阅读说明：本技术 一种易于肠胃吸收的低脂麦片巧克力制作方法 (Preparation method of low-fat oatmeal chocolate easy to absorb by intestines and stomach ) 是由 陈凉生 于 2020-11-30 设计创作，主要内容包括：本发明涉及麦片巧克力加工领域,尤其涉及一种易于肠胃吸收的低脂麦片巧克力制作方法,包括麦片原料倒入提升装置将其输入到搅拌装置内进行搅拌,搅拌过程中加入由可可液块、可可粉和植物油制成低脂巧克力液体,再加入淀粉、阿斯巴甜、安赛蜜和纯净水进行混合加热搅拌形成制作原料,第一输送装置将模具板输送到烘干装置对原料进行烘干,再通过进行筛分输送到自动包装机进行包装,其中通过将阿斯巴甜和安赛蜜在代替甘蔗、白砂糖和其它糖类,而安赛蜜不在人体内代谢,所含热量低,可降低人们食用燕麦巧克力时的热量,与微量阿斯巴甜可增添甜味口感,该燕麦巧克力含糖量低,长期食用健康,解决了普通麦片巧克力含糖量大,长期食用易诱发身体疾病的技术问题。(The invention relates to the field of oatmeal chocolate processing, in particular to a method for preparing low-fat oatmeal chocolate easy to absorb by intestines and stomach, which comprises the steps of pouring oatmeal raw materials into a lifting device, inputting the oatmeal raw materials into a stirring device for stirring, adding low-fat chocolate liquid prepared from cocoa liquid blocks, cocoa powder and vegetable oil in the stirring process, adding starch, aspartame, acesulfame and purified water for mixing, heating and stirring to form a preparation raw material, conveying a mould plate to a drying device by a first conveying device for drying the raw materials, screening and conveying the raw materials to an automatic packaging machine for packaging, wherein the aspartame and acesulfame are used for replacing sugarcane, white granulated sugar and other sugars, the acesulfame is not metabolized in a human body, the heat content is low, the heat content of people eating the oatmeal chocolate can be reduced, the sweet taste can be added with trace aspartame, and the sugar content of the oatmeal chocolate is low, the long-term eating is healthy, and the technical problems that the common oatmeal chocolate has large sugar content and is easy to induce body diseases after long-term eating are solved.)

1. A method for preparing low-fat oatmeal chocolate easy to absorb in intestines and stomach is characterized by comprising the following steps:

firstly, pouring the oatmeal raw material into a lifting device, inputting the oatmeal raw material into a stirring device (1) for stirring, adding cocoa liquor, cocoa powder and vegetable oil into the oatmeal raw material to prepare low-fat chocolate liquid, and adding starch, aspartame, acesulfame potassium and purified water into the oatmeal raw material for mixing, heating and stirring to form a preparation raw material;

secondly, the first conveying device (2) conveys the die plate (3) to the lower part of the stirring device (1), raw materials are input into the conveying device from the stirring device (1), and the conveying device inputs the raw materials onto the die plate (3);

thirdly, the first conveying device (2) conveys the mold plate (3) to the position below the drying device (4), the drying device (4) dries materials on the mold plate (3), the first conveying device (2) continues to convey the mold plate (3) to overturn downwards, the materials on the mold plate (3) face downwards, the materials on the mold plate (3) fall to the first conveying device (2) from the mold plate (3), the first conveying device (2) continues to convey the mold plate (3) to the position below the material ejecting device (5), the material ejecting device (5) touches the back of the mold plate (3) to enable partial residual materials in the mold plate (3) to be knocked and fall, and the knocked materials fall onto the second conveying device (6);

fourthly, the mould plate (3) passes through the lower parts of the cleaning part (8) and the air drying part (9) by the first conveying device (2), the mould plate (3) is cleaned and air dried by hot air, and then the inside of the conveying device of the mould plate (3) is circularly produced by the first conveying device (2);

and fifthly, conveying the raw materials on the second conveying device (6) to a screening device (7), screening the material fragments by the screening device (7), conveying the raw materials to a conveying belt through the screening device, conveying the raw materials to a sorting table by the conveying belt, and finally conveying the raw materials to an automatic packaging machine for packaging.

2. The method for making a low-fat oatmeal chocolate readily absorbed by the intestines and stomach of claim 1, wherein: the material ejecting device (5) comprises two first fixed frames (51) arranged in the first conveying device (2), a connecting block (52) which is arranged in the first fixed frames (51) and can move longitudinally, a second fixed frame (53) which is fixedly arranged on one side, close to the outside, of the connecting block (52), a mounting plate (54) fixedly arranged between the second fixed frames (53), a plurality of ejector rods (55) arranged on the mounting plate (54), a first sliding block (56) which is arranged in one of the second fixed frames (53) and can move transversely, a connecting rod (57) arranged on one side, far away from the first fixed frame (51), of the first sliding block (56), a hinged support (58) arranged on one side, far away from the first sliding block (56), of the connecting rod (57) and a motor (59) used for driving the connecting rod (57) to rotate, wherein a first sliding groove (511) connected with the connecting block (52) is longitudinally arranged on the first fixed frame (51, the second sliding groove (531) connected with the first sliding block (56) in the second fixing frame (53) in a sliding mode is transversely formed, and the width between the mounting plates (54) is smaller than that between the second fixing frames (53).

