CN106264148B - Stirring linkage assembly and milk preparing machine - Google Patents

Abstract

The invention discloses a stirring linkage assembly and a milk mixing machine, wherein the milk mixing machine comprises a milk powder bin, a mixing bin and a stirring linkage assembly; the milk powder bin is provided with a powder outlet for supplying dry milk powder to the mixing bin, the mixing bin is connected with a water outlet for supplying water to the mixing bin, and the mixing bin is provided with a liquid outlet; the stirring linkage assembly comprises a stirring rod, a plug, a driving motor and a linkage mechanism, wherein the stirring rod and the plug are vertically arranged on the linkage mechanism, the plug and the stirring rod are in transmission connection with the driving motor through the linkage mechanism, and the linkage mechanism drives the stirring rod to rotate and stir and simultaneously drives the plug to move and link. According to the milk mixing machine, milk flows out of the liquid outlet while being mixed, so that the uniformity of milk powder solution is greatly improved, and the milk mixing machine also has the effect of quickly mixing milk powder.

Description

Stirring linkage assembly and milk preparing machine

Technical Field

The invention relates to mixing and stirring equipment, in particular to a stirring linkage assembly and a milk preparing machine.

Background

At present, when infants drink milk powder, the milk powder brewing operation is usually manual operation of parents, which wastes time and labor, and the problems of non-uniform brewing and caking easily exist. At present, the existing milk mixing machine for automatically mixing milk powder simulates an artificial mixing method, dry milk powder and water are naturally mixed and then flow out from related outlets, and the problem of uneven mixing exists in the mode. In order to increase the mixing uniformity, the milk preparing machine adopts a mode that milk powder is added while the milk powder is flushed by water flow with a certain flow rate, so that the aim of enhancing the mixing uniformity is fulfilled. However, this method still has a problem that the uniformity is insufficient, and the time required for brewing is long, and the method is not practical.

In view of the above, the present inventors have made intensive studies on the above problems, and have provided a stirring linkage assembly and a milk mixing machine.

Disclosure of Invention

The invention aims to provide a stirring linkage assembly, which controls the linkage opening action of an outlet while stirring, and has the advantages of excellent uniform mixing effect and quick operation.

In order to achieve the above purpose, the solution of the invention is:

a stirring linkage assembly comprises a stirring rod, a plug, a driving motor and a linkage mechanism; the stirring rod and the plug are vertically arranged on the linkage mechanism, the plug and the stirring rod are in transmission connection with the driving motor through the linkage mechanism, and the linkage mechanism drives the stirring rod to rotate and stir and simultaneously links the plug to move.

The linkage mechanism comprises a coupler and a connecting rod; the upper end of the connecting rod is in transmission connection with a driving motor through a coupler, and the stirring rod is arranged on the connecting rod; the lower end part of the connecting rod extends to form a screw rod part, the plug is movably connected to the screw rod part through a threaded structure, and a limiting part for limiting the rotation of the plug is arranged on the plug.

The plug comprises a connecting part and a plug cutting part, the connecting part is movably screwed on the screw rod part through a thread structure, and the limiting part is arranged on the connecting part.

The limiting part is a groove arranged on the outer side wall of the connecting part.

The lower end of the groove is a splayed flaring guide part.

The linkage mechanism further comprises two bearing pieces which are arranged on the connecting rod in parallel up and down, and the two bearing pieces are fixedly arranged.

The linkage mechanism comprises a coupler, a connecting rod, a first rotating body and a second rotating body; the upper end part of the connecting rod is arranged on the coupler, and the first rotating body and the second rotating body are sleeved on the connecting rod up and down; the first rotating body is arranged separately from the connecting rod, and the upper end of the first rotating body is in transmission connection with the driving motor through a coupler; the second rotating body is movably connected with the connecting rod through threads, and a raised line and groove structure which vertically extends and is matched with the first rotating body is arranged between the second rotating body and the first rotating body; the stirring rod is arranged on the cylinder wall of the first rotating body or the second rotating body, and the plug is arranged at the lower end part of the second rotating body.

The convex strip is arranged at the upper end part of the second rotating body and extends into the first rotating body, and the corresponding groove is arranged on the inner side wall of the first rotating body.

The linkage mechanism further comprises two bearing parts which are arranged on the first rotating body side by side from top to bottom, and the two bearing parts are fixedly arranged.

The invention also aims to provide a milk mixing machine, which comprises a milk powder bin, a mixing bin and a stirring linkage assembly; the milk powder bin is provided with a powder outlet for supplying dry milk powder to the mixing bin, the mixing bin is connected with a water outlet for supplying water to the mixing bin, and the mixing bin is provided with a liquid outlet; the stirring linkage assembly comprises a stirring rod, a plug, a driving motor and a linkage mechanism, the plug and the stirring rod are vertically arranged on the linkage mechanism and are arranged in the mixing bin, and the plug is arranged corresponding to the liquid outlet; the plug and the stirring rod are in transmission connection with the driving motor through the linkage mechanism, and the linkage mechanism drives the stirring rod to rotate and stir and simultaneously links the plug to move to open and close the liquid outlet.

