JP4728180B2 - Steam generating apparatus and cooking device for cooking device - Google Patents

Description

The present invention relates to a steam generator for a heating cooker and a heating cooker.

  Conventionally, as a cooking device, a heater is disposed near the bottom of the pot, steam is supplied to the pot to such an extent that the heater is immersed, and steam is generated by heating the water by the heater. Some have a generator (see, for example, JP-A-2005-241187 (Patent Document 1)).

In the steam generator of this heating cooker, since the heater part is immersed in water, the amount of water supplied into the pot cannot be further reduced, and the rise of steam generation cannot be further accelerated. There is. Moreover, in the steam generator of the heating cooker, since the heater part is disposed near the bottom in the pot, there is a problem that the heater part is not easily attached and the pot cannot be easily cleaned. is there. In the process of generating steam in the pot, when inorganic salts such as calcium and magnesium contained in water are concentrated and deposited in the pot as scale, the thermal efficiency of the steam generating device deteriorates.
JP-A-2005-241187

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a steam generator for a heating cooker that can quickly start up steam generation with a simple configuration, can be easily attached to a heater, and can be easily cleaned, and cooking using the same. Is to provide a vessel.

In order to solve the above problems, a steam generator for a heating cooker according to the present invention is:
An overall flat base, and
A heater part attached to the lower side of the base part;
A water supply for supplying water on the base;
A bowl-like shape that is provided in the base so as to surround at least a part of the predetermined region on the base, and prevents the water supplied from the water supply unit on the base from spreading from the predetermined region to the outside. The convex part of
A supply port for supplying the steam generated on the base to the outside, and an evaporation container having a substantially rectangular parallelepiped shape in which the base is a substantially rectangular bottom,
The evaporation container is disposed on the side wall and outside of the cooking chamber so that the longitudinal direction is substantially horizontal, and has an opening on one side of the base and a side different from the supply port side , A lid that can be freely opened and closed is attached to the opening.
An opening facing the opening is provided in the side wall of the cooking chamber, and the lid can be opened and closed from the inside of the cooking chamber.

According to the steam generator for a heating cooker having the above configuration, the bowl-shaped convex portion provided in the base portion is supplied from the water supply portion onto the base portion so as to surround at least a part of a predetermined region on the base portion. This prevents water from spreading from a predetermined area on the base to the outside. As a result, the water supplied from the water supply unit to the base is substantially retained in the predetermined region, and is heated by the heater unit attached to the lower side of the base so that heat is concentrated in the predetermined region. By doing so, water in a predetermined area on the heated base is efficiently evaporated to generate steam. Then, steam is continuously generated by intermittently or continuously supplying water from the water supply unit according to the degree of water evaporation on the base (determined by the temperature of the base, etc.) Is possible.

  Therefore, the rise of steam generation can be accelerated with a simple configuration. In addition, since the entire lower side of the base portion having a substantially flat plate shape is also substantially flat, it is possible to attach the heater portion very easily as compared with the case where the heater portion is attached in the pot. Furthermore, since the entire upper surface of the base portion is substantially flat except for the hook-shaped convex portion, cleaning can be easily performed. In addition, a small amount of water can be intermittently or continuously supplied from the water supply unit to a predetermined region on the base, and steam generation can be repeated, and the base is compared with the heater disposed in the pot. Can be significantly reduced, and the steam generator can be miniaturized.

  In addition, the substantially rectangular parallelepiped-shaped evaporation container whose base is a substantially rectangular bottom is arranged so that the longitudinal direction is substantially horizontal, and an opening provided on the side surface on one long side of the base of the evaporation container Since the openable / closable lid is attached to the part, the user can easily clean the inside of the evaporation container by removing the lid.

Moreover, in the steam generator for the heating cooker of one embodiment,
Rutotomoni mounting the heater unit through the heater mounting plate on the underside of the base portion,
A water supply port through which water from the water supply part flows into the evaporation container is provided on a side surface of the evaporation container rising from the other long side of the base,
The predetermined region on the base is surrounded by three sides excluding the other side of the base on the other long side by the hook-shaped convex part, and the other side is on the side of the other long side of the base. It is an enclosed area .

  According to the above embodiment, when the heater part is directly attached to the base part, the heater part is provided on the lower side of the base part via the heater mounting plate even when the heater part contacts only a part of the lower plane of the base part. By attaching the heat, the heat from the heater part can be uniformly dispersed by the heater attachment plate, and the lower side of the base part (for example, the part facing the predetermined region) can be heated uniformly, and heat loss can be reduced.

