JP6434256B2 - Furnace - Google Patents

Description

  The present invention relates to a furnace.

  Patent Document 1 discloses a gas furnace. This gas furnace includes a main body case that opens upward and a top plate that covers the upper opening of the main body case. A gas burner for heating an object to be heated on the top plate is provided inside the main body case.

  A liquid crystal display device is provided inside the main body case. The liquid crystal display device includes a liquid crystal display panel that displays the operating state of the furnace and a control board that controls the liquid crystal display panel. The liquid crystal display device is housed in a cooling air passage provided inside the main body case. The display on the liquid crystal display panel is visually recognized through a display window provided on the top board. The cooling air passage connects the gas inlet and the gas outlet formed in the peripheral wall portion of the main body case. A blower fan is provided at the upstream end of the cooling air passage. When the blower fan is driven, air outside the main body case is sucked into the cooling air passage from the gas inlet. This air passes through the place where the liquid crystal display device is installed, and is then discharged from the gas outlet to the outside of the main body case. As a result, the liquid crystal display device is cooled by the air sucked into the cooling air passage.

JP 2009-74729 A

  By the way, in Patent Document 1, since the liquid crystal display device is provided in the main body case, when the top plate is detached from the main body case and attached to the main body case again, the position of the top plate with respect to the main body case is shifted, As a result, the display position of the liquid crystal display device on the top may be shifted.

  In addition, although different from the furnace shown in Patent Document 1, for example, the top plate may be provided with an operation tool for switching the fire extinguishing of the gas burner or adjusting the thermal power. In this case, for example, a substrate on which a detection unit for detecting operation of the operation tool is mounted is provided inside the main body case. However, when the substrate is provided in the main body case in this way, when the top plate is removed from the main body case and then attached to the main body case again, the operation tool provided on the top plate and the detection unit provided on the substrate And the detection accuracy of the detection unit may be lowered.

  The present invention has been made in view of the above circumstances, and can cool the substrate on which at least one of the display unit or the detection unit is mounted, and with respect to the top plate with respect to the housing of the furnace body, It is an object to provide a furnace in which the position of the substrate is difficult to shift.

The furnace according to the present invention has the following first feature. A furnace main body, a top plate, a substrate, and a substrate storage body, the furnace main body comprising an outer casing that constitutes an outer shell, and a blower that is attached to the casing and installed in the casing An air inlet and an air outlet are formed in the housing, and the blower is a suction port facing the air inlet, and a blowout port that is formed on an upper surface portion of the blower and protrudes upward. The board is disposed below the top board, and the board is provided on the upper surface side of the top board through the detection section for detecting the operation of the operation tool provided on the top board or the top board. At least one of the display units for displaying the operation information of the furnace is mounted, and the substrate storage body communicates with the substrate storage unit, the gas inlet leading into the substrate storage unit, and the substrate storage unit. A gas outlet and the substrate. The substrate is housed in housed portion, the substrate container is attached to the top plate, the top plate is installed in the housing on the opening on the housing to cover the said substrate accommodating body, comprising a bottom portion to which the gas inlet is formed, said the outlet of the blower is fitted into the gas inlet, through the mouth said gas inlet is out comes the blow, the gas outlet of the board housing body However , it leads to the exhaust port of the housing.

  In addition, the furnace according to the present invention is the furnace having the first feature and has the following second feature. The intake port is formed in the peripheral wall portion of the housing, and the blower is configured with a state where the peripheral portion of the suction port is disposed along the peripheral portion of the intake port in the peripheral wall portion of the housing as an appropriate mounting position. A furnace installed in a housing, wherein the blower includes a support piece that protrudes upward from a peripheral portion of the suction port and protrudes to a side of the suction port, and is provided at a peripheral wall portion of the housing. A support hole is formed in a peripheral portion of the air intake port, the support piece is inserted into the support hole, and the blower has an upper edge portion of the support hole so that the peripheral portion of the air intake port of the blower is the housing. A first direction in which the blower intersects the direction of the swing so that it can swing between a position along the peripheral wall of the body and a position away from the position on the side opposite to the inlet side The housing is supported so that it can move to the front A regulating unit that regulates the swing of the blower when the blower is disposed at the proper mounting position and that releases the swing regulation when the blower moves in the first direction from the proper mounting position. And a restricting body that restricts movement of the blower arranged at the proper mounting position in the first direction.

  In addition, the furnace according to the present invention has the third feature described below in the furnace having the second feature. The restriction body is a screw inserted into the blower from above and screwed into the housing.

  In the furnace having the first feature of the present invention, by driving the blower, air outside the casing is taken in from the inlet of the casing and allowed to pass through the inside of the substrate storage unit, and then from the exhaust outlet. The substrate on which the detection unit or the display unit is provided can be cooled by air that can be discharged to the outside of the housing and passes through the inside of the substrate storage unit. Moreover, the board | substrate storage part which accommodated the board | substrate is attached to a top plate. For this reason, for example, when the top plate installed on the housing is removed and then the top plate is installed again on the housing, the relative position of the substrate with respect to the top plate is difficult to shift. Therefore, the display unit mounted on the substrate is displaced from the correct display position of the top plate with the removal of the top plate, or the detection unit mounted on the substrate is disposed at a position displaced from the operation tool provided on the top plate. It is difficult to happen.

  Further, in the furnace having the second feature of the present invention, the blower can be easily attached to or removed from the casing. In other words, when attaching the blower to the housing, the operator can easily tilt the support piece into the support hole by tilting the lower part so that the lower part is positioned on the side opposite to the intake port side rather than the posture in which the blower is arranged at the proper installation position. Can be inserted. After this, the operator rotates the blower so that the lower part approaches the air inlet, restricts the swing of the blower by the restricting portion, and restricts the movement of the blower in the first direction by the restricting body. Thus, the blower can be easily fixed to the housing. Moreover, when removing a fan from a housing | casing, the operator can remove a fan from a housing | casing easily by the procedure reverse to the procedure at the time of the said attachment.

