CN214452895U - Food container - Google Patents

Abstract

The utility model provides a food container belongs to the food package container field. The food container comprises an upper bowl body and a lower bowl body which can be mutually buckled together, and/or a first anti-scald structure is arranged on the top edge of the upper bowl body, a second anti-scald structure is arranged on the outer side wall of the lower bowl body corresponding to the first anti-scald structure, and the first anti-scald structure and/or the second anti-scald structure jointly form a contact part of a hand. The first anti-scald structure of the utility model is arranged at the top edge of the upper bowl body, which is visible to human eyes, so that the human hand can hold the bowl accurately and accurately without error, and the phenomenon of touching and being scalded by mistake can not occur; the outer side wall of the lower bowl body is provided with a second anti-scald structure, and hands contact the positions to play an anti-scald role; and the combination of first scald-proof structure and second scald-proof structure, the first scald-proof structure of thumb contact, all the other fingers contact second scald-proof structure, not only be convenient for have an effect of taking whole food container, can both play the effect of preventing scalding to all fingers that contact food container moreover.

Description

Food container

Technical Field

The utility model relates to a food package container field especially relates to a food container.

Background

In daily life, people use the container to contain hot food and hot soup, and the heat of the food is transferred to the container, so that the outer wall of the container is heated and scalds hands, and the container is not easy to take. Therefore, people invent various anti-scalding structures to solve the problem of scalding hands, for example, the bottom wall of the existing instant noodle barrel is set to be about 1cm higher than the bottommost edge of the side wall of the barrel, so that after the instant noodle barrel is filled with hot food, the side wall of the barrel with the length exceeding 1cm is relatively low in temperature and can be used as a starting point.

However, the barrel body of the instant noodle barrel has a certain height, the barrel body can be taken stably only by respectively acting on the upper edge and the lower edge of the barrel body when the instant noodle barrel is taken and pinched, and the anti-scalding effect is actually realized by the round side wall at the bottom, so that the thickness of the instant noodle barrel is thin, and the situation that people touch the instant noodle barrel by mistake and cannot avoid scalding hands is easy to occur when the instant noodle barrel is used.

In view of the above, a new technical solution is needed to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a food container for the scald preventing structure who solves among the above-mentioned prior art container exists inconveniently to take to hold between the fingers, the problem that the mistake touched appears easily.

In order to achieve the above object, the utility model adopts the following technical means:

the utility model provides a food container, its includes the last bowl body and the lower bowl body that can each other the lock-joint be in the same place, the top edge of going up the bowl body is equipped with first anti-scald structure, and/or the lateral wall of the lower bowl body corresponds first anti-scald structure is equipped with second anti-scald structure, first anti-scald structure and/or second anti-scald structure forms the contact site of staff.

As a further improvement, the first anti-scald structures are arranged on two opposite sides of the top edge of the upper bowl body.

As a further improvement, the two opposite sides of the top edge of the upper bowl body are both inwards recessed to form grooves, a plurality of radiating fins are arranged in the grooves at intervals, and the plurality of radiating fins form the first anti-scald structure.

As a further improvement, the second anti-scald structure is arranged at a position close to the top edge of the lower bowl body and comprises a plurality of heat dissipation strips arranged at intervals, and the heat dissipation strips surround a circle along the lower bowl body.

As a further improvement, the lower bowl body is provided with a first cavity for containing a first food material, the upper bowl body is provided with a second cavity for containing a second food material, the second cavity is provided with a lower opening, and the lower opening is covered with a layer of lower sealing film;

the food container is connected including rotating the pivot on the last bowl body, the lower extreme of pivot passes go up the bowl body and stretch into first appearance intracavity, through a connecting piece and with inferior sealing membrane is connected.

As a further improvement, the upper bowl body is also provided with an upper opening, and the upper opening is covered with an upper sealing film.

As a further improvement, the lower end of the rotating shaft is provided with a steam guide pipe, and the steam guide pipe is provided with a spray hole.

As a further improvement, the spray holes are opened on the side wall of the steam conduit.

