CN108261057B - Cooking utensil - Google Patents
Cooking utensil Download PDFInfo
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- CN108261057B CN108261057B CN201611265778.0A CN201611265778A CN108261057B CN 108261057 B CN108261057 B CN 108261057B CN 201611265778 A CN201611265778 A CN 201611265778A CN 108261057 B CN108261057 B CN 108261057B
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- 238000010411 cooking Methods 0.000 title claims abstract description 58
- 230000005291 magnetic effect Effects 0.000 claims abstract description 70
- 230000000149 penetrating effect Effects 0.000 claims description 6
- 229910000859 α-Fe Inorganic materials 0.000 claims description 3
- 230000000694 effects Effects 0.000 description 7
- 238000010586 diagram Methods 0.000 description 6
- 230000000903 blocking effect Effects 0.000 description 4
- 244000309464 bull Species 0.000 description 4
- 238000009434 installation Methods 0.000 description 4
- 230000005389 magnetism Effects 0.000 description 4
- 230000004308 accommodation Effects 0.000 description 3
- 238000000926 separation method Methods 0.000 description 3
- 230000007257 malfunction Effects 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000002265 prevention Effects 0.000 description 2
- 101100298222 Caenorhabditis elegans pot-1 gene Proteins 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
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Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J27/00—Cooking-vessels
- A47J27/08—Pressure-cookers; Lids or locking devices specially adapted therefor
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J27/00—Cooking-vessels
- A47J27/08—Pressure-cookers; Lids or locking devices specially adapted therefor
- A47J27/0802—Control mechanisms for pressure-cookers
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J27/00—Cooking-vessels
- A47J27/08—Pressure-cookers; Lids or locking devices specially adapted therefor
- A47J27/09—Safety devices
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- Engineering & Computer Science (AREA)
- Food Science & Technology (AREA)
- Cookers (AREA)
Abstract
The present invention provides a cooking appliance, comprising: the pot body is used for containing food to be cooked; the pot cover is covered on the pot body, a rotatable cover opening component, a linkage component linked with the cover opening component, an opening stopping rod capable of moving up and down and an electromagnet matched with the opening stopping rod are arranged in the pot cover, and the cover opening component rotates to enable pot teeth of the pot body to be buckled with cover teeth of the pot cover or the pot teeth of the pot body to be staggered with the cover teeth of the pot cover; the linkage part is driven to move when the cover opening part rotates, at least part of the opening stopping rod is a magnetic part, when the pressure in the cooker body is larger than a preset value or the electromagnet is electrified, the opening stopping rod is pushed to move upwards by pressure or attracted to move upwards by magnetic force, and the linkage part is limited by the opening stopping rod after being moved upwards, so that the cover opening part stops rotating. The technical scheme of the invention effectively solves the problem that the opening stopping device of the cooker in the prior art is not high in safety and stability.
Description
Technical Field
The invention relates to a cooking appliance, in particular to an improvement on a cooking appliance cover.
Background
At present, an opening stopping device is arranged in a cooking appliance for preventing a user from opening a pot cover under the condition that the cooking appliance has potential safety hazards.
The existing opening stopping device comprises an opening stopping rod arranged on the inner pot cover and a sliding plate structure matched with the opening stopping rod. The movement of the slide plate structure is controlled by an arm arranged on the rotating rod and other transmission mechanisms. The structure has a plurality of parts and a complex structure.
Meanwhile, in the prior art, the upward movement of the opening prevention lever is completely controlled by the pressure in the cooker. When the pressure in the cooker does not reach the preset value, the opening stopping rod cannot move upwards to realize the opening stopping function. However, the temperature in the pot is high, and the user is easily injured if the pot cover is opened. Therefore, the opening stopping device in the prior art is not high in safety and stability, and has certain potential safety hazards.
Disclosure of Invention
The invention mainly aims to provide a cooking utensil to solve the problem that an opening stopping device of a cooking utensil in the prior art is low in safety and stability.
In order to achieve the above object, the present invention provides a cooking appliance, comprising: the pot body is used for containing food to be cooked; the pot cover is covered on the pot body, a rotatable cover opening component, a linkage component linked with the cover opening component, an opening stopping rod capable of moving up and down and an electromagnet matched with the opening stopping rod are arranged in the pot cover, and the cover opening component rotates to enable pot teeth of the pot body to be buckled with cover teeth of the pot cover or the pot teeth of the pot body to be staggered with the cover teeth of the pot cover; the linkage part is driven to move when the cover opening part rotates, at least part of the opening stopping rod is a magnetic part, when the pressure in the cooker body is larger than a preset value or the electromagnet is electrified, the opening stopping rod is pushed to move upwards by pressure or attracted to move upwards by magnetic force, and the linkage part is limited by the opening stopping rod after being moved upwards, so that the cover opening part stops rotating.
By applying the technical scheme of the invention, when the pressure in the cooker body is greater than the preset value or the electromagnet is electrified, the opening stopping rod moves upwards to limit the movement of the linkage piece, and at the moment, the linkage piece is locked by the opening stopping rod and cannot move, so that the cover opening piece cannot rotate, and the cooker cover cannot rotate and cannot be opened. When the pressure in the cooker body is smaller than the preset value, the linkage piece and the opening stopping rod are arranged in a staggered mode, the opening stopping rod cannot lock the linkage piece, the opening cover piece can move freely at the moment, and the cooker cover can be opened.
Further, the linkage piece comprises an opening stopping rotating rod, the middle of the opening stopping rotating rod is pivotally connected in the cooker cover, the first end of the opening stopping rotating rod is driven by the cover opening piece, and the second end of the opening stopping rotating rod is matched with the opening stopping rod.
Furthermore, the electromagnet is arranged at the second end of the opening stopping rotating rod, the second end of the opening stopping rotating rod is provided with an accommodating hole for accommodating the opening stopping rod, and the accommodating hole is positioned below the electromagnet.
Further, the linkage piece still includes the separation blade that sets up at the second end of stopping the bull stick, and the separation blade is located one side of the second end of stopping the bull stick, and when electro-magnet and the dislocation of stopping the bull stick, the separation blade is located the top of stopping the bull stick.
Furthermore, one of the first ends of the opening cover part and the opening stopping rotating rod is provided with a first long groove, and the other one of the first ends of the opening cover part and the opening stopping rotating rod is provided with a first connecting pin which is arranged in the first long groove in a penetrating mode.
Furthermore, the second end of the opening stopping rotating rod is provided with an installation part, the accommodating hole is located at the bottom of the installation part, and the top of the installation part is provided with an accommodating groove for accommodating the electromagnet.
