KR100786784B1 - Kiln - Google Patents

Abstract

A firing kiln is provided to keep productivity even while cooling and prevent accidents from happening by the heat emitted to outside by dividing the main body into a heating room and a cooling room and also moving a carriage automatically. A firing kiln comprises: a main body(10) made of fire-resisting materials; a shelter door which is mounted in the main body, divides the inner space of the main body into a heating room(11) and a cooling room(12), and is driven by a driving device(21); first and second heating devices(30,31), each of which is placed in the heating room and cooling room; a rail(40) which is installed on the bottom surface of the main body and passes through the heating room and cooling room; a transfer device(60) which is placed on the bottom surfaces of the heating room and cooling room, is driven by a driving motor(62), and moves a carriage(1) put on the rail; doors(11b,12b), each of which is placed in the heating room and cooling room, and through which the rail is extended to the outside of the main body; and a ventilating opening(12c) and a ventilating fan(12d), both of which are placed in the cooling room.

Description

Kiln for firing {Kiln}

1 is a side configuration diagram showing a kiln for baking according to the present invention,

Figure 2 is a plan view showing a kiln for baking according to the present invention,

3 is a reference diagram showing a conveying means of the kiln for baking according to the present invention,

4 and 5 is a reference diagram showing an operating state of the transfer means according to the invention,

Figure 6 is a reference diagram showing another embodiment of the transfer means according to the present invention.

<Description of the symbols for the main parts of the drawings>

One; Balance, two; Hanging,

10; Kiln body, 11; Heating Room,

12; Cooling chamber 20; Shielded Door,

30; First heater 31; Second heater,

50; Position sensing means, 60; Mode of Transport,

70; Control unit.

The present invention relates to a kiln for firing, which is capable of carrying out a heating process and a slow cooling process at the same time.

In recent years, as the concern for health has increased, the popularity of bio salt has become very high.

Such a bio salt is produced by heating a natural sun salt in a bioceramic container at a high temperature of about 900 to 1200 ° C. and then cooling it to remove heavy metals and impurities in the salt, as well as a bioceramic container. Far-infrared radiation generated by is absorbed and has gained much popularity.

The kiln for baking which manufactures bio salt in this way is equipped with the heating apparatus inside the kiln body which consists of a heat resistant agent, and is comprised so that the salt contained in a bioceramic container can be heated at high temperature. At this time, the inner bottom of the kiln body is provided with a rail extending to the outside, and loaded with a bioceramic container containing salt in the trolley moving along the rail, and pushed the trolley into the kiln body and closed the door, By heating, it is possible to produce a large amount of bio salt at one time.

On the other hand, in order to manufacture the biosalt, it is preferable to slowly heat the bioceramic vessel containing salt to 1200 ° C. after heating it, and then slowly cool the vessel after a certain time.

By the way, in order to proceed with the slow cooling process, the temperature inside the kiln should be slowly lowered while the container is not taken out of the kiln. In this case, since the kiln cannot be used while cooling the container, there was a problem in that productivity was lowered.

Then, in order to increase productivity, the bogie is removed when heating is completed, and the bioceramic container is cooled in the air. In this case, the bioceramic container is rapidly cooled, and the container is broken by the difference in the coefficient of thermal expansion inside and outside. There was a problem. In particular, when such a rapid cooling, there was a problem that the quality of the finished bio salt is degraded.

In addition, in order to replace a truck loaded with a bioceramic container, an operator must open the door of the kiln and manually push the cart in or out. In this case, since the kiln is insulated and not cooled, hot air is discharged from the kiln. There was a problem that a safety accident such as a worker may be burned.

The present invention is to solve the above problems, the heating and slow cooling process can be carried out at the same time, it is possible to prevent the decrease in productivity due to the slow cooling, it is possible to prevent the occurrence of safety accidents due to heat released to the outside The purpose is to provide a kiln for baking.

