A blending system diagnoses a blending device. The blending system may include a diagnostic system that captures audio and diagnosis an issue of a blending device. The diagnostic system may compare the audio to reference audio. The comparison may match the audio with reference audio. The reference audio may be associated with diagnostic data. The diagnostic system may generate a diagnosis based on the match audio and associated diagnostic data.

A blending system diagnoses a blending device. The blending system may include a diagnostic system that captures audio and diagnosis an issue of a blending device. The diagnostic system may compare the audio to reference audio. The comparison may match the audio with reference audio. The reference audio may be associated with diagnostic data. The diagnostic system may generate a diagnosis based on the match audio and associated diagnostic data.

The present invention relates to a portable liquid mixing device capable of mixing different types of various liquids, and the different types of various liquids may include various beverages. The present invention includes a plurality of containers configured to contain respective specific liquids, a selection unit configured to select any one of the plurality of containers, a control unit configured to control the introduction of a selected liquid into a mixing container, and a mixing unit configured to mix various liquids introduced into the mixing container. According to the present invention, different types of liquids may be mixed together. In particular, beverages having various flavors are put into respective containers, mixed together and then drunk. Furthermore, a scale is marked on the surface of the mixing container, and thus the amount of liquid may be accurately measured, so that liquids may be mixed at an accurate ratio.

The present invention relates to a portable liquid mixing device capable of mixing different types of various liquids, and the different types of various liquids may include various beverages. The present invention includes a plurality of containers configured to contain respective specific liquids, a selection unit configured to select any one of the plurality of containers, a control unit configured to control the introduction of a selected liquid into a mixing container, and a mixing unit configured to mix various liquids introduced into the mixing container. According to the present invention, different types of liquids may be mixed together. In particular, beverages having various flavors are put into respective containers, mixed together and then drunk. Furthermore, a scale is marked on the surface of the mixing container, and thus the amount of liquid may be accurately measured, so that liquids may be mixed at an accurate ratio.

A beverage self-propelling and production system comprises a beverage production region, a self-propelled vehicle device and a server appliance wherein: the beverage production region has several beverage production workstations, several trajectory line objects and several sensor elements; the server appliance receiving at least a group of order messages drives the self-propelled vehicle device to move along the trajectory line objects and stop at different beverage production workstations, controls supplies of ingredients at the beverage production workstations, and depends on the order messages to change a move path of the self-propelled vehicle device for production and output of a beverage product after completion of the self-propelled vehicle device passing through different beverage production workstations in turn.

A beverage self-propelling and production system comprises a beverage production region, a self-propelled vehicle device and a server appliance wherein: the beverage production region has several beverage production workstations, several trajectory line objects and several sensor elements; the server appliance receiving at least a group of order messages drives the self-propelled vehicle device to move along the trajectory line objects and stop at different beverage production workstations, controls supplies of ingredients at the beverage production workstations, and depends on the order messages to change a move path of the self-propelled vehicle device for production and output of a beverage product after completion of the self-propelled vehicle device passing through different beverage production workstations in turn.

Disclosed herein are a smart blender and an information provision system using the same. The smart blender includes: a body part configured such that a drive motor is provided therein; a container part configured such that food ingredients are introduced thereinto; a grip part formed on the outer circumferential surface of the container part; a cover part detachably coupled to the top of the container part; a weight measurement portion configured to measure the weight of the food ingredients introduced into the container part; an information input/output portion configured to display the measured result of the weight measurement portion, and to receive information about the food ingredients and information about the number of persons from a user; and a control unit configured to determine the state of the food ingredients and control the operation of the blender according to the measured result of the weight measurement portion.

A blender or food processor having electronics associated therewith including at least one controller, at least one current sensor and at least one speed sensor, the controller controls the operation of the blender motor based upon the contents being blended inside the blender jar and compares measured current and speed values and measured changes in the current and speed values to predetermined values stored in memory in order to (1) determine the load size placed in the blender jar, (2) determine if cavitation exists in the blender jar, and (3) determine the final consistency associated with the output of the product placed within the blender jar as selected by the user.

A blender or food processor having electronics associated therewith including at least one controller, at least one current sensor and at least one speed sensor, the controller controls the operation of the blender motor based upon the contents being blended inside the blender jar and compares measured current and speed values and measured changes in the current and speed values to predetermined values stored in memory in order to (1) determine the load size placed in the blender jar, (2) determine if cavitation exists in the blender jar, and (3) determine the final consistency associated with the output of the product placed within the blender jar as selected by the user.

A blender includes abase and a container unit mounted rotatably and detachably on the base. The container unit includes a container, and a blade assembly disposed on a bottom portion of the container. The base includes a first push portion adjacent to the blade assembly which has a second push portion. When the container unit is rotated relative to the base until the second push portion contacts with the first push portion, the first push portion pushes upward the second push portion as the container unit is continuously rotated relative to the base so as to move the container unit upwardly and away from the base.