Further, the pot cover is including face lid, inside lining, locking ring and the interior pot cover that from top to bottom sets gradually, and the locking ring can rotate by relative inside lining, and the lid tooth sets up on the locking ring, and the cover piece of opening, linkage and electro-magnet all set up on the inside lining, and the pole of ending to open wears to establish in the pot cover.
Furthermore, a second connecting pin is arranged on the locking ring, the cover opening piece comprises a rotating seat and a cover opening rotating rod, the rotating seat is pivotally connected to the lining, the cover opening rotating rod is connected with the rotating seat, a second long groove is formed in the end portion of the cover opening rotating rod, and the second connecting pin penetrates through the second long groove.
Further, the electro-magnet includes the coil, and the coil has first pin and second pin, and the electro-magnet is inhaled mutually with ending between the pole when the current direction of coil is followed first pin to second pin, ends and open the pole and move up, and the pot cover is unable relative pot body and is rotated, and the electro-magnet still includes the magnetic core or does not set up the magnetic core, and when the electro-magnet included the magnetic core, the magnetic core was including wearing to establish the first core in the coil, and the magnetic core is made by the ferrite material.
Further, when the current direction of the coil is from the second pin to the first pin, the electromagnet and the opening stopping rod repel each other, the opening stopping rod descends, and the pot cover can rotate relative to the pot body.
Further, when the electromagnet comprises the magnetic core, the magnetic core further comprises a second core body arranged outside the coil, and the second core body is connected with the first core body.
Furthermore, the first core body is a first column body, the second core body is a second column body, and the magnetic core further comprises a connecting piece connected between the first core body and the second core body.
Further, the second core is parallel to the first core.
Further, the second core is plural, and the plural second cores are symmetrically disposed with respect to the first core.
Further, the magnetic core includes a plurality of magnetic chips arranged one on another.
Further, the electromagnet includes a coil having a first pin and a second pin, the cooking appliance further includes a control circuit for controlling a magnetic pole of the electromagnet, the control circuit including: a controller for generating a control signal; the selection circuit comprises a first control end and a second control end, the first control end is connected with the first pin, the second control end is connected with the second pin, the selection circuit is connected with the controller, and the selection circuit is used for selecting the current direction in the selection circuit from the first control end to the second control end or from the second control end to the first control end according to the control signal; when the current direction of the coil of the electromagnet is from the second control end to the first control end, the electromagnet and the opening stopping rod repel each other, the opening stopping rod descends, and the pot cover can rotate relative to the pot body.
Further, the control signal includes a first control signal and a second control signal, and the selection circuit includes: the first circuit comprises a third control end connected with the first control end and a fourth control end connected with the second control end, wherein the first circuit is connected with the controller and is conducted when receiving a first control signal, and the current direction from the third control end to the fourth control end is a first direction when the first circuit is conducted; and the second circuit comprises a fifth control end connected with the first control end and a sixth control end connected with the second control end, wherein the second circuit is connected with the controller and is conducted when receiving a second control signal, the current direction from the fifth control end to the sixth control end is a second direction when the second circuit is conducted, and the first direction is opposite to the second direction.
Further, the controller includes a seventh control end and an eighth control end, the seventh control end is connected to the first circuit, the eighth control end is connected to the second circuit, wherein the seventh control end is configured to output the first control signal, and the eighth control end is configured to output the second control signal.
Further, the first circuit comprises a first group of triodes, wherein the first group of triodes is turned on when the first control signal is at a first level and is turned off when the first control signal is at a second level; the second circuit comprises a second group of triodes, wherein the second group of triodes is switched on when the second control signal is at a third level and is switched off when the second control signal is at a fourth level.
Further, the control circuit further includes: and the protection circuit is connected with the seventh control end and the eighth control end and is connected with the first circuit and the second circuit, and the protection circuit is used for controlling one of the first group of triodes and the second group of triodes to be conducted when the seventh control end outputs the first level and the eighth control end outputs the third level.
Further, the first group of triodes includes: the emitter of the first triode is connected with a first power supply, and the collector of the first triode is connected with a first pin; the emitter of the second triode is connected with the second pin, and the collector of the second triode is grounded; and the collector electrode of the third triode is connected with the base electrode of the first triode and the base electrode of the second triode, the emitter electrode of the third triode is grounded, the base electrode of the third triode is connected with the seventh control end, and the first triode and the second triode have the same polarity and are opposite to the polarity of the third triode.
Further, the second group of triodes includes: an emitter of the fourth triode is connected with the second power supply, and a collector of the fourth triode is connected with the second pin; an emitter of the fifth triode is connected with the first pin, and a collector of the fifth triode is grounded; and the collector electrode of the sixth triode is connected with the base electrode of the fourth triode and the base electrode of the fifth triode, the emitting electrode of the sixth triode is grounded, the base electrode of the sixth triode is connected with the eighth control end, and the polarity of the fourth triode and the polarity of the fifth triode are the same and are opposite to the polarity of the sixth triode.
Further, the first triode is a PNP type triode, the fourth triode is an NPN type triode, and the control circuit further includes a protection circuit, wherein the protection circuit includes: the anode of the first diode is connected between the seventh control end and the base electrode of the third triode, and the cathode of the first diode is connected with the base electrode of the fifth triode; and the anode of the second diode is connected between the eighth control end and the base electrode of the sixth triode, and the cathode of the second diode is connected with the collector electrode of the third triode.
Further, the second group of triodes also includes: the seventh triode is connected between the base electrode of the sixth triode and the eighth control end, the collector electrode of the seventh triode is connected with the base electrode of the sixth triode, the emitter electrode of the seventh triode is connected with the +5V power supply and is grounded, and the base electrode of the seventh triode is connected with the eighth control end.
Further, the first triode is a PNP type triode, the fourth triode is an NPN type triode, and the control circuit further includes a protection circuit, wherein the protection circuit includes: the anode of the third diode is connected between the seventh control end and the base electrode of the third triode, and the cathode of the third diode is connected with the base electrode of the fifth triode; and the anode of the fourth diode is connected with the seventh control end, and the cathode of the fourth diode is connected between the base of the seventh triode and the eighth control end.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:
fig. 1 shows a schematic axial side view of a first embodiment of a cooking appliance according to the invention;
figure 2 shows a schematic view of the axial side structure of the lid of figure 1;
FIG. 3 shows an exploded view of the liner of FIG. 2;
FIG. 4 shows a schematic top view of the liner of FIG. 3 in a closed state;
FIG. 5 shows a schematic cross-sectional view in the direction A-A of the liner of FIG. 4;
FIG. 6 shows a schematic top view of the liner of FIG. 3 in an open state;
FIG. 7 shows a schematic B-B cross-sectional view of the liner of FIG. 6;
fig. 8 is a schematic structural view showing a coil of an electromagnet according to a first embodiment of the cooking appliance according to the present invention;
fig. 9 is a schematic view showing an assembly structure of a coil and a magnetic core of an electromagnet according to a first embodiment of the cooking appliance of the present invention;
FIG. 10 shows a schematic of the structure of the magnetic core of the electromagnet of FIG. 9;
fig. 11 shows a schematic structural view of a magnetic core of a second embodiment of a cooking appliance according to the present invention;
fig. 12 is a schematic structural view showing a magnetic core of a third embodiment of the cooking appliance according to the present invention;
fig. 13 shows a schematic diagram of an alternative control circuit of an embodiment of a cooking appliance according to the invention;
fig. 14 shows a schematic diagram of another alternative control circuit of an embodiment of a cooking appliance according to the invention.