Moreover, in the steam generator for the heating cooker of one embodiment,
The heater section is a plurality of sheathed heaters,
Of the plurality of sheathed heaters, the sheathed heater on the water supply side generates a larger amount of heat than the other sheathed heaters.

  According to the above embodiment, the amount of heat generated by the sheathed heater on the water supply side of the plurality of sheathed heaters of the heater section is made larger than that of other sheathed heaters, and the water supply with the highest probability that water is present on the base portion. By concentrating the heat as much as possible in the side region as compared with other regions, it is possible to improve the rise and efficiency of steam generation.

In the steam generator for a heating cooker according to an embodiment, a temperature at which the temperature of the base is detected in the vicinity of a water supply port for supplying water from the water supply unit onto the base and below the base. The sensor is arranged.

According to the embodiment, the temperature change of the base can be accurately measured by the temperature sensor disposed in the vicinity of the water supply port for supplying water from the water supply unit onto the base.
Moreover, in the steam generator for heating cookers of one Embodiment, the said cover body has a transparent window.
According to the above embodiment, the inside of the evaporation container can be visually recognized through the transparent window of the lid, and the timing of cleaning can be known by checking the degree of scale inside the evaporation container.

Moreover, in the heating cooker of this invention, the steam generator for heating cookers was provided in any one of the above.

According to the heating cooker of the above configuration, by using a steam generator for a heating cooker that can quickly start the generation of steam with a simple configuration, can easily attach the heater unit, and can be easily cleaned, A low-cost and high-performance cooking device can be realized.

As apparent from the above description, according to the steam generator heating cooker of the present invention, it is possible to quickly rise of the steam generator with a simple configuration, installation of the heater unit can be easily, more clean allows easy heating A steam generator for a cooker can be realized.

Moreover, according to the heating cooker of this invention, a high-performance heating cooker can be realized at low cost by using the steam generator for the heating cooker.

DETAILED DESCRIPTION OF THE INVENTION Hereinafter, a steam generator and a heating cooker according to the present invention will be described in detail with reference to the illustrated embodiments.

FIG. 1: has shown the external appearance perspective view of the heating cooker using the steam generator for heating cookers of one Embodiment of this invention. The heating cooker 1 is provided with a door 12 that rotates on the front side of a rectangular parallelepiped main body casing 10 about a lower end side. An operation panel 11 is provided on the right side of the door 12, a handle 13 is provided on the top of the door 12, and a heat-resistant glass window 14 is provided at the approximate center of the door 12.

  FIG. 2 is an external perspective view showing a state where the door 12 of the heating cooker 1 is opened, and a rectangular parallelepiped cooking chamber 20 is provided in the main body casing 10. The cooking chamber 20 has an opening 20a on the front side facing the door 12, and the side, bottom and top surfaces of the cooking chamber 20 are formed of stainless steel plates. Further, the door 12 is formed of a stainless steel plate on the side facing the cooking chamber 20. A heat insulating material (not shown) is arranged around the cooking chamber 20 and inside the door 12 to insulate the cooking chamber 20 from the outside.

  In addition, a stainless steel tray 21 is placed on the bottom surface of the cooking chamber 20, and a stainless steel wire rack 22 is placed on the tray 21 for placing an object to be heated. In addition, in the state which opened the door 12, the upper surface side of the door 12 becomes substantially horizontal, and when it takes out to-be-heated material, it can once put on the upper surface of the door 12.

  Further, a water tank storage portion 37 for storing the water tank 30 is provided on the right side of the cooking chamber 20 of the main body casing 10. The water tank 30 is inserted into the water tank storage portion 37 from the front side toward the rear side.

  FIG. 3 is a schematic configuration diagram showing a basic configuration of the heating cooker 1. As shown in FIG. 3, the cooking device 1 includes a cooking chamber 20, a water tank 30 that stores water for steam, and a steam generator 40 that generates steam by evaporating water supplied from the water tank 30. A steam temperature raising device 50 that heats the steam from the steam generating device 40, and a control device 80 that controls the operation of the steam generating device 40, the steam temperature raising device 50, and the like. A grid-like rack 22 is placed on a tray 21 installed in the cooking chamber 20, and an object to be heated 90 is placed at the approximate center of the rack 22. And the to-be-heated material 90 is accommodated in the cooking chamber 20 in the state which left the space | interval from the bottom face of the cooking chamber 20. FIG.

  Further, the connecting portion 30 a provided on the lower side of the water tank 30 can be connected to a funnel-shaped receiving port 31 a provided at one end of the water level detecting portion 31. One end of the first water supply pipe 32 is connected to the water level detection unit 31, and the suction side of the pump 33 is connected to the other end of the first water supply pipe 32. One end of the second water supply pipe 34 is connected to the discharge side of the pump 33, and the other end of the second water supply pipe 34 is connected to the steam generator 40. Further, the water level detection unit 31 is provided with a water tank water level sensor 36.

