CN210077362U - Stirring discharge mechanism, cooking device, stickness granule equipment and equipment of selling on spot - Google Patents

Abstract

Stirring discharge mechanism, cook device, stickness granule equipment and the existing system equipment of selling include: a storage chamber for storing cooked adhesive pellets; the stirring mechanism is installed in the storage room, the stirring mechanism is used for stirring the stickness granule of storing up the storage room when rotatory with the first direction, and the stirring mechanism is used for carrying out the ejection of compact with the stickness granule of storing up the storage room when rotatory with the second direction, first direction with the second opposite direction. Realize the effect of the automatic stirring of stickness granule and the ejection of compact, need not artifical the participation. To stickness granule boiling device, because will store up the pantry, the raw materials stores up the room and boils the mechanism and link up each other, store up the room ejection of compact through second discharge mechanism control raw materials, get into to cook the mechanism and cook with the stickness granule in the raw materials apotheca and cook, treat to cook and finish the back, first discharge mechanism control is cooked the mechanism and is stored the pantry ejection of compact, the stickness granule after will cooking forwards to storing up the pantry and stores, make the cooking of stickness granule associated with the storage, reduce artifical participation, the degree of automation is improved.

Description

Stirring discharge mechanism, cooking device, stickness granule equipment and equipment of selling on spot

Technical Field

The utility model relates to a cook, store, ejection of compact technical field of stickness granule, concretely relates to stickness granule stirring and discharge mechanism, stickness granule cook device, stickness granule equipment and make at present and sell equipment.

Background

The common pearl milk tea or other milk tea containing particles has one procedure of adding cooked viscous particles in the production process. At present, the conventional method for cooking the particles is to cook the particles by hot water, cool the particles, adhere the cooked pearls together due to viscosity if the pearls are not cooled, and finally store the cooled particles for subsequent use. At present, pearl cooking, cooling and storing are respectively performed by physically separated and unrelated devices, for example, the pearl cooking and discharging mechanism performs cooking operation, the cooked pearl is manually placed into a cooling device for cooling, and finally the pearl is placed into a storage device for storing, and the pearl needs to be stirred at intervals, so that adhesion of particles is prevented, each process needs manual reference, and the automation degree is low.

Disclosure of Invention

The application provides a stickness granule stirring and discharge mechanism, cook device, stickness granule equipment and make now and sell equipment to the stickness granule of solving pearl class cooks the problem that process automation degree is low.

According to a first aspect, an embodiment provides a viscous granule stirring and discharging mechanism comprising:

a storage chamber for storing cooked adhesive pellets;

rabbling mechanism, install in it is indoor to store up the article, the rabbling mechanism is used for right when rotatory with the first direction store up the stickness granule of the indoor storage and stir, the rabbling mechanism is used for with when rotatory with the second direction store up the stickness granule of the indoor storage and carry out the ejection of compact, the first direction with the second opposite direction.

In one embodiment, the mixing mechanism is located between one of the opposing side walls of the storage compartment, one of the other opposing side walls of the storage compartment is provided with a discharge outlet, the mixing mechanism rotates only downward through the discharge outlet when rotating in a first direction, and the mixing mechanism rotates only upward through the discharge outlet when rotating in a second direction.

In one embodiment, the stirring mechanism comprises a driving part and a stirring part, the driving part drives the stirring part to stir the viscous particles in a first direction in the storage chamber according to a first instruction, and the driving part drives the stirring part to rotate and drive the viscous particles in a second direction in the storage chamber to the discharge port according to a second instruction.

In one embodiment, the outlet direction of the discharge port is inclined downwards, the stirring part is inclined relative to the horizontal plane of the ground, and when the stirring part rotates to the discharge port in the second direction, the surface of the stirring part is consistent with the inclined direction of the outlet of the discharge port, so that the sticky particles slide to the discharge port from the stirring part under the action of gravity and then slide to be discharged from the discharge port.

In one embodiment, the stirring part is provided with a plurality of liquid leakage holes.

According to a second aspect, an embodiment provides an apparatus for cooking viscous pellets, comprising:

a storage chamber for storing cooked adhesive pellets;

the cooking mechanism is used for cooking the viscous particles to be cooked;

a raw material storage chamber for storing viscous particles to be cooked;

the first discharging mechanism is used for controlling the cooking mechanism to discharge the cooked viscous particles to the storage chamber;

and the second discharging mechanism is used for controlling the raw material storage chamber to discharge the stored viscous particles to be cooked to the cooking mechanism.

In one embodiment, the cooking mechanism and the raw material storage chamber are separately installed on the same side of the storage chamber, and the storage chamber, the raw material storage chamber and the cooking mechanism are provided with mutually connected inlets and outlets in a positional relationship, the first discharging mechanism controls the cooking mechanism to discharge cooked viscous particles to the storage chamber through the mutually connected inlets and outlets between the cooking mechanism and the storage chamber, and the second discharging mechanism controls the raw material storage chamber to discharge viscous particles to be cooked to the cooking mechanism through the mutually connected inlets and outlets between the raw material storage chamber and the cooking mechanism.

