CN212661604U - Cooking machine - Google Patents

Abstract

The utility model provides a cooking machine, including the frame with place in pan on the frame, cooking machine still including be used for to fluid batching that adds the fluid batching in the pan throws material mechanism, the fluid batching throws material mechanism including throwing the material arm, it is formed with the steady flow chamber in the material arm to throw, it has throws the material export to throw the material arm, the fluid batching throws material mechanism still includes integrated pipeline joint and conveyer pipe, integrated pipeline joint set up in the steady flow intracavity, integrated pipeline joint has the joint import and connects the export, the conveyer pipe runs through steady flow chamber is with the intercommunication connect import and fluid batching, connect the export with throw the material export intercommunication. The utility model discloses a machine of cooking makes things convenient for the automatic interpolation of fluid batching and stabilizes the ejection of compact.

Description

Cooking machine

Technical Field

The utility model relates to a cooking appliance field especially relates to a machine of cooking.

Background

Most of the existing automatic cooking devices only have the function of automatically adding solid ingredients such as food materials, scallion and garlic, and many dishes need to be added with non-solid seasonings such as soy sauce, vinegar and cooking wine, so that the automatic cooking devices are not completely suitable for automatically adding all sauces; if the automation of the whole cooking process is realized, the seasoning liquid such as soy sauce, vinegar and the like is placed in the food material box and is put in through the automatic feeding mechanism, and the seasoning liquid is easily splashed outside the cooker in the feeding process, so that the table surface of the cooker is dirty; and for some viscous liquids, such as secret sauce, oyster sauce and the like, the viscous liquid is difficult to completely flow out of the material box due to high viscosity of the viscous liquid, so that the user experience is influenced. Some automatic cooking equipment sets up the pipeline of oil and water in the pot cover swing arm, is connected with outside oil drum and cask, can add edible oil and water automatically after the pot cover is covered, but can not add other fluid sauce materials.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a make things convenient for automatic fried dish machine that adds and stabilize the ejection of compact of fluid batching.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a cooking machine, includes the frame and place in pan on the frame, cooking machine still including be used for to fluid batching that adds the fluid batching throws material mechanism in the pan, the fluid batching throws material mechanism including throwing the material arm, it is formed with the steady flow chamber in the material arm to throw, it has throws the material export to throw the material arm, the fluid batching throws material mechanism still includes integrated pipeline joint and conveyer pipe, integrated pipeline joint set up in the steady flow intracavity, integrated pipeline joint has joint import and joint export, the conveyer pipe runs through the steady flow chamber is in order to communicate joint import and fluid batching, the joint export with throw the material export intercommunication.

Preferably, the feeding arm comprises an upper cover body and a lower cover body which are connected with each other, the upper cover body and the lower cover body form the flow stabilizing cavity, the lower cover body is respectively provided with a conveying pipe inlet and a feeding outlet, a flow stabilizing stroke of the flow stabilizing cavity is formed from the conveying pipe inlet to the feeding outlet, the integrated pipeline joint is assembled at the feeding outlet, and the conveying pipe penetrates into the feeding arm from the conveying pipe inlet and is connected with the integrated pipeline joint.

Preferably, the feeding outlet comprises a plurality of outlet holes penetrating through the lower cover body, the integrated pipeline joint is provided with a plurality of joint outlets, the joint outlets are communicated with the outlet holes in a one-to-one correspondence manner, the feeding arm is provided with a rectangular flow stabilizing section, a semicircular first mounting end and a semicircular second mounting end, the semicircular first mounting end and the semicircular second mounting end are connected with two ends of the flow stabilizing section, the conveying pipe inlet is formed in the first mounting end, and the joint outlets are arranged at the second mounting end at intervals.

Preferably, the feeding arm has a rotation axis rotating around the first mounting end, the feeding arm has an initial state and a feeding state, the second mounting end is located outside the pot in the initial state, the second mounting end rotates around the rotation axis to the feeding state, and the plurality of joint outlets are located in a projection area of the pot.

Preferably, in the process that the feeding arm rotates from the initial state to the feeding state, the plurality of joint outlets sequentially enter the projection area of the pot, and finally the joint outlets entering the projection area of the pot are connected with a water source.

Preferably, a positioning rib is arranged in the upper cover body, a positioning groove matched with the positioning rib is arranged on the integrated pipeline joint, and a supporting rib matched with the joint inlet in shape is further arranged in the upper cover body.

Preferably, the integrated pipeline joint is provided with a positioning hole, the upper cover body is provided with a positioning column penetrating through the positioning hole, and the positioning column is provided with a threaded hole matched and fixed with the lower cover body.

Preferably, the integrated pipeline joint is provided with a slow flow bending part communicated with the joint inlet and the joint outlet, and the slow flow bending part comprises a horizontal pipe section communicated with the joint inlet and a vertical pipe section communicated with the joint outlet.

Preferably, a plurality of slow flow bending parts are arranged in the integrated pipeline joint, the slow flow bending parts are arranged in a multi-layer mode, the slow flow bending parts are adjacently arranged in a two-layer mode and are arranged in a staggered mode, the joint inlets are arranged in a staggered mode, and the joint outlets are arranged on the bottom face of the feeding arm in a multiple mode.