3. The method for making a low-fat oatmeal chocolate readily absorbed by the intestines and stomach of claim 2, wherein: ejector pin (55) bottom is rubber head, sucking disc or sucking disc device, be equipped with a plurality of cavities (3a) of placing the raw materials on mould board (3), cavity (3a) upwards has opening (31), cavity (3a) shape is equilateral trapezoid, cavity (3a) have two hypotenuses (32) and with base (33) of two hypotenuses (32) smooth transition, two hypotenuses (32) are for being crescent to the upper end by the lower extreme, cavity (3a) are located base (33) middle part 2 ~ 4mm sunken depressed part (34) that form, depressed part (34) middle part is flat face (35).

4. The method for making a low-fat oatmeal chocolate readily absorbed by the intestines and stomach of claim 2, wherein: the sucking disc device comprises a device body (55a), an air pipe (55b) detachably arranged on one side of the device body (55a), a sucking disc (55c) detachably arranged at the bottom end of the device body (55a) and a limiting sleeve (55d) arranged on the outer side of the sucking disc (55c), wherein an air cavity (55e) is arranged in the device body (55a), the air cavity (55e) in the device body (55a) is communicated with the air pipe (55b) and the sucking disc (55c), and the limiting sleeve (55d) is positioned on an inclined plane at the bottom of the sucking disc (55 c).

5. The method for making a low-fat oatmeal chocolate readily absorbed by the intestines and stomach of claim 1, wherein: drying device (4) include casing (41), locate casing (41) top end face intake pipe (42), locate a plurality of heating tubes (43) on casing (41) inboard top, locate drying fan (44) of one side in casing (41) and locate cooling fan (45) of casing (41) interior opposite side, drying fan (44) are located heating tube (43) below, drying device (4) are located first conveyor (2) top.

6. The method for making a low-fat oatmeal chocolate readily absorbed through the intestines and stomach according to claim 5, wherein: a cleaning component (8) and an air drying component (9) are sequentially arranged below the first conveying device (2), the cleaning component (8) comprises a water inlet pipe (81), a cleaning pipeline (82) communicated with the water inlet pipe (81), a water pump (83) arranged on the cleaning pipeline (82) and a nozzle (84) communicated with the bottom of the cleaning pipeline (82), the water inlet pipes (81) are distributed above the heating pipes (43) in an S shape, the water inlet pipes (81) are connected with the shell (41), the cleaning component (8) is located below the first conveying device (2), the air drying component (9) comprises an air drying pipeline (91) communicated with the shell (41), an air drying fan (92) arranged in the air drying pipeline (91) and an air guide cover (93) arranged at the bottom of the air drying pipeline (91), and the air guide cover (93) is located below the first conveying device (2).

7. The method for making a low-fat oatmeal chocolate readily absorbed by the intestines and stomach of claim 1, wherein: the screening device (7) comprises a base (701), sliding rails (702) arranged on two sides of the top end face of the base (701), a second sliding block (703) connected to the top end of the sliding rails (702) in a sliding manner, a screen plate (704) detachably arranged on the top end of the second sliding block (703), a connecting box (705) arranged in the base (701), a rotary disc (706) rotatably arranged in the connecting box (705), a rotating motor (707) used for driving the rotary disc (706) to rotate, a convex column (708) arranged on one side of the rotary disc (706) opposite to the rotating motor (707), a swing rod (709) rotatably arranged in the connecting box (705) and arranged above the rotary disc (706), a square hole (710) arranged on the swing rod (709) and matched with the convex column (708) in a sliding manner, a tooth part (711) arranged at the top end of the swing rod (709), and a rack (712) arranged on one side, close to the, the tooth part (711) is meshed with the rack (712), the sieve plate (704) is positioned below the second conveying device (6), the convex column (708) is arranged on the position deviating from the circle center on the rotary table (706), and the rack (712) is fixedly arranged on the bottom end face of the sieve plate (704).

8. The method of making a low-fat, readily gastrointestinal absorbed cereal chocolate according to claim 7 wherein: the sieve plate (704) comprises a plate body, peripheral edges (7a) arranged on the front side, the rear side and the transverse side of the top end face of the plate body, a plurality of straight notch openings (7b) arranged on the top end face of the plate body, and a plurality of circular sieve holes (7c) arranged on the top end face of the plate body and positioned on two sides of the straight notch openings (7b), wherein two vertical rows are formed in each straight notch opening (7b), and two vertical rows are inclined inwards from bottom to top.

Technical Field

The invention relates to the field of oatmeal chocolate processing, in particular to a method for preparing low-fat oatmeal chocolate easy to absorb by intestines and stomach.

