CN218484348U - Feeding device applied to cooking equipment and cooking system - Google Patents

Abstract

The application discloses feedway, culinary art system for cooking equipment. The feeding device comprises: the feeding main body is provided with a feeding pipe group for outputting auxiliary materials; the first cleaning element is arranged on the feeding main body and is in fluid communication with the feeding pipe group, and the first cleaning element is used for outputting airflow to the feeding pipe group so as to output auxiliary materials in the feeding pipe group through the airflow. Through the mode, the feeding precision of the feeding device can be guaranteed.

Description

Feeding device applied to cooking equipment and cooking system

Technical Field

The application relates to the technical field of cooking equipment, in particular to a feeding device and a cooking system applied to the cooking equipment.

Background

Along with the improvement of living standard, people demand kitchen appliances more and more, and the intelligent electric rice cooker that is small to big to intelligent kitchen is all in order to satisfy modern people's intelligent demand to the electrical apparatus. Taking cooking as an example, traditional cooking needs manual feeding, and manual feeding mostly needs experience to control the feeding amount, so that standardization and intellectualization are difficult to realize. In view of the above problems, a cooking machine as an intelligent home appliance has been developed. The cooker overcomes the problems of poor control of the feeding amount in the seasoning adding process and the like, and is convenient for standardization and intellectualization.

Currently, most cookers are equipped with a feeding device to supply seasonings to the cooker through the feeding device. However, seasoning is easily remained on the pipeline for conveying the seasoning inside the existing feeding device after the seasoning is fed, and the feeding precision of the feeding device is affected.

SUMMERY OF THE UTILITY MODEL

The application provides a feedway, culinary art system for cooking equipment can guarantee feedway's reinforced precision.

The application provides a feedway for cooking equipment. The feeding device comprises: the feeding main body is provided with a feeding pipe group for outputting auxiliary materials; the first cleaning element is arranged on the feeding main body and is in fluid communication with the feeding pipe group, and the first cleaning element is used for outputting airflow to the feeding pipe group so as to output auxiliary materials in the feeding pipe group through the airflow.

In an embodiment of the present application, the feeding device further comprises: the first cleaning element is connected with the feeding pipe group through the first cleaning pipeline; wherein the first cleaning element is configured to output an air flow to the feeding tube group through the first cleaning pipe after the main body supplies the supplementary material to the cooking apparatus each time.

In an embodiment of the present application, the supply device further comprises: the first one-way conduction element is connected with the feeding pipe group through the first cleaning element; the first one-way conduction element is configured to allow the air flow to flow from the first cleaning element to the feed pipe group, and block the fluid flow to the first cleaning element.

In an embodiment of the present application, the first one-way conduction element is a one-way valve.

In an embodiment of the present application, the first cleaning element is an air pump.

In an embodiment of the present application, the supply device further comprises: the second cleaning element is arranged on the feeding main body and is in fluid communication with the feeding pipe group, and the second cleaning element is used for outputting high-temperature fluid to the feeding pipe group so as to output auxiliary materials in the feeding pipe group through the high-temperature fluid.

In an embodiment of the present application, the supply device further comprises: the second cleaning element is connected with the feeding pipe group through the second cleaning pipeline; wherein the second cleaning element is configured to be able to output high temperature fluid through the second cleaning line after cooking is finished.

In an embodiment of the present application, the supply device further comprises: the second cleaning element is connected with the feeding pipe group through the second one-way conduction element; wherein the second one-way conduction element is configured to allow the high-temperature fluid to flow from the second cleaning element to the feed tube group, and to block the fluid from flowing to the second cleaning element.

In an embodiment of the present application, the supply device further comprises: the first cleaning pipeline is connected with the first cleaning element; the second cleaning pipeline is connected with the second cleaning element; and the first cleaning pipeline and the second cleaning pipeline are connected with the feeding pipe group through the third cleaning pipeline, and the second one-way conduction element is positioned on the third cleaning pipeline.

In an embodiment of the present application, the feeding device further comprises: a four-way element having a first end, a second end, a third end and a fourth end; the first end is connected with the first cleaning pipeline, the second end is connected with the second cleaning pipeline, and the third end is connected with the third cleaning pipeline; and the pressure relief element is connected with the fourth end.

In an embodiment of the present application, the second one-way conduction element is a one-way valve.

In an embodiment of the present application, the supply device further comprises: the material bottle is assembled on the feeding main body and connected with the feeding pipe group; the feed tube group includes: the delivery pump is connected with the material bottle and used for pumping the auxiliary materials in the material bottle to the cooking equipment; the feed main part still includes: the support, first clearance component, second clearance component and delivery pump all are located the support, and first clearance component is close to the delivery pump relatively second clearance component.

In an embodiment of the present application, the supply device further comprises: the target material bottle is used for storing clean water, is assembled on the feeding main body and is in fluid communication with the second cleaning element, and is used for transmitting the clean water to the second cleaning element which heats the clean water to form high-temperature fluid; and the water supplementing pipe set is arranged on the feeding main body and is communicated with the target material bottle in a fluid mode, and the water supplementing pipe set is used for being connected with an external water source so as to supplement clean water of the external water source into the target material bottle.

In an embodiment of the present application, the feed tube set comprises: and the target material bottle is in fluid communication with the second cleaning element through the target delivery pump, and the target delivery pump is used for pumping the clean water in the target material bottle to the second cleaning element so as to directly output the clean water through the second cleaning element or heat the clean water to form high-temperature fluid.

