KR101892249B1 - Heat treatment coating apparatus for bread mold - Google Patents

Abstract

Disclosed is a heat treatment coating apparatus for a bread mold. A primer layer heat treatment room for forming a primer layer in a bread frame and a Teflon layer heat treatment room for forming a Teflon layer are formed in a double level. High temperature air used for forming the Teflon layer in the Teflon layer heat treatment room is supplied to the primer layer heat treatment room so as to be reused for forming the primer layer. Therefore, a coating apparatus can be miniaturized, space efficiency of facilities can be improved, energy efficiency can be improved, and coating operation efficiency can be improved.

Description

{HEAT TREATMENT COATING APPARATUS FOR BREAD MOLD}

[0001] The present invention relates to a heat treatment coating apparatus for a bread crumbs, and more particularly, to a heat treatment coating apparatus for a bread crumbs in which a primer layer heat treatment chamber for forming a primer layer in a bread crumb and a Teflon layer heat treatment chamber for forming a Teflon layer are formed in two stages, Temperature air used for forming the Teflon layer is supplied to the heat treatment chamber of the primer layer so as to be reused for forming the primer layer. Thus, the coating apparatus can be miniaturized, the space efficiency of the facility can be increased, The present invention relates to a heat treatment coating apparatus for a bread crumb which improves the efficiency of work.

In general, bread boxes are formed by processing aluminum or other metal plates into a container shape. These containers are formed by hard coating or coating layers of various materials to prevent the bread from sticking to the surface of the container as much as possible during cooking, That is, a fluororesin (fluorine resin) (trade name: Teflon, Teflon) is coated to complete the product.

That is, in the coating operation of the bread box, the surface of the container is subjected to a sanding treatment to form a fine uneven surface, and a primer layer is formed thereon, followed by heat treatment. After cooling it, the mid layer and the top layer were formed on the layer, followed by heat treatment, followed by drying. After cooling, a teflon layer was formed on top of the teflon layer in consideration of the appearance, Finish the coating by finishing the product.

The heat treatment for the coating operation of the tray is performed at a temperature of 250 ° C to 270 ° C in the primer layer forming step and a temperature of 380 ° C to 400 ° C in the forming step of the teflon layer.

Conventionally, since a heat treatment temperature for forming a primer layer and a heat treatment temperature for forming a Teflon layer are different from each other, a coating apparatus for forming a primer layer and a coating apparatus for forming a Teflon layer are separately provided on a bread box, Work was performed.

Therefore, since the line of the apparatus for coating the primer layer and the Teflon layer on the conventional bread frame is lengthened or enlarged, the cost of the apparatus is increased and the space for installing the apparatus is widened. In addition, There is a problem that energy is consumed.

Further, in order to form the coating layer, there is a disadvantage that a lot of work force is required because the work force for moving the bread box to the next process is required at the front end and the rear end of each coating apparatus, respectively.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the problems described above, and an object of the present invention is to provide a thermo-treating chamber for forming a primer layer and a Teflon layer for forming a Teflon layer, The high temperature air used for forming the Teflon layer in the yarn is supplied to the heat treatment chamber of the primer layer to be reused for forming the primer layer so that the coating apparatus can be miniaturized and the space efficiency of the equipment can be increased and the energy efficiency And the coating operation efficiency is improved.

The object of the present invention is to provide a method of manufacturing a semiconductor device, which comprises a charging port formed at one side, a discharge port formed at the other side, and an exhaust duct disposed at an upper portion thereof, A chamber in which a layer heat treatment chamber is formed and a primer layer heat treatment chamber for heat treating the primer layer of the bread frame is formed on the upper side of the heat insulating plate; a heater sequentially disposed at the lower portion of the chamber to supply heat to the Teflon layer heat treatment chamber; A first conveying means for conveying a bread frame having a primer layer formed along the layer heat treatment chamber to the inlet and for conveying the bread frame to a discharge port and a tray having a Teflon layer formed along the Teflon layer heat treatment chamber, And a second conveying means for conveying the insulating sheet A plurality of inflow holes for introducing hot air of the Teflon layer heat treatment chamber into the heat treatment chamber of the primer layer are formed so that the hot air used for heat treatment of the Teflon layer of the breadtop in the Teflon layer heat treatment chamber is heat- And then reapplying the primer layer of the bread frame to the heat treatment so as to heat the primer layer of the bread frame.

