CN215305314U - Dosing unit and kitchen equipment - Google Patents

Abstract

The utility model discloses a batching device and kitchen equipment, relates to the technical field of kitchen utensils, and mainly aims to realize quick conveying of seasonings, so that the occupied space of a cooking bench is saved, and meanwhile, the batching efficiency is improved. The main technical scheme of the utility model is as follows: the batching device is used for assisting in cooking and comprises a blanking part, wherein the blanking part comprises a discharge hole; the discharging hole is communicated with the feeding pipeline; the inlet of the material spraying part is communicated with the blanking pipeline, and the material spraying part is used for sucking the materials in the blanking pipeline and spraying the materials out of the outlet of the material spraying part; and the discharge pipeline is communicated with an outlet of the material spraying part.

Description

Dosing unit and kitchen equipment

Technical Field

The utility model relates to the technical field of kitchen utensils, in particular to a batching device and kitchen equipment.

Background

The seasoning is an indispensable cooking material in the daily cooking process of people and can be divided into a solid state seasoning and a liquid state seasoning according to the physical form of the seasoning, wherein the solid seasoning generally comprises salt, sugar, chicken essence and the like.

At present, in the cooking process, seasonings, particularly solid seasonings, are usually manually put into a frying pan, the labor intensity is high, although some batching equipment capable of realizing quantitative seasonings for cooking dishes exist, the batching equipment also needs to put the seasonings into a spoon or a material cup, and the seasonings cannot be automatically put into the frying pan; there are also some dispensing equipment of going into the pot with the condiment is automatic, but pipeline and the conveying mechanism that these dispensing equipment carried the condiment to the pan are comparatively complicated, often can use a plurality of corollary equipments such as malleation station and negative pressure station simultaneously for dispensing equipment's whole occupation of land space increase, equipment cost improves, and conveying efficiency reduces.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a batching device and kitchen equipment, and mainly aims to realize quick conveying of seasonings, so that the occupied space and the equipment cost of a cooking bench are saved, and meanwhile, the batching efficiency is improved.

In order to achieve the purpose, the utility model mainly provides the following technical scheme:

the embodiment of the utility model provides a batching device for auxiliary cooking, which comprises:

a feeding part, which comprises a discharge port;

the discharging hole is communicated with the feeding pipeline;

the inlet of the material spraying part is communicated with the blanking pipeline, and the material spraying part is used for sucking the materials in the blanking pipeline and spraying the materials out of the outlet of the material spraying part;

and the discharge pipeline is communicated with an outlet of the material spraying part.

Further, the length of the blanking pipeline is smaller than that of the discharging pipeline;

the sectional area of the discharging pipeline is larger than that of the discharging pipeline;

a speed reduction part is arranged in the discharging pipeline and is used for reducing the flowing speed of the material; and/or the inner cavity of the discharge pipeline comprises a plurality of large-diameter sections and a plurality of small-diameter sections which are alternately connected, and the connecting part of the large-diameter sections and the small-diameter sections is in smooth transition.

Furthermore, the speed reduction part comprises a bulge which is arranged on the inner wall of the discharge pipeline and extends spirally along the length direction of the discharge pipeline; and/or the presence of a gas in the gas,

the speed reduction part comprises a plurality of salient points which are arranged on the inner wall of the discharging pipeline and are uniformly distributed; and/or the presence of a gas in the gas,

the speed reduction part comprises a plurality of elastic convex columns or elastic lugs, the elastic convex columns or the elastic lugs are arranged on the inner wall of the discharge pipeline and are uniformly distributed, and the elastic convex columns or the elastic lugs can deform under the impact of materials.

Further, the batching device further comprises:

the material blocking part is arranged at the outlet of the discharging pipeline and used for blocking the splashing of the material;

the material blocking part comprises a bent plate body, the plate body comprises a first part and a second part which are connected, the first part is rotatably connected to an outlet of the discharge pipeline, and the plate body has a first position and a second position relative to the discharge pipeline;

in the first position, the first portion plugs the outlet of the discharge pipe;

in the second position, the first portion is separated from the outlet of the exit conduit and the second portion is opposite the outlet of the exit conduit;

a first elastic layer is arranged on the surface of one side of the first part facing the discharge pipeline; a second elastic layer is arranged on the surface of one side, facing the discharge pipeline, of the second part; and/or the first part and the second part are elastic pieces.

Further, the unloading pipeline is kept away from the one end of spouting material portion is provided with the malleation mouth, the malleation mouth is connected with malleation device, is used for assisting the material is followed the unloading pipeline to spout the removal of material portion.