  Further, in the furnace having the third feature of the present invention, the fan can be easily attached to the casing by inserting a screw into the blower from above the casing and screwing this screw into the casing. . Moreover, the fixing of the blower to the casing can be easily released simply by removing the screw from above the casing.

It is a perspective view of the furnace of embodiment of this invention. It is CC 'sectional drawing of FIG. It is the perspective view which showed the part which installed the air blower in the housing | casing of the said furnace. It is the perspective view which showed the fan installation part of the said housing | casing in the state which removed the said air blower. It is the perspective view which showed the said air blower. It is the perspective view which showed the support body of the said air blower. It is the perspective view which showed the state which rotated the said air blower in the direction away from an appropriate installation position. It is the perspective view which showed the state which rotated the said air blower to the proper installation position side rather than the position shown in FIG. 9A is a bottom view of the top plate from which the substrate of the furnace, the substrate container, and the heat insulating cover are removed, and FIG. 9B is a cross-sectional view taken along the line AA ′ of FIG. 9A. It is the B section enlarged view of FIG. 9B. It is the bottom view of the top plate which attached the board | substrate and board | substrate storage body of the said furnace, and removed the heat-insulation cover. It is a perspective view of the top plate which attached the board | substrate of the said furnace, a board | substrate storage body, and the heat insulation cover. It is an expanded sectional view of the operation tool, top plate, and substrate of the furnace. It is a top view of the operation tool. It is the top view which showed the said magnetic pole for main magnetic flux formation, the magnetic pole for a click feeling provision, and a detection part.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. The furnace of this embodiment shown in FIG. 1 is a gas furnace. The furnace is not limited to a gas furnace, and may be an electric furnace having a resistance wire or an electromagnetic induction heating cooker (IH cooker).

  In the following description, the side where the user stands as viewed from the furnace is the front side, the side opposite to the side where the user is standing is the rear side, and the left side when viewing the furnace from the user is the left side.

  The furnace of this embodiment is a drop-in furnace, and includes a furnace body 1, a top plate 5, a substrate 6 (see FIG. 2), and a substrate storage body 7 (see FIG. 2).

  A firewood furnace is installed in a kitchen counter as follows, for example. First, the furnace main body 1 is dropped into an opening formed on the counter top of the kitchen counter, and then the top plate 5 to which the substrate 6 and the substrate storage body 7 are attached is installed on the furnace main body 1. Note that the furnace of this embodiment is a drop-in furnace, but may be a table furnace.

  The furnace main body 1 includes a casing 10, a grill device 11, furnace burners 12A and 12B, a control unit (not shown), and a blower 13 (see FIG. 3).

  The housing 10 constitutes the outer shell of the furnace body 1. The housing | casing 10 is formed in the box shape opened upwards. A grill device 11, a plurality of furnace burners 12 </ b> A and 12 </ b> B, the control unit, and a blower 13 (see FIG. 3) are attached to the housing 10.

  The grill device 11 is used for grilling cooked food. Although not shown, the grill device 11 includes a grill burner. The grill device 11 can be omitted.

  The furnace main body 1 of the present embodiment includes two furnace burners 12A and 12B as a heating unit for heating an object to be heated arranged on the top plate 5. Both the furnace burners 12A, 12B are arranged side by side at the rear of the housing 10. The furnace body 1 may be provided with only one furnace burner, or may be provided with three or more furnace burners.

  The control unit is installed inside the housing 10. Although not shown, each of the furnace burners 12A, 12B and the grill burner is provided with a spark plug. Each spark plug is electrically connected to the control unit.

  Although illustration is omitted, fuel gas such as city gas is supplied to each of the furnace burners 12A and 12B and the grill burner through a gas supply path. An electromagnetic valve and a flow control valve are provided in the gas supply path. These gas supply path, solenoid valve, and flow control valve are arranged in the housing 10. The solenoid valve and the flow rate adjusting valve are electrically connected to the control unit.

  The top plate 5 is provided with operating tools 90A and 90B for the furnace burners 12A and 12B for each of the furnace burners 12A and 12B. An operation portion 19 for the grill burner is provided at the front end of the housing 10.

  A command signal is input to the control unit when the operation tools 90A and 90B and the operation unit 19 are operated by the user. In response to the command signal, the control unit opens the corresponding solenoid valve of the gas supply path, opens the flow control valve to a predetermined opening, sparks the spark plug, and ignites each of the furnace burners 12A and 12B and the grill burner. Put it in a state.

  As shown in FIG. 4, a blower installation unit 20 for installing the blower 13 is provided inside the housing 10. The blower installation unit 20 of the present embodiment is located at the left end of the front part of the housing 10.

  As shown in FIG. 3, a blower 13 is installed on the blower installation unit 20. Here, it is preferable that the blower installation unit 20 is provided with a heat insulating plate 21. In FIG. 3, a part of the heat insulating plate 21 is indicated by a two-dot chain line in order to make the blower 13 and the blower installation unit 20 visible.

  The heat insulating plate 21 protrudes upward from the blower installation part 20 and is disposed around the blower 13. The heat insulating plate 21 covers three sides of the front side, the rear side, the left side, and the right side of the blower 13 except the left side where the left wall 16 of the housing 10 is located. In the housing 10, the heat insulating plate 21 partitions the space where the blower 13 is disposed from the space where both the furnace burners 12A and 12B and the grill device 11 are disposed. For this reason, it is possible to make it difficult for the heat generated in both the furnace burners 12 </ b> A and 12 </ b> B and the grill device 11 to be transmitted to the blower 13.