Wherein the figures include the following reference numerals:
1. a pan body; 2. a pot cover; 3. a face cover; 4. a liner; 5. a locking ring; 6. an inner pot cover; 10. opening the cover piece; 11. a first elongated slot; 12. a rotating base; 13. uncovering the rotating rod; 21. stopping the rotating rod; 22. an electromagnet; 23. a first connecting pin; 24. an accommodation hole; 30. an opening stop lever; 40. a baffle plate; 110. a coil; 111. a first pin; 112. a second pin; 120. a magnetic core; 121. a first core; 122. a second core; 123. a connecting member; 220. a controller; 221. a seventh control end; 222. an eighth control end; d1, a third diode; d2, a fourth diode; d3, a first diode; d4, a second diode; q1, fourth triode; q2, the second triode; q3, the first triode; q4, the fifth triode; q5, sixth triode; q6, third triode; q7, seventh triode.
Detailed Description
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.
Fig. 1 shows a schematic axial side construction of an embodiment of a cooking appliance according to the invention; figure 2 shows a schematic view of the axial side structure of the lid of figure 1; fig. 3 shows an exploded view of the liner of fig. 2. As shown in fig. 1 to 3, the cooking appliance of the present embodiment includes a pot body 1 and a pot cover 2. Wherein, the pot body 1 is used for containing food to be cooked. The pot cover 2 covers the pot body 1, the pot cover 2 is internally provided with a rotatable cover opening part 10, a linkage part linked with the cover opening part 10, an opening stopping rod 30 capable of moving up and down and an electromagnet 22 matched with the opening stopping rod 30, and the cover opening part 10 rotates to enable pot teeth of the pot body 1 to be buckled with cover teeth of the pot cover 2 or pot teeth of the pot body 1 to be staggered with cover teeth of the pot cover 2. When the cover opening part 10 rotates, the linkage part is driven to move, at least part of the opening stopping rod 30 is a magnetic part, when the pressure in the pot body 1 is larger than a preset value or the electromagnet 22 is electrified, the opening stopping rod 30 is pushed to move upwards by the pressure or is attracted to move upwards by magnetic force, and the linkage part is limited by the opening stopping rod after being moved upwards, so that the cover opening part 10 stops rotating.
By applying the technical scheme of the embodiment, when the pressure in the pot body 1 is greater than the preset value or the electromagnet 22 is electrified, the opening stopping rod 30 moves upwards to limit the movement of the linkage part, at the moment, the linkage part is locked by the opening stopping rod 30 and cannot move, and then the opening cover part 10 cannot rotate, so that the pot cover 2 cannot rotate and cannot be opened. When the pressure in the pot body 1 is smaller than the preset value, the linkage piece and the opening stopping rod are arranged in a staggered mode, the opening stopping rod 30 cannot lock the linkage piece, the opening cover 10 can move freely at the moment, and the pot cover 2 can be opened.
As shown in fig. 3, the linkage member of the present embodiment includes an opening stopping lever 21, the middle portion of the opening stopping lever 21 is pivotally connected in the lid 2, the first end of the opening stopping lever 21 is driven by the lid opening member 10, and the second end of the opening stopping lever 21 is engaged with the opening stopping lever 30. The opening stopping rotating rod 21 is arranged in the middle of the pot cover 2, so that the switch of the cooking appliance can be arranged in the middle of the pot cover 2, and the pot cover is symmetrical and attractive.
The electromagnet 22 is provided at the second end of the rotation stop lever 21, the second end of the rotation stop lever 21 is provided with an accommodation hole 24 for accommodating the rotation stop lever 30, and the accommodation hole 24 is located below the electromagnet 22. When the linkage is in the engaged position, the receiving hole 24 is located above the opening stop rod 30, and the opening stop rod 30 is controlled to enter the receiving hole 24 by the electromagnet 22 or the pressure in the pot 1, thereby locking the opening cover 10.
Further, the linkage member further includes a blocking piece 40 disposed at the second end of the opening stop lever 21, the blocking piece 40 is located at one side of the second end of the opening stop lever 21, and when the linkage member is dislocated with the opening stop lever 30, the blocking piece 40 is located above the opening stop lever 30. When the linkage member is in the avoiding position, the blocking piece 40 is positioned above the stop lever 30 and abuts against the stop lever 30, and therefore the stop lever 30 does not extend into the accommodating hole 24 to limit the opening of the pot cover 2.
Fig. 4 shows a schematic top view of the liner of fig. 3 in a closed state. As shown in fig. 3 and 4, the opening and closing member 10 of the present embodiment is provided with a first long groove 11, and a first end of the opening/closing lever 21 is provided with a first connecting pin 23 inserted into the first long groove. The above structure allows the link member to rotate with the rotation of the opening member 10, thereby controlling the corresponding relationship between the receiving hole 24 and the stop lever 30 to move between the engagement position and the escape position. In other embodiments, the elongated slot and the connecting pin may be interchangeably disposed on the anti-rotation lever and the opening cover member.
Further, a second end of the open-stop lever 21 is provided with a mounting portion, the accommodating hole 24 is located at the bottom of the mounting portion, and an accommodating groove for accommodating the electromagnet 22 is arranged at the top of the mounting portion. The above structure facilitates the installation of the electromagnet 22 and also facilitates the processing.
As shown in fig. 1 to 3, the pot cover 2 includes a face cover 3, a lining 4, a locking ring 5 and an inner pot cover 6 which are sequentially arranged from top to bottom, the locking ring 5 can rotate relative to the lining 4, the cover teeth are arranged on the locking ring 5, the cover opening part 10, the linkage part and the electromagnet 22 are all arranged on the lining 4, and the opening stopping rod 30 is arranged on the inner pot cover 6 in a penetrating way. The above structure makes the stop lever 30 effectively control the locking and free of the lid 2.