The heat treatment coating apparatus for a bread crust according to the present invention comprises a primer layer heat treatment chamber for forming a primer layer in a bread crumb and a Teflon layer heat treatment chamber for forming a Teflon layer in two stages and a Teflon layer in a Teflon layer heat treatment chamber The high temperature air used is supplied to the heat treatment chamber of the primer layer through the inflow hole to be reused for forming the primer layer. Thus, the coating apparatus can be miniaturized, the space efficiency of the facility can be increased, The efficiency is improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front sectional view of a heat treatment coating apparatus for a bread crumb according to the present invention,
Fig. 2 is an enlarged sectional view of a part of the heat treatment coating apparatus of the bread crumb according to Fig. 1,
3 is a view for explaining an inflow hole and an air conditioning member formed in a heat insulating plate in the present invention,
4 and 5 are views for explaining a structure for controlling the amount of air introduced into the heat treatment chamber of the primer layer through the air conditioning member in the present invention,
6 to 9 are views for explaining a structure in which the air control plate is simultaneously slid through the rotating means in the present invention,
10 and 11 are views showing another preferred embodiment of a heat treatment coating apparatus for a bread crumb according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a heat treatment coating apparatus for a bread crumb according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is an enlarged sectional view of a part of a heat treatment coating apparatus for a bread crumb according to FIG. 1. FIG. 3 is a cross-sectional view of a heat treatment coating apparatus according to the present invention, FIG. 2 is a view for explaining an inflow hole and an air conditioning member formed in the housing; FIG.

Referring to the drawings, a thermal processing coating apparatus for a bread crust according to the present invention comprises a primer layer heat treatment chamber for forming a primer layer on a bread crumb and a Teflon layer heat treatment chamber for forming a Teflon layer, Temperature air used for forming the Teflon layer in the yarn is supplied to the heat treatment chamber of the primer layer so as to be reused for forming the primer layer.

The heat treatment coating apparatus of the breadtask according to the present invention comprises a chamber 110, a heater 120 and a conveying means 130.

The chamber 110 has an inlet 111 formed at one side thereof, a discharge port 112 formed at the other side thereof, and an exhaust duct 113 provided at an upper portion thereof.

Here, the chamber 110 may be any material having fire resistance and heat insulating property, but it is preferable that the chamber 110 is provided as a double-walled structure of a fire wall 110a and a heat insulating wall 110b. In other words, it is preferable that the chamber 110 is provided with a structure in which the inner side is laminated using refractory bricks and the outer side is laminated using heat insulating bricks. The exhaust duct 113 is a passage through which heat-treated air is discharged into the chamber. As shown in the figure, the waste heat used for the heat treatment can be supplied to the inside of the chamber 110 again, So that the thermal efficiency is increased.

A heat insulating plate 114 is formed in the center of the chamber 110 and a Teflon layer heat treatment chamber 115 is formed below the heat insulating plate 114 to heat the Teflon layer of the breadtail. A primer layer heat treatment chamber 116 for heat-treating the primer layer of the bread frame is formed. According to the present invention, since the Teflon layer heat treatment chamber and the primer layer heat treatment chamber for coating the bread frame are integrally formed, the coating apparatus can be miniaturized and the space efficiency of the facility can be enhanced.

The heater 120 is sequentially installed at a lower portion of the chamber 110 to supply heat to the Teflon layer heat treatment chamber 115. Here, the heater 120 may be a variety of known heaters, and is configured to continuously supply heat so that the temperature of the Teflon layer heat treatment chamber is maintained at 380 ° C to 400 ° C.

The conveying means 130 includes a first conveying means 131 provided along the primer layer heat treatment chamber 116 for conveying a bread crumb formed with a primer layer to the discharge port 111 to the discharge port, And a second conveying unit 132 installed along the first conveying path 115 for conveying the tray with the Teflon layer to the discharge port 112. The conveying means 130 is provided with a driven gear G1 provided on the inlet 111 and a discharge port 112 and a conveyor C configured to rotate in an endless track on the driven gear G2, As shown in FIG. A blower W for cooling the baking tray after the heat treatment is provided on the lower side of the conveying means on the side of the outlet 112.

According to the present invention, the heat insulating plate 114 is formed with a plurality of inflow holes 117 for introducing hot air of the Teflon layer heat treatment chamber 115 into the heat treatment chamber 116 of the primer layer.