In one embodiment, the mutually connected inlets and outlets of the raw material storage chamber and the cooking mechanism are inlets and outlets which are connected up and down in position; when the cooking mechanism is static relative to the storage chamber, the mutually-connected inlets and outlets between the cooking mechanism and the storage chamber are horizontally-connected inlets and outlets in a position relation, and when the cooking mechanism rotates upwards relative to the storage chamber, the mutually-connected inlets and outlets between the cooking mechanism and the storage chamber are obliquely-connected inlets and outlets in a position relation.

In one embodiment, when the first discharging mechanism controls the cooking mechanism to rotate upwards relative to the storage chamber, viscous particles in the cooking mechanism are discharged to the storage chamber through the obliquely connected inlet and outlet under the action of gravity; when the second discharging mechanism controls the viscous particles in the raw material storage chamber to discharge, the viscous particles in the raw material storage chamber discharge to the cooking chamber mechanism through the up-down connected inlet and outlet under the action of gravity.

In one embodiment, the cooking mechanism includes a cooking chamber and a heating portion;

the cooking chamber is arranged on the side wall of the storage chamber through the first discharging mechanism, a window is formed in the mounting side of the cooking chamber, when the cooking chamber is static relative to the storage chamber, the edge of an opening part of the cooking chamber is horizontally connected with the edge of the window, and when the cooking chamber rotates upwards relative to the storage chamber, the opening part of the cooking chamber is obliquely connected with the window;

when the first discharging mechanism controls the cooking chamber to discharge materials to the storage chamber, viscous particles in the cooking chamber enter the storage chamber through the window;

the heating part is arranged at the bottom of the cooking chamber and is used for cooking viscous particles in the cooking chamber.

In one embodiment, the raw material storage chamber is located above the cooking mechanism, and the cooking mechanism further comprises a conveying channel communicated with an outlet of the raw material storage chamber, the conveying channel is inclined towards the cooking mechanism, and the second discharging mechanism controls the raw material storage chamber to discharge to the cooking mechanism, so that viscous particles in the raw material storage chamber fall through the conveying channel and are discharged to the cooking mechanism according to gravity.

In one embodiment, the top portion of the cooking chamber is provided with a water injection portion for injecting water into the cooking chamber.

In one embodiment, the bottom of the cooking chamber is provided with a drain for draining liquid in the cooking chamber to the outside.

In one embodiment, the cooking chamber further comprises a filter portion for isolating the viscous particles from contacting the bottom of the cooking chamber.

According to a third aspect, an embodiment provides an adhesive pellet cooking apparatus comprising the above-mentioned adhesive pellet cooking device and stirring means;

the automatic cooking device includes:

a storage chamber for storing cooked adhesive pellets;

the cooking mechanism is used for cooking the viscous particles to be cooked;

a raw material storage chamber for storing viscous particles to be cooked;

the first discharging mechanism is used for controlling the cooking mechanism to discharge the cooked viscous particles to the storage chamber;

the second discharging mechanism is used for controlling the raw material storage chamber to discharge the stored viscous particles to be cooked to the cooking mechanism;

rabbling mechanism install in it is indoor to store up the article, be used for when rabbling mechanism is rotatory with the first direction right store up the stickness granule of the indoor storage stirs, the rabbling mechanism with second direction be used for when rotatory with the second direction will store up the stickness granule of the indoor storage and carry out the ejection of compact, the first direction with the second opposite direction.

According to a fourth aspect, an embodiment provides an on-the-spot apparatus comprising the viscous granule apparatus or the viscous granule cooking device or the viscous granule stirring and discharging mechanism.

According to stickness granule stirring and discharge mechanism, stickness granule cooking device, stickness granule equipment and the equipment of selling now of above-mentioned embodiment, have following effect:

1. be used for stirring the stickness granule of storing up the storage of article room when rabbling mechanism is rotatory with the first direction, be used for carrying out the ejection of compact with the stickness granule of storing up the storage of article room when rabbling mechanism is rotatory with the second direction to can realize the automatic stirring of stickness granule and the effect of ejection of compact, need not artifical the participation, when the storage of article room is the stickness granule, through the stirring of rabbling mechanism to the stickness granule of storing up the interior stickness granule, prevent that the stickness granule from cohering.

2. Owing to store up the pantry, the raw materials stores up the room and cooks the mechanism and link up each other, through the ejection of compact of second discharge mechanism control raw materials apotheca to the stickness granule in the raw materials apotheca gets into to cook the mechanism and cooks, treats to cook and finishes the back, and the mechanism is cooked to the mechanism and to storing up the pantry ejection of compact to first discharge mechanism control, and the stickness granule after will cooking forwards to storing up the pantry and saves, makes the cooking of stickness granule and saves in correlation, reduces artifical the participation, improves degree of automation.

3. The integrated design of cooking, storing, stirring and discharging of the viscous particles is realized.

Drawings

FIG. 1 is a schematic structural view of a stirring and discharging mechanism in a second embodiment;

FIG. 2 is another schematic structural view of a stirring and discharging mechanism in the second embodiment;

FIG. 3 is a cross-sectional view of the storage compartment;

FIG. 4 is a schematic view of a stirring process;

FIG. 5 is a schematic view of the discharge process;

FIG. 6 is a schematic view of a cooking apparatus for viscous particles according to a fourth embodiment;

FIG. 7 is a side view of FIG. 6;

fig. 8 is a schematic structural view of an adhesive pellet apparatus according to the fifth embodiment.