Furthermore, the material spraying part comprises a feeding part, a material passing part and a discharging part, and the feeding part, the material passing part and the discharging part are all hollow structures with openings at two ends;

the inner cavity of the feeding part comprises an accommodating section and a first feeding section which are communicated, and the feeding part is provided with an air supply hole communicated with the accommodating section;

the material passing part is dumbbell-shaped, is arranged in the accommodating section along the axial direction of the feeding part and forms an annular cavity with the accommodating section in an enclosing manner, and one end of the material passing part is provided with a gas passing hole communicated with the annular cavity and obliquely arranged;

the inner cavity of the discharging part comprises a second feeding section and a discharging section which are communicated, and the inner diameter of the second feeding section is gradually reduced from the second feeding section to the discharging section;

the end where the second feeding section of the discharging part is located is connected with the end where the accommodating section of the feeding part is located, the air passing holes are respectively communicated with the annular cavity and the second feeding section, and the inclination direction of the air passing holes is the same as that of the inner wall of the second feeding section.

Furthermore, the number of the air passing holes is multiple, and the air passing holes are uniformly distributed along the circumferential direction of the material passing part;

the inner diameter of the air passing hole is smaller than a preset value;

the inner diameter of the first feeding section gradually decreases from the first feeding section to the containing section;

one end of the material passing part is provided with a first sealing element, and is abutted against the discharging part and the inner wall of the accommodating section through the first sealing element;

and the other end of the material passing part is provided with a second sealing element, and the other end of the material passing part is abutted to the inner wall of the accommodating section through the second sealing element.

Further, the sectional area of the blanking pipeline is gradually increased from the direction far away from the material spraying part to the direction close to the material spraying part; and/or the blanking pipeline comprises a top plate and a bottom plate, and the bottom plate is obliquely and obliquely arranged relative to the top plate in a downward extending mode from a direction far away from the material spraying part to a direction close to the material spraying part.

Further, the batching device further comprises:

the blanking joint is of a hollow structure with openings at two ends; the blanking joint is arranged between the blanking pipeline and the material spraying part;

the inner chamber that the unloading connects is including the first section and the second section that are linked together, first section is close to the unloading pipeline sets up, the second section is close to spout the material portion setting, first section and second section all are and leak hopper-shaped, the internal diameter of first section is greater than the internal diameter of second section, the junction rounding off of first section and second section.

According to another aspect of the utility model, there is provided a kitchen appliance comprising the above-described dosing assembly.

By means of the technical scheme, the utility model at least has the following beneficial effects:

according to the batching device and the kitchen equipment provided by the embodiment of the utility model, the discharge port of the discharging part is communicated with the discharging pipeline, so that materials in the discharging part can enter the discharging pipeline through the discharge port, and the discharging pipeline is communicated with the discharging pipeline through the material spraying part, so that when the material spraying part is started, the material spraying part can absorb the materials in the discharging pipeline and spray the materials to the discharging pipeline, and the materials are quickly conveyed into a pot through the discharging pipeline, so that the quick conveying of the materials is realized, the material conveying can be realized without simultaneously arranging a plurality of matched equipment such as a positive pressure station, a negative pressure station and the like, the occupied space of a cooking bench is reduced, the use is more convenient, the structure is simple, and the cost is low.

According to the dosing device and the kitchen equipment provided by the embodiment of the utility model, other parts such as the gas-solid separator and the like are not arranged at the outlet end of the discharge pipeline, so that materials sprayed out of the discharge channel can be directly fed into a pot without passing through any other part, on one hand, the cost of the dosing device can be saved, the whole volume of the dosing device is reduced, and the dosing device is more miniaturized; on the other hand, the material directly inserts the pot, not only can improve batching efficiency, can also reduce the material and remain in the device for the material ration is more accurate.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic structural diagram of a dispensing device according to an embodiment of the present invention;

fig. 2 is a schematic structural view of the material blocking part arranged at an outlet of the discharging pipeline in fig. 1;

fig. 3 is a cross-sectional view of the material blocking part arranged at the outlet of the discharging pipeline in fig. 2;

FIG. 4 is a schematic structural view of the material spraying part in FIG. 1;

FIG. 5 is an exploded view of the material ejection portion shown in FIG. 4;

FIG. 6 is a schematic structural view of the blanking pipe of FIG. 1 at a first viewing angle;

fig. 7 is a schematic structural view of the blanking pipe in fig. 1 at a second viewing angle.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered 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 defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

As shown in fig. 1, an embodiment of the present invention provides a dispensing device for assisting cooking, including a feeding portion 1, where the feeding portion 1 includes a discharging hole; a discharging pipeline 11 communicated with the discharging port; the inlet of the material spraying part 2 is communicated with the blanking pipeline 11, and the material spraying part 2 is used for sucking the materials in the blanking pipeline 11 and spraying the materials out of the outlet of the material spraying part; and the discharge pipeline 3 is communicated with an outlet of the material spraying part 2.

