CN213488299U - Auxiliary material supply system of noodle cooking device - Google Patents

Abstract

The utility model relates to an auxiliary material supply system of noodless culinary art device belongs to food processing equipment field, to having the problem that holds the condiment container extravagant, possess more space among the prior art, the utility model discloses a technical scheme as follows: an auxiliary material supply system of a noodle cooking device comprises an auxiliary material supply mechanism, wherein the auxiliary material supply mechanism comprises a plurality of accommodating cavities for accommodating auxiliary materials, an opening and closing structure positioned at the lower part of each accommodating cavity comprises a rotating part positioned at an opening end and a translation part positioned at the upper part of the rotating part, when the translation part is moved outwards, the rotating part is not moved, the opening end is in a closed state, and the auxiliary materials are filled in a space defined by the translation part, the rotating part and the accommodating cavities; after the translation piece moves back, the rotation piece rotates, the opening end is in an open state, and auxiliary materials are put in. The amount of the auxiliary materials thrown each time is consistent with the volume of the space enclosed by the translation piece, the rotation piece and the containing cavity; the structure avoids using a container to contain auxiliary materials, and saves space.

Description

Auxiliary material supply system of noodle cooking device

Technical Field

The utility model belongs to rice and flour food processing equipment field, in particular to auxiliary material supply system of noodless culinary art device.

Background

With the pace of life increasing, more and more salary families expect to solve eating problems in a quick and convenient manner. Everyone likes differently, some people like eating rice flour or noodles, some people like eating rice, but because the rice flour or noodles are complex in making process, long in making time and short in preservation time, the salaried people who like eating rice flour or noodles but expect to save time are often prohibited.

In order to solve the above problem, patent document No. 201710271455.0 provides an automatic noodle cooking and selling machine, which comprises a housing and a base, wherein the housing is buckled on the base, and the automatic noodle cooking and selling machine comprises a noodle bin noodle supplying system, a finished product supplying system, an automatic noodle cooking system, a soup filling system, a seasoning supplying system, an empty bowl conveying system and a manipulator; the automatic noodle cooking and selling machine also comprises an automatic control system for controlling each mechanism to work according to the selection of a customer; under the condition of a user menu, the automatic control system is driven by a servo motor to control the noodle bin noodle supply system to work and push out corresponding noodle types (such as hot dry noodles, fine dried noodles, stretched noodles and the like) packaged by bowls; then the manipulator is controlled by the automatic control system to convey the pushed noodle semi-finished product to the automatic noodle boiling system, and the automatic noodle boiling system automatically boils noodles at the moment; meanwhile, the manipulator conveys the empty bowls pushed out from the empty bowl conveying system to a chain conveying mechanism of a finished product supply system; according to the taste selected by the user, the manipulator conveys the seasonings (such as eggs, beef, shredded meat and the like) pushed out by the seasoning supply system to an empty bowl on the chain conveying mechanism in the previous action; and conveying the noodles cooked in the automatic noodle cooking system to a bowl with seasonings on a chain conveying mechanism, controlling whether a soup filling system adds soup into the bowl or not according to the selection of a user, and finally conveying the finished noodles to a finished noodle outlet by the chain conveying mechanism. The seasonings of the automatic noodle cooking and selling machine are loaded in the seasoning bowl, but the empty bowl is transported by the empty bowl transporting system and recovered after being used, so that the seasoning container is wasted, more space is occupied, and the use is inconvenient.

SUMMERY OF THE UTILITY MODEL

For solving the problem among the prior art, the utility model provides a noodless culinary art device's auxiliary material supply system, its work efficiency is high, the simple operation satisfies the demand that people feed fast.

The utility model adopts the technical scheme as follows: an auxiliary material supply system of a noodle cooking device comprises an auxiliary material supply mechanism, wherein the auxiliary material supply mechanism comprises a plurality of accommodating cavities for accommodating auxiliary materials, the bottoms of the accommodating cavities are open, an opening and closing structure is positioned at the lower part of the accommodating cavities, the opening and closing structure comprises a rotating part positioned at the open end and a translation part positioned at the upper part of the rotating part, and the rotating part is rotatably connected to the open end through a rotating shaft so that the open end is in an open or closed state; the translation piece is controlled by a driving motor to realize translation, one end of the translation piece penetrates through the wall of the accommodating cavity, and when the translation piece moves, the penetrating end of the translation piece penetrates into or leaves the wall of the accommodating cavity; when the translation piece moves outwards, the rotating piece is not moved, the opening end is in a closed state, and the auxiliary materials fall down and fill the space surrounded by the translation piece, the rotating piece and the containing cavity; after the translation piece moves back, the rotation piece rotates, the opening end is in an open state, and auxiliary materials are put in.