As a further improvement, a partition plate with a grid hole is arranged in the second accommodating cavity, the partition plate divides the second accommodating cavity into a first cavity and a second cavity, the first cavity is used for storing solid matters in the second food material, and the lower opening is formed below the first cavity; the second chamber is for storing a liquid in a second food material.

As a further improvement, the connecting member comprises a band-shaped film or a connecting string.

Compared with the prior art, the utility model discloses bring following technological effect:

the food container of the utility model comprises an upper bowl body and a lower bowl body which can be buckled together, the top edge of the upper bowl body is provided with a first anti-scald structure, and the first anti-scald structure is arranged at the top edge of the upper bowl body, so that the food container can be seen by human eyes, the human hands can accurately hold the food container in place, and the phenomenon of mistakenly touching and being scalded can not occur; the outer side wall of the lower bowl body is provided with a second anti-scald structure, so that when the bowl body is taken down by a hand, the anti-scald function can be realized only by contacting the position; and the combination of first anti-scald structure and second anti-scald structure, when the food container was taken to the people's hand, the anti-scald structure of the bowl body was gone up in the thumb contact, and the second anti-scald structure of the bowl body under all the other fingers contact, not only be convenient for take one's force whole food container of taking, can both play the effect of preventing scalding to all fingers that contact food container moreover.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a perspective view of a food container according to the present invention (with the upper sealing film omitted);

FIG. 2 shows an exploded perspective view of the food container shown in FIG. 1;

FIG. 3 is a schematic view of the upper bowl body of FIG. 1 after assembly of the spindle;

FIG. 4 shows an exploded perspective view of the back of the upper bowl body of the present invention;

FIG. 5 shows a partial enlarged view at A in FIG. 4;

fig. 6 shows a perspective view of the rotating shaft of the present invention;

figure 7 shows a longitudinal cross-section of the shaft of the present invention;

figure 8 shows a cross-sectional view of the food container of the present invention;

fig. 9 shows a partial enlarged view at B in fig. 8.

Description of the main element symbols:

food container-100; an upper bowl body-10; an upper opening-11; a lower opening-12; an upper sealing film-131; a lower sealing film-132; a second cavity-14; a separator-15; a first chamber-161; a second chamber-162; a shaft sleeve-17; sink step-170; a second rib-171; a reinforcing sheet-172; a boss-18; a lower bowl-20; a first volume-21; a rotating shaft-30; a snap-fit structure-31; a spring sheet-311; a clamp flange-312; a first rib-313; a notch-314; -32, a fusion plane; a limiting plate-33; a steam conduit-34; spray holes-341; a connector-40; a first anti-scald structure-51; second anti-scald structure-52.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that 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 implying any 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; can be mechanically or electrically connected; 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.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

Example one

Referring to fig. 1 and 2, a preferred embodiment of the present invention provides a food container 100, wherein the food container 100 includes an upper bowl 10, a lower bowl 20 and a rotation shaft 30.

This food container 100 can realize independently encapsulating respectively of two kinds of edible materials, and two kinds of edible materials are first edible material and second edible material respectively, and exemplarily, first edible material includes noodless or ground rice etc. and the second edible material includes edible oil, meat, dish or condiment etc..

In the present embodiment, the food container 100 is circular in shape, so that the upper bowl body 10 and the lower bowl body 20 have circular shapes. It is understood that in other embodiments, the food container 100 may be rectangular, square, or other geometric shapes, and the invention is not limited thereto.

Referring to fig. 2, the lower bowl body 20 has a bowl-shaped structure, and is provided with a first cavity 21, and the first cavity 21 is used for accommodating a first food material.

Referring to fig. 1 to 4, the upper bowl 10 has an annular main body structure, and has an upper opening 11 and a lower opening 12, the upper opening 11 is sealed and covered by an upper sealing film 131, the lower opening 12 is sealed and covered by a lower sealing film 132, and a second cavity 14 for containing a second food material is disposed between the upper sealing film 131 and the lower sealing film 132.

