CN220236699U - Stirring cooking rod - Google Patents

Abstract

The utility model provides a stirring cooking rod, which belongs to the technical field of household appliances and comprises a host unit, a stirring unit and a lighting unit; the main machine unit is provided with a mounting end, and the mounting end is connected with the stirring unit; the lighting unit is arranged on the outer peripheral surface of the host unit in a protruding mode, the light emitting direction of the lighting unit faces the mounting end, and the lighting unit is further electrically connected with the host unit. According to the utility model, the illumination unit is started to illuminate the inner space of the container, so that a user can conveniently observe the stirring condition of food materials in the container, the defects of incomplete stirring or overflow of the food materials from the container and the like are avoided, the use reliability is ensured, and the use experience is improved.

Description

Stirring cooking rod

Technical Field

The utility model belongs to the technical field of household appliances, and particularly relates to a stirring cooking rod.

Background

The novel kitchen appliance is mainly used for stirring food materials, is small and flexible, does not need to use a specific container, can be used for stirring operation in various different containers, has wide application prospect, and can effectively improve the treatment efficiency of the food materials.

When the existing stirring cooking rod is used, if the external environment is darker in light or the container transparency is poor, a user is difficult to observe the stirring condition of food materials in the container, the situation that the food materials overflow from the container, the stirring unit is not fully contacted with the food materials to cause stirring not in place and the like is possibly caused, the use reliability is affected, and the use experience is not improved.

Disclosure of Invention

The embodiment of the utility model provides a stirring cooking rod, which aims to solve the problem that the use reliability of the traditional stirring cooking rod is difficult to be ensured under the condition of dark external environment light or poor transparency of a container.

In order to achieve the above purpose, the utility model adopts the following technical scheme: provided is a stirring cooking bar comprising:

a host unit, a stirring unit and a lighting unit;

the main unit is provided with a mounting end, and the mounting end is connected with the stirring unit;

the lighting unit is arranged on the outer peripheral surface of the host unit in a protruding mode, the light emergent direction of the lighting unit faces the mounting end, and the lighting unit is further electrically connected with the host unit.

In one possible implementation manner, the stirring cooking bar further comprises a light sensing unit, wherein the light sensing unit is arranged on the side wall of the host unit and is in communication connection with the lighting unit.

In one possible implementation manner, the outer peripheral surface of the host unit forms a protruding first mounting portion, the first mounting portion has an illumination opening facing the mounting end, the illumination unit is disposed within the first mounting portion, and the light emitting surface of the illumination unit corresponds to the illumination opening.

In some embodiments, the first mounting portion is an annular member extending in a circumferential direction of the host unit, and the illumination opening is an annular opening; alternatively, the first mounting portion is an annular member extending in a circumferential direction of the host unit, and the plurality of illumination openings are provided in plural and distributed in the circumferential direction of the host unit.

In one possible implementation manner, the stirring cooking rod further comprises a temperature sensing unit and a display unit, wherein the temperature sensing unit and the display unit are both arranged on the outer wall of the host unit, the temperature sensing unit is in communication connection with the display unit, and the sensing surface of the temperature sensing unit faces the mounting end.

In some embodiments, the outer peripheral surface of the host unit forms a protruding second mounting portion, the second mounting portion has an induction opening facing the mounting end, the temperature sensing unit is disposed in the second mounting portion, and the induction surface of the temperature sensing unit corresponds to the induction opening.

In some embodiments, the outer peripheral surface of the host unit forms a protruding third mounting portion, the third mounting portion has a functional opening facing the mounting end, the lighting unit and the temperature sensing unit are both disposed in the third mounting portion, and the light emitting surface of the lighting unit and the sensing surface of the temperature sensing unit are both corresponding to the functional opening.

In some embodiments, the third mounting portion is an annular member extending in a circumferential direction of the host unit, and the functional opening is an annular opening; alternatively, the third mounting portion is an annular member extending in the circumferential direction of the host unit, and the functional openings are provided in plural and distributed in the circumferential direction of the host unit.