The linkage mechanism comprises a coupler and a connecting rod; the upper end of the connecting rod is in transmission connection with a driving motor through a coupler, and the stirring rod is arranged on the connecting rod; the lower end part of the connecting rod extends to form a screw rod part, and the plug is movably connected to the screw rod part by adopting a threaded structure; a limit structure for rotary limit is arranged between the plug and the liquid outlet.

The plug comprises a connecting part and a plug cutting part, and the connecting part is movably screwed on the screw rod part through a thread structure; the liquid outlet comprises a limiting part and an opening part which are connected up and down, a water passing gap is arranged between the limiting part and the connecting part, and a limiting structure for rotating and limiting is arranged between the limiting part and the connecting part; the mouth part and the blocking part are matched to be used as a sealed liquid outlet.

The limiting structure is a raised line and a groove which are matched with each other, the groove is arranged on the outer side wall of the connecting part, and the corresponding raised line is arranged on the inner side wall of the limiting part.

The lower end part of the groove is a splayed flaring guide part.

The linkage mechanism further comprises two bearing pieces which are arranged on the connecting rod in parallel up and down, and the two bearing pieces are fixedly arranged.

The linkage mechanism comprises a coupler, a connecting rod, a first rotating body and a second rotating body; the upper end part of the connecting rod is arranged on the coupler, and the first rotating body and the second rotating body are sleeved on the connecting rod up and down; the first rotating body is arranged separately from the connecting rod, and the upper end of the first rotating body is in transmission connection with the driving motor through a coupler; the second rotating body is movably connected with the connecting rod through threads, and a raised line and groove structure which vertically extends and is matched with the first rotating body is arranged between the second rotating body and the first rotating body; the stirring rod is arranged on the cylinder wall of the first rotating body or the second rotating body, and the plug is arranged at the lower end part of the second rotating body.

The convex strip is arranged at the upper end part of the second rotating body and extends into the first rotating body, and the corresponding groove is arranged on the inner side wall of the first rotating body.

The powder bin is provided with a powder preparation assembly, and the powder preparation assembly comprises an inner powder preparation assembly arranged in the powder bin and an outer isolation assembly arranged outside the powder bin and used for opening or shielding the powder outlet.

The outer isolation assembly comprises an isolation plate and a motor; the isolation board is attached to the outer bottom surface of the bottom of the milk powder bin, and the isolation board is driven by the motor to open or shield the powder outlet.

The inner powder distribution assembly comprises a powder scraping fixed plate and a powder feeding rotary plate; the powder feeding rotating plate is arranged on the inner bottom surface of the milk powder bin, the powder feeding rotating plate and the isolation plate are driven by the same motor to rotate, and the powder scraping fixing plate is attached to the powder feeding rotating plate and is fixedly arranged at a position completely covering the powder outlet; the powder feeding rotating plate is provided with a powder mixing port which can rotate to correspond to the powder outlet, and the corresponding isolation plate is provided with a communication port which corresponds to the powder mixing port.

The powder preparation port is provided with a plurality of communicating ports which are uniformly distributed in a surrounding way, and the communicating ports which correspond to the isolating plates one by one are arranged.

The other end of the water outlet is connected with a water inlet, and a top seat is fixedly arranged at the water inlet; a water-passing component is movably assembled at the water inlet; the water passing component comprises a shell, a moving part and a spring part; the shell is internally provided with a through groove which penetrates through the shell from top to bottom, the shell is internally provided with a spacer ring in a protruding mode, the moving part is of an I-shaped structure and is embedded on the spacer ring in a mode that a middle vertical part penetrates through the spacer ring, the spring part is sleeved on the moving part, and the upper end and the lower end of the spring part respectively abut against the lower side wall of the spacer ring and the lower transverse part of the moving part.

The inner side of the spacer ring is also integrally provided with a cylinder section which is used for the spring piece to be sleeved and extends downwards.

The distance ring divides the through groove into an upper through groove and a lower through groove, and the upper through groove is designed with a mounting groove structure with various specifications and calibers.

The connecting rod and the coupling are detachably mounted, and the mixing bin and the shell of the milk preparing machine are detachably mounted.

The coupler is provided with a mounting groove, and the upper end part of the connecting rod is a mounting part extending into the mounting groove; a cavity hole is formed in the mounting part, and a limiting hole correspondingly communicated with the cavity hole is formed in the side wall of the mounting groove; the cavity hole is internally provided with a spring part and a clamping head, and the clamping head is connected with the spring part and extends into the limiting hole in a natural state.

The top of mixing the storehouse is equipped with threaded collar, is equipped with the thread groove that supplies collar thread suspension to connect on the casing.

The plug and the connecting rod are detachably installed in a threaded mode.

The water outlet and the water inlet correspond to two ends of a water conveying pipeline, and a small water storage tank is arranged at the position, close to the front end, of the water conveying pipeline.

And the water pump and the instant heating module are sequentially arranged on the water delivery pipeline along the water outlet direction.