Referring to fig. 1 and fig. 2, the top edge of the upper bowl body is provided with a first anti-scald structure 51, and the first anti-scald structure 51 can be formed by the following steps: the opposite sides of the top edge of the upper bowl 10 are recessed inward to form a groove (not shown), and a plurality of heat dissipation fins (not shown) are spaced in the groove to form the first anti-scald structure 51. The heat dissipation fins can realize a quick heat dissipation effect, so that the anti-scalding function is realized.

The outer side wall of the lower bowl body 20 is provided with a second anti-scald structure 52 corresponding to the first anti-scald structure 51, and the second anti-scald structure 52 can be specifically formed by the following steps: a plurality of heat dissipating strips (not shown) are spaced apart from each other adjacent to the top edge of the lower bowl body 20, and are arranged in a circle along the lower bowl body 20. The heat dissipation strip protrudes out of the outer side wall of the lower bowl body 20, and can achieve the same function as the heat dissipation fins, so that the anti-scald function is achieved. The advantage of setting up the round with a plurality of heat dissipation strips along the bowl body 20 down is the assembly of the upper and lower bowl body of being convenient for the bowl body is with arbitrary angle assembly lock back from top to bottom, and the bowl body 20 position department that first anti-scald structure 51 corresponds all has second anti-scald structure 52 down. Of course, in other embodiments, the second anti-scald structure 52 may not need to be provided with a circle, for example, on two opposite sides of the outer sidewall of the lower bowl body 20, and the assembly of the upper and lower bowl bodies requires an angle to be aligned in order to align the first anti-scald structure 51 and the second anti-scald structure 52 up and down.

The first anti-scald structure 51 is arranged at the top edge of the upper bowl body 10, so that people can see the first anti-scald structure, and the first anti-scald structure cannot be touched by mistake; the second anti-scald structure 52 is arranged on the outer side wall of the lower bowl body 20, so that when the bowl body 20 is taken down by a hand, the anti-scald function can be achieved as long as the positions are contacted; and first anti-scald structure 51 and second anti-scald structure 52's combination, when the food container 100 was taken to the staff, the thumb contacted the first anti-scald structure 51 of the upper bowl body 10, and the second anti-scald structure 52 of the lower bowl body 20 of all the other fingers contact, not only was convenient for take one's place the power and was taken whole food container 100, can both play the effect of preventing scalding to all fingers that contact food container 100 moreover.

In other embodiments, the position and specific structure of the first anti-scald structure 51 can be set in other manners, for example, the first anti-scald structure 51 is set along the top edge of the upper bowl body 10 for a circle, so that the food container 100 can be taken up without scalding by only fastening any position of the top edge of the upper bowl body 10 and the outer side wall of the lower bowl body 20, but this design is more complicated in manufacturing process than the above-mentioned embodiment. For example, the heat dissipation strips of the second anti-scald structure 52 are extended, so that the upper end and the lower end of each heat dissipation strip are respectively connected to the top edge and the bottom edge of the lower bowl body 20, and the outer side wall of the whole lower bowl body 20 covers the second anti-scald structure 52, which is higher in manufacturing cost compared with the above embodiment. If, as a whole, heat radiation fin, heat dissipation strip are replaced by thermal-insulated woollen blanket, thermal-insulated cortex, arch, projection, honeycomb holes or diamond hole etc. as long as do not deviate from the utility model discloses a design of gist all should fall into the utility model discloses a within the scope of protection.

Referring to fig. 2 and 3, the rotating shaft 30 is rotatably disposed on the upper bowl body 10, and the lower section of the rotating shaft 30 extends into the lower bowl body 20 and is connected to the lower sealing film 132 through the connecting member 40, so that the rotating shaft 30 can drive the connecting member 40 to tear the lower sealing film 132, and the second food material can fall into the first cavity 21 through the lower opening 12 and then be mixed with the first food material.

