CN214128092U - Steam rice cooker convenient to steam culinary art container is fixed a position fast - Google Patents

Abstract

The utility model discloses a steam rice cooker convenient to steam culinary art container is fixed a position fast belongs to food processing technology field, and the steam culinary art container of aim at overcoming current steam rice cooker puts the defect of turning over easily. The steam rice cooker comprises a frame body and a container, wherein the frame body comprises a bearing part, a middle groove is formed in the bottom of the container, the bearing part is embedded into the middle groove, an interference structure is arranged at one end part of the middle groove in the bottom of the container, and the interference structure is staggered with the bearing part. When the container is reversely mounted on the bearing part in a horizontal rotation 180-degree direction, the interference structure can conflict with the bearing part to interfere, so that the bearing part can not be embedded into the middle groove, the reverse container mounting of a user can be avoided, the situation that the user cannot realize reverse container mounting is avoided, the operation steps of the user for replacing the container are reduced, the container and the bearing part can be rapidly positioned, and the user experience is improved.

Description

Steam rice cooker convenient to steam culinary art container is fixed a position fast

Technical Field

The utility model belongs to the technical field of food processing, a steam rice cooker convenient to steam cooking container quick positioning is related to.

Background

The existing steam rice cooker comprises a frame body and a steam cooking container, wherein the frame body is provided with a bearing part, a positioning groove is formed in the bearing part, supporting legs are arranged at two ends of the bottom of the steam cooking container, a middle groove is formed between the supporting legs at two ends, the bearing part is embedded into the middle groove, a top wall of the middle groove is provided with a positioning convex part protruding downwards, the positioning convex part and the positioning groove are matched to enable the steam cooking container to be arranged in the frame body in a unique direction, the steam cooking container is symmetrical integrally, a user can easily arrange the steam cooking container in the frame body in a reverse mode, and the positioning groove and the positioning convex part can not be matched with each other, so that the user needs to replace the steam cooking container, and the use is troublesome.

Disclosure of Invention

The utility model discloses the problem to prior art existence provides a steam rice cooker convenient to steam cooking container fixes a position fast, and the steam cooking container of aim at overcoming current steam rice cooker puts the defect of turning over easily.

The utility model discloses a realize like this:

the utility model provides a steam rice cooker convenient to steam cooking container is fixed a position fast, includes framework and container, the framework includes the bearing part, the bottom of container sets up middle groove, the embedding of bearing part middle groove, the bottom of container sets up at a tip of middle groove and interferes the structure, it staggers to interfere the structure bearing part. When the container is reversely mounted on the bearing part in a horizontal rotation 180-degree direction, the interference structure can conflict with the bearing part to interfere, so that the bearing part can not be embedded into the middle groove, the reverse container mounting of a user can be avoided, the situation that the user cannot realize reverse container mounting is avoided, the operation steps of the user for replacing the container are reduced, the container and the bearing part can be rapidly positioned, and the user experience is improved.

Preferably, the interference structure includes a throat portion, the intermediate groove includes a fitting section and a throat section corresponding to the throat portion, a width of the throat section is smaller than a width of the bearing portion, and the bearing portion is embedded in the fitting section. Therefore, the bearing part can not be embedded into the necking section, and can interfere with the necking part when the container is reversely loaded, so that the reverse loading effect is realized.

Preferably, the width of the fitting section gradually increases from an end close to the constricted section to an end far from the constricted section. This facilitates a quick assembly of the mating section from the front end of the carrier part onto the carrier part.

Preferably, the interference structure comprises a blocking portion spanning the intermediate slot. The blocking part can block the bearing part from being embedded into the middle groove at the corresponding position, and the effect of placing the container for counter loading is achieved.

Preferably, the blocking portion is a blocking strip or a blocking plate. The two realization forms of the blocking part are provided, particularly when the blocking part is a blocking plate, a user can easily identify which end of the container has the interference structure, the situation that the user finds the position of the interference structure after trying to install the container is avoided, and the efficiency of placing the container is improved.

Preferably, the bottom of the container is provided with a water collecting cavity, and the water collecting cavity extends to the interference structure. This can increase the capacity of the water receiving chamber.

Preferably, a positioning convex part is arranged on the top wall of the middle groove, the positioning convex part comprises an annular convex part and an extending convex part connected to the local position of the annular convex part, a positioning groove is arranged on the bearing part, and the shape of the positioning groove is matched with that of the positioning convex part. The cooperation of the positioning convex part and the positioning convex groove can prevent the container from rotating relative to the frame body, and the stability of the cooperation of the container and the frame body is improved.

Preferably, a switch member and a trigger member for controlling the switch member to be switched on or off are arranged on the bearing portion, an elastic member is arranged between the trigger member and the bearing portion, when the container is placed on the bearing portion, the upper end of the trigger member penetrates out of the bearing portion upwards and abuts against the container, the switch member is switched on, and when the container is separated from the bearing portion, the elastic member drives the trigger member to move upwards, and the switch member is switched off. The switch part is used for controlling the connection and disconnection of the power supply of the frame body, can be in a power-off state when no corresponding container is arranged on the frame body, improves the safety of the steam rice cooker, and automatically connects the power supply when the container is placed on the frame body, so that the frame body can automatically enter a standby state, and the convenience of operation is improved.

Preferably, the upper end of the trigger abuts against the extending protrusion. The extension convex part forms a larger convex plane, can more reliably abut against the trigger piece, fully presses down the trigger piece, and ensures the switch-on of the switch piece.

Preferably, the frame body includes the supporting part that is formed by bearing part upwards extension and the top that extends to the container top by the supporting part, the top gets the space with bearing part formation open container, the container includes that vessel and lid establish lid on the vessel, have the steam input port on the lid, the supporting part or be equipped with in the top and lead to steam generator in the container, steam generator's steam outlet with the butt joint of steam input port. The liquid water forms steam after passing through the steam generator, and the steam enters the container through the steam input port so as to perform steam cooking on food in the container.