After the scheme is adopted, compared with the prior art, the stirring linkage assembly and the milk preparing machine have the beneficial effects that: stirring linkage subassembly, stirring rod and end cap pass through the integrative combination design of link gear, control the action that the export was opened in the end cap linkage when stirring, bring the advantage of excellent homogeneous mixing effect and quick operation here. Use on joining in marriage milk machine, when milk powder and water give into mixing the storehouse in and mix synthetic milk powder solution, driving motor work, under the link gear linkage drives, further mixes milk powder solution by the stirring rod, the liquid outlet of mixing the storehouse is opened to the end cap simultaneously, and milk flows from the liquid outlet when being stirred, has improved milk powder solution's homogeneity here greatly, still has the effect of dashing the accent milk powder fast simultaneously.

Drawings

FIG. 1 is a schematic view of the structure of the milk dispensing machine of the present invention;

FIG. 2 is a schematic structural view of a first embodiment of the agitator linkage assembly of the present invention;

FIG. 3 is a schematic structural view of the plug in the first embodiment;

FIG. 4 is a schematic view of a second embodiment of a stirring linkage assembly of the present invention;

fig. 5 is an enlarged view of a portion a of fig. 4;

FIG. 6 is an enlarged view of portion B of FIG. 4;

FIG. 7 is a schematic structural view of a milk powder bin portion;

FIG. 8 is a schematic view of the construction of the separator of the present invention;

FIG. 9 is an enlarged view of a portion C (water passage member) of FIG. 1;

FIG. 10 is a schematic view of another embodiment of the water passing module of the present invention.

Description of the reference symbols

The water storage device comprises a small water storage tank 1, a water inlet 10, a top seat 11, a water conveying pipeline 12 and a water outlet 121;

a milk powder bin 2, a powder inlet 20 and a powder outlet 21;

a stirring linkage component 3, a stirring rod 31, a plug 32, a driving motor 33, a linkage mechanism 34,

a connecting portion 321, a blocking portion 322, a groove 3211, a flaring guide portion 3212;

a coupling 341, a link 342, a screw part 3421, a first rotating body 343, and a second rotating body 344;

a rib 3431, a groove 3441, a bearing member 35;

a mixing chamber 4, a liquid outlet 41, a mounting ring 42, a limiting part 411, a mouth part 412,

a housing 5, a thread groove 51;

the powder mixing component 6, the inner powder mixing component 61, the outer isolation component 62, the isolation plate 621 and the motor 622;

a communication port 6211;

the water passage member 7, the housing 71, the movable member 72, the spring member 73,

a through groove 711, a spacer ring 712, a cylindrical section 7121;

spring element 81, cartridge 82, water pump 91, i.e. thermal module 92.

Detailed Description

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

The present disclosure relates to a stirring linkage assembly 3, as shown in fig. 2-5, which mainly includes a stirring rod 31, a plug 32, a driving motor (stepping motor) 33, and a linkage mechanism 34. The stirring rod 31 and the plug 32 are vertically arranged on the linkage mechanism 34, and the plug 32 and the stirring rod 31 are in transmission connection with the driving motor 33 through the linkage mechanism 34. The stirring rod 31 is driven by the linkage mechanism 34 to rotate and stir, and simultaneously the plug 32 is driven to move and link, and the plug 32 preferably moves and links up and down. There are various embodiments of the linkage 34, and two specific embodiments are described in further detail below.

The first embodiment of the linkage 34, shown in fig. 2-3, includes a coupler 341 and a link 342. The upper end of the connecting rod 342 is in transmission connection with the driving motor 33 through the coupler 341, and the stirring rod 31 is arranged on the connecting rod 342.

The lower end of the connecting rod 342 extends to form a screw rod portion 3421, the plug 32 is movably connected to the screw rod portion 3421 through a threaded structure, and the plug 32 is provided with a limiting portion for limiting the rotation of the plug, i.e., the rotation acting force of the connecting rod 342 is converted into the linear lifting acting force of the plug 32 through the limiting action of the limiting portion. The driving motor 33 drives the connecting rod 342 to rotate via the coupling 341, and the stirring rod 31 rotates and stirs and drives the plug 32 to move up and down.

Preferably, in order to facilitate the threaded connection function of the plug 32 and the structural design of the limiting portion, the plug 32 includes a connecting portion 321 and a blocking portion 322 integrally connected to each other. The connecting portion 321 is long and has a threaded hole therein to be connected to the screw rod portion 3421. The limiting part is a groove 3211 arranged on the outer side wall of the connecting part 321, and the groove 3211 is matched with a relevant convex strip fixed outside to realize rotation direction limiting. In the embodiment, the grooves 3211 are provided with three groups uniformly distributed around the circumference, so that the limiting effect and the guiding, lifting and moving function are better.

Further, in order to facilitate the assembly of the plug 32 and the screw rod portion 3421, the lower end portion of the groove 3211 is a splayed flared guide portion 3212 for smooth transition and accommodation.

Preferably, the linkage mechanism 34 further includes two bearings 35 disposed on the connecting rod 342 in parallel up and down, and the two bearings 35 are fixedly disposed. Therefore, the two bearings 35 are matched to facilitate the installation of the linkage mechanism 34, and more importantly, the connection rod 342 is stabilized, and the stability of the lifting and the displacement of the plug 32 is enhanced.