Preferably, the fluid batching feeding mechanism further comprises a feeding base installed on the base, the feeding base is located on one side of the pot, a rotary opening is formed in the feeding base, the conveying pipe penetrates through the rotary opening and extends into the feeding arm and is connected with the joint inlet, a driving device is arranged in the feeding base, the feeding arm is far away from one end of the feeding outlet and extends into the rotary opening and is connected with the driving device in a transmission mode, and the driving device drives the feeding arm to rotate relative to the feeding base so as to feed materials into the pot.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a frying machine through set up alone throw the material arm and throw in the fluid batching automatically, do not influence other functional movements of cooking equipment, throw the material process accurate efficient, difficult splash to splash; the fluid ingredient feeding mechanism is suitable for all fluid ingredients cooked in a kitchen, realizes the automatic adding function of all fluid ingredients during cooking, has high automation degree, does not need manual operation, is convenient to operate, solves the problem that the existing cooking equipment cannot automatically add sauce or can not pour out the sauce through a material box, and effectively improves the use experience of a user; through set up the steady flow chamber in throwing the material arm, the steady flow intracavity sets up the integrated circuit and connects, sends into the steady flow chamber with the fluid batching through the conveyer pipe to connect and throw the material export and discharge through the integrated circuit, adjust the fluid batching through the steady flow chamber and carry, make the fluid batching ejection of compact more stable, avoid appearing the splash, be favorable to the accurate control load.

2. The integrated pipeline joint is assembled at the feeding outlet through the flow stabilizing stroke of the flow stabilizing cavity formed between the conveying pipe inlet and the feeding outlet, so that the fluid ingredient has a longer flow stabilizing adjusting stroke in the feeding arm, the fluid ingredient is ensured to be sufficiently and stably flows before reaching the feeding outlet, the fluid ingredient discharging speed flowing through the feeding outlet is stable, and the fluid ingredient discharging amount is accurately controlled.

3. Set up a plurality of exit holes through throwing the material export, the integrated pipeline connects and sets up a plurality of joint exports, with a plurality of joint exports and a plurality of exit hole one-to-ones intercommunication for same integrated pipeline connects and can integrate a plurality of differences simultaneously and throw the material passageway, and every connects the equal interval of export and sets up, in order to avoid different fluid batching mutual interference or taint of flavor, influences ejection of compact speed and culinary art taste.

4. Accomplish initial state and throw the change of material state through throwing material arm rotary motion, and throw the material arm initial state and be located the pan outside, can not throw the material to pot cover and edible material and produce the interference, avoid influencing the pan and normally cook the process, and when throwing the material state, throw the rotation of material arm and make the joint export be in the projection region of pan, conveniently throw the material arm and throw the material operation, prevent that the fluid batching from dripping outside the pan.

5. Throw the material arm by initial condition rotatory to the in-process of throwing the material state, there is the precedence in the projection region that the joint export got into the pan, and the joint export that gets into the pan projection region at last is nearest apart from the pan border, through with this joint exit linkage water source, can avoid connecting the batching splash that other sauce material pipelines brought, causes the dirty not clean problem of frame mesa.

6. Through setting up location muscle and brace rod in last lid, connect to the integrated circuit and have location installation effect for the integrated circuit connects rigidity in last lid, avoids throwing the material arm to rotate and arouses the integrated circuit to connect the position change, guarantees to connect the export and throw the stable intercommunication of material export, thereby ensures to throw the smooth and easy ejection of compact of material arm.

7. Go up the lid and pass the reference column that the integrated circuit connects through the setting, the reference column can fix a position the integrated circuit joint installation on the one hand, and on the other hand sets up the screw hole fixed with the lid cooperation down on the reference column for the reference column has simultaneously and is connected the fixed action with lid down, and location and fixed action are integrated, and the location is gone on with fixed synchronization, and the assembling process is simpler.

8. By arranging the slow flow bending part communicated with the joint inlet and the joint outlet in the integrated pipeline joint, the fluid ingredients can be buffered when flowing through the integrated pipeline joint, the flow speed is reduced, and the phenomenon that the joint outlet is splashed to influence the user experience is avoided; in addition, the slow flow kink both can effectively slow down the fluid batching velocity of flow through setting up the horizontal pipeline section that the intercommunication connects the import, and the vertical pipeline section that the intercommunication connects the export, can also avoid the pipeline junction to take place to block up to, connect the export and adopt vertical pipeline section can conveniently throw the material in the vertical to pan of material arm.

9. The feeding arm is characterized in that a plurality of slow flow bending parts are arranged in the integrated pipeline joint, the slow flow bending parts are arranged in a multi-layer mode, and two adjacent layers of slow flow bending parts are arranged in a staggered mode, so that the space of the feeding arm in the vertical direction is reasonably utilized, the width of the feeding arm is reduced, and the arrangement requirements of a plurality of different feeding pipelines are met; through with adjacent two-layer joint import dislocation set, and a plurality of joint exports and lay in the bottom surface of throwing the material arm to it is little to make the material arm bottom surface area of throwing that a plurality of joint exports occupy, reduces turned angle and consuming time, so that when throwing the material arm and rotating and getting into and throwing the material state, a plurality of joint exports can get into the pan projection region fast in.

10. Through will throw material base and set up in pan one side, throw the material base and seted up rotatory opening, throw the material arm and keep away from the one end of throwing the material export and stretch into rotatory opening and be connected with the drive arrangement transmission, so that drive arrangement drives and throws the material arm and rotate to the pan projection region in order to throw the material in the pan for throwing the material base, drive through drive arrangement and throw the material arm and realize the gyration swing and throw the material, the motion is simple and easy to realize, the job stabilization is reliable, guarantee to throw the material arm and throw the material process and go on automatically, throw material efficiently.