Background

At present, common oat chocolate is attractive to purchasers due to the increase of sugar in oat chocolate production in order to improve mouthfeel, along with scientific and deep research in recent years, the discovery shows that excessive consumption of foods containing sugar can induce health hidden troubles, and long-term consumption of high-sugar foods can induce relevant diseases such as obesity, diabetes, hypertension, hyperlipidemia and the like, meanwhile, the excessive sugar can stimulate gastric acid secretion, people with stomach diseases and other related diseases do not buy the food, with the trend of the diseases towards aging, the sales of the high-sugar oatmeal chocolate is continuously reduced, modern people pay constant attention to health, high-sugar oat chocolate food is gradually cooled down by the market, and the traditional oat chocolate has some health problems, the defect causes that the traditional oat chocolate can not meet the edible requirements of consumers in the current food industry;

chinese patent application No.: CN201710666489.X, discloses marshmallow oatmeal chocolate and its preparation method, wherein the marshmallow oatmeal chocolate comprises 70% marshmallow, 15% oatmeal and 15% chocolate; the cotton candy comprises the following raw materials: glucose syrup, edible glucose powder, white granulated sugar, starch, sorbitol, gelatin, pectin, sodium caseinate, citric acid, sodium citrate, strawberry juice, edible essence and allure red; the chocolate comprises the following raw materials: white granulated sugar, cocoa butter substitutes, cocoa powder, maltodextrin, milk powder, phospholipid, edible essence and vanillin, although the problem of poor taste of the existing oatmeal chocolate is solved, the oatmeal chocolate has high sugar content along with the improvement of living standard of people, and body diseases are easily induced after long-term eating.

Disclosure of Invention

Therefore, aiming at the problems, the invention provides a method for preparing low-fat oatmeal chocolate easy to absorb by intestines and stomach, which solves the technical problems that the common oatmeal chocolate has high sugar content and is easy to induce body diseases after being eaten for a long time.

In order to achieve the purpose, the invention adopts the following technical scheme: a method for preparing low-fat oatmeal chocolate easy to absorb in intestines and stomach comprises the following steps:

firstly, pouring the oatmeal raw material into a lifting device, inputting the oatmeal raw material into a stirring device for stirring, adding cocoa liquid blocks, cocoa powder and vegetable oil into the stirring device to prepare low-fat chocolate liquid, and adding starch, aspartame, acesulfame potassium and purified water into the low-fat chocolate liquid for mixing, heating and stirring to form a preparation raw material;

secondly, the first conveying device conveys the die plate to the position below the stirring device, raw materials are input into the material conveying device from the stirring device, and the material conveying device inputs the raw materials onto the die plate;

thirdly, the first conveying device conveys the mold plate to the position below the drying device, the drying device dries the material on the mold plate, the first conveying device continues to convey the mold plate to overturn downwards, the material on the mold plate faces downwards, the material on the mold plate falls to the first conveying device from the mold plate, the first conveying device continues to convey the mold plate to the position below the material ejecting device, the material ejecting device touches the back of the mold plate to knock and drop part of the residual material in the mold plate, and the knocked material falls onto the second conveying device;

fourthly, the first conveying device enables the die plates to pass through the cleaning part and the lower part of the air drying part, the die plates are cleaned and dried by hot air, and then the first conveying device is used for circularly producing the interior of the die plate conveying device;

on the raw materials of fifth step, second conveyor carried sieve material device, sieve material device sieved the material piece, carried the conveyer belt through sieve material device with the raw materials simultaneously on, the conveyer belt carries the raw materials to sort the platform, carries automatic packaging machine at last and packs.

Further, the liftout device is including locating two first fixed frames in the first conveyor, but locate in the first fixed frame and longitudinal movement ground connecting block, fixed second fixed frame of locating the connecting block and being close to outside one side, set firmly the mounting panel between the fixed frame of second, locate a plurality of ejector pins on the mounting panel, but locate in one of them second fixed frame and lateral shifting's first slider, locate first slider and keep away from the connecting rod of first fixed frame one side, locate the hinge seat of first slider one side and be used for driving the rotatory motor of connecting rod, vertically be equipped with the first spout of being connected with the connecting block on the first fixed frame, transversely be equipped with the second spout with first slider sliding connection in the fixed frame of second, width between the mounting panel is less than the width between the fixed frame of second.

Further, the ejector pin bottom is rubber head, sucking disc or sucking disc device, be equipped with a plurality of cavitys of placing the raw materials on the mould board, the cavity upwards has the opening, the cavity shape is equilateral trapezoid, the cavity have two hypotenuses and with two hypotenuses smooth transition's base, two hypotenuses are by the lower extreme to the upper end crescent, the cavity is located the depressed part that 2 ~ 4mm of base middle part undercut formed, the depressed part middle part is straight face.

Further, the sucking disc device includes that device body, detachably locate the trachea of device body one side, locate detachably and locate the sucking disc of device body bottom and locate the stop collar in the sucking disc outside, this internal air cavity that has of device, this internal air cavity of device is linked together with trachea and sucking disc, the stop collar is located sucking disc bottom slope inclined plane.

Further, drying device includes the casing, locate the intake pipe of casing top face, locate a plurality of heating tubes on the inboard top of casing, locate the drying fan of one side in the casing and locate the cooling fan of casing opposite side, drying fan is located the heating tube below, drying device is located first conveyor top.

