wall (51) to the right side wall (52) via the first to third baffle plates (61) to (63). 81) to (84) and the first bent portion (91), the second and third straight portions (82) (83) that connect the front ends of the first and second straight portions (81) and (82) to each other. ) And the second bent portion (92) connecting the rear end portions and the third bent portion (93) connecting the front end portions of the third and fourth straight portions (83) and (84). Become.
[0020]
As described above, when the baffle plates (61) to (63) are provided so as to form the meandering air passage (71) in the cooling module (41), the cooling effect by air is improved.
[0021]
An inlet pipe (101) is provided in a hanging manner at the left end of the rear edge of the bottom wall (56) so as to communicate with the rear end of the first straight part (81). An outlet pipe (102) is provided in a hanging shape at the right end of the rear edge of the bottom wall (56) so as to communicate with the rear end of the fourth straight portion (84).
[0022]
The first to fourth straight portions (81) to (84) are provided with heat radiation fins (111), respectively. Each radiating fin (111) is formed in a corrugated plate shape by a punching plate, and extends in the front-rear direction as a whole, and the waves undulate in the left-right direction. Further, the heat radiating fin (111) is fixed to the lower surface of the top wall (55) by welding at a required portion of the wave head.
[0023]
In the first to fourth linear portions (81) to (84), the cross-sectional corrugated heat dissipating fins are provided so as to extend in the front-rear direction, so that the effective use of air cooling is further promoted.
[0024]
Referring again to FIG. 1, a blower (121) and a damper or regulating valve (122) are connected to the inlet pipe (101). The blower (121) has an air volume variable by an inverter and can adjust the cooling capacity. Further, the air volume of each module (41) can be adjusted by the damper (122).
[0025]
By operating the blower (121), cooling air is introduced into each cooling module (41) through the inlet pipe (101), passes through the air passage (71), and then passes through the outlet pipe (102) to each cooling module (41). ) Is discharged from within. The inside of the furnace is cooled through the cooling module (41) by the cooling air passing through the air passage (71). At that time, the radiating fins efficiently transmit the heat of the cooling air to the cooling module (41).
[0026]
Here, it should be noted that the cooling unit (32) has substantially the same shape as that of the bottom heater (231) of the slow cooling furnace shown in FIG. By comprising in this way, the influence on the external dimension of a furnace is eliminated, production with the same furnace main body dimension as the past becomes possible, the use member can be made common, and the increase in cost can be suppressed.
[0027]
【The invention's effect】
According to the present invention, it is possible to cope with various temperature profiles, the structure is simple, the equipment cost can be kept low, normal air can be used instead of clean air, and the running cost can be kept low. An annealing furnace that can be provided is provided.
[Brief description of the drawings]
FIG. 1 is a vertical cross-sectional view of a slow cooling furnace according to the present invention.
FIG. 2 is a perspective view of a cooling unit provided in the slow cooling furnace.
FIG. 3 is a vertical cross-sectional view of a slow cooling furnace according to the prior art.
[Explanation of symbols]
12 Furnace body
23 Top wall of furnace
24 Furnace bottom wall
31 Heater
32 Cooling unit
41 Cooling module
61-63 baffle plate
71 Air passage
111 fins
121 Blower

Claims (2)

A furnace body having a top wall and a bottom wall, a heater installed on the top wall, a cooling unit installed on the bottom wall, and means for supplying air into the cooling unit, the cooling unit comprising a furnace It has a plurality of flat box-shaped cooling modules laid on the top of the bottom wall of the main body so as to be aligned in the width direction of the furnace body, and an air passage is formed in each cooling module, and the air passage is a plurality of parallel straight lines And a bent portion that connects the corresponding end portions of the adjacent linear portion, and the linear portion is provided with a radiating fin with a flat wave head in a wave shape in cross section, and the radiating fin. Is fixed to the lower surface of the top wall of the cooling module at the required location of the flat wave head, and the bottom wall of each cooling module has an inlet pipe connected to one end of the straight line at both ends and the other end of the other straight line, and The outlet pipe is hanging down Annealing furnace, characterized by being kicked.   The slow cooling furnace according to claim 1, wherein the means for supplying air into the cooling unit includes a blower connected to either the inlet or the outlet of the air passage.

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