Detailed Description

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

The embodiment of the utility model provides an in, through the full-automatic cooking and discharge mechanism of design integration, this full-automatic cooking is used for realizing the full automatization that the cooking of stickness granule, stirring, storage and the ejection of compact with discharge mechanism, reduces artifical the participation, realizes that the automation of stickness granule is cooked.

The first embodiment is as follows:

the example provides a stickness granule stirring and discharge mechanism, including storing up the pantry and rabbling mechanism, wherein, stores up the pantry and is used for the stickness granule of the storage of having cooked, and rabbling mechanism installs in storing up the pantry, and the rabbling mechanism is used for stirring the stickness granule of storing up the pantry when rotatory with first direction, and the rabbling mechanism is used for carrying out the ejection of compact with the stickness granule of storing up the pantry when rotatory with the second direction, first direction with the second opposite direction.

Specifically, the stirring mechanism is positioned between one opposite side wall of the storage chamber, a discharge hole is formed in one side wall of the other opposite side wall of the storage chamber, the stirring mechanism rotates in a first direction only downwards to pass through the discharge hole, and the stirring mechanism rotates in a second direction only upwards to pass through the discharge hole.

The storage chamber is a structural body with a cavity, wherein a pair of side walls coupled with the stirring mechanism are a front side wall and a rear side wall which are opposite from each other in front and back, and the side walls which form the sealed cavity by enclosing with the front side wall and the rear side wall can be in a circular structure, a square structure or other shapes, and the embodiment is not limited in this case.

When the discharging hole is arranged on the right side of the storage chamber, the first direction is clockwise, and the second direction is anticlockwise; when the discharge hole is arranged on the left side of the storage chamber, the first direction is anticlockwise, and the second direction is clockwise; that is, the first direction and the second direction of rotation of the stirring mechanism are related to the discharge direction of the discharge port.

In this example, through at the indoor rabbling mechanism of designing of storage, stir the stickness granule of the indoor storage of storage when rabbling mechanism is rotatory with the first direction, carry out the ejection of compact with the stickness granule of the indoor storage of storage when rabbling mechanism is rotatory with the second direction to realize the storage of stickness granule, the integrated design of stirring and the ejection of compact, need not artifical the participation, when the indoor storage of storage is the stickness granule, through the stirring of rabbling mechanism to the indoor stickness granule of storage, prevent that the stickness granule from cohering.

Example two:

based on the basic concept of the first embodiment, the present example provides a specific application example of the sticky particle stirring and discharging mechanism, and the application does not limit specific sticky particles, and in the present example, the sticky particles may be sticky particles such as pearls, glutinous rice balls, fruit grains, and the like.

As shown in fig. 1, the viscous particle stirring and discharging mechanism includes a holding chamber 1 and a stirring mechanism 2.

Store up pantry 1 and be used for the stickness granule of the storage of having cooked, finished product locker room 1 is cavity structures, has preceding lateral wall 11, back lateral wall 12 and set up between preceding lateral wall 11 and back lateral wall 12 and enclose the circular wall 13 of synthetic cavity jointly with preceding lateral wall 11 and back lateral wall 12, is equipped with window 14 on the preceding lateral wall 11, and the stickness granule of having cooked falls into through window 14 and stores in storing up pantry 1.

Rabbling mechanism 2 is installed in storing up the pantry 1, stirs the stickness granule of storing up the pantry 1 storage when rabbling mechanism 2 is rotatory with first direction, and the stickness granule of storing up the pantry 1 storage carries out the ejection of compact when rabbling mechanism 2 is rotatory with the second direction, and first direction is opposite with the second direction.

Specifically, the stirring mechanism 2 is positioned between the front side wall 11 and the rear side wall 12 of the storage chamber 1, the circular side wall 13 of the storage chamber 1 is provided with a discharge hole 15, the discharge hole 15 is positioned in the middle or lower part of the circular side wall 13, the stirring mechanism 2 rotates only downwards to pass through the discharge hole 15 when rotating in a first direction, and the stirring mechanism 2 rotates only upwards to pass through the discharge hole 15 when rotating in a second direction; for convenience of description, in this example, the first direction is set to a clockwise direction, and the second direction is set to a counterclockwise direction, and thus, the discharge hole 15 is disposed at a right position of the circular sidewall 13; conversely, if the first direction is set to the counterclockwise direction and the second direction is set to the clockwise direction, the discharge hole 15 is provided at a left position of the circular sidewall 13.

The stirring mechanism 2 of this embodiment includes a driving portion 21, a first supporting portion 22 and a stirring portion 23, wherein the driving portion 21 is mounted on the rear sidewall 12 of the storage compartment 1, the driving portion 21 may be a motor, an output shaft of the driving portion 21 is connected to the first supporting portion 22, one end of the stirring portion 23 is connected to a free end of the first supporting portion 22, and the other end of the stirring portion extends toward the front sidewall of the storage compartment 1, and the driving portion 21 drives the first supporting portion 22 to drive the stirring portion 23 to rotate in a clockwise direction or a counterclockwise direction in the storage compartment 1.