In one possible implementation manner, the stirring unit comprises a mounting seat, a transmission rod and a stirring module, wherein the transmission rod is rotatably arranged in the mounting seat, the outer circumferential surface of one end of the transmission rod is provided with a rod body clamping part, and the other end of the transmission rod is connected with the stirring module;

the mounting end is provided with a driving shaft clamping groove, and the rod body clamping part is spliced with the driving shaft clamping groove and can limit the displacement of the driving rod in the circumferential direction of the driving rod; the mounting seat is detachably connected with the mounting end.

In some embodiments, the outer circumferential surface of the mounting end forms a rotary slot, the mounting seat forms a mounting space for accommodating the mounting end, and the inner wall surface of the mounting space forms a rotary inserting protrusion corresponding to the rotary slot.

Compared with the prior art, the scheme provided by the embodiment of the application has the advantages that the illumination unit is arranged on the main unit, and the illumination unit is arranged on the outer peripheral surface of the main unit, so that interference between the illumination unit and the stirring unit is avoided, and the realization of the stirring function is not influenced; and because the light-emitting direction of the lighting unit faces the mounting end, under the condition that external light is weak or the container transparency is poor, the internal space of the container can be illuminated by starting the lighting unit, so that a user can conveniently observe the stirring condition of food materials in the container, the adverse conditions of stirring in place or overflowing the food materials into the container and the like are avoided, the reliability of use is ensured, and the use experience is promoted.

Drawings

Fig. 1 is a schematic perspective view of a stirring bar according to an embodiment of the present utility model;

fig. 2 is an enlarged view of a portion a of fig. 1;

FIG. 3 is an exploded view of a stirring unit according to a first embodiment of the present utility model;

fig. 4 is a schematic perspective view of a host unit according to an embodiment of the utility model;

fig. 5 is a schematic perspective view of a stirring unit according to a first embodiment of the present utility model;

fig. 6 is a partial view showing an assembly structure of a first mounting portion and a lighting unit according to a second embodiment of the present utility model;

fig. 7 is a partial view showing an assembly structure of a second mounting portion and a lighting unit employed in the third embodiment of the present utility model;

fig. 8 is a schematic perspective view of a stirring bar according to a fourth embodiment of the present utility model;

FIG. 9 is an exploded partial view I of a host unit and a lighting unit employed in accordance with a fourth embodiment of the present utility model;

FIG. 10 is a second exploded partial view of a host unit and a lighting unit according to a fourth embodiment of the present utility model;

FIG. 11 is an exploded view of a stirring unit employed in a fifth embodiment of the present utility model;

fig. 12 is a schematic perspective view of a stirring unit according to a fifth embodiment of the present utility model;

fig. 13 is an enlarged view of a portion B of fig. 12.

Reference numerals illustrate:

1. a host unit;

101. a mounting end; 1011. a drive shaft clamping groove; 1012. rotating the slot; 1013. a main body circumferential clamping part; 102. a first mounting portion; 1021. an illumination opening; 103. a second mounting portion; 1031. sensing the opening; 104. a third mounting portion; 1041. a functional opening;

110. a housing; 120. a control panel;

2. a stirring unit;

210. a mounting base; 211. rotating the inserting protrusion; 212. a circumferential clamping part of the seat body; 220. a transmission rod; 221. a rod body clamping part; 230. a stirring module; 231. a stirring cage net; 232. a speed reducer; 233. a blade; 234. a splash guard;

3. a lighting unit;

310. a lamp bead; 320. a light strip; 330. a lamp shade; 331. the cover body is buckled; 332. a lamp shade opening;

4. a temperature sensing unit;

5. a display unit;

6. and a light sensing unit.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the claims, specification and drawings hereof, unless explicitly defined otherwise, the terms "first," "second," or "third," etc. are used for distinguishing between different objects and not for describing a particular sequential order.

