CN117138895A

CN117138895A - Raw material crushing and mixing device for infant food production

Info

Publication number: CN117138895A
Application number: CN202311097700.2A
Authority: CN
Inventors: 郑勇锋; 郑勇清
Original assignee: Yangzhou Fangguang Food Co ltd
Current assignee: Yangzhou Fangguang Food Co ltd
Priority date: 2023-08-29
Filing date: 2023-08-29
Publication date: 2023-12-01
Anticipated expiration: 2043-08-29
Also published as: CN117138895B

Abstract

The invention relates to the technical field of food crushing and mixing, in particular to a raw material crushing and mixing device for infant food production, which comprises a bracket mechanism, a rocker mechanism and a crushing and mixing mechanism for crushing and mixing, wherein the bracket mechanism comprises a base positioned at the bottom. According to the invention, through the rotating rod and the ball hinge, two ends of the whole crushing and mixing device are enabled to swing in a conical track, after the device starts to work, the rotating rod starts to rotate under the drive of the first motor through the first motor, so that the first shell is driven to swing through the connection of the connecting rod arranged on the outer side of the rotating rod and the rotating ring arranged on the outer side of the first shell, the internal food raw materials synchronously generate a swinging effect in the crushing and mixing process, the crushing and mixing work is enabled to be more sufficient, the occurrence probability of powder remaining at the end parts of the second shell and the third shell can be reduced during swinging, and the working efficiency is improved.

Description

Raw material crushing and mixing device for infant food production

Technical Field

The invention relates to the technical field of food crushing and mixing, in particular to a raw material crushing and mixing device for infant food production.

Background

The existing food crushing and mixing device is divided into two sets of equipment for crushing and mixing, the crushing device is used as a combination machine, the crushing device is fixed to the upper side and is used as food raw materials, the feeding port is arranged at the top of the crushing device, the inside is provided with a crushing combination blade, raw materials are poured into the crusher through the feeding port during use, the crusher starts to work at the moment, the mixing device is arranged below the crushing device, the pouring port is connected between the two devices, after crushing is completed, the raw materials enter the mixing device from the pouring port, the inside of the mixing device is provided with stirring blades, and after the raw materials completely enter the mixing device, the mixing device is started to mix.

However, such a crushing apparatus is liable to remain when pouring crushed powder, and in a moderating process, the powder is liable to adhere to the inlet of the mixer as well, resulting in uneven mixing, large particle phenomenon in the processed raw material, and in a process of feeding the crushed raw material into the mixer, incomplete pouring, the phenomenon of the raw material remaining in the crusher, and separate shaking of the crusher and the mixer is required to ensure crushing and mixing quality, reducing the processing efficiency.

Disclosure of Invention

The invention aims at: in order to solve the problems of incomplete dumping and insufficient crushing and mixing of food raw materials in the crushing and mixing process, the raw material crushing and mixing device for infant food production is provided.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides a raw materials crushing and mixing device for infant food production, includes bracket mechanism, rocker mechanism and is used for crushing and mixing's crushing and mixing mechanism, bracket mechanism is including the base that is located the bottom, base top surface both ends symmetry are fixed with two rectangular frames, rectangular frame's lateral wall top is fixed with the slewing mechanism that is used for assisting crushing and mixing mechanism rotates;

the utility model provides a broken mixing mechanism includes first casing, the both ends outside of first casing has all rotated and has cup jointed the swivel becket, the middle-end inboard of first casing has rotated and has cup jointed the connecting pipe, a plurality of solid fixed ring have been cup jointed to one side of connecting pipe, a plurality of first round holes have been seted up to one side of connecting pipe corresponding solid fixed ring's position, gu fixed ring's one end all closes soon and is connected with the second casing, gu fixed ring inner wall is fixed with the mount, the central point of mount puts the embedding has the second motor, the motor shaft fixedly connected with crushing axle of second motor, the other side of connecting pipe closes soon and is connected with the third casing, the both ends of first casing all are covered and are connected with first lid, rotate through setting up the swivel becket and cup jointed first casing, fixed first casing, through the connecting pipe that the inboard set up of first casing, divide into two parts with first casing, through solid fixed ring of cup jointing in one side of connecting pipe for fixed, the second casing and gu fixed ring closes soon through setting up, make the second casing can be fixed in gu fixed ring, the motor shaft, the second casing can dismantle through setting up the second motor shaft, can be used for realizing through the fixed connection with the first round hole, realize the crushing axle through setting up the first round hole, realize the fixed cover.