In an embodiment of the present application, the refill tube set includes: the water replenishing interface is arranged on the material supply main body and is used for connecting an external water source; the tee joint element is provided with a first end, a second end and a third end; the first end is communicated with the water supplementing interface in a fluid mode, the second end is communicated with the target material bottle in a fluid mode, and the third end is communicated with the second cleaning element in a fluid mode.

In an embodiment of the present application, the supply device further comprises: the at least two material bottles are assembled on the feeding main body; the feed tube group includes: the material gathering assembly is respectively connected with the material bottles, and auxiliary materials output by the material bottles are output through the material gathering assembly; the material gathering assembly is in fluid communication with the first cleaning element, and the first cleaning element is at least used for outputting auxiliary materials in the material gathering assembly.

Correspondingly, the application also provides a cooking system. This culinary art system includes cooking equipment and feedway, and feedway includes: a feeding main body having a feeding tube group for outputting the auxiliary material; the first cleaning element is arranged on the feeding main body and is in fluid communication with the feeding pipe group, and the first cleaning element is used for outputting airflow to the feeding pipe group so as to output auxiliary materials in the feeding pipe group through the airflow.

The beneficial effect of this application is: be different from prior art, this application provides a feedway, culinary art system for cooking equipment. The feeding device comprises a feeding main body, wherein the feeding main body is provided with a feeding pipe group used for outputting auxiliary materials. The feed device also includes a first cleaning element in fluid communication with the feed tube set. First clearance component is arranged in exporting the air current to the feed nest of tubes to through the auxiliary material output of this air current in with the feed nest of tubes, can alleviate the remaining condition of auxiliary material in the feed nest of tubes, therefore can guarantee feedway's reinforced precision.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of a feeding device according to the present application;

FIG. 2 is a schematic view of an embodiment of the feeding body of the present application;

FIG. 3 is a schematic exploded view of one embodiment of the cross member and manifold assembly of the present application;

fig. 4 is a schematic structural view of a part of a housing of the feeding device shown in fig. 1, from which a feeding body is omitted.

Description of reference numerals:

the device comprises a feeding device 10, a feeding body 11, a support 111, a feeding pipe group 12, a third cleaning pipeline 13, a four-way element 14, a pressure relief element 15, a material bottle 16, a target material bottle 16a, a target delivery pump 17a, a material gathering assembly 18, a first cleaning element 20, a first cleaning pipeline 21, a first one-way conduction element 22, a second cleaning element 30, a second cleaning pipeline 31, a second one-way conduction element 32, a water replenishing pipe group 40, a water replenishing interface 41 and a three-way element 42.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Furthermore, it should be understood that the detailed description and specific examples, while indicating exemplary embodiments of the invention, are given by way of illustration and explanation only, and are not intended to limit the scope of the invention. In the present application, unless otherwise specified, the use of directional terms such as "upper", "lower", "left" and "right" generally refer to upper, lower, left and right in the actual use or operation of the device, and specifically to the orientation of the drawing figures.

The present application provides a feeding device and a cooking system applied to a cooking device, which are described in detail below. It should be noted that the following description of the embodiments is not intended to limit the preferred order of the embodiments of the present application. In the following embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to related descriptions of other embodiments for parts that are not described in detail in a certain embodiment.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic structural diagram of an embodiment of a feeding device of the present application, and fig. 2 is a schematic structural diagram of an embodiment of a feeding main body of the present application. In fig. 2, the outer case of the feed main body 11 is omitted.

In one embodiment, the cooking system includes a cooking apparatus and a feeding device 10. The cooking device is connected with the feeding device 10 through a pipeline, and the feeding device 10 conveys auxiliary materials to the cooking device through the pipeline between the feeding device and the cooking device. The cooking apparatus is a main element of a cooking system for performing a cooking operation. The auxiliary materials provided by the feeding device 10 to the cooking equipment assist the cooking equipment to cook the food materials, wherein the cooking modes include but are not limited to stir-frying, boiling, steaming, frying and the like. The working principle of the cooking device is within the understanding of those skilled in the art and will not be described herein. The auxiliary materials may include seasonings such as salt, monosodium glutamate, soy sauce and the like, and the auxiliary materials may also be clear water and the like, which are not limited herein.

Specifically, the supply device 10 includes a supply main body 11, and the supply main body 11 is an integral part of the supply device 10. The supply body 11 has a supply tube group 12, and the supply tube group 12 is used for discharging the auxiliary materials. The feeding pipe set 12 is used for connecting a cooking device, and the auxiliary materials in the feeding device 10 are output to the cooking device through the feeding pipe set 12.

Further, the feeding device 10 includes a material bottle 16, the material bottle 16 can be assembled to the feeding body 11 and can be connected to the feeding pipe group 12, and the auxiliary materials in the material bottle 16 are conveyed to the cooking device through the feeding pipe group 12 of the feeding body 11. The auxiliary material in the material bottle 16 is in liquid state. When the auxiliary materials are solid seasonings such as salt, monosodium glutamate and the like in a normal state, the solid seasonings are dissolved in clear water to form liquid seasonings such as salt water, monosodium glutamate water and the like, and the liquid seasonings are stored in the material bottle 16. When the auxiliary materials are liquid seasonings in normal states such as vinegar, soy sauce, light soy sauce, dark soy sauce and the like, the liquid seasonings can be directly stored in the material bottle 16. The feeding device 10 will typically be provided with at least two material bottles 16, each material bottle 16 being intended to hold a different auxiliary material.