According to the batching device provided by the embodiment of the utility model, the discharge hole of the discharging part is communicated with the discharging pipeline, so that materials in the discharging part can enter the discharging pipeline through the discharge hole, and the discharging pipeline is communicated with the discharging pipeline through the material spraying part, so that when the material spraying part is started, the material spraying part can absorb the materials in the discharging pipeline and spray the materials to the discharging pipeline, so that the materials are quickly conveyed into a pot through the discharging pipeline, the quick conveying of the materials is realized, the material conveying can be realized without simultaneously arranging a plurality of matched devices such as a positive pressure station and a negative pressure station, the occupied space of a cooking bench is reduced, the use is more convenient, and the equipment cost is low.

According to the batching device provided by the embodiment of the utility model, other parts such as the gas-solid separator and the like are not arranged at the outlet end of the discharge pipeline, so that materials sprayed out of the discharge channel can be directly fed into a pot without passing through any other part, on one hand, the cost of the batching device can be saved, the overall volume of the batching device is reduced, and the batching device is more miniaturized; on the other hand, the material directly inserts the pot, not only can improve batching efficiency, can also reduce the material and remain in the device for the material ration is more accurate.

Because the suction of the material spraying part 2 to the material in the blanking pipeline 11 is limited, in order to avoid the material residue in the blanking pipeline 11, in the embodiment of the utility model, the length of the blanking pipeline 11 can be smaller than that of the discharging pipeline 3, so that the stroke of the material in the blanking pipeline 11 is reduced, the material can be quickly sucked away by the material spraying part 2, the material residue in the blanking pipeline 11 is avoided, and the material quantification accuracy is further improved.

In the embodiment of the utility model, the sectional area of the discharging pipeline 3 can be larger than that of the blanking pipeline 11. On the one hand, the sectional area of unloading pipeline 11 is less for spout the high-speed air current that material portion 2 formed in unloading pipeline 11 and concentrate relatively, thereby can carry the material fast, avoid the material to take place to block up and remain better, further improved the quantitative precision of material. On the other hand, the sectional area of the discharging pipeline 3 is large, so that the flowing speed of the materials in the discharging pipeline 3 can be reduced, the speed of the materials entering the pot is reduced, the materials are prevented from rebounding and splashing when being impacted with the food materials in the pot, and the cooking effect is guaranteed.

In order to further slow down the speed of the materials entering the pot, in the embodiment of the utility model, a speed reducing part can be arranged in the discharging pipeline 3, and the speed reducing part is used for reducing the flowing speed of the materials; and/or the inner cavity of the discharge pipeline 3 comprises a plurality of large-diameter sections and a plurality of small-diameter sections which are alternately connected, and the connecting part of the large-diameter sections and the small-diameter sections is in smooth transition.

In the above embodiment, the speed reduction part in the discharge pipeline 3 can reduce the flow speed of the material; or the inner cavity of the discharge pipeline 3 is set into a wavy shape in which a plurality of large-diameter sections and a plurality of small-diameter sections are alternately connected, so that the flowing speed of the material is reduced; or, set up speed reduction portion in ejection of compact pipeline 3 promptly, set up the inner chamber of ejection of compact pipeline 3 into the wave form again to slow down the flow velocity of material better, and then avoid material and the interior edible material of pot to bounce back and spill when assaulting better, further guaranteed the culinary art effect.

In the above embodiment, the smooth transition of the junction of the large-diameter section and the small-diameter section of the discharging pipeline 3 enables the material to smoothly pass through the junction, so that the blockage and residue of the material at the junction are avoided, and the quantitative accuracy of the material is further improved.

The structure of the speed reduction part can be various, and the flow speed of the materials in the discharge pipeline can be reduced. In the embodiment of the present invention, the decelerating portion may include a protrusion, which is disposed on the inner wall of the discharging pipe 3 and extends spirally along the length direction of the discharging pipe 3; and/or the speed reduction part comprises a plurality of salient points which are arranged on the inner wall of the discharge pipeline 3 and are uniformly distributed; and/or, the speed reduction portion includes a plurality of elasticity projection or elastic lug, and a plurality of elasticity projection or elastic lug set up on the inner wall of ejection of compact pipeline 3 and evenly arrange, and elasticity projection or elastic lug can take place deformation under the impact of material.

