阅读说明：本技术 一种五谷代餐粉生产装置 (Five cereals meal replacement powder apparatus for producing ) 是由 郭奎 于 2021-09-27 设计创作，主要内容包括：本发明公开了一种五谷代餐粉生产装置,涉及食品加工用设备技术领域。本发明包括储料机构、搅拌机构、过滤机构和卸料机构,储料机构底中部贯穿延伸有搅拌机构,且搅拌机构包括的搅拌电机上输出端套接有套架,套架外侧滑动的导架下部呈等距连接有搅拌杆,且搅拌杆之间通过铰链活动连接；搅拌机构上部通过卸料机构活动连接有过滤机构,且搅拌机构贯穿卸料机构、过滤机构中部设置。本发明通过设置搅拌机构、过滤机构和卸料机构,解决了现有搅拌装置,过滤以及搅拌需分布进行,加工效率底,且搅拌结构需对其整体进行拆卸后,才得以对其进行检修更换,耗时耗力,同时,搅拌所需的过滤结构需对其进行下移,才能进行滤渣清理,满足不了使用需求的问题。(The invention discloses a device for producing five-cereal meal replacement powder, and relates to the technical field of equipment for food processing. The stirring device comprises a material storage mechanism, a stirring mechanism, a filtering mechanism and a discharging mechanism, wherein the stirring mechanism is extended in the middle of the bottom of the material storage mechanism in a penetrating manner, a sleeve frame is sleeved at the upper output end of a stirring motor of the stirring mechanism, stirring rods are connected to the lower part of a guide frame sliding on the outer side of the sleeve frame at equal intervals, and the stirring rods are movably connected through a hinge; the upper part of the stirring mechanism is movably connected with a filtering mechanism through a discharging mechanism, and the stirring mechanism penetrates through the middle parts of the discharging mechanism and the filtering mechanism. The stirring device comprises a stirring mechanism, a filtering mechanism and a discharging mechanism, wherein the stirring mechanism is arranged on the stirring mechanism, and the stirring mechanism is arranged on the stirring mechanism.)

1. The utility model provides a five cereals meal replacement powder apparatus for producing, includes storage mechanism (100), rabbling mechanism (600), filter mechanism (700) and shedding mechanism (800), its characterized in that: the middle of the bottom of the material storage mechanism (100) is extended with a stirring mechanism (600), the upper output end of a stirring motor (610) which is included by the stirring mechanism (600) is sleeved with a sleeve frame (620), the lower part of a guide frame (630) which slides outside the sleeve frame (620) is connected with stirring rods (640) at equal intervals, and the stirring rods (640) are movably connected through a hinge (650);

the upper part of the stirring mechanism (600) is movably connected with a filtering mechanism (700) through the discharging mechanism (800), and the stirring mechanism (600) penetrates through the middle parts of the discharging mechanism (800) and the filtering mechanism (700).

2. The device for producing five-cereal meal replacement powder as claimed in claim 1, wherein the storage box (110) of the storage mechanism (100) is embedded with transparent windows (120) in the front and rear middle parts, the middle part of the bottom of the storage box (110) is provided with a through screw, and the middle part of the front and rear parts of the storage box (110) is provided with a through hole.

3. The device for producing five-cereal meal replacement powder as claimed in claim 2, wherein the storage box (110) is connected with a sealing mechanism (200) at the middle part, the sealing mechanism (200) comprises a sealing cover (210) with a shaft seat (220) passing through the middle part, and the sealing cover (210) is welded with a convex plate (230) at the middle part of both sides.

4. The device for producing five-cereal meal replacement powder as claimed in claim 2, wherein the front and rear upper ends of the storage box (110) are connected with a lifting mechanism (300), a support plate (310) included in the lifting mechanism (300) is internally threaded with a support (320), and the upper end of a telescopic rod (330) at the inner bottom end of the support (320) is connected with the bottom end of the convex plate (230).

5. The device for producing five-cereal meal replacement powder according to claim 2, wherein the bottom edge of the storage box (110) is connected with a support mechanism (400), the bottom end of a lower opening frame (410) included in the support mechanism (400) is connected with a support frame (420) in a damping manner, and studs (430) are arranged in the front middle part and the rear middle part of the lower opening frame (410) at equal intervals.