  The peripheral wall of the housing 10 has an intake port 22 (see FIG. 4) for sucking air from the outside of the housing 10 when the blower 13 is driven, and the sucked air to the outside of the housing 10. An exhaust port 23 (see FIG. 1) for discharging is formed.

  The air inlet 22 is formed at a position corresponding to the blower installation portion 20 in the left side wall portion 16 of the housing 10. The intake port 22 of the present embodiment is composed of a plurality of intake holes 24 formed in the left side wall portion 16 of the housing 10 so as to be arranged in the vertical direction. Each intake hole 24 is long in the front-rear direction and penetrates the left wall 16 of the housing 10.

  As shown in FIG. 1, the exhaust port 23 of the present embodiment is configured by a rectangular exhaust hole formed at the upper end portion and the right end portion of the front wall portion of the housing 10.

  As shown in FIG. 3, the blower 13 is installed on the blower installation unit 20 so as to face the intake port 22.

  FIG. 5 is a perspective view showing the blower 13. The blower 13 of this embodiment is a centrifugal fan. The blower 13 includes a blower body 25 and a support body 26. The blower main body 25 includes a communication port 27, a blowout port 28, and a rotary blade (not shown). The communication port 27 is formed on the left side surface of the blower body 25 facing the intake port 22 side. The air outlet 28 is formed in the upper surface portion of the blower body 25. The air outlet 28 is formed in a rectangular frame shape in plan view and protrudes upward.

  FIG. 6 is a perspective view showing the support 26 of the blower 13. The support body 26 includes a bottom portion 29 and an upright portion 30. The bottom portion 29 of the support body 26 is formed in a flat plate shape and constitutes the bottom surface portion of the blower 13. The upright portion 30 protrudes upward from the left end portion of the bottom portion 29 and constitutes the left side surface portion of the blower 13.

  A suction port 31 penetrating right and left is formed in the upright portion 30. Moreover, the packing 17 arrange | positioned around the suction inlet 31 is attached to the left side part of the standing part 30 of the air blower 13 of this embodiment.

  As shown in FIG. 5, the blower body 25 is attached to the upright portion 30 with the left side surface portion where the communication port 27 is formed in contact with the right side surface portion of the upright portion 30. The blower main body 25 is attached to the upright portion 30 by a plurality of screws 32, for example.

  The communication port 27 of the blower body 25 and the suction port 31 of the support body 26 communicate with each other. The blower 13 sucks air from the suction port 31 when it is in a driving state in which the rotor blades rotate. The air sequentially passes through the communication port 27 and the rotor blades of the blower main body 25 and is blown upward from the blowout port 28.

  In the blower 13, a support piece 33 is formed on the upright portion 30 constituting the peripheral portion of the suction port 31. The support pieces 33 according to the present embodiment are formed at two positions in the front and rear of the upper end portion of the upright portion 30, and are located above the suction port 31. Each support piece 33 includes a horizontal piece portion 44 protruding leftward from the upper end portion of the upright portion 30, and a vertical piece portion 45 protruding upward from the tip end portion (left end portion) of the horizontal piece portion 44. .

  As shown in FIG. 4, a support hole 34 is formed around the intake port 22 in the left wall 16 of the housing 10. The support holes 34 are formed at two locations on the left side wall portion 16 of the housing 10, the front portion and the rear portion above the intake port 22.

  As shown in FIG. 3, each support piece 33 of the blower 13 is inserted into a corresponding support hole 34. Specifically, each support piece 33 has a horizontal piece portion 44 inserted into the corresponding support hole 34, and can move in the front-rear direction in the corresponding support hole 34. Further, the vertical piece 45 of each support piece 33 is disposed along the outer surface of the upper edge portion of the corresponding support hole 34 in the left side wall portion 16 of the housing 10. Thereby, each support piece 33 of the blower 13 is restricted from moving rightward and upward with respect to the housing 10.

An upper edge portion of each support hole 34 of the left side wall portion 16 of the housing 10 constitutes a support portion 35. The two support portions 35 support the blower 13 so that it can swing around the support portions 35 as fulcrums when the corresponding support pieces 33 come into contact with each other. Specifically, the two support portions 35 separate the blower 13 from the position where the upright portion 30 abuts the inner surface of the left side wall portion 16 of the housing 10 via the packing 17 and the upright portion 30 to the right from the position. It is supported so that it can swing between different positions.

  As shown in FIG. 5, a regulated portion 36 for regulating the swing of the blower 13 is provided at the bottom 29 of the support 26 of the blower 13. In the present embodiment, two regulated portions 36 that are separated in the front-rear direction are formed at the right end (opposite side of the intake port 22) of the bottom portion 29. Each regulated portion 36 is formed in a plate shape whose thickness direction is the front-rear direction, and protrudes downward from the bottom portion 29.

  As shown in FIG. 4, the blower installation portion 20 of the housing 10 is formed with two restriction holes 37 that are separated from each other in the front-rear direction. Each restricting hole 37 includes an insertion portion 38 having a length direction in the left-right direction and an arrangement portion 39 extending forward from the left end portion of the insertion portion 38.

  As shown in FIG. 3, each regulated portion 36 of the blower 13 is inserted into the arrangement portion 39 of the corresponding regulating hole 37. The peripheral part of each arrangement | positioning part 39 of the air blower installation part 20 is the control part 40. FIG. Each restricting portion 40 restricts the movement in the left-right direction of the corresponding restricted portion 36 of the blower 13. Thereby, the said rocking | fluctuation of the air blower 13 is controlled.