The amount of the auxiliary materials thrown each time is consistent with the volume of the space enclosed by the translation piece, the rotating piece and the containing cavity, the auxiliary materials can be stuffing (such as meat paste, eggs, vegetables and the like), solid substances occupy a large proportion, but juice is always mixed in the auxiliary materials, and the rotating piece can seal the opening end to ensure that the juice cannot fall off randomly; the structure avoids using a container to contain auxiliary materials, saves space and meets the requirement of quantitatively adding the auxiliary materials.

Furthermore, the auxiliary material supply system also comprises a soup material supply mechanism, wherein the soup material supply mechanism is provided with a plurality of supply cavities, each supply cavity is filled with a soup material, each supply cavity is respectively connected with a supply pipe, and each supply pipe is provided with an electric control valve for controlling the supply amount of the soup material. Each soup base is independently controlled to be put in, the soup bases are required to be put in containers filled with rice and wheaten food, and the soup bases are quantitatively put in through electric control valves.

Furthermore, the supply pipe is a telescopic hose, the outlet of the supply pipe is limited in a shell with an opening at the lower part, the opening of the shell is a soup outlet, the shell is movably connected to a bracket for supporting the staple food containing containers, and when the shell moves to enable the soup outlet to be positioned right above one of the staple food containing containers, the electric control valve is opened to provide soup. Although only one electric control valve is opened when the soup bases are put in each time, the supply pipe is limited in one shell, so that the supply pipe is prevented from interfering, the control is convenient, the supply cavity is fixed, the bowl is fixed, only the supply pipe moves, and the soup bases can be reduced from being spilled.

Further, the rotating part is linked with the rack capable of moving vertically through the connecting part, when the rack moves vertically, the rotating part rotates around the rotating shaft, and the opening end is opened or closed. The connecting piece is used for converting the vertical movement of the rack into the rotation of the rotating piece, so that higher transmission efficiency can be obtained, and the control is convenient.

Further, the connecting piece is fixedly connected with the rotating shaft, the connecting piece is connected with the rack through a connecting rod and a clamping groove which are mutually limited, the connecting rod is arranged on the connecting piece, the clamping groove is arranged on the rack, when the rack vertically moves, the connecting rod moves along the clamping groove to drive the rotating shaft to rotate, and the opening end is opened or closed. The connecting rod is not easy to be separated from the clamping groove, so that the matching structure of the connecting rod and the clamping groove is a relatively stable and simple transmission structure, the transmission efficiency is high, and the transmission speed is easy to control.

Furthermore, a supporting seat is arranged on the wall of the accommodating cavity, and the rack is meshed with a transmission gear of a control motor fixed on the supporting seat and driven by the control motor to realize vertical movement. The vertical movement of the rack is driven by the control motor, and the rotation of the motor is converted into vertical movement by the transmission gear, so that the vertical movement of the rack is adapted to the rotating speed of the control motor, therefore, the moving speed of the rack can be controlled by controlling the rotating speed of the motor, and the automatic control is easy to realize.

Furthermore, the end that runs through of translation piece is equipped with a plurality of through-rods, hold and be equipped with on the chamber with through-rod complex hole, during the translation of translation piece, spacing in the hole or leave the hole. Because the material of solid occupies great proportion in the auxiliary material of input, if adopt the baffle as the moving member, then can be because baffle and auxiliary material area of contact are great and receive great resistance at the removal in-process for it is very inconvenient to use, a plurality of pole and the limited area of contact of auxiliary material that run through receive the resistance less at the removal process, it is comparatively convenient to use, and because the surface area of pole is little, the hole cooperatees again with the pole, be difficult for taking the auxiliary material out, can not bring the problem of wasing inconvenience.

Furthermore, the translation piece is limited by the supporting seat, the driving motor is fixed on the supporting seat, a tooth-shaped portion is arranged on the translation piece, the tooth-shaped portion is meshed with a driving gear of the driving motor, and the driving motor works to control the translation piece to translate. The tooth-shaped part is arranged on the translation piece and is connected with the driving motor through the driving gear, and the translation piece translates when the driving motor works; the transmission is realized by mutually meshing the driving gear and the tooth-shaped part, the structure is reliable, and the transmission speed and the transmission efficiency are easy to control.