  The water tank water level sensor 36 includes two first and second electrodes having the same length, a third electrode shorter than the first and second electrodes, and a fourth electrode shorter than the third electrode. Consists of. Using the first electrode of the water level sensor 36 for the water tank as a common electrode, three water levels can be detected by the second to fourth electrodes having different lengths. The water tank 30, the first water supply pipe 32, the pump 33, and the second water supply pipe 34 constitute a water supply unit.

  In addition, the steam generator 40 is connected to the other end of the second water supply pipe 34 and has a rectangular parallelepiped-shaped evaporation container 41 having an opening 41a on one side of the longitudinal side. The first and second steam generating heaters 42A and 42B as an example of the heater unit disposed on the side, and a temperature sensor 43 disposed below the evaporation container 41 and between the first and second steam generating heaters 42A and 42B. And a lid 44 that covers the opening 41a of the evaporation container 41. The temperature sensor 43 is disposed in the vicinity of the water supply port 71a (shown in FIG. 8).

  A fan casing 26 is disposed outside the suction port 25 provided in the upper side of the cooking chamber 20. Then, the steam in the cooking chamber 20 is sucked from the suction port 25 by the blower fan 28 installed in the fan casing 26 and is supplied to the steam temperature raising device 50 through the second steam supply pipe 61. The steam generated by the steam generator 40 is sucked by the blower fan 28 via the first steam supply pipe 35, merges with the steam sucked from the cooking chamber 20, and passes through the second steam supply pipe 61. And supplied to the steam temperature raising device 50.

In FIG. 3, the cooking chamber 20 and the steam generation device 40 are shown apart from each other, but as will be described later, the lid 44 side is inside the cooking chamber 20 on the rear side wall in the cooking chamber 20 and outside the cooking chamber 20. It is attached to face.

  The fan casing 26, the second steam supply pipe 61, and the steam temperature raising device 50 form an external circulation path. One end of a discharge passage 64 is connected to the discharge port 27 provided on the lower side of the side surface of the cooking chamber 20, and a first exhaust port 65 is provided at the other end of the discharge passage 64. Further, one end of an exhaust passage 62 is connected to the second steam supply pipe 61 forming the circulation path, and a second exhaust port 63 is provided at the other end of the exhaust passage 62. A damper 68 that opens and closes the exhaust passage 62 is disposed at a connection point between the second steam supply pipe 61 and the exhaust passage 62.

  In addition, the steam temperature raising device 50 includes a dish-shaped case 51 disposed on the ceiling side of the cooking chamber 20 and substantially in the center with the opening facing downward, and the steam heating disposed in the dish-shaped case 51. And a heater 52. The bottom surface of the dish-shaped case 51 is formed by a metal ceiling panel 54 provided on the ceiling surface of the heating chamber 20. A plurality of ceiling steam outlets 55 are formed in the ceiling panel 54.

  Further, the steam temperature raising device 50 is connected to one end of each of the steam supply passages 23 (only one is shown in FIG. 3) extending on both the left and right sides of the cooking chamber 20. The other end of the steam supply passage 23 extends downward along both side surfaces of the cooking chamber 20 and is connected to side surface steam outlets 24 provided on both side surfaces and the lower side of the cooking chamber 20.

  Next, the control block of the heating cooker 1 shown in FIG. 4 will be described.

  As shown in FIG. 4, the control device 80 includes a blower fan 28, a steam heater 52, a damper 68, a first steam generation heater 42A, a second steam generation heater 42B, the operation panel 11, and water. A tank water level sensor 36, a temperature sensor 43, a cooking chamber temperature sensor 81 for detecting the temperature in the cooking chamber 20 (shown in FIG. 3), and a cooking chamber humidity sensor 82 for detecting the humidity in the cooking chamber 20. The pump 33 is connected.

  The control device 80 includes a microcomputer, an input / output circuit, and the like, and is based on detection signals from the water level sensor 36 for the water tank, the temperature sensor 43, the cooking chamber temperature sensor 81, and the cooking chamber humidity sensor 82. 28, the steam heater 52, the damper 68, the first steam generating heater 42A, the second steam generating heater 42B, the operation panel 11 and the pump 33 are controlled according to a predetermined program.

