CN116215927A

CN116215927A - Burdock processing is with ration equipment for packing

Info

Publication number: CN116215927A
Application number: CN202211732879.XA
Authority: CN
Inventors: 陈志军; 陈敏
Original assignee: Jiangsu Shengze Agricultural Development Co ltd
Current assignee: Jiangsu Shengze Agricultural Development Co ltd
Priority date: 2022-12-30
Filing date: 2022-12-30
Publication date: 2023-06-06
Anticipated expiration: 2042-12-30
Also published as: CN116215927B

Abstract

The invention discloses quantitative packaging equipment for burdock processing, which comprises a machine shell, wherein a rectangular cavity is arranged at the upper part of the machine shell, a blanking assembly is arranged at the lower part of the rectangular cavity, a material storage barrel assembly is arranged at the top of the machine shell, a material guide pipe assembly is arranged at the lower part of the material storage barrel assembly, a micro discharging mechanism is arranged at the inner side of the rectangular cavity of the machine shell, the material storage barrel assembly is communicated with the micro discharging mechanism and the blanking assembly through the material guide pipe assembly, a weighing assembly is arranged at the lower part of the machine shell, which is close to the blanking assembly, a stop assembly is arranged between the material guide pipe assembly and the blanking assembly and used for controlling burdock slices to enter the blanking assembly through the material guide pipe assembly, and a control cabinet is arranged at one side of the machine shell. The invention can reserve, avoid excessive filling, supplement the missing burdock slice quantity through the micro discharging mechanism, and separate the broken powder in the materials by matching with the blower fan, thereby improving the product quality.

Description

Burdock processing is with ration equipment for packing

Technical Field

The invention relates to the technical field of packaging equipment, in particular to quantitative packaging equipment for burdock processing.

Background

Burdock, also known as: aversion to excess and great force. Belongs to the order of platycodon, the biennial herbaceous plant of the asteraceae, the basal leaves are wide and oval, the length is up to 30 cm, the width is up to 21 cm, most or a few of head inflorescences are in the form of a umbrella inflorescence or a conical umbrella inflorescence, the thin fruits are long and oval or the inclined long and oval are flattened at two sides, the fruits (burdock) and roots of the burdock are used as medicines in the treatment of light brown, and the burdock is commonly used for treating wind-heat type common cold, cough, sore throat, sore and furuncle toxic swelling, tinea pedis, eczema and the like.

The burdock processing in-process is comparatively common with its root section, need fry system or processing such as stoving to the product after the section is accomplished, finally need pack, need carry out the ration in the packaging process, however because the size of section is different, current quantitative packaging machine can not fine control ration volume, blocks up easily, perhaps excessive easily, so present provides a burdock processing with quantitative packaging equipment.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides quantitative packaging equipment for burdock processing.

The invention provides burdock processing quantitative packaging equipment, which comprises a machine shell, wherein a rectangular cavity is arranged at the upper part of the machine shell, a blanking component is arranged at the lower part of the rectangular cavity, a material storage barrel component is arranged at the top of the machine shell, a material guide pipe component is arranged at the lower part of the material storage barrel component, a micro discharging mechanism is arranged at the inner side of the rectangular cavity of the machine shell, the material storage barrel component is communicated with the micro discharging mechanism and the blanking component through the material guide pipe component, a weighing component is arranged at the lower part of the machine shell close to the blanking component, a stop component is arranged between the material guide pipe component and the blanking component and used for controlling burdock slices to enter the blanking component through the material guide pipe component, a control cabinet is arranged at one side of the machine shell and electrically connected with the stop component and the weighing component, the micro discharging mechanism comprises a transparent cover and an outer barrel which are obliquely arranged, one end of the transparent cover penetrates out from one side of the machine shell, the other side of the transparent cover is penetrated out from the other side of the machine shell, the outer barrel is communicated with the material guide pipe component, the inner wall of the outer barrel is rotationally provided with a rotary drum, the outer barrel is arranged on the outer barrel and is provided with a rotary blade, the rotary drum is coaxially arranged at one side of the transparent cover, the rotary drum is provided with a rotary drum and the transparent cover, and the transparent drum is provided with a transparent drum.