In the claims, specification and drawings of the present utility model, unless explicitly defined otherwise, references to orientation words such as "center", "lateral", "longitudinal", "horizontal", "vertical", "top", "bottom", "inner", "outer", "upper", "lower", "front", "rear", "left", "right", "clockwise", "counterclockwise", "high", "low", etc. are based on the orientation and positional relationship shown in the drawings and are merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or element referred to must have a particular orientation or be constructed and operated in a particular orientation, nor should it be construed as limiting the specific scope of the utility model.

In the claims, specification and drawings of the present utility model, unless explicitly defined otherwise, the term "fixedly connected" or "fixedly connected" should be construed broadly, i.e. any connection between them without a displacement relationship or a relative rotation relationship, that is to say includes non-detachably fixedly connected, integrally connected and fixedly connected by other means or elements.

In the claims, specification and drawings of the present utility model, the terms "comprising," having, "and variations thereof as used herein, are intended to be" including but not limited to.

In the claims, the specification and the drawings of the utility model, if the term "communication connection" is used, the communication connection mode between two modules, units and other structures can be direct information interaction between the two modules, units and other structures, or indirect information interaction realized through other modules, units and other structures; the specific implementation form of the communication connection can be a wired connection or a wireless connection (such as bluetooth, wifi, etc.).

Referring to fig. 1, 2, 4 and 6 to 10, the stirring bar according to the present utility model will be described. The stirring cooking rod comprises a main unit 1, a stirring unit 2 and a lighting unit 3; the main unit 1 is provided with a mounting end 101, and the mounting end 101 is connected with the stirring unit 2; the lighting unit 3 is protruded on the outer peripheral surface of the host unit, and the light emitting direction of the lighting unit 3 faces the mounting end 101, and the lighting unit 3 is electrically connected with the host unit 1.

In this embodiment, the host unit 1 includes a housing 110, a driving module and a control panel 120, the driving module is disposed in the housing 110, the control panel 120 is disposed on an outer wall (e.g. a peripheral sidewall) of the housing 110, and a driving shaft of the driving module is in transmission connection with the stirring unit 2; the control panel 120 is electrically connected to the drive module and the lighting unit 3, respectively, and a user can enter commands (e.g., start stirring, switch stirring modes, start lighting, etc.) through the control panel 140 panel to control the operation of the drive module, or control the switching of the lighting unit 3.

More specifically, the host unit 1 further includes a battery module electrically connected to the driving module, the control panel 120, the stirring unit 2, and the lighting unit 3, respectively, to supply power to the above-described respective modules or units through a battery; alternatively, the host unit 1 further includes a mains supply access module electrically connected to the driving module, the control panel 120, the stirring unit 2 and the lighting unit 3, respectively, so as to supply power to the above modules or units through the mains supply; or, the host unit 1 further comprises a battery module and a mains supply access module, and a user can choose a power supply mode according to the use condition of the user.

In addition, the stirring cooking stick of this embodiment can cooperate the dedicated graduated flask to use, also can adapt to various containers by oneself, and the suitability is strong.

Compared with the prior art, the stirring cooking rod provided by the embodiment is provided with the illumination unit 3 on the main unit 1, and the illumination unit 3 is arranged on the outer peripheral surface of the main unit 1, so that interference between the illumination unit 3 and the stirring unit 2 is avoided, and the realization of the stirring function is not influenced; in addition, as the light emitting direction of the lighting unit 3 faces the mounting end 101, under the condition that the external light is weak or the transparency of the container is poor, the lighting unit 3 can be started to illuminate the inner space of the container, so that a user can conveniently observe the stirring condition of food materials in the container, the adverse conditions of stirring in place or overflowing the food materials from the container and the like are avoided, the reliability of use is ensured, and the experience of use is improved; in addition, when the lighting unit 3 irradiates liquid such as fruit juice, the light rays with excellent color can be reflected and refracted, and the operation interestingness is improved.