  FIG. 5 shows a front view of the heating cooker 1 with no door. As shown in FIG. 5, the water tank storage portion 37 of the main casing 10 has a water tank from the front side toward the rear side. 30 is inserted. Further, a suction port 25 is provided in the vicinity of the upper right corner portion and a discharge port 27 is provided in the vicinity of the lower left corner portion on the rear wall surface in the cooking chamber 20 of the main body casing 10. And the steam generator 40 is arrange | positioned so that the opening part 41a side covered with the cover body 44 may face the cooking chamber 20 side in the center part of the rear side wall surface in the cooking chamber 20 and the left side slightly outside. ing. In addition, the installation position of the steam generator is not limited to this, and the steam generator is arranged on either one of the left and right side walls in the cooking chamber and outside the cooking chamber so that the opening side faces the cooking chamber. Alternatively, a steam generator may be arranged inside the main casing and outside the cooking chamber so that the opening side faces the outer side of the main casing.

  FIG. 6 shows a back view of the heating cooker 1 without the main casing 10. In FIG. 6, the water level detection unit 31, the first water supply pipe 32, the pump 33, the second water supply pipe 34, the water tank water level sensor 36, the control device 80, and the like are omitted in order to make the drawing easier to see.

  As shown in FIG. 6, a steam generator 40 is disposed on the rear side of the cooking chamber 20 (shown in FIG. 5), and a fan in which a blower fan 28 is housed on the back side of the suction port 25 (shown in FIG. 5). A casing 26 is arranged. The fan casing 26 and the steam generator 40 are connected via a first steam supply pipe 35. Further, one end of the discharge passage 64 is connected to the discharge port 27 shown in FIG. 5, and the other end of the discharge passage 64 is connected to the upper first exhaust port 65 (shown in FIG. 3).

  In addition, steam supply passages 23 and 23 from the steam temperature raising device 50 disposed on the upper side of the cooking chamber 20 are provided on both the left and right sides of the cooking chamber 20.

  7 shows a top view of the steam generator 40 of the heating cooker 1, FIG. 8 shows a front view of the steam generator 40, and FIG. 9 shows a bottom view of the steam generator 40.

  As shown in FIGS. 7 to 9, the steam generator 40 includes an aluminum die-cast evaporation container 41 having a substantially rectangular parallelepiped shape with an opening 41 a provided on one side surface (front side) of the longitudinal side. ing. The evaporation container 41 includes a base portion A having a substantially rectangular shape as a bottom portion, a wall portion B standing from a long side on the back side of the base portion A, and a wall portion standing from short sides on both the left and right sides of the base portion A. C, D, and an upper plate portion E provided so as to face the upper end side of the wall portions B, C, D and the base portion A. In this embodiment, the evaporation container 41 is configured to have a width of about 200 mm, a depth of about 60 mm, and a height of about 50 mm. In addition, a connection portion 71 to which the second water supply pipe 34 (shown in FIG. 3) is connected is provided at the approximate center of the wall portion B on the back surface side of the evaporation vessel 41, and the approximate center of the upper plate portion E of the evaporation vessel 41 is provided. In addition, a connecting portion 72 to which the first steam supply pipe 35 (shown in FIG. 3) is connected is provided. A flange portion 74 is provided at the edge of the opening portion 41a on the front side of the evaporation container 41, and an openable / closable lid 44 is attached to the opening portion 41a of the evaporation container 41 so that the outer edge portion abuts on the flange portion 74. .

  As shown in FIG. 8, a substantially rectangular heat-resistant glass window 45 is provided in the center of the lid 44. Since the window 45 is transparent and the inside of the evaporation container 41 can be visually recognized through this window 45, it is possible to know the timing of cleaning by checking the degree of scale inside the evaporation container 41. it can.

  Further, as shown in FIG. 9, first and second steam generating heaters 42 </ b> A and 42 </ b> B, which are rod-shaped sheathed heaters having connection terminals at both ends, are connected to the lower surface side of the base A of the evaporation container 41 via a heater mounting plate 73. The evaporating vessel 41 is attached at a predetermined interval substantially in parallel along the longitudinal direction. The heater mounting plate 73 is bonded to the base A of the evaporation container 41 by welding or soldering, and the first and second steam generating heaters 42A and 42B are bonded to the heater mounting plate 73 by soldering. Thus, the first and second steam generating heaters 42A and 42B are brought into close contact with the base A of the evaporation container 41 via the heater mounting plate 73, thereby improving the thermal conductivity. Further, a temperature sensor 43 is attached to the approximate center of the heater attachment plate 73 and between the first and second steam generating heaters 42A and 42B.

  10A shows a side view of the steam generator 40, and FIG. 10B shows a cross-sectional view taken along line XB-XB in FIG. 10A and 10B, the same reference numerals are assigned to the same components shown in FIGS.