In specific application, the driving part 21 is programmed with a driving program, so that the driving part 21 drives the stirring part 23 to rotate in a first direction in the storage chamber 1 according to a first instruction to stir the viscous particles, and the driving part 21 drives the stirring part 23 to rotate in a second direction in the storage chamber 1 according to a second instruction to drive the viscous particles to the discharge hole 15.

In order to realize smooth discharging, in the specific design, the outlet direction of the discharging port 15 is inclined downwards, the first supporting part 22 is a supporting rod structure, after the stirring part 23 is connected with the free end of the first supporting part 22, the surface of the stirring part 23 is inclined relative to the horizontal plane of the ground, and when the stirring part 23 rotates to the discharging port 15 in the second direction, the surface of the stirring part 23 is consistent with the outlet inclined direction of the discharging port 15, so that sticky particles slide to the discharging port 15 from the stirring part 23 under the action of gravity, and then slide to discharge from the discharging port 15; because of stirring portion 23 is the structure of a face, in order to prevent that stirring portion 23 from stirring stickness granule or when the ejection of compact of stickness granule, not take up liquid, be equipped with a plurality of weeping hole on the face of stirring portion 23. Accordingly, the circular sidewall 13 of the storage compartment 1 is also provided at the bottom thereof with a drainage hole to drain the liquid stored in the storage compartment 1 to the outside through the drainage hole.

In combination with the structure of the stirring mechanism 2, the present embodiment further deforms the stirring mechanism 2, as shown in fig. 2, and as shown in fig. 3, the stirring mechanism 2 further includes a second supporting portion 24, the second supporting portion 24 is rotatably mounted on the front side wall 12, a free end of the stirring portion 23 is connected to a free end of the second supporting portion 24, and the driving portion 21 drives the first supporting portion 22 to drive the stirring portion 23 and link the second supporting portion 24 to rotate in the first direction or the second direction in the storage compartment 1.

The first supporting portion 22 and the second supporting portion 24 of this embodiment are symmetrical in structure, for example, the structure of the first supporting portion 22 may be that the first supporting portion 22 uses its own rotation axis as a center, and a plurality of supporting rods are designed in a circumference, and similarly, the second supporting portion 24 uses its own rotation axis as a center, and a same number of supporting rods are designed in a circumference, the supporting rods of the first supporting portion 22 and the supporting rods of the second supporting portion 24 are in one-to-one correspondence in position, and a stirring portion 23 is installed between each pair of supporting rods, so as to form a column-like stirring mechanism 2.

The stirring mechanism 2 is rotated in a first direction in the storage chamber 1 to stir the stored sticky particles, as shown in fig. 4, the stirring mechanism 2 is rotated in a clockwise direction to stir the sticky particles, the stirring mechanism 2 is rotated in a clockwise direction and only passes through the discharge port 15 when rotating downwards, the discharge port 15 is positioned at the upper part of a horizontal line of the storage material in the storage chamber, when the stirring part 23 passes through the sticky particles, the stirring part 23 drives the sticky particles to move towards the opposite direction of the discharge port 15, the stirring part 23 takes the sticky particles up, when the stirring part 23 rotates to a height equivalent to that of the discharge port 15, the angle between the reverse side of the stirring part 23 and the horizontal plane of the ground is consistent with that during discharging, the stirring part inclines downwards, the gravity of the sticky particles is combined, the inclination direction is just in favor of the sticky particles to slide to the bottom of the storage chamber 1, and the sticky particles and liquid are ensured not to contact with the top of, resulting in the overflow of the viscous particles or liquid from the discharge port and the clockwise rotation of the stirring portion 23 so as to be reciprocated, thereby achieving the stirring effect.

The stirring mechanism 2 rotates in the second direction in the storage chamber 1 to discharge the stored sticky particles, as shown in fig. 5, the stirring mechanism 2 rotates in the counterclockwise direction to discharge the sticky particles, the stirring mechanism 2 rotates in the counterclockwise direction and only passes through the discharge port 15 when rotating upward, the discharge port 15 is located in the middle or at a position which can be placed at the lower part of the middle, the sticky particles are stored below the discharge port 15 of the storage chamber 1, when the stirring portion 23 passes through the sticky particles, the stirring portion 23 drives the sticky particles to move towards the discharge port 15, the stirring portion 23 brings the sticky particles up, when the stirring portion 23 rotates to a height equivalent to that of the discharge port 15, the stirring portion 23 is consistent with the inclination direction of the discharge port when the discharge port is located, the gravity of the sticky particles is combined, the inclination direction is more favorable for discharging the sticky particles, and the sticky particles which are not discharged at the upper part of the stirring portion 23 are left to rotate through the discharge port 15, stirring portion 23 slope up, like this, the stickness granule of not ejection of compact is by the other end landing of stirring portion 23 to storing up the bottom of pantry 1, ensures that stickness granule and liquid can not contact the top of storing up pantry 1, and stirring portion 23 is rotatory like this reciprocal counter-clockwise to reach the effect of ejection of compact.

Through the design, the stickness granule stirring and discharge mechanism of this example can realize the storage of stickness granule, the integrated design of stirring and the ejection of compact, need not artifical the participation, and through the stirring of 2 pairs of indoor stickness granules of rabbling mechanism, prevent that the stickness granule from cohering.