Referring to fig. 2 to 5, in the present embodiment, a shaft sleeve 17 is fixed on the upper bowl 10 and is matched with the rotating shaft 30, and the axial direction of the shaft sleeve 17 is consistent with the assembling direction of the upper bowl 10 and the lower bowl 20. The shaft 30 is rotatably connected to the sleeve 17 so that the shaft 30 can rotate about the shaft with respect to the upper bowl 10. Specifically, the position of the shaft sleeve 17 is the farthest position (as shown in fig. 3) from the tearing point of the lower sealing film 132, so that when the rotating shaft 30 drives the connecting member 40 to tear the film, the lower opening 12 can be opened to the greatest extent, which is beneficial to the smooth falling of the solid matters in the second food material into the lower bowl body 20.

Referring to fig. 1, 2 and 3, in one embodiment, a boss 18 is formed by protruding a sidewall of the upper bowl 10 into the second cavity 14, a shaft sleeve 17 is disposed in a middle portion of the boss 18, and the shaft sleeve 17 penetrates through upper and lower surfaces of the upper bowl 10.

Referring to fig. 2, fig. 6 and fig. 7, in the present embodiment, a fastening structure 31 is disposed at a top portion of the rotating shaft 30, and the fastening structure 31 is used for rotatably limiting the rotating shaft 30 in the shaft sleeve 17; exemplarily, the fastening structure 31 includes two elastic pieces 311 distributed around the central axis of the rotating shaft 30, and the outer peripheral wall of each elastic piece 311 is provided with a fastening edge 312 protruding outward along the radial direction of the rotating shaft 30; the rotating shaft 30 is inserted into the shaft sleeve 17, and the locking edge 312 is locked on the end surface of the top opening of the shaft sleeve 17 after assembly to prevent the rotating shaft 30 from falling off.

It is understood that the number of the elastic pieces 311 can be three or more.

Referring to fig. 2, 3 and 4, in the present embodiment, the rotating shaft 30 is connected to the lower sealing film 132 through the connecting member 40, specifically, one end of the connecting member 40 is connected to the tearing opening of the lower sealing film 132, and the other end is connected to the middle of the rotating shaft 30, so that the rotating shaft 30 can drive the connecting member 40 to tear the film when rotating. The connecting member 40 may be a band, a wire or other members for connecting the lower sealing film 132 and the shaft 30, such as a connecting string or a band film, but the invention is not limited thereto. As one of the preferable technical solutions, the connecting member 40 is in the form of a strip, one end of the strip is connected to the tearing opening of the lower sealing film 132, and the other end of the strip is fixedly connected to the middle of the rotating shaft 30, so that when the rotating shaft 30 rotates, the strip can be wound around the rotating shaft 30, and the lower sealing film 132 is pulled to complete the film tearing operation. It is to be noted that the band-shaped film is used in the present embodiment for facilitating the connection with the lower sealing film 132.

Referring to fig. 6 and 7, the outer peripheral wall of the middle portion of the rotating shaft 30 of the present embodiment is provided with at least one welding plane 32, the welding plane 32 is used for welding and fixing with the connecting element 40, and exemplarily, the rotating shaft 30 is provided with two welding planes 32, and the two welding planes 32 are disposed opposite to each other. Carry out fixed connection with connecting piece 40 and pivot 30, adopt the butt fusion mode usually, and when the butt fusion, need laminate the location to two objects of connecting, this embodiment sets up butt fusion plane 32 with pivot 30 middle part, is in order to laminate connecting piece 40 on pivot 30 more conveniently, and then carries out the butt fusion. This is particularly the case when the connecting member 40 is a band-shaped film, and the outer peripheral wall of the rotating shaft 30 is formed as the welding plane 32, so that the welding area between the band-shaped film and the rotating shaft 30 can be increased, and the connection between the two can be more stable.

In another preferred scheme, a limit plate 33 is respectively arranged at the upper and lower positions of the middle part of the rotating shaft 30, a space for the connecting piece 40 to wind is formed between the upper and lower limit plates 33, and the space defines the upper limit position and the lower limit position of the connecting piece 40 when the connecting piece is wound, so that the film tearing process is tidier and smoother.