Furthermore, a cleaning component and an air drying component are sequentially arranged below the first conveying device, the cleaning component comprises a water inlet pipe, a cleaning pipeline communicated with the water inlet pipe, a water pump arranged on the cleaning pipeline and a nozzle communicated with the bottom of the cleaning pipeline, the water inlet pipe is distributed above each heating pipe in a shape, the water inlet pipe is connected with the shell, the cleaning component is arranged below the first conveying device, the air drying component comprises an air drying pipeline communicated with the shell, an air drying fan arranged in the air drying pipeline and an air guide cover arranged at the bottom of the air drying pipeline, and the air guide cover is arranged below the first conveying device.

Further, the sieve material device includes the base, locate the slide rail of base top terminal surface both sides, sliding connection is in the second slider on slide rail top, detachably locates the sieve on second slider top, locate the connecting box in the base, rotationally locate the carousel in the connecting box, be used for driving the rotatory rotating electrical machines of carousel, locate the projection of carousel relative rotation motor one side, rotationally locate the connecting box and locate the pendulum rod of carousel top, locate on the pendulum rod and with projection sliding fit's square hole, locate the tooth portion on pendulum rod top and locate the rack that sieve bottom face is close to pendulum rod one side, tooth portion and rack are to the meshing, the sieve is located second conveyor below, skew centre of a circle position on the carousel is located to the projection, the rack sets firmly in sieve bottom face.

Furthermore, the sieve plate comprises a plate body, peripheral edges arranged on the front side, the rear side and the transverse side of the top end face of the plate body, a plurality of straight notch openings arranged on the top end face of the plate body, and a plurality of circular sieve holes arranged on the top end face of the plate body and positioned on two sides of the straight notch openings, wherein two straight notch openings form two vertical rows, and two vertical rows are inclined inwards from bottom to top.

By adopting the technical scheme, the invention has the beneficial effects that:

according to the preparation method of the low-fat oatmeal chocolate easy to absorb by intestines and stomach, aspartame and acesulfame are used for replacing sugarcane, white granulated sugar and other sugars, acesulfame is not metabolized in a human body, the contained heat is low, the heat of people eating oat chocolate can be reduced, the oatmeal chocolate can be added with trace aspartame to have sweet taste, and the problem that the oatmeal chocolate with high sugar content is eaten for a long time and is easy to induce body diseases is avoided; the first conveying device conveys the materials to the drying device, the air drying component and the cleaning component, so that the energy consumption during production is saved, and the production and manufacturing cost is reduced.

Further, the setting of liftout device, wherein the motor drive connecting rod in the liftout device is rotatory, the connecting rod rotation drives first slider rotatory, reciprocating motion about the second spout that first slider will be located the fixed frame of second, drive the fixed frame reciprocating motion from top to bottom simultaneously, reciprocating motion from top to bottom in the first spout of the fixed frame one side of second in the first spout of the fixed frame, drive the fixed frame mounting panel up-and-down motion of second, the ejector pin on the mounting panel descends in-process and contacts with the mould board back or strikes the mould board back, make the raw materials whereabouts of cavity on the mould board, the raw materials takes off the material rate height from the mould board, this mode has avoided the shortcoming that the interior residual material of mould board is many, simultaneously, can solve partial incomplete material card and go into the mould board and do not take off, directly wash, lead to incomplete raw materials and do not in time retrieve and cause the waste.

Further, the setting of mould board, wherein first conveyer belt will carry mould board downwards, because the cavity is for by the lower extreme crescent to the upper end on the mould board, raw materials in the cavity is easy to follow the interior landing of cavity, and simultaneously, hypotenuse and base are smooth transition in the cavity, the difficult residue that remains of corner when cleaning the cavity, do benefit to the washing, the cavity base is undercut depressed part, the mould board is iron mould board or the soft plastic slab of food that has toughness, when receiving the ejector pin striking, preferably when iron mould board, can deform and produce slight sunken 1 ~ 2mm, make the internal raw materials whereabouts of cavity on the mould board, resume primitive state again under the toughness of iron, oatmeal chocolate and mould board separation rate are high, it is good to easily follow the mould inboard roll-off success rate.

Further, the setting of sucking disc device, when the horizontal size long term of the product of preparation, cavity is bulky on the mould board, and after the mould board that adopts plastics or the big material of deformation received liftout device roof pressure, the deformation is difficult to resume to partial soft cavity, and the sucking disc is pressed the in-process to the plastic mould board, and sucking disc deformation and stop collar bottom end face coincidence, stop collar bottom cavity carry out the roof pressure when the sucking disc continues to move down, prevent that the sucking disc from pressing down the cavity and leading to sucking disc fragile deformation.

Further, drying device's setting, the heating tube that is close to the casing left part generates heat the temperature and hangs down, in the use drying fan operation air is from the intake pipe suction casing, the air is heated the back through the heating tube, hot-air blows off from the casing below through drying fan, raw materials to mould inboard on the first conveyor dries, the cooling fan of rethread opposite side cools down the raw materials, first conveyor exports the mould board from the casing bottom after the completion, this drying device is good to the stoving and the cooling performance of raw materials.