Further in, the one end inboard rotation of first round hole is connected with the valve board, the one end outside of first round hole has the third motor of embedding, the motor shaft of third motor runs through the lateral wall of first round hole, the motor shaft of third motor rotate connect in the valve board lateral wall through setting up the third motor, realizes the rotation to the valve board, through setting up the connecting pipe, realizes the control to the raw materials circulation between second casing and third casing.

Further in, slewing mechanism includes two dwang that rotate respectively and connect in two rectangular frame lateral wall tops, two the one end of dwang all run through in rectangular frame's lateral wall, one rectangular frame's lateral wall top is fixed with the backup pad, the top surface of backup pad is fixed with first motor, the motor shaft of first motor and one the one end fixed connection of dwang, the connecting rod has been cup jointed in the outside fixed of dwang, the connecting rod with swivel becket fixed connection, the top surface central point of base puts and is fixed with the brace table, the top surface central point of brace table puts and is fixed with the telescopic link, the top surface of telescopic link is fixed with the ball hinge, the top surface fixedly connected with fixed cover of ball hinge, the fixed cover inboard with the fixed cover in the first casing middle-end outside, in the course of working, through the backup pad that sets up for bear first motor, through starting first motor, drive and a dwang that the motor shaft is connected take place to rotate, the connecting rod that sets up in the dwang outside follows the rotation, the connecting rod with the drive of ring down, the top surface of first casing and the end can be fixed at the same time, the top surface of a roll-off casing is fixed with the end through the telescopic link, can be fixed with the fixed side of a telescopic link, and the end can be set up the fixed to the opposite side of the base at the end, and the end can be fixed with the telescopic link, and the base can fully set up in the fixed top surface.

Further, when the valve plate is in a working state, the valve plate is opposite to the fixing frame, and the obstruction of raw materials in the circulation process can be reduced by arranging the direction of the connecting pipe.

Further, the second cover bodies are fixed at the positions, corresponding to the second shell bodies, of the inner sides of the first cover bodies, and the second shell bodies are covered by the second cover bodies, so that raw materials are prevented from leaking from the inside of the second shell bodies.

Further in, rocker mechanism includes the handle and is fixed in the embedded lever of handle one end, a plurality of the outside movable joint of second casing has the pipe strap, the pipe strap outside rotate connect in first casing is inboard, the central point of pipe strap puts and has seted up the second round hole, the inboard slip of second round hole has cup jointed the regulation pole, it is cylinder structure to adjust pole one end, the draw-in groove has been seted up to the one end of adjusting the pole, the other end of adjusting the pole is cuboid structure, the other end lateral wall of adjusting the pole is fixed with reset spring, the central point of connecting pipe set up with the square hole that adjusts pole tip cuboid cross-section size equals, cuboid structure slip of pole one end cup joint in first square hole inboard, through setting up the pipe strap, realize the fixing to a plurality of second casings, through setting up the second round hole in pipe strap central point, make the regulation pole that sets up can move smoothly, through setting up rocker mechanism and regulation pole end connection, with the embedded lever card set up the draw-in groove inboard, rotate the handle, make the regulation pole take place to rotate, because of adjusting cuboid structure and connecting pipe strap end tip and the inside of the square hole of the second casing that the first casing is followed to the time, rotate, thereby make the inside of the first casing that rotates, the inside rotates the first casing that rotates smoothly, and the inside rotates the first casing that rotates, so that the inside the first casing of the first casing rotates.