As shown in FIGS. 10A and 10B, the base A of the evaporation container 41 is provided with a bowl-shaped convex portion 46. In this embodiment, the cross-sectional shape of the convex portion 46 is a triangular shape having a height of about 3 mm and a width of about 7 mm with respect to the reference surface of the base A of the evaporation container 41. Further, as shown in FIG. 10B, the water supplied through the connecting portion 71 and the water supply port 71a to the water reservoir S in a predetermined region surrounded by the bowl-shaped convex portion 46 and the wall portion B on the back surface side. Accumulate. In this embodiment, the water reservoir S has a width of about 160 mm, a depth of about 45 mm, and a capacity of about 20 cm ³ . Then, the base A is heated by the first and second steam generating heaters 42A and 42B, the water accumulated in the water reservoir S is evaporated to generate steam, and the generated steam is supplied through the supply port 72a and the connection 72. It is supplied to the steam temperature raising device 50. In this embodiment, the output of the first steam generating heater is 1000 W, and the output of the second steam generating heater is 500 W.

FIG. 11 shows a cross-sectional view taken along line XI-XI in FIG. 8. As shown in FIG. 11, the convex portion 46 of the base A of the evaporation container 41 is along the edge of the opening 41 a of the evaporation container 41. And straight portions 46a provided on the front side of the base A and bent portions 46b and 46c provided so as to bend and extend from both ends of the straight portion 46a toward the back side. The water supplied from the water tank 30 by the pump 33 is accumulated in a water reservoir S in a predetermined region surrounded by four sides by being surrounded on three sides by the U-shaped convex portion 46 and the other side by the wall portion B. . In this embodiment, the amount of water supplied at one time is a fixed amount of 16 to 20 cm ³ , but the amount of water supplied is not limited to this, and may be appropriately set according to the form of the steam generator. For example, the water supply unit of the steam generator of the present invention may change the amount of water that is intermittently supplied for each supply, may supply water continuously, or combine them. The supply of water may be controlled. Further, in this embodiment, the ridge-shaped convex portion 46 is provided on the base A so as to surround the predetermined region in a U-shape, but the shape of the ridge-shaped convex portion is not limited to this, and the predetermined What is necessary is just to surround at least a part of the region.

  12A shows a top view of the lid body 44, FIG. 12B shows a side view of the lid body 44, and FIG. 12C shows a side view of the lid body 44. FIG. As shown in FIG. 12, the lid 44 includes a heat-resistant resin main body 44a having a window 45 disposed at the center, a flange 44b provided on the front side and the outer edge of the main body 44a, And a heat-resistant sealing member 73 fitted in an annular groove 75 formed on the outer periphery of the portion 44a. By fitting the main body 44 a of the lid 44 into the opening 41 a of the evaporation container 41 (shown in FIGS. 7 to 11), the inner peripheral surface of the evaporation container 41 and the lid 44 are sealed by the seal member 73. At the same time, the lid body 44 is fixed to the evaporation container 41 to prevent the lid body 44 from falling off.

  In the heating cooker 1 configured as described above, a power switch (not shown) in the operation panel 11 shown in FIG. 1 is pressed to turn on the power, and the operation of the cooking operation is started by operating the operation panel 11. Then, first, the control device 80 shown in FIG. 3 energizes the first and second steam generating heaters 42 </ b> A and 42 </ b> B, and starts the operation of the pump 33 with the exhaust passage 62 closed by the damper 68. Water is supplied from the water tank 30 into the evaporation container 41 of the steam generator 40 via the first and second water supply pipes 32 and 33 by the pump 33.

  Then, a predetermined amount of water accumulated in the evaporation container 41 is heated by the first and second steam generating heaters 42A and 42B.

  Next, simultaneously with the energization of the first and second steam generating heaters 42A and 42B, the blower fan 28 is turned on and the steam heater 52 of the steam temperature raising device 50 is energized. Then, the blower fan 28 sucks air (including steam) in the cooking chamber 20 from the suction port 25 and sends out air (including steam) to the second steam supply pipe 61. By using a centrifugal fan as the blower fan 28, it is possible to generate a higher pressure than the propeller fan. Furthermore, by rotating the centrifugal fan used for the blower fan 28 at a high speed with a DC motor, the flow velocity of the circulating airflow can be extremely increased.

  Next, when the water in the evaporation container 41 of the steam generator 40 boils, saturated steam is generated, and the generated saturated steam is sucked by the blower fan 28 via the first steam supply pipe 35, and the second steam is generated. It merges with the circulating airflow passing through the supply pipe 61. The steam joined to the circulating airflow flows into the steam temperature raising device 50 through the second steam supply pipe 61 at a high speed.