That is, in the Teflon layer heat treatment chamber 115, the hot air used for heat-treating the Teflon layer of the breadtop may be supplied to the primer layer heat treatment chamber 116 through the inflow hole 117 to heat the primer layer of the breadtop To be reused. The air introduced into the primer layer heat treatment chamber 116 through the inflow hole 117 is heat-exchanged with the bread frame in the Teflon layer heat treatment chamber 115 and then flows into the primer layer heat treatment chamber 116. Therefore, the temperature of the primer layer heat treatment chamber 116 is set to 250 to 270 占 폚, which is an appropriate temperature for forming the primer layer on the bread frame by the air introduced into the primer layer heat treatment chamber 116 through the inflow hole 117 .

According to the present invention, in the Teflon layer heat treatment chamber 115, hot air used for heat treatment of the teflon layer of the breadtop is supplied to the primer layer heat treatment chamber 116 through the inflow hole to form a primer layer And can be reused for heat treatment, so that the energy efficiency for heat treatment can be enhanced.

According to the present invention, the amount of air flowing into the primer layer heat treatment chamber 116 in the Teflon layer heat treatment chamber 115 can be controlled.

To this end, the inflow hole 117 is provided with a plurality of communication holes 117a sequentially arranged in the front-rear direction of the heat insulating plate 115, and the opening / closing area D of the communication holes is set in the communication hole An air conditioning member 140 for adjusting the amount of air flowing into the primer layer heat treatment chamber 116 in the Teflon layer heat treatment chamber 115 is provided.

3, the air conditioning member 140 is installed on the upper surface of the heat insulating plate 115 such that the communication hole 117a is located therein, and a plurality of A case 141 in which a hole 141a is formed and a rail 141b is formed in a longitudinal direction on an inner surface of a lower end thereof, and a case 141 having both ends thereof slidably engaged with the rail 141b, An air regulating plate 142 having an air regulating hole 142a formed correspondingly and controlling the amount of air introduced into the communicating hole 117a while being moved in the front and rear direction of the chamber along the rail 141b .

4, when the temperature of the primer layer heat treatment chamber 116 becomes lower than the proper temperature, the communication hole 117a and the air adjustment hole 142a are aligned with each other, A large amount of high temperature air is allowed to flow from the Teflon layer heat treatment chamber 115 to the primer layer heat treatment chamber 116 through the communication hole 117a to increase the area D so that the primer layer heat treatment chamber 116 ) Can be raised to an appropriate temperature. 5, when the temperature of the primer layer heat treatment chamber 116 is higher than the proper temperature, the air control plate 142 is slid to narrow the opening / closing area D of the communication hole, The temperature of the primer layer heat treatment chamber 116 can be lowered to an appropriate temperature by allowing a small amount of high temperature air to flow into the primer layer heat treatment chamber 116 from the Teflon layer heat treatment chamber 115 through the Teflon layer heat treatment chamber 117a. do.

6 to 9, the air regulating plate 142 is automatically and simultaneously slid through the rotating unit 150 to adjust the amount of air flowing into the primer layer heat treatment chamber 116 It is desirable to be configured to be able to.

To this end, a gear gear 142c is formed on the side surface of the air control plate 142. The gear gear 142c is installed on the outer side of the chamber 110 and engaged with the gear gear of the air control plate 142, A pinion gear portion 142d for selectively moving the air regulating plate 142 in the forward and backward directions of the chamber is formed by the pinion gear portion 142d and the pinion gear portion 142d. At the same time, move in the forward and backward directions.

The rotary unit 150 includes a circular plate 151 and an intermediate gear 152 rotatably coupled to the circular plate 151 by receiving power from the forward and reverse drive motor M, A plurality of rotary gears 153 rotatably coupled to the intermediate gear 152 and disposed along the circumferential direction of the intermediate gear 152 and simultaneously rotated by driving of the intermediate gear 152, And a flexible shaft 154 connecting the pinion gear portion 142d. The rotary gear 153 is fixed to the bearing B provided in the fixing groove 155 formed on the surface of the circular plate 151 and is rotatable. The rotary shaft 153 is provided with the flexible shaft 154, And the flexible shaft 154 can be rotated by the rotation of the rotary gear 153. In this case,

With this configuration, when the intermediate gear 152 rotates by receiving the power of the forward and reverse drive motor M, the rotary gear 153 engaged with the intermediate gear simultaneously rotates on the disk 151, The pinion gear portion 142d connected through the flexible shaft 154 rotates to move the air gear 142c forward and rearward while moving the gear gear portion 142c forward and rearward. Therefore, the open / closed area D of the communication hole is adjusted by sliding the air regulating plate 142 so that the amount of air flowing into the primer layer heat treatment chamber 116 in the Teflon layer heat treatment chamber 115 is automatically controlled.