The feeding device 10 further comprises a first cleaning element 20. The first cleaning element 20 is disposed on the feed body 11, and the first cleaning element 20 is in fluid communication with the feed tube set 12. The first cleaning element 20 is used for outputting airflow to the feeding pipe group 12 so as to output the auxiliary materials in the feeding pipe group 12 through the airflow.

During cooking, the feed main body 11 feeds the supplementary materials required to the cooking apparatus through the feed pipe group 12. After the main supply body 11 supplies the auxiliary ingredients to the cooking device each time, a part of the auxiliary ingredients is inevitably left in the supply pipe group 12, and if the remained auxiliary ingredients cannot be added to the cooking device, the remained auxiliary ingredients will have a bad influence on the accuracy of the main supply body 11 in each feeding amount. Further, the remaining auxiliary raw material stays in the feed tube group 12 for a long period of time, and clogging of the feed tube group 12 is likely to occur. In addition, after the residual auxiliary materials are left in the feeding pipe group 12 for a long time and deteriorate, peculiar smell is easily generated, bacteria are bred, and the health and sanitation of dishes output by cooking equipment are not guaranteed. In view of this, the present embodiment outputs an airflow to the feeding pipe set 12 through the first cleaning element 20, the airflow can carry the auxiliary materials remained in the feeding pipe set 12 to flow to the cooking device, the residual amount of the auxiliary materials in the feeding pipe set 12 can be reduced, that is, the auxiliary materials remained in the feeding pipe set 12 can be alleviated, so that the feeding precision of the feeding device 10 can be ensured, and the risk of blocking the feeding pipe set 12 can be reduced, and the health and hygiene of the dishes output by the cooking device can be ensured.

It is to be noted that fluid communication between two elements is to be understood as being able to establish a fluid path between the two elements, fluid from one of the elements being able to be transferred to the other element. Alternatively, the first cleaning element 20 may be an air pump or the like, and the first cleaning element 20 is capable of pumping the above-mentioned air flow to the supply tube group 12, and is not limited herein.

In one embodiment, the feeding device 10 further comprises a first cleaning pipeline 21, the first cleaning element 20 is connected to the feeding pipe assembly 12 through the first cleaning pipeline 21, and the airflow output by the first cleaning element 20 flows to the feeding pipe assembly 12 through the first cleaning pipeline 21, so that the auxiliary materials in the feeding pipe assembly 12 are output through the airflow.

The first cleaning element 20 is configured to output an air flow to the feeding pipe group 12 through the first cleaning pipe 21 each time the main feeding body 11 provides the supplementary material to the cooking apparatus, i.e. the first cleaning element 20 is applied to the cooking process. The supply main body 11 may need to supply the supplementary material to the cooking apparatus several times during the cooking process. After the auxiliary materials are supplied to the cooking device by the supply main body 11 each time, the first cleaning element 20 outputs airflow to the supply pipe group 12 through the first cleaning pipeline 21, so that the auxiliary materials which are currently required to be supplied to the cooking device by the supply main body 11 are all output as far as possible, the auxiliary materials are prevented from remaining in the supply pipe group 12 as far as possible, and the precision of each charging of the supply main body 11 can be ensured.

Of course, in other embodiments of the present application, the first cleaning element 20 may also be configured to output an air flow to the feeding pipe assembly 12 through the first cleaning pipeline 21 after the cooking is finished, so that the auxiliary ingredients remaining in the feeding pipe assembly 12 are cleaned together with the cooking device during the output, so as to clean the feeding pipe assembly 12 after the cooking is finished, thereby reducing the remaining auxiliary ingredients in the feeding pipe assembly 12 as much as possible and avoiding affecting the next cooking operation of the cooking device.

In one embodiment, the feeding device 10 further comprises a second cleaning element 30. The second cleaning element 30 is disposed on the supply body 11, and the second cleaning element 30 is in fluid communication with the supply tube set 12. The second cleaning element 30 is used for outputting high-temperature fluid to the feeding pipe group 12 so as to output the auxiliary materials in the feeding pipe group 12 through the high-temperature fluid. The high-temperature fluid may be high-temperature steam or hot water.

Alternatively, the second cleaning element 30 may be a boiler or the like, without limitation.

Further, the feeding device 10 further comprises a second cleaning pipeline 31, the second cleaning element 30 is connected to the feeding pipe group 12 through the second cleaning pipeline 31, the high-temperature fluid output by the second cleaning element 30 flows to the feeding pipe group 12 through the second cleaning pipeline 31, and the auxiliary materials in the feeding pipe group 12 are output through the high-temperature fluid.

The second cleaning element 30 is configured to be able to output a high temperature fluid through the second cleaning line 31 after cooking is finished, i.e. the second cleaning element 30 is applied to a cleaning process after cooking is finished. The high-temperature fluid output by the second cleaning element 30 has the cleaning effects of sterilization and disinfection. After cooking, the second cleaning element 30 outputs high-temperature fluid to the feeding pipe group 12 through the second cleaning pipeline 31, the high-temperature fluid can carry the auxiliary materials remained in the feeding pipe group 12 to flow to the cooking device, the residual quantity of the auxiliary materials in the feeding pipe group 12 can be reduced, namely, the condition that the auxiliary materials remained in the feeding pipe group 12 can be relieved, and the risk of blocking the feeding pipe group 12 can also be reduced. In addition, the high-temperature fluid has the cleaning effects of sterilization and disinfection, can thoroughly clean the feeding pipe group 12, and is favorable for ensuring the health and sanitation of dishes output by the cooking equipment.