Furthermore, be equipped with a breach on the translation piece, the breach is as the portion of stepping down of rack to avoid removing the in-process and taking place to interfere. The rack moves vertically, the translation piece moves horizontally, the power sources of the rack and the translation piece, namely the control motor and the driving motor, are fixed on the supporting seat, although the rack and the driving motor do not move simultaneously, the rack and the driving motor interfere with each other if the rack and the driving motor do not move simultaneously, and therefore the rack is necessary to be provided with the yielding part.

Compared with the prior art, the utility model discloses the beneficial effect who has: the translation piece and the rotation piece are matched with each other to realize the quantitative feeding of the auxiliary materials, so that a container is not used for containing the auxiliary materials, the space is saved, and the requirement of quantitatively feeding the auxiliary materials is met; meanwhile, the rotating piece also plays a role in sealing, and auxiliary materials cannot fall off randomly, so that the cleaning is facilitated.

Drawings

FIG. 1 is a schematic view of the auxiliary material supply system of embodiment 1;

FIG. 2 is a schematic view showing the overall configuration of an auxiliary material supply system according to embodiment 1;

FIG. 3 is a schematic view showing the construction of an auxiliary material supply system according to embodiment 2;

FIG. 4 is a schematic sectional view of the auxiliary material supply mechanism;

FIG. 5 is a schematic view of the one-directional explosion structure of the auxiliary material supply mechanism;

FIG. 6 is a schematic view of the explosion structure of the auxiliary material supply mechanism in another direction;

in the figure: 1-an auxiliary material supply mechanism;

11-a containment chamber; 111-a support base; 112-well; 12-an open-close structure; 121-a rotating member; 1211-connector; 12111-connecting rod; 1212-a spindle; 1213-rack; 12131-card slot; 1214-control the motor; 12141-drive gear; 122-a translation member; 1221-through rod; 1222-a tooth; 1223-notch; 123-driving a motor; 1231-drive gear;

2-soup material supply mechanism;

21-a supply chamber; 211-supply tube; 2111-an electrically controlled valve; 212-a housing; 213-bracket.

Detailed Description

The technical solutions of the embodiments of the present invention are explained and illustrated below with reference to the drawings of the present invention, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the embodiment, other embodiments obtained by those skilled in the art without any creative work belong to the protection scope of the present invention.

The auxiliary material supply system of the noodle cooking device of the present embodiment, as shown in fig. 1, fig. 2, fig. 4 to fig. 6, includes an auxiliary material supply mechanism 1, the auxiliary material supply mechanism 1 includes a plurality of accommodating cavities 11 for accommodating auxiliary materials, the bottom of the accommodating cavity 11 is open, an opening and closing structure 12 is located at the lower part of the accommodating cavity 11, the opening and closing structure 12 includes a rotating member 121 located at the open end and a translation member 122 located at the upper part of the rotating member 121, the rotating member 121 is rotatably connected to the open end through a rotating shaft 1212, so that the open end is in an open or closed state; the translation piece 122 is controlled by the driving motor 123 to realize translation, one end of the translation piece 122 penetrates through the cavity wall of the accommodating cavity 11, and when the translation piece 122 moves, the penetrating end of the translation piece 122 penetrates into or leaves the cavity wall of the accommodating cavity 11; when the translation member 122 moves outwards, the rotation member 121 is not moved, the open end is in a closed state, and the auxiliary materials fall and fill the space surrounded by the translation member 122, the rotation member 121 and the accommodating cavity 11; after the translation member 122 moves back, the rotation member 121 rotates, the open end is in an open state, and the auxiliary materials are thrown in.

The amount of the auxiliary materials thrown each time is consistent with the volume of the space enclosed by the translation piece 122, the rotation piece 121 and the containing cavity 11, the auxiliary materials can be stuffing (such as meat paste, eggs, vegetables and the like), solid substances occupy a large proportion, but juice is always mixed in the auxiliary materials, and the rotation piece 121 can seal the opening end to ensure that the juice cannot fall off randomly; the structure avoids using a container to contain auxiliary materials, saves space and meets the requirement of quantitatively adding the auxiliary materials.