Further, the cleaning component and the air drying component are arranged, the water inlet pipe is connected with an external water source pipeline, the external water source pipeline passes through the water inlet pipe, the water inlet pipe is close to the heating pipes and is distributed above each heating pipe in an S shape, the water inlet pipe close to the heating pipes is heated when the heating pipes generate heat, the temperature of water in the water inlet pipe rises, water of the water inlet pipe finally flows to the cleaning pipeline and is sprayed out from the nozzle through the pressurization of the water pump, the cavity on the mold plate conveyed by the first conveying device is cleaned and disinfected at high temperature, hot air in the shell is pumped out through the air drying fan by the air drying pipeline and is discharged through the air guide cover at the bottom end, the mold plate conveyed by the first conveying device is dried by hot air, bacteria breeding caused by residual water stains on the mold plate is avoided, the mold plate is cleaned and dried at high temperature through the cleaning component and the air drying pipeline, meanwhile, the problem that the defective rate of the produced product is high due to the fact that residual materials in the die plate are not timely cleaned is avoided, meanwhile, the water inlet pipe is heated through a heating pipe in the drying device, the air-drying component is extracted from the drying device in a hot air mode, energy consumption of a production line is reduced, and production cost is saved.

Furthermore, the material sieving device is arranged, wherein the sieve plate moves back and forth, because the rotating fulcrum of the swing rod is positioned above the rotary disc, when the top end of the convex column on the rotary disc is close to the rotating fulcrum of the swing rod to rotate, the swing rod can swing to one side quickly, when the convex column of the rotary disc rotates to the rotating fulcrum of the swing rod, the swing fulcrum of the swing rod is far away from the rotating fulcrum, the swinging speed is reduced, the sieve plate can move forward quickly to push the material on the sieve plate forward, when the swing rod swings back slowly, the material on the sieve plate is driven to push back a part of distance, but the distance for pushing the material forward is smaller than the distance for moving backward, the material is separated from the sieve plate slowly, meanwhile, when the material moves forward in a reciprocating manner, the material is in contact with a straight notch and a round sieve hole on the sieve plate, the material slag on the second conveying device is filtered, and meanwhile, a part of the material fragments or broken materials can be, the straight notch and the circular sieve holes are used for roughly filtering broken blocks and broken raw materials, the sieve plate is good in raw material broken slag filtering performance, the situation that the broken slag materials on the surface are too many or parts of the broken and damaged finished products are directly packaged is avoided, and the product percent of pass is low.

Further, the setting of sieve is more abundant to the raw materials contact of process, and is better to the disintegrating slag on raw materials surface or the disintegrating slag filterability that second conveyor transported to.

Drawings

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

FIG. 2 is a schematic structural diagram of the ejector and the mold plate in a front view in use;

FIG. 3 is a partial structure diagram of the ejection device of the present invention;

FIG. 4 is a schematic view of a partial structure of the die plate of the present invention;

FIG. 5 is a schematic top view of a portion of the mold plate of the present invention;

FIG. 6 is a schematic front view of a partial cross-sectional structure of the suction cup device of the present invention;

FIG. 7 is a schematic view of a portion of the suction cup assembly of the present invention;

FIG. 8 is a schematic top view of a partial structure of the water inlet pipe and the heat generating pipe in use;

FIG. 9 is a schematic view of the screening device of the present invention;

FIG. 10 is a schematic top view of the screening device of the present invention;

FIG. 11 is a schematic cross-sectional view of the A-A structure of FIG. 10 according to the present invention;

FIG. 12 is a schematic sectional view of the die plate and the resilient mechanism of the present invention in a use state.

Detailed Description

The invention will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1 to 12, the present embodiment provides a method for preparing low-fat oatmeal chocolate easy for gastrointestinal absorption, comprising the following steps:

firstly, pouring the oatmeal raw material into a lifting device, inputting the oatmeal raw material into a stirring device 1, stirring, adding cocoa liquor, cocoa powder and vegetable oil to prepare low-fat chocolate liquor in the stirring process, and adding starch, aspartame, acesulfame potassium and purified water to mix, heat and stir to form a preparation raw material;

secondly, the first conveying device 2 conveys the die plate 3 to the lower part of the stirring device 1, raw materials are input into the material conveying device from the stirring device 1, and the material conveying device inputs the raw materials onto the die plate 3;

thirdly, the first conveying device 2 conveys the mold plate 3 to the position below a drying device 44, the drying device 4 dries the material on the mold plate 3, the first conveying device 2 continues to convey the mold plate 3 to overturn downwards, the material on the mold plate 3 faces downwards, the material on the mold plate 3 falls from the mold plate 3 to the first conveying device 2, the first conveying device 2 continues to convey the mold plate 3 to the position below a material ejecting device 5, the material ejecting device 5 touches the back of the mold plate 3 to enable part of the residual material in the mold plate 3 to be knocked and fall, and the knocked material falls onto a second conveying device 6;

fourthly, the first conveying device 2 enables the mould plates 3 to pass through the positions below the cleaning part 8 and the air drying part 9, the mould plates 3 are cleaned and dried by hot air, and then the first conveying device 2 is used for circularly producing the interior of the mould plate 3 conveying device;

on sieve material device 7 was carried to raw materials fifth step, on the second conveyor 6, sieve material device 7 sieved the material piece, carried the conveyer belt through sieve material device with the raw materials simultaneously on, the conveyer belt carries the raw materials to sort the platform, carries automatic packaging machine at last and packs.