According to the burdock quantitative packaging equipment for processing, the blanking assembly comprises the blanking hopper fixed on the shell, the rectangular opening is formed in the top of the blanking hopper, the vertical pipe portion is arranged at the lower end of the blanking hopper, the movable frame plate is arranged on one side, far away from the material guiding pipe assembly, of the vertical pipe portion in a sliding mode, the inclined surface structure is arranged on the lower portion, far away from the material guiding pipe assembly, of the vertical pipe portion, the tension spring is fixed to the top of the movable frame plate, the upper portion of the tension spring is fixedly connected with the side wall of the blanking hopper, the arc face is arranged on one side, far away from the inclined surface, of the lower portion of the vertical pipe portion, the blanking hole communicated with the inside of the vertical pipe portion is formed in the arc face, the arc baffle assembly is rotatably arranged on the lower portion of the side wall of the vertical pipe portion, the arc baffle assembly comprises arc plates attached to the arc face portions, side plates are arranged at two ends of the arc plates, the side plates are in a fan-shaped structure, the two side plates are rotatably connected with two sides of the two side plates respectively, triangular protrusions are arranged on one side, close to the movable frame plate, the lower portion of the movable frame is fixedly connected with the inclined surface of the upper portion, the inclined surface of the vertical pipe portion is hinged to the upper portion, and the arc baffle is hinged to the lower side of the vertical pipe.

In the preferred scheme, the overflow-preventing baffle is in a vertical state under the action of gravity, so that the purpose of preventing materials from overflowing is achieved.

As further optimization of the technical scheme, the burdock quantitative packaging equipment for processing is characterized in that guide holes are formed in two sides of the movable frame plate, guide pins are inserted into the two guide holes, and the two guide pins are fixedly connected with two sides of the vertical pipe respectively.

In the preferred embodiment, the movable frame plate can slide up and down along the outer wall of the vertical pipe part, and the guide hole and the guide pin play a guiding role.

As a further optimization of the technical scheme, the burdock quantitative packaging equipment for processing comprises a barrel, wherein the barrel is fixed at the top of a machine shell, a bevel part is arranged at the lower part of the barrel, the lower end of the barrel is communicated with the top of a material guiding pipe assembly, and a top cover is fixed at the top of the barrel.

As a further optimization of the technical scheme, the burdock quantitative packaging equipment for processing comprises the weighing assembly, wherein the weighing assembly comprises the supporting plate fixed on the shell, a plurality of weighing sensors distributed in a matrix are arranged on the upper part of the supporting plate, and the loading plate is fixed on the upper part of each weighing sensor.

In the preferred scheme, the weighing sensors are electrically connected with a control cabinet, a processor is arranged in the control cabinet, and the processor processes data fed back by the weighing sensors and takes the average value as the displayed weight.

As a further optimization of the technical scheme, the burdock quantitative packaging equipment for processing comprises a material guide pipe, wherein the lower part of the material guide pipe is provided with a first blanking port connected with one side of a blanking hopper, the first blanking port is communicated with the inside of the blanking hopper, the side wall of the material guide pipe is provided with a second blanking port connected with the top of the side wall of the outer cylinder, the second blanking port is communicated with the inside of the outer cylinder, an air suction cylinder communicated with the inside of the material guide pipe is arranged at the position, close to the second blanking port, of the outer wall of one side of the material guide pipe far from the outer cylinder, a fan is fixed in the air suction cylinder, and a filter screen plate is arranged at the position, close to the air suction cylinder, of the inner wall of the material guide pipe.

In the preferred scheme, the burdock slices passing through the material guide pipe can separate out the fragments under the action of air flow generated by the fan so as to improve the product quality.