6. The device for producing five-cereal meal replacement powder as claimed in claim 2, wherein the feeding mechanism (500) is connected to the middle of the two sides of the storage box (110), the U-shaped slider (520) slides in the middle of the slide rail (510) included in the feeding mechanism (500), the feeding box (550) is connected to the inner end of the driving motor (540) on the upper portion of the two sides of the U-shaped slider (520), and the upper end of the electric push rod (530) in the middle of the bottom of the slide rail (510) is connected to the bottom end of the U-shaped slider (520).

7. The device for producing five-cereal meal replacement powder as claimed in claim 1, wherein the guide frame (630) is connected with the upper end surface of the stirring rod (640) through a connecting mechanism (900) with the lower part of the circumferential side welded at equal intervals, a connecting column (920) penetrates through the middle part of the front end of a connecting plate (910) included in the connecting mechanism (900), the bottom end of the connecting column (920) is threaded on the upper end surface of the stirring rod (640), and the end part of a shaft lever (940) at the inner end of the stirring rod (640) rotates inside a U-shaped frame (930) with the lower part welded at equal intervals of the guide frame (630).

8. The device for producing five-cereal meal replacement powder as claimed in claim 1, wherein the mounting rack (710) of the filtering mechanism (700) is sleeved on the upper end of the discharging mechanism (800), the inner side of the mounting rack (710) is connected with the multiple filter screens (720), and the multiple filter screens (720) are gradually decreased in aperture from top to bottom.

9. The device for producing five-cereal meal replacement powder according to claim 1, wherein the unloading mechanism (800) comprises a bearing frame (810) connected with hydraulic cylinders (820) at the front and rear lower parts, the upper output end of the hydraulic cylinder (820) is in threaded connection with the front and rear ends of the bottom of the mounting frame (710), and the middle part of the outer side of the protrusion at the front and rear ends of the bearing frame (810) is connected with the front and rear upper parts of the mounting frame (710) through a screw (830).

Technical Field

The invention belongs to the technical field of food processing equipment, and particularly relates to a five-cereal meal replacement powder production device.

Background

The food processing refers to grain grinding, feed processing, vegetable oil and sugar processing, slaughtering, meat processing, aquatic product processing and the processing activities of vegetables, fruits, nuts and other foods which are directly carried out by taking agricultural, forestry, herding and fishery products as raw materials, the five-cereal meal replacement powder belongs to one of the foods, and the stirring device belongs to a production device for the five-cereal meal replacement powder.

Through retrieval, the Chinese patent No. CN207872081U, published on the grant of the No. 2018.09.18, discloses a mixing device for producing mixed grain meal powder, which comprises a frame, wherein a mixing barrel is arranged on the frame, and the mixing barrel is sequentially provided with a material distribution layer and a stirring layer from top to bottom; the cloth layer is provided with a cloth mechanism; a distributing plate is arranged between the distributing layer and the stirring layer, the distributing plate is inclined downwards at 10-30 degrees from left to right, and a plurality of distributing through holes are formed in the distributing plate according to a rectangular array; a stirring mechanism is arranged in the stirring layer, an arc-shaped groove is formed in the bottom of the stirring layer, a discharge pipe is connected to one side of the arc-shaped groove, a first conveying auger is arranged in the arc-shaped groove, and the first conveying auger extends to the discharge pipe; one side that the discharging pipe is not connected with arc groove is connected with the second and carries the auger, the second is carried the auger and is not set up in compounding section of thick bamboo top with the one end that the discharging pipe is connected, and the second is carried the auger and is provided with the feed opening with the corresponding position of compounding section of thick bamboo.

Through retrieval, the granted patent number CN206730947U of china, granted published japanese 2017.12.12, granted discloses a food stirring device, which comprises a stirring device body, a water adding mechanism, a stirring mechanism and a shielding mechanism, wherein the water adding mechanism comprises a water inlet hard pipe, a water inlet hose and a funnel barrel, and a first concave groove and a second concave groove are arranged on two sides of a rotating cover; the shielding mechanism comprises a first shielding plate and a second shielding plate; the outer wall of the stirring device body is provided with an observation window and a timing mechanism, and the timing mechanism is used for timing stirring; and a shock pad is arranged in the concave groove at the lower part of the stirring device body. The food stirring device provided by the invention is convenient to add water and stir, prevents juice from splashing around, and improves the stirring efficiency.