Drawings

Fig. 1 is a schematic structural view of a feeding arm in an initial state according to a first embodiment of the present invention;

fig. 2 is a schematic structural view of a feeding arm in a feeding state according to a first embodiment of the present invention;

fig. 3 is a schematic perspective view of a fluid ingredient adding system according to a first embodiment of the present invention;

fig. 4 is an exploded schematic view of a fluid ingredient feeding mechanism according to a first embodiment of the present invention;

fig. 5 is a sectional view of the assembly of the feeding arm and the transmission member according to the first embodiment of the present invention;

fig. 6 is an exploded schematic view of a feeding arm according to a first embodiment of the present invention;

fig. 7 is an exploded schematic view of a fluid dispensing and feeding mechanism with a feeding base according to a first embodiment of the present invention;

fig. 8 is a schematic view illustrating the assembly of the feeding arm, the transmission member and the feeding base according to the first embodiment of the present invention;

fig. 9 is a schematic perspective view of a feeding base according to a first embodiment of the present invention;

fig. 10 is a schematic view illustrating the assembly of the second cover body and the integrated pipeline joint according to the first embodiment of the present invention.

The names of the components marked in the figures are as follows:

1. a machine base; 11. a cooking zone; 2. a pot; 3. a fluid ingredient addition system; 31. a fluid ingredient storage mechanism; 311. a container; 312. a container housing; 32. a fluid ingredient feeding mechanism; 321. a feeding arm; 3211. a feeding outlet; 3212. an inlet of the delivery pipe; 3213. a flow stabilizing cavity; 3216. flow guiding convex ribs; 3217. an upper cover body; 32171. positioning ribs; 32172. supporting ribs; 32173. a positioning column; 3218. a lower cover body; 3218a. a first cover; 3218b. a second cover; 322. a drive device; 3221. a power take-off shaft; 323. a transmission member; 3231. a shaft connecting part; 3232. a yielding groove; 325. a gear case; 3251. a driving gear; 3252. a driven gear; 3253. a shaft connecting hole; 3262. buckling; 3263. a card slot; 327. an integrated pipe joint; 3271. a fitting inlet; 3272. a connector outlet; 3273. a horizontal pipe section; 3274. a vertical pipe section; 3275. positioning a groove; 3276. positioning holes; 328. a feeding base; 3281. opening by rotation; 3282. a support cylinder; 33. a fluid ingredient delivery mechanism; 331. a second delivery pipe; 332. a delivery pump.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The first embodiment is as follows:

as shown in fig. 1 to 10, an embodiment of the present invention provides a cooking machine, which includes a machine base 1, a pot 2 and a fluid ingredient adding system 3. Wherein, the pan 2 is placed on the base 1, and the top of the base 1 is provided with a cooking area 11, and the pan 2 can be placed in the cooking area 11 in a pick-and-place manner. The fluid ingredient adding system 3 comprises a fluid ingredient storage mechanism 31, a fluid ingredient feeding mechanism 32 and a fluid ingredient conveying mechanism 33, wherein the fluid ingredient storage mechanism 31 is used for storing fluid ingredients, the fluid ingredient feeding mechanism 32 is used for adding the fluid ingredients into a pot, the fluid ingredient feeding mechanism 32 comprises a feeding arm 321, a steady flow cavity 3213 is formed in the feeding arm 321, the feeding arm 321 is provided with a feeding outlet 3211, and the fluid ingredient conveying mechanism 33 is communicated with the feeding outlet 3211 and the fluid ingredient storage mechanism 31; and the feeding arm 321 can move to have an initial state located outside the pot 2 and a feeding state where the feeding outlet 3211 extends into the projection area of the pot 2. The feeding arm is independently arranged to automatically feed the fluid ingredients, so that other functional actions of the cooking equipment are not influenced, the feeding process is accurate and efficient, and splashing is not easy; fluid batching throws material mechanism and is applicable to all fluid ingredients of kitchen culinary art, and the automation of all fluid ingredients adds the function when realizing the culinary art, and degree of automation is high, need not artifical manually operation, and convenient operation has solved current cooking equipment and can not add sauce material automatically or through the magazine adds sauce material and can not fall clean problem, effectively promotes user and uses experience.

As shown in fig. 4-8 and 10, the fluid ingredient dosing mechanism 32 further comprises an integrated pipe joint 327 and a first delivery pipe, the integrated pipe joint 327 is disposed in the flow stabilization cavity 3213 of the dosing arm 321, the integrated pipe joint has a joint inlet 3271 and a joint outlet 3272, the first delivery pipe penetrates through the flow stabilization cavity to communicate the joint inlet with the fluid ingredient, and the joint outlet is communicated with the dosing outlet. Through set up the steady flow chamber in throwing the material arm, the steady flow intracavity sets up the integrated circuit and connects, sends into the steady flow chamber with the fluid batching through first conveyer pipe to connect and throw the material export and discharge through the integrated circuit, adjust the fluid batching through the steady flow chamber and carry, make the fluid batching ejection of compact more stable, avoid appearing the splash, be favorable to the accurate control load.

Specifically, fluid ingredient delivery mechanism 33 comprises a second delivery tube 331 and a delivery pump 332, second delivery tube 331 communicating fluid ingredient storage mechanism 31 with the first delivery tube; when the feeding arm 321 is in the feeding state, the delivery pump 332 pumps the fluid ingredients to the feeding outlet 3211, and the fluid ingredients are added into the pot 2 through the feeding outlet 3211. Fluid batching conveying mechanism 33 directly takes out the material through delivery pump 332, and it is accurate efficient to put in fluid batching, convenient operation, labour saving and time saving, and the culinary art effect is better, and fluid batching storage mechanism 31 sets up the position unrestricted in addition, is favorable to simplifying the cooking equipment structure and reduces the cooking equipment volume, reduces the kitchen space and occupies, and the practicality is strong, and user experience is better.