As shown in fig. 1 to 3, the material ejecting device 5 includes two first fixed frames 51 disposed in the first conveying device 2, a connecting block 52 disposed in the first fixed frame 51 and capable of moving longitudinally, a second fixed frame 53 fixedly disposed on one side of the connecting block 52 close to the outside, a mounting plate 54 fixedly disposed between the second fixed frames 53, a plurality of ejector rods 55 disposed on the mounting plate 54, a first slide block 56 disposed in one of the second fixed frames 53 and capable of moving laterally, a connecting rod 57 disposed on one side of the first slide block 56 away from the first fixed frame 51, a hinge base 58 disposed on one side of the connecting rod 57 away from the first slide block 56, and a motor 59 for driving the connecting rod 57 to rotate, the first fixing frame 51 is longitudinally provided with a first sliding groove 511 connected with the connecting block 52, a second sliding groove 531 connected with the first sliding block 56 in a sliding manner is transversely arranged in the second fixed frame 53, and the width between the mounting plates 54 is smaller than that between the second fixed frames 53.

Firstly, a motor 59 in the material ejecting device 5 drives a connecting rod 57 to rotate, the connecting rod 57 rotates to drive a first sliding block 56 to rotate, the first sliding block 56 reciprocates a second sliding groove 531 in a second fixed frame 53 left and right, and drives the second fixed frame 53 to reciprocate up and down at the same time, the first sliding block 56 on one side of the second fixed frame 53 reciprocates up and down in a first sliding groove 511 in the first fixed frame 51 to drive a mounting plate 54 in the second fixed frame 53 to move up and down, a push rod 55 on the mounting plate 54 contacts with the back of a mold plate 3 or knocks the back of the mold plate 3 in the descending process, so that the raw material in a cavity 3a on the mold plate 3 falls, the stripping rate of the raw material from the mold plate is high, the defect of more residual materials in the mold plate is avoided, meanwhile, the problem that partial residual materials are clamped into the mold plate and are not stripped and are directly cleaned, the residual raw materials are not recovered in time and, or directly reloaded by the conveyor without cleaning, resulting in an increased production reject rate for a batch.

Ejector pin 55 bottom is rubber head, sucking disc or sucking disc device, can also replace for the material of other equal functions, as shown in fig. 2, fig. 4 and fig. 5, be equipped with a plurality of cavities 3a of placing the raw materials on the mould board 3, cavity 3a upwards has opening 31, cavity 3a shape is equilateral trapezoid, cavity 3a have two hypotenuses 32 and with two hypotenuses 32 smooth transition's base 33, two hypotenuses 32 are for being crescent to the upper end by the lower extreme, cavity 3a is located base 33 middle part department 2 ~ 4mm of undercut formation's depressed part 34, depressed part 34 middle part is flat plane 35, and mould board 3 inner wall is smooth surface.

As shown in fig. 12, a cavity 3a in the mold plate 3 may be provided with a rebounding mechanism for pushing out the oatmeal, the rebounding mechanism includes a push plate 31a disposed inside the cavity 3a, a limit plate 31b fixedly disposed on one side of the push plate opposite to the opening, a guide post 31c fixedly disposed on one side of the push plate opposite to the opening, a limit spring 31e disposed on the top of the guide post, a guide plate 31f slidably disposed on the top of the guide post 31c, and a nut 31d threadedly disposed on the top of the guide post, wherein the thickness of the middle portion of the guide plate is greater than the thicknesses of both sides, the outer side of the push plate is attached to the inside of the cavity 3a, and a teflon coating is sprayed on the surface of one end face of the push plate opposite to the opening; the number of the guide columns is at least two, the two guide columns are connected with the top end of the cavity 3a in a sliding mode, and the two guide columns are more stable when moving in the cavity; the limiting spring is positioned between the guide plate and the cavity 3 a;

in the use process, the ejector rod 55 on the mounting plate 54 is pressed against the guide plate at the back of the die plate 3 in the descending process to move downwards, the guide plate is detachably connected with the guide post through the nut, the guide plate drives the guide post to move downwards through the nut, the guide post drives the push plate at the bottom end to move downwards in the cavity in the downward movement process, the wheat flakes in the push plate move downwards to push out the cavity on the surface of the wheat flakes, the wheat flakes are separated from the cavity, after the ejector rod is pressed downwards, the guide post moves upwards under the pressure of the limiting spring to reset under the action of the limiting spring, the limiting plate at the back of the push plate is attached to the top end inside the cavity, the push plate is moved to the original position, the dropping rate of the wheat flakes in the cavity is higher through the rebound mechanism, and the problem that the common wheat flakes are not easy.