However, the following disadvantages still exist in the practical use:

1. the existing stirring device is used for stirring raw materials after filtering, and the filtering and stirring are carried out in a distributed manner, so that the processing efficiency is low, and the using effect is influenced;

2. in the existing stirring device, the stirring structure needs to be disassembled integrally, and then the stirring structure can be overhauled and replaced, so that the operation intensity is high, and time and labor are consumed;

3. the filter structure required by stirring of the existing stirring device needs to move down, so that filter residues on the upper surface of the existing stirring device can be cleaned, and the use requirement cannot be met.

Therefore, the existing device for producing the five-cereal meal replacement powder cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

Disclosure of Invention

The invention aims to provide a five-cereal meal replacement powder production device, which solves the problems that the conventional stirring device needs to stir raw materials after filtering, needs to distribute filtering and stirring, has low processing efficiency, influences the use effect, needs to overhaul and replace the stirring structure after the stirring structure is integrally disassembled, is high in operation strength, consumes time and labor, needs to move down the filtering structure required by stirring, can clean filter residues on the upper surface of the filtering structure, and cannot meet the use requirement by arranging a stirring mechanism, a filtering mechanism and a discharging mechanism.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a five-cereal meal replacement powder production device which comprises a storage mechanism, a stirring mechanism, a filtering mechanism and a discharging mechanism, wherein the stirring mechanism extends through the middle part of the bottom of the storage mechanism, the output end of a stirring motor of the stirring mechanism is sleeved with a sleeve frame, the lower part of a guide frame sliding on the outer side of the sleeve frame is connected with stirring rods at equal intervals, and the stirring rods are movably connected through a hinge;

the upper part of the stirring mechanism is movably connected with a filtering mechanism through a discharging mechanism, and the stirring mechanism penetrates through the middle parts of the discharging mechanism and the filtering mechanism.

Further, the middle part is inlayed around the storage case that storage mechanism includes has the transparent window, and the bottom of the storage case middle part is the screw socket setting that runs through, and the middle part is the opening setting that runs through around the storage case.

Based on above-mentioned technical characteristic, look over in the storage case in real time by the transparent window, and then be used for accepting of stirring raw materials through the storage case, accept agitator motor by the screw mouth, accept the transparent window by the opening.

Further, the middle part is connected with sealing mechanism on the storage case, and sealing cover middle part that sealing mechanism includes runs through there is the axle bed, and the welding of sealing cover both sides middle part has the flange.

Based on above-mentioned technical characteristics, carry out the external seal protection by sealed lid to the storage case upper end, and accept output on the agitator motor through the axle bed to and accept elevating system through the flange, be used for the lift operation when its switch.

Furthermore, the upper end portion is connected with elevating system around the storage case, and the inboard screw thread of extension board that elevating system includes has the support, and the telescopic link upper end and the bottom end portion of flange of bottom are connected in the support.

Based on the technical characteristics, the telescopic rod is controlled by the outer control end, the force required by opening and closing is applied to the sealing cover through the telescopic rod, the support plate is used for connecting the support, and the telescopic rod is structurally connected and fixed through the support.

Further, the bottom edge of the storage box is connected with a supporting mechanism, the bottom end of a lower opening frame which the supporting mechanism comprises is connected with a supporting frame in a damping mode, and studs penetrate through the middle of the lower opening frame in the front-back direction at equal intervals.

Based on the technical characteristics, the support frame is subjected to primary connection of the structure by the lower opening frame, is subjected to secondary connection and fixation through the stud, and is subjected to supporting and positioning of the whole structure by the contact between the support frame and the ground.

Further, storage case both sides middle part is connected with feeding mechanism, and the slide rail middle part that feeding mechanism includes slides and have U type slider, the driving motor inner on U type slider both sides upper portion is connected with the feed tank, and the electric putter upper end and the U type slider bottom at middle part are connected at the bottom of the slide rail.

Based on above-mentioned technical characteristics, exert the power that goes up and down to U type slider by electronic push rod, by the slip of U type slider in the slide rail, reciprocate the feed tank to when the feed tank removes to the top, drive the feed tank by driving motor and rotate, in order to carry out the supply of raw materials in the storage case.

Further, the leading truck is connected with the puddler up end through week lower part equidistance welded coupling mechanism, and the connecting plate front end middle part that coupling mechanism includes runs through there is the spliced pole, spliced pole bottom screw thread in puddler up end, and the inner axostylus axostyle tip of puddler rotates in leading truck lower part equidistance welded U type frame inboard.