The utility model provides a steam rice cooker convenient to quick location of steam cooking container, when the container with 180 square of horizontal rotation anti-dress to the supporting part, interference structure will take place to contradict with the supporting part and interfere for during the supporting part can't be embedded into the intervalve groove, can avoid the anti-container of user dress, avoid the user to be conscious not the anti-condition emergence of container dress, reduce the operating procedure that the user placed the container again, make container and supporting part can fix a position fast, improve user experience.

Drawings

FIG. 1 is a schematic sectional view of a steam rice cooker;

FIG. 2 is a schematic view of the structure of the container;

FIG. 3 is a schematic cross-sectional view of the container;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a schematic view of the top and container mating arrangement;

FIG. 6 is a schematic view of the container with the handle in the upper limit position;

FIG. 7 is an enlarged view of detail B of FIG. 6;

FIG. 8 is a schematic view of an exploded structure of the container;

FIG. 9 is an enlarged view of detail C of FIG. 3;

FIG. 10 is a schematic cross-sectional view of a vessel having a pressurized channel;

FIG. 11 is an enlarged view of detail D of FIG. 10;

FIG. 12 is a schematic bottom view of the container;

FIG. 13 is an enlarged view of portion E of FIG. 1;

fig. 14 is a schematic structural view of a shelf.

Reference is made to the accompanying drawings in which: 100. a frame body; 110. a bearing part; 111. a switch member; 112. a trigger; 113. an elastic member; 120. a support portion; 130. a top portion; 131. a steam outlet; 132. an operation position; 200. a container body; 210. a locking portion; 220. an upper chamber; 230. a lower chamber; 240. a base; 250. steaming a drawer; 260. a water collecting cavity; 270. an intermediate tank; 271. a positioning projection; 273. an extending projection; 274. a necking part; 275. a mating segment; 276. a necking section; 277. a concave cavity; 300. a cover body; 310. a steam input port; 320. a steam joint; 321. a bevel; 322. a first magnetic attraction member; 330. sinking a platform; 340. air holes are formed; 350. a handle; 351. a locking groove; 352. an intrados surface; 353. an abutting surface; 360. a pressurizing passage; 370. a seal member; 371. an insertion section; 372. folding edges; 400. a rack; 410. steaming holes; 420. a steam port; 430. flanging; 440. an upper steaming rack; 450. a lower steaming rack; 460. a hand-held port; 500. a steam conduit; 510. a limiting part.

Detailed Description

The following detailed description is made of specific embodiments of the present invention with reference to the accompanying drawings, so as to make the technical solution of the present invention easier to understand and master. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The present embodiment provides a steam rice cooker, as shown in fig. 1, including a frame 100 and a container. The container comprises a container body 200 and a cover body 300 covering the container body 200, wherein the cover body 300 is provided with a steam input port 310. The frame body 100 comprises a bearing part 110, a supporting part 120 formed by upwards extending the bearing part 110, and a top part 130 extending from the supporting part 120 to the upper part of a container, wherein the top part 130 and the bearing part 110 form an open container taking and placing space, the container is placed on the bearing part 110, a steam generator for leading steam into the container is arranged in the supporting part 120 or the top part 130, a steam outlet 131 of the steam generator is in butt joint with a steam input port 310 of the container, a water tank is further arranged to be connected with the steam generator, and water for cooking is stored in the water tank. The water in the water tank is pumped into the steam generator, the steam generator heats the water to form steam, and the steam enters the container body 200 through the steam outlet 131 and the steam input port 310 to steam-cook the food in the container body 200.

As shown in fig. 2-3, the cover 300 has a steam connector 320 protruding upward, the steam connector 320 is provided with a steam input port 310, and the steam outlet 131 is located on the top 130 and abuts against the steam input port 310 of the steam connector 320. The outer diameter of the steam joint 320 is gradually reduced from bottom to top.

When a user uses the container, the user can easily open the cover 300 by grasping the steam connector 320 with hands, steam enters the container through the steam input port 310 of the steam connector 320 during cooking, and immediately after the cooking is finished, the steam connector 320 is at a high temperature, so that the user can easily scald the user's hands by touching the steam connector 320 for a long time.

The outer diameter of the steam joint 320 is gradually reduced from bottom to top, when fingers grab the side wall of the steam joint 320, the clamping force of the fingers on the steam joint 320 can be divided into a first component force perpendicular to the side wall of the steam joint 320 and a second component force parallel to the side wall of the steam joint 320, when the first component force is larger than the maximum static friction force between the fingers and the side wall of the steam joint 320, the fingers can slide upwards along the side wall of the steam joint 320 and finally break away from the steam joint 320, the outer diameter of the steam joint 320 is gradually reduced from bottom to top, so that the fingers are not easy to grab the steam joint 320, a user is prevented from opening the cover body 300 by grabbing the steam joint 320, the phenomenon that the user contacts the steam joint 320 in a high-temperature state for too long time is avoided, the possibility of scalding the user is reduced, and the safety of the steam cooking container is improved.

As shown in fig. 4, the side wall of the steam joint 320 is an inclined plane 321 which extends from bottom to top and inclines inwards, the inclination angle from the lower end to the upper end of the side wall of the steam joint 320 is consistent, the inclined plane has a simple structure and is convenient to process, and the junction of the side wall and the top wall of the steam joint 320 is provided with a fillet transition to avoid hurting the hand of a user by the sharp-horn-shaped junction.