  The steam flowing into the steam temperature raising device 50 is heated by the steam heater 52 and becomes superheated steam at approximately 300 ° C. (depending on the cooking content). A part of the superheated steam is ejected downward from the plurality of ceiling steam outlets 55 provided in the lower ceiling panel 54 in the heating chamber 20. Further, another part of the superheated steam is ejected from the side surface steam outlets 24 on both side surfaces of the heating chamber 20 through the steam supply passages 23 provided on the left and right sides of the steam temperature raising device 50.

  Here, in the heating chamber 20, convection occurs in the form of rising at the center and blowing down the outside. Then, the convection steam is sequentially sucked into the suction port 25 and repeats the circulation of returning to the heating chamber 20 through the circulation path.

  During cooking, the control device 80 determines that there is water on the base A when the temperature of the base A of the evaporation container 41 of the steam generating device 40 detected by the temperature sensor 43 is 110 ° C to 120 ° C. On the other hand, when the temperature of the base A detected by the temperature sensor 43 becomes 140 ° C. or more, for example, it is determined that the water on the base A has run out, the pump 33 is operated, and the first and second water supply from the water tank 30 A predetermined amount of water is supplied into the evaporation container 41 of the steam generator 40 through the pipes 32 and 33. In this way, the control device 80 intermittently supplies a predetermined amount of water into the evaporation container 41 of the steam generating device 40 based on the temperature change of the base A of the evaporation container 41, thereby substantially continuously Will occur.

  By forming convection of superheated steam in the heating chamber 20 in this way, the superheated steam from the steam heating device 50 is sent to the ceiling steam outlet 55 while maintaining the temperature and humidity distribution in the heating chamber 20 uniform. And the side steam outlet 24 and can efficiently collide with the object 90 to be heated placed on the rack 22. Then, the object to be heated 90 is heated by the collision of superheated steam. At this time, the superheated steam that has contacted the surface of the object to be heated 90 also heats the object to be heated 90 by releasing latent heat when dew condensation occurs on the surface of the object to be heated 90. As a result, a large amount of heat of the superheated steam can be uniformly and quickly applied to the entire surface of the article 90 to be heated. Therefore, it is possible to realize cooking with no unevenness and good finish. Moreover, since the inside of the heating chamber 20 filled with superheated steam is in a low oxygen concentration state of about 1%, the oxidation of the article 90 to be heated is suppressed and vitamin C and the like are not impaired.

  Further, in the heating cooking operation, when time elapses, the amount of steam in the cooking chamber 20 increases, and the surplus amount of steam is discharged from the discharge port 27 through the discharge passage 64 into the first exhaust. It is discharged from the mouth 65 to the outside.

  After the cooking is finished, the control device 80 displays a cooking end message on the operation panel 11 and further sounds a signal by a buzzer (not shown) provided on the operation panel 11. Thereby, when the user who knows the end of cooking opens the door 12, the control device 80 detects that the door 12 has been opened by a sensor (not shown), and instantly opens the damper 68 of the exhaust passage 62. . Accordingly, the second steam supply pipe 61 in the circulation path communicates with the second exhaust port 63 via the exhaust passage 62, and the steam in the cooking chamber 20 is sucked into the suction port 25 and the second steam supply pipe 61 by the blower fan 28. And the second exhaust port 63 through the exhaust passage 62. This damper operation is the same even if the user opens the door 12 during cooking. Thereby, the user can take out the to-be-heated material 90 from the cooking chamber 20 safely, without being exposed to a vapor | steam.

  According to the heating cooker 1 having the above-described configuration, a steam generating device that can quickly start the steam generation with a simple configuration, can easily attach the heater portions (42A, 42B), and can be easily cleaned is realized. be able to. Further, by controlling the supply of water from the water supply unit and the energization of the heater units (42A, 42B) so that water does not remain in the evaporation container 41 of the steam generating device 40 at the end of cooking, the evaporation container 41 is controlled. There is no need to drain water, the hygiene aspect is improved, drain valves and drain paths are not required, and the configuration can be simplified to reduce the size and cost. Furthermore, steam can be repeatedly generated by intermittently supplying a small amount of water into a predetermined region on the base A from the water supply unit, and the base A can be greatly increased compared to a heater disposed in the pot. It is possible to reduce the size of the steam generator.