In the above embodiment, the decelerating portion may be a spirally extending protrusion, a plurality of protruding points uniformly arranged, a plurality of elastic protruding columns or protruding pieces uniformly arranged, or a combination of any two or more of these structures, and may be determined according to the actual required speed of the material entering the pot during implementation.

In the above embodiment, when the speed reduction part includes a plurality of elastic protrusions or elastic lugs, because elastic protrusions or elastic lugs have elasticity, consequently, elastic protrusions or elastic lugs can take place deformation and move along with the material forward under the impact of material when the material flows for elastic protrusions or elastic lugs can not block up the material, have avoided the material to take place to block up and remain because of the speed reduction part, have further improved the quantitative precision of material.

In order to further avoid the material from rebounding and splashing when impacting the food material in the pot, in the embodiment of the utility model, the batching device can further comprise a material blocking part which is arranged at the outlet of the discharging pipeline 3 and used for blocking the material from splashing when the material is sprayed into the pot from the outlet of the discharging pipeline 3, so that the cooking effect is further ensured.

The structure of the material blocking part can be various, and the material can be prevented from splashing. In the embodiment of the present invention, referring to fig. 2 and 3, the material blocking portion may include a bent plate body 5, the plate body 5 includes a first portion 51 and a second portion 52 connected with each other, the first portion 51 is rotatably connected to the outlet of the discharging pipe 3, and the plate body 5 has a first position and a second position relative to the discharging pipe 3; in the first position, the first portion 51 blocks the outlet of the discharge duct 3; in the second position, the first portion 51 is separated from the outlet of the exit duct 3 and the second portion 52 is opposite the outlet of the exit duct 3.

In the above embodiment, the plate body 5 is a bent plate body structure, and when the material is not discharged, the plate body 5 can be located at the first position, so that the first part 51 blocks the outlet of the discharge pipeline 3, thereby preventing water vapor or other impurities generated during cooking from entering the discharge pipeline, and ensuring the quality and the use safety of the material; during the ejection of compact, plate body 5 can be in the second position, and the export of ejection of compact pipeline 3 is opened to first portion 51, and second portion 52 is relative with the export of ejection of compact pipeline 3 simultaneously, and second portion 52 blocks in the material spun direction of advance promptly to block the material in order to avoid the material velocity of flow too fast and spout outside the pot, further guaranteed the culinary art effect.

It should be noted that, this dosing unit may also include actuating mechanism such as cylinder, and its drive end may be connected with first portion 51 drive, and when actuating mechanism received the unloading instruction, can drive first portion 51 and rotate so that plate body 5 is in the second position, realizes the unloading, and when actuating mechanism received the unloading and finishes the instruction, can drive first portion 51 antiport so that plate body 5 is in the first position, and the unloading is finished, and it is more convenient to operate.

The outlet of the discharge duct 3 may be a duct structure integrated with the discharge duct 3, or may be a pipe joint connected to the discharge duct 3, such as a joint structure, and is not limited herein.

In the embodiment of the present invention, a first elastic layer, such as a silica gel layer, is disposed on a surface of the first portion 51 facing the discharge duct 3; a second elastic layer such as a silica gel layer is arranged on the surface of one side of the second part 52 facing the discharge pipeline 3; and/or, the first portion 51 and the second portion 52 are elastic members such as silicone members.

In the above embodiment, by providing the first elastic layer on the first portion 51 and/or providing the first portion 51 as an elastic member, the first portion 51 is abutted against the outlet of the discharge duct 3 through the elastic surface, so that the sealing performance of the discharge duct 3 is improved; meanwhile, a second elastic layer is arranged on the second part 52, and/or the second part 52 is arranged as an elastic element, so that the material can be sprayed on the elastic surface, and the second part 52 has a better buffering effect on the material. The outlet of the discharge pipeline 3 can be a structure integrated with the discharge pipeline 3, namely, the outlet is formed at one end of the pipeline body of the discharge pipeline 3 close to the cooker; this export also can be a joint with the pipeline body coupling of ejection of compact pipeline 3, this joint and ejection of compact pipeline 3 intercommunication, this joint forms above-mentioned export near the one end of pan promptly, it is further, this joint can be made by the material that has certain elasticity, like this, when not discharging, when the export looks butt of the first part 51 of plate body 5 and ejection of compact pipeline 3, because connect and/or first part 51 have elasticity can make the leakproofness better through certain deformation, prevent that vapor flue gas etc. from getting into ejection of compact pipeline 3.