Example three:

the embodiment provides an stickness granule cooking device, including storing up the room, the raw materials apotheca, cook the mechanism, first discharge mechanism and second discharge mechanism, wherein, the storing up room is used for saving the stickness granule of having cooked, the raw materials apotheca is used for saving the stickness granule of waiting to cook, cook the mechanism and be used for treating the stickness granule of cooking and cook, first discharge mechanism is used for controlling cook the mechanism and discharges the stickness granule of cooking to storing up the room, second discharge mechanism is used for controlling the raw materials apotheca and discharges the stickness granule of waiting to cook of storage to the mechanism of cooking.

Structurally, will store up the thing room, raw materials reservoir and cook the mechanism and be provided with the access & exit that links up each other on the position relation for, first discharge mechanism control cook the mechanism through cook between mechanism and the storage room the access & exit that links up each other to store up the stickness granule that the thing room ejection of compact was cooked, and second discharge mechanism control raw materials reservoir through raw materials reservoir and cook between the mechanism access & exit that links up each other to cook the stickness granule that the mechanism ejection of compact was waited to cook to the mechanism's ejection of compact.

Specifically, the inlet and outlet which are mutually connected between the raw material storage chamber and the cooking mechanism are the inlet and outlet which are connected up and down in position relation; when the cooking mechanism is stationary relative to the storage chamber, the access opening between the cooking mechanism and the storage chamber is horizontally connected in positional relationship, and when the cooking mechanism rotates upward relative to the storage chamber, the access opening between the cooking mechanism and the storage chamber is obliquely connected in positional relationship. When the first discharging mechanism controls the cooking mechanism to rotate upwards relative to the storage chamber, viscous particles in the cooking mechanism are discharged to the storage chamber through the obliquely connected inlet and outlet under the action of gravity; when waiting the ejection of compact of the stickness granule in the second discharge mechanism control raw materials apotheca, the stickness granule in the raw materials apotheca is discharged to the cook in the room mechanism through the access & exit of linking up from top to bottom under the effect of gravity.

Wherein, the stickness granule can be stickness granule such as pearl, glutinous rice ball, fruit grain, and the theory of operation that the stickness granule cooking device specifically used is: the stickness granule is placed in raw materials apotheca at first, when the stickness granule is cooked to needs, control second discharge mechanism opens the raw materials apotheca, and the stickness granule of waiting to cook gets into by the raw materials apotheca and boils the mechanism, and the mechanism of cooking is automatic cooks the stickness granule and boils, waits to cook and finishes the back, and the drive of control first discharge mechanism boils the mechanism and moves towards the ejection of compact of storage room, and then the stickness granule of having cooked is stored to the storage room by the mechanism's ejection of compact of cooking.

It should be noted that the present embodiment does not specifically limit the specific control manner of the second discharging mechanism, the first discharging mechanism and the cooking mechanism, for example, the triggering of the second discharging mechanism, the first discharging mechanism and the cooking mechanism may be manually performed, in which case the cooking and discharging mechanism is in a semi-automatic operation manner, or a controller may be developed, the second discharging mechanism, the first discharging mechanism and the cooking mechanism are respectively in communication connection with the controller, and the controller sends control commands to the second discharging mechanism, the first discharging mechanism and the cooking mechanism to implement full automation of the cooking and discharging mechanism.

No matter with what kind of mode control second discharge mechanism, first discharge mechanism and cook the mechanism, but store up the goods room, raw materials apotheca and cook the structural design that links up each other of mechanism for the circulation process that the stickness granule cooked the process has automatic relevance, promptly, the stickness granule of this example cook the device and make the stickness granule get into the circulation process that cooks the mechanism by raw materials apotheca, and do not need artifical the participation by the circulation process that cooks the mechanism and get into the goods room, the degree of automation of stickness granule circulation process has been improved.

Example four:

based on the design concept of the third embodiment, this embodiment provides a specific structure of a specific application example of the viscous particle cooking device, as shown in fig. 6 and 7, which includes a storage chamber 1, a cooking mechanism 3, a raw material storage chamber 4, a first discharging mechanism 5 and a second discharging mechanism 6.

Store up pantry 1 and be used for the stickness granule of the storage of having cooked, finished product locker room 1 is cavity structures, has preceding lateral wall 11, back lateral wall 12 and set up between preceding lateral wall 11 and back lateral wall 12 and enclose the circular wall 13 of synthetic cavity jointly with preceding lateral wall 11 and back lateral wall 12, is equipped with window 14 on the preceding lateral wall 11, and the stickness granule of having cooked falls into through window 14 and stores in storing up pantry 1.

The cooking means 3 is for cooking viscous particles to be cooked, and the cooking means 3 includes a cooking chamber 31 and a heating portion 32.