As a further optimization of the technical scheme, the stop assembly comprises a hinge seat fixed on the side wall of the material guide pipe, an air cylinder is hinged on the hinge seat, a through hole penetrating through the outer walls of the two sides of the material guide pipe is formed in one end, close to the first discharging opening, of the material guide pipe, a linkage bent rod is arranged in the through hole in a rotating mode, the linkage bent rod is of a rectangular frame structure, a valve plate is fixed on the position, close to the inner side of the material guide pipe, of the linkage bent rod, and the telescopic end of the air cylinder is hinged with the linkage bent rod.

In this preferred scheme, here drives the linkage bent lever through control cylinder and rotates to drive the valve plate and rotate in the passage, revolve on the valve plate, block burdock section whereabouts to unloading subassembly, realize stopping the purpose.

As further optimization of the technical scheme, the burdock quantitative packaging equipment for processing is characterized in that a transverse plate is fixed on the outer wall of one side, far away from the vertical pipe, of the movable frame plate, and finger holes are formed in the transverse plate.

As further optimization of the technical scheme, the burdock quantitative packaging equipment for processing is characterized in that a bracket for supporting is arranged at the bottom of the machine shell, the blanking assembly comprises a U-shaped frame, two stand columns are arranged on the upper portion of the U-shaped frame, and the two stand columns are fixedly connected with the lower portion of the machine shell.

As a further optimization of the technical scheme, the burdock quantitative packaging equipment for processing comprises a motor support fixed on the upper portion of an outer barrel, a motor is fixed on the motor support, an output shaft of the motor penetrates through the motor support to be fixed with a belt pulley, a strip-shaped opening is formed in the outer peripheral surface of the outer barrel, synchronous tooth grooves which are distributed in an annular mode at equal distances are formed in the position, close to the strip-shaped opening, of the outer peripheral surface of the rotary barrel, a synchronous belt is sleeved in the strip-shaped opening, the upper portion of the synchronous belt is sleeved on the belt pulley, and the belt pulley is meshed with the synchronous tooth grooves.

In this preferred scheme, here through control motor work, can drive the belt pulley rotation, the hold-in range of cooperation setting can drive the rotatory spiral blade that sets up of rotary drum rotation thereby, pushes away the burdock section into the translucent cover, and during the unloading subassembly was slipped again, realized supplying with burdock section of a small amount of accuracy.

In summary, the beneficial effects of the invention are as follows:

1. the invention provides quantitative packaging equipment for burdock processing, which can be used for carrying out small and accurate supply through the arranged micro-discharge mechanism, is convenient for finely adjusting the packaging weight, is favorable for improving the consistency of the weight of packaging products, is matched with the arranged rotary drum and spiral blades, pushes burdock slices to move through the rotation of the rotary drum, is not easy to clamp materials, has better stability, is matched with the arranged transparent cover, and is convenient for observing the supply condition of the burdock slices in the micro-discharge mechanism.

2. The invention provides quantitative packaging equipment for burdock processing, which is more suitable for cutting off sliced burdock by combining a set stop assembly with a set valve plate, and simultaneously can be reserved by matching with a set micro discharge mechanism, so that excessive filling is avoided, the missing burdock slice quantity is supplemented by the micro discharge mechanism, and the crushed powder in materials can be separated by matching with a set fan, so that the product quality is improved.

Drawings

Fig. 1 is a schematic structural diagram of a burdock processing quantitative packaging device;

fig. 2 is a schematic structural diagram of a control cabinet for dismantling a burdock processing quantitative packaging device;

fig. 3 is a schematic structural view of a blanking component, a micro-discharging mechanism, a material guiding pipe component and a material storage barrel component of the burdock processing quantitative packaging equipment;

fig. 4 is a schematic structural view of a material guiding pipe assembly of a burdock processing quantitative packaging device;

fig. 5 is a schematic cross-sectional structure diagram of a feeding tube assembly of a burdock processing quantitative packaging device;

fig. 6 is a schematic structural diagram of a weighing assembly of a burdock processing quantitative packaging device;

fig. 7 is a schematic structural diagram of a blanking component of a burdock processing quantitative packaging device;

fig. 8 is a schematic structural view of a movable frame plate and an arc baffle plate assembly of a burdock processing quantitative packaging device;

fig. 9 is a schematic structural view of a burdock processing quantitative packaging equipment storage barrel assembly;

fig. 10 is an explosion structure schematic diagram of a burdock processing quantitative packaging equipment micro-discharge mechanism;

fig. 11 is an explosion structure schematic diagram of a power assembly and a rotary cylinder of a burdock processing quantitative packaging device.