In some embodiments, the stirring bar further includes a light sensing unit 6, as shown in fig. 1 and 8, where the light sensing unit 6 is disposed on a side wall of the main unit 1 and is in communication connection with the lighting unit 3. After the lighting unit 3 is started, the light sensing unit 6 senses the light intensity of the external environment in real time, and if the real-time light intensity value is smaller than the critical light intensity low value, the lighting unit 3 is controlled to enhance the illumination intensity; if the real-time light intensity value is larger than the critical light intensity high value, controlling the lighting unit 3 to weaken the illumination intensity; in the case that the lighting unit 3 is not turned on, if the real-time light intensity value is smaller than the critical light intensity low value, the lighting unit 3 is controlled to be turned on. According to the embodiment, the function of automatically adjusting the illumination intensity according to the use environment is realized, a user can better observe the stirring process, the danger of running of the stirrer caused by insufficient illumination of the illumination unit 3 is avoided, the safety is improved, the illumination intensity can be weakened under the condition that high-intensity illumination is not needed, and the energy consumption of the illumination unit 3 is reduced.

In specific implementation, the light sensing unit 6 is close to the end of the host unit 1 far away from the stirring unit 2, as shown in fig. 1 and 8, and is prevented from being blocked by a container or a human hand, so that the light intensity of the environment outside the container can be sensed more accurately, and the illumination intensity of the illumination unit 3 can be adjusted accurately according to the light intensity of the environment.

Referring to fig. 6, in some embodiments, in order to facilitate mounting of the illumination unit 3, the outer peripheral surface of the host unit 1 forms a protruding first mounting portion 102, the first mounting portion 102 has an illumination opening 1021 toward the mounting end 101, the illumination unit 3 is disposed within the first mounting portion 102, and the light exit surface of the illumination unit 3 corresponds to the illumination opening 1021. Wherein the first mounting portion 102 is integrally connected with the housing 110 of the host unit 1 by injection molding or the like; in addition, the same first mounting portion 102 may be provided with one illumination opening 1021 (as shown in fig. 6) or a plurality of illumination openings 1021 (not shown in the drawings), and the number of the illumination openings 1021 provided is not limited only herein. The first mounting portion 102 is a box structure with an opening (an illumination opening 1021), a containing space is formed inside the first mounting portion, the illumination unit 3 is placed in the first mounting portion, the light emitting surface is correspondingly extended into the illumination opening 1021, the number of mounting parts is simplified, the compactness of the structure is improved, and the illumination unit 3 is effectively protected.

In this embodiment, the lighting unit 3 includes at least one lamp bead 310, and the lamp bead 310 is electrically connected to the control panel 120; alternatively, the lighting unit 3 includes a lamp strip 320, and the lamp strip 320 is electrically connected with the control panel 120. Implementations of the light beads 310 and the light strips 320 include, but are not limited to, LED light sources.

Based on the mode of setting up the lamp area 320, lighting unit 3 still includes the lamp shade 330 of cover locating the light-emitting side of lamp area 320 to protect lamp area 320, can also make emergent light more even, soft simultaneously. The lamp shade 330 may be directly connected with the lamp strip 320 so that the lighting assembly 3 forms a lamp strip module; alternatively, a cover buckle 331 is provided around the periphery of the lamp cover 330, and the lamp cover 330 is clamped at the illumination opening 1021 through the cover buckle 331.

The specific arrangement manner of the first mounting portion 102 is mainly divided into the following ways:

1) The first mounting portion 102 is an annular member extending in the circumferential direction of the host unit 1, and the illumination opening 1021 is an annular opening. The present embodiment is suitable for installing the lamp strip 320 in the first installation portion 102 to form a larger and continuous light emitting surface, so as to improve the uniformity of the light emitting.

2) The first mounting portion 102 is an annular member extending in the circumferential direction of the host unit 1, and the illumination opening 1021 is provided in plurality, and the plurality of illumination openings 1021 are distributed in the circumferential direction of the host unit 1. The present embodiment is suitable for installing the lamp beads 310 in an installation portion 102, and one illumination opening 1021 corresponds to one or more lamp beads 310, so as to form a discontinuous light emitting surface on the periphery of the host unit 1.