Wherein, the cooking chamber 31 is mounted on the side wall of the storage chamber 1 through the first discharging mechanism 5, specifically, the cooking chamber 31 is mounted on the front side wall 11 of the storage chamber 1, and the bottom edge of the window 14 in the front side wall 11 is engaged with the edge of the opening part of the cooking chamber 31, specifically, when the cooking chamber 31 is stationary relative to the storage chamber 1, the edge of the opening part of the cooking chamber 31 is horizontally engaged with the edge of the window 14, and when the cooking chamber 31 rotates upward relative to the storage chamber 1, the opening part of the cooking chamber 31 is obliquely engaged with the window 14; when the first discharging mechanism 5 controls the cooking chamber 31 to turn over to the storage chamber 1, the viscous particles in the cooking chamber 31 enter the storage chamber 1 through the window 14 for storage, and it should be noted that, in this embodiment, for convenience of description, the side wall of the storage chamber 1 is divided into front, back, up, down, left and right according to the direction, and is not specifically limited to front, back, up, down, left and right.

In this embodiment, the specific shape of the cooking chamber 31 is not limited, for example, the cooking chamber 31 may be a cylinder structure, the edge of the opening of the corresponding cooking chamber 31 is a circular edge, the cooking chamber 31 may also be a square structure, and the edge of the opening of the corresponding cooking chamber 31 is a square, preferably, in order to match the opening of the cooking chamber 31 with the window 14 of the storage chamber 1, the shape and size of the opening of the cooking chamber 31 match the shape and size of the window 14 of the storage chamber 1, for example, when the edge of the window 14 is a circular edge, the opening of the cooking chamber 31 is also designed to be a matching circular edge, and correspondingly, the cooking chamber 31 is a cylinder structure; when the edge of the window 14 is a square edge, the opening of the cooking chamber 31 is also designed to be a matched square edge, and the corresponding cooking chamber 31 is a square structure, that is, the shape of the cooking chamber 31 is matched with the shape of the window 14; in order to allow the viscous particles in the cooking chamber 31 to sequentially enter the storage chamber 1, further, the size of the opening of the cooking chamber 31 is smaller than the size of the window 14.

The heating unit 32 is installed at the bottom of the cooking chamber 31 for cooking the viscous particles in the cooking chamber 31, and the heating unit 32 may be an electric heater or other heating methods, and may be heated by connecting to an external power source or other heat sources.

The bottom of cooking chamber 31 is equipped with drainage 33, treats that the stickness granule cook the back, and drainage 33 will cook the water in the chamber 31 and expect to the outside, and drainage 33 can be automatically controlled drain valve to realize automatic drainage, in other embodiments, drainage 33 also can be manual valve, and manual operation valve switch carries out the drainage.

Further, at the in-process of drainage, in order to prevent that the stickness granule from blockking up the wash port in the room 31 of cooking, and contact heating portion, still be equipped with filter part 34 in the room 31 of cooking, treat that the water discharge part 33 will cook the water in the room 31 when outside, filter part 34 filters the stickness granule in the room 31 of cooking, so that the stickness granule supplies to stop in filter part 34 top, thereby reach the purpose that prevents stickness granule and the room 31 bottom direct contact of cooking, realize the effect of the smooth drainage of drain part 33. The filter unit 34 in this example may be a filter screen or may be another device having a filtering function, and the specific structure and shape of the filter unit 34 in this example are not particularly limited.

In practical application, for the convenience of washing, filter 34 demountable installation is in cooking chamber 31, like this, can directly dismantle filter 34 and take to outside washing, combines filter 34's function, and filter 34's mounted position is in cooking chamber 31 bottom top can, and filter 34's mounted position does not do specifically and prescribes a limit to, as long as can reach the effect of filtration stickness granule when the drainage and cook the stickness granule fully contact with water can.

Furthermore, in order to conveniently inject water into the cooking chamber 31, the cooking mechanism 3 further comprises a water injection part, the water injection part can be an electric control water valve, a water injection port of the water injection part is positioned above an opening part of the cooking chamber 31, and when water needs to be injected into the cooking chamber 31, the electric control water valve is opened to inject water into the cooking chamber 31.

The specific cooking principle of the cooking mechanism 3 is similar to the heating and cooking principle of the existing electric rice cooker and hot water kettle, and this embodiment is not described in detail.

The first discharging mechanism 5 for controlling the turning of the cooking chamber 31 comprises a first motor 51 and a rotating part 52, a fixing part of the rotating part 52 is installed on the side wall of the storage chamber 1, an executing part of the rotating part 52 is connected with one side surface of the cooking chamber 31 close to the storage chamber 1, the first motor 51 is installed on the fixing part of the rotating part 52, an output shaft of the first motor 51 is connected with a rotating part of the rotating part 52, the rotating part is driven to move forward and backward when the first motor 51 rotates forward and backward, and then the rotating part drives the cooking chamber 31 to discharge and reset. When first discharge mechanism 5 is in the inoperative condition, first discharge mechanism 5 is in the reset condition through rotating part 52, and when first discharge mechanism 5 is in the operating condition, first discharge mechanism 5 drives the ejection of compact of cooking chamber 31 and resets through rotating part 52.

The raw material storage chamber 4 is installed on the side wall of the storage chamber 1, is located above the cooking chamber 31, and is located on the same side as the cooking chamber 31, and the raw material storage chamber 4 may have a cylindrical structure or a square structure, and the present embodiment does not specifically limit the structural shape of the raw material storage chamber 4.