Specifically, the lock ring 5 is provided with a second connecting pin, the lid opening member 10 includes a rotating base 12 pivotally connected to the liner 4 and a lid opening rotating rod 13 connected to the rotating base 12, an end of the lid opening rotating rod 13 is provided with a second long groove, and the second connecting pin is inserted into the second long groove. The structure realizes linkage between the cover opening rotating rod 13 and the locking ring 5, and the rotation of the locking ring 5 can be controlled by controlling the cover opening part 10, thereby controlling the opening and closing of the pot cover 2.
As shown in fig. 4 and 5, in the lid 2 of the present embodiment, the lid opening member 10 is rotated to the closed position in the closed state, and the lid opening rotary lever 13 is rotated to the upper left position. The first connecting pin 23 is located at the lower portion of the first elongated slot 11, and the link is rotated to a position where the receiving hole 24 corresponds to the open stop lever 30. The stop rod 30 can extend into the receiving hole 24 under the control of the electromagnet 22 or the pressure in the pot body 1, and has the function of limiting the rotation of the linkage part so as to lock the pot cover 2 from opening.
As shown in fig. 6 and 7, in the opened state of the pot lid 2 of the present embodiment, the lid opening member 10 is rotated to the opened position, and the lid opening rotary lever 13 is rotated to the lower left position. At this time, the first connecting pin 23 is positioned at the upper portion of the first long groove 11, and the link is rotated to a position where the receiving hole 24 is displaced from the open prevention lever 30. Further, the stop lever 30 cannot extend into the receiving hole 24 by the stopper 40, and the rotation of the link member is not restricted, and the lid 2 can be opened.
As for the specific structure of the electromagnet 22 of the present embodiment, fig. 8 shows a schematic structural view of the coil of the electromagnet of the first embodiment of the cooking appliance according to the present invention. As shown in fig. 8, the electromagnet 22 of the present embodiment includes a coil 110, the coil 110 has a first pin 111 and a second pin 112, when the current direction of the coil 110 is from the first pin 111 to the second pin 112, the electromagnet 22 and the opening stopping rod 30 attract each other, the opening stopping rod 30 moves upwards, the pot cover 2 cannot rotate relative to the pot body 1, the electromagnet 22 further includes a magnetic core 120, the magnetic core 120 includes a first core 121 penetrating through the coil 110, and the magnetic core 120 is made of ferrite. In the design and production of the actual cooking utensil, the electromagnet does not need to be provided with a magnetic core according to the limit of the power and the space structure of the actual electromagnet.
When the current direction in the coil 110 of the electromagnet is from the first pin 111 to the second pin 112, the electromagnet 22 and the opening stopping rod 30 are attracted to each other, the opening stopping rod 30 moves upwards, and the pot cover 2 cannot rotate relative to the pot body 1. The movement of the opening rod 30 is controlled by the magnetism of the electromagnet coil with current, so that the locking between the cooker cover 2 and the cooker body 1 is realized, a user can not open the cooker cover 2 when the cooker has potential safety hazards, and the use safety of the user is guaranteed.
When the current direction of the coil 110 is from the second pin 112 to the first pin 111, the electromagnet 22 and the opening stopping rod 30 repel each other, the opening stopping rod 30 descends, and the pot cover 2 can rotate relative to the pot body 1. The above structure enables the cooking appliance to attract or repel the magnetic open-stop rod 30 through the electromagnet 22 as required, thereby improving the control effect of the cooking appliance.
Fig. 9 is a schematic view showing an assembly structure of a coil and a magnetic core of an electromagnet according to a first embodiment of the cooking appliance of the present invention. As shown in fig. 9, in the present embodiment, the magnetic core 120 further includes a second core 122 disposed outside the coil 110, and the second core 122 is connected to the first core 121. The use of the second core 122 in combination with the first core 121 further enhances the magnetic effect of the electromagnet.
In order to further improve the magnetic effect of the magnetic core 120, in the embodiment, the first core 121 is a first column, the second core 122 is a second column, and the magnetic core 120 further includes a connecting member 123 connecting the first core 121 and the second core 122. The columnar magnetic core 120 is more easily magnetized and is easy to produce and install.
Further, the second core 122 is parallel to the first core 121. The second core 122 and the first core 121 which are parallel to each other make the directions of the magnetic forces parallel to each other, thereby maximizing the resultant force and improving the working efficiency of the electromagnet 22.
Specifically, in the present embodiment, the number of the second cores 122 is two, and the two second cores 122 are symmetrically disposed with respect to the first core 121. The magnetic cores arranged symmetrically enable the magnetic force generated by the magnetic cores to be uniform and the effect to be stable. However, the second core 122 is not limited to two for the magnetic core 120 applied in different structures. Those skilled in the art will appreciate that the electromagnet 22 may be provided with the second core 122 on one side of the first core 121 or without the first core 121 depending on the size of the structural space or the desired effect.
Fig. 10 shows a schematic view of the structure of the magnetic core of the electromagnet of fig. 9. As shown in fig. 10, the magnetic core 120 in the present embodiment includes a plurality of magnetic chips arranged in a stacked manner. A magnetic core made up of a plurality of stacked magnetic chips can reduce eddy currents in the magnetic core 120, with less losses due to eddy currents.
Fig. 11 shows a schematic structural diagram of a magnetic core of a second embodiment of the cooking appliance according to the present invention. As shown in fig. 11, the magnetic core 120 of the second embodiment is composed of a first core 121 and a second core 122, and the first core 121 is connected to the middle of the second core 122. The magnetic core 120 of the present embodiment can provide the same effects as those of the first embodiment.
Fig. 12 is a schematic structural diagram of a magnetic core of a third embodiment of the cooking appliance according to the present invention. As shown in fig. 12, the magnetic core 120 of the third embodiment is composed of a first core 121 and a second core 122, the second core 122 is located on one side of the first core 121 and is parallel to the first core 121, and the first core 121 and the second core 122 are connected by a connecting member 123. The magnetic core 120 of the present embodiment can provide the same effects as those of the first embodiment.
Fig. 13 is a schematic diagram of a control circuit of an alternative cooking appliance according to an embodiment of the present invention, and as shown in fig. 13, the control circuit of the cooking appliance of the present embodiment includes a controller 220 and a selection circuit, and the selection circuit includes a first control terminal and a second control terminal.