3) The first installation parts 102 are arranged in a plurality, the first installation parts 102 are arranged along the circumferential direction of the host unit 1, and two adjacent first installation parts 102 are arranged in a staggered manner in the circumferential direction of the host unit 1, so that the influence on light emission is avoided; based on this, each first mounting portion 102 may be provided with one or more illumination openings 1201. The present embodiment is also suitable for mounting the lamp beads 310 in a mounting portion 102, and further forming a discontinuous light-emitting surface on the outer periphery of the host unit 1.

4) The first mounting portion 102 is provided with one, and the first mounting portion 102 is provided with one illumination opening 1201.

Of course, the specific manner of installing the first installation portion 102 is not limited to the above-described embodiments, and may satisfy the requirements of assembly and illumination, and is not described here.

In some embodiments, the stirring bar further includes a temperature sensing unit 4 and a display unit 5, as shown in fig. 1, 2, 4, and 6 to 10, where the temperature sensing unit 4 and the display unit 5 are both disposed on an outer wall of the host unit 1, and the temperature sensing unit 4 is communicatively connected to the display unit 5, and a sensing surface of the temperature sensing unit 4 faces the mounting end 101. The implementation manner of the temperature sensing unit 4 includes an infrared temperature sensor, an ultrasonic temperature sensor, etc., which are not limited herein. Implementations of the display unit 5 include, but are not limited to, a non-touch display screen provided on the host unit 1, a touch display screen, and the like.

The temperature sensing unit 4 can monitor the temperature of the food material in real time, and feed back the temperature data to the display unit 5 in real time, and the display unit shows the food material temperature to the user, and the user adjusts stirring mode according to actual temperature, avoids excessive stirring to lead to the food material temperature to rise, the oxidation of food material, thereby influences the food material taste.

In some embodiments, to mount the temperature sensing unit 4, the outer peripheral surface of the host unit 1 forms a protruding second mounting portion 103, the second mounting portion 103 has a sensing opening 1031 facing the mounting end 101, the temperature sensing unit 4 is disposed within the second mounting portion 103, and the sensing surface of the temperature sensing unit 4 corresponds to the sensing opening 1031. Wherein the second mounting portion 103 is integrally connected with the housing 110 of the host unit 1 by injection molding or the like; in addition, one or more sensing openings 1031 (not shown) may be provided in the same second mounting portion 103, and the number of the sensing openings 1031 is not limited herein. The second mounting portion 103 is a box body structure with an opening (sensing opening 1031), a containing space is formed inside the second mounting portion, the temperature sensing unit 4 is placed in the second mounting portion, the sensing face is enabled to be corresponding to the sensing opening 1031, the number of mounting parts is simplified, the compactness of the structure is improved, and the temperature sensing unit 4 is effectively protected.

If the second mounting portion 103 is used simultaneously with the first mounting portion 102 and is provided separately, the second mounting portion 103 and the first mounting portion 102 need to be offset in the circumferential direction of the host unit 1, so that the illumination and temperature sensing functions are not affected.

In some embodiments, to mount the lighting unit 3 and the temperature sensing unit 4, the outer peripheral surface of the host unit 1 forms a protruding third mounting portion 104, the third mounting portion 104 has a functional opening 1041 facing the mounting end 101, the lighting unit 3 and the temperature sensing unit 4 are both disposed within the third mounting portion 104, and the light emitting surface of the lighting unit 3 and the sensing surface of the temperature sensing unit 4 both correspond to the functional opening 1041. Wherein, the functional openings 1041 may be provided in plurality and correspond to the light emitting surface of the lighting unit 3 and the sensing surface of the temperature sensing unit 4 respectively; alternatively, one functional opening 1041 is provided, and the light emitting surface of the lighting unit 3 and the sensing surface of the temperature sensing unit 4 correspond to the same functional opening 1041. The third mounting portion 104 is integrally connected to the housing 110 of the host unit 1 by injection molding or the like.