Further, be provided with annular axle sleeve in the inboard center of one end of third casing, the outside of annular axle sleeve with a plurality of dead levers of inboard fixedly connected with of third casing one end, the central point of annular axle sleeve put seted up the second square hole that corresponds with connecting pipe central point put first square hole, the second square hole inboard with the cuboid structure of adjusting the pole other end slides and cup joints, through setting up the dead lever for fixed annular axle sleeve, after the raw materials enters into inside the third casing, through rotating rocker mechanism, make the regulation pole rotate, through setting up the cuboid structure of adjusting pole tip and the second square hole slip cup joint that annular axle sleeve central point put up to can drive the third casing and take place to rotate when adjusting the pole to the in-process that the raw materials got into the third casing, make the residual raw materials of third casing entrance can enter into inside the third casing smoothly after rotating.

Further, be connected with the (mixing) shaft in the rotation of the one end inner wall of third casing, the one end central point of (mixing) shaft put offer with annular axle sleeve central point second square hole corresponding third square hole, reset spring's one end fixed connection in the inner wall in third square hole, through the (mixing) shaft that sets up for stir the mix to the raw materials, after the raw materials enter into third casing inside completely, through continuing to press the handle, after the cuboid structure of adjusting the pole tip enters into the third side hole of setting up, cuboid structure that adjusts pole one end setting is taken off connecting pipe and annular axle sleeve this moment, adjust the cylindrical part and enter into the first of connecting pipe and annular axle sleeve set up, the second square hole is inboard, then through rotating the handle, drive the (mixing) shaft and carry out preliminary stirring mix to the raw materials, connecting pipe and annular axle sleeve can not take place to rotate through setting up the (mixing) shaft at this moment, realize stirring mix's purpose after the raw materials enters into the inside of third casing, after preliminary stirring mixes the completion, take down rocker mechanism structure, can resume normal position through the reset spring that sets up.

Further, a third round hole is formed in the center of the first cover body at one end of the first shell, the diameter of the third round hole is larger than the length of the embedded rod, and the rocker mechanism can smoothly enter the device through the third round hole formed in the center of the first cover body.

The invention has the beneficial effects that:

1. through the rotating rod and the ball hinge, two ends of the whole crushing and mixing device swing in a conical track, after the device starts to work, the rotating rod starts to rotate under the drive of the first motor, so that the first shell is driven to swing through the connection of the connecting rod arranged on the outer side of the rotating rod and the rotating ring arranged on the outer side of the first shell, the internal food raw materials synchronously generate a swinging effect in the crushing and mixing process, the crushing and mixing work is more sufficient, the occurrence probability of powder remained at the end parts of the second shell and the third shell can be reduced during swinging, and the working efficiency is improved;

2. through putting into the regulation pole tip that sets up rocker mechanism, make embedded lever embedding draw-in groove inboard, after the crushing is accomplished the raw materials gets into the mixed part, through pressing rocker mechanism, make the inside rotation that can take place different levels of whole device, first adjust pole tip when connecting pipe and annular axle sleeve central point put, rotate rocker mechanism, at this moment, whole crushing structure and third casing follow the regulation pole and rotate, thereby make the raw materials that the crushing is accomplished after the residual raw materials can more thoroughly enter into mixing arrangement, prevent that the raw materials from piling up at the entrance after entering into inside the third casing, then start the third motor that sets up, make the valve board be in the closed condition, press rocker mechanism, adjust the pole and fully get into in the stirring axle center square hole and break away from connecting pipe and annular axle sleeve, stirring axle and stirring vane take place to rotate, carry out preliminary mixing work to the raw materials, afterwards take off rocker mechanism, make the regulation pole return to the back of normal position, restart first motor, make the device take place the rotation again, the raw materials carries out the secondary mixing this moment, so reach the more abundant purpose of raw materials mixing.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIGS. 1-2 are schematic views of the overall structure of the present invention;

FIG. 3 is a schematic view of a crushing and mixing mechanism in the present invention;

FIG. 4 is a schematic view of the crushing shaft structure of the present invention;

FIG. 5 is a schematic view of the structure of the fixing ring in the present invention;