A second embodiment of the linkage 34, shown in fig. 4-5, includes a coupler 341, a connecting rod 342, a first rotating body 343, and a second rotating body 344.

The upper end of the connecting rod 342 is mounted on the coupling 341, and the first rotating body 343 and the second rotating body 344 are fitted on the connecting rod 342 in the vertical direction. The first rotating body 343 is disposed separately from the connecting rod 342, and the upper end of the first rotating body 343 is in transmission connection with the driving motor 33 through the coupling 341. The second rotating body 34 is movably connected to the connecting rod 342 through a thread, and a protrusion and groove structure extending vertically and cooperatively is disposed between the second rotating body 344 and the first rotating body 343, in a specific embodiment, a protrusion 3441 extends upward from an upper end of the second rotating body 344, the protrusion 3441 extends into the first rotating body 343, and a groove 3431 is disposed on an inner side wall of a lower end of the corresponding first rotating body 343. The stirring rod 31 is disposed on the cylindrical wall of the first rotating body 343 or the second rotating body 344, and the plug 32 is disposed at the lower end of the second rotating body 344.

The first rotating body 343 is driven by the driving motor 33 via the coupling 341 to rotate, and the second rotating body 343 is driven to move up and down while rotating with the first rotating body 343, and finally the stirring rod 31 is driven to rotate and the plug 32 is driven to move up and down. Here, when the agitating bar 31 is provided on the first rotating body 343, the agitating bar 31 is rotated only. When the stirring rod 31 is provided on the cylindrical wall of the second rotating body 344, the stirring rod 31 moves up and down while rotating, and thus the stirring effect of the stirring rod 31 is more excellent.

Similarly, preferably, in order to facilitate the assembly of the convex strip 3441 and the groove 3431, the lower end of the groove 3431 is a flared guide portion in a splayed shape for smooth transition.

Preferably, the linkage mechanism 34 further includes two bearings 35 disposed in parallel in the vertical direction on the second rotating body 344, and the two bearings 35 are fixedly disposed. Therefore, the two bearings 35 are matched to facilitate the installation of the linkage mechanism 34, and more importantly, the second rotating body 344 is stabilized, and the stability of the lifting and the moving of the plug 32 is enhanced.

The invention also provides a milk mixing machine which comprises a milk powder bin 2, a mixing bin 4 and a stirring linkage assembly 3 as shown in figures 1-4. The milk powder bin 2, the mixing bin 4 and the stirring linkage component 3 are preferably, reasonably and compactly arranged on the casing 5.

The mixing bin 4 is connected with a water outlet 121 for supplying water into the mixing bin, the milk powder bin 2 is provided with a powder outlet 21 for supplying dry milk powder to the mixing bin 4, and the powder outlet 21 and the water outlet 121 are preferably arranged far away from each other in the mixing bin 4 in a staggered manner. The mixing chamber 4 is preferably funnel-shaped, and has a liquid outlet 41 at the bottom. The mixing bin 4 is used as a containing cavity for mixing and brewing the milk powder and the water. Stirring linkage subassembly 3 is located the top of mixing storehouse 4 to mix milk liquid and carry out intensive mixing effect in mixing the storehouse 4. The specific structure and operation of the stirring linkage assembly 3 are as described above and will not be described in detail herein.

In the first embodiment, the liquid outlet 41 has a limiting portion 411 corresponding to the connecting portion 321 of the stopper 32 and a mouth portion 412 corresponding to the blocking portion 322. The inner sidewall of the limiting portion 411 is provided with a protruding strip 4111 corresponding to the groove 3211. Herein, the plug 32 is vertically movably extended in the liquid outlet 41, wherein the rotation limiting function is performed by the matching of the groove 3211 of the plug 32 and the protrusion 4111 of the liquid outlet 41, so that the rotation function of the connecting rod 342 is converted into the vertical linear movement function of the plug 32. Through the close fit between the blocking portion 322 of the plug 32 and the opening portion 412 of the liquid outlet 41, the plug 32 moves up and down to open and close the opening portion 412. Certainly, in order to facilitate the liquid discharge, a water passing gap is left between the connecting portion 321 of the plug 32 and the limiting portion 411 of the liquid outlet 41.

Preferably, in order to facilitate the cooperation between the mouth portion 412 and the blocking portion 320, the mouth portion 412 is provided with an inner ring structure with a reduced diameter, and the blocking portion 322 includes an upper portion overlapping an end surface of the inner ring and a lower portion matching and extending into the inner ring, so that the liquid outlet 41 is designed to have excellent sealing performance and opening performance. In addition, the periphery of the lower part is in curved surface transition, so that the smooth extension of the lower part into the inner ring is facilitated.