The third mounting portion 104 is a box structure having an opening (a functional opening 1041), and a receiving space is formed inside the third mounting portion, and the temperature sensing unit 4 and the lighting unit 3 may be placed therein, and the light emitting surface or the sensing surface may be corresponding to the functional opening 1041. The embodiment integrates the lighting unit 3 and the temperature sensing unit 4 in the third installation part 104, is favorable for simplifying the number of parts, avoids the influence of excessive increase of the overall weight of the stirring cooking rod on the holding hand feeling, meets the design requirements of light weight and compactness, and also effectively protects the lighting unit 3 and the temperature sensing unit 4.

In this embodiment, the lighting unit 3 includes at least one lamp bead 310, and the lamp bead 310 is electrically connected to the control panel 120; alternatively, the lighting unit 3 includes a lamp strip 320, and the lamp strip 320 is electrically connected with the control panel 120. Implementations of the light beads 310 and the light strips 320 include, but are not limited to, LED light sources. Based on the mode of setting up the lamp area 320, lighting unit 3 still includes the lamp shade 330 of cover locating the light-emitting side of lamp area 320 to protect lamp area 320, can also make emergent light more even, soft simultaneously. The lamp shade 330 may be directly connected with the lamp strip 320 so that the lighting assembly 3 forms a lamp strip module; alternatively, the cover body fastening 331 is disposed on the periphery of the cover 330, and the cover 330 is fastened to the functional opening 1041 through the cover body fastening 331.

The specific arrangement manner of the third mounting portion 104 is mainly divided into the following ways:

1) The third mounting portion 104 is an annular member extending in the circumferential direction of the host unit 1, the function openings 1041 are annular openings, and the function openings 1041 are provided one. The present embodiment is adapted to mount the lamp strip 320 in the third mounting portion 104, and locate the temperature sensing unit 4 on the lamp strip 320; if the light-emitting side of the light strip 320 is further provided with a lamp shade 330, a lamp shade opening 332 (as shown in fig. 9 and 10) corresponding to the sensing surface of the temperature sensing unit 4 may be formed on the lamp shade 330, so that the light-emitting area is ensured while avoiding affecting the temperature measurement function.

2) The third mounting portion 104 is an annular member extending in the circumferential direction of the host unit 1, the functional opening 1041 is an annular opening, and the functional opening 1041 is provided in plurality. Wherein at least one functional opening 1041 is correspondingly provided with a lighting unit 3, and the other functional openings 1041 are correspondingly provided with temperature sensing units 4.

3) The third mounting portion 104 is an annular member extending in the circumferential direction of the host unit 1, and a plurality of functional openings 1041 are provided, and the plurality of functional openings 1041 are distributed in the circumferential direction of the host unit 1. Each of the function openings 1041 may correspond to one of the lighting unit 3 and the temperature sensing unit 4, or each of the function openings 1041 simultaneously corresponds to the lighting unit 3 and the temperature sensing unit 4.

In some embodiments, the stirring unit 2 may have a structure as shown in fig. 1, 3, 5, 8, and 11 to 13, where the stirring unit 2 includes a mounting base 210, a transmission rod 220, and a stirring module 230, the transmission rod 220 is rotatably disposed in the mounting base 210, a rod body clamping portion 221 is disposed on an outer peripheral surface of one end of the transmission rod 220, and the other end is connected to the stirring module 230; the mounting end 101 is provided with a driving shaft clamping groove 1011, and the rod body clamping part 221 is in plug-in fit with the driving shaft clamping groove 1011 and can limit the displacement of the driving rod 220 in the circumferential direction of the driving rod 220; the mounting base 210 is detachably connected to the mounting end 101. In this embodiment, the detachable connection between the mounting base 210 and the mounting end 101 can realize the disassembly and replacement of the stirring unit 2, so that the stirring units 2 with different functions can be replaced according to different stirring requirements, and the flexibility of use is improved; based on this, after the end of the transmission rod 220 is clamped into the driving shaft clamping groove 1011, the end of the transmission rod 220 can be circumferentially limited with the driving shaft clamping groove 1011, and the transmission rod 220 can synchronously rotate along with the driving shaft of the driving module, so that the torque output by the driving unit can be effectively transmitted to the stirring module 230, and the reliability of use is ensured.