FIG. 6 is a schematic view of the structure of the adjusting lever and the connecting pipe in the present invention;

FIG. 7 is a schematic view of the structure of the adjusting lever and the third housing in the present invention;

FIG. 8 is a schematic view of the structure of the stirring shaft in the invention;

FIG. 9 is a schematic view of the structure of the fixing ring and the connecting pipe in the present invention;

FIG. 10 is a schematic view of the internal structure of the retaining ring of the present invention;

FIG. 11 is a schematic view of a pipe strap according to the present invention;

FIG. 12 is a schematic view of a rocker mechanism according to the present invention.

In the figure: 100. a bracket mechanism; 110. a base; 120. a support table; 121. a telescopic rod; 130. a ball hinge; 140. a rectangular frame; 200. a rotating mechanism; 210. a support plate; 220. a first motor; 230. a rotating lever; 240. a connecting rod; 300. a crushing and mixing mechanism; 310. a first housing; 311. a first cover; 312. a rotating ring; 313. a fixed sleeve; 314. a second cover; 320. a pipe clamp; 330. a second housing; 331. a crushing shaft; 340. a fixing ring; 341. a second motor; 342. a fixing frame; 350. a third housing; 351. a stirring shaft; 353. an annular shaft sleeve; 354. a fixed rod; 360. an adjusting rod; 361. a clamping groove; 362. a return spring; 370. a connecting pipe; 372. a third motor; 373. a valve plate; 400. a rocker mechanism; 410. a handle; 411. the rod is embedded.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-12, a raw material crushing and mixing device for infant food production comprises a bracket mechanism 100, a rocker mechanism 400 and a crushing and mixing mechanism 300 for crushing and mixing, wherein the bracket mechanism 100 comprises a base 110 positioned at the bottom, two rectangular frames 140 are symmetrically fixed at two ends of the top surface of the base 110, and a rotating mechanism 200 for assisting the rotation of the crushing and mixing mechanism 300 is fixed at the top end of the side wall of the rectangular frame 140;

the crushing and mixing mechanism 300 comprises a first shell 310, wherein the outer sides of the two ends of the first shell 310 are respectively and rotatably sleeved with a rotary ring 312, the inner sides of the middle ends of the first shell 310 are respectively and rotatably sleeved with a connecting pipe 370, one side of the connecting pipe 370 is fixedly sleeved with a plurality of fixed rings 340, one side of the connecting pipe 370 is provided with a plurality of first round holes corresponding to the positions of the fixed rings 340, one ends of the fixed rings 340 are respectively and rotatably connected with a second shell 330, the inner side walls of the fixed rings 340 are fixedly provided with a fixed frame 342, the center position of the fixed frame 342 is embedded with a second motor 341, the motor shaft of the second motor 341 is fixedly connected with a crushing shaft 331, the other side of the connecting pipe 370 is rotatably connected with a third shell 350, the two ends of the first shell 310 are respectively and rotatably sleeved with a first cover body 311, the inner side of one first cover body 311 is fixedly provided with a second cover body 314 corresponding to the positions of the second shell 330, realize the closing of the second shell 330, thereby preventing the raw materials from leaking from the inside of the second shell 330, the first shell 310 is fixed by arranging the rotating ring 312 to rotate and sleeve the first shell 310, the first shell 310 is divided into two parts by arranging the connecting pipe 370 at the inner side of the middle end of the first shell 310, a plurality of fixing rings 340 are fixedly sleeved at one side of the connecting pipe 370 for fixing, then the second shell 330 is arranged to be in rotary connection with the fixing rings 340, the second shell 330 can be fixed on the fixing rings 340, meanwhile, the second shell 330 is detachable, the fixing frame 342 is arranged for fixedly connecting the second motor 341, the motor shaft of the second motor 341 is arranged to be connected with the crushing shaft 331, the crushing shaft 331 is rotated, the crushing effect is realized, the circulation of the raw materials is realized by arranging the first cover 311 for sealing the shell, the inboard rotation of one end of first round hole is connected with valve plate 373, and the one end outside of first round hole has embedded third motor 372, and the lateral wall of first round hole is run through to the motor shaft of third motor 372, and the motor shaft of third motor 372 rotates to be connected in valve plate 373 lateral wall, through setting up third motor 372, realizes the rotation to valve plate 373, through setting up connecting pipe 370, realizes the control to the raw materials circulation between second casing 330 and third casing 350.