Specifically, as shown in fig. 1 to 3, the fluid ingredient storage mechanism 31 includes a plurality of containers 311 for separately storing a plurality of fluid ingredients, the feeding arm 321 has a plurality of feeding outlets 3211, the second delivery pipe 331 includes a plurality of second delivery pipes 331, and the plurality of second delivery pipes 331 communicate the plurality of containers 311 and the plurality of feeding outlets 3211 in a one-to-one correspondence manner. Through setting up a plurality of containers 311, can provide the storage of multiple fluid batching and extract reinforced function, can put in various fluid batching, and keep every fluid batching not thoughtlessly to smell, add liquid and thick form fluid batching clean more health, can be according to chef operation procedure, it is reinforced in proper order according to precedence, realize simulating real man chef manual cooking operation process completely, can be convenient according to the culinary art needs, the material is separately thrown in swiftly ground, and furthest reduces and throws the material mistake, moreover, the operation is simple, it is reliable to throw the material, the culinary art effect is better, user experience is better.

Wherein, the container 311 can be made of glass material or other materials meeting the requirements of food sanitation and the like; the second delivery pipe 331 can be a flexible pipe or a hard pipe, the second delivery pipe 331 connecting the container 311 and the delivery pump 332 is preferably a hard pipe for quick installation, and the second delivery pipe 331 connecting the delivery pump 332 and the feeding outlet 3211 is preferably a flexible pipe in consideration of the movement of the feeding arm 321; the transfer pump 332 is preferably a peristaltic pump or a water pump, and the specification and the inlet and outlet apertures of the transfer pump 332 can be determined according to requirements. The number of the delivery pumps 332 can be the same as that of the containers 311, for example, four delivery pumps 332 can be also more than that of the containers 311, the redundant delivery pumps 332 can be directly communicated with the edible oil or the purified water through the second delivery pipe 331 and used for pumping the edible oil and the purified water, and the containers 311 do not need to be additionally arranged for storing and filling the common edible oil and the purified water, so that the cost is reduced; the delivery pump 332 pumps purified water, so that the automatic cleaning function of the fluid ingredient adding system 3 can be realized, and the container 311, the second delivery pipe 331 and the delivery pump 332 can be automatically cleaned by selecting programs after use, so that the container is cleaner and more sanitary.

When cooking food, firstly selecting a corresponding cooking program, and placing the pot 2 and preparing food materials in the cooking area 11; starting a heating program, carrying out oiling operation after the pot 2 is heated and dried, moving a feeding arm 321 of a fluid ingredient feeding mechanism 32 of the fluid ingredient adding system 3 relative to the pot 2 at the moment, extending a feeding outlet 3211 into the pot 2, starting a delivery pump 332 for pumping edible oil, adding a set amount of edible oil, stopping the delivery pump 332, moving the feeding arm 321 to a set position outside the pot 2, and continuing heating; then, feeding operation is carried out, food materials are fed into the pot 2, and the food materials are stirred and fried after feeding is finished; according to a set cooking program, seasoning adding operation is carried out after stir-frying for a certain time, according to the set time, the feeding arm 321 moves to extend the feeding outlet 3211 into the pot 2, the conveying pump 332 starts to extract fluid seasoning to be filled into the pot 2, the conveying pump 332 stops after the feeding is finished, and the feeding arm 321 resets; and continuing to cook until the food finishes cooking according to the set cooking process.

The fluid ingredient storage mechanism 31 is independently arranged outside the machine base 1, the fluid ingredient storage mechanism 31 further comprises a container shell 312, and a plurality of containers 311 are collectively accommodated in the container shell 312; the fluid ingredient storage mechanism 31 can be placed at any position of a kitchen as required, and fluid ingredients in the container 311 can be added or replaced conveniently without being disassembled from the machine base 1, so that the use is more convenient and flexible, and the cleaning are convenient; the container shell 312 supports and protects the container 311, is stable and safe to place, is compact in structure, avoids placing messy, is more neat and attractive in appearance, and is convenient for the container 311 to keep clean and clean the whole fluid ingredient storage mechanism 31.

Fluid batching storage mechanism 31 also can set up structure as an organic whole with frame 1 is integrated, and simultaneously, second conveyer pipe 331 and delivery pump 332 of fluid batching conveying mechanism 33 also can be integrated and set up inside frame 1, are favorable to simplifying cooking equipment structure, and simple structure is compact, and the outward appearance is neat pleasing to the eye, is favorable to reducing cooking equipment whole volume, saves space, reduces the kitchen space and occupies.

Specifically, as shown in fig. 3 and 4, the fluid ingredient feeding mechanism 32 further includes a driving device 322 and a transmission member 323, a power output shaft 3221 of the driving device 322 is in transmission connection with the transmission member 323, the transmission member 323 is fixedly connected with the feeding arm 321, the driving device 322 drives the transmission member 323 to rotate, and the transmission member 323 drives the feeding arm 321 to rotate to an initial state or a feeding state. The driving device 322 drives the driving member 323 to rotate, so as to drive the feeding arm 321 to realize rotary swing motion, the motion mode is simple and easy to realize, the work is stable and reliable, the feeding precision and the feeding efficiency of the feeding arm 321 are high, splashing is not easy to splash, and the base 1 and the like are prevented from being polluted; when fluid ingredients are put in, the feeding arm 321 rotates to the position of the feeding state, and the feeding outlet 3211 of the feeding arm 321 is positioned in the projection area of the pot 2; after the feeding is completed, the feeding arm 321 is reversely rotated and reset to the initial state, and the cooking device continues the next operation of cooking.