In particular, the rod body clamping portion 221 is a clamping piece extending along a radial direction of the transmission rod 220, the driving shaft clamping groove 1011 is a cross-shaped groove adapted to the transmission rod 220 and the rod body clamping portion 221, the transmission rod 220 is inserted into a middle portion of the driving shaft clamping groove 1011, and the rod body clamping portion 221 is inserted into an edge portion of the driving shaft clamping groove 1011, so as to achieve circumferential limitation of the rod body clamping portion 221 and the driving shaft clamping groove 1011.

To achieve the detachable connection between the mounting base 210 and the mounting end 101, in some embodiments, the outer peripheral surface of the mounting end 101 forms a rotation slot 1012, the mounting base 210 forms a mounting space for accommodating the mounting end 101, and the inner wall surface of the mounting space forms a rotation insertion protrusion 211 corresponding to the rotation slot 1012, as shown in fig. 3, 9, 10, 12 and 13. The rotary slot 1012 of the present embodiment extends along the plugging rotation direction, and has one end open; during installation, the installation seat 210 is sleeved outside the installation end 101, the inserting protrusion 211 is aligned with the opening of the rotary slot 1012, then the installation seat 210 is rotated, the inserting protrusion 211 can be inserted into the rotary slot 1012, detachable connection is realized in a rotary inserting mode, the operation is simple, the disassembly and the assembly are convenient, and the direct insertion and the damage to the installation seat 210 or the installation end 101 are avoided.

On the basis of the above-described embodiment, referring to fig. 3, 12 and 13, the outer peripheral surface of the mounting end 101 is further formed with a main body circumferential engagement portion 1013, the rotation slots 1012 are offset from the main body circumferential engagement portion 1013 in the axial direction of the host unit 1, the inner wall surface of the mounting space is formed with a seat body circumferential engagement portion 212 corresponding to the main body circumferential engagement portion 1013, and the main body circumferential engagement portion 1013 is engaged with the seat body circumferential engagement portion 212 to restrict the displacement of the mounting seat 210 in the circumferential direction of the mounting end 101. The main body circumferential engagement portion 1013 engages with the housing circumferential engagement portion 212 to restrict the displacement of the mount 210 in the circumferential direction of the mount 101, and prevent the mount 210 from falling off the host unit 1 by reverse rotation. In particular, the main body circumferential clamping portion 1013 is an elastic buckle, and the base circumferential clamping portion 212 is formed with a bayonet adapted to the buckle.

In some embodiments, the stirring module 230 includes a stirring cage net 231 and a speed reducer 232, as shown in fig. 1, 3, 5 and 8, the speed reducer 232 is disposed inside the mounting base 210, and an input end of the speed reducer 232 is connected with the transmission rod 220, the stirring cage net 231 is disposed outside the mounting base 210, and an output end of the speed reducer 232 is connected with the stirring cage net 231. In order to avoid the problem that food splashes caused by high-speed beating, the torque output by the driving module is directly transmitted to the transmission rod 220 through the driving shaft clamping groove 1011, and then is subjected to deceleration processing through the decelerator 232, the output rotation speed of the decelerator 232 is reduced, and slow beating can be realized according to the properties of the food.

In other embodiments, the stirring unit 230 includes a blade 233 and a splash guard 234, as shown in fig. 11-13, the blade 233 being provided at the output end of the drive rod 220; the splash guard 234 is provided on the outer periphery of the blade 233 and is connected to the mount 210. Wherein, the blade 233 and the transmission rod 220 can be connected by press riveting or the like. The blade 233 of this embodiment is suitable for whipping food materials such as pulp, and obtains products such as fruit and vegetable juice, and the torque that the drive module output is directly transmitted to the transfer line 220 through the drive shaft joint groove 1011, and the transfer line 220 drives the blade 233 to rotate at a high speed and cut up the food materials, and simultaneously, the splash guard 234 prevents the food materials from sputtering out when the blade 233 rotates at a high speed, guarantees the cleanliness of operation process.