The present invention for achieving the above object, the kiln body consisting of a refractory; A shielding door mounted inside the kiln body and partitioning the inner space of the kiln body into a heating chamber and a cooling chamber and driven by a driving device; First and second heating devices provided in the heating chamber and the cooling chamber, and a rail provided on the bottom surface of the kiln body so as to pass through the heating chamber and the cooling chamber; It is provided on the bottom surface of the heating chamber and the cooling chamber and is configured to include a conveying means for moving the trolley mounted on the rail driven by a drive motor, the heating chamber and the cooling chamber is provided with a door, respectively, the rail It extends to the outside of the kiln body through the door, characterized in that the cooling chamber is provided with a vent and a ventilation fan.

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

1 to 3, the kiln for firing according to the present invention, the kiln body 10 consisting of a refractory; A shielding door 20 mounted inside the kiln body 10 and partitioning the internal space of the kiln body 10 into the heating chamber 11 and the cooling chamber 12 and driven by the driving device 21; The first and second heating devices 30 and 31 of the heating chamber 11 and the cooling chamber 12 and the heating chamber 11 and the cooling chamber 12 of the kiln main body 10 are connected to each other. Rail 40 is installed on the bottom surface; A transfer means (60) provided on the bottom surfaces of the heating chamber (11) and the cooling chamber (12) and driven by a drive motor (62) to move the trolley (1) mounted on the rail (40); Position sensing means (50) provided in the heating chamber (11) and the cooling chamber (12) for detecting the position of the trolley (1) moving along the rail (40) by the transfer means (60); The position detecting means 50 and the control unit 70 is connected to the drive motor 62 of the transfer means (60).

At this time, the trolley 1 is provided with a wheel 3 on the bottom thereof is moved along the rail 40, the upper surface is configured to load an object such as a bioceramic container containing salt. In addition, the bottom surface of the trolley 1 is provided with a locking portion 2 connected to the transfer means 60. The locking portion 2 is composed of a metal support plate 2a fixed to the bottom surface of the trolley 1 and a protrusion 2b protruding downward from an intermediate portion of the support plate 2a. It is coupled to this protrusion 2b, and is comprised so that a trolley | bogie 1 can be advanced or stopped.

The kiln body 10 is configured in a rectangular container shape, the inlet 11a is formed in the heating chamber 11 therein, the outlet 12a is formed in the cooling chamber 12, and the inlet 11a and The outlet 12a is provided with the doors 11b and 12b which are opened and closed by the drive units 11c and 12e, respectively. In addition, a ventilation port 12c and a ventilation fan 12d are provided on the upper surface of the cooling chamber 12 of the kiln body 10, and the ventilation fan 12d is connected to the temperature sensor 14 to provide a cooling chamber 12. The temperature of the cooling chamber 12 can be adjusted by supplying outside air to the inside through the ventilation port 12c.

The shielding door 20 may be mounted to the inside of the kiln body 10 to be lifted and lowered by the driving device 21 to block or communicate with the heating chamber 11 and the cooling chamber 12.

At this time, the inlet (11a) and the outlet (12a) are respectively formed opposite the both ends of the kiln body 10, the rail 40 is straight through the inlet (11a) and the outlet (12a) 10) extends outward.

The heating apparatuses 30 and 31 are configured to increase the temperature by heating the interior of the heating chamber 11 and the cooling chamber 12 by using gas or electricity. It is comprised so that the temperature of the chamber 11 and the cooling chamber 12 may be heated differently, respectively. At this time, the first heating device 30 provided in the heating chamber 11 increases the temperature inside the heating chamber 11 to 1200 ° C., and is configured to heat the object injected into the heating chamber 11 to a high temperature. The second heating device 31 provided in the cooling chamber 12 maintains the temperature of the cooling chamber 12 at 400 ° C., is heated to a high temperature in the heating chamber 11, and then introduced into the cooling chamber 12. It is configured to slowly cool the object.