  The restriction of the swing of the blower 13 by each restricting portion 40 corresponds to each restricted portion 36 by moving the blower 13 rearward (first direction) that is a direction intersecting the swing direction. It can be released by moving to the insertion portion 38 of the restriction hole 37.

  As shown in FIG. 5, a screw insertion hole 41 penetrating vertically is formed at the right end of the bottom 29 of the support 26 of the blower 13.

  As shown in FIG. 3, the blower installation unit 20 is provided with a regulating body 42 that regulates the movement of the blower 13 in the front-rear direction. The restricting body 42 of the present embodiment is composed of a single screw 43. The screw 43 is inserted into the screw insertion hole 41 of the support 26 from above and is screwed into the lower fan installation portion 20. Thereby, the air blower 13 is fixed with respect to the housing | casing 10, and the movement of the front-back direction is controlled. The restricting body 42 is not limited to the screw 43 and may be a fixing tool other than the screw 43.

  As described above, the blower 13 attached to the housing 10 has the left side surface portion of the upright portion 30 abutting against the inner surface of the left side wall portion 16 of the housing 10 via the packing 17, and the lower surface of the bottom portion 29 of the support body 26. It is placed on the blower installation unit 20 and the suction port 31 communicates with the intake port 22 of the housing 10. Hereinafter, the mounting position of the blower 13 is referred to as a proper mounting position. The packing 17 can be omitted. In this case, the blower 13 is installed in a state where the left side surface portion of the raised portion 30 is in direct contact with the inner surface of the left side wall portion 16 of the housing 10.

  The operation of attaching the blower 13 to the housing 10 is performed as follows, for example. First, the operator inserts each support piece 33 into the corresponding support hole 34 as shown in FIG. 7 while tilting the blower 13 so that the lower part is positioned on the right side of the upper part. Next, the operator rotates the blower 13 toward the left so that the lower part of the blower 13 approaches the intake port 22 as shown in FIG. The operator rotates the blower 13 until the upright portion 30 of the blower 13 comes into contact with the left wall 16 of the housing 10 via the packing 17. Accordingly, each regulated portion 36 of the blower 13 is inserted into the insertion portion 38 of the corresponding restriction hole 37 from above, and each regulated portion 36 of the blower 13 is inserted into the insertion portion 38 of the corresponding restriction hole 37. Arranged at the left end. Next, the worker moves the blower 13 forward. Thereby, each to-be-regulated part 36 of the air blower 13 is arrange | positioned at the arrangement | positioning part 39 of the corresponding restriction hole 37, and the air blower 13 is arrange | positioned in the appropriate mounting position shown in FIG. Then, the operator inserts the screw 43 from above into the screw insertion hole 41 of the blower 13 arranged in the proper mounting position in this way, and screwes this screw 43 into the blower installation unit 20 from above, thereby mounting the blower 13 in the housing. It fixes to the fan installation part 20 of the body 10.

  Further, the fan 13 may be removed from the housing 10 during maintenance. In this case, the blower 13 is removed from the housing 10 by a worker in the reverse order of the procedure at the time of attachment.

  That is, the operator removes the screw 43 from the blower installation part 20 and then moves the blower 13 backward, and then the lower part of the blower 13 is connected to the intake port 22 with the blower 13 as a fulcrum. The air blower 13 is rotated to the right so as to be separated, and thereafter the air blower 13 is moved to pull out each support piece 33 from the corresponding support hole 34.

  In addition, although the control part 40 of this embodiment is comprised by the peripheral part of the arrangement | positioning part 39 of the control hole 37, the rocking | fluctuation of the air blower 13 is controlled and the said rocking | fluctuation restriction | limiting is carried out by the movement of the air blower 13 in the front-back direction. If it can cancel | release, the shape, a magnitude | size, etc. will not be limited.

  Although not shown, the blower 13 is electrically connected to the control unit, and the operation of the blower 13 is controlled by the control unit.

  As shown in FIG. 1, the top plate 5 is installed on the periphery of the upper opening 15 (see FIG. 3) of the housing 10 and covers the upper opening 15 of the housing 10.

  FIG. 9A shows a bottom view of the top plate 5, and FIG. 9B shows a cross-sectional view of the top plate 5. The top plate 5 includes a top plate body 50, a mounting plate 51, and a frame body 52. The top plate body 50 constitutes the upper surface of the top plate 5. The top plate body 50 is formed in a flat plate shape having a rectangular shape in plan view. The top plate body 50 is made of glass and is a nonmagnetic material. Burner holes 53 penetrating vertically are formed at positions corresponding to the furnace burners 12A and 12B in the top plate body 50.

  The mounting plate 51 is disposed along the lower surface of the top plate body 50. The mounting plate 51 is formed in a rectangular shape having substantially the same size as the top plate body 50 in plan view. Although the material of the mounting plate 51 is not particularly limited, for example, metal or synthetic resin is used.

  In the mounting plate 51, through holes 54 penetrating vertically are formed at locations corresponding to the furnace burners 12A and 12B. Each furnace burner 12A, 12B protrudes above the top plate body 50 through the corresponding through hole 54 and burner hole 53.

  The frame 52 is formed in a rectangular frame shape in plan view. The frame body 52 of the present embodiment is made of metal, and in detail is made of aluminum.

  As shown in FIG. 10, the frame body 52 is attached to the peripheral portion of the top plate body 50 with an adhesive 55. The mounting plate 51 is inserted and held between the top plate main body 50 and the frame body 52 positioned below this. As a result, the mounting plate 51 is fixed to the top plate body 50.