Specifically, the rotating mechanism 200 includes two rotating rods 230 rotatably connected to the top ends of the side walls of the two rectangular frames 140, one ends of the two rotating rods 230 penetrate through the side walls of the rectangular frames 140, a supporting plate 210 is fixed to the top end of the outer side wall of one rectangular frame 140, a first motor 220 is fixed to the top surface of the supporting plate 210, a motor shaft of the first motor 220 is fixedly connected with one end of one rotating rod 230, a connecting rod 240 is fixedly sleeved on the outer side of the rotating rod 230, the connecting rod 240 is fixedly connected with a rotating ring 312, a supporting table 120 is fixed to the center position of the top surface of the base 110, a telescopic rod 121 is fixed to the center position of the top surface of the supporting table 120, a ball hinge 130 is fixed to the top surface of the telescopic rod 121, a fixing sleeve 313 is fixedly sleeved on the inner side of the fixing sleeve 313 and the outer side of the middle end of the first housing 310, during operation, through the supporting plate 210, the device is used for bearing the first motor 220, the first motor 220 is started to drive one rotating rod 230 connected with the motor shaft of the first motor 220 to rotate, at the moment, a connecting rod 240 arranged on the outer side of the rotating rod 230 rotates along with the rotating rod, one end of a first shell 310 regularly swings along the track of the end part of the rotating rod 230 under the drive of the connecting rod 240 and a rotating ring 312, a supporting table 120 arranged on the top surface of a base 110 and a telescopic rod 121 arranged on the top surface of the supporting table 120 are used for assisting bearing, a ball hinge 130 is connected with the bottom surface of the fixing sleeve 313 through a fixing sleeve 313 fixed on the middle end of the first shell 310, meanwhile, the ball hinge 130 is fixedly connected with the telescopic rod 121, so that the other end of the first shell 310 swings in the opposite direction to one end of the first shell 310, raw materials are crushed and mixed more fully, when a valve plate 373 is in a working state, the position of the valve plate 373 is opposite to a fixing frame 342, by providing the direction of the connection tube 370, the obstruction of the raw material during the circulation process can be reduced.

Specifically, the rocker mechanism 400 includes a handle 410 and an embedded rod 411 fixed at one end of the handle 410, a third round hole is provided at a central position of a first cover 311 at one end of the first housing 310, the diameter of the third round hole is larger than the length of the embedded rod 411, the rocker mechanism 400 can smoothly enter the device by providing the third round hole at a central position of the first cover 311, a plurality of second housings 330 are movably clamped with pipe clamps 320, the outer sides of the pipe clamps 320 are rotatably connected at the inner sides of the first housings 310, a second round hole is provided at a central position of the pipe clamps 320, an adjusting rod 360 is slidably sleeved at the inner sides of the second round holes, one end of the adjusting rod 360 is in a cylindrical structure, a clamping groove 361 is provided at one end of the adjusting rod 360, the other end of the adjusting rod 360 is in a cuboid structure, a reset spring 362 is fixed at the outer side wall of the other end of the adjusting rod 360, the center of the connecting pipe 370 is provided with a square hole with the same size as the cuboid section at the end of the adjusting rod 360, the cuboid structure at one end of the adjusting rod 360 is sleeved on the inner side of the first square hole in a sliding manner, the fixing of the plurality of second shells 330 is realized by arranging the pipe clamp 320, the arranged adjusting rod 360 can smoothly move by arranging the second round hole at the center of the pipe clamp 320, the embedded rod 411 is clamped into the inner side of the clamping groove 361 formed at the end of the adjusting rod 360 by arranging the rocker mechanism 400 to be connected with the end of the adjusting rod 360, at the moment, the handle 410 is rotated to rotate the adjusting rod 360, the connecting pipe 370 is rotated along with the adjusting rod 360 due to the sliding sleeve connection of the cuboid structure at the end of the adjusting rod 360 and the first square hole formed at the center of the connecting pipe 370, the fixed ring 340 and the second shells 330 are driven to rotate, at the moment, the outer side of the pipe clamp 320 is rotationally connected with the inner side of the first shells 310, and the plurality of second shells 330 synchronously rotate, therefore, after the crushing operation is finished, in the process that the raw materials enter the third shell 350, the residual raw materials which do not enter the third shell 350 in the second shell 330 can smoothly enter the third shell 350 after rotating.