The mold plate 3 is conveyed downwards through the first conveying belt, because the cavity 3a on the mold plate 3 is gradually enlarged from the lower end to the upper end, the raw material in the cavity 3a is easy to slide from the cavity 3a, meanwhile, the bevel edge 32 and the bottom edge 33 in the cavity 3a are in smooth transition, residues are not easy to remain when the cavity 3a is cleaned, the cleaning is facilitated, the bottom edge 33 of the cavity 3a is a concave part 34 which is concave downwards, the mold plate 3 is an iron mold plate 3 or a soft plastic plate with toughness, when being impacted by the ejector rod 55 and being the iron mold plate 3, the mold plate can deform to slightly concave 1-2 mm, so that the raw material in the cavity 3a on the mold plate 3 falls, the original state is continuously recovered under the toughness of iron, when being the soft plastic plate, the mold plate deforms and concaves downwards, the bottom end of the ejector rod 55 is a sucker head, and the shape of the cavity 3a on the mold plate 3 is recovered in the upward lifting process, when first conveyor 2 continues to transport mould board 3 to the feeding device below, feeding device extrudees mould board 3 and fills, makes cavity 3a resume initial shape on mould board 3, has avoided the material in mould board 3 to have some to remain, leads to the waste of raw materials, and oatmeal chocolate is high with the mould board separation rate, and it is good to easily follow the slip yield in the mould board, makes the oatmeal chocolate yield of this mould board production high.

As shown in fig. 6 and 7, the suction cup device includes a device body 55a, an air tube 55b detachably disposed on one side of the device body 55a, a suction cup 55c detachably disposed at a bottom end of the device body 55a, and a position-limiting sleeve 55d disposed outside the suction cup 55c, wherein an air cavity 55e is disposed in the device body 55a, the air cavity 55e in the device body 55a is communicated with the air tube 55b and the suction cup 55c, and the position-limiting sleeve 55d is disposed on an inclined surface at a bottom of the suction cup 55 c.

When the transverse size of the manufactured product is long, the cavity 3a on the die plate 3 is large in size, after the die plate 3 made of plastics or large-deformation materials is jacked by the jacking device 5, part of the soft cavity 3a is difficult to restore deformation, the device body 55a on the sucker device is communicated with the air pipe 55b, the air cavity 55e in the device body 55a is exhausted through the air pipe 55b in the using process, the sucker 55c at the bottom in the downward moving process of the device body 55a is sucked with the bottom edge 33 of the cavity 3a on the die plate 3, the device body 55a pulls the upper bottom edge 33 of the cavity 3a to restore the original shape through the upward movement of the mounting plate 54, the air pipe 55b is deflated through an external air passage system, the sucker 55c at the bottom of the device body 55a is separated from the cavity 3a on the die plate 3, the section of one side of the limiting sleeve 55d outside the sucker 55c is L-shaped, because the bottom end of the limiting sleeve 55, in the process that the sucker 55c presses the plastic die plate 3, the sucker 55c deforms to coincide with the bottom end face of the limiting sleeve 55d, and the cavity 3a at the bottom of the limiting sleeve 55d is jacked when the sucker 55c continues to move downwards, so that the sucker 55c is prevented from being easily damaged and deformed when the sucker 55c presses the cavity 3 a.

As shown in fig. 2 and 8, the drying device 4 includes a casing 41, an air inlet pipe 42 disposed on a top end surface of the casing 41, a plurality of heating pipes 43 disposed on a top end of an inner side of the casing 41, a drying blower 44 disposed on one side of the casing 41, and a cooling blower 45 disposed on another side of the casing 41, where the drying blower 44 is located below the heating pipes 43, the drying device 4 is located above the first conveying device 2, and the cooling blower 45 includes fans 4a located on two sides of the inner side and an air conditioner 4b located on a top end of the fans on two sides, the air conditioner feeds cold air into the casing 41, and the fans inside the casing 41 blow the cold air downward to cool the raw material.

Heating pipe 43 that is close to casing 41 left part generates heat the temperature and hangs down, drying fan 44 operation air inhales casing 41 from intake pipe 42 in the use, the air is heated the back through heating pipe 43, hot-air blows off from casing 41 below through drying fan 44, dry the raw materials in the mould board 3 on first conveyor 2, the cooling fan 45 of rethread opposite side cools down the raw materials, first conveyor 2 exports mould board 3 from casing 41 bottom after the completion, this drying device is to the stoving and the cooling performance of raw materials good.

As shown in fig. 2, a cleaning component 8 and an air drying component 9 are sequentially arranged below the first conveying device 2, the cleaning component 8 includes a water inlet pipe 81, a cleaning pipeline 82 communicated with the water inlet pipe 81, a water pump 83 arranged on the cleaning pipeline 82, and a nozzle 84 communicated with the bottom of the cleaning pipeline 82, the water inlet pipe 81 is distributed above each heating pipe 43 in an S-shape, the water inlet pipe 81 is connected with the casing 41, and the cleaning component 8 is located below the first conveying device 2.

The water inlet pipe 81 is connected with an external water source pipeline, the external water source pipeline passes through the water inlet pipe 81, the water inlet pipe 81 close to the heating pipes 43 is distributed above each heating pipe 43 in an S shape, the water inlet pipe 81 close to the heating pipes 43 is heated when the heating pipes 43 generate heat, the temperature of water in the water inlet pipe 81 rises, the water in the water inlet pipe 81 finally flows to the cleaning pipeline 82 and is pressurized by the water pump 83 to be sprayed out from the nozzle 84, and the cavity 3a on the mold plate 3 conveyed by the first conveying device 2 is cleaned and disinfected at;

the air drying component 9 comprises an air drying pipeline 91 communicated with the shell 41, an air drying fan 92 arranged in the air drying pipeline 91 and an air guide cover 93 arranged at the bottom of the air drying pipeline 91, and the air guide cover 93 is positioned below the first conveying device 2; the whole operation scheme of the conveying device is that the conveying device conveys a mold plate to the lower side of the drying device, the drying device dries materials on the mold plate, the conveying device conveys the mold plate on the materials to the end point from one end point to the other end point, the opening direction of the mold plate is downward along with the downward rotation of the conveying device, the materials on the mold plate are downward, the materials on the mold plate drop from the mold plate, the conveying device continuously operates to convey the mold plate to a cleaning part for cleaning, the conveying device continuously operates to convey the mold plate to the air drying device, the mold plate is air-dried, the conveying device conveys the mold plate on the materials to the end point from one end point to the other end point, the mold plate on the materials is upwards rotated to the bottom end of the stirring device, and the reciprocating motion is continuously carried out.