Wherein, the area of the limit plate 33 adjacent to the snap structure 31 is larger than the cross section of the bushing 17, so that the position of the rotating shaft 30 in the axial direction is limited when the upper section of the rotating shaft 30 is connected to the bushing 17. Specifically, the process of inserting the shaft 30 into the sleeve 17 is described as follows:

referring to fig. 8 and 9, the insertion direction is from the bottom of the upper bowl 10 to the top; the elastic sheet 311 is applied with force to compress the two elastic sheets 311 toward the central axis of the rotating shaft 30, then the rotating shaft 30 is aligned with the shaft sleeve 17 and inserted from bottom to top and pushed forward, and when the front end of the elastic sheet 311 protrudes out of the top end face of the shaft sleeve 17 and the elastic sheet 311 rebounds under the action of self elasticity, the two elastic sheets are inserted and connected. At this time, the locking edge 312 of the elastic sheet 311 is locked on the end surface of the opening at the top end of the shaft sleeve 17, so as to prevent the rotating shaft 30 from sliding downwards; as a preferable scheme, the top end of the shaft sleeve 17 is provided with a sunken step 170, and the sunken step 170 just accommodates the clamping edge 312 of the elastic sheet 311 when the rotating shaft 30 is inserted in place, so that the top surface of the upper bowl body 10 is ensured to be free of protrusion, and the appearance is more attractive; the limiting plate 33 adjacent to the fastening structure 31 abuts against the bottom end surface of the shaft sleeve 17 to prevent the rotating shaft 30 from sliding upwards, so that the rotating shaft 30 is positioned on the shaft sleeve 17, and the rotating shaft 30 can rotate around the shaft.

Referring to fig. 7 and 9, as a preferred scheme, the section of the locking edge 312 is provided with a wedge shape, which facilitates the insertion connection of the locking structure 31 and the shaft sleeve 17.

Referring to fig. 5 and 6, the outer wall of the elastic piece 311 is provided with a first rib 313, the inner wall of the shaft sleeve 17 is provided with a second rib 171, and the first rib 313 and the second rib 171 are both in axial alignment with the rotating shaft 30; the first and second protrusions 313 and 171 are configured to interfere with each other to provide resistance to rotation of the shaft 30 relative to the sleeve 17 to certain specific angles, and this configuration is configured to ensure that the position of the shaft 30 on the sleeve 17 remains relatively fixed and cannot be easily rotated, and to prevent the connecting member 40 from loosening.

Referring to fig. 4 to 7, a notch 314 is formed between the two elastic sheets 311 of the present embodiment, and on one hand, the notch 314 is used as a part for connecting an external tool, so that the external tool can drive the rotating shaft 30 to rotate together; on the other hand, when the food material is heated by steam, the steam can enter the lower bowl body 20 from the notch 314; correspondingly, the shaft sleeve 17 on the upper bowl 10 is also designed to be a structure consisting of a plurality of arc pieces (not shown), and gaps for steam to pass through are formed among the plurality of arc pieces. Preferably, a reinforcing plate 172 (shown in fig. 5) is further disposed between the outer wall of each arc piece and the upper bowl body 10 for supporting the arc pieces, so that the sleeve 17 has higher strength.

Referring to fig. 5 and 6, as a preferred embodiment, the number of the arc pieces forming the shaft sleeve 17 is not equal to the number of the elastic pieces 311 of the rotating shaft 30, for example, the number of the arc pieces is three, and the number of the elastic pieces 311 is two, so that no matter which angle the rotating shaft 30 rotates, a vent gap can be formed between the rotating shaft 30 and the shaft sleeve 17 for steam to pass through, thereby avoiding the steam blocking phenomenon.

Certainly, in other embodiments, the wall of the shaft sleeve 17 may be further provided with a vent hole to cooperate with the notch 314 between the elastic pieces 311 to form a gap for steam to pass through.

Referring to fig. 6 to 8, in some embodiments, a steam guide pipe 34 is disposed at a lower portion of the rotating shaft 30, and a plurality of spray holes 341 are disposed at a bottom end surface of the steam guide pipe 34; the steam guide pipe 34 is used for connecting an external steam source to steam-heat the food material. It should be noted that the rotating shaft 30 is a hollow structure, when the food material needs to be heated, external steam is introduced from the top of the rotating shaft 30 and is finally sprayed out from the spraying holes 341 of the steam conduit 34, and the steam conduit 34 extends into the first cavity 21, so as to heat the food material.