The auxiliary material supply system further comprises a soup material supply mechanism 2, the soup material supply mechanism 2 is provided with a plurality of supply cavities 21, each supply cavity 21 is filled with a soup material, each supply cavity 21 is respectively connected with a supply pipe 211, and each supply pipe 211 is provided with an electric control valve 2111 for controlling the supply amount of the soup material. Each soup base is independently controlled to be put in, the soup bases are required to be put in containers filled with rice and wheaten food, and the soup bases are quantitatively put in through the electric control valve 2111.

The supply pipe 211 is a telescopic hose, the outlet of the supply pipe 211 is limited in a shell 212 with an opening at the lower part, the opening of the shell 212 is a soup outlet, the shell 212 is movably connected to a bracket 213 for supporting the main food containing containers, and when the shell 212 moves to enable the soup outlet to be positioned right above one of the main food containing containers, the electric control valve 2111 is opened to provide soup. Although only one electric control valve 2111 is opened when the soup is poured each time, the supply pipe 211 is limited in one shell 212, so that the interference of the supply pipe 211 can be avoided, the control is convenient, the supply cavity 21 is fixed, the bowl is fixed, only the supply pipe 211 moves, and the soup spilling can be reduced.

The rotation member 121 is coupled to a vertically movable rack 1213 through a connection member 1211, and when the rack 1213 is vertically moved, the rotation member 121 rotates around a rotation shaft 1212, and the open end is opened or closed. The link 1211 functions to convert the vertical movement of the rack 1213 into the rotation of the rotation member 121, thereby achieving high transmission efficiency and easy control.

The connecting member 1211 is fixedly connected to the rotating shaft 1212, the connecting member 1211 and the rack 1213 are connected to each other through a connecting rod 12111 and a locking slot 12131 that are limited to each other, the connecting rod 12111 is disposed on the connecting member 1211, the locking slot 12131 is disposed on the rack 1213, and when the rack 1213 moves vertically, the connecting rod 12111 moves along the locking slot 12131 to drive the rotating shaft 1212 to rotate, and the open end is opened or closed. The connecting rod 12111 is not easy to separate from the slot 12131, which makes the matching structure of the connecting rod 12111 and the slot 12131 a stable and relatively simple transmission structure, with high transmission efficiency and easy control of transmission speed.

A supporting seat 111 is arranged on the cavity wall of the accommodating cavity 11, and the rack 1213 is meshed with a transmission gear 12141 of a control motor 1214 fixed on the supporting seat 111, and is driven by the control motor 1214 to realize vertical movement. The vertical movement of the rack 1213 is driven by the control motor 1214, and the rotation of the motor is converted into vertical movement by the transmission gear 12141, so that the vertical movement of the rack 1213 is adapted to the rotation speed of the control motor 1214, and therefore, the movement speed of the rack 1213 can be controlled by controlling the rotation speed of the motor 1214, and automatic control is easy to realize.

The penetrating end of the translation member 122 is provided with a plurality of penetrating rods 1221, the accommodating cavity 11 is provided with holes 112 matched with the penetrating rods 1221, and when the translation member 122 translates, the translation member is limited in the holes 112 or leaves the holes 112. Because the solid material occupies great proportion in the auxiliary material of input, if adopt the baffle as the moving member, then can be because baffle and auxiliary material area of contact are great and receive great resistance at the removal in-process for it is very inconvenient to use, a plurality of pole 1221 that run through receive the resistance less at the removal process with the area of contact of auxiliary material is limited, it is comparatively convenient to use, and because the surface area of pole is little, hole 112 cooperatees again with the pole, be difficult for taking the auxiliary material out, can not bring the inconvenient problem of washing.

The translation member 122 is limited by the support seat 111, the driving motor 123 is fixed to the support seat 111, a tooth 1222 is arranged on the translation member 122, the tooth 1222 is engaged with a driving gear 1231 of the driving motor 123, and the driving motor 123 works to control the translation member 122 to translate. The tooth-shaped part 122 is arranged on the translation piece 122 and is connected with the driving motor 123 through the driving gear 1231, and the translation piece 122 translates when the driving motor 123 works; the transmission is realized by the mutual meshing of the driving gear 1231 and the tooth-shaped part 122, the structure is reliable, and the transmission speed and the transmission efficiency are easy to control.

A notch 1223 is formed in the translating element 122, and the notch 1223 serves as a position-giving portion of the rack 1213 to prevent interference during the moving process. The rack 1213 moves vertically, the translation member 122 moves horizontally, and the power sources of the two, i.e., the control motor 1214 and the driving motor 123, are fixed on the support base 111, but the two do not move simultaneously, but the movement of the two will interfere with each other if the two do not yield, so that it is necessary to provide the yielding portion.