Of course, in other embodiments of the present application, the second cleaning element 30 may also be configured to output high-temperature fluid to the feeding pipe group 12 through the second cleaning pipeline 31 after each time the main feeding body 11 provides auxiliary materials to the cooking device, which is not limited herein.

In an embodiment, the feeding device 10 further comprises a first one-way conducting element 22, and the first cleaning element 20 is connected to the feeding tube set 12 via the first one-way conducting element 22.

The first one-way communication element 22 has a function of one-way communication, and in particular, the first one-way communication element 22 is configured to allow air to flow from the first cleaning element 20 to the supply line set 12, while blocking fluid flow to the first cleaning element 20. In other words, the first one-way conduction element 22 allows the air output by the first cleaning element 20 to flow through the first one-way conduction element 22 to the supply pipe set 12 to output the auxiliary material in the supply pipe set 12, and the first one-way conduction element 22 does not allow the fluid to flow reversely to the first cleaning element 20 through the first one-way conduction element 22, so as to prevent the fluid from reversely flowing to cause damage to the first cleaning element 20.

During cooking, the supply body 11 supplies the supplementary materials to the cooking apparatus, and the supplementary materials easily flow to the first cleaning member 20. The first one-way conduction element 22 can obstruct the auxiliary material flowing towards the first cleaning element 20 from flowing back through the first one-way conduction element 22, and the auxiliary material can be prevented from reversely flowing back to cause damage to the first cleaning element 20. Moreover, the fluid (including water and/or steam and the like) output by the second cleaning element 30 also easily flows to the first cleaning element 20, and the first one-way conduction element 22 can prevent the fluid output by the second cleaning element 30 from passing through the first one-way conduction element 22, so that the fluid can be prevented from reversely flowing back to cause damage to the first cleaning element 20, and the service life of the first cleaning element 20 is prevented from being influenced.

Alternatively, the first one-way conduction element 22 may be a one-way valve or the like, which is not limited herein.

In one embodiment, the feeding device 10 further comprises a second one-way conducting element 32, and the second cleaning element 30 is connected to the feeding tube set 12 via the second one-way conducting element 32.

The second one-way communication element 32 has a function of one-way communication, and particularly, the second one-way communication element 32 is configured to allow the high-temperature fluid to flow from the second cleaning element 30 to the feed pipe group 12, and block the fluid from flowing to the second cleaning element 30. In other words, the second one-way conduction element 32 allows the high-temperature fluid output by the second cleaning element 30 to flow toward the supply pipe group 12 through the second one-way conduction element 32 to output the auxiliary material in the supply pipe group 12, and the second one-way conduction element 32 does not allow the fluid to flow backward toward the second cleaning element 30 through the second one-way conduction element 32, so as to prevent the fluid from flowing backward to damage the second cleaning element 30 and prevent the service life of the second cleaning element 30 from being affected.

During cooking, the supply body 11 supplies the supplementary materials to the cooking apparatus, and the supplementary materials easily flow to the second cleaning member 30. The second one-way conduction element 32 can obstruct the auxiliary material flowing towards the second cleaning element 30 from passing through the second one-way conduction element 32, and the auxiliary material can be prevented from reversely flowing backwards to cause the damage to the second cleaning element 30. And, after cooking is finished, the second cleaning member 30 outputs the high temperature fluid to the supply tube group 12. The high-temperature fluid is easily cooled to reduce the temperature, so that a part of the fluid (including water and/or steam and the like) returns to the second cleaning element 30, and at this time, the second one-way conduction element 32 blocks the fluid from flowing to the second cleaning element 30, so that the second cleaning element 30 can be prevented from being damaged due to the reverse flow of the fluid.

Alternatively, the second one-way conduction element 32 may be a one-way valve or the like, which is not limited herein.

In an embodiment, the feed device 10 further comprises a third cleaning line 13. The first cleaning pipe 21 and the second cleaning pipe 31 are connected to the supply pipe group 12 through the third cleaning pipe 13.

The first one-way conduction element 22 is located in the first cleaning pipeline 21, the first one-way conduction element 22 can prevent the fluid from the second cleaning pipeline 31 from entering the first cleaning element 20, and the first one-way conduction element 22 can also prevent the cold part of the high-temperature fluid output by the auxiliary material and the second cleaning element 30 from flowing back to the first cleaning element 20 through the third cleaning pipeline 13, so that the risk of damage to the first cleaning element 20 is reduced.

The second one-way conduction element 32 is located on the third cleaning pipeline 13, and the second one-way conduction element 32 can prevent the cold part of the high-temperature fluid output by the auxiliary material and the second cleaning element 30 from flowing back to the second cleaning element 30 through the third cleaning pipeline 13, so that the risk of damage to the second cleaning element 30 is reduced. Compared with the situation that the second one-way conduction element 32 is located in the second cleaning pipeline 31, the second one-way conduction element 32 is located in the third cleaning pipeline 13, so that the auxiliary materials can be prevented from being remained in the first cleaning pipeline 21, the second cleaning pipeline 31 and the third cleaning pipeline 13, and the feeding precision of the feeding device 10 can be further ensured. In the case that the second one-way conduction element 32 is located in the second cleaning pipeline 31, at least the auxiliary material is likely to remain in the third cleaning pipeline 13, which affects the feeding accuracy of the feeding device 10.

