KR0133327B1 - Apparatus for adjusting the temperature of top cover of a rotary heater - Google Patents

Abstract

A top plate temperature control apparatus of rotary heater having : a top plate(110); a fixing plate(3) having a convex part(1) in its center and suspending a red heater(108) in its lower part and fixing a sub-heat insulation plate(2) in its upper part; a space(4) formed between a top plate(110) and a fixing plate(3); a heat insulation plate(5) elevated in a circumference of a sub-heat insulation plate(2); an elevating means(20) elevating a heat insulation plate(5); and a driving means(30) driving an elevating means(20); is disclosed. Thereby, it is possible to quickly heat the object to be heated by elevation the temperature of the top plate in weak combustion of the rotary heater.

Description

Top plate temperature controller of rotary heater

1 is a schematic view showing the installation of the present invention.

2 is a schematic diagram of another embodiment of the present invention.

3 is a schematic diagram of another embodiment of the present invention.

4 is a schematic view of a conventional rotary heater.

＊ Explanation of symbols for main parts of drawing

100: rotary heater 102: cabinet

104: hole 105: plate chamber

108: red body 1: convex portion

2: auxiliary heat shielding plate 3: fixing plate

4: space part 5: heat shield plate

20: descent means 21: rack

22, 22a, 22b: fixed period 23: worm

24a: operating rod 25: handle

26: jam jaw 27: slide hole

30: driving means 31: motor

32: solenoid valve

The present invention relates to a top plate temperature control device of a rotary heater, and in more detail, a fixing plate for supporting an integrating body of a rotary heater, and an auxiliary heat shielding plate is installed on an upper portion of the fixing plate, and is lowered from the outer periphery of the auxiliary heat shielding plate. And a top plate temperature control device for a rotary heater provided with a heat shield plate, a lifting means for raising and lowering the heat shield plate, and a driving means for driving the lifting means, to heat the heating material placed on the top plate. will be. In general, as shown in FIG. 4, the conventional rotary heater 100 has a base plate, a fuel tank 101, and a cabinet 102 and ignition, fire extinguishing, and fire control on the upper portion of the fuel tank 101. An operation unit 103 for operation is mounted, a plate chamber 105 having a hole 104 formed thereon is mounted on the upper part of the cabinet 102, and a burner for primary combustion of the fuel supplied from the fuel tank 101 ( 106 and an incandescent body which is fixed to the fixing plate 107 on the upper part of the burner 106, and which is fixed to the fixing plate 107 to secondaryly burn incomplete combustion (unburned gas) in the burner 106. A guard 109 is formed to surround 108 and the glowing body 108, and the upper plate 110 is placed on the upper portion of the guard 109. In such a conventional configuration, when the operation switch of the operation unit 103 formed on the lower portion of the rotary heater 100 is turned on, the pre-pump in the fuel tank 101 pumps the fuel to the burner 106. Ignition is achieved by supply. At this time, the burner 106 heats the glowing body 108 while the combustion continues due to the fuel continuously supplied, and the glowing body 108 again burns incompletely burned in the burner 106. In this way, the room is heated by the heat burned by the burner 106 and the heat accumulator 108. In addition, while heating the periphery of the upper plate 110 and the guard 109 installed on the upper portion of the heat accumulator 108 by heating the air around the rotary heater 100 by the heat, the heated heating air is natural Convection is to heat the room. As described above, the temperature of the upper plate 110 during combustion of the rotary heater 100 is 200 ° C. when the steel is burned, and when the heating plate such as a water jug is present on the upper plate 110, the heating temperature is rapidly increased. In the past, when the temperature of the upper plate 110 is slightly burned at 70 ° C. or less, there is a problem in that it takes a long time to raise the temperature of the water contained in the kettle when placing the water kettle on the upper plate 110. The present invention has been invented to solve the above problems, the upper plate temperature control device of the rotary heater to heat the heating, in particular, a kettle containing water by raising the temperature of the top plate during the low combustion of the rotary heater The purpose is to provide. In order to achieve the above object, the present invention provides a space formed between the upper plate of the rotary heater and the fixing plate for supporting the glowing body, and an auxiliary heat shielding plate is installed on the fixing plate, And a heat shielding plate which is lifted and lowered, a lifting means for raising and lowering the heat shielding plate, and a driving means for driving the lifting and lowering means. Fixing plate of the present invention is characterized in that the convex so that heat can be collected in the center portion. The lifting means of the present invention is characterized in that the rack is installed on one end of the heat shield plate is installed on one end, and the rotating shaft is provided with a worm at one end in engagement with the rack. Lifting means of the present invention is characterized in that the fixing bar is installed at one end to the side of the heat shield plate, the fixing bar is configured to work with the operating rod. The lifting means of the present invention is provided with a fixed rod at one end of one side of the heat shield plate, and the fixed rod protrudes to the outside of the guard to form a handle and at the same time install a slide hole having a locking jaw in the guard. It features. The driving means of the present invention is characterized in that the motor is linked to the rotating shaft of the elevating means and the forward / reverse rotation so that the heat shield plate is elevated by the elevating means. The driving means of the present invention is characterized in that the solenoid valve is linked to the operating rod of the elevating means to the elevating and lowering the heat shield plate by the elevating means. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. An upper plate 110 of the rotary heater 100 and a convex portion 1 having a central portion convexly protruding upward are formed, and a heat shield 108 is fixed at the lower portion thereof, and an auxiliary heat shield plate 2 is disposed at the upper portion thereof. A fixed heat sinking plate which is lowered and lowered at the outer circumference of the fixing plate 3 and the space part 4 formed between the upper plate 110 and the fixing plate 3 and the auxiliary heat shielding plate 2 provided on the fixing plate 3. (5), the elevating means 20 for raising and lowering the heat shield plate 5, and the driving means 30 for driving the elevating means 20. The elevating means 20 is provided with a fixed rod 22 on which one end of the rack 21 is installed at one end of the heat shielding plate 5, and one end of the elevating means 20 is installed at one end to engage with the rack 21. It consists of the rotating shaft 24. The driving means 30 is linked to the rotary shaft 24 of the elevating means 20 by the elevating means 20 to move up and down, the motor 31 capable of forward and reverse rotation. Is preferable. 2 is a schematic view showing another embodiment of the present invention, in which the same components as those in FIG. 1 are given the same reference numerals, and description thereof will be omitted. The elevating means 20 is installed on one end of the heat shield plate 5, the calibration bar 22a at one end, and the fixing bar 22a is configured to be interlocked with the operating rod 24a. The driving means 300 is a solenoid valve 32 which is operated up and down to be linked to the operating rod 24a of the elevating means 20 to elevate and lower the heat shield plate 5 by the elevating means 20. 3 is a schematic view showing another embodiment of the present invention, in which the same components as those in FIGS. 1 and 2 are denoted by the same reference numerals, and description thereof will be omitted. A fixing rod 22b is provided at one end of the heat shielding plate 5 at one end thereof, and the fixing rod 22b protrudes out of the guard 109 to form a handle 25 and at the same time the guard 109 A slide hole 27 having a locking jaw 26 is formed and described as follows: The operation and effect of the present invention configured as described above will be described as follows: of the operation unit 103 formed in the lower portion of the rotary heater 100. When the operation switch is turned ON, the low-pump in the fuel tank 101 pumps the burner ( The ignition occurs by supplying fuel to 106. At this time, the burner 106 heats the glowing body 108 while the combustion continues due to the fuel continuously supplied, and the burner (108) is burned. Incomplete combustion at 106 is reburned, and the interior is heated by the heat burned by the burner 106 and the heat accumulator 108. Further, the interior of the heat accumulator 108 is installed. The air around the rotary heater 100 is heated by the heat while the surroundings of the upper plate 110 and the guard 109 are heated, and the heated heating air is heated to perform natural convection. As shown in FIG. 1, the temperature of the upper plate 110 during combustion of the rotary heater 100 becomes 200 ° C. or higher during the combustion, and the heating material rapidly increases even when there is a heating material such as a kettle containing water in the upper plate 110. The temperature rises. However, the temperature of the upper plate 110 during weak combustion is 70 ℃ or less, even when there is a heating material such as a kettle containing water in the upper plate 110, it takes a long time for the heating material to be heated. At this time, when the selection switch (not shown) is turned on to concentrate the heat on the upper plate 110 on which the heating material is placed, when the motor 31 of the driving means 30 is reversed ( In the direction of the arrow shown in FIG. 1), the rotation shaft 24 interlocked with the motor 31 rotates, and the worm 23 of the rotation shaft 24 also rotates by this rotation, thereby engaging the rack 23 engaged with the worm 23. As the rack 21 rises and the rack 21 is fixed to the heat shielding plate 5 by the fixing rod 22, the heat shielding plate 5 which slides up and down while sliding on the outer circumference of the auxiliary heat shielding plate 2 is provided. Ascending from the solid line to the two-dot chain line is in close contact with the bottom surface of the upper plate (110). Therefore, the hot air that heats the heat accumulator 108 heats the fixing plate 3, and the heat heats the surroundings through the guard 109 around the heat accumulator 108, and at the same time, some heat heats the fixing plate 3. The heat | fever which heated the fixed plate 2 to which the red heat body 108 is fixed by the convex part 1 of the center, and heats this fixed plate 3 cannot be discharged | emitted outside by the auxiliary heat shielding plate 2, At the same time, the bottom surface of the upper plate 110 is heated by the heat shielding plate 5 closely contacted with the bottom surface