Example 2

As shown in fig. 3 to 6, the present embodiment is different from embodiment 1 in that: the supply pipe 211 is fixed and the plurality of receiving chambers 11 are arranged in an arc shape.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and those skilled in the art should understand that the present invention includes but is not limited to the contents described in the drawings and the above specific embodiments. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (9)

1. An auxiliary material supply system of a noodle cooking device comprises an auxiliary material supply mechanism (1), wherein the auxiliary material supply mechanism (1) comprises a plurality of accommodating cavities (11) used for accommodating auxiliary materials, the bottoms of the accommodating cavities (11) are open, and the auxiliary material supply system is characterized in that an opening and closing structure (12) is positioned at the lower part of the accommodating cavities (11), the opening and closing structure (12) comprises a rotating part (121) positioned at the open end and a translation part (122) positioned at the upper part of the rotating part (121), the rotating part (121) is rotatably connected to the open end through a rotating shaft (1212), so that the open end is in an open or closed state; the translation piece (122) is controlled by a driving motor (123) to realize translation, one end of the translation piece (122) penetrates through the cavity wall of the accommodating cavity (11), and when the translation piece (122) moves, the penetrating end of the translation piece (122) penetrates into or leaves the cavity wall of the accommodating cavity (11); when the translation piece (122) moves outwards, the rotation piece (121) is not moved, the opening end is in a closed state, and the auxiliary materials fall down and fill the space surrounded by the translation piece (122), the rotation piece (121) and the containing cavity (11); after the translation piece (122) moves back, the rotation piece (121) rotates, the opening end is in an open state, and auxiliary materials are thrown in.

2. The auxiliary material supply system of the noodle cooking device according to claim 1, further comprising a soup material supply mechanism (2), wherein the soup material supply mechanism (2) is provided with a plurality of supply cavities (21), each supply cavity (21) contains a kind of soup material, each supply cavity (21) is connected with a supply pipe (211), and each supply pipe (211) is provided with an electrically controlled soup material valve (2111) for controlling the supply amount.

3. The auxiliary material supply system of the noodle cooking device according to claim 2, wherein the supply tube (211) is a flexible tube, an outlet of the supply tube (211) is defined in a housing (212) having a lower opening, the opening of the housing (212) is a soup outlet, the housing (212) is movably connected to a holder (213) for holding the main food containers, and the electrically controlled valve (2111) is opened to supply the soup when the housing (212) is moved so that the soup outlet is positioned directly above one of the main food containers.

4. The supplementary material supply system of the noodle cooking device according to claim 1, wherein the rotating member (121) is interlocked with a vertically movable rack (1213) through a connecting member (1211), and when the rack (1213) is vertically moved, the rotating member (121) rotates around the rotating shaft (1212) and the open end is opened or closed.

5. The auxiliary material supply system of the noodle cooking device according to claim 4, wherein the connector (1211) is fixedly connected to the rotary shaft (1212), the connector (1211) and the rack (1213) are connected by a link (12111) and a slot (12131) which are limited to each other, the link (12111) is disposed on the connector (1211), the slot (12131) is disposed on the rack (1213), and when the rack (1213) is moved vertically, the link (12111) moves along the slot (12131) to rotate the rotary shaft (1212), and the open end is opened or closed.

6. Auxiliary material supply system for noodle cooking device according to claim 4, wherein a support base (111) is provided on the wall of the accommodating chamber (11), and the rack (1213) is engaged with a driving gear (12141) of a control motor (1214) fixed to the support base (111) and driven by the control motor (1214) to perform vertical movement.

7. Auxiliary material supply system for a noodle cooking device according to claim 6, wherein the through end of the translation member (122) is provided with a plurality of through-rods (1221), the accommodating chamber (11) is provided with holes (112) for cooperating with the through-rods (1221), and the translation member (122) is constrained in the holes (112) or away from the holes (112) when it is translated.

8. Auxiliary material supply system for a noodle cooking device according to claim 7, wherein the translation member (122) is retained by a support base (111), the driving motor (123) is fixed to the support base (111), the translation member (122) is provided with teeth (1222), the teeth (1222) are engaged with a driving gear (1231) of the driving motor (123), and the driving motor (123) operates to control the translation member (122) to translate.

9. Auxiliary material supply system of a noodle cooking device according to claim 7, characterized in that the translator (122) is provided with a notch (1223), the notch (1223) acting as a relief for the rack (1213).

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