Corresponding to the second embodiment, the second rotating body 344 of the stirring linkage assembly 3 extends into the mixing bin 4, the plug 32 and the stirring rod 31 are vertically arranged in the mixing bin 4, the plug 32 is movably arranged to seal the liquid outlet 41, and the plug 32 performs a lifting action, that is, the opening and closing operation of the liquid outlet 41 is realized. Because the plug 32 is lifted and rotated, the blocking surface of the plug 32 is preferably designed to be a spherical curved surface structure, and the closed end of the corresponding liquid outlet 41 is designed to be an arc-shaped opening structure matched with the blocking surface of the plug 32, so as to facilitate the mutual matching of the two. In the other two embodiments, the two bearings 35 are fixed on the housing 5.

The milk powder bin 2 is provided with a powder inlet 20, which is beneficial to storing dry milk powder in the milk powder bin 2. The bottom of the milk powder bin 2 is provided with a powder outlet 21 for supplying dry milk powder to the mixing bin 4. Preferably, the milk powder bin 2 is further provided with a powder dispensing assembly 6, as shown in fig. 7-8, the powder dispensing assembly 6 comprising an inner powder dispensing assembly 61 and an outer isolation assembly 62. The inner powder preparing component 61 is arranged at the bottom in the powder bin 2 and is used for controlling and distributing a proper amount of dry milk powder to the powder outlet 21 and finally quantitatively delivering the dry milk powder to the mixing bin 4.

The outer isolation component 62 is attached to the bottom of the powdered milk storage 2 and is used for opening or shielding the powder outlet 21. Under the open state, the powder feeding function of the milk powder bin 2 to the mixing bin 4 is realized. Under the shielding state, the powder outlet 21 is isolated relative to the mixing bin 4, so that the problem that hot water and steam in the mixing bin 4 enter the powder outlet 21 and even enter the milk powder bin 2 is effectively avoided, the milk powder bin 2 and the powder outlet 21 are ensured to be kept dry, clean and sanitary continuously, particularly, the inner wall and the edge of the whole opening of the powder outlet 21 are kept dry, clean and sanitary, and the aim of effectively discharging powder from the milk powder bin 2 repeatedly in real time is fulfilled.

As a preferred embodiment of the outer isolation assembly 62, the outer isolation assembly 62 includes an isolation plate 621 and a motor 622. The isolation board 621 is attached to the outer bottom surface of the bottom of the milk powder bin 2, the motor 622 is in transmission connection with the isolation board 621, and the isolation board 621 is driven by the motor 622 to open or shield the powder outlet 21. The partition 621 may have various structures, such as a fan-shaped plate that can completely shield the powder outlet 21, and when the fan-shaped plate rotates to a position right below the powder outlet 21, the fan-shaped plate shields the powder outlet 21; when the sector plate rotates to be dislocated with the powder outlet 21, the sector plate opens the powder outlet 21. An alternative preferred embodiment of the partition 621 is provided below in conjunction with the integral design of the inner dispensing assembly 61.

The inner powder distributing assembly 61 comprises a powder scraping fixing plate and a powder feeding rotating plate. The milk powder bin 2 is cylindrical, the powder feeding rotating plate is of a circular plate structure matched with the bottom of the milk powder bin 2, the powder feeding rotating plate is arranged on the inner bottom surface of the milk powder bin 2, and the powder feeding rotating plate and the isolation plate 621 are driven to rotate by the same motor 622. The powder scraping fixing plate is attached to the powder feeding rotating plate and fixedly arranged right above the powder outlet 21 to completely cover the powder outlet 21. The powder feeding rotary plate is provided with a powder mixing port which can rotate to correspond to the powder outlet 21, the corresponding isolation plate 621 is in a circular plate structure, and a communication port 6211 (shown in fig. 8) which corresponds to the powder mixing port up and down is arranged on the corresponding isolation plate. Preferably, the powder preparation port, the communication port 6211 and the powder outlet 21 have the same shape, so that the three are aligned and overlapped up and down to form a powder outlet channel with a flat side wall.

Preferably, the powder preparing openings are uniformly distributed around the powder preparing device, and a plurality of communicating openings 6211 are arranged corresponding to the partition 621 one by one. In the specific embodiment, four are provided (see fig. 8).

Thus, when the powder dispensing device of the present invention is in operation, the dry milk powder in the milk powder bin 2 is placed above the inner powder dispensing assembly 61, and the powder dispensing opening is also filled. The motor 622 drives the powder feeding rotating plate and the isolating plate 621 to rotate synchronously, when the powder mixing port rotates to the upper part of the powder outlet 21, the corresponding communicating port 6211 on the isolating plate 621 correspondingly rotates to the lower part of the powder outlet 21 at the moment, so that a vertically through powder outlet channel is formed, and dry milk powder is fed to the mixing bin 4 in real time. On the contrary, when the powder mixing port does not rotate to the upper part of the powder outlet 21, namely the upper part of the powder outlet 21 is in a closed state, the lower part of the powder outlet 21 is in a closed state at the same time.

Preferably, the water outlet 121 is the water outlet end of the water pipe 12. In order to realize automatic water delivery and heating to brew and mix the milk powder, a water pump 91 and an instant heating module 92 are sequentially arranged on the water delivery pipeline 12 along the water outlet direction.