The included angle between the side wall of the steam joint 320 and the vertical line is greater than or equal to 12 degrees. The larger the angle between the side wall of the steam joint 320 and the vertical line is, the larger the first component force is, the smaller the second component force is, the smaller the maximum static friction which can be formed between the fingers and the side wall of the steam joint 320 is, the less easily the fingers can grasp the steam joint 320, and the higher the safety of the container is. In a specific application, it is not preferable that the larger the included angle is, when the included angle between the sidewall of the steam joint 320 and the vertical line is the largest, the steam joint 320 is tapered to be unfavorable for sealing and butting with the top 130, the top 130 of the steam joint 320 needs to have a plane capable of sealing and butting with the top 130, so that the portion of the steam joint 320 protruding from the upper surface of the cover 300 is preferably in a truncated cone shape, and the included angle between the sidewall of the steam joint 320 and the vertical line is preferably 60 °, such as 15 °, 30 °, 40 ° or 45 °.

The side wall surface of the steam header 320 is smooth. Therefore, the maximum static friction between the fingers and the steam joint 320 is small, so that the fingers are not easy to grasp the steam joint 320, and the safety is improved. The smoother the surface of the side wall, the smaller the corresponding included angle between the side wall and the vertical line can be correspondingly adjusted.

The vapor connector 320 has a sidewall roughness of less than 2 microns, such as 1.5 microns, 1 micron. The side wall of the steam joint 320 with roughness is smooth, fingers are not easy to grasp the steam joint 320, and safety is improved.

In other alternative embodiments, the sidewall of the steam connector 320 has multiple inclined planes from bottom to top, and the multiple inclined planes are all inclined inwards from bottom to top. This is an alternative to the design of steam junction 320, increasing the flexibility of the design of steam junction 320. For example, the sidewall of the steam connector 320 is provided with two sections of slopes, including an upper section slope and a lower section slope, and the included angle between the upper section slope and the vertical line is larger than the included angle between the lower section slope and the vertical line. When the fingers are in a clamping state, the lower end parts of the contact surfaces of the fingers and the steam joint 320 are bent back to the steam joint 320 from top to bottom, the acting force of the fingers on the lower section inclined plane is very limited, and the included angle between the upper section inclined plane and the vertical line is larger, so that the fingers are more difficult to grasp the steam joint 320. Due to the structural characteristics of the fingers, a small section of the lower end of the side wall of the steam connector 320 can be vertical.

In still other alternative embodiments, the sidewalls of the steam junction 320 are convex arcs. The included angle between the tangent line of the arc surface and the vertical line is gradually increased from bottom to top, so that the fingers are more difficult to grasp the steam joint 320. Of course, the sidewall of the steam connector 320 may also be concave.

The height of the steam joint 320 protruding from the cover 300 is less than or equal to 10mm, such as 5mm, 7mm, 8mm, the smaller the protruding height of the steam joint 320 is, the smaller the grabbing force surface formed by fingers and the steam joint 320 is, the less easily the steam joint 320 is grabbed, and the safety is improved.

As shown in fig. 1 and fig. 5, the top 130 has an operation position 132, and the cover 300 has a clearance structure corresponding to the operation position 132. When cooking is completed and the container needs to be taken out of the housing 100, the top 130 needs to be lifted, and the top 130 can be lifted by inserting a finger into the operating position 132 and applying an upward force. The arrangement of the clearance structure enables a larger operation space to be formed between the operation position 132 and the cover body 300, so that the fingers can fully extend into the operation position 132, the fingers can fully contact with the top 130, the phenomenon that the fingers slip with the top 130 due to the fact that the fingers are embedded into the operation position 132 due to too small depth is avoided, and the operation of lifting the top 130 is facilitated.

As shown in fig. 1, the rear end of the top 130 is rotatably connected to the supporting portion 120, and the operating position 132 is disposed at the front end of the top 130. Therefore, the operation position 132 is far away from the rotation fulcrum, a large force arm can be formed, the lifting operation of the top portion 130 is more labor-saving, the lifting operation of the top portion 130 is convenient, and the force application direction is consistent with the rotation direction of the top portion 130. In other alternative embodiments, the top portion 130 may also be vertically lifted, and the top portion 130 is vertically slidably connected to the supporting portion 120.

As shown in fig. 1, 2 and 5, the clearance structure is a sinking platform 330 on the cover 300. The sinking platform 330 is recessed relative to its periphery, so that the upper surface of the cover 300 corresponding to the operation position 132 moves downward, and the cover 300 and the top 130 form a larger space at the operation position 132, which is convenient for the fingers to insert into the operation position 132 to lift the top 130. This space-avoiding structure can be applied to the cover 300 having an arch shape, as well as to the cover 300 having a horizontal shape. In other alternative embodiments, when the cover 300 is arched, that is, the cover 300 is arched upward from the periphery to the center, the local position of the cover 300 is horizontally disposed to form the clearance structure. For the arched cover 300, the larger the arching length is, the higher the arching height is, and the cover 300 corresponding to the operation position 132 is horizontally arranged, so that the arching at the position can be avoided from being too high, the height of the position is reduced to form a yielding space, and the space for inserting fingers into the operation position 132 is increased.

As shown in fig. 2 to 3, the steam connector 320 is disposed on the stage 330, and the steam connector 320 protrudes upward with respect to the surface of the stage 330. Since the distance between the top portion 130 and the carrying portion 110 is fixed, the steam connector 320 is moved downward relative to the rest of the container, thereby increasing the capacity of the container. In other alternative embodiments, the steam connector 320 may be disposed outside the sinking platform 330, since the steam connector 320 needs to be abutted against the top portion 130, the distance from the bearing portion 110 to the steam connector 320 is fixed, and the steam connector 320 is located outside the sinking platform 330, so that the cover 300 needs to be moved downward relative to the frame 100, which reduces the overall capacity of the container.

As shown in fig. 1, the clearance structure extends to the outside of the top portion 130, in this embodiment, the sinking platform 330 extends forward beyond the front end of the top portion 130, and the front end of the top portion 130 is the left end in fig. 1, so that the fingers can be inserted into the operation position 132 more smoothly, and the feeling of oppression is reduced.