Of course, in an embodiment not shown, the feeding arm 321 may also be switched between the initial state and the feeding state by a linear motion, such as a linear motion actuator implemented by a rack-and-pinion or a slide-and-rail.

Specifically, power output shaft 3221 of drive arrangement 322 passes through gear or worm gear transmission with driving medium 323 and is connected, and transmission simple structure easily realizes, and low in manufacturing cost effectively guarantees the moment of torsion transmission of drive arrangement 322 and driving medium 323, and job stabilization is reliable, and the cooperation is accurate, and user experience is better.

In one embodiment, as shown in fig. 4, the fluid ingredient dosing mechanism 32 includes a gear box 325, wherein a driving gear 3251 and a driven gear 3252 are disposed in the gear box 325 in meshing engagement; the driving device 322 is a driving motor, and a power output shaft 3221 of the driving motor is fixedly connected with the driving gear 3251; the driven gear 3252 is centrally provided with a shaft connecting hole 3253, the bottom end of the transmission element 323 is provided with a shaft connecting part 3231, and the shaft connecting part 3231 of the transmission element 323 is matched and sleeved in the shaft connecting hole 3253 of the driven gear 3252, so that the transmission element 323 is fixedly connected with the driven gear 3252. The driving motor drives the driving gear 3251 to rotate, the driving gear 3251 drives the engaged driven gear 3252 to rotate, the driven gear 3252 drives the transmission member 323 to synchronously rotate, and finally the transmission member 323 drives the feeding arm 321 to swing in a rotating manner. The connecting shaft portion 3231 is adapted to the connecting shaft hole 3253, and may have a hexagonal structure, or may be made into a rectangular shape, a spline shape, or the like, so as to transmit torque; the driven gear 3252 is formed in a hollow structure to facilitate the second transfer tube 331 to pass therethrough. The driving gear 3251 and the driven gear 3252 may be a pair of spur gears, or may be spur gears engaged with bevel gears.

In another embodiment, a worm gear is disposed in the gear box 325, and the power output shaft 3221 of the driving device 322 is in transmission connection with the transmission member 323 through the worm gear.

Specifically, as shown in fig. 4 and 7, a conveying pipe inlet 3212 is formed in the feeding arm 321, a rotary connection structure matched with each other is correspondingly arranged on the inner side of the conveying pipe inlet 3212 and the outer periphery of the end portion of the transmission member 323, and the transmission member 323 and the feeding arm 321 are detachably connected through the rotary connection structure. Throw material arm 321 and can dismantle with driving medium 323 and be connected, convenient washing is maintained, clean more health, swivelling joint simple structure easily realizes moreover, use cost is reduced, firm in connection is reliable, improve the assembly effect, small-amplitude rotating transmission medium 323 can connect and throw material arm 321, throw material arm 321 and driving medium 323 dismouting simple and convenient more swift, improve dismouting efficiency, the manual installation of being convenient for is dismantled, and need not to use the fastener in addition, avoid the loss, promote user's use and experience.

In one embodiment, as shown in fig. 4 and 7, the rotary connection structure includes a buckle 3262 and a slot 3263, which are respectively disposed at the outer periphery of the end portion of the transmission member 323 and the inner side of the inlet 3212 of the conveying pipe, the end portion of the transmission member 323 is inserted into the inlet 3212 of the conveying pipe, and the transmission member 323 rotates to a buckling position or a detaching position relative to the feeding arm 321; in the buckling position, the buckle 3262 is matched with the clamping groove 3263 for buckling and clamping so as to connect the transmission part 323 and the feeding arm 321 in a screwing manner; in the disassembled position, the buckle 3262 and the slot 3263 are separated from each other, and the transmission member 323 can be separated from the feeding arm 321. Transmission medium 323 can be dismantled through buckle 3262 and draw-in groove 3263 with throwing material arm 321 and be connected, need not to use the fastener in addition, avoid losing, reduce use cost, difficult emergence wearing and tearing, life is longer, buckle 3262 is difficult for the dislocation with draw-in groove 3263 installation moreover, transmission medium 323 with throw material arm 321 dismouting simple and convenient more swift, labour saving and time saving, the dismouting efficiency is higher, the operation is felt by force, promote the user operation and feel, the manual installation of being convenient for is dismantled, user experience is better.

In one embodiment, the end of the transmission member 323 has a relief groove 3232 formed on a circumferential protruding edge thereof, the locking groove 3263 is disposed on the transmission member 323 and adjacent to the relief groove 3232, and the buckle 3262 is a fastening protrusion disposed at the bottom of the feeding arm 321; the receding groove 3232 is aligned with the buckling protrusion, then the end part of the transmission member 323 is inserted into the conveying pipe inlet 3212 of the feeding arm 321, the transmission member 323 is rotated until the transmission member 323 is fixed, the transmission member 323 rotates relative to the feeding arm 321 to a buckling position, and the clamping groove 3263 and the buckling protrusion are clamped in place. In the present embodiment, the rotation angle between the engagement position and the disengagement position is 30 degrees.