It should be noted that although the second one-way conduction element 32 is located in the third cleaning pipeline 13, since a certain amount of clean water is retained in the second cleaning pipeline 31 for a long time, the airflow output by the first cleaning element 20 cannot flow back into the second cleaning element 30 through the second cleaning pipeline 31.

Further, referring to fig. 3, the feeding device 10 further includes a four-way element 14, and the four-way element 14 has a first end, a second end, a third end and a fourth end. The first end of the four-way element 14 is connected with the first cleaning pipeline 21, the second end is connected with the second cleaning pipeline 31, and the third end is connected with the third cleaning pipeline 13. The supply device 10 further comprises a pressure relief element 15, which pressure relief element 15 is connected to the fourth end of the four-way element 14. The pressure relief element 15 is used for relieving pressure in the first cleaning pipeline 21, the second cleaning pipeline 31 and the third cleaning pipeline 13 when the pressure is too high, so that the reliability of the cleaning pipelines is ensured.

Alternatively, the four-way element 14 may be a four-way valve or the like, and the pressure relief element 15 may be a pressure relief valve or the like, which is not limited herein.

In one embodiment, the supply line set 12 includes a transfer pump 17. A delivery pump 17 is connected to the material bottle 16 for pumping the auxiliary material in the material bottle 16 to the cooking apparatus. Further, the delivery pump 17 can be a peristaltic pump or the like, and the delivery pump 17 can create a negative pressure environment in the pipeline for delivering the auxiliary materials, so that the auxiliary materials in the material bottle 16 are pumped to the cooking device through the delivery pump 17 under the action of the pressure difference. For the above example in which the supply device 10 is provided with at least two material bottles 16, the supply device 10 is provided with a unique corresponding delivery pump 17 for each material bottle 16, and each delivery pump 17 is used for pumping the auxiliary material of the material bottle 16 corresponding to the delivery pump 17.

The feed body 11 further comprises a support 111. The first cleaning element 20, the second cleaning element 30 and the delivery pump 17 are all located on the support 111, and the first cleaning element 20 is close to the delivery pump 17 relative to the second cleaning element 30. Since the second cleaning element 30 is used for outputting high-temperature fluid, which means that the second cleaning element 30 is prone to heat itself during operation, the first cleaning element 20 is disposed close to the delivery pump 17 relative to the second cleaning element 30, that is, the second cleaning element 30 is disposed far from the delivery pump 17 relative to the first cleaning element 20, so that the second cleaning element 30 is as far away from other parts including the delivery pump 17 on the bracket 111 as possible, which is beneficial for ensuring the structural reliability of the other parts.

Referring to fig. 4, fig. 4 is a schematic structural diagram of a portion of the casing of the feeding device shown in fig. 1 without the feeding body.

In one embodiment, the second cleaning element 30 heats clean water to form high temperature steam, and the second cleaning element 30 outputs the high temperature steam to the feeding tube group 12 to clean the feeding tube group 12 by outputting the auxiliary materials in the feeding tube group 12 through the high temperature steam.

The material bottle 16 of the feeding device 10 comprises a target material bottle 16a for storing clean water. The target bottle 16a is mounted to the feed body 11, and the target bottle 16a is in fluid communication with the second cleaning element 30. The target bottle 16a is used for transferring clean water to the second cleaning element 30, and the second cleaning element 30 heats the clean water to form high-temperature fluid, i.e. high-temperature steam.

In view of the large demand of fresh water from the second cleaning element 30, in order to avoid frequent removal of the target material bottle 16a for fresh water replenishment, the feeding device 10 of the present embodiment further comprises a water replenishing pipe set 40. The refill tube group 40 is provided to the feed main body 11, and the refill tube group 40 is in fluid communication with the target bottle 16a. The water replenishing pipe set 40 is used for connecting an external water source to replenish clean water of the external water source into the target material bottle 16a. In this way, the target material bottle 16a can be replenished with fresh water without removing the target material bottle 16a from the supply main body 11, so that the action of frequently removing the target material bottle 16a to replenish fresh water is omitted, and the use burden of a user is favorably reduced.

Further, the refill tube set 40 includes a refill interface 41 and a three-way member 42. The water charging port 41 is disposed on the feeding body 11, and the water charging port 41 is used for connecting an external water source. The tee element 42 has a first end, a second end, and a third end. Wherein a first end of the three-way element 42 is in fluid communication with the refill socket 41, a second end is in fluid communication with the target material bottle 16a, and a third end is in fluid communication with the second cleaning element 30.

During the process of replenishing the target material bottle 16a with fresh water through the water replenishing pipe set 40, fresh water from an external water source enters the water replenishing pipe set 40 from the water replenishing port 41, then flows to the three-way element 42, and flows to the target material bottle 16a through the second end of the three-way element 42 to be stored in the target material bottle 16a. When the target material bottle 16a needs to output clean water to the second cleaning element 30, the clean water in the target material bottle 16a flows to the three-way element 42 and flows to the second cleaning element 30 through the third end of the three-way element 42.