When the milk dispenser mixes milk powder, the plug 32 is in a state of descending and sealing the liquid outlet 41, the motor 61 drives the powder mixing component 6 to move, firstly, a proper amount of milk powder in the milk powder bin 2 is conveyed into the mixing bin 4, and after powder conveying is finished, the powder outlet 21 is shielded by the isolation plate 621 for isolating the milk powder; then, the water pump 91 is controlled to work through a related control mechanism, the water pump 91 pumps the water supplied by the water pipeline 12, the water is heated through the instant heating module 92 and then is filled into the mixing bin 4 from the water outlet 121, and the dry milk powder and the water are primarily mixed in the mixing bin 4; afterwards control driving motor 33 drive, via the 34 effects of link gear, the end cap 32 opens liquid outlet 41 when the stirring rod 31 is rotatory to be stirred, so stirring goes out milk liquid simultaneously, and not only whole process of dashing is quick, and the milk liquid that 41 flows of liquid outlet mixes extremely fully and the homogeneity is good moreover, and milk powder dashes transfers the effect splendid, experiences for the user provides better use.

Furthermore, milk powder storehouse 2 accomplishes earlier and supplies powder to mixing storehouse 4, shields out powder mouth 21 by outer isolation component 62, shields the isolation completely with out powder mouth 21, and later toward mixing storehouse 4 hot water supply, has avoided the problem that the hot water vapor of milk powder brewing probably gets into out the powder mouth and even gets into the milk powder storehouse from this, ensures that milk powder storehouse and powder mouth keep dry, clean, health, so reaches the milk powder storehouse and carries out effective powder preparation work through out the powder mouth repeatedly in real time.

The water supply mode of the milk preparing machine can have various embodiments, for example, a water storage tank is directly arranged on the milk preparing machine, and the water storage tank is communicated with the water outlet 121. In the scheme, another embodiment is provided, and the milk dispenser is externally connected with a water storage tank (usually bottled water) through a water passing component 7. Specifically, the other end of the water outlet 121 is connected to the water inlet 10, and the water passing assembly 7 is movably assembled on the water inlet 10 to provide an auxiliary connection function for the bottle water serving as a back-off water supply. There is the different grade type to bottled water bore on the market, establishes into detachable structure with leading to water subassembly 7 to the configuration corresponds water subassembly 7 that leads to of different bore bottled water, with this practical demand that satisfies different bottled water. The water outlet 121 and the water inlet 10 correspond to two ends of the water conveying pipeline 12, and further, a small water storage tank 1 is arranged at a position, close to the front end, of the water conveying pipeline 12, so that the middle buffering and water storage effect is achieved when bottled water is supplied, and continuous and stable water supply for the mixing bin 4 is facilitated.

The water passage assembly 7 is preferably shown in fig. 9-10 and includes a housing 71, a movable member 72, and a spring member 73. The housing 71 has a through-groove 711 extending vertically therethrough, and a spacer ring 712 is provided in the housing 71. The cross-section of the movable member 72 is an i-shaped structure having an upper transverse portion, a middle vertical portion and a lower transverse portion. The movable element 72 is inserted into the partition ring 712 such that the middle vertical portion penetrates through the partition ring 712, the upper and lower lateral portions of the movable element 72 are respectively located at the upper and lower sides of the partition ring 712, and the upper and lower lateral portions are larger than the annular hole in the middle of the partition ring 712, thereby ensuring that the movable element 72 is integrally provided on the housing 71.

The spring element 73 is disposed on the movable element 72, and the upper and lower ends of the spring element 73 respectively abut against the lower sidewall of the spacer 712 and the lower lateral portion of the movable element 72. In this way, in the natural state, due to the elastic force of the spring member 73, the upper horizontal portion of the movable member 72 is tightly abutted against the upper side surface of the spacer 712, and the water passage member 7 is in the closed state, and the water passage member is not filled with water (see the state shown in fig. 10). The lower lateral portion of the movable element 72 is pressed upward against the spring member 73, the upper lateral portion of the movable element 72 is separated from the upper side surface of the partition ring 712, the through groove 711 communicates, and the water passage means 7 opens the water passage (see the state shown in fig. 9).

In order to cooperate with the water passing assembly 7 to work, a top seat 11 is fixedly arranged at the water inlet 10, and the top seat 11 is arranged corresponding to the lower transverse portion of the movable member 72 and is used for upwards pressing the lower transverse portion of the movable member 72.

Preferably, in order to avoid the spring 73 from being displaced to affect the structural stability and the functional function, a cylindrical section 7121 is further integrally extended downward from the inner side of the spacer 712 for stably placing the spring 73.

Preferably, in order to improve the sealing performance when the water passage assembly 7 is closed, a sealing member is further provided on the upper side wall of the spacer ring 712 and/or the lower side surface of the upper transverse portion of the movable member 72, so as to enhance the sealing effect.

Preferably, to facilitate easy installation of the water passage assembly 7, the upper end of the housing 71 is provided with a flange extending outwardly for easy supporting installation. Certainly, the housing 5 is provided with an accommodating cavity matched with the water passing component 7.