Furthermore, in order to smoothly discharge the viscous particles in the raw material storage chamber 4 to the cooking mechanism 3, the present embodiment further includes a conveying channel 7 communicated with the outlet of the raw material storage chamber 4, the conveying channel 7 is inclined toward the cooking mechanism 3, when the second discharging mechanism 6 controls the raw material storage chamber 4 to discharge the viscous particles to the cooking mechanism 3, the viscous particles in the raw material storage chamber 4 fall through the conveying channel 7 and are discharged to the cooking mechanism 3 according to gravity, wherein the second discharging mechanism 6 may be a screw conveying mechanism, and the present embodiment does not specifically limit the second discharging mechanism 6.

The aforesaid has described in detail the structure and mutual engagement of storing up the room 1, cooking mechanism 3 and raw materials reservoir 4, can specifically realize through above-mentioned structural description that the stickness granule falls into cooking mechanism 3 smoothly by raw materials reservoir 4, cooks the back through cooking mechanism 3, falls into storing up room 1 smoothly by cooking mechanism 3 again and saves, has realized the integrated design that the stickness granule cooks, saves.

Example five:

based on the above embodiments, the present embodiment provides a viscous granule apparatus, and the viscous granule apparatus of the present embodiment includes the stirring mechanism described in the first embodiment and the second embodiment, and further includes the viscous granule cooking device described in the third embodiment and the fourth embodiment, and the structure diagram thereof is shown in fig. 8.

Wherein, stickness granule cooking device includes storing up the pantry 1, cooks mechanism 3, raw materials apotheca 4, first discharge mechanism 5 and second discharge mechanism 6.

In particular, the storage compartment 1 is used to store cooked adhesive granules; the cooking mechanism 3 is used for cooking viscous particles to be cooked; the raw material storage chamber 4 is used for storing viscous particles to be cooked; the first discharging mechanism 5 is used for controlling the cooking mechanism 3 to discharge the cooked viscous particles to the storage chamber; the second discharging mechanism 6 is used for controlling the raw material storage chamber to discharge the stored viscous particles to be cooked to the cooking mechanism; rabbling mechanism 2 is installed in storing up the pantry 1, and the rabbling mechanism 2 is used for stirring the stickness granule of storing up the pantry 1 storage when rotatory with first direction, and the rabbling mechanism 2 is used for carrying out the ejection of compact with the stickness granule of storing up the storage in the pantry 1 storage when rotatory with the second direction, and first direction is opposite with the second direction.

For a specific working principle of the stirring mechanism 2 for stirring and discharging the viscous particles in the storage chamber 1, reference is made to the first embodiment, and for a specific structure of the stirring mechanism 2 and a matching installation with the storage chamber 1, reference is made to the second embodiment, which is not repeated in this embodiment.

Similarly, please refer to the third embodiment and the fourth embodiment for the specific working principle and the corresponding specific structure of the viscous particle cooking device, which are not described in detail herein.

The stickness granule equipment of this example realizes the integrated design of cooking, storage, stirring and the ejection of compact of stickness ball material for the cooking of stickness granule is associated with the storage, and stickness granule circulation process reduces artifical the participation, improves stickness granule circulation degree of automation, makes the storage of stickness granule, stirring and the ejection of compact have the integration simultaneously.

Example six:

based on the first to fifth embodiments, the present embodiment provides a machine for preparing sticky particles, which may include only the stirring and discharging mechanism for sticky particles of the first to second embodiments, only the cooking device for sticky particles of the third to fourth embodiments, and only the machine for preparing sticky particles of the fifth embodiment.

For example, the on-site production and sale equipment of the embodiment can automatically produce the pearl milk tea, pearls used in the pearl milk tea are automatically cooked, stored, stirred and discharged by viscous granule equipment, manual participation is not needed, and the full-automatic production of the pearl milk tea is realized.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (16)

1. The utility model provides a stickness granule stirs and discharge mechanism which characterized in that includes:

a storage chamber for storing adhesive particles;

rabbling mechanism, install in it is indoor to store up the article, the rabbling mechanism is used for right when rotatory with the first direction store up the stickness granule of the indoor storage and stir, the rabbling mechanism is used for with when rotatory with the second direction store up the stickness granule of the indoor storage and carry out the ejection of compact, the first direction with the second opposite direction.

2. An adhesive pellet mixing and dispensing mechanism as recited in claim 1, wherein said mixing mechanism is located between one of opposite side walls of said holding compartment, one of the other opposite side walls of said holding compartment being provided with said dispensing opening, said mixing mechanism rotating in a first direction only in a downward direction through said dispensing opening, and said mixing mechanism rotating in a second direction only in an upward direction through said dispensing opening.

3. The adhesive particle stirring and discharging mechanism according to claim 2, wherein the stirring mechanism comprises a driving portion and a stirring portion, the driving portion drives the stirring portion to rotate in a first direction in the storage chamber according to a first instruction to stir the adhesive particles, and the driving portion drives the stirring portion to rotate in a second direction in the storage chamber according to a second instruction to drive the adhesive particles to the discharge port.

4. The adhesive particle stirring and discharging mechanism according to claim 3, wherein the outlet of the discharge port is inclined downward, the stirring portion is inclined with respect to the horizontal plane of the ground, and when the stirring portion is rotated in the second direction to the discharge port, the surface of the stirring portion coincides with the inclined direction of the outlet of the discharge port, so that the adhesive particles slide from the stirring portion to the discharge port under the action of gravity and then slide from the discharge port to be discharged.