  As shown in FIG. 9A, the mounting plate 51 has an opening 57 that is long in the left-right direction. The opening 57 penetrates the mounting plate 51 up and down. The opening 57 is located in the front part of the mounting plate 51 and is present in front of both through holes 54. A peripheral portion of the opening 57 of the mounting plate 51 serves as an attachment portion 58 for fixing the substrate storage body 7 (see FIG. 11) disposed below.

  The substrate storage body 7 of this embodiment shown in FIG. 11 is made of synthetic resin. The substrate housing 7 has a shallow box shape that opens upward, and is formed in a substantially rectangular shape having a length direction on the left and right in a plan view. The substrate storage body 7 includes a bottom portion 70 and a peripheral wall portion 71 protruding upward from the peripheral edge portion of the bottom portion 70.

  The substrate storage body 7 includes a substrate storage part 72 (see FIG. 2), a gas inlet 73, and a gas outlet 74 (see FIG. 12). As shown in FIG. 2, the board | substrate storage part 72 is comprised by the inner surface part of the box-shaped board | substrate storage body 7, and is a recessed part opened upwards. The substrate storage portion 72 is located below the opening 57 of the mounting plate 51.

  The inside of the substrate storage portion 72 is a ventilation space 75 through which air sent from the blower 13 passes. The upper part of the ventilation space 75 of the substrate storage portion 72 is covered with the top plate body 50. In other words, the top plate body 50 and the substrate storage portion 72 disposed below this constitute a ventilation portion through which the air sent from the blower 13 passes.

  The ventilation space 75 is partitioned from the space in the housing 10 in which the both furnace burners 12A and 12B and the grill device 11 are arranged by the substrate storage portion 72. For this reason, the heat generated in each of the furnace burners 12 </ b> A and 12 </ b> B and the grill device 11 is difficult to be transmitted into the ventilation space 75.

  A substrate 6 on which the detection unit 61 and the display unit 60 are mounted is stored in the substrate storage unit 72 together with the detection unit 61 and the display unit 60. The substrate 6 is placed on the bottom 70 of the substrate storage body 7 while being fixed to the substrate storage body 7. The detection unit 61, the display unit 60, and the substrate 6 are disposed below the top plate body 50.

  In the substrate storage body 7, the upper end portion of the peripheral wall portion 71 is attached to the adherend portion 58 (see FIG. 9A) of the attachment plate 51 using screws 76 (see FIG. 11). That is, the substrate storage body 7 is attached to the lower surface of the top plate 5.

  The display unit 60 provided on the substrate 6 can be viewed from above the top plate body 50 through the transparent top plate body 50. The display unit 60 displays the operation information of the furnace on the upper surface side of the top plate 5 through the top plate main body 50. The display unit 60 of the present embodiment displays information output from the control unit, and displays the ignition state and thermal power of each of the furnace burners 12A and 12B, the ignition state and thermal power of the grill device 11, and the like. The display unit 60 includes a light source such as a liquid crystal panel or an LED, and the control unit performs display on the display unit 60 using a circuit provided on the substrate 6.

  The detection part 61 provided in the board | substrate 6 detects operation of operation tool 90A, 90B provided in the top plate 5, as FIG. 1 shows. The detection unit 61 and the operation tools 90A and 90B will be described in detail later.

  The gas inlet 73 of the substrate container 7 of the present embodiment is formed at the left end of the bottom 70 of the substrate container 7 as shown in FIG. The gas inlet 73 communicates with the ventilation space 75. The gas inlet 73 is formed in a rectangular shape that is slightly larger than the outlet 28 of the blower 13 shown in FIG. 3, and opens downward.

  As shown in FIG. 12, a protruding portion 77 protruding downward is formed at the right end portion of the bottom portion 70 of the substrate housing 7. The gas outlet 74 of the substrate storage body 7 of this embodiment is formed on the front surface portion of the protruding portion 77. The gas outlet 74 penetrates the front surface of the protrusion 77 in the front-rear direction and communicates with the ventilation space 75. The gas outlet 74 is a rectangular hole having substantially the same shape as the exhaust port 23 of the housing 10 shown in FIG.

  As shown in FIG. 12, a metal heat insulating cover 8 is attached to the outer surface of the substrate housing 7 of the present embodiment. The heat insulating cover 8 is attached to the substrate housing 7 with screws 80. With the heat insulating cover 8, the heat generated in each of the furnace burners 12 </ b> A and 12 </ b> B and the grill device 11 is more difficult to be transmitted into the ventilation space 75. The heat insulating cover 8 can be omitted.

  The top plate 5 is installed from above on the housing 10 shown in FIG. At this time, the outlet 28 of the blower 13 installed in the housing 10 is fitted from below into the gas inlet 73 of the substrate housing 7 attached to the top plate 5 shown in FIG. Thereby, the ventilation space 75 in the substrate housing 7 communicates with the blowout port 28 of the blower 13 through the gas inlet 73. Further, when the top plate 5 is installed on the casing 10 in this way, the gas outlet 74 of the substrate housing 7 shown in FIG. 12 faces the exhaust port 23 of the casing 10 shown in FIG. Thereby, the ventilation space 75 in the substrate storage body 7 communicates with the exhaust port 23 via the gas outlet 74.

  The blower 13 is driven when the furnace is operated. When the blower 13 is driven, air outside the housing 10 is sucked from the air inlet 22 of the housing 10 shown in FIG. This air passes through the blower 13 shown in FIG. 3 and flows into the ventilation space 75 of the substrate storage portion 72 from the blowout port 28 via the gas inlet 73 shown in FIG. The air passes through the vicinity of the substrate 6 arranged in the ventilation space 75 and is discharged from the gas outlet 74 to the outside of the housing 10 through the exhaust port 23 shown in FIG. At this time, the substrate 6 is cooled by the air passing through the ventilation space 75. Thereby, it is prevented that the board | substrate 6 becomes high temperature and a malfunction arises.