The spacer ring 712 divides the through groove 711 into an upper through groove and a lower through groove, and the upper through groove is a mounting groove structure for mounting bottled water. Because the calibers of bottled water on the market have the difference, in order to promote the suitability, from this mounting groove structure can design the groove structure of multiple specification calibers, refer to fig. 9 and 10 for the water-through subassembly that corresponds two kinds of specification calibers. And moreover, a threaded structure is further arranged on the inner side wall of the mounting groove, so that threaded connection with a threaded port of bottled water is facilitated.

When bottled water is installed above the water inlet 10, the water passing component 7 is connected to a water outlet of the bottled water through the upper through groove, then the bottled water is turned over, the water passing component 7 is in a closed state at the moment, and water in the bottled water cannot leak. The bottled water is installed above the water inlet 10 through the water passing assembly 7, the lower transverse part of the movable part 72 just props against the top seat 11 of the water inlet 10, the movable part 72 is jacked upwards under stress, the water passing assembly 7 is automatically opened in the moment of being installed in place, and the water in the bottled water is introduced into the small water storage tank 1 and the water conveying pipeline 12 through the water passing assembly 7 to realize water supply.

Preferably, in order to facilitate the cleaning of the milk dispensing machine for keeping the milk dispensing machine clean, the mixing bin 4 and the stirring linkage assembly 3 are designed to be detachable in structure, which is simple to detach and install. Namely the mixing bin 4 and the shell 5 of the milk preparing machine are detachably arranged. The stirring linkage assembly 3 is detachably mounted on the connecting rod 342 and the coupler 341. The releasable mounting can be of various embodiments, as exemplified below.

The connecting rod 342 is detachably mounted to the coupler 341, as shown in fig. 6, the coupler 341 is provided with a mounting groove, and the upper end of the connecting rod 342 is a mounting portion 3420 extending into the mounting groove. The mounting portion 3420 has a cavity 3422 therein, a limiting hole 3411 is formed in a side wall of the mounting groove and is correspondingly connected to the cavity 3422, and an outer end of the limiting hole 3411 extends to the through. The cavity hole 3422 is provided with a spring member 81 and a locking head 82, and the locking head 82 is connected to the spring member 81 and naturally extends into the limiting hole 3411. The chuck 82 can be steel balls or limit columns. The connecting rod 342 is firmly fixed to the coupler 341 by the locking action of the chuck 82. When disassembly is needed, the chuck 82 is ejected out only through the limiting hole 3411, and the disassembly tool is very simple and convenient.

The mixing chamber 4 is detachably mounted to the cabinet 5 of the milk dispenser in various ways, such as by snapping. In the preferred embodiment, as shown in fig. 1, the top of the mixing bin 4 is provided with a threaded mounting ring 42, and the housing 5 is provided with a threaded groove 51 for the mounting ring 42 to be threaded. Thus, the mixing bin 4 and the machine shell 5 can be easily and detachably mounted through the mutual threaded connection effect between the mounting ring 42 and the threaded groove 51.

Furthermore, the plug 32 and the connecting rod 342 are detachably installed by screw threads. In use, the mixing bin 4, the connecting rod 342 and the plug 32 which are stained with milk and need to be cleaned are simply disassembled and assembled to achieve the purpose of effective and sanitary cleaning, and the mixing bin, the connecting rod 342 and the plug 32 are simply and sequentially installed after cleaning, so that the cleaning machine is very simple, convenient, sanitary and practical.

In the concrete design, the mixing bin 4, the milk powder bin 2 and the small water storage tank 1 are sequentially distributed in the front and the back, the small water storage tank 1 is arranged at the back and is arranged in the containing cavity of the machine shell 5, and the water storage volume of the small water storage tank 1 is better provided with 300ml of capacity, so that the water required by milk powder is favorably mixed. The milk powder bin 2 and the mixing bin 4 are arranged in an overhead mode, the space below the milk powder bin 2 provides installation space for the arrangement of the water conveying pipeline 12, the water pump 91 and the instant heating module 92, and the space is reserved below the mixing bin 4, so that the milk liquid receiving operation is facilitated.

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made within the scope of the claims of the present invention should fall within the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a stirring linkage subassembly which characterized in that: comprises a stirring rod, a plug, a driving motor and a linkage mechanism; the stirring rod and the plug are vertically arranged on the linkage mechanism, the plug and the stirring rod are in transmission connection with the driving motor through the linkage mechanism, and the linkage mechanism drives the stirring rod to rotate and stir and simultaneously links the plug to move;

the linkage mechanism comprises a coupler and a connecting rod; the upper end of the connecting rod is in transmission connection with a driving motor through a coupler, and the stirring rod is arranged on the connecting rod; the lower end part of the connecting rod is provided with a screw rod part in an extending way, the plug is movably connected to the screw rod part by adopting a threaded structure, and the plug is provided with a limiting part for rotationally limiting the plug;

the plug comprises a connecting part and a plug cutting part which are integrally connected up and down, the connecting part is in a long strip shape, and a threaded hole is formed in the connecting part to realize threaded connection with the screw rod part; the limiting part is a groove arranged on the outer side wall of the connecting part, and the groove is matched with a raised line fixed outside to realize rotation limiting.