In the embodiment of the utility model, one end of the discharging pipeline 11, which is far away from the material spraying part 2, is provided with the positive pressure port, and the positive pressure port is connected with the positive pressure device and is used for assisting materials to move to the material spraying part 2 along the discharging pipeline 11, so that under the condition that the suction force of the material spraying part 2 to the materials in the discharging pipeline 11 is limited, positive pressure is provided for the materials in the discharging pipeline 11, the materials are quickly conveyed, the materials are better prevented from being blocked and remained, and the quantitative accuracy of the materials is further improved. Specifically, the positive pressure device may be shared with the compressed air source equipment of the material spraying section 2, or may be provided separately.

In order to ensure the reliability of material spraying, in the embodiment of the present invention, referring to fig. 4 and 5, the material spraying part 2 may include a feeding part 21, a material passing part 22, and a discharging part 23, and the feeding part 21, the material passing part 22, and the discharging part 23 are all hollow structures with openings at two ends; the inner cavity of the feeding part 21 comprises an accommodating section 211 and a first feeding section 212 which are communicated, and the feeding part 21 is provided with a gas supply hole 213 communicated with the accommodating section 211; the material passing part 22 is dumbbell-shaped, the material passing part 22 is arranged in the accommodating section 211 along the axial direction of the material feeding part 21 and forms an annular cavity 221 with the accommodating section 211, one end of the material passing part 22 is provided with a gas passing hole 222 communicated with the annular cavity 221, and the gas passing hole 222 is obliquely arranged; the inner cavity of the discharging part 23 comprises a second feeding section 231 and a discharging section 232 which are communicated, and the inner diameter of the second feeding section 231 is gradually reduced from the second feeding section 231 to the discharging section 232; the end of the second feeding section 231 of the discharging part 23 is connected with the end of the containing section 211 of the feeding part 21, the gas passing holes 222 are respectively communicated with the annular cavity and the second feeding section 231, and the inclination direction of the gas passing holes 222 is the same as that of the inner wall of the second feeding section 231.

In the above embodiment, the inner diameter of the second feeding section 231 of the discharging portion 23 gradually decreases from the second feeding section 231 to the discharging section 232, so that the second feeding section 231 forms a tapered cavity with an inclined sidewall, the air passing hole 222 with the same inclined direction as the inclined sidewall is arranged at one end of the material passing portion 22, and the air supplying hole 213 is arranged on the feeding portion 21, so that after the compressed air enters the annular cavity 221 through the air supplying hole 213, the compressed air can advance to the discharging section 232 along the inclined sidewall of the tapered cavity at a high speed through the air passing hole 222, so as to drive the air in the middle area of the tapered cavity to flow forward, and further form a negative pressure in the first feeding section 212 of the feeding portion 21, so that the material sucked by the first feeding section 212 is finally mixed with the compressed air and flows out from the discharging section 232.

Wherein, the air supply hole 213 of the feeding portion 21 can be connected with the compressed air source through a control valve, when the material spraying portion 2 receives a material preparing instruction, the control valve is opened, the compressed air enters the annular cavity 221 through the air supply hole 213, the material in the blanking portion 1 falls into the blanking pipeline 11 and forms a high-speed material flow in the blanking pipeline 11 under the suction force of the material spraying portion 2, until the material is sprayed out of the discharging pipeline 3 into the pot. Specifically, compressed air source can have multiple production mode, for example, air pump, malleation station, fan etc. all can be used for carrying compressed air, as compressed air source equipment, it can be seen that only need compressed air source's production facility can, need not to set up complicated and bulky malleation station and negative pressure station simultaneously. Optionally, the generating device of the compressed air source may be a part of the dispensing device, and is disposed inside the dispensing device, or may be an independent device independent of the dispensing device, and may be communicated with the dispensing device spraying portion 2, or may be partially disposed inside the dispensing device, and may be specifically adjusted according to factors such as a kitchen space, a design space of the dispensing device, and a user's demand.

In the embodiment of the present invention, referring to fig. 4, the number of the air passing holes 222 may be multiple, the air passing holes 222 are uniformly distributed along the circumferential direction of the material passing portion 22, and the inner diameter of the air passing holes 222 is smaller than a preset value. Wherein, the inner diameter of the air passing hole 222 is smaller than the preset value, that is, the air passing hole 222 is set as small as possible so as to increase the flow velocity of the air flow and further drive the air in the middle area of the conical cavity to move forward; specifically, the preset value can be set according to the flow rate of the required air flow. The air holes 222 are arranged in a plurality and are uniformly distributed along the circumferential direction of the material passing part 22, so that air in the middle area of the conical cavity can be uniformly driven, and materials can be uniformly and dispersedly conveyed into the pot.