of the upper plate 110 on the outer circumference of the auxiliary heat shielding plate 2. The heating material placed on the upper plate 110 can be heated in a short time. On the other hand, as described above, when the heating material is heated in the upper plate 110 of the rotary heater 100 or when there is no heating, if the selection switch (not shown) is turned on (ON), the motor of the driving means 30 ( When 31 rotates forward (in the opposite direction to the arrow direction shown in FIG. 1), the rotary shaft 24 interlocked with the motor 31 rotates, and the worm 23 of the rotary shaft 24 is rotated by this rotation. ), The rack 21 engaged with the worm 23 is lowered and the rack 21 is fixed to the heat shielding plate 5 by the fixing rod 22, so that the auxiliary heat shielding plate 2 is rotated. The heat sink 5 descending while sliding on the outer circumference descends to the solid line side from the two-dot chain line to be in close contact with the upper surface of the fixing plate 3. 2 is another embodiment of the present invention, the temperature of the upper plate 110 during weak combustion is less than 70 ℃ to concentrate the heat on the upper plate 110 on which a heating material such as a kettle containing water in the upper plate 110 is placed When the selector switch (not shown) is turned ON, the solenoid valve 32 of the driving means 30 is operated (in the direction of the arrow shown in FIG. 2) so as to be interlocked with the solenoid valve 32. The operating rod 24a is raised, and the rising and lowering heat shielding plate 5 is lowered while sliding on the outer periphery of the fixed rod 22a and the auxiliary heat shielding plate 2 linked to the operating rod 24a. Ascending to the two-dot chain line is in close contact with the bottom of the upper plate (110). Therefore, the hot air that heats the heat accumulator 108 heats the fixing plate 3, and the heat heats the surroundings through the guard 109 around the heat accumulator 108, and at the same time, some heat heats the fixing plate 3. The heat | fever which heated the fixed plate 2 to which the red heat body 108 is fixed by the convex part 1 of the center, and heats this fixed plate 3 cannot be discharged | emitted outside by the auxiliary heat shielding plate 2, At the same time, the bottom surface of the upper plate 110 is heated by the heat shielding plate 5 closely contacted with the bottom surface of the upper plate 110 on the outer circumference of the auxiliary heat shielding plate 2. The heating material placed on the upper plate 110 can be heated in a short time. On the other hand, as described above, after heating the heating material in the upper plate 110 of the rotary heater 100 or when there is no heating, if the selection switch (not shown) is turned on (ON), the solenoid valve of the drive means 30 When 32 is operated (in the opposite direction to the arrow direction shown in FIG. 2), the operating rod 24a interlocked with the solenoid valve 32 is lowered, and the lowering actuates the operating rod 24a by the lowering. The sliding plate 5 which slides up and down while sliding on the outer periphery of the interlocking fixing rod 22a and the auxiliary heat shielding plate 2 descends from the two-dot chain line to the solid line and is in close contact with the upper portion of the fixing plate 3. 3 is another embodiment of the present invention, the temperature of the upper plate 110 during the low combustion concentration of heat to the upper plate 110, the heating material such as a kettle containing water in the upper plate 110 is less than 70 ℃ When holding the handle 25 of the fixing section 22b protruding into the sliding hole 27 of the guard 109 to ascend and then ascend, the heat shielding plate 5 which slides up and down while sliding on the outer periphery of the auxiliary heat shielding plate 2 is As it rises from the solid line to the two-dot chain line, it is in close contact with the bottom surface of the upper plate 110, and at the same time, the handle 25 is rotated so as to be hooked on the locking step 26 formed in the sliding hole 27. Therefore, the hot air that heats the heat accumulator 108 heats the fixing plate 3, and the heat heats the surroundings through the guard 109 around the heat accumulator 108, and at the same time, some heat heats the fixing plate 3. The heat | fever which heated the fixed plate 2 to which the red heat body 108 is fixed by the convex part 1 of the center, and heats this fixed plate 3 cannot be discharged | emitted outside by the auxiliary heat shielding plate 2, At the same time, the bottom surface of the upper plate 110 is heated by the heat shielding plate 5 closely contacted with the bottom surface of the upper plate 110 on the outer circumference of the auxiliary heat shielding plate 2. The heating material placed on the upper plate 110 can be heated in a short time. On the other hand, as described above, after heating the heating material in the upper plate 110 of the rotary heater 100 or when there is no heating handle of the fixing rod 22b protruding into the sliding hole 27 of the guard 109 ( 25, while holding and rotating, the fixing plate 22c, which is caught on the locking jaw 26 of the sliding hole 27, is separated, and the heat shielding plate 5 that moves up and down while sliding on the outer periphery of the auxiliary heat shielding plate 2 is two points. It is to be in close contact with the upper portion of the fixed plate 3 by descending from the chain line to the solid line side. As described above, the present invention increases the temperature of the upper plate when the rotary heater is weakly burned, so that a heating material, in particular, a kettle containing water can be quickly heated.