2. A blending linkage assembly according to claim 1, wherein: the linkage mechanism comprises a coupler, a connecting rod, a first rotating body and a second rotating body; the upper end part of the connecting rod is arranged on the coupler, and the first rotating body and the second rotating body are sleeved on the connecting rod up and down; the first rotating body is arranged separately from the connecting rod, and the upper end of the first rotating body is in transmission connection with the driving motor through a coupler; the second rotating body is movably connected with the connecting rod through threads, and a raised line and groove structure which vertically extends and is matched with the first rotating body is arranged between the second rotating body and the first rotating body; the stirring rod is arranged on the cylinder wall of the first rotating body or the second rotating body, and the plug is arranged at the lower end part of the second rotating body.

3. A milk preparing machine is characterized in that: comprises a milk powder bin, a mixing bin and a stirring linkage component; the milk powder bin is provided with a powder outlet for supplying dry milk powder to the mixing bin, the mixing bin is connected with a water outlet for supplying water to the mixing bin, and the mixing bin is provided with a liquid outlet; the stirring linkage assembly comprises a stirring rod, a plug, a driving motor and a linkage mechanism, the plug and the stirring rod are vertically arranged on the linkage mechanism and are arranged in the mixing bin, and the plug is arranged corresponding to the liquid outlet; the plug and the stirring rod are in transmission connection with a driving motor through a linkage mechanism, and the linkage mechanism drives the stirring rod to rotate and stir and simultaneously links the plug to move to open and close the liquid outlet;

the linkage mechanism comprises a coupler and a connecting rod; the upper end of the connecting rod is in transmission connection with a driving motor through a coupler, and the stirring rod is arranged on the connecting rod; the lower end part of the connecting rod extends to form a screw rod part, the plug is movably connected to the screw rod part by adopting a thread structure, and the plug is provided with a limiting part for rotationally limiting the plug;

the plug comprises a connecting part and a plug cutting part which are integrally connected up and down, the connecting part is in a long strip shape, and a threaded hole is formed in the connecting part to realize threaded connection with the screw rod part; the limiting part is a groove arranged on the outer side wall of the connecting part; the liquid outlet has the spacing portion that corresponds its connecting portion of end cap and corresponds the oral area of cutting stifled portion, is equipped with the sand grip corresponding with the recess on the inside wall of spacing portion.

4. A dispensing machine as claimed in claim 3, characterized in that: the linkage mechanism comprises a coupler and a connecting rod; the upper end of the connecting rod is in transmission connection with a driving motor through a coupler, and the stirring rod is arranged on the connecting rod; the lower end part of the connecting rod extends to form a screw rod part, and the plug is movably connected to the screw rod part by adopting a threaded structure; a limit structure for rotary limit is arranged between the plug and the liquid outlet.

5. A machine as claimed in claim 3, wherein: the linkage mechanism comprises a coupler, a connecting rod, a first rotating body and a second rotating body; the upper end part of the connecting rod is arranged on the coupler, and the first rotating body and the second rotating body are sleeved on the connecting rod up and down; the first rotating body is arranged separately from the connecting rod, and the upper end of the first rotating body is in transmission connection with the driving motor through a coupler; the second rotating body is movably connected with the connecting rod through threads, and a raised line and groove structure which vertically extends and is matched with the first rotating body is arranged between the second rotating body and the first rotating body; the stirring rod is arranged on the cylinder wall of the first rotating body or the second rotating body, and the plug is arranged at the lower end part of the second rotating body.

6. A dispensing machine as claimed in claim 3, characterized in that: the powder bin is provided with a powder preparation assembly, and the powder preparation assembly comprises an inner powder preparation assembly arranged in the powder bin and an outer isolation assembly arranged outside the powder bin and used for opening or shielding the powder outlet.

7. A dispensing machine as claimed in claim 3, characterized in that: the connecting rod and the coupling are detachably mounted, and the mixing bin and the shell of the milk preparing machine are detachably mounted.

8. A dispensing machine as claimed in claim 3, characterized in that: the other end of the water outlet is connected with a water inlet, and a top seat is fixedly arranged at the water inlet; a water-passing component is movably assembled at the water inlet; the water passing component comprises a shell, a moving part and a spring part; the shell is internally provided with a through groove which penetrates through the shell from top to bottom, the shell is internally provided with a spacing ring in a protruding mode, the moving part is of an I-shaped structure and is embedded on the spacing ring in a mode that a middle vertical part penetrates through the spacing ring, the spring part is sleeved on the moving part, and the upper end and the lower end of the spring part respectively abut against the lower side wall of the spacing ring and the lower transverse part of the moving part.

9. A dispensing machine as claimed in claim 8, characterized in that: the water outlet and the water inlet are correspondingly arranged at two ends of a water conveying pipeline, and a small water storage tank is arranged at the position close to the front end of the water conveying pipeline; the water delivery pipeline is sequentially provided with a water pump and an instant heating module along the water outlet direction.

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