Specifically, an annular shaft sleeve 353 is arranged at the center of the inner side of one end of the third shell 350, a plurality of fixing rods 354 are fixedly connected to the outer side of the annular shaft sleeve 353 and the inner side of one end of the third shell 350, a second square hole corresponding to the first square hole at the center of the connecting pipe 370 is formed in the center of the annular shaft sleeve 353, the inner side of the second square hole is in sliding sleeve joint with a cuboid structure at the other end of the adjusting rod 360, the fixing rods 354 are used for fixing the annular shaft sleeve 353, after raw materials enter the third shell 350, the adjusting rod 360 is rotated by rotating the rocker mechanism 400, the second square hole formed at the end of the adjusting rod 360 and the center of the annular shaft sleeve 353 are in sliding sleeve joint, so that the adjusting rod 360 can drive the third shell 350 to rotate when the raw materials enter the third shell 350, after rotating, the raw materials can smoothly enter the third shell 350, the inner wall of one end of the third shell 350 is rotationally connected with a stirring shaft 351, a third square hole corresponding to a second square hole at the center of the annular shaft sleeve 353 is formed in the center of one end of the stirring shaft 351, one end of a return spring 362 is fixedly connected to the inner wall of the third square hole, the raw materials are stirred and mixed through the stirring shaft 351, after the raw materials completely enter the third shell 350, the handle 410 is continuously pressed, when the cuboid structure at the end part of the adjusting rod 360 enters the third square hole, the cuboid structure at one end of the adjusting rod 360 is separated from the connecting pipe 370 and the annular shaft sleeve 353, the cylindrical part of the adjusting rod 360 enters the inner sides of the first square hole and the second square hole formed by the connecting pipe 370 and the annular shaft sleeve 353, and then the stirring shaft 351 is driven to rotate through rotating the handle 410, the raw materials are primarily stirred and mixed, at this time, the connecting pipe 370 and the annular shaft sleeve 353 cannot rotate to achieve the purpose of stirring and mixing after the raw materials enter the third shell 350, after the primary stirring and mixing are completed, the rocker mechanism 400 structure is taken down, and the adjusting rod 360 can be restored to the original position through the reset spring 362.

Working principle: when in use, the first motor 220 drives the rotating rod 230 to rotate, the first shell 310 is rotated to a proper angle around the telescopic rod 121 arranged on the top surface of the supporting table 120 by using the arranged connecting rod 240, then one first cover 311 fixed with a second cover 314 is opened to expose one end of the second shell 330, the raw materials to be crushed and mixed are added into the second shell 330, then one first cover 311 is covered, then the first shell 310 is rotated, and the rotating ring 312 is connected with the connecting rod 240;

at this time, the crushing operation is started, and the rotating rod 230 at one side connected with the motor shaft of the first motor 220 is reciprocally rotated in a forward and reverse rotation manner by starting the first motor 220, so that one end of the first housing 310 regularly swings along the track of the end of the rotating rod 230 under the driving of the connecting rod 240, and the other end of the first housing 310 swings in a reverse direction due to the fixed sleeve 313 arranged at the middle end of the first housing 310 and the ball hinge 130 connected to the bottom surface of the fixed sleeve 313;

then, the second motor 341 is started to drive the crushing shaft 331 to rotate, and crushing of the raw materials is started in the second shell 330, and the valve plate 373 is in a closed state;