Based on above-mentioned technical characteristic, accept the spliced pole by the connecting plate to accept fixedly through the spliced pole to the puddler up end, and accept the axostylus axostyle through U type frame, carry out swing joint, easily accomodating of its structure between puddler and guide bracket through the axostylus axostyle.

Further, the mounting bracket that filtering mechanism includes cup joints in the shedding mechanism upper end, and the mounting bracket inboard is connected with multiple filter screen, and multiple filter screen is from top to bottom the aperture and is gradually degressive the setting.

Based on the technical characteristics, the raw materials to be filtered are carried by the multiple filter screens, and the multiple filter screens are gradually and progressively decreased in aperture from top to bottom so as to carry out multiple screening operation on the raw materials.

Furthermore, the front lower part and the rear lower part of a bearing frame of the unloading mechanism are connected with hydraulic cylinders, the upper output end of each hydraulic cylinder is in threaded connection with the front end and the rear end of the bottom of the mounting frame, and the middle parts of the outer sides of the front end and the rear end of the upper bearing frame are connected with the front upper part and the rear upper part of the mounting frame through screws.

Based on the technical characteristics, the hydraulic cylinder is controlled by the outer control end, the hydraulic cylinder applies upward force to the mounting frame to lift the multiple screens, and at the moment, the rotating force is applied to the multiple screens to enable the multiple screens to be in an inclined arrangement so as to discharge filter residues on the multiple screens.

The invention has the following beneficial effects:

1. according to the invention, through arranging the stirring mechanism and the filtering mechanism, raw materials are stirred and simultaneously subjected to pre-synchronous filtering treatment, the production time is reduced, the production efficiency is improved, specifically, the filtering mechanism is sleeved at the upper end of the stirring mechanism, the stirring motor is controlled through an external control end, when the stirring rod is driven by the stirring motor to rotate, the filtering mechanism simultaneously performs rotating operation, so that the raw materials are subjected to filtering treatment through the filtering mechanism, the filtered raw materials fall into the storage box, and meanwhile, the stirring mechanism is used for stirring treatment.

2. The stirring rods are movably connected through the hinges, so that the structure of the stirring rods is easy to disassemble, the occupied space during disassembly is reduced, and the stirring rods are easy to use.

3. The automatic unloading device comprises an unloading mechanism, a mounting frame connected with multiple filter screens is sleeved at the upper end of the unloading mechanism, the upper output end of a hydraulic cylinder of the unloading mechanism is connected with the bottom end face of the mounting frame, when the filter screens on the upper surfaces of the multiple filter screens are cleaned, an external control end controls the hydraulic cylinder, the hydraulic cylinder exerts upward moving force on the mounting frame, the multiple filter screens exert rotating force after moving upwards to a designated position, and meanwhile, the filter screens on the multiple filter screens which rotate to an inclined state are supported in an external material collecting structure mode behind a material storage box.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic bottom view of the present invention;

FIG. 3 is a schematic view of a feeding mechanism according to the present invention;

FIG. 4 is a schematic top view of the sealing mechanism and the lifting mechanism of the present invention;

FIG. 5 is a schematic bottom view of the sealing mechanism and the lifting mechanism of the present invention;

FIG. 6 is a schematic view of the connection between the stirring mechanism and the connecting mechanism according to the present invention;

FIG. 7 is a schematic view of the coupling mechanism of the present invention;

FIG. 8 is a schematic view of the connection of the guide frame, the discharging mechanism and the filtering mechanism of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a material storage mechanism; 110. a material storage box; 120. a transparent window; 200. a sealing mechanism; 210. a sealing cover; 220. a shaft seat; 230. a convex plate; 300. a lifting mechanism; 310. a support plate; 320. a support; 330. a telescopic rod; 400. a support mechanism; 410. a lower opening frame; 420. a support frame; 430. a stud; 500. a feeding mechanism; 510. a slide rail; 520. a U-shaped slider; 530. an electric push rod; 540. a drive motor; 550. a feeding tank; 600. a stirring mechanism; 610. a stirring motor; 620. sleeving a frame; 630. a guide frame; 640. a stirring rod; 650. a hinge; 700. a filtering mechanism; 710. a mounting frame; 720. multiple filter screens; 800. a discharge mechanism; 810. a receiving frame; 820. a hydraulic cylinder; 830. a screw; 900. a connecting mechanism; 910. a connecting plate; 920. connecting columns; 930. a U-shaped frame; 940. a shaft rod.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-8, the present invention relates to a device for producing five-cereal meal replacement powder, comprising a storage mechanism 100, a stirring mechanism 600, a filtering mechanism 700 and a discharging mechanism 800, wherein the stirring mechanism 600 extends through the middle of the bottom of the storage mechanism 100, the upper output end of a stirring motor 610 included in the stirring mechanism 600 is sleeved with a sleeve frame 620, the lower part of a guide frame 630 sliding outside the sleeve frame 620 is equidistantly connected with stirring rods 640, and the stirring rods 640 are movably connected with each other by hinges 650;