  As shown in FIG. 1, five victories 91 </ b> A and 91 </ b> B for supporting cooking containers such as a pan and a frying pan are provided on the top plate 5 for each furnace burner 12 </ b> A and 12 </ b> B.

  The top plate 5 is provided with operating tools 90A and 90B for each of the furnace burners 12A and 12B. Each operation tool 90 </ b> A, 90 </ b> B is installed on the front portion of the top plate body 50.

  The operation tools 90A and 90B of the present embodiment are operation knobs that are operated to slide back and forth and rotate around the vertical axis, and switch the point fire extinguishing of the corresponding furnace burners 12A and 12B and the corresponding furnace burner 12A. , 12B to adjust the firepower.

  As shown in FIG. 13, an operation tool installation position 59 that overlaps with the rotation center of each operation tool 90 </ b> A, 90 </ b> B in a plan view is set on the top panel body 50. In this embodiment, each operation tool installation position 59 is located on the front side of the corresponding furnace burners 12A and 12B.

  Each operation tool 90A, 90B is provided with a holding magnetic pole 92 at a portion overlapping the rotation center. The holding magnetic pole 92 of each operation tool 90A, 90B is a neodymium magnet. Each operation tool 90A, 90B of this embodiment is installed on the top plate 5 so that the S pole of the holding magnetic pole 92 is located on the upper side and the N pole is located on the lower side.

  A main magnetic flux forming magnetic pole 62 is provided below each operation tool installation position 59 of the top plate 5. Each main magnetic flux forming magnetic pole 62 is fixed to the substrate 6 and is in contact with the lower surface of a cushion 93 disposed along the lower surface of the top plate body 50. Each main magnetic flux forming magnetic pole 62 may be directly fixed to the top plate body 50.

  Each main magnetic flux forming magnetic pole 62 is a neodymium magnet and forms a main magnetic flux penetrating the top plate 5 up and down.

  Each main magnetic flux forming magnetic pole 62 of this embodiment is provided on the lower surface side of the top plate 5 so that the S pole is located on the upper side and the N pole is located on the lower side. The main magnetic flux formed by each main magnetic flux forming magnetic pole 62 penetrates perpendicularly to the top plate main body 50 portion.

  The holding magnetic poles 92 of the operating tools 90A and 90B are magnetically coupled to the corresponding main magnetic flux forming magnetic poles 62, whereby the operating tools 90A and 90B are attached to and detached from predetermined positions on the top surface of the top plate 5. Held possible.

  That is, when each operation tool 90A, 90B is arranged at a predetermined position on the top plate 5 in a predetermined direction, the magnetic flux of the holding magnetic pole 92 acts on the main magnetic flux penetrating the corresponding operation tool installation position 59 vertically. Thus, a magnetic force for maintaining the operation tools 90A and 90B in the vertical direction (vertical posture) is applied, and a force for the holding magnetic pole 92 to be positioned at the position of the main magnetic flux is applied. Thereby, each operation tool 90A, 90B is positioned immediately above the corresponding main magnetic flux forming magnetic pole 62, and the position in plan view is maintained. In this state, even if a force is applied to the operation tools 90A and 90B in the horizontal direction to slide the upper surface of the top plate 5, a magnetic force for returning the operation tools 90A and 90B to a predetermined position is generated. Acts and returns to a predetermined position.

  Further, each of the operation tools 90A and 90B is provided with a rotation detection magnetic pole 94 at a position away from the holding magnetic pole 92 in plan view. As shown in FIG. 14, each of the operation tools 90A and 90B of the present embodiment is provided with six rotation detection magnetic poles 94 at a predetermined distance from the holding magnetic pole 92 in a plan view at intervals of 60 °. It has been. Each rotation detection magnetic pole 94 of each operation tool 90A, 90B is a neodymium magnet, and the S pole is located on the upper side and the N pole is located on the lower side.

  As shown in FIG. 15, on the lower surface side of the top plate 5, a click feeling imparting magnetic pole 63 is provided at a position away from the main magnetic flux forming magnetic pole 62 in plan view. Each click feeling imparting magnetic pole 63 of this embodiment is fixed to the substrate 6. Each click feeling imparting magnetic pole 63 may be directly fixed to the top plate body 50.

  The click feeling imparting magnetic pole 63 is a neodymium magnet, and is provided on the lower surface side of the top plate 5 so that the S pole is located on the upper side and the N pole is located on the lower side.

  Each main magnetic flux forming magnetic pole 62, each click feeling imparting magnetic pole 63, the holding magnetic pole 92 of each operating tool 90A, 90B, and each rotation detecting magnetic pole 94 is the type, size, and shape of a magnet (including an electromagnet). Other characteristics (for example, the strength and direction of magnetic force) are not particularly limited.

  When the operating tools 90A and 90B are rotated by the user, the magnetic attractive force acting between the both rotation detecting magnetic pole 94 and the click feeling imparting magnetic pole 63 is a predetermined angular interval (60 in the first embodiment). °) changes every time. Thereby, a click feeling is given to the user who rotates the operation tools 90A and 90B at every predetermined rotation angle of the operation tools 90A and 90B. Further, the rotation angle in the plan view of the operation tools 90A and 90B is maintained by the magnetic attractive force acting between the rotation detection magnetic pole 94 and the click feeling imparting magnetic pole 63. Thereby, even when vibration occurs due to an earthquake or the like, the rotation angles of the operation tools 90A and 90B are maintained, and the operation tools 90A and 90B are prevented from rotating unless operated by the user.