In addition, the heating devices 30 and 31 are mounted on the upper side of the heating chamber 11 and the cooling chamber 12, and the trolley 1 has a circumferential surface thereof with the heating chamber 11 and the cooling chamber 12. ), The heating chamber 11 and the cooling chamber 12 are divided up and down by the trolley 1 so that the heat applied by the heating apparatuses 30 and 31 is increased. The lower part of the (1) is configured to minimize the transmission, and to protect the position detecting means 50 and the transfer means (60) provided on the lower side of the trolley (1).

As shown in FIG. 3, the transfer means 60 is disposed in parallel with the rail 40 between the rails 40 and a pair of sprockets 61; A drive motor 62 connected to the sprocket 61; A chain 63 composed of a closed loop and coupled to the sprocket 61; It is provided with a holder 64 which is provided in the middle portion of the chain 63 and detachably coupled to the locking portion 2.

The sprocket 61 is mounted on the support such that the central axis faces the horizontal direction, and is installed outside the inlet 11a and the outlet 12a, and the chain 63 caught by the sprocket 61 is connected to the inlet. It is comprised so that the inside of the kiln body 10 may pass through 11a and the outlet 12a.

The holder 64 is provided in a plurality at regular intervals in the middle portion of the chain 63, coupled to the chain 63, one side of the locking jaw (64b) for supporting the front of the locking portion (2) A fixed block 64a formed therein; It is coupled to the fixed block 64a so as to be located behind the locking jaw (64b) to support the rear surface of the locking portion 2, the rear surface is a stopper (64c) consisting of an inclined surface (64d), and the stopper A spring 64e connected to the 64c to elastically press the stopper 64c to protrude, and a support 64f to be in close contact with the bottom surface of the chain 63 to prevent the chain 63 from rocking up and down. do.

At this time, the stopper 64c is configured such that the rear end thereof is hinged to the fixed block 64a so that the front end portion thereof rotates.

Therefore, as shown in FIG. 4, when an operator pushes the trolley 1 forward (a of FIG. 4), the protrusion 2b of the locking part 2 provided in the bottom surface of the trolley | bogie 1 will stop the said stopper ( In contact with the inclined surface 64d of 64c, the stopper 64c is pushed into the inside of the fixed block 64a (b of FIG. 4), and the trolley 1 is further advanced so that the front surface of the protrusion 2b is fixed. When the locking jaw 64b of 64a is caught, the stopper 64c protrudes upward by the spring 64e to support the rear surface of the protrusion 2b (c in FIG. 4). Accordingly, when the holder 64 is coupled with the locking portion 2 of the trolley 1 to drive the sprocket 61 with the drive motor 62, the chain 63 and the holder 64 are moved forward and backward. By stopping, the trolley | bogie 1 can be advanced or stopped.

Then, when the cart 1 passes through the kiln body 10 and exits the outlet 12a (a in FIG. 5), the holder 64 is lowered along the circumference of the sprocket 61 (FIG. 5). b), since the engagement with the protrusion (2b) of the locking portion 2 (c of Figure 5), the operator can push the cart (1) to move.

The position detecting means 50 is composed of a touch switch mounted on the inner bottom surface of the heating chamber 11 and the cooling chamber 12, the wheel 3 of the bogie 1 moving along the rail 40 ) Is turned on when the switch is pressed to function to transmit a signal to the controller 70. At this time, the position detecting means 50 is positioned to be on when the trolley 1 is located at the center portions of the heating chamber 11 and the cooling chamber 12.

The controller 70 stops the driving motor 62 when the position detecting means 50 is turned on while the driving motor 62 of the conveying means 60 is driven, and is advanced by the conveying means 60. The trolley | bogie 1 functions to stop so that it may be located in the center part of the heating chamber 11 or the cooling chamber 12. As shown in FIG.

13 and 22, which are not described, illustrate insertion grooves formed at the lower ends of the doors 11b and 12b and the shielding door 20, and the rails 63 and the chain 63 of the transfer means 60 are It extends through these insertion grooves 13 and 22. And reference numeral 15 shows a temperature sensor provided in the heating chamber (11).