the upper part of the stirring mechanism 600 is movably connected with a filtering mechanism 700 through a discharging mechanism 800, the stirring mechanism 600 penetrates through the discharging mechanism 800 and the middle part of the filtering mechanism 700, an installation frame 710 included by the filtering mechanism 700 is sleeved at the upper end of the discharging mechanism 800, multiple filter screens 720 are connected to the inner side of the installation frame 710, the pore diameters of the multiple filter screens 720 are gradually and progressively decreased from top to bottom, hydraulic cylinders 820 are connected to the front lower part and the rear lower part of a bearing frame 810 included by the discharging mechanism 800, the upper output ends of the hydraulic cylinders 820 are in threaded connection with the front end and the rear end of the bottom of the installation frame 710, the middle parts of the outer sides of the front end and the rear end bulges on the bearing frame 810 are connected with the front upper part and the rear upper part of the installation frame 710 through screws 830, and the device is used specifically;

firstly, the external control end controls the telescopic rod 330, and at the moment, the telescopic rod 330 applies upward force to the sealing cover 210, so that the sealing cover 210 is lifted, and the upper end opening of the storage box 110 is exposed in an external environment;

then, the external control end controls the electric push rod 530, the electric push rod 530 applies downward moving force to the U-shaped slider 520 to lower the U-shaped slider 520 at a proper position, the material is put into the material supply tank 550 after the material supply tank 550 is lowered at a certain position, at this time, the electric push rod 530 applies the above-mentioned reverse step to move the material supply tank 550 upward, and after the material supply tank 550 is moved upward to a proper position, the control end controls the driving motor 540, and the driving motor 540 applies rotational force to the material supply tank 550 to move the material supply tank 550 at a gradual inclination angle, so that the material in the material supply tank 550 is conveyed into the material storage tank 110 and is received by the multiple filter screen 720;

then, the telescopic rod 330 applies the above reverse step, so that the telescopic rod 330 applies a downward moving force to the sealing cover 210 to perform a clamping connection on the sealing cover 210 at the upper end of the storage box 110 again;

secondly, the external control end controls the stirring motor 610, the stirring rod 640 is driven by the stirring motor 610 to rotate, the multiple filter screens 720 are connected with the stirring mechanism 600, the multiple filter screens 720 also rotate while the stirring rod 640 rotates, at this time, the multiple filter screens 720 perform filtering operation on raw materials, the filtered raw materials enter the lower part of the storage box 110, the rotating stirring rod 640 performs sufficient stirring operation on the raw materials, and after the raw materials are stirred, the stud 430 at the rear part of the storage box 110 is unscrewed to take the stirred raw materials;

finally, after the raw material is taken, the filter residue on the multiple filter screens 720 needs to be discharged, at this time, the external control end controls the hydraulic cylinder 820, the hydraulic cylinder applies upward force to the mounting frame 710, the multiple filter screens 720 are moved to the designated position, rotational force is applied to the multiple filter screens 720, meanwhile, the external aggregate structure is placed behind the storage box 110, so as to receive the filter residue on the multiple filter screens 720 which are rotated to the inclined state, at the same time, when the damaged stirring rod 640 needs to be overhauled or replaced in use, the hexagon socket head cap screw between the discharging mechanism 800 and the guide frame 630 is disassembled, at this time, the unscrewing force is applied to the connecting column 920, so that the connecting column is separated from the upper end of the stirring rod 640, under the action of gravity and the shaft rod 940, the original parallel arrangement of the stirring rod 640 is changed into the existing inclined downward arrangement, at this time, an upward force is applied to the guide frame 630, the shaft holder 220 is unscrewed, and the guide frame 630 moves upward in the guide groove around the sleeve frame 620 and moves outward through the through hole at the upper portion of the sealing cover 210.