In one preferred embodiment, a plurality of spray holes 341 are formed in the sidewall of the steam conduit 34, and in such a structure of the spray holes 341, steam is sprayed in the horizontal direction and forms a steam circulation in the lower bowl body 20 along the first cavity 21, and the steam plays a role in rolling and stirring the food material when passing through the food material, so that the food material obtains a more uniform heating effect.

It can be understood that the above-mentioned solution of the nozzle 341 disposed on the sidewall of the steam conduit 34 is only a preferred embodiment of the present invention, and in other embodiments, the position of the nozzle 341 can be further disposed on the bottom end surface of the steam conduit 34, or the combination of the above positions, all can achieve the effect of steam heating the food material, and the present invention is not limited thereto.

It should be noted that the rotating shaft 30 of the present embodiment is an integrated structure, that is, the upper section and the lower section of the rotating shaft 30 are connected into a whole, and this structure has the advantages of being simpler and being beneficial to manufacturing and assembling. Of course, in other embodiments, the shaft 30 may be provided in a single structure, or both.

The factory packaging process of the food container is as follows: the first food material is filled in the first cavity 21, the second food material is filled in the second cavity 14, and then the upper bowl body 10 and the lower bowl body 20 are aligned up and down and are covered together, thereby completing the factory packaging of the food container 100. After the food container 100 is assembled, the bottom of the lower sealing film 132, the connecting member 40 and the rotating shaft 30 are all located inside the food container 100, the upper portion of the rotating shaft 30 penetrates through the upper bowl body 10 and can be connected and matched with an external tool, and the rotating shaft 30 rotates under the action of the external tool to drive the connecting member 40 to complete film tearing. After the lower sealing film 132 is torn, the second food material falls into the first cavity 21 through the lower opening 12 to be mixed with the first food material, so that the subsequent processing and eating can be performed.

Wherein, the factory packaging process of the upper bowl body 10 is described as follows: firstly, the lower sealing film 132 is sealed and covered at the lower opening 12, and then the second food material is filled from top to bottom; thereafter, the upper sealing film 131 is sealed to cover the upper opening 11, thereby completing the packaging of the second food material.

By the way, the utility model discloses an go up bowl body 10 when packing and dispatching from the factory, owing to can down pack into the second from the follow and eat the material, consequently can remove from with last bowl body 10 overturn, wait to pack into the second and eat the material after, will go up bowl body 10 upset again and with the operation mode that lower bowl body 20 assembled, simplified the second and eaten the packing flow of material, improved efficiency, and then improve whole food container's the efficiency of dispatching from the factory.

Additionally, the utility model discloses an upper bowl body 10 sets up upper shed 11, consequently, only need one deck seal membrane to the sealed at food container 100 top can, compare in through lid or other adoption food container 100 main part materials carry out the mode sealed, more save raw and other materials, be favorable to reduction in production cost.

With reference to fig. 1, fig. 2 and fig. 4, in some other embodiments, a partition 15 is disposed in the second cavity 14, the partition 15 divides the second cavity 14 into two chambers, and the two chambers are used for separately storing the solid and the liquid in the second food material; a grid (not shown) for the liquid in the second food material to flow through is arranged on the partition plate 15; the lower opening 12 covers at least a chamber for containing the solid matter.

Referring to fig. 1 to 4, exemplarily, the two chambers are a first chamber 161 and a second chamber 162, respectively, the first chamber 161 is used for containing solids, and the second chamber 162 is used for containing liquid; the lower opening 12 is opened at a position corresponding to the first chamber 161. Through the baffle 15 that sets up the area grid, can separate the solid matter and the liquid of second in eating the material and store, rotate when pivot 30 and tear the back with inferior sealing membrane 132, lower open 12 opens, and the solid matter directly falls into down in the bowl body 20, and liquid is eaten the material and then is eaten the material through the grid and flow in down in the bowl body 20 to make first edible material and second eat the material and mix. The lower opening 12 is provided to cover at least the lower part of the chamber for containing the solid matter, and it is ensured that the solid matter falls into the lower bowl body 20 completely without remaining.