Referring to the operation of the kiln for baking configured as described above is as follows.

First, in the state where the trolley | bogie 1 is installed in the rail 40 extended toward the said inlet 11a, the worker loads the bioceramic container containing the salt in the trolley | bogie 1 to the trolley | bogie 1, and then When (1) is pushed toward the inlet (11a), the engaging portion (2) provided in the trolley (1) is coupled to the holder 64 of the transfer means (60). When the door 11b of the inlet 11a is opened and the drive motor 62 of the transfer means 60 is operated, the trolley 1 is transferred to the heating chamber 11 by the chain 63, and the trolley When (1) reaches the center inside the heating chamber 11, it is stopped automatically by the said control part 70. Therefore, the operator heats the inside of the heating chamber 11 to about 1200 ° C using the first heating device 30, and simultaneously operates the second heating device 31 to raise the temperature of the cooling chamber 12 to 400 ° C. To keep it. At this time, when the temperature of the cooling chamber 12 is excessively raised, the ventilation fan 12d is operated to maintain the temperature of the cooling chamber 12 at an appropriate level. Then, the worker prepares another truck 1 and hangs it on the holder 64 of the transfer device by the above-described method.

When the salt inside the bioceramic container is sufficiently heated, and the operator opens the door 11b of the shielding door 20 and the inlet 11a and operates the transfer means 60, the inside of the heating chamber 11 The trolley 1 is moved to the cooling chamber 12, and a new trolley 1 is introduced into the heating chamber 11 to slowly cool the bioceramic container provided in the trolley 1 inside the cooling chamber 12. At the same time, the bioceramic container provided in the trolley | bogie 1 inside the heating chamber 11 is heated to high temperature. At this time, the worker prepares another cart 1 and hangs it on the holder 64 of the conveying apparatus.

When the heating operation is completed again, all the doors 11b and 12b of the shielding door 20 and the inlet 11a and the outlet 12a are opened, and then the transfer device is operated to operate the cooling chamber 12. The trolley 1 is discharged to the outside through the outlet 12a, and the other trolley 1 undergoes a heating and slow cooling process as described above, and by repeating this process, a large amount of biosalt can be produced. have.

The kiln for firing configured as described above is provided with a heating chamber 11 and a cooling chamber 12 partitioned by the shielding door 20 in the kiln body 10, and thus may simultaneously perform heating and slow cooling processes. Compared to the conventional kiln for baking that must proceed separately, there is a significant reduction in working time, there is an advantage to increase the productivity. In addition, since the bioceramic container is slowly cooled in the cooling chamber 12, the bioceramic container is prevented from being broken, and thus the quality of the finished bio salt is improved.

In addition, the kiln for baking is provided with a conveying means 60 for automatically conveying the trolley 1, so that an operator moves the trolley 1 of the conveying means 60 while the doors 11b and 12b are closed. It only needs to be hung on the holder 64 or to move the trolley | bogie 1 discharged | emitted to the outlet 12a to another place. Therefore, unlike the conventional kiln, which has to work in the open state of the door 13, there is an advantage that can prevent the occurrence of a safety accident by the heat discharged to the outside when opening the door (11b, 12b).

In addition, since the cooling port 12c and the ventilation fan 12d are provided in the cooling chamber 12, by controlling the internal temperature of the cooling chamber 12 appropriately, there is an advantage of reducing the slow cooling time.