Specifically, the integrated pipeline joint 327 has a plurality of joint inlets 3271 and joint outlets 3272 that are communicated in a one-to-one correspondence manner, outlet ends of the plurality of first conveying pipes are connected with the plurality of joint inlets 3271 in a one-to-one correspondence manner, the feeding outlet includes a plurality of outlet holes penetrating through the lower cover body, and the plurality of joint outlets 3272 are connected with the plurality of outlet holes in a one-to-one correspondence manner.

Specifically, as shown in fig. 5, the integrated pipeline joint has a slow flow bending portion communicating the joint inlet and the joint outlet, and the slow flow bending portion includes a horizontal pipe section 3273 communicating the joint inlet and a vertical pipe section 3274 communicating the joint outlet, so that the fluid ingredient can be buffered when flowing through the integrated pipeline joint, the flow rate is reduced, and the influence on user experience due to splashing of the joint outlet is avoided; in addition, the slow flow kink both can effectively slow down the fluid batching velocity of flow through the horizontal pipe section 3273 that sets up the intercommunication and connect the import and the vertical pipe section 3274 that the intercommunication connects the export, can also avoid the pipeline junction to take place to block up to, the joint export adopts vertical pipe section 3274 can conveniently throw the material arm and throw the material in the vertical to pan. Integrated pipeline connects 327 avoids the conveyer pipe to be rolled over flat, avoids influencing the flow of the delivery pump 332 that extracts the fluid batching, prevents to cause stifled dying, and convenient simple to use, a integrated pipeline connects 327 can connect many conveyer pipes in addition, and compact structure more saves space than adopting a plurality of solitary L shape pipeline to connect, promotes user's use and experiences.

Specifically, as shown in fig. 4 and 5, a plurality of slow flow bending portions are arranged in the integrated pipeline joint, the plurality of slow flow bending portions are arranged in a multilayer manner, two adjacent layers of slow flow bending portions are arranged in a staggered manner, two adjacent layers of joint inlets are arranged in a staggered manner, and a plurality of joint outlets are arranged on the bottom surface of the feeding arm 321, so that the space in the vertical direction of the feeding arm 321 can be reasonably utilized, the width of the feeding arm is reduced, and the arrangement requirements of a plurality of different feeding pipelines are met; through with adjacent two-layer joint import dislocation set, and a plurality of joint exports and lay in the bottom surface of throwing material arm 321 to make a plurality of joint exports the material arm 321 bottom surface area of throwing that occupies little, reduce turned angle and consuming time, so that throw material arm 321 and rotate when getting into and throw the material state, a plurality of joint exports can get into the pan projection region fast in.

Specifically, as shown in fig. 4, the feeding arm 321 has a rectangular steady flow section, and a first semicircular mounting end and a second semicircular mounting end connected to two ends of the steady flow section, the inlet of the conveying pipe is disposed at the first mounting end, and the outlets of the plurality of joints are spaced at the second mounting end, so that the same integrated pipeline joint 327 can simultaneously integrate a plurality of different feeding channels, and each of the outlets of the plurality of joints is spaced at an interval, so as to avoid the mutual interference or taint of different fluid ingredients, which affects the discharging speed and the cooking taste.

Specifically, as shown in fig. 1 and 2, the feeding arm 321 has a rotation axis rotating around a first mounting end, the feeding arm 321 has an initial state and a feeding state, the second mounting end is located at the outer side of the pot in the initial state, the second mounting end rotates around the rotation axis to the feeding state, and the plurality of joint outlets are located in the projection area of the pot. Accomplish initial state and throw the change of material state through throwing material arm 321 rotary motion, and throw the material arm initial state and be located the pan outside, can not throw the material to pot cover and edible material and produce the interference, avoid influencing the pan and normally cook the process, and when throwing the material state, throw the rotation of material arm 321 and make the joint export be in the projection region of pan, conveniently throw the material arm and throw the material operation, prevent that the fluid batching from dripping outside the pan.

Specifically, as shown in fig. 1 and 2, in the process of rotating the feeding arm 321 from the initial state to the feeding state, the outlets of the plurality of joints sequentially enter the projection area of the pot, the outlet of the joint finally entering the projection area of the pot is connected to a water source, and the outlets of the other joints are connected to different oils and sauces. Throw material arm 321 by initial condition rotation to the in-process of throwing the material state, there is precedence in the projection region that the joint export got into the pan, and the joint export that gets into the pan projection region at last is nearest apart from the pan border, through with this joint exit linkage water source, can avoid connecting the batching splash that other sauce material pipelines brought, causes the dirty not clean problem of frame mesa.

Specifically, as shown in fig. 5, 8 and 10, a flow guiding rib 3216 is convexly disposed on an outer wall of the feeding arm 321 around the feeding outlet 3211. Because the protruding in the outer wall plane of throwing the material arm 321 of water conservancy diversion protruding muscle 3216, can play the guide effect to the outflow of fluid batching, prevent that the fluid batching from throwing the outer wall plane of material arm 321 to trickling all around along throwing when material export 3211 flows out, avoid the fluid batching to flow to other places and lead to frame 1 and cooking equipment dirty, cleaner health, user experience is better.