The feed pump 17 of the supply device 10 includes a target feed pump 17a. The target material bottle 16a is in fluid communication with the second cleaning element 30 via a target delivery pump 17a, the target delivery pump 17a being adapted to pump clean water from the target material bottle 16a to the second cleaning element 30. The present embodiment actively pumps the clean water in the target material bottle 16a to the second cleaning element 30 through the target delivery pump 17a. The water replenishing flow path of the water replenishing pipe group 40 is configured to convey the fresh water to the target material bottle 16a by the water pressure of the external water source.

Alternatively, the three-way element 42 may be a three-way valve or the like, and is not limited thereto.

It should be noted that the target material bottle 16a not only outputs clean water to the second cleaning element 30 through the target delivery pump 17a for the second cleaning element 30 to heat to form high-temperature fluid, but also outputs clean water to the second cleaning element 30 through the target delivery pump 17a for the second cleaning element 30 to directly output clean water through the second cleaning element 30, and at this time, the second cleaning element 30 does not heat the clean water. The cooking device needs the feeding device 10 to directly provide clean water to the cooking device, and in the embodiment, the pipeline where the second cleaning element 30 is located is reused to directly provide clean water to the cooking device, so that a pipeline for additionally providing the feeding device 10 to directly provide clean water to the cooking device is omitted, which is beneficial to simplifying the pipeline design of the feeding device 10 and reducing the research, development and manufacturing costs of the feeding device 10. In addition, the cooking device has a large demand for clean water, and the water replenishing pipe set 40 is provided in the embodiment to replenish the clean water to the target material bottle 16a, so that the target material bottle 16a can be replenished with clean water without being taken down from the feeding main body 11, and the action of frequently taking down the target material bottle 16a to replenish clean water is omitted, which is beneficial to reducing the use burden of a user.

In one embodiment, for the example of the feed device 10 being equipped with at least two flasks 16, the feed block assembly 12 includes a manifold assembly 18. The material gathering assembly 18 is respectively connected with the material bottles 16, and auxiliary materials output by the material bottles 16 are output through the material gathering assembly 18. Each of the plurality of flasks 16 is fluidly connected to a manifold assembly 18 via a conduit, the manifold assembly 18 is also fluidly connected to the cooking device via a conduit, and the auxiliary material from each of the plurality of flasks 16 is output via the manifold assembly 18.

The first cleaning element 20 is specifically in fluid communication with the collecting assembly 18, and the first cleaning element 20 is at least used for outputting the auxiliary materials in the collecting assembly 18 so as to relieve the situation that the auxiliary materials in the collecting assembly 18 and the pipeline between the collecting assembly and the cooking device are remained, so that the feeding precision of the feeding device 10 can be ensured, the risk of pipeline blockage can be reduced, and the health and sanitation of the dishes output by the cooking device can be ensured. Similarly, the second cleaning element 30 is also in fluid communication with the collection assembly 18, and the second cleaning element 30 is at least used for outputting the auxiliary materials in the collection assembly 18, so as to alleviate the situation that the auxiliary materials remain in the collection assembly 18 and the pipeline between the collection assembly 18 and the cooking device, and thoroughly clean the collection assembly 18 and the pipeline between the collection assembly 18 and the cooking device.

For the example that the feeding device 10 includes the four-way element 14, the third end of the four-way element 14 is connected to the material converging assembly 18 through the third cleaning pipeline 13, that is, the first cleaning pipeline 21 and the second cleaning pipeline 31 are both connected to the material converging assembly 18 through the third cleaning pipeline 13, and the second one-way conducting element 32 is located on the third cleaning pipeline 13 between the four-way element 14 and the material converging assembly 18.

The technical solution provided in the embodiments of the present application is described below with reference to specific application scenarios.

The application scene one:

the feeding device 10 is applied to a cooking apparatus for feeding auxiliary materials to the cooking apparatus. The feeding device 10 comprises a feeding body 11. The feed main body 11 has a feed tube group 12 for discharging the auxiliary material.

The feeding device 10 further comprises a first cleaning element 20. The first cleaning element 20 is disposed on the supply body 11 and is in fluid communication with the supply line set 12. The first cleaning member 20 is configured to output an air flow to the feed tube group 12 through the first cleaning pipe 21 each time the main feed body 11 supplies the supplementary material to the cooking apparatus. The supply main body 11 may need to supply the supplementary material to the cooking apparatus several times during the cooking process. After the auxiliary materials are supplied to the cooking device by the supply main body 11 each time, the first cleaning element 20 outputs airflow to the supply pipe group 12 through the first cleaning pipeline 21, so that the auxiliary materials which are currently required to be supplied to the cooking device by the supply main body 11 are all output as far as possible, the auxiliary materials are prevented from remaining in the supply pipe group 12 as far as possible, and the precision of each charging of the supply main body 11 can be ensured.

The feeding device 10 further comprises a second cleaning element 30. The second cleaning element 30 is disposed on the feed body 11, and the second cleaning element 30 is in fluid communication with the feed tube set 12. The second cleaning member 30 is configured to be able to output a high temperature fluid through the second cleaning pipe 31 after cooking is finished. The high-temperature fluid output by the second cleaning element 30 has the cleaning effects of sterilization and disinfection. After cooking, the second cleaning element 30 outputs high-temperature fluid to the feeding pipe group 12 through the second cleaning pipeline 31, the high-temperature fluid can carry the auxiliary materials remained in the feeding pipe group 12 to flow to the cooking device, the residual quantity of the auxiliary materials in the feeding pipe group 12 can be reduced, namely, the condition that the auxiliary materials remained in the feeding pipe group 12 can be relieved, and the risk of blocking the feeding pipe group 12 can also be reduced. In addition, the high-temperature fluid has the cleaning effects of sterilization and disinfection, can thoroughly clean the feeding pipe group 12, and is favorable for ensuring the health and sanitation of dishes output by the cooking equipment.