In the embodiment of the present invention, referring to fig. 4, the inner diameter of the first feeding section 212 is gradually decreased from the first feeding section 212 to the containing section 211, so as to facilitate the material to enter the material spraying part 2 through the first feeding section 212 together with air, and prevent the material from being blocked at the inlet of the first feeding section 212.

In the embodiment of the utility model, referring to fig. 4 and 5, one end of the material passing part 22 is provided with a first sealing member 223, and one end of the material passing part 22 is abutted with the inner walls of the discharging part 23 and the accommodating section 211 through the first sealing member 223; the other end of the material passing portion 22 is provided with a second sealing member 224, and the other end of the material passing portion 22 abuts against the inner wall of the accommodating section 211 through the second sealing member 224, so that the sealing performance of the material spraying portion is ensured, and the compressed air entering the annular cavity 221 flows out of the air passing hole 222 as much as possible. Both the first seal 223 and the second seal 224 may be sealing rings.

In the embodiment of the utility model, referring to fig. 6 and 7, the sectional area of the blanking pipeline 11 is gradually increased from the direction far away from the material spraying part 2 to the direction close to the material spraying part 2; and/or, unloading pipeline 11 includes roof 111 and bottom plate 112, and bottom plate 112 extends the setting for roof 111 from keeping away from spouting material portion 2 to being close to the direction downward sloping of spouting material portion 2 to be convenient for the material flow in unloading pipeline 11, avoid the material to take place to block up and remain better, improved the quantitative precision of material further. The blanking channel 11 may be a channel structure formed by mutually enclosing a top plate and a cover plate.

In the embodiment of the present invention, referring to fig. 1 and 6, the batching device may further include a blanking joint 12, and the blanking joint 12 is disposed between the blanking pipe 11 and the material spraying portion 2, that is, the material in the blanking pipe 11 is sprayed into the pot through the blanking joint 12, the material spraying portion 2, and the discharging pipe 3 in sequence under the suction force of the material spraying portion 2. The blanking joint 12 is a hollow structure with two open ends; discharge gate and unloading pipeline 11 intercommunication of unloading portion 1, export the material to unloading pipeline 11 in through the discharge gate, it is preferred, unloading portion 1 sets up to a plurality ofly, a plurality of unloading portions 1 interval sets up in unloading pipeline 11's length direction in proper order, and on the direction of height, unloading portion 1 sets up in unloading pipeline 11's top, a plurality of unloading portions 1 directly fall to unloading pipeline 11 via the discharge gate after with the material ration, the unloading connects 12 and unloading pipeline 11 and spouts material portion 2 and all communicates, and on material transmission path, the unloading connects 12 and is located unloading pipeline 11 and spouts between the material portion 2, the output route of material promptly is: after the blanking part 1 is output to the blanking pipeline 11, the material enters the material spraying part 2 through the blanking joint 12 and is output to the discharging pipeline 3, and the material is sprayed into a cooker through an outlet of the discharging pipeline 3, optionally, in order to shorten a path for outputting the material after the material is quantified from the blanking part 1, a discharge port of part of the blanking part 1 can be arranged to be opposite to an opening at the upper end of the blanking joint 12, so that the material output by part of the blanking part 1 can directly fall into the blanking joint 12, and a transmission path of the material in the blanking pipeline 11 is shortened; the inner cavity of the blanking joint 12 comprises a first section 121 and a second section 122 which are communicated, the first section 121 is arranged close to the blanking pipeline 11, the second section 122 is arranged close to the material spraying part 2, the first section 121 and the second section 122 are funnel-shaped, the inner diameter of the first section 121 is larger than that of the second section 122, and the joint of the first section 121 and the second section 122 is in smooth transition.

In the above embodiment, the unloading connects 12 and sets up between unloading pipeline 11 and spouts material portion 2, and the unloading connects in 12 and is close to first section 121 of unloading pipeline 11 and is close to the second section 122 that spouts material portion 2 and all sets up to leaking hopper-shaped, the material of being convenient for more of such structure is carried to first section 121 and second section 122 in first section 121 and second section 122 via spouting material portion 2 again in unloading portion 1 in proper order, and simultaneously, the junction rounding off of first section 121 and second section 122 does not have the dead angle, take place to block up and remain when avoiding the material to get into and spout material portion 2, the quantitative precision of material has further been improved.