The controller 220 is used for generating a control signal, and the controller 220 may be a single chip microcomputer MCU. The selection circuit is connected to the controller 220, wherein a first control terminal of the selection circuit is connected to the first pin 111 of the coil of the electromagnet 22, and a second control terminal of the selection circuit is connected to the second pin 112 of the coil of the electromagnet 22. The selection circuit is used for selecting the current direction in the selection circuit from the first control end to the second control end or from the second control end to the first control end according to the control signal. When the current direction of the coil of the electromagnet 22 is from the first control end to the second control end, the electromagnet 22 and the opening stopping rod are attracted, the opening stopping rod moves upwards, and the pot cover cannot rotate relative to the pot body; when the current direction of the coil of the electromagnet 22 is from the second control end to the first control end, the electromagnet 22 and the opening stopping rod repel each other, the opening stopping rod descends, and the pot cover can rotate relative to the pot body.
By applying the technical scheme of the invention, the change of the magnetic poles of the electromagnet 22 is controlled by the change of the current directions of the first control end and the second control end which are connected with the coil of the electromagnet 22 in the selection circuit, so that the electromagnet 22 attracts or repels the opening stopping rod, the opening stopping rod can be controlled by the electromagnet 22, and the pot cover cannot rotate relative to the pot body. The structure utilizes the selection circuit to select the current direction of the first control end and the second control end so as to control the direction change of the force generated by the electromagnet 22, so that the structure of the control circuit is simple, and the problem that the structure of the control circuit of the cooking appliance in the prior art is complex is solved.
As shown in fig. 13, in the present embodiment, the selection circuit includes a first circuit and a second circuit. The control signal generated by the controller 220 includes a first control signal and a second control signal, the first circuit is connected to the controller 220 and is turned on when receiving the first control signal, and the second circuit is connected to the controller 220 and is turned on when receiving the second control signal. The first circuit comprises a third control end connected with the first control end and a fourth control end connected with the second control end, and the current direction from the third control end to the fourth control end is the first direction when the first circuit is conducted. The second circuit comprises a fifth control end connected with the first control end and a sixth control end connected with the second control end, and the current direction from the fifth control end to the sixth control end is the second direction when the second circuit is conducted. The first direction is opposite to the second direction, that is, the current direction of the first circuit when conducting is opposite to the current direction of the second circuit when conducting.
By arranging the first circuit and the second circuit in the selection circuit, which have different current directions, the first circuit is conducted when receiving the first control signal, and the second circuit is conducted when receiving the second control signal, so that the current directions in the coil of the electromagnet 22 are different, the electromagnet 22 generates forces in different directions, and the circuit structure is simplified.
As shown in fig. 13, in the present embodiment, the controller 220 includes a seventh control terminal 221 and an eighth control terminal 222, the seventh control terminal 221 of the controller 220 is connected to the first circuit, and the eighth control terminal 222 of the controller 220 is connected to the second circuit, wherein the seventh control terminal 221 is configured to output a first control signal generated by the controller 220, and the eighth control terminal 222 is configured to output a second control signal generated by the controller 220.
As shown in fig. 13, in the present embodiment, the first circuit includes a first group of transistors, wherein the first group of transistors is turned on when the first control signal is at the first level and is turned off when the first control signal is at the second level; the second circuit comprises a second group of triodes, wherein the second group of triodes is switched on when the second control signal is at a third level and is switched off when the second control signal is at a fourth level.
Specifically, as shown in fig. 13, in the present embodiment, the first group of transistors in the first circuit includes a first transistor Q3, a second transistor Q2, and a third transistor Q6. The emitter of the first transistor Q3 is connected to a first power supply, which may be an external power supply VCC, and the collector of the first transistor Q3 is connected to the first pin 111 of the coil of the electromagnet 22; the emitter of the second transistor Q2 is connected to the second pin 112 of the coil of the electromagnet 22, and the collector of the second transistor Q2 is grounded; the collector of the third transistor Q6 is connected to the base of the first transistor Q3 and the base of the second transistor Q2, the emitter of the third transistor Q6 is grounded, and the base of the third transistor Q6 is connected to the seventh control terminal 221, wherein the first transistor Q3 and the second transistor Q2 have the same polarity and the opposite polarity to the third transistor Q6.
Specifically, as shown in fig. 13, in the present embodiment, the second group of transistors in the second circuit includes a fourth transistor Q1, a fifth transistor Q4, a sixth transistor Q5, and a seventh transistor Q7. The emitter of the fourth transistor Q1 is connected to a second power supply, which may be an external power supply VCC, and the collector of the fourth transistor Q1 is connected to the second pin 112 of the coil of the electromagnet 22; the emitter of the fifth triode Q4 is connected to the first pin 111 of the coil of the electromagnet 22, and the collector of the fifth triode Q4 is grounded; a collector of the sixth triode Q5 is connected with a base of the fourth triode Q1 and a base of the fifth triode Q4, an emitter of the sixth triode Q5 is grounded, and a base of the sixth triode Q5 is connected with a collector of the seventh triode Q7; an emitter of the seventh transistor Q7 is connected to the +5V power supply and to ground, and a base of the seventh transistor Q7 is connected to the eighth control terminal 222, wherein the polarity of the fourth transistor Q1 is the same as that of the fifth transistor Q4, and the polarity of the fourth transistor Q1 is opposite to that of the sixth transistor Q5 and the seventh transistor Q7.
In this embodiment, the control circuit further includes a protection circuit. The protection circuit is connected to the seventh control terminal 221 and the eighth control terminal 222, and is connected to the first circuit and the second circuit, and the protection circuit is configured to control one of the first group of transistors and the second group of transistors to be turned on when the seventh control terminal 221 outputs the first level and the eighth control terminal 222 outputs the third level.
Specifically, as shown in fig. 13, in the present embodiment, the first transistor Q3 is a PNP transistor, the fourth transistor Q1 is an NPN transistor, and the protection circuit includes a third diode D1 and a fourth diode D2. The anode of the third diode D1 is connected between the seventh control terminal 221 and the base of the third transistor Q6, and the cathode of the third diode D1 is connected to the base of the fifth transistor Q4; the anode of the fourth diode D2 is connected to the seventh control terminal 221, and the cathode of the fourth diode D2 is connected between the base of the seventh transistor Q7 and the eighth control terminal 222.
The third diode D1 and the fourth diode D2 in the protection circuit play a role in protection, and when the output voltage of the control port of the controller 220 malfunctions or is subjected to conditions such as external interference, the third diode D1 and the fourth diode D2 can ensure that components such as a triode and the like are not burned out.
In addition, as shown in fig. 13, the first circuit further includes a resistor R2, a resistor R4, and a resistor R5. A first terminal of the resistor R2 is connected to the base of the first transistor Q3, a second terminal of the resistor R2 is connected to the base of the second transistor Q2, the resistor R4 and the resistor R5 are connected in series between the base of the third transistor Q6 and the seventh control terminal 221, and optionally, the anode of the third diode D1 is connected between the resistor R4 and the resistor R5. Optionally, the resistance of the resistor R2 is 3K Ω, and the resistances of the resistor R4 and the resistor R5 are both 1K Ω.