As shown in fig. 1 and 2, the steam input port 310 is located at the center of the cover 300, and the clearance structure is symmetrically arranged about the steam input port 310. The front and back symmetry of the cover body 300, the assembly direction of the cover body 300 and the container body 200 is more random, the cover body 300 does not need to be covered according to the unique installation direction, the flexibility of the cooperation of the cover body 300 and the container body 200 is improved, the convenience of operation is improved, and the situation that the clearance structure cannot correspond to the operation position 132 is avoided. In other alternative embodiments, the clearance structure may also extend only to the front end, and due to the structural characteristics of the bearing portion 110, the assembly direction of the container and the frame body 100 is unique, so that the cover body 300 needs to be covered on the container body 200 according to the unique specific direction, and the clearance structure can only function, and the cover body 300 is easy to put back and is troublesome.

As shown in fig. 2, the cover 300 has a left-right length greater than a front-rear width thereof, and the clearance structure has a left-right width less than a front-rear length thereof. Under the condition of ensuring that the avoiding structure is large enough, the left width and the right width of the avoiding structure are prevented from being too large, and the loss of the container capacity is reduced. The left and right sides described herein may correspond to the left and right sides with reference to fig. 3.

As shown in fig. 5, the cover body 300 is provided with an air hole 340, the air hole 340 is located outside the clearance structure, and the air hole 340 is located on the left and/or right of the clearance structure. Just contact when the culinary art, bleeder vent 340 still can have the condition of upwards running off steam, lift top 130 during the operation, if steam flows the easy scald hand in hand, avoid taking shelter from the empty structure and set up the left and right sides of taking shelter from the empty structure with bleeder vent 340, and operation position 132 is located the front end portion of top 130, when lifting top 130 operation like this, the hand just can not pass through bleeder vent 340 top, steam is difficult to flow to the hand, can avoid lifting top 130 like this, scald the hand from the steam that bleeder vent 340 flows.

As shown in fig. 2, the cover 300 is provided with a first magnetic member 322, in this embodiment, the first magnetic member 322 is specifically fixed on the steam connector 320; the top portion 130 is provided with a second magnetic member, and the first magnetic member 322 and the second magnetic member attract each other to seal the joint between the steam outlet 131 and the steam input port 310. Lid 300 and top 130 inhale the piece through magnetism and adsorb and connect for butt joint between them is inseparabler, avoids steam to flow from the gap between the two. One of the first magnetic member 322 and the second magnetic member is a magnet, and the other is a magnet or a member made of a material capable of attracting the magnet, for example, the first magnetic member 322 is a stainless steel sheet, and the second magnetic member is a magnet.

As shown in fig. 2-3 and 6-7, a handle 350 is provided on the cover 300, a locking structure is provided between the handle 350 and the container body 200, and the cover 300 is detachably fixed on the container body 200 through the locking structure. The handle 350 disposed on the cover 300 facilitates the user to grasp the steam connector 320 when opening the cover, thereby avoiding the possibility of scalding the user, and the cover 300 is locked on the container body 200 by the locking structure, thereby avoiding the cover 300 being taken out when lifting the top 130. Because the locking structure is arranged between the handle 350 and the container body 200, when the locking structure is unlocked, a hand is placed on the handle 350 for operation, when unlocking is completed, a user can lift the cover body 300 from the container body 200, and the operation is convenient.

The locking structure includes a locking portion 210 on the container body 200 and a locking groove 351 on the handle 350, and the locking portion 210 is inserted into the locking groove 351. The locking portion 210 and the locking groove 351 are simple in structure and stable in fit. Specifically, the locking portion 210 is a handle protruding from the sidewall of the container body 200. The protrusion of the locking portion 210 relative to the outer surface of the container body 200 can be used as a handle for holding the container body 200, and the structure has two functions, so that the overall structure of the container is simpler and the operation is more convenient. The edge of the cover body 300 is provided with a hinge part, the handle 350 is hinged on the hinge part, the handle 350 is provided with a mounting groove, the hinge part is positioned at the upper end part of the mounting groove, and a gap is formed between the hinge part and the bottom wall of the mounting groove to form the locking groove 351. Thus, the mounting groove and the groove are dual-purpose, the container structure is simplified, and the production cost is reduced.

In other alternative embodiments, the latch 210 may be located on the handle 350 and the latch groove 351 may be located on the container body 200; in addition, a rib for locking may be provided on the container body 200, and a locking hook may be provided on the handle 350, and the locking hook is hooked on the rib to lock the cover 300 and the container body 200.

As shown in fig. 7, the handle 350 is rotatably connected to the cover 300, and when the handle 350 is rotated to the upper limit position, the locking structure is unlocked, and the center of gravity of the handle 350 is located outside the rotation axis of the handle 350. After the cover body 300 is covered on the container body 200, the gravity center of the handle 350 is inevitably positioned at the outer side of the rotation axis, so that the handle 350 can rotate downwards around the axis under the action of the self gravity, the locking structure is naturally locked, the situation that a user forgets the locking operation is avoided, and the operation convenience is also improved.

As shown in fig. 7, the upper end of the handle 350 includes an inner arc surface 352 and an abutting surface 353, the abutting surface 353 is disposed to be biased to the outer side of the handle 350, and when the handle 350 rotates to the upper limit position, the abutting surface 353 of the handle 350 abuts against the side edge of the cover 300. Simple structure like this, spacing effectual, intrados 352 can avoid handle 350 to rotate the time and lid 300 lateral margin to take place to interfere, improves handle 350 pivoted smooth and easy nature. The abutting surface 353 abuts against the lateral edge of the column cover 300 to prevent the handle 350 from rotating further, and prevent the gravity center of the handle 350 from rotating to the inner side of the axis.