  On the other hand, two detection units 61 are mounted on the substrate 6 at positions corresponding to the operation tools 90A and 90B.

  Each detection unit 61 is a magnetic detection unit constituted by a Hall element, and detects magnetic flux from the rotation detection magnetic pole 94 of the corresponding operation tool 90A, 90B.

  In the present embodiment, in the region corresponding to each operation tool 90A, 90B of the substrate 6, the two detectors 61 are spaced apart in the circumferential direction on a virtual circle centered on the center of the main magnetic flux forming magnetic pole 62 in plan view. Is arranged through. Both detectors 61 are separated by 60 ° in the circumferential direction on the virtual circle. In addition, each detection unit 61 is separated from the line connecting the center of the corresponding main magnetic flux forming magnetic pole 62 and the center of the corresponding click feeling imparting magnetic pole 63 by 30 ° in the circumferential direction on the virtual circle. . Note that the number of each detection unit 61 is not particularly limited, and each detection unit 61 is not limited to a Hall element, and may be another magnetic detection element such as a magnetic detection resistor.

  When the user slides the operating tools 90A and 90B on the operating tool installation positions 59 of the top plate 5 back along the top surface of the top plate 5 as shown by an arrow D1 in FIG. It is detected that the magnitude of the magnetic flux from the rotation detecting magnetic pole 94 detected by the detecting unit 61 changes and the operating tools 90A and 90B slide. The circuit provided on the substrate 6 outputs the detection information detected by each detection unit 61 to the control unit. In response to this, the control unit switches the fire extinguishing of the furnace burners 12A and 12B.

  Further, when the operating tools 90A and 90B are rotated about the vertical axis about the corresponding operating tool installation position 59 by the user, the magnetic flux from the rotation detecting magnetic pole 94 detected by the corresponding detecting unit 61 is detected. The size varies depending on the distance between the rotation detection magnetic pole 94 and the magnetic detection unit 61. That is, the magnitude of the magnetic flux from the rotation detection magnetic pole 94 detected by each detection unit 61 changes in accordance with the rotation angle of the operation tools 90A and 90B. The circuit provided on the substrate 6 outputs detection information detected by each detection unit 61 to the control unit when the operation tools 90A and 90B are rotated. In response to this, the control unit adjusts the heating power of each furnace burner 12A, 12B in accordance with the detection information.

  Note that the operation tool 90A of the present embodiment is an operation knob, but a touch panel using a resistance film method, a capacitance method, or the like may be adopted, and the operation tool 90A may be used as an operation screen operated by a user.

  The above-described furnace of the present embodiment has the first feature shown below. The furnace includes a furnace body 1, a top plate 5, a substrate 6, and a substrate housing 7. The furnace main body 1 includes a casing 10 that is open upward and a blower 13 that is installed in the casing 10. An intake port 22 and an exhaust port 23 are formed in the housing 10. The suction port 31 of the blower 13 faces the intake port 22. The substrate 6 is disposed below the top plate 5. The substrate 6 includes a detection unit 61 for detecting the operation of the operation tools 90A and 90B provided on the top plate 5 and a display unit 60 for displaying operation information of the furnace on the upper surface side of the top plate 5 through the top plate 5. Implemented. The substrate storage body 7 includes a substrate storage portion 72, a gas inlet 73 that communicates with the substrate storage portion 72, and a gas outlet 74 that communicates with the substrate storage portion 72. The substrate 6 is stored in the substrate storage portion 72. A substrate housing 7 is attached to the top plate 5. The top plate 5 is installed on the housing 10 so as to cover the upper opening 15 of the housing 10. The gas inlet 73 of the substrate housing 7 communicates with the outlet 28 of the blower 13. A gas outlet 74 of the substrate housing 7 communicates with the exhaust port 23 of the housing 10.

  In the furnace having the first feature, the air inlet 22 of the casing 10 has the air inlet 31 of the blower 13, the air outlet 28, the gas inlet 73 of the substrate storage body 7, the inside of the substrate storage portion 72, and the gas flow. It communicates with the exhaust port 23 of the housing 10 through the outlet 74 in order. For this reason, after the air blower 13 is driven, air outside the housing 10 is taken in from the air inlet 22 of the housing 10 and allowed to pass through the inside of the substrate storage portion 72, and then the air from the exhaust port 23 to the outside of the housing 10 The substrate 6 provided with the detection unit 61 and the display unit 60 can be cooled by the air passing through the inside of the substrate storage unit 72 at this time.

  The substrate storage body 7 in which the substrate 6 is stored is attached to the top plate 5 instead of the housing 10. For this reason, for example, when the top plate 5 installed on the housing 10 for maintenance of the furnace is removed from the housing 10 and then the top plate 5 is installed on the housing 10 again, the top plate 5 of the substrate 6 is removed. The relative position with respect to becomes difficult to shift. Accordingly, it is difficult for the display unit 60 mounted on the substrate 6 to be displaced from the correct display position of the top plate 5 with the removal of the top plate 5. In addition, it is difficult for the detection unit 61 mounted on the substrate 6 to be disposed at a position shifted from the operation tools 90 </ b> A and 90 </ b> B provided on the top plate 5 as the top plate 5 is attached and detached. For this reason, the fall of the detection accuracy of the detection part 61 can be suppressed.