  In addition, an evaporation container 41 having a substantially rectangular parallelepiped shape in which the base A of the steam generation device 40 is a substantially rectangular bottom is arranged so that the longitudinal direction is substantially horizontal, and one length of the base A of the evaporation container 41 is set. By attaching an openable / closable lid 44 to the opening 41a provided on the side surface of the side, the user can easily remove the lid 44 and clean the inside of the evaporation container 41. The lid opening / closing structure is not limited to this, and the present invention may be applied to an opening / closing lid having another structure. For example, a lid opening / closing structure may be provided on the wall surface side of the cooking chamber 20.

  Further, by attaching the heater portions (42A, 42B) to the lower side of the base portion A via the heater attachment plate 73, heat from the heater portions (42A, 42B) is uniformly dispersed by the heater attachment plate 73, The lower side of the base A can be heated evenly, heat loss can be reduced, and efficiency can be improved.

  Further, among the two sheathed heaters used in the heater portions (42A, 42B), the heat generation amount of the sheathed heater (42A) on the water supply side is made larger than that of the other sheathed heaters (42B), so that the base A However, the efficiency of steam generation can be improved by concentrating the heat as much as possible in the water supply side region where water is present most than in other regions. In this embodiment, two sheathed heaters are used for the heater portions (42A, 42B), but three or more sheathed heaters may be used, or other heating means may be used.

  Further, by arranging the temperature sensor 43 in the vicinity of the water supply port 71a for supplying water from the water supply unit onto the base A, the temperature change of the base A can be accurately measured by the temperature sensor 43. .

  Moreover, according to the heating cooker of this invention, a low-cost and high-performance heating cooker can be realized.

  Further, according to the steam generator 40 having the above-described configuration, the heater container (42A, 42B) heats the evaporation container 41 with the lid body 44 closing the opening 41a of the evaporation container 41, so that the water supply port 71a It is possible to evaporate the supplied water in the water reservoir S and supply steam to the outside from the evaporation container 41 through the supply port 72a. Then, by opening the lid 44 and exposing the inside of the evaporation container 41 through the opening 41 a provided on the side surface of the evaporation container 41, it becomes easier to put the hand into the evaporation container 41. Therefore, it is possible to realize a sanitary steam generator 40 that can easily clean the inside of the evaporation container 41.

  Further, by providing a lid 44 on the side surface provided with the opening 41a of the evaporation container 41 so as to be openable and closable, the opening 41a of the evaporation container 41 and the lid 44 can be reliably fitted, and the evaporation container 41 The sealing performance of the opening 41a can be improved.

In addition, by providing an opening facing the opening 41a of the evaporation container 41 on the inner wall surface of the cooking chamber 20, the inside of the evaporation container 41 with the lid 44 opened as viewed from the inside of the cooking chamber 20 passes through the opening 41a. As a result, it becomes easy to put a hand from the cooking chamber 20 into the evaporation container 41, and the evaporation container 41 can be easily cleaned. Note that an opening facing the opening 41a of the evaporation container 41 may be provided on the outer wall surface of the main casing 10. In this case, the inside of the evaporation container is exposed through the opening as viewed from the outside of the main casing. The hand can be easily put into the evaporation container from the outside, and the evaporation container can be easily cleaned.
In addition, in the said embodiment, although the cover body 44 was provided in the steam generator 40 side, you may provide a cover body in the inner wall face of a cooking chamber. In this case, since the lid of the evaporation container also serves as a part of the inner wall surface of the cooking chamber, there is no need to secure an extra space for the lid 44 in the main body casing 10, and the heating cooker can be downsized. Since there is room in the space on the inner wall surface of the cooking chamber 20, an opening / closing mechanism for opening and closing the lid 44 can be provided more easily than the evaporation container 41 side. Further, a lid body that can open and close the opening may be provided on the outer wall surface of the main body casing. In this case, the lid body of the evaporation container also serves as a part of the outer wall surface of the main body casing. It is not necessary to secure an extra space for the main body casing 10, the heating cooker can be downsized, and the space on the outer wall surface of the main body casing has room, so that the lid can be opened and closed more than the evaporation container side. A mechanism can be easily provided.

  Further, in this embodiment, the opening 41a of the evaporation container 41 is opposed to the opening provided on the inner wall surface on the rear surface side of the cooking chamber 20 with the opening facing the opening 41a of the evaporation container 41 of the steam generating device 40. As described above, the steam generator 40 is arranged in the main casing 10, but the steam generator may be arranged in the cooking chamber. In this case, the inside of the evaporation container with the lid opened is exposed through the opening, making it easier to put the hand inside the evaporation container in the cooking chamber and facilitating cleaning of the evaporation container.