In the figure: 1. a bracket; 2. a weighing assembly; 201. a loading tray; 202. a support plate; 203. a weighing sensor; 3. a blanking assembly; 301. discharging a hopper; 302. a rectangular opening; 303. a standpipe portion; 304. a movable frame plate; 305. a cross plate; 306. a guide hole; 307. an arcuate baffle assembly; 3071. an arc-shaped plate; 3072. a side plate; 3073. triangular protrusions; 308. an overflow prevention baffle; 309. a tension spring; 3010. a guide pin; 4. a control cabinet; 5. a micro-discharge mechanism; 501. a transparent cover; 502. a recessed portion; 503. an outer cylinder; 504. a motor; 505. a motor bracket; 506. a strip-shaped notch; 507. a synchronous belt; 508. a belt pulley; 509. a rotary drum; 5091. a helical blade; 5092. synchronizing the tooth slots; 6. a housing; 7. a cartridge assembly; 701. a cylinder; 7011. a bevel portion; 702. a top cover; 8. a feed pipe assembly; 801. a material guiding pipe; 802. a first blanking port; 803. a second feed opening; 804. an air suction tube; 805. a blower; 806. a shut-off assembly; 8061. a hinge base; 8062. a cylinder; 8063. a linkage bent rod; 8064. a valve plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 11 in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but 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. 1-11, a burdock processing is with ration equipment for packing, which comprises a housing 6, casing 6 upper portion is provided with the rectangle cavity, and the rectangle cavity lower part is provided with unloading subassembly 3, casing 6 top is provided with storage barrel assembly 7, storage barrel assembly 7 lower part is provided with guide pipe assembly 8, casing 6's rectangle cavity inboard is provided with microscale discharging mechanism 5, storage barrel assembly 7 is linked together with microscale discharging mechanism 5 and unloading subassembly 3 through guide pipe assembly 8, casing 6 is provided with weighing module 2 near unloading subassembly 3 lower part department, be provided with between guide pipe assembly 8 and the unloading subassembly 3 and stop subassembly 806 for control burdock section passes guide pipe assembly 8 and gets into unloading subassembly 3, casing 6 one side is provided with switch board 4, switch board 4 forms the electricity with stop subassembly 806 and weighing module 2 and is connected;

the micro discharging mechanism 5 comprises a transparent cover 501 and an outer cylinder 503 which are obliquely arranged, one end of the transparent cover 501 is penetrated out from one side of a machine shell 6, one end of the outer cylinder 503 is penetrated out from the other side of the machine shell 6, the outer cylinder 503 is communicated with a material guiding pipe assembly 8, a rotary cylinder 509 is rotatably arranged on the inner wall of the outer cylinder 503, a power assembly for driving the rotary cylinder 509 to rotate is arranged on the outer cylinder 503, spiral blades 5091 are arranged on the inner circumferential surface of the rotary cylinder 509, two ends of the rotary cylinder 509 are of an opening structure, the opposite ends of the transparent cover 501 and the outer cylinder 503 are of an opening structure, the transparent cover 501 and the outer cylinder 503 are coaxially arranged, a part of the outer cylinder 503 is arranged in the transparent cover 501, and a concave part 502 which extends downwards is arranged on the lower part of one side of the transparent cover 501 close to the outer cylinder 503.