5. The viscous pellet agitating and discharging mechanism of claim 3, wherein the agitating portion is provided with a plurality of weep holes.

6. An adhesive pellet cooking device, comprising:

a storage chamber for storing cooked adhesive pellets;

the cooking mechanism is used for cooking the viscous particles to be cooked;

a raw material storage chamber for storing viscous particles to be cooked;

the first discharging mechanism is used for controlling the cooking mechanism to discharge the cooked viscous particles to the storage chamber;

and the second discharging mechanism is used for controlling the raw material storage chamber to discharge the stored viscous particles to be cooked to the cooking mechanism.

7. The adhesive particle cooking device of claim 6, wherein said cooking mechanism and said material reservoir are separately mounted on the same side of said product reservoir, and said product reservoir, material reservoir and cooking mechanism are provided with mutually engaging ports in positional relationship, said first discharge mechanism controlling said cooking mechanism to discharge cooked adhesive particles to said product reservoir through said mutually engaging ports between said cooking mechanism and said product reservoir, and said second discharge mechanism controlling said material reservoir to discharge adhesive particles to be cooked to said cooking mechanism through said mutually engaging ports between said material reservoir and said cooking mechanism.

8. The apparatus for cooking viscous particles as claimed in claim 7, wherein the engaged ports between the material reservoir and the cooking mechanism are vertically engaged ports in a positional relationship; when the cooking mechanism is static relative to the storage chamber, the mutually-connected inlets and outlets between the cooking mechanism and the storage chamber are horizontally-connected inlets and outlets in a position relation, and when the cooking mechanism rotates upwards relative to the storage chamber, the mutually-connected inlets and outlets between the cooking mechanism and the storage chamber are obliquely-connected inlets and outlets in a position relation.

9. The apparatus for cooking viscous particles as claimed in claim 8, wherein the first discharging means controls the cooking means to rotate upward relative to the holding chamber, and the viscous particles in the cooking means are discharged to the holding chamber through the obliquely-connected outlet/inlet by gravity; when the second discharging mechanism controls the viscous particles in the raw material storage chamber to discharge, the viscous particles in the raw material storage chamber are discharged to the cooking mechanism through the up-down connected inlet and outlet under the action of gravity.

10. The apparatus for cooking viscous pellets of claim 8, wherein the cooking mechanism comprises a cooking chamber and a heating portion;

the cooking chamber is arranged on the side wall of the storage chamber through the first discharging mechanism, a window is formed in the mounting side of the cooking chamber, when the cooking chamber is static relative to the storage chamber, the edge of an opening part of the cooking chamber is horizontally connected with the edge of the window, and when the cooking chamber rotates upwards relative to the storage chamber, the opening part of the cooking chamber is obliquely connected with the window;

when the first discharging mechanism controls the cooking chamber to discharge materials to the storage chamber, viscous particles in the cooking chamber enter the storage chamber through the window;

the heating part is arranged at the bottom of the cooking chamber and is used for cooking viscous particles in the cooking chamber.

11. The apparatus for cooking viscous particles of claim 8, wherein the material reservoir is located above the cooking mechanism, and further comprising a feed channel communicating with an outlet of the material reservoir, the feed channel being inclined toward the cooking mechanism, and wherein the second discharge mechanism controls the viscous particles in the material reservoir to fall through the feed channel and to be discharged by gravity to the cooking mechanism when the material reservoir is discharged to the cooking mechanism.

12. The viscous pellet cooking apparatus of claim 10, wherein the top portion of the cooking chamber is provided with a water injection portion for injecting water into the cooking chamber.

13. The apparatus for cooking viscous particles as recited in claim 10, wherein a drain is provided at a bottom of the cooking chamber for draining the liquid in the cooking chamber to the outside.

14. The viscous particles cooking apparatus of claim 10, wherein the cooking chamber further comprises a filter portion for isolating viscous particles from contact with the bottom of the cooking chamber.

15. An adhesive pellet cooking apparatus comprising the adhesive pellet cooking apparatus as claimed in any one of claims 6 to 14 and a stirring mechanism;

the viscous particle cooking device comprises:

a storage chamber for storing cooked adhesive pellets;

the cooking mechanism is used for cooking the viscous particles to be cooked;

a raw material storage chamber for storing viscous particles to be cooked;

the first discharging mechanism is used for controlling the cooking mechanism to discharge the cooked viscous particles to the storage chamber;

the second discharging mechanism is used for controlling the raw material storage chamber to discharge the stored viscous particles to be cooked to the cooking mechanism;

rabbling mechanism install in it is indoor to store up the article, be used for when rabbling mechanism is rotatory with the first direction right store up the stickness granule of the indoor storage stirs, the rabbling mechanism with second direction be used for when rotatory with the second direction will store up the stickness granule of the indoor storage and carry out the ejection of compact, the first direction with the second opposite direction.

16. An on-the-spot adhesive pellet cooking apparatus according to claim 15, wherein the apparatus comprises the adhesive pellet cooking apparatus according to any one of claims 6 to 14, or the apparatus comprises the adhesive pellet stirring and discharging mechanism according to any one of claims 1 to 5.

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