In addition, as shown in fig. 13, the second circuit further includes a resistor R1, a resistor R3, a resistor R6, a resistor R7, and a resistor R8. The resistor R1 is connected in series between the base of the fourth transistor Q1 and the collector of the sixth transistor Q5, the resistor R3 is connected in series between the base of the sixth transistor Q5 and the collector of the seventh transistor Q7, the resistor R6 is connected in series between the +5V power supply and the emitter of the seventh transistor Q7, the resistor R7 is connected in series between the emitter of the seventh transistor Q7 and ground, the resistor R8 is connected in series between the base of the seventh transistor Q7 and the eighth control terminal 222, and optionally, the positive electrode of the fourth diode D2 is connected between the resistor R8 and the base of the seventh transistor Q7. Alternatively, the resistance values of the resistor R1 and the resistor R3 are 3K Ω, the resistance value of the resistor R6 is 1K Ω, and the resistance values of the resistor R7 and the resistor R8 are 2K Ω.
The resistors R1 to R8 shown in FIG. 13 play a role in limiting current, protect the control end of the MCU and the triodes in the circuit from being damaged due to too large current, and the resistors R1 to R8 can be partially or completely removed.
The operation of the control circuit of the embodiment shown in fig. 13 is explained as follows:
the first transistor Q3, the second transistor Q2, the third transistor Q6, the fourth transistor Q1, the fifth transistor Q4, the sixth transistor Q5 and the seventh transistor Q7 are transistors for controlling the electromagnet 22 to be turned on and off, the resistor R4, the resistor R5 and the resistor R8 are driving resistors, and the seventh control terminal 221 and the eighth control terminal 222 are control ports of the controller 220 (a single-chip MCU).
The output levels of the seventh control terminal 221 and the eighth control terminal 222 are divided into the following cases:
(1) when the seventh control terminal 221 of the MCU outputs a high level, the first transistor Q3, the second transistor Q2, and the third transistor Q6 are turned on, the fourth transistor Q1, the fifth transistor Q4, the sixth transistor Q5, and the seventh transistor Q7 are turned off, and the current of the electromagnet 22 flows from the right end to the left end, generating magnetism to attract or push a magnetic object.
(2) When the seventh control terminal 221 of the MCU outputs a low level and the eighth control terminal 222 outputs a low level, the first transistor Q3, the second transistor Q2, and the third transistor Q6 are turned off, the fourth transistor Q1, the fifth transistor Q4, the sixth transistor Q5, and the seventh transistor Q7 are turned on, and the electromagnet 22 passes a current from the left end to the right end to generate a magnetic force opposite to that when the seventh control terminal 221 of the MCU outputs a high level, so as to generate a force to push or attract the magnetic object opposite to that when the seventh control terminal 221 of the MCU outputs a high level.
(3) When the seventh control terminal 221 of the MCU outputs a low level and the eighth control terminal 222 outputs a high level, the first transistor Q3, the second transistor Q2, the third transistor Q6, the fourth transistor Q1, the fifth transistor Q4, the sixth transistor Q5 and the seventh transistor Q7 are all turned off, no current flows through the electromagnet 22, and the electromagnet 22 does not operate.
The control circuit of the embodiment has a simple structure and good logic effect, and when the output voltage of the control port of the controller 220 is in misoperation or is subjected to conditions such as external interference, parts such as a triode in the circuit cannot be burnt out.
Fig. 14 is a schematic diagram of a control circuit of another alternative cooking appliance according to an embodiment of the present invention, and the control circuit of the embodiment shown in fig. 14 differs from the control circuit of the embodiment shown in fig. 13 in that:
as shown in fig. 14, the structure of the second circuit in this embodiment is different from that of the second circuit in the embodiment shown in fig. 13, and specifically, the second group of diodes in the second circuit in this embodiment includes a fourth transistor Q1, a fifth transistor Q4 and a sixth transistor Q5. The emitter of the fourth transistor Q1 is connected to a second power supply, which may be an external power supply VCC, and the collector of the fourth transistor Q1 is connected to the second pin 112 of the coil of the electromagnet 22; the emitter of the fifth triode Q4 is connected to the first pin 111 of the coil of the electromagnet 22, and the collector of the fifth triode Q4 is grounded; the collector of the sixth transistor Q5 is connected to the base of the fourth transistor Q1 and the base of the fifth transistor Q4, the emitter of the sixth transistor Q5 is grounded, and the base of the sixth transistor Q5 is connected to the eighth control terminal 222.
Further, as shown in fig. 14, in the present embodiment, the second circuit includes a resistor R1, a resistor R9, and a resistor R10. The resistor R1 is connected in series between the base of the fourth transistor Q1 and the collector of the sixth transistor Q5, and the resistor R9 and the resistor R10 are connected in series between the base of the sixth transistor Q5 and the eighth control terminal 222. The resistance values of the resistor R9 and the resistor R10 are 1K omega.
The resistor R1, the resistor R2, the resistor R4, the resistor R5, the resistor R9 and the resistor R10 shown in the figure 14 play a role in limiting current, a control end of the MCU and a triode in a circuit are protected from being damaged due to too large current, and part or all of the resistors shown in the figure 14 can be removed.
As shown in fig. 14, in the present embodiment, the structure of the protection circuit is different from that of the embodiment shown in fig. 13, and specifically, the protection circuit in the present embodiment includes a first diode D3 and a second diode D4. The anode of the first diode D3 is connected between the seventh control terminal 221 and the base of the third transistor Q6, and the cathode of the first diode D3 is connected to the base of the fifth transistor Q4; the anode of the second diode D4 is connected between the eighth control terminal 222 and the base of the sixth transistor Q5, and the cathode of the second diode D4 is connected to the collector of the third transistor Q6.
The first diode D3 and the second diode D4 in the protection circuit play a role in protection, and when the output voltage of the control port of the controller 220 malfunctions or is subjected to conditions such as external interference, the first diode D3 and the second diode D4 can ensure that parts such as triodes are not burned out. Optionally, the anode of the first diode D3 is connected between the resistor R4 and the resistor R5.
The operation of the control circuit of the embodiment shown in fig. 14 is explained as follows:
the first transistor Q3, the second transistor Q2, the third transistor Q6, the fourth transistor Q1, the fifth transistor Q4 and the sixth transistor Q5 are transistors for controlling the electromagnet 22 to be turned on and off, the resistor R4, the resistor R5, the resistor R9 and the resistor R10 are driving resistors, and the seventh control terminal 221 and the eighth control terminal 222 are control ports of the controller 220 (a single-chip MCU).