Referring to fig. 7 and 8, the blanking assembly 3 includes a blanking hopper 301 fixed on the casing 6, a rectangular opening 302 is provided at the top of the blanking hopper 301, a vertical pipe portion 303 is provided at the bottom of the blanking hopper 301, a movable frame plate 304 is slidably provided at two ends of the vertical pipe portion 303, which is far away from the material guiding pipe assembly 8, a tension spring 309 is fixed at the top of the movable frame plate 304, and the upper portion of the tension spring 309 is fixedly connected with the side wall of the blanking hopper 301, an arc surface portion is provided at one side of the lower portion of the vertical pipe portion 303, which is far away from the inclined surface portion, an blanking hole communicating with the inside of the vertical pipe portion 303 is provided on the arc surface portion, an arc baffle assembly 307 is rotatably provided at the lower portion of the side wall of the vertical pipe portion 303, the arc baffle assembly 307 includes an arc plate 3071 attached to the arc surface portion, and two ends of the arc plate 3071 are respectively provided with side plates 3072, the side plates 3072 are in a fan-shaped structure, and the two side plates 3072 are respectively connected with two sides of the vertical pipe portion 303 in a rotating manner, a triangle boss 3073 is provided at one side of the side plate 3072, which is close to the movable plate 304, and the triangle boss 3073 is provided at one side of the movable frame plate 3073, and the triangle boss 3073 is in contact with the triangle boss 308, and the arc surface 308 is in an overflow preventing state, and the overflow preventing state is in the condition.

Referring to fig. 7, guide holes 306 are formed on both sides of the movable frame plate 304, guide pins 3010 are inserted into the two guide holes 306, the two guide pins 3010 are fixedly connected to both sides of the vertical pipe 303, and the movable frame plate 304 can slide up and down along the outer wall of the vertical pipe 303, so that the guide holes 306 and the guide pins 3010 play a guiding role.

Referring to fig. 9, the device comprises a cylinder 701, wherein the cylinder 701 is fixed at the top of the casing 6, a bevel portion 7011 is arranged at the lower part of the cylinder 701, the lower end of the cylinder 701 is communicated with the top of the material guiding pipe assembly 8, and a top cover 702 is fixed at the top of the cylinder 701.

Referring to fig. 6, the weighing assembly 2 includes a support plate 202 fixed on the casing 6, a plurality of weighing sensors 203 distributed in a matrix are disposed on an upper portion of the support plate 202, and a carrying plate 201 is fixed on an upper portion of the weighing sensors 203, where the weighing sensors 203 are electrically connected with the control cabinet 4, a processor is disposed in the control cabinet 4, and processes data fed back by the weighing sensors 203, and takes an average value thereof as a displayed weight.

Referring to fig. 4 and 5, the material guiding pipe assembly 8 includes a material guiding pipe 801, a first discharging opening 802 connected to one side of the material guiding pipe 801 is disposed at the lower portion of the material guiding pipe 801, the first discharging opening 802 is communicated with the interior of the material guiding pipe 301, a second discharging opening 803 connected to the top of the side wall of the outer cylinder 503 is disposed on the side wall of the material guiding pipe 801, the second discharging opening 803 is communicated with the interior of the outer cylinder 503, an air suction cylinder 804 communicated with the interior of the material guiding pipe 801 is disposed at a position, away from the outer wall of one side of the outer cylinder 503, of the material guiding pipe 801, a fan 805 is fixed in the air suction cylinder 804, a screen plate is disposed at a position, close to the air suction cylinder 804, of the inner wall of the material guiding pipe 801, and broken pieces are separated under the action of air flow generated by the fan 805, so as to improve the product quality.

Referring to fig. 4 and 5, the stop assembly 806 includes a hinge seat 8061 fixed on a side wall of the material guiding pipe 801, a cylinder 8062 is hinged on the hinge seat 8061, one end of the material guiding pipe 801, which is close to the first discharging opening 802, is provided with a through hole penetrating through outer walls of two sides of the material guiding pipe, a linkage curved rod 8063 is rotatably arranged in the through hole, the linkage curved rod 8063 is in a rectangular frame structure, a valve plate 8064 is fixed on the linkage curved rod 8063, which is close to the inner side of the material guiding pipe 801, a telescopic end of the cylinder 8062 is hinged with the linkage curved rod 8063, (here, the control cylinder 8062 drives the linkage curved rod 8063 to rotate, so as to drive the valve plate 8064 to rotate in the material guiding pipe 801, and when the valve plate 8064 rotates upwards, the burdock slices are blocked from falling down the discharging assembly 3, thereby achieving the purpose of stopping.