In the embodiment of the present invention, the blanking portion 1 may include a material bottle and a quantitative mechanism communicated with the material bottle, the material bottle stores materials such as solid seasoning and/or liquid, the materials may be output from the discharge port to the blanking pipeline 11 through the quantitative mechanism, and the solid material may adhere to the inner wall of the pipeline due to the shared pipeline of the liquid material and the solid material, in this embodiment, the solid seasoning and the liquid seasoning are preferably separated and transported through different pipelines, in this embodiment, the solid material quantification and transportation are taken as an example, the blanking portion 1 may be provided in plural numbers, and in specific implementation, the blanking portion 1 may be provided in 3 numbers according to the type of the seasoning, for example, when the batching device is configured to be capable of configuring three solid materials, namely salt, sugar, and chicken essence, and the three solid materials are configured respectively.

In the embodiment of the utility model, the batching device can also comprise another material spraying part, wherein an inlet of the material spraying part is communicated with an outlet of the discharge pipeline 3 and is used for absorbing the materials on the inner wall of the discharge pipeline 3 and spraying the materials into the pot from the outlet, so that the materials are prevented from being adhered to the inner wall of the discharge pipeline 3 due to water vapor, the materials are prevented from being blocked and remained better, and the quantitative accuracy of the materials is further improved.

In the embodiment of the present invention, referring to fig. 1, the batching device may further include a cleaning and drying mechanism, the cleaning and drying mechanism may include a water inlet channel, an air inlet channel, and a heating portion 4, and the water inlet channel and the air inlet channel are respectively communicated with the blanking pipe 11 through the heating portion 4.

According to the above embodiment, through setting up the washing and drying mechanism, realized when this dosing unit of needs cleaning, washing water and gas can be mixed each other and heated by heating portion 4, then flow into unloading pipeline 11 in, washing water after the heating can wash unloading pipeline 11, and gas after the heating can dry unloading pipeline 11, not only can realize unloading pipeline 11 sanitization, can also dry the remaining moisture in unloading pipeline 11, prevent that the pipeline from being corroded, guaranteed unloading pipeline 11's cleanness and drying. Wherein an air filter 6 can be arranged on the air inlet channel to avoid impurities from entering the blanking pipe 11. It should be noted that the air filter 6 is communicated with the outside, when the material is conveyed, the control valve of the material spraying part 2 is opened, the compressed air enters the material spraying part 2 from the air supply hole 213, and at this time, because the air filter 6 is communicated with the outside, a stable air flow can be formed in the discharging pipeline 11, and the material is carried to flow to the discharging pipeline 3 from the discharging pipeline 11.

The application further provides a kitchen device, and the embodiment of the kitchen device according to the application comprises a batching device, wherein the batching device is the batching device. Kitchen equipment can have multiple composition form, and is optional, kitchen equipment can include receiving device and dosing unit, and dosing unit and receiving device intercommunication, dosing unit ration output condiment and put in to receiving device, and wherein, receiving device can be for the device that can accept condiment such as pan, spoon, material cup. In addition, optionally, the kitchen equipment may also include a batching device and a feeding device, the feeding device is communicated with the batching device, and when the seasoning in the batching device is short of the seasoning, the feeding device can feed the seasoning to the batching device. Because above-mentioned dosing unit has the material of realization and carries fast, the corollary equipment that needs is few, saves the occupation space of top of a kitchen range, improves the advantage of batching efficiency, and consequently the kitchen equipment who has it also has above-mentioned advantage.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A dispensing apparatus for assisting cooking, comprising:

the blanking part (1), the blanking part (1) comprises a discharge hole;

the blanking pipeline (11), the blanking pipeline (11) is communicated with the discharge hole;

the inlet of the material spraying part (2) is communicated with the blanking pipeline (11), and the material spraying part (2) is used for sucking the materials in the blanking pipeline (11) and spraying the materials out of the outlet of the material spraying part;

a discharge pipeline (3), wherein the discharge pipeline (3) is communicated with an outlet of the material spraying part (2).

2. The dosing device according to claim 1,

the length of the blanking pipeline (11) is less than that of the discharging pipeline (3);

the sectional area of the discharging pipeline (3) is larger than that of the blanking pipeline (11);

a speed reduction part is arranged in the discharging pipeline (3), and the speed reduction part is used for reducing the flowing speed of the material; and/or the inner cavity of the discharge pipeline (3) comprises a plurality of large-diameter sections and a plurality of small-diameter sections which are alternately connected, and the connecting part of the large-diameter sections and the small-diameter sections is in smooth transition.

3. The dosing device according to claim 1,

the speed reduction part comprises a bulge which is arranged on the inner wall of the discharge pipeline (3) and extends spirally along the length direction of the discharge pipeline (3); and/or the presence of a gas in the gas,

the speed reduction part comprises a plurality of salient points which are arranged on the inner wall of the discharge pipeline (3) and are uniformly distributed; and/or the presence of a gas in the gas,

the speed reduction part comprises a plurality of elastic convex columns or elastic lugs, the elastic convex columns or the elastic lugs are arranged on the inner wall of the discharge pipeline (3) and are evenly distributed, and the elastic convex columns or the elastic lugs can deform under the impact of materials.