The output levels of the seventh control terminal 221 and the eighth control terminal 222 are divided into the following cases:
(1) when the seventh control terminal 221 of the MCU outputs a high level and the eighth control terminal 222 outputs a low level, the first transistor Q3, the second transistor Q2 and the third transistor Q6 are turned on, the fourth transistor Q1, the fifth transistor Q4 and the sixth transistor Q5 are turned off, and the current of the electromagnet 22 flows from the right end to the left end, thereby generating magnetism to attract or push a magnetic object.
(2) When the seventh control terminal 221 of the MCU outputs a low level and the eighth control terminal 222 outputs a high level, the first transistor Q3, the second transistor Q2 and the third transistor Q6 are turned off, the fourth transistor Q1, the fifth transistor Q4 and the sixth transistor Q5 are turned on, and the current of the electromagnet 22 flows from the left end to the right end, so as to generate magnetism opposite to the case (1), and generate a force opposite to the case (1) on the magnetic object to push or attract the magnetic object.
(3) When the seventh control terminal 221 of the MCU outputs a low level and the eighth control terminal 222 outputs a low level, the first transistor Q3, the second transistor Q2, the third transistor Q6, the fourth transistor Q1, the fifth transistor Q4 and the sixth transistor Q5 are all turned off, no current flows through the electromagnet 22, and the electromagnet 22 does not operate.
From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:
when the pressure in the cooker body is larger than a preset value or the electromagnet is electrified, the opening stopping rod moves upwards to limit the movement of the linkage piece, the linkage piece is locked by the opening stopping rod and cannot move, the cover opening piece cannot rotate, and the cooker cover cannot rotate and cannot be opened. When the pressure in the cooker body is smaller than the preset value, the linkage piece and the opening stopping rod are arranged in a staggered mode, the opening stopping rod cannot lock the linkage piece, the opening cover piece can move freely at the moment, and the cooker cover can be opened.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (25)
1. A cooking appliance, comprising:
the pot body (1) is used for containing food to be cooked;
the pot cover (2) is covered on the pot body (1), a rotatable opening cover piece (10), a linkage piece linked with the opening cover piece (10), an opening stopping rod (30) capable of moving up and down and an electromagnet (22) matched with the opening stopping rod (30) are arranged in the pot cover (2), and the opening cover piece (10) rotates to enable pot teeth of the pot body (1) to be buckled with cover teeth of the pot cover (2) or pot teeth of the pot body (1) to be staggered with cover teeth of the pot cover (2);
the pot is characterized in that the opening cover part (10) drives the linkage part to move when rotating, at least part of the opening stopping rod (30) is a magnetic part, when the pressure in the pot body (1) is larger than a preset value or the electromagnet (22) is electrified, the opening stopping rod (30) is pushed by the pressure to move upwards or is attracted by magnetic force to move upwards, the linkage part is limited by the opening stopping rod (30) after moving upwards so as to stop the opening cover part (10), and the linkage part comprises an opening stopping rotating rod (21).
2. Cooking appliance according to claim 1, characterized in that the middle of the anti-rotation lever (21) is pivotally connected inside the pot lid (2), a first end of the anti-rotation lever (21) is driven by the opening lid (10), and a second end of the anti-rotation lever (21) is engaged with the anti-rotation lever (30).
3. The cooking appliance according to claim 2, wherein the electromagnet (22) is arranged at a second end of the anti-rotation bar (21), the second end of the anti-rotation bar (21) being provided with a receiving hole (24) for receiving the anti-rotation bar (30), the receiving hole (24) being located below the electromagnet (22).
4. The cooking appliance according to claim 2, wherein the linkage further comprises a stopper (40) disposed at the second end of the anti-rotation bar (21), the stopper (40) being located at a side of the second end of the anti-rotation bar (21), the stopper (40) being located above the anti-rotation bar (30) when the electromagnet (22) is misaligned with the anti-rotation bar (30).
5. The cooking appliance according to claim 2, wherein one of the opening cover member (10) and the first end of the rotation stop lever (21) is provided with a first elongated slot (11), and the other is provided with a first connecting pin (23) inserted into the first elongated slot (11).
6. The cooking appliance according to claim 3, wherein the second end of the rotation stop lever (21) is provided with a mounting portion, the receiving hole (24) is located at the bottom of the mounting portion, and the top of the mounting portion is provided with a receiving groove for receiving the electromagnet (22).
7. The cooking utensil of claim 1, wherein the pot cover (2) comprises a face cover (3), an inner lining (4), a locking ring (5) and an inner pot cover (6) which are sequentially arranged from top to bottom, the locking ring (5) can rotate relative to the inner lining (4), the cover teeth are arranged on the locking ring (5), the opening cover part (10), the linkage part and the electromagnet (22) are arranged on the inner lining (4), and the opening stopping rod (30) is arranged on the inner pot cover (6) in a penetrating manner.
8. The cooking utensil according to claim 7, characterized in that the locking ring (5) is provided with a second connecting pin, the lid opening component (10) comprises a rotating base (12) pivotally connected to the lining (4) and a lid opening rotating rod (13) connected with the rotating base (12), the end of the lid opening rotating rod (13) is provided with a second long groove, and the second connecting pin is arranged in the second long groove in a penetrating manner.
9. The cooking appliance of claim 1,
the electromagnet (22) comprises a coil (110), the coil (110) is provided with a first pin (111) and a second pin (112), when the current direction of the coil (110) is from the first pin (111) to the second pin (112), the electromagnet (22) and the opening stopping rod (30) attract each other, the opening stopping rod (30) moves upwards, the pot cover (2) cannot rotate relative to the pot body (1),
the electromagnet (22) further comprises a magnetic core (120) or is not provided with the magnetic core, when the electromagnet (22) comprises the magnetic core (120), the magnetic core (120) comprises a first core body (121) arranged in the coil (110) in a penetrating mode, and the magnetic core (120) is made of ferrite materials.
10. Cooking appliance according to claim 9, characterized in that when the direction of the current of the coil (110) goes from the second leg (112) to the first leg (111) the electromagnet (22) and the stop lever (30) repel each other, the stop lever (30) descends and the lid (2) can rotate with respect to the pan (1).
11. The cooking appliance according to claim 9, wherein when the electromagnet (22) comprises the magnetic core (120), the magnetic core (120) further comprises a second core (122) disposed outside the coil (110), the second core (122) being connected to the first core (121).
12. The cooking appliance according to claim 11, wherein the first core (121) is a first cylinder and the second core (122) is a second cylinder, the magnetic core (120) further comprising a connector (123) connecting the first core (121) and the second core (122).