Claims (6)

An upper plate 110 of the rotary heater 100 and a convex portion 1 having a central portion convexly protruding upward are formed, and a heat shield 108 is fixed at the lower portion thereof, and an auxiliary heat shield plate 2 is disposed at the upper portion thereof. The vehicle which ascends and descends on the outer periphery of the fixing plate 3 fixed, the space part 4 formed between the upper plate 110 and the fixing plate 3, and the auxiliary heat shielding plate 2 provided on the fixing plate 3. The heating plate 5, the elevating means 20 for raising and lowering the heat shielding plate 5, and the driving means 30 for driving the elevating means 20 of the rotary heater Top temperature controller. According to claim 1, The elevating means 20 is installed on one end of the heat shield plate 5, the rack 22 is installed at one end, and the worm at one end to engage the rack 21 A top plate temperature control device for a rotary heater, characterized by comprising a rotating shaft (24) provided with (23). The method of claim 1, wherein the lifting means 20 is provided with a fixed rod 22a at one end to one side of the heat shield plate 5, the fixed rod 22a is configured to interlock with the operating rod 24a Top plate temperature control device of the rotary heater. According to claim 1, The elevating means 20 is provided with a fixed rod 22b at one end to one side of the heat shield plate 5, the fixed rod 22b protrudes to the outside of the guard 109 handle The upper plate temperature regulating device of the rotary heater, characterized in that the (25) and at the same time formed by installing a slide hole 27 having a locking jaw 26 in the guard (109). According to claim 1, wherein the drive means 30 is linked to the rotary shaft 24 of the lifting means 20 to move up and down by the lifting means 20, the lower and lower means 20 Upper plate temperature control device of the rotary heater, characterized in that the motor 31 is rotatable The method of claim 1, wherein the driving means 30 is connected to the operating rod 24a of the elevating means 20 to elevate and lower the heat shield plate (5) by the elevating means (20). Upper plate temperature control device of the rotary heater, characterized in that the solenoid valve 32 is operated downward.