When the handle 350 is rotated to the upper limit position, the included angle between the handle 350 and the horizontal plane is less than or equal to 45 degrees, such as 30 degrees, 15 degrees and 10 degrees. Therefore, the user can hold the lower part of the handle 350 by hand, the upward force is convenient, and the natural falling of the handle 350 is also facilitated. In alternative embodiments, the handle 350 may be angled upward more than 45 degrees, such as 60 degrees, but so that the handle 350 is not easily held by hand and easily slides off the handle 350, the handle 350 may be angled downward more than 45 degrees, so long as it is ensured that the closure is unlocked.

As shown in fig. 6-7, when the handle 350 is pivoted to the upper limit position, the handle 350 is inclined upwardly from the inner end to the outer end. Therefore, the upper end of the handle 350 does not need to be too high to be higher than the top surface of the cover body 300, so that the upper end of the handle 350 is prevented from being too abrupt, and the locking structure can be ensured to be unlocked when the handle 350 is at the upper limit position. In other alternative embodiments, when the handle 350 is rotated to the upper limit position, the handle 350 may also be inclined downward from the inner end to the outer end; or, when the handle 350 rotates to the upper limit position, the handle 350 is horizontally arranged.

As shown in fig. 2, 3 and 8, a rack 400 having steam holes 410 is disposed on the container body 200, the rack 400 divides the container into an upper chamber 220 and a lower chamber 230, a steam port 420 penetrating up and down is disposed on the rack 400, and the steam port 420 and the steam input port 310 are correspondingly disposed. During cooking, steam enters the container through the steam input port 310 of the cover 300, and part of the steam is diffused into the upper chamber 220. Because a certain downward flow velocity exists when the steam flows out from the steam input port 310, part of the steam flows into the lower chamber 230 from the steam port 420, so that the food on the shelf 400 is heated and cooked from the upper side by the steam in the upper chamber 220, the food on the shelf 400 is heated and cooked from the lower side by the steam in the lower chamber 230, the upper part and the lower part of the food are heated and cooked simultaneously, the efficiency of steam cooking is improved, the food is heated more uniformly, and the cooking effect is more excellent.

The rack 400 is provided with a steam guide pipe 500 penetrating up and down at the steam port 420, and a gap is formed between the upper end of the steam guide pipe 500 and the cover 300. Steam pipe 500 can avoid food to block steam port 420 as the bellying that can dismantle the setting on the supporter 400, and steam pipe 500 demolishs the back, and supporter 400 surface is comparatively level and smooth, can lay the gauze and cook food, can suitably improve the space that links up of supporter 400, is convenient for hold great food, uses comparatively in a flexible way.

When cooking, food is placed on the shelf 400, and steam enters the container through the steam input port 310 of the cover 300. Part of the steam can be diffused into the upper chamber 220 from the gap between the steam guide duct 500 and the cover 300, the food is located in the upper chamber 220, and the steam in the upper chamber 220 heats the upper and side portions of the food. Since the upper end of the steam guide pipe 500 is disposed corresponding to the steam input port 310 of the cover 300, that is, the upper opening of the steam guide pipe 500 faces the steam input port 310 and is located below the steam input port 310, when part of the steam flows downward from the steam input port 310, while part of the steam spreads to the upper chamber 220, another part of the steam flows into the steam guide pipe 500 from the upper opening of the steam guide pipe 500, the steam entering the steam guide pipe 500 flows into the lower chamber 230 through the steam port 420 along the steam guide pipe 500, and the rack 400 is provided with the steam holes 410, so that the steam entering the lower chamber 230 can heat and cook the lower portion of the food through the steam holes 410. Like this the steam of upper chamber 220 makes the food on the supporter 400 be heated the culinary art from the top, and the steam of lower chamber 230 makes the food on the supporter 400 be heated the culinary art from the below, and the upper portion and the lower part of food are heated the culinary art simultaneously, improve the efficiency of steam culinary art, also make food be heated more evenly, and the culinary art effect is more.

The upper end of the steam guide duct 500 is spaced from the cover by 1 to 15mm, for example 2mm, 5mm, 7.5mm, 10mm, 14 mm. The gap between the steam guide pipe 500 and the cover 300 is too small, so that the steam entering the upper cavity 220 is too little to heat the upper part of the food; the gap between the steam guide pipe 500 and the cover 300 is too large, so that the steam is not easy to enter the steam guide pipe 500, and the steam entering the lower cavity 230 is too little, which is not beneficial to heating the lower part of the food; the upper end of the steam guide pipe 500 is 1-15mm away from the cover body, so that the steam quantity of the upper chamber 220 and the steam quantity of the lower chamber 230 are relatively balanced, and the food can be uniformly heated up and down.

A set of vessels may be equipped with one or more sizes of steam conduits 500. When one set of container is provided with the steam guide pipe 500 of various specifications, the steam guide rails of different specifications are selected to be installed on the container, and the distances from the upper end of the steam guide pipe 500 to the cover body 300 are different, so that the proper steam guide pipe 500 can be selected according to cooking different foods or according to different steam amount during cooking. Of course, the vessel may also be provided without the steam conduit 500, with steam entering the lower chamber 230 directly through the steam port 420.

As shown in fig. 9, the lower end of the steam conduit 500 is inserted into the steam port 420, the steam conduit 500 is provided with a limiting portion 510, and the limiting portion 510 abuts against the rack 400. Thus, the steam guide pipe 500 can be disassembled and assembled through simple plugging and unplugging, and the operation is simple and convenient.

In other alternative embodiments, the steam guide pipe 500 may also be a circular truncated cone-shaped cylinder with an outer diameter gradually decreasing from top to bottom, and only a part of the outer diameter of the lower end of the steam guide pipe 500 is smaller than the aperture of the steam port 420, so that the steam guide pipe 500 can be vertically limited on the steam port 420 without the limiting part 510. In addition, in other alternative embodiments, an upwardly protruding hollow mounting post may be disposed on the rack 400, and the lower end of the steam duct 500 is sleeved on the mounting post.