As shown in fig. 1-5, a transparent window 120 is embedded in the front and rear middle parts of a storage box 110 included in the storage mechanism 100, the middle part of the bottom of the storage box 110 is provided with a through screw, and the front and rear middle parts of the storage box 110 are provided with through holes, specifically, when the storage mechanism 100 is used, the storage box 110 performs centralized storage operation on raw materials to be stirred, and in the process of stirring the raw materials by the stirring mechanism 600, the stirring state of the raw materials in the storage box 110 is checked in real time through the transparent window 120, and when the stirring motor 610 and the transparent window 120 are installed, the raw materials are structurally received through the screw and the through holes;

the middle part of the storage box 110 is connected with a sealing mechanism 200, the middle part of a sealing cover 210 of the sealing mechanism 200 penetrates through a shaft seat 220, and the middle parts of two sides of the sealing cover 210 are welded with convex plates 230, specifically, when the sealing mechanism 200 is used, a lifting force is applied to the sealing mechanism by a lifting mechanism 300 so as to open and close the sealing cover 210, the sealing mechanism is used for placing raw materials into the storage box 110 and carrying out upper sealing protection on the storage box 110, and meanwhile, when the stirring motor 610 is installed, the upper output end of the stirring motor 610 is supported by the shaft seat 220;

the front and rear upper ends of the storage box 110 are connected with a lifting mechanism 300, a support 320 is arranged on the inner side of a support plate 310 of the lifting mechanism 300 in a threaded manner, the upper end of a telescopic rod 330 at the inner bottom end of the support 320 is connected with the bottom end of a convex plate 230, specifically, when the lifting mechanism 300 is used, the support 320 connected with the telescopic rod 330 is in damping connection by the inner side of the support plate 310 and is secondarily connected and fixed through an external bolt, at the moment, the external control end controls the telescopic rod 330, and the telescopic rod 330 applies lifting force to the convex plate 230 so as to open and close the sealing cover 210;

the bottom edge of the storage box 110 is connected with a support mechanism 400, the bottom end of a lower opening frame 410 of the support mechanism 400 is connected with a support frame 420 in a damping mode, studs 430 penetrate through the front middle part and the rear middle part of the lower opening frame 410 at equal intervals, specifically, when the support mechanism 400 is used, the upper end of the support frame 420 is placed in the lower opening frame 410, upward force is applied, at the moment, the studs 430 are placed at the designated position on the lower opening frame 410, tightening force is applied, and meanwhile, the bottom end of the mounted support frame 420 is placed in contact with the ground;

the middle parts of both sides of the storage box 110 are connected with the feeding mechanism 500, and the middle part of the slide rail 510 included in the feeding mechanism 500 is provided with the U-shaped slider 520 in a sliding manner, the inner end of the driving motor 540 at the upper part of both sides of the U-shaped slider 520 is connected with the feeding box 550, and the upper end of the electric push rod 530 at the bottom middle part of the slide rail 510 is connected with the bottom end of the U-shaped slider 520, specifically, when the feeding mechanism 500 is used, the electric push rod 530 is controlled by the external control end, the electric push rod 530 applies downward moving force to the U-shaped slider 520, so that the U-shaped slider 520 performs descending processing at a proper position, after the feeding box 550 descends at a certain position, the raw material is placed in the feeding box 550, at this time, the electric push rod 530 applies the above-mentioned reverse step, so that the feeding box 550 performs upward moving operation, and after the feeding box 550 moves up to a proper position, the control end controls the driving motor 540, and the driving motor 540 applies rotational force to the feeding box 550, the supply tank 550 is moved at a gradually inclined angle so that the raw material in the supply tank 550 is transferred to the storage tank 110.

As shown in fig. 6, the guide frame 630 is connected to the upper end surface of the stirring rod 640 through the connecting mechanism 900 welded to the lower part of the circumferential side at equal intervals, and the connecting column 920 penetrates through the middle part of the front end of the connecting plate 910 included in the connecting mechanism 900, the bottom end of the connecting column 920 is threaded to the upper end surface of the stirring rod 640, and the end of the shaft lever 940 at the inner end of the stirring rod 640 rotates inside the U-shaped frame 930 welded to the lower part of the guide frame 630 at equal intervals.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.