According to the stirring cooking rod, the illumination unit 3, the light sensing unit 6, the temperature sensing unit 4 and the display unit 5 are arranged, so that food materials in the container can be automatically turned on during working, meanwhile, the light brightness can be automatically adjusted according to the darkness of the light of the use environment, and the temperature of the food materials in the container can be displayed in real time; so that a user can clearly observe the stirring condition of the food in the container, timely control the temperature of the food, ensure the taste of the food and improve the operation safety; the container for containing food is not limited by the transparent cup any more, so that the use scene is enlarged, and the cost of a user is reduced; in addition, when the liquid such as juice is shone to the light, the color is colorful more, very big promotion user experience enjoyment.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The stirring cooking rod is characterized by comprising a main machine unit, a stirring unit and a lighting unit;

the main unit is provided with a mounting end, and the mounting end is connected with the stirring unit;

the lighting unit is arranged on the outer peripheral surface of the host unit in a protruding mode, the light emergent direction of the lighting unit faces the mounting end, and the lighting unit is further electrically connected with the host unit.

2. The bar of claim 1, further comprising a light sensing unit disposed on a side wall of the main unit and communicatively coupled to the illumination unit.

3. The bar according to claim 1, wherein the outer peripheral surface of the main unit forms a protruding first mounting portion having an illumination opening toward the mounting end, the illumination unit is disposed within the first mounting portion, and the light exit surface of the illumination unit corresponds to the illumination opening.

4. The bar according to claim 3, wherein the first mounting portion is an annular member extending in a circumferential direction of the main unit, and the illumination opening is an annular opening; alternatively, the first mounting portion is an annular member extending in a circumferential direction of the host unit, and the plurality of illumination openings are provided in plural and distributed in the circumferential direction of the host unit.

5. The stirring bar of claim 1, further comprising a temperature sensing unit and a display unit, wherein the temperature sensing unit and the display unit are both disposed on an outer wall of the host unit, and the temperature sensing unit is communicatively connected to the display unit, and a sensing surface of the temperature sensing unit faces the mounting end.

6. The bar according to claim 5, wherein the outer peripheral surface of the main unit forms a convex second mounting portion having an induction opening toward the mounting end, the temperature sensing unit is disposed within the second mounting portion, and the induction surface of the temperature sensing unit corresponds to the induction opening.

7. The bar according to claim 5, wherein the outer peripheral surface of the main unit forms a protruding third mounting portion, the third mounting portion has a functional opening facing the mounting end, the illumination unit and the temperature sensing unit are both disposed in the third mounting portion, and the light emitting surface of the illumination unit and the sensing surface of the temperature sensing unit are both corresponding to the functional opening.

8. The bar according to claim 7, wherein the third mounting portion is an annular member extending in a circumferential direction of the main unit, and the functional opening is an annular opening; alternatively, the third mounting portion is an annular member extending in the circumferential direction of the host unit, and the functional openings are provided in plural and distributed in the circumferential direction of the host unit.

9. The stirring cooking bar according to claim 1, wherein the stirring unit comprises a mounting seat, a transmission rod and a stirring module, the transmission rod is rotatably arranged in the mounting seat, a rod body clamping part is arranged on the outer circumferential surface of one end of the transmission rod, and the other end of the transmission rod is connected with the stirring module;

the mounting end is provided with a driving shaft clamping groove, and the rod body clamping part is spliced with the driving shaft clamping groove and can limit the displacement of the driving rod in the circumferential direction of the driving rod; the mounting seat is detachably connected with the mounting end.

10. The bar according to claim 9, wherein the outer circumferential surface of the mounting end forms a rotary socket, the mounting seat forms a mounting space for accommodating the mounting end, and the inner wall surface of the mounting space forms a rotary insertion protrusion corresponding to the rotary socket.