Air-dry pipeline 91 and take the inside hot-blast fan 92 of casing 41 out through air-drying, and discharge through the wind scooper 93 of bottom, carry out hot-blast air-drying to the mould board 3 of first conveyor 2 transport, it leads to breeding the bacterium to avoid remaining water stain on the mould board 3, wash and air-dry 3 high temperature of mould board through cleaning part 8 and air-dry pipeline 91, can carry out the washing repeatedly to recycling mould board 3, make the product of processing safer and more sanitary, the product defective rate high defective rate that residual material did not in time wash and lead to producing in having avoided mould board 3 simultaneously, this inlet tube is generated heat through the heating tube in the drying device simultaneously, air-dry the hot-blast extraction of part follow drying device, reduce the energy consumption of production line, practice thrift manufacturing cost.

As shown in fig. 9, 10 and 11, the material sieving device 7 includes a base 701, sliding rails 702 disposed on two sides of a top end surface of the base 701, a second sliding block 703 slidably connected to top ends of the sliding rails 702, a sieve plate 704 detachably disposed on top ends of the second sliding block 703, a connection box 705 disposed in the base 701, a rotary table 706 rotatably disposed in the connection box 705, a rotary motor 707 for driving the rotary table 706 to rotate, a convex column 708 disposed on a side of the rotary table 706 opposite to the rotary motor 707, a swing rod 709 rotatably disposed in the connection box 705 and disposed above the rotary table 706, a square hole 710 disposed on the swing rod 709 and slidably engaged with the convex column 708, a tooth portion 711 disposed on a top end of the swing rod 709, and a rack 712 disposed on a bottom end surface of the sieve plate 704 near the swing rod 709, the sieve plate 704 is disposed below the second conveying device 6, the convex column 708 is disposed on the rotary table 706 and deviates from a circle center, the rack 712 is fixedly arranged on the bottom end face of the screen plate 704, and the screen plate 704 is used for collecting the raw materials conveyed by the second conveying device 6.

Wherein the rotating motor 707 drives the rotating disc 706 to rotate, the rotating disc 706 rotates to drive the swing rod 709 to swing back and forth, the tooth 711 at the top end of the swing rod 709 drives the rack 712 to move back and forth, the screen plate 704 is driven by the rack 712 to move back and forth, because the rotating fulcrum of the swing rod 709 is positioned above the rotating disc 706, when the top end of the convex column 708 on the rotating disc 706 rotates near the rotating fulcrum of the swing rod 709, the swing rod 709 can swing to one side rapidly, and when the convex column 708 on the rotating disc 706 rotates to the rotating fulcrum of the swing rod 709, the swing fulcrum of the swing rod 709 is far away from the rotating fulcrum, the swing speed is reduced, the screen plate 704 can advance rapidly and forward, the material on the screen plate 704 is pushed forward, when the swing rod 709 swings back slowly, the material on the screen plate 704 is driven to push back a part of the distance, but the distance for pushing the material forward is less than the, with straight notch 7b and the contact of circular sieve hole 7c on the sieve 704, raw materials disintegrating slag on the second conveyor 6 filters, simultaneously, will partly raw materials disintegrating slag or will split raw materials promptly can separate at the reciprocating motion in-process, straight notch 7b and circular sieve hole 7c will carry out coarse filtration to disintegrating slag and cracked raw materials, this sieve 704 is good to raw materials disintegrating slag filterability, avoid that the surface disintegrating slag material is many or the part is about to directly pack the damaged finished product of fracture, lead to the product percent of pass low.

The sieve plate 704 comprises a plate body, peripheral edges 7a arranged on the front side, the rear side and the transverse side of the top end face of the plate body, a plurality of straight notch openings 7b arranged on the top end face of the plate body, and a plurality of circular sieve holes 7c arranged on the top end face of the plate body and positioned on two sides of the straight notch openings 7b, wherein each straight notch opening 7b forms two vertical rows, two vertical rows are inclined from bottom to top, two circular sieve holes 7c form a plurality of vertical rows, the number of the circular sieve holes 7c on one side of the top end face of the plate body is larger than that of the circular sieve holes 7c on the other side, a waste collecting barrel or a crushed material recycling conveyer belt can be arranged below the sieve plate in the straight notch openings and the circular sieve holes, part of crushed materials can be collected and recycled, the passed raw materials are contacted more sufficiently, and the crushed materials on the surface of the raw materials or the crushed materials conveyed by the second conveyer device 6 have better filtera.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., 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 invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.