The feeding device 10 further comprises a first one-way conducting element 22, and the first cleaning element 20 is connected to the feeding pipe set 12 via the first one-way conducting element 22. The first one-way conduction element 22 can obstruct the auxiliary material flowing towards the first cleaning element 20 from flowing back through the first one-way conduction element 22, and the auxiliary material can be prevented from reversely flowing back to cause damage to the first cleaning element 20. In addition, the first one-way conduction element 22 can also prevent the fluid output by the second cleaning element 30 from passing through the first one-way conduction element 22, so that the fluid can be prevented from reversely flowing back to cause damage to the first cleaning element 20, and the service life of the first cleaning element 20 is prevented from being influenced.

The feeding device 10 further comprises a second one-way conducting element 32, and the second cleaning element 30 is connected to the feeding pipe set 12 via the second one-way conducting element 32. The second one-way conduction element 32 can obstruct the auxiliary material flowing towards the second cleaning element 30 from passing through the second one-way conduction element 32, and the auxiliary material can be prevented from reversely flowing backwards to cause the damage to the second cleaning element 30. In addition, the second one-way conduction element 32 can also block the fluid subjected to cold backflow from flowing to the second cleaning element 30, and the fluid can be prevented from reversely flowing to cause damage to the second cleaning element 30.

Application scenario two:

the cooking system comprises a cooking device and a feeding device 10, wherein the feeding device 10 is used for conveying auxiliary materials to the cooking device. The feeding device 10 comprises a feeding body 11. The feed main body 11 has a feed tube group 12 for discharging the auxiliary material.

The feeding device 10 further comprises a first cleaning element 20. The first cleaning element 20 is disposed on the supply body 11 and is in fluid communication with the supply line set 12. The first cleaning member 20 is configured to output an air flow to the feed tube group 12 through the first cleaning pipe 21 each time the main feed body 11 supplies the supplementary material to the cooking apparatus. The supply main body 11 may need to supply the supplementary material to the cooking apparatus several times during the cooking process. After the main supply body 11 provides the auxiliary materials to the cooking device each time, the first cleaning element 20 outputs air flow to the main supply pipe group 12 through the first cleaning pipeline 21, so that the auxiliary materials which the main supply body 11 needs to provide to the cooking device at present are all output as far as possible, the auxiliary materials are prevented from remaining in the main supply pipe group 12 as far as possible, and the precision of each charging of the main supply body 11 can be ensured.

The feeding device 10 further comprises a second cleaning element 30. The second cleaning element 30 is disposed on the feed body 11, and the second cleaning element 30 is in fluid communication with the feed tube set 12. The second cleaning member 30 is configured to be able to output a high temperature fluid through the second cleaning pipe 31 after cooking is finished. The high-temperature fluid output by the second cleaning element 30 has the cleaning effects of sterilization and disinfection. After cooking, the second cleaning element 30 outputs high-temperature fluid to the feeding pipe group 12 through the second cleaning pipeline 31, the high-temperature fluid can carry the auxiliary materials remained in the feeding pipe group 12 to flow to the cooking device, the residual quantity of the auxiliary materials in the feeding pipe group 12 can be reduced, namely, the condition that the auxiliary materials remained in the feeding pipe group 12 can be relieved, and the risk of blocking the feeding pipe group 12 can also be reduced. In addition, the high-temperature fluid has the cleaning effects of sterilization and disinfection, can thoroughly clean the feeding pipe group 12, and is favorable for ensuring the health and sanitation of dishes output by the cooking equipment.

The feeding device 10 further comprises a first one-way conducting element 22, and the first cleaning element 20 is connected to the feeding pipe set 12 via the first one-way conducting element 22. The first one-way conduction element 22 can prevent the auxiliary material flowing towards the first cleaning element 20 from flowing backwards through the first one-way conduction element 22, so that the first cleaning element 20 can be prevented from being damaged due to reverse flowing of the auxiliary material. In addition, the first one-way conduction element 22 can also prevent the fluid output by the second cleaning element 30 from passing through the first one-way conduction element 22, so that the fluid can be prevented from reversely flowing back to cause damage to the first cleaning element 20, and the service life of the first cleaning element 20 is prevented from being influenced.

The feeding device 10 further comprises a second one-way conducting element 32, and the second cleaning element 30 is connected to the feeding pipe set 12 via the second one-way conducting element 32. The second one-way conduction element 32 can obstruct the auxiliary material flowing towards the second cleaning element 30 from passing through the second one-way conduction element 32, and the auxiliary material can be prevented from reversely flowing backwards to cause the damage to the second cleaning element 30. In addition, the second one-way conduction element 32 can also block the fluid subjected to cold backflow from flowing to the second cleaning element 30, and the fluid can be prevented from reversely flowing to cause damage to the second cleaning element 30.