4. The dispensing apparatus of claim 1, further comprising:

the material blocking part is arranged at the outlet of the discharging pipeline (3) and used for blocking the splashing of the material;

the material blocking part comprises a bent plate body (5), the plate body (5) comprises a first part (51) and a second part (52) which are connected, the first part (51) is rotatably connected to an outlet of the discharging pipeline (3), and the plate body (5) has a first position and a second position relative to the discharging pipeline (3);

in the first position, the first portion (51) blocks the outlet of the discharge duct (3);

in the second position, the first portion (51) is separated from the outlet of the outfeed duct (3), the second portion (52) is opposite the outlet of the outfeed duct (3);

a first elastic layer is arranged on one side surface of the first part (51) facing the discharge pipeline (3); the surface of one side of the second part (52) facing the discharge pipeline (3) is provided with a second elastic layer; and/or the first part (51) and the second part (52) are elastic pieces.

5. The dispensing apparatus of claim 1, further comprising:

unloading pipeline (11) are kept away from the one end of spouting material portion (2) is provided with the malleation mouth, the malleation mouth is connected with malleation device, is used for supplementary the material is followed unloading pipeline (11) to spout material portion (2) and remove.

6. The dosing device according to claim 1,

the material spraying part (2) comprises a feeding part (21), a material passing part (22) and a discharging part (23), and the feeding part (21), the material passing part (22) and the discharging part (23) are all of hollow structures with two open ends;

the inner cavity of the feeding part (21) comprises an accommodating section (211) and a first feeding section (212) which are communicated, and the feeding part (21) is provided with a gas supply hole (213) communicated with the accommodating section (211);

the material passing part (22) is dumbbell-shaped, the material passing part (22) is arranged in the accommodating section (211) along the axial direction of the material feeding part (21) and forms an annular cavity (221) with the accommodating section (211), one end of the material passing part (22) is provided with a gas passing hole (222) communicated with the annular cavity (221), and the gas passing hole (222) is obliquely arranged;

the inner cavity of the discharging part (23) comprises a second feeding section (231) and a discharging section (232) which are communicated, and the inner diameter of the second feeding section (231) is gradually reduced from the second feeding section (231) to the discharging section (232);

the end of the second feeding section (231) of the discharging part (23) is connected with the end of the containing section (211) of the feeding part (21), the air passing holes (222) are respectively communicated with the annular cavity and the second feeding section (231), and the inclination direction of the air passing holes (222) is the same as that of the inner wall of the second feeding section (231).

7. The dosing device according to claim 6,

the number of the air passing holes (222) is multiple, and the air passing holes (222) are uniformly distributed along the circumferential direction of the material passing part (22);

the inner diameter of the air passing hole (222) is smaller than a preset value;

the inner diameter of the first feeding section (212) is gradually reduced from the first feeding section (212) to the containing section (211);

one end of the material passing part (22) is provided with a first sealing element (223), and one end of the material passing part (22) is abutted against the discharging part (23) and the inner wall of the accommodating section (211) through the first sealing element (223);

the other end of the material passing part (22) is provided with a second sealing element (224), and the other end of the material passing part (22) is abutted to the inner wall of the accommodating section (211) through the second sealing element (224).

8. The dosing device according to claim 1,

the sectional area of the blanking pipeline (11) is gradually increased from the direction far away from the material spraying part (2) to the direction close to the material spraying part (2); and/or the blanking pipeline (11) comprises a top plate (111) and a bottom plate (112), and the bottom plate (112) is obliquely and obliquely arranged relative to the top plate (111) in a extending mode from a direction far away from the material spraying part (2) to a direction close to the material spraying part (2).

9. The dispensing apparatus of claim 8, further comprising:

the blanking joint (12), the blanking joint (12) is a hollow structure with two open ends; the blanking joint (12) is arranged between the blanking pipeline (11) and the material spraying part (2);

the inner chamber of unloading joint (12) is including first section (121) and second section (122) that are linked together, first section (121) are close to unloading pipeline (11) set up, second section (122) are close to spout material portion (2) and set up, first section (121) and second section (122) all are hourglass hopper-shaped, the internal diameter of first section (121) is greater than the internal diameter of second section (122), the junction rounding off of first section (121) and second section (122).

10. A kitchen appliance, characterized in that it comprises a dosing device according to any one of claims 1-9.

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