after crushing, the first motor 220 is closed, the first shell 310 is rotated to an inclined angle, one end of the first shell 310, which is provided with the second shell 330, is positioned at a high position, at the moment, the third motor 372 is started, the valve plate 373 is rotated to be in an open state, and the connecting pipe 370 is connected with the third shell 350, so that crushed raw materials enter the third shell 350 under the action of gravity, after most raw materials enter the third shell 350, the rocker mechanism 400 is inserted into a third round hole formed in the central position of the first cover 311, the embedded rod 411 is embedded into the inner side of the clamping groove 361, the handle 410 is started to rotate, the adjusting rod 360 is driven to rotate, at the moment, the cuboid structure at the end part of the adjusting rod 360 is positioned at the inner sides of the first square hole and the second square hole in the central position of the connecting pipe 370 and the annular shaft sleeve 353, the adjusting rod 360 drives the connecting pipe 370 and the third shell 350 to rotate, and accordingly the whole crushing structure is driven to rotate, and powder materials attached and remained on the port side walls of the second shell 330 and the third shell 350 enter the third shell 350 to the inner side of the third shell 350, and the raw materials are prevented from being accumulated at the inlet of the third shell 350;

after the raw materials all enter the third shell 350, the third motor 372 is started to enable the valve plate 373 to be in a closed state, then the rocker mechanism 400 is pressed towards the inside of the first shell 310, a cuboid structure at one end of the adjusting rod 360 enters the inner side of a third party hole formed in the center position of one end of the stirring shaft 351, at the moment, the cuboid structure at one end of the adjusting rod 360 is separated from the connecting pipe 370 and the annular shaft sleeve 353, the cylindrical part of the adjusting rod 360 enters the inner sides of a first square hole and a second square hole formed in the connecting pipe 370 and the annular shaft sleeve 353, then the stirring shaft 351 is driven to rotate by rotating the handle 410, the raw materials are primarily stirred and mixed, at the moment, the connecting pipe 370 and the annular shaft sleeve 353 cannot rotate, after primary mixing is completed, the rocker mechanism 400 is taken out, the adjusting rod 360 is restored to the original position, at the moment, the first motor 220 is restarted, the whole device is enabled to swing again, the raw materials are secondarily mixed, and the raw materials are fully mixed;

after the stirring is completed, the other first cover 311 positioned at one side of the third shell 350 is opened, the third shell 350 is removed, the internal raw materials are poured out, then one first cover 311 positioned at one side of the second shell 330 is removed, the internal second shell 330 is taken out, the device is cleaned, and the food crushing and mixing work is completed.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative and explanatory of the invention, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the invention or exceeding the scope of the invention as defined in the claims.

Claims

1. The raw material crushing and mixing device for producing infant food is characterized by comprising a bracket mechanism (100), a rocker mechanism (400) and a crushing and mixing mechanism (300) for crushing and mixing, wherein the bracket mechanism (100) comprises a base (110) positioned at the bottom, two rectangular frames (140) are symmetrically fixed at two ends of the top surface of the base (110), and a rotating mechanism (200) for assisting the crushing and mixing mechanism (300) to rotate is fixed at the top end of the side wall of each rectangular frame (140);

broken mixing mechanism (300) including first casing (310), all rotate around in the both ends outside of first casing (310) and cup jointed swivel becket (312), the inboard swivel becket of middle-end of first casing (310) has connected connecting pipe (370), a plurality of solid fixed ring (340) have been fixedly cup jointed to one side of connecting pipe (370), a plurality of first round holes have been seted up to the position that one side of connecting pipe (370) corresponds solid fixed ring (340), all spin-in of the one end of solid fixed ring (340) is connected with second casing (330), gu fixed ring (340) inside wall is fixed with mount (342), the central point of mount (342) puts the embedding and has second motor (341), the motor shaft fixedly connected with crushing axle (331) of second motor (341), the other side spin-in of connecting pipe (370) is connected with third casing (350), the both ends of first casing (310) all are covered with first lid (311).