10, a temperature sensor S is installed in the primer layer heat treatment chamber 116 to check the temperature of the primer layer heat treatment chamber 116 and transmit the result to the control unit 160. Further, The control unit 160 is configured to selectively rotate the forward and reverse drive motors M in the forward or reverse direction according to the temperature checked by the temperature sensor. That is, the air regulating plate 142 slides by the rotation of the forward / reverse driving motor to adjust the amount of air introduced into the communication hole 117a and maintain the temperature of the primer layer heat treatment chamber 116 constant .

6, when the temperature of the primer layer heat treatment chamber 116 is lower than the proper temperature, the normal / reverse drive motor M is automatically rotated in the forward direction, So that the temperature of the primer layer heat treatment chamber 116 can be raised to an appropriate temperature by making the opening area D of the communication hole 117a wider by sliding the front side of the primer layer 117. As shown in Fig. When the temperature of the primer layer heat treatment chamber 116 becomes higher than the proper temperature, the normal / reverse drive motor M is automatically rotated in the reverse direction to slide the air regulating plate 142 to the rear side of the chamber so that the open / ) Is narrowed so that the temperature of the primer layer heat treatment chamber 116 can be lowered to an appropriate temperature.

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110: chamber 120: heater
130: conveying means 140: air conditioning member
150: rotating means 160:
170: Coating layer

Claims (5)

And a Teflon layer heat treatment chamber for heat-treating the Teflon layer of the bread frame is formed on the lower side of the heat insulating plate. A chamber in which a heat treatment chamber for forming a primer layer for heat-treating the primer layer of the bread frame is formed on the upper side of the heat insulating plate,
A heater disposed sequentially below the chamber to supply heat to the Teflon layer heat treatment chamber,
A first conveying means installed along the primer layer heat treatment chamber for conveying a bread box having a primer layer to be charged into the charging port to a discharge port and a discharge port provided along the Teflon layer heat treatment chamber for forming a Teflon layer to be charged into the charging port, And second conveying means for conveying the first conveying means to the second conveying means,
The heat insulating plate is provided with a plurality of inflow holes for introducing hot air of the Teflon layer heat treatment chamber into the heat treatment chamber of the primer layer so that hot air used for heat treatment of the Teflon layer of the breadtop in the Teflon layer heat treatment chamber is supplied through the inflow hole, Layer heat treatment chamber so that the primer layer of the bread frame is heat-treated,
Wherein the inflow hole is provided with a plurality of communication holes sequentially arranged in the front-rear direction of the heat insulating plate,
Wherein the communication hole is provided with an air adjusting member for adjusting the amount of air flowing into the heat treatment chamber of the primer layer in the Teflon layer heat treatment chamber by controlling the opening and closing areas of the plurality of communication holes, A case provided on the upper surface of the heat insulating plate and having a plurality of supply holes formed in the longitudinal direction on the side surface thereof and a rail formed on the inner surface of the lower end in the longitudinal direction; a case having both ends slidably fitted on the rail, And an air regulating plate formed to sequentially regulate the amount of air introduced into the communicating hole while being moved in the forward and backward directions of the chamber along the rail.
delete The method according to claim 1,
A gear gear is formed on a side surface of the air regulating plate and is provided outside the chamber and engages with a gear portion of the air regulating plate to rotate the air regulating plate selectively in forward and backward directions by forward rotation and reverse rotation, And the pinion gear portion is simultaneously rotated through the rotating means to move the air regulating plate at the same time in the forward and backward directions,
Wherein the rotating means comprises an original plate, an intermediate gear which is rotatably coupled to the original plate by receiving the power of the forward and reverse drive motors, a rotatably coupled to the original plate and disposed along the circumferential direction of the intermediate gear, And a flexible shaft for connecting the rotary gear and the pinion gear portion to each other.
The method of claim 3,
The primer layer heat treatment chamber is provided with a temperature sensor to check the temperature of the primer layer heat treatment chamber and transmit to the control unit,
Wherein the controller is configured to selectively rotate the forward and reverse drive motors in the forward or reverse direction according to the temperature checked by the temperature sensor,
Wherein the air conditioning plate is configured to adjust the amount of air introduced into the communication hole while being slid by the rotation of the forward / reverse drive motor, so that the temperature of the primer layer heat treatment chamber can be maintained constant.
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