In the present embodiment, the first and second chambers 161 and 162 are semicircular, and have substantially the same volume. The profile of both the lower opening 12 and the lower sealing membrane 132, matching the profile of the first chamber 161, is also semicircular. In addition, the bottom wall of the second chamber 162 may be closed, i.e., made of the same material as the upper bowl body 10; of course, in other embodiments, the second chamber 162 may be configured to be open, and the opening of the second chamber 162 may also need to be sealed by a film.

Example two

The present embodiment provides a food container 100, wherein the food container 100 includes an upper bowl 10, a lower bowl 20 and a rotation shaft 30.

The present food container 100 is different from the first embodiment in that: the upper bowl body 10 is provided with only the lower opening 12, that is, the top surface of the upper bowl body 10 is closed, and the inner space of the upper bowl body 10 forms a second cavity 14 for containing the second food material.

It is understood that the food container 100 of the present embodiment can achieve the same functions and effects as the embodiment except that the operation flow is more complicated than the embodiment and the manufacturing of the upper bowl body 10 is more raw material consuming when the second food material is filled.

EXAMPLE III

The present embodiment provides a food container 100, the food container 100 includes an upper bowl body 10 and a lower bowl body 20, and the upper bowl body 10 is covered on the lower bowl body 20, so as to assemble the food container 100.

The food container 100 of the present embodiment does not include the rotating shaft 30 and the structure matching with the rotating shaft, so the food container 100 cannot achieve the purpose of mixing two food materials without opening the container as in the above two embodiments.

The anti-scald structures of the first and second embodiments are disposed on the upper and lower bowl bodies 10 and 20, respectively, so it can be understood that the food container 100 of the present embodiment can still achieve the same anti-scald function as the above two embodiments.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a food container, its characterized in that, includes the last bowl body and the bowl body down that can each other the lock-joint be in the same place, the top edge of going up the bowl body is equipped with first anti-scald structure, and/or the lateral wall of the bowl body corresponds down first anti-scald structure department is equipped with second anti-scald structure, first anti-scald structure and/or second anti-scald structure forms the contact site of staff.

2. The food container of claim 1, wherein the first anti-scald structures are disposed on opposite sides of a top edge of the upper bowl body.

3. The food container of claim 2 wherein said top edge of said upper bowl body is recessed on opposite sides thereof to form a recess, said recess being spaced apart from a plurality of heat sink fins, said heat sink fins forming said first burn-proof structure.

4. The food container as claimed in any one of claims 1-3, wherein the second anti-burn structure is disposed adjacent to a top edge of the lower bowl body and includes a plurality of spaced-apart heat-dissipating strips that circumscribe a circle along the lower bowl body.

5. The food container of claim 1 wherein said lower bowl body defines a first cavity for receiving a first food material, said upper bowl body defines a second cavity for receiving a second food material, said second cavity defines a lower opening, and said lower opening is covered by a lower sealing membrane;

the food container is connected including rotating the pivot on the last bowl body, the lower extreme of pivot passes go up the bowl body and stretch into first appearance intracavity, through a connecting piece and with inferior sealing membrane is connected.

6. The food container of claim 5 wherein said upper bowl body further defines an upper opening, said upper opening being covered by a sealing membrane.

7. The food container as claimed in claim 5 or 6, wherein a steam guide pipe is provided at a lower end of the rotation shaft, and the steam guide pipe is provided with a spray hole.

8. The food container of claim 7, wherein the spray holes open on a sidewall of the steam guide.

9. The food container as claimed in claim 5 or 6, wherein a partition plate with a grid hole is arranged in the second containing cavity, the partition plate divides the second containing cavity into a first chamber and a second chamber, the first chamber is used for storing solids in a second food material, and the lower opening is arranged below the first chamber; the second chamber is for storing a liquid in a second food material.

10. The food container of claim 5 wherein the connecting member comprises a strip film or a connecting string.

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