Figure 6 shows another embodiment according to the present invention, the holder 64 of the transfer means 60 is provided at a predetermined interval in the middle portion of the chain 63, is coupled to the chain 63 A fixed block 64a having a locking jaw 64b for supporting the front surface of the locking portion 2 on one side thereof; It is coupled to the fixed block 64a so as to be located behind the locking jaw (64b) to support the rear surface of the locking portion 2, the rear surface is a stopper (64c) consisting of an inclined surface (64d), and the stopper Consisting of the spring 64e, which is connected to the 64c and elastically pressed so that the stopper 64c protrudes, is the same as in the above-described embodiment. At this time, the stopper 64c is mounted to the lifting block 64a to be elevated, and the rear surface thereof is constituted by the inclined surface 64d so that the protrusion 2b of the locking portion 2 contacts the inclined surface 64d. When the stopper 64c is lowered into the fixing block 64a, the stopper 64c is inserted into the fixing block 64a.

When the holder 64 is configured in this manner, the holder 64 can be more compactly manufactured.

On the other hand, the kiln for firing of the present embodiment has been described as being used in the process for producing biosalt by heating the bioceramic container loaded on the trolley (1), the kiln for firing according to the present invention, in addition to the production of bio salt, It is also possible to use for the other process of slow cooling after heating at high temperature.

In addition, the door (111b, 112b), as shown in the figure, instead of a sliding door that is opened and closed by lifting up and down, it may be configured in the form of a case, or may be configured manually by not using the drive device (11c, 12e). The doors 11b and 12b and the driving devices 11c, 12e and 21 of the shielding door 20 are connected to the control unit 70 to open and close the doors 11b and 12b and the shielding door 20. It is also possible for the transfer means 60 to interlock with each other.

As described above, the kiln for baking according to the present invention is provided with a shielding door 20 inside the kiln body 10, and partitioned into a heating chamber 11 and a cooling chamber 12, and at the same time, a transfer means 60. By using the control unit (70) connected to the position detecting means 50 for automatically transferring the trolley (1) and detecting the position of the trolley (1), by controlling the transfer means (60) In addition, while slowly cooling the object, it is possible to prevent a decrease in productivity due to cooling and to prevent a safety accident from occurring.

Claims (3)

Kiln body 10 composed of a refractory; A shielding door 20 mounted inside the kiln body 10 and partitioning the internal space of the kiln body 10 into the heating chamber 11 and the cooling chamber 12 and driven by the driving device 21; The first and second heating devices 30 and 31 of the heating chamber 11 and the cooling chamber 12 and the heating chamber 11 and the cooling chamber 12 of the kiln main body 10 are connected to each other. Rail 40 is installed on the bottom surface; It is provided on the bottom surface of the heating chamber 11 and the cooling chamber 12 and is driven by a drive motor 62 includes a conveying means 60 for moving the bogie 1 mounted on the rail 40 The heating chamber 11 and the cooling chamber 12 are provided with doors 11b and 12b, respectively, and the rail 40 is external to the kiln body 10 through the doors 11b and 12b. It extends to, the kiln for firing, characterized in that the cooling chamber 12 is provided with a ventilation port (12c) and the ventilation fan (12d). According to claim 1, Positioning means for detecting the position of the trolley (1) provided in the heating chamber 11 or the cooling chamber 12 to move along the rail 40 by the conveying means 60 ( 50); The kiln for firing, characterized in that it further comprises a control unit 70 connected to the drive motor 62 of the position sensing means 50 and the transfer means (60). The method of claim 1, wherein one side of the trolley (1) is provided with a locking portion (2), the transfer means (60) comprises a pair of sprockets (61); A drive motor 62 connected to the sprocket 61; A chain 63 composed of a closed loop and coupled to the sprocket 61; It is provided in the middle portion of the chain 63 and includes a holder 64 detachably coupled to the locking portion 2, the holder 64 is coupled to the chain 63 and the locking on one side A fixed block 64a having a locking jaw 64b for supporting the front of the unit 2; It is coupled to the fixed block 64a so as to be located behind the locking jaw (64b) to support the rear surface of the locking portion 2, the rear surface is a stopper (64c) consisting of an inclined surface (64d), and the stopper The kiln for firing, characterized in that it comprises a spring (64e) connected to the (64c) and elastically pressurized so that the stopper (64c) protrudes.

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