Specifically, as shown in fig. 4 and 7, the feeding arm 321 includes an upper cover body 3217 and a lower cover body 3218 that are connected in a snap-fit manner, the lower cover body 3218 and the upper cover body 3217 enclose a flow stabilizing cavity of the feeding arm 321, the lower cover body 3218 is provided with a delivery pipe inlet and a feeding outlet 3211, the delivery pipe inlet and the feeding outlet form a flow stabilizing stroke of the flow stabilizing cavity, the integrated pipeline joint is assembled at the feeding outlet, and the delivery pipe penetrates into the feeding arm from the delivery pipe inlet and is connected to the integrated pipeline joint. The feeding arm 321 is designed in a split mode, so that the cooking device is convenient to assemble, the space is reasonably utilized, the installation is compact, the size of the cooking device is reduced, and the user experience is better.

Specifically, as shown in fig. 5, 6 and 10, a positioning rib 32171 is arranged in the upper cover body, a positioning groove 3275 installed in a matching manner with the positioning rib 32171 is arranged on the integrated pipeline joint, a supporting rib 32172 matched with the joint inlet in shape is further arranged in the upper cover body, and the positioning rib 32171 and the supporting rib 32172 are arranged in the upper cover body, so that the integrated pipeline joint has a positioning and installing effect, the integrated pipeline joint is fixed in position in the upper cover body, the position change of the integrated pipeline joint caused by the rotation of the feeding arm is avoided, the stable communication between the joint outlet and the feeding outlet is ensured, and the smooth discharging of the feeding arm is ensured. Integrated pipeline connects and is equipped with locating hole 3276, goes up the lid and is equipped with the reference column 32173 that passes locating hole 3276, is equipped with the screw hole fixed with the lid cooperation down on the reference column 32173, and reference column 32173 can fix a position integrated pipeline joint installation on the one hand, and on the other hand sets up the screw hole fixed with the lid cooperation down through on the reference column 32173 for reference column 32173 has simultaneously and is connected the fixed action with the lid down, and location and fixed action are integrated, fixes a position and goes on in step with fixed, and the assembly process is simpler.

Specifically, as shown in fig. 7 to 9, the fluid blending and feeding mechanism 32 further includes a feeding base 328, the feeding base is mounted on the base and located on one side of the pot, the feeding base 328 is provided with a rotary opening 3281, the transmission element 323 is rotatably mounted in the feeding base 328, the transmission element 323 is fixedly connected to the feeding arm 321, and a part of the feeding arm 321 extends out of the feeding base 328 through the rotary opening 3281; the transmission part 323 rotates to drive the feeding arm 321 to rotate to an initial state or a feeding state relative to the feeding base 328; the transmission element 323 is hollow, and the delivery tube passes through the transmission element 323 and the rotary opening 3281 into the inner cavity of the feeding arm 321 and is connected to the inlet of the connector.

Specifically, as shown in fig. 7 to 9, the driving device is located in the feeding base 328, one end of the feeding arm, which is far away from the feeding outlet, extends into the rotary opening and is in transmission connection with the driving device, the driving device drives the feeding arm to rotate relative to the feeding base so as to feed materials into the pot, the driving device drives the feeding arm 321 to realize rotary swing feeding, the movement mode is simple and easy to realize, the work is stable and reliable, the feeding process of the feeding arm is ensured to be automatically performed, and the feeding efficiency is high; throw material arm 321 and driving medium 323 etc. and throw material base 328 and assemble together, mounting structure is compact, reduces the space and occupies, is favorable to reducing cooking equipment volume, and is neat pleasing to the eye, and user experience is better. In one particular embodiment, the rotational opening 3281 is a C-shaped opening.

As shown in fig. 4 to 8, the lower cover body 3218 includes a first cover body 3218a and a second cover body 3218b that are separately provided, the material feeding outlet 3211 is opened in the second cover body 3218b, and the second cover body 3218b is located outside the rotation opening 3281. In order to ensure the appearance effect, the size of the rotary opening 3281 vertical to the rotation direction of the transmission piece 323 is matched with the thickness of the feeding arm 321, so that the gaps between the feeding arm 321 and the rotary opening 3281 of the feeding base 328 are small; however, after the first delivery pipe is inserted into the feeding arm 321, installed with the integrated pipeline joint 327, and assembled with the upper cover body 3217 and the lower cover body 3218, the multiple delivery pipes extending from the bottom of the feeding arm 321 increase the thickness of the assembly body, which may interfere with the assembly of the feeding arm 321 and the feeding base 328; the feeding arm 321 is designed to be a split structure, and the second cover body 3218b does not interfere with the rotary opening 3281 of the feeding base 328 in an overlapping region, so that the problem of thickness interference between the conveying pipe and the rotary opening 3281 is avoided, the assembly is convenient, and the user experience is better.

During assembly, the upper cover body 3217 and the first cover body 3218a of the lower cover body 3218 are assembled together, then the feeding base 328 is plugged by the rotary opening 3281, and the transmission member 323 is arranged in the feeding base 328 and fixedly connected with the feeding arm 321; then, the second delivery pipe 331 passes through the transmission part 323 and is connected with the integrated pipeline joint 327 through the inner cavity of the feeding arm 321, and a channel in the integrated pipeline joint 327 is L-shaped; finally, the second cover body 3218b is installed, and the joint outlet 3272 below the integrated pipeline joint 327 penetrates out of the feeding outlet 3211 on the second cover body 3218b, so that the problem of interference of the thickness of the second delivery pipe 331 is avoided, and the fluid ingredients can be pumped into the pot 2 under the action of the delivery pump 332. The first cover 3218a and the second cover 3218b have a seam allowance overlapping area, and the first cover 3218a and the second cover 3218b and the upper cover 3217 may share 2 screws for fastening connection.