2. The raw material crushing and mixing device for producing infant food according to claim 1, wherein a valve plate (373) is rotatably connected to the inner side of one end of the first round hole, a third motor (372) is embedded into the outer side of one end of the first round hole, a motor shaft of the third motor (372) penetrates through the side wall of the first round hole, and the motor shaft of the third motor (372) is rotatably connected to the side wall of the valve plate (373).

3. The raw material crushing and mixing device for infant food production according to claim 1, wherein the rotating mechanism (200) comprises two rotating rods (230) which are respectively connected to the top ends of the side walls of the two rectangular frames (140) in a rotating mode, one end of each rotating rod (230) penetrates through the side wall of each rectangular frame (140), a supporting plate (210) is fixed to the top end of the outer side wall of each rectangular frame (140), a first motor (220) is fixed to the top surface of each supporting plate (210), a motor shaft of each first motor (220) is fixedly connected with one end of each rotating rod (230), connecting rods (240) are fixedly sleeved on the outer sides of the rotating rods (230), connecting rods (240) are fixedly connected with the rotating rings (312), supporting tables (120) are fixedly arranged at the top surface center positions of the bases (110), telescopic rods (121) are fixedly arranged at the top surface center positions of the supporting tables (120), ball hinges (130) are fixedly arranged on the top surfaces of the telescopic rods (121), ball hinges (130) are fixedly connected to the top surfaces of the inner sides, and fixedly connected to one end of each ball hinge (313) respectively, and fixedly connected to one outer side (310).

4. The raw material crushing and mixing device for infant food production according to claim 2, wherein the valve plate (373) is located opposite to the fixing frame (342) when the valve plate (373) is in an operating state.

5. The raw material crushing and mixing device for producing infant food according to claim 1, wherein the second cover (314) is fixed at the position corresponding to the second housing (330) on the inner side of one of the first covers (311).

6. The raw material crushing and mixing device for infant food production according to claim 1, wherein the rocker mechanism (400) comprises a handle (410) and an embedded rod (411) fixed at one end of the handle (410), a plurality of second shells (330) are movably clamped with pipe clamps (320), the outer sides of the pipe clamps (320) are rotationally connected to the inner sides of the first shells (310), a second round hole is formed in the central position of the pipe clamps (320), an adjusting rod (360) is slidably sleeved on the inner sides of the second round holes, one end of the adjusting rod (360) is of a cylindrical structure, a clamping groove (361) is formed in one end of the adjusting rod (360), the other end of the adjusting rod (360) is of a cuboid structure, a reset spring (362) is fixed on the outer side wall of the other end of the adjusting rod (360), square holes equal to the cuboid section size of the end of the adjusting rod (360) are formed in the central position of the connecting pipe (370), and the cuboid structure at one end of the adjusting rod (360) is slidably sleeved on the inner sides of the first square hole.

7. The raw material crushing and mixing device for producing infant food according to claim 6, wherein an annular shaft sleeve (353) is arranged at the center of the inner side of one end of the third shell (350), a plurality of fixing rods (354) are fixedly connected to the outer side of the annular shaft sleeve (353) and the inner side of one end of the third shell (350), a second square hole corresponding to a first square hole at the center of the connecting pipe (370) is formed in the center of the annular shaft sleeve (353), and the inner side of the second square hole is in sliding sleeve connection with a cuboid structure at the other end of the adjusting rod (360).

8. The raw material crushing and mixing device for producing infant food according to claim 6, wherein an inner wall of one end of the third housing (350) is rotatably connected with a stirring shaft (351), a third square hole corresponding to the second square hole of the central position of the annular shaft sleeve (353) is formed in the central position of one end of the stirring shaft (351), and one end of the return spring (362) is fixedly connected to the inner wall of the third square hole.

9. The raw material crushing and mixing device for infant food production according to claim 6, wherein a third round hole is formed in the center of one of the first cover bodies (311) at one end of the first housing (310), and the diameter of the third round hole is larger than the length of the insert rod (411).