In addition, in other alternative embodiments, when the rack 400 does not have the detachable steam conduit 500, the rack 400 is provided with a protruding part extending upwards at the edge of the steam port 420, and the protruding part is an annular convex column integrally connected to the rack 400, or the protruding part is a convex block integrally connected to the rack 400. Make food be difficult to level and place in steam port 420 department like this, remind the user to place food steam port 420 that staggers, avoid food to block up steam port 420. The bulge and the shelf 400 are connected integrally, the structure is simple, the processing is convenient, and the structural form of the bulge only needs to enable food not to be placed flatly at the steam port 420.

As shown in fig. 9, the peripheral wall of the steam port 420 has a downwardly extending flange 430. The flange 430 can increase the area of the circumferential wall of the steam port 420 and the matching surface of the steam guide pipe 500, improve the stability of the assembly of the steam guide pipe 500, prevent the steam guide pipe 500 from shaking or skewing, ensure that the upper opening of the steam guide pipe 500 can be accurately positioned at the steam input port 310, and ensure that steam can enter the steam guide pipe 500 and enter the lower chamber 230.

As shown in fig. 2 to 3 and 8, the container body 200 includes a base 240 and a steam drawer 250 disposed on the base 240, and the rack 400 includes an upper steam rack 440 disposed on the steam drawer 250 and a lower steam rack 450 disposed on the base 240. The multi-layered shelf 400 facilitates cooking more foods at the same time, improving cooking efficiency. In other alternative embodiments, the upper steaming rack 440 may be disposed on the base 240.

As shown in fig. 3, the protrusion of the rack 400 is located on the upper steaming rack 440, the steam conduit 500 is installed on the upper steaming rack 440 as a structural form of the protrusion, the purpose of the protrusion is to prevent the steam port 420 from being blocked, so that steam cannot enter the lower chamber 230, the protrusion is not required to be arranged on the lower steaming rack 450, and the lower steaming rack 450 has a larger continuous space, so that larger food can be placed therein.

Further, as shown in fig. 3, a water receiving chamber 260 is provided at the bottom of the container body 200. The water collecting cavity 260 can collect liquid water, and food is prevented from being soaked after the steam is liquefied.

As shown in fig. 10-11, the cover 300 is provided with a pressurizing passage 360 at the steam input port 310. The pressurizing channel 360 can increase the pressure of the steam at the steam input port 310, so that the speed of the steam flowing out of the steam input port 310 can be increased after the steam passes through the pressurizing channel 360, the steam is sprayed out of the steam input port 310 downwards at a higher speed, the amount of the steam diffused into the upper chamber 220 is reduced, the amount of the steam entering the lower chamber 230 is increased, and the uniformity of the upper and lower heating of the food is improved.

Especially, when the rack 400 does not have the annular convex column or the steam guide pipe 500 is not placed on the rack 400, the distance between the steam input port 310 and the steam port 420 is large and does not have a corresponding guide flow channel, the steam with a low flow rate is easily diffused into the upper chamber 220, the steam which can flow into the lower chamber 230 from the steam port 420 is very little, and the pressurizing channel 360 plays a large role at this time, so that the effect is particularly obvious.

For a container with an integrated annular convex column or steam conduit 500 arranged at the edge of the steam port 420, the upper end of the annular convex column or steam conduit 500 is lower than the steam outlet of the cover body 300; part of the steam can be diffused into the upper chamber 220 from a gap between the steam guide 500 or the annular boss and the cover 300, and part of the steam flows into the steam guide 500 or the annular boss and flows into the lower chamber 230 along the steam guide 500 or the annular boss. The distances of the annular boss and the steam guide duct 500 to the cover body 300 may be appropriately increased. Taking the steam guide tube 500 as an example, when the cover 300 does not have the pressurizing passage 360, the upper end of the steam guide tube 500 is 5mm away from the cover 300, and when the cover 300 has the pressurizing passage 360, the upper end of the steam guide tube 500 may be preferably 15mm away from the cover 300, or even more than 15mm, so as to better equalize the steam amount in the upper chamber 220 and the lower chamber 230.

The cover body 300 is provided with a sealing member 370 at the steam input port 310, the sealing member 370 is provided with a steam hole, and a pressurizing channel 360 is provided at a partial position of the steam hole. The pressurizing channel 360 is machined on the sealing element 370, so that the machining is convenient, other accessories do not need to be additionally arranged, and the cost is lower. Specifically, as shown in fig. 11, the edge of the steam hole has an insertion portion 371 extending downward, the insertion portion 371 is inserted into the steam input port 310, and the lower end of the insertion portion 371 has a flange 372 bent inward, and the flange 372 defines the pressurizing passage 360. The pressurizing passage 360 is disposed at the lower end of the embedding portion 371, so that the length of the steam inlet 310 after the steam passes through the pressurizing passage 360 is reduced or avoided, the distance from the pressurizing passage 360 to the steam port 420 is reduced, and the flow rate loss from the steam to the steam port 420 is reduced. The fold 372 is inclined inwardly from top to bottom. This facilitates insertion of the insert portion 371 into the steam input port 310. In other alternative embodiments, the flap 372 may be horizontally disposed.

Additionally, in alternative embodiments, the inner wall of the steam input port 310 has a raised ring that surrounds the plenum 360. Alternatively, the cover 300 is provided with a pressurizing sheet at the steam input port 310, the pressurizing sheet is provided with the pressurizing channel 360, the cover 300 is provided with the steam connector 320, and the pressurizing sheet is fixed between the steam connector 320 and the cover 300, so that the pressurizing sheet is relatively simple to install.