The above detailed description is provided for the feeding device and the cooking system applied to the cooking device, and the principle and the embodiment of the present application are explained by applying specific examples, and the description of the above examples is only used to help understanding the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (17)

1. A feeding device applied to a cooking apparatus, characterized in that it comprises:

the feeding main body is provided with a feeding pipe group for outputting auxiliary materials;

the first cleaning element is arranged on the feeding main body and is in fluid communication with the feeding pipe group, and the first cleaning element is used for outputting airflow to the feeding pipe group so as to output auxiliary materials in the feeding pipe group through the airflow.

2. The feed device of claim 1,

the feeding device further comprises:

the first cleaning element is connected with the feeding pipe group through the first cleaning pipeline;

wherein the first cleaning element is configured to output the airflow to the supply tube set through the first cleaning pipe after each time the supply body supplies the supplementary material to the cooking apparatus.

3. The feeding device according to claim 1,

the feeding device further comprises:

the first one-way conduction element is connected with the feeding pipe group through the first cleaning element;

wherein the first one-way directional element is configured to allow the flow of gas from the first cleaning element to the feed tube set while blocking the flow of fluid to the first cleaning element.

4. The feeding device according to claim 3,

the first one-way conduction element is a one-way valve.

5. The feeding device according to any one of claims 1 to 4,

the first cleaning element is an air pump.

6. The feeding device according to claim 1,

the feeding device further comprises:

the second cleaning element is arranged on the feeding main body and is in fluid communication with the feeding pipe group, and the second cleaning element is used for outputting high-temperature fluid to the feeding pipe group so as to output auxiliary materials in the feeding pipe group through the high-temperature fluid.

7. The feeding device of claim 6,

the feeding device further comprises:

the second cleaning element is connected with the feeding pipe group through the second cleaning pipeline;

wherein the second cleaning element is configured to be able to output the high temperature fluid through the second cleaning pipe after cooking is finished.

8. The feeding device according to claim 6,

the feeding device further comprises:

the second one-way conduction element is connected with the feeding pipe group through the second cleaning element;

wherein the second one-way conduction element is configured to allow the high-temperature fluid to flow from the second cleaning element to the feed tube group while blocking the flow of the fluid to the second cleaning element.

9. The feeding device of claim 8,

the feeding device further comprises:

the first cleaning pipeline is connected with the first cleaning element;

the second cleaning pipeline is connected with the second cleaning element;

and the first cleaning pipeline and the second cleaning pipeline are connected with the feeding pipe group through the third cleaning pipeline, and the second one-way conduction element is positioned on the third cleaning pipeline.

10. The feeding device according to claim 9,

the feeding device further comprises:

a four-way element having a first end, a second end, a third end and a fourth end; the first end is connected with the first cleaning pipeline, the second end is connected with the second cleaning pipeline, and the third end is connected with the third cleaning pipeline; and

and the pressure relief element is connected with the fourth end.

11. The feeding device according to any one of claims 8 to 10,

the second one-way conduction element is a one-way valve.

12. The feeding device of claim 6,

the feeding device further comprises:

the material bottle is assembled on the feeding main body and connected with the feeding pipe group;

the feed tube group includes:

the delivery pump is connected with the material bottle and is used for pumping the auxiliary materials in the material bottle to cooking equipment;

the feed main body further includes:

the first cleaning element, the second cleaning element and the delivery pump are all located on the support, and the first cleaning element is close to the delivery pump relative to the second cleaning element.

13. The feeding device according to claim 6,

the feeding device further comprises:

a target bottle for storing fresh water, the target bottle being mounted to the feed body and in fluid communication with the second cleaning element, the target bottle for delivering fresh water to the second cleaning element, the second cleaning element forming the high temperature fluid by heating the fresh water;

and the water supplementing pipe set is arranged on the feeding main body and is communicated with the target material bottle in a fluid mode, and the water supplementing pipe set is used for being connected with an external water source so as to supplement clean water of the external water source into the target material bottle.

14. The feeding device of claim 13,

the feed tube group includes:

the target material bottle is in fluid communication with the second cleaning element through the target delivery pump, and the target delivery pump is used for pumping clean water in the target material bottle to the second cleaning element so as to directly output the clean water through the second cleaning element or heat the clean water to form the high-temperature fluid.

15. The feed device of claim 13,

the moisturizing nest of tubes includes:

the water replenishing interface is arranged on the feeding main body and is used for connecting an external water source;

the tee joint element is provided with a first end, a second end and a third end; wherein the first end is in fluid communication with the refill port, the second end is in fluid communication with the target charge bottle, and the third end is in fluid communication with the second cleaning element.

16. The feeding device according to claim 1,

the feeding device further comprises:

at least two material bottles which are assembled on the feeding main body;

the feed tube group includes:

the material gathering assembly is respectively connected with the material bottles, and auxiliary materials output by the material bottles are output through the material gathering assembly;

the material gathering assembly is in fluid communication with the first cleaning element, and the first cleaning element is at least used for outputting auxiliary materials in the material gathering assembly.

17. A cooking system comprising a cooking device and a feeding device, the feeding device comprising:

a feed body having a feed tube group for delivering the supplementary material to the cooking apparatus;

the first cleaning element is arranged on the feeding main body and is in fluid communication with the feeding pipe group, and the first cleaning element is used for outputting airflow to the feeding pipe group so as to transmit auxiliary materials in the feeding pipe group to the cooking equipment through the airflow.

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