  Moreover, in the said embodiment, although the steam generator 40 provided with the stainless steel rectangular parallelepiped-shaped evaporation container 41 by which the opening part 41a was provided in the one side surface of the longitudinal side was demonstrated, the evaporation container of a steam generator is described. The shape is not limited to this, and any shape having a substantially flat base portion may be used.

  Moreover, in the said embodiment, although the heating cooker 1 using the steam generation apparatus 40 was demonstrated, you may apply the steam generation apparatus of this invention not only to a heating cooker but to the other apparatus which uses steam. .

FIG. 1 is an external perspective view of a cooking device using a steam generator according to an embodiment of the present invention. FIG. 2 is an external perspective view showing a state where the door of the cooking device shown in FIG. 1 is opened. FIG. 3 is a schematic configuration diagram of the cooking device shown in FIG. FIG. 4 is a control block diagram of the cooking device shown in FIG. FIG. 5 is a front view of the heating cooker without a door. FIG. 6 is a back view of the heating cooker without a main casing. FIG. 7 is a top view of the steam generator of the heating cooker. FIG. 8 is a front view of the steam generator. FIG. 9 is a bottom view of the steam generator. FIG. 10A is a side view of the steam generator. 10B is a cross-sectional view taken along line XB-XB in FIG. 11 is a cross-sectional view taken along line XI-XI in FIG. FIG. 12 is a top view, a front view, and a side view of the lid of the steam generator.

DESCRIPTION OF SYMBOLS 1 ... Heating cooker 10 ... Main body casing 11 ... Operation panel 12 ... Door 13 ... Handle 14 ... Window 20 ... Cooking room 21 ... Sauce tray 22 ... Rack 25 ... Suction port 26 ... Fan casing 27 ... Release port 28 ... Blower fan 30 ... Water tank 31 ... Water level detection unit 32 ... First water supply pipe 34 ... Second water supply pipe 33 ... Pump 35 ... First steam supply pipe 36 ... Water tank water level sensor 37 ... Water tank storage unit 40 ... Steam generator 41 ... Evaporating container 41a ... Opening 42A ... First steam generating heater 42B ... Second steam generating heater 43 ... Temperature sensor 46 ... Convex part 50 ... Steam heating device 51 ... Dish-shaped case 52 ... Steam heater 61 ... Second steam supply Pipe 62 ... Exhaust passage 63 ... Second exhaust port 64 ... Release passage 65 ... First exhaust port 68 ... Damper 71, 72 ... Connection portion 71a ... Water supply port 72a ... Provided Feed port 80 ... Control device 81 ... Cooking chamber temperature sensor 82 ... Cooking chamber humidity sensor 90 ... Heated object S ... Water reservoir

Claims (6)

An overall flat base, and
A heater part attached to the lower side of the base part;
A water supply for supplying water on the base;
A bowl-like shape that is provided in the base so as to surround at least a part of the predetermined region on the base, and prevents the water supplied from the water supply unit on the base from spreading from the predetermined region to the outside. The convex part of
A supply port for supplying the steam generated on the base to the outside, and an evaporation container having a substantially rectangular parallelepiped shape in which the base is a substantially rectangular bottom,
The evaporation container is disposed on the side wall and outside of the cooking chamber so that the longitudinal direction is substantially horizontal, and has an opening on one side of the base and a side different from the supply port side , A lid that can be freely opened and closed is attached to the opening.
An opening opposite to the opening provided in the side wall of the cooking chamber, a steam generator for heating cooker of the lid, characterized in that openable and closable from the inside of the cooking chamber. In the steam generator for heating cookers according to claim 1,
Rutotomoni mounting the heater unit through the heater mounting plate on the underside of the base portion,
A water supply port through which water from the water supply part flows into the evaporation container is provided on a side surface of the evaporation container rising from the other long side of the base,
The predetermined region on the base is surrounded by three sides excluding the other side of the base on the other long side by the hook-shaped convex part, and the other side is on the side of the other long side of the base. A steam generator for a heating cooker , characterized in that it is an enclosed area . In the steam generator for heating cookers according to claim 1 or 2,
The heater section is a plurality of sheathed heaters,
A steam generator for a heating cooker, wherein a water heater on the water supply side of the plurality of sheathed heaters has a larger calorific value than other sheathed heaters. In the steam generator for heating cookers as described in any one of Claims 1 thru | or 3,
A temperature sensor for detecting the temperature of the base is disposed near a water supply port for supplying water from the water supply unit onto the base and below the base . Steam generator. In the steam generator for heating cookers as described in any one of Claims 1 thru | or 4,
The said cover body has a transparent window, The steam generator for heating cookers characterized by the above-mentioned. A cooking device comprising the steam generator for the cooking device according to any one of claims 1 to 5.

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