Further, as shown in fig. 10 to 11, the pressurizing passage 360 is formed to protrude downward from the lower surface of the cover 300. This allows the plenum 360 to be closer to the steam port 420, reducing the loss of flow rate of steam to the steam port 420, facilitating an increase in the amount of steam entering the lower chamber 230.

As shown in fig. 1 and 12, the bottom of the container is provided with a middle groove 270, the bearing part 110 is embedded in the middle groove 270, and the bottom of the container is provided with an interference structure at one end part of the middle groove 270, and the interference structure is staggered with the bearing part 110. When the container is reversely arranged on the bearing part 110 in a horizontal rotation 180-degree direction, the interference structure interferes with the bearing part 110, so that the bearing part 110 cannot be embedded into the middle groove 270, a user is forced to place the container in the correct direction as early as possible, the reverse container arrangement of the user can be avoided, the situation that the user cannot realize the reverse container arrangement is avoided, the operation steps of the user for re-placing the container are reduced, the container and the bearing part 110 can be quickly positioned, and the user experience is improved.

The top wall of the middle groove 270 is provided with a positioning convex part 271, the positioning convex part 271 comprises an annular convex part and an extending convex part 273 connected to a local position of the annular convex part, the bearing part 110 is provided with a positioning groove, and the shape of the positioning groove is matched with the shape of the positioning convex part 271. The engagement between the positioning protrusions 271 and the positioning grooves can prevent the container from rotating relative to the frame 100, thereby improving the stability of the engagement between the container and the frame 100. When the container does not have an interference structure, the container is reversely mounted on the bearing part 110 in a direction of horizontally rotating 180 degrees, the bearing part 110 can be embedded into the middle groove 270, but the positioning convex part 271 and the positioning convex groove cannot be aligned and matched, but because the height of the positioning convex part 271 is small, a user cannot easily perceive the container, the top part 130 is forcibly pressed down, the container is easily damaged, and the interference structure is arranged on the container, so that the situation can be avoided.

As shown in fig. 12, the interference structure includes a throat 274, the intermediate groove 270 includes a fitting section 275 and a throat section 276 corresponding to the throat 274, the width of the throat section 276 is smaller than the width of the carrier 110, and the carrier 110 is fitted into the fitting section 275. Thus, the carrier 110 cannot be inserted into the necking portion 276, and can interfere with the necking portion 274 when the container is reversely loaded, so that the reverse loading effect can be realized. The width of the fitting segment 275 gradually increases from the end close to the reduced section 276 to the end far from the reduced section 276, referring to the direction of fig. 12, that is, the width of the fitting segment 275 gradually increases from bottom to top, which facilitates the quick assembly of the fitting segment 275 onto the carrying part 110 from the front end of the carrying part 110, and improves the efficiency of putting the container onto the carrying part 110.

In other alternative embodiments, the interference feature may be a stop that spans the intermediate slot 270. The blocking part can block the bearing part 110 from being inserted into the middle groove 270 at the corresponding position, and the effect of placing the container is achieved. The blocking part can be a blocking strip or a blocking plate and other structural forms, particularly when the blocking part is the blocking plate, a user can easily identify which end of the container has the interference structure, the situation that the user finds the position of the interference structure after trying to install the container is avoided, and the container placing efficiency is improved.

Further, the water-collecting chamber 260 extends to the interference structure, so that the capacity of the water-collecting chamber 260 can be increased.

As shown in fig. 13, a switch 111 and a trigger 112 for controlling the on/off of the switch 111 are disposed on the bearing portion 110, an elastic member 113 is disposed between the trigger 112 and the bearing portion 110, when the container is placed on the bearing portion 110, an upper end of the trigger 112 protrudes upward out of the bearing portion 110 and abuts against the container, the switch 111 is turned on, and when the container is separated from the bearing portion 110, the elastic member 113 drives the trigger 112 to move upward, and the switch 111 is turned off. The switch 111 is used for controlling the on-off of the power supply of the frame body 100, so that the frame body 100 can be in a power-off state when no corresponding container is arranged on the frame body, the safety of the steam rice cooker is improved, and the power supply is automatically switched on when the container is placed on the frame body, so that the frame body 100 can automatically enter a standby state, and the convenience of operation is improved.

Further, as shown in fig. 13, the upper end of the trigger 112 abuts on the extending protrusion 273. The extending protrusion 273 forms a large protrusion plane, and can more reliably abut against the trigger 112, and the trigger 112 is sufficiently pressed down, thereby ensuring that the switch 111 is turned on.

As shown in fig. 8 and 14, a hand holding opening 460 for allowing fingers to pass through is disposed on the rack 400, and an abdicating space for allowing fingers to be inserted is provided right below the hand holding opening 460. The holding opening 460 facilitates hooking or clamping of fingers on the article placing rack 400, facilitates upward force application of the hands on the article placing rack 400 to take out the article placing rack 400 from the container body 200, allows space for the fingers to deeply penetrate through the holding opening 460, can be fully contacted with the article placing rack 400, improves effectiveness of force application of the fingers on the article placing rack 400, avoids slipping of the fingers on the article placing rack 400, and further improves convenience of taking out the article placing rack 400.

The cross-sectional area of the abdicating space is larger than or equal to that of the hand-held opening 460. This is convenient for the finger can be partly embedded in the below of handing mouth 460 edge, reduces the finger and supporter 400 and takes place the possibility of skidding.

The vertical distance between the bottom wall of the abdicating space and the lower end edge of the hand-held port 460 is more than or equal to 3 mm. Let the diapire in space with the vertical distance undersize of handheld mouth 460 lower extreme edge, because the tip of finger is crooked to the nail face, be difficult to hook or clip supporter 400, when vertical distance more than or equal to 3mm, hook or clip supporter 400 is easier.