13. The cooking appliance according to claim 11, wherein the second core (122) is parallel to the first core (121).
14. The cooking appliance according to claim 11, wherein the second core (122) is plural, and the plural second cores (122) are symmetrically disposed with respect to the first core (121).
15. The cooking appliance according to claim 11, wherein the magnetic core (120) comprises a plurality of magnetic core pieces arranged one above the other.
16. The cooking appliance of claim 1,
the electromagnet (22) comprising a coil (110), the coil (110) having a first leg (111) and a second leg (112),
the cooking appliance further comprises a control circuit for controlling the poles of the electromagnet (22), the control circuit comprising:
a controller (220) for generating a control signal;
the selection circuit comprises a first control end and a second control end, the first control end is connected with the first pin (111), the second control end is connected with the second pin (112), the selection circuit is connected with the controller (220), and the selection circuit is used for selecting the current direction in the selection circuit from the first control end to the second control end or from the second control end to the first control end according to the control signal;
when the current direction of the coil (110) of the electromagnet (22) is from the first control end to the second control end, the electromagnet (22) and the opening stopping rod (30) attract each other, the opening stopping rod (30) moves upwards, the pot cover (2) cannot rotate relative to the pot body (1), when the current direction of the coil (110) of the electromagnet (22) is from the second control end to the first control end, the electromagnet (22) and the opening stopping rod (30) repel each other, the opening stopping rod (30) descends, and the pot cover (2) can rotate relative to the pot body (1).
17. The cooking appliance of claim 16, wherein the control signal comprises a first control signal and a second control signal, the selection circuit comprising:
the first circuit comprises a third control end connected with the first control end and a fourth control end connected with the second control end, wherein the first circuit is connected with the controller (220) and is conducted when receiving the first control signal, and the current direction from the third control end to the fourth control end is a first direction when the first circuit is conducted;
and the second circuit comprises a fifth control end connected with the first control end and a sixth control end connected with the second control end, wherein the second circuit is connected with the controller (220) and is conducted when the second control signal is received, and the current direction from the fifth control end to the sixth control end is a second direction when the second circuit is conducted, wherein the first direction is opposite to the second direction.
18. The cooking appliance according to claim 17, wherein the controller (220) comprises a seventh control terminal (221) and an eighth control terminal (222), the seventh control terminal (221) is connected to the first circuit, the eighth control terminal (222) is connected to the second circuit, wherein the seventh control terminal (221) is configured to output the first control signal, and the eighth control terminal (222) is configured to output the second control signal.
19. The cooking appliance of claim 18,
the first circuit comprises a first group of triodes, wherein the first group of triodes is switched on when the first control signal is at a first level and is switched off when the first control signal is at a second level;
the second circuit comprises a second group of triodes, wherein the second group of triodes is turned on when the second control signal is at a third level and is turned off when the second control signal is at a fourth level.
20. The cooking appliance of claim 19, wherein the control circuit further comprises:
and the protection circuit is connected with the seventh control end (221) and the eighth control end (222) and is connected with the first circuit and the second circuit, and the protection circuit is used for controlling one of the first group of triodes and the second group of triodes to be conducted when the seventh control end (221) outputs the first level and the eighth control end (222) outputs the third level.
21. The cooking appliance of claim 19, wherein the first set of transistors comprises:
a first triode (Q3), wherein the emitter of the first triode (Q3) is connected with a first power supply, and the collector of the first triode (Q3) is connected with the first pin (111);
a second triode (Q2), wherein the emitter of the second triode (Q2) is connected with the second pin (112), and the collector of the second triode (Q2) is grounded;
a third transistor (Q6), a collector of the third transistor (Q6) being connected to the base of the first transistor (Q3) and the base of the second transistor (Q2), an emitter of the third transistor (Q6) being grounded, a base of the third transistor (Q6) being connected to the seventh control terminal (221), wherein the first transistor (Q3) and the second transistor (Q2) have the same polarity and are opposite to the polarity of the third transistor (Q6).
22. The cooking appliance of claim 21, wherein the second set of transistors comprises:
a fourth triode (Q1), wherein the emitter of the fourth triode (Q1) is connected with a second power supply, and the collector of the fourth triode (Q1) is connected with the second pin (112);
a fifth triode (Q4), wherein the emitter of the fifth triode (Q4) is connected with the first pin (111), and the collector of the fifth triode (Q4) is grounded;
a sixth transistor (Q5), a collector of the sixth transistor (Q5) is connected to the base of the fourth transistor (Q1) and the base of the fifth transistor (Q4), an emitter of the sixth transistor (Q5) is grounded, and a base of the sixth transistor (Q5) is connected to the eighth control terminal (222), wherein the polarity of the fourth transistor (Q1) and the polarity of the fifth transistor (Q4) are the same and opposite to the polarity of the sixth transistor (Q5).
23. The cooking appliance of claim 22, wherein the first transistor (Q3) is a PNP transistor and the fourth transistor (Q1) is an NPN transistor, the control circuit further comprising a protection circuit, wherein the protection circuit comprises:
a first diode, the anode of which is connected between the seventh control terminal (221) and the base of the third triode (Q6), and the cathode of which is connected with the base of the fifth triode (Q4);
a second diode having an anode connected between the eighth control terminal (222) and the base of the sixth transistor (Q5), and a cathode connected to the collector of the third transistor (Q6).
24. The cooking appliance of claim 22, wherein the second set of transistors further comprises:
a seventh transistor (Q7), wherein the seventh transistor (Q7) is connected between the base of the sixth transistor (Q5) and the eighth control terminal (222), the collector of the seventh transistor (Q7) is connected to the base of the sixth transistor (Q5), the emitter of the seventh transistor (Q7) is connected to the +5V power supply and to ground, the base of the seventh transistor (Q7) is connected to the eighth control terminal (222), and the seventh transistor (Q7) and the fourth transistor (Q1) have the same polarity.
25. The cooking appliance of claim 24, wherein the first transistor (Q3) is a PNP transistor and the fourth transistor (Q1) is an NPN transistor, the control circuit further comprising a protection circuit, wherein the protection circuit comprises:
a third diode, an anode of the third diode is connected between a seventh control terminal (221) and a base of a third triode (Q6), and a cathode of the third diode is connected with a base of the fifth triode (Q4);
and the anode of the fourth diode is connected with the seventh control end (221), and the cathode of the fourth diode is connected between the base of the seventh triode (Q7) and the eighth control end (222).
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CN111110019B (en) * | 2018-10-31 | 2022-02-01 | 浙江苏泊尔家电制造有限公司 | Cooking appliance and control method thereof |
CN111759163B (en) * | 2020-07-07 | 2021-09-17 | 上海安美金属制品有限公司 | Pressure cooker capable of automatically turning food |
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