Specifically, as shown in fig. 7, throw material base 328 internal fixation and be provided with hollow support cylinder 3282, in support cylinder 3282 was gone into to the driving medium 323 suit, support cylinder 3282 carried on spacingly to the radial position of driving medium 323, prevented to throw material arm 321 pivoted in-process driving medium 323 and rocked, rotated more steadily, reduced and rocked, strengthened throwing material arm 321 pivoted stability, job stabilization is reliable, throw material arm 321 and throw the accurate efficient of material, user experience is better.

Example two:

this embodiment differs from the embodiment in that the connection outlet of the integrated circuit connection extends beyond the dosing outlet.

In this embodiment, the joint outlet of the integrated pipeline joint extends out of the feeding outlet 3211 and protrudes out of the outer wall of the feeding arm 321, the joint outlet 3272 of the integrated pipeline joint 327 is exposed out of the feeding arm 321 by a certain length, which can guide the outflow of fluid ingredients, and also can prevent the outflow of fluid ingredients from flowing around along the outer wall plane of the feeding arm 321, thereby preventing the fluid ingredients from flowing to other places and causing the contamination of the base 1 and the cooking equipment, which is more clean and sanitary, at this time, the outer wall of the feeding arm 321 may not be provided with the diversion convex rib 3216. It can be understood that when the outlet end of the first conveying pipe is directly connected to the feeding outlet 3211, the outlet end of the first conveying pipe is exposed out of the feeding arm 321 by a certain length, and the flow guiding effect can also be achieved.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, i.e. all equivalent changes and modifications made according to the present invention are covered by the scope of the claims of the present invention, which is not illustrated herein.

Claims (10)

1. The utility model provides a cooking machine, includes the frame and place in pan on the frame, a serial communication port, cooking machine still including be used for to fluid batching that adds the fluid batching in the pan throws material mechanism, the fluid batching throws material mechanism and includes throws the material arm, it is formed with the steady flow chamber in the material arm to throw, it has throws the material export to throw the material arm, the fluid batching throws material mechanism still includes integrated circuit joint and conveyer pipe, integrated circuit joint set up in the steady flow intracavity, integrated circuit joint has joint import and joint export, the conveyer pipe runs through steady flow chamber is with the intercommunication joint import and fluid batching, the joint export with throw the material export intercommunication.

2. The cooking machine as claimed in claim 1, wherein the feeding arm comprises an upper cover and a lower cover connected with each other, the upper cover and the lower cover form the steady flow cavity, the lower cover is respectively provided with a conveying pipe inlet and a feeding outlet, the conveying pipe inlet forms a steady flow stroke of the steady flow cavity to the feeding outlet, the integrated pipeline joint is assembled at the feeding outlet, and the conveying pipe penetrates into the feeding arm from the conveying pipe inlet and is connected with the integrated pipeline joint.

3. The cooker as claimed in claim 2, wherein the feeding outlet comprises a plurality of outlet holes penetrating through the lower cover, the integrated pipeline joint has a plurality of joint outlets, the joint outlets communicate with the outlet holes in a one-to-one correspondence, the feeding arm has a rectangular flow stabilizing section, and a first and a second semicircular mounting ends connecting two ends of the flow stabilizing section, the conveying pipe inlet is disposed at the first mounting end, and the joint outlets are arranged at the second mounting end at intervals.

4. The machine of claim 3, wherein the arm has an axis of rotation about the first mounting end, the arm having an initial position in which the second mounting end is outside the pot and a dispensing position in which the second mounting end is rotated about the axis of rotation to the dispensing position with the plurality of connector outlets within the projected area of the pot.

5. The cooking machine as claimed in claim 4, wherein during the process of the feeding arm rotating from the initial state to the feeding state, the plurality of joint outlets sequentially enter the projection area of the pot, and finally the joint outlets entering the projection area of the pot are connected with a water source.

6. The cooker as claimed in claim 2, wherein a positioning rib is provided in the upper cover, a positioning groove is provided on the integrated pipeline joint for fitting with the positioning rib, and a support rib is provided in the upper cover for fitting with the joint inlet.

7. The cooker as claimed in claim 2, wherein the integrated pipeline joint is provided with a positioning hole, the upper cover is provided with a positioning column penetrating through the positioning hole, and the positioning column is provided with a threaded hole matched and fixed with the lower cover.

8. The cooker of claim 1, wherein the integrated pipe joint has a gradual flow bend communicating the joint inlet and the joint outlet, the gradual flow bend comprising a horizontal pipe segment communicating the joint inlet and a vertical pipe segment communicating the joint outlet.

9. The cooking machine as claimed in claim 8, wherein a plurality of slow flow bending portions are provided in the integrated pipeline joint, the plurality of slow flow bending portions are arranged in a plurality of layers, two adjacent layers of the slow flow bending portions are arranged in a staggered manner, two adjacent layers of the joint inlets are arranged in a staggered manner, and a plurality of the joint outlets are arranged on the bottom surface of the feeding arm.

10. The cooking machine as claimed in any one of claims 1 to 9, wherein the fluid ingredient feeding mechanism further comprises a feeding base mounted on the base, the feeding base is located at one side of the pot, the feeding base is provided with a rotary opening, the delivery pipe extends into the feeding arm through the rotary opening and is connected to the joint inlet, a driving device is provided in the feeding base, one end of the feeding arm, which is far away from the feeding outlet, extends into the rotary opening and is in transmission connection with the driving device, and the driving device drives the feeding arm to rotate relative to the feeding base to feed materials into the pot.

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