In the embodiment of the double-deck rack 400, the rack 400 includes an upper steaming rack 440 and a lower steaming rack 450, and for the upper steaming rack 440, the lower chamber 230 is a space for the hand holding opening 460 of the upper steaming rack 440. To lower steaming rack 450, receive water cavity 260 and be located the below of supporter 400 specifically is the below of lower steaming rack 450, receive water cavity 260 as give way the space with the handheld mouth 460 of lower steaming rack 450 corresponds the setting. Therefore, corresponding yielding space does not need to be specially arranged, the hand-held opening 460 only needs to be arranged corresponding to the water receiving cavity 260, and the water receiving cavity 260 usually has enough depth for fingers to extend into.

In the embodiment of the single layer shelf 400, the hand holding opening 460 of the shelf 400 can be configured with reference to the lower steaming rack 450 of the double layer shelf 400, and when the lower chamber 230 of the single layer shelf 400 is deep enough, the position of the hand holding opening 460 is usually not particularly required.

In other alternative embodiments, referring to fig. 3, the container body 200 has a cavity 277 with an upward opening at the position of the positioning protrusion 271, and the cavity 277 is used as the relief space and is disposed corresponding to the hand-held opening 460. Thus, the original space of the container body 200 is fully utilized without specially arranging a corresponding abdicating space.

Two handholding ports 460 are provided at the same end of the article carrier 400. Therefore, two fingers can extend into the two hand-held openings 460 to clamp the article placing rack 400, and the article placing rack 400 can be taken out of the container body 200 conveniently.

The distance between the two handholds 460 at the same end of the article rack 400 is 2-10cm, such as 3cm, 5cm and 7 cm. Therefore, the opening size of the thumb and the index finger or the thumb and the middle finger of the adult can be well adapted, and the user can conveniently clamp the commodity shelf 400 at a comfortable opening angle.

As shown in fig. 14, four holding ports 460 are disposed on the article placing shelf 400, and the four holding ports 460 are symmetrically disposed about the center of the article placing shelf 400. Thus, the flexibility of holding the shelf 400 is improved, and when heavy food is placed on the shelf 400, the shelf 400 can be held by two hands.

Further, the horizontal distance from the center of the hand-held port 460 to the inner wall of the container body 200 is greater than or equal to 2 cm. The height of a normal egg is about 5cm, and the width is about 3.5cm, and when the horizontal distance of holding mouthful 460 center to container body 200 inner wall was greater than and is equal to 2cm and is convenient for place the egg on holding mouthful 460, the egg can not contradict on container body 200 for hold mouthful 460 and place the position as the egg and use, improve the flexibility that supporter 400 used.

In the description of the present invention, it is to be understood that the terms "central", "lateral", "thickness", "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outer", "radial", "circumferential", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise. In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

It should be understood by those skilled in the art that, although the embodiments of the present invention have been described above, the embodiments are only used for understanding the embodiments of the present invention, and are not intended to limit the embodiments of the present invention. It will be apparent to persons skilled in the relevant art that various changes in form and details can be made therein without departing from the spirit and scope of the embodiments of the invention as disclosed in the appended claims.

Claims (10)

1. The utility model provides a steam rice cooker convenient to steam cooking container is fixed a position fast, includes framework and container, its characterized in that, the framework includes the bearing part, the bottom of container sets up middle groove, the bearing part embedding middle groove, the bottom of container sets up at one end of middle groove and interferes the structure, it staggers to interfere the structure bearing part.

2. A steam rice cooker for facilitating rapid positioning of a steam cooking vessel as claimed in claim 1, wherein the interference structure includes a throat portion, the intermediate channel includes a mating section and a throat section corresponding to the throat portion, the throat section has a width less than a width of the carrier portion, and the carrier portion is embedded in the mating section.

3. A steam rice cooker for facilitating quick positioning of a steam cooking vessel as claimed in claim 2, wherein the width of the engagement section increases from an end proximate to the throat section to an end distal from the throat section.

4. A steam cooker for facilitating rapid positioning of a steam cooking vessel as recited in claim 1, wherein said interference feature comprises a blocking portion spanning said intermediate slot.

5. A steam rice cooker for facilitating rapid positioning of a steam cooking vessel as claimed in claim 4, wherein the blocking portion is a blocking strip or a blocking plate.

6. A steam cooker for facilitating rapid positioning of a steam cooking vessel as claimed in claim 1, wherein the vessel is provided with a water receiving cavity at the bottom thereof, the water receiving cavity extending to the interference structure.

7. A steam cooker for facilitating quick positioning of a steam cooking container as claimed in claim 1, wherein the top wall of the middle groove is provided with a positioning protrusion, the positioning protrusion comprises an annular protrusion and an extending protrusion connected to a local position of the annular protrusion, the carrying portion is provided with a positioning groove, and the shape of the positioning groove matches with the shape of the positioning protrusion.

8. The steam rice cooker convenient for quickly positioning the steam cooking container as claimed in claim 7, wherein a switch member and a trigger member for controlling the switch member to be turned on or off are provided on the bearing portion, an elastic member is provided between the trigger member and the bearing portion, when the container is placed on the bearing portion, the upper end of the trigger member upwardly penetrates out of the bearing portion and abuts against the container, the switch member is turned on, and when the container is separated from the bearing portion, the elastic member drives the trigger member to move upwardly, and the switch member is turned off.

9. A steam cooker for facilitating quick positioning of a steam cooking vessel as claimed in claim 8, wherein the upper end of the trigger member abuts the extending projection.

10. The steam rice cooker convenient for quickly positioning the steam cooking container as claimed in claim 1, wherein the frame body comprises a supporting portion formed by extending the bearing portion upwards and a top portion extending from the supporting portion upwards, the top portion and the bearing portion form an open container access space, the container comprises a container body and a cover body covering the container body, the cover body is provided with a steam inlet, a steam generator for introducing steam into the container is arranged in the supporting portion or the top portion, and a steam outlet of the steam generator is in butt joint with the steam inlet.

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