Further, the furnace having the first characteristic preferably has the second characteristic shown below. An air inlet 22 is formed in the peripheral wall portion of the housing 10. The blower 13 is mounted on the housing 10 with the state where the peripheral portion (upper portion 30) of the suction port 31 is in contact with the peripheral portion of the intake port 22 in the peripheral wall portion of the housing 10 as an appropriate mounting position. The blower 13 includes a support piece 33 that protrudes upward from a peripheral portion of the suction port 31 that protrudes to the side of the intake port 22. A support hole 34 is formed in the peripheral portion of the peripheral wall of the housing 10 around the air inlet 22. The support piece 33 is inserted into the support hole 34, the blower 13 is positioned at the upper edge portion of the support hole 34, the peripheral portion of the suction port 31 is along the peripheral wall portion of the housing 10, and the intake port 22 side from this position. Is supported so that it can be swung between positions opposite to the opposite side, and the blower 13 can be moved in a first direction (rearward in this embodiment) intersecting the direction of rocking. The swing of the blower 13 is restricted when the blower 13 is disposed in the proper mounting position on the housing 10 and the swing restriction is released when the blower 13 moves in the first direction from the proper mounting position. And a regulating body 42 that regulates the movement of the blower 13 disposed at the proper mounting position in the first direction.

  In the furnace having the second feature, the blower 13 can be easily attached to the housing 10, and the blower 13 can be easily detached from the housing 10. That is, when attaching the blower 13 to the housing 10, the operator tilts the support piece 33 so that the lower part is positioned on the side opposite to the intake port 22 side rather than the posture in which the blower 13 is disposed at the proper installation position. It can be easily inserted into the support hole 34. Thereafter, the operator rotates the blower 13 so that the lower portion approaches the air inlet 22, restricts the swinging of the blower 13 by the restricting portion 40, and moves the blower 13 in the first direction by the restricting body 42. By restricting the movement of the fan 13, the blower 13 can be easily fixed to the housing 10. Moreover, when removing the air blower 13 from the housing | casing 10, the operator can remove the air blower 13 from the housing | casing 10 easily by the reverse procedure to the procedure at the time of the said attachment.

  Further, the furnace having the second feature preferably has the third feature shown below. A restricting body 42 is a screw 43 inserted into the blower 13 from above and screwed into the housing 10.

  The furnace having the third feature allows the blower 13 to be easily attached to the housing 10 by inserting the screw 43 into the blower 13 from above the housing 10 and screwing the screw 43 into the housing 10. . Moreover, the fixing of the blower 13 to the housing 10 can be easily released simply by removing the screw 43 from above the housing 10.

  In addition, although the detection part 61 and the display part 60 are provided in the board | substrate 6 of this embodiment, only the detection part 61 may be provided in the board | substrate 6, and only the display part 60 may be provided. .

  Moreover, although the two support pieces 33 are provided in the air blower 13 of this embodiment, one or three or more support pieces 33 may be provided. Further, the first direction is not limited to the rear, and may be, for example, the front.

  Further, the restricting body 42 may be a plurality of screws as long as it can restrict the movement of the blower 13 in the first direction, or may be other fixing tools other than the screws 43.

  In addition, the design of the furnace of the present embodiment can be changed as appropriate without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 Furnace main body 10 Case 13 Blower 15 Upper opening part 22 Intake port 23 Exhaust port 28 Outlet port 31 Suction port 33 Support piece 34 Support hole 40 Restriction part 42 Restriction body 43 Screw 5 Top plate 6 Substrate 60 Display part 61 Detection part 7 Substrate container 72 Substrate container 73 Gas inlet 74 Gas outlet

Claims (3)

A furnace body, top plate, substrate, and substrate housing,
The furnace body is
A housing that is open upward and constitutes the outer shell;
A fan attached to the housing and installed in the housing;
An intake port and an exhaust port are formed in the housing,
The blower is
A suction port facing the suction port;
A blowout port formed on the upper surface of the blower and projecting upward;
The substrate is disposed below the top plate, and this substrate is a detector for detecting operation of an operation tool provided on the top plate, or the operation of the furnace on the top surface side of the top plate through the top plate At least one of the display units for displaying information is mounted,
The substrate container is
And the base plate housing portion,
And a gas inlet leading to the previous Symbol substrate storage portion,
And a gas outlet leading to the previous Symbol substrate storage portion,
The substrate is stored in the substrate storage portion,
The substrate storage body is attached to the top plate, and the top plate is installed on the housing so as to cover the upper opening of the housing,
The substrate container includes a bottom portion to which the gas inlet is formed, said the outlet of the blower is fitted into the gas inlet, through the mouth said gas inlet is out comes the blow,
Stove the gas outlet of the substrate container, characterized in that through the outlet port of the housing. The air inlet is formed in the peripheral wall of the housing;
The blower is a furnace mounted on the housing as a proper mounting position in which the peripheral portion of the suction port is disposed along the peripheral portion of the suction port in the peripheral wall portion of the housing,
The blower includes a support piece that protrudes upward after protruding from the periphery of the suction port to the side that becomes the intake port side,
A support hole is formed in a peripheral portion of the intake port in the peripheral wall portion of the housing,
The support piece is inserted into the support hole, and the blower is positioned by the upper edge portion of the support hole so that the peripheral portion of the suction port of the blower is along the peripheral wall portion of the housing and the intake air from this position. Supported so that it can swing between a position away from the side opposite to the mouth side and the blower can move in a first direction intersecting the direction of swinging,
In the case,
A restriction that restricts the swinging of the blower when the blower is disposed at the proper mounting position and that releases the swing restriction when the blower moves in the first direction from the proper mounting position. And
The furnace according to claim 1, further comprising a regulating body that regulates movement of the blower disposed at the proper mounting position in the first direction. The furnace according to claim 2, wherein the regulating body is a screw inserted into the blower from above and screwed into the housing.

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