Referring to fig. 7, a cross plate 305 is fixed to the outer wall of the side of the movable frame plate 304 away from the vertical pipe 303, and a finger hole is formed on the cross plate 305.

Referring to fig. 1, a bracket 1 for supporting is provided at the bottom of the casing 6, the blanking assembly 3 includes a U-shaped frame, two upright posts are provided on the upper portion of the U-shaped frame, and the two upright posts are fixedly connected with the lower portion of the casing 6.

Referring to fig. 10 and 11, the power assembly includes a motor bracket 505 fixed on the upper portion of the outer cylinder 503, a motor 504 is fixed on the motor bracket 505, an output shaft of the motor 504 passes through the motor bracket 505 and is fixed with a belt pulley 508, a strip-shaped opening 506 is provided on the outer circumferential surface of the outer cylinder 503, synchronous tooth grooves 5092 distributed in an annular shape at equal distance are provided on the outer circumferential surface of the rotating cylinder 509 near the position of the strip-shaped opening 506, a synchronous belt 507 is sleeved in the strip-shaped opening 506, the upper portion of the synchronous belt 507 is sleeved on the belt pulley 508, the belt pulley 508 is meshed with the synchronous tooth grooves 5092, the belt pulley 508 can be driven to rotate by controlling the motor 504, the synchronous belt 507 matched with the belt pulley is driven to rotate, so that the rotating cylinder 509 can be driven to rotate, the spiral blade 5091 matched with the belt pulley is pushed into the transparent cover 501, and then the burdock slices slide into the blanking assembly 3, so that a small amount of accurate burdock slices are supplied.

Working principle: during the use, open top cap 702, put into barrel 701 with burdock section, this moment because partial burdock section passes guide pipe 801 under the action of gravity, pass respectively in first feed opening 802 and the second feed opening 803 enter into micro discharge mechanism 5 and unloading subassembly 3, put the packing container into weighing subassembly 2, pull down diaphragm 305, drive movable frame 304 and move down, thereby movable frame 304 cooperates with triangle-shaped arch 3073 on curb plate 3072, promote curb plate 3072 rotation, thereby drive arc 3071 rotation, thereby burdock section can pass standpipe portion 303 lower part and drop into the packing container, set up the weight through switch board 4, keep the surplus when setting up, reach the cylinder 8062 work in the back stop subassembly 806 of setting up gravity, promote linkage curved lever 8063 rotation, drive valve plate 8064 and lift, prevent burdock section and continue to fall, then control motor 504 work, drive pulley 508 and hold-in range 507 rotation, thereby drive rotary drum 509 rotation, the spiral blade 5091 of cooperation setting, can promote to drop down on rotary drum 509 along the inner wall section of rotary drum 509 and remove in the rotary drum 509 and drive arc 3071 rotation, thereby the burdock section can pass through standpipe portion 303 lower part and fall into the packing container, set up the weight through guide pipe 501, can fall into the filter plate 801 and fall into the filter plate 801 through the filter plate is in the transparent cover is equipped with the filter plate 801, the filter plate is convenient, the filter plate is cut down is cut into the filter plate is equipped with the filter plate is convenient, the filter plate is equipped with the filter plate is down, and the material is down by the filter plate is convenient, and the filter plate 501 is down.

Spatially relative terms, such as "above … …," "above … …," "upper surface at … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations of "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be capable of being practiced otherwise than as specifically illustrated and described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. Burdock processing is with ration equipment for packing, including casing (6), its characterized in that: the novel burdock slicing machine is characterized in that a rectangular cavity is arranged on the upper portion of the machine shell (6), a discharging component (3) is arranged on the lower portion of the rectangular cavity, a material storage barrel component (7) is arranged on the top of the machine shell (6), a material guide pipe component (8) is arranged on the lower portion of the material storage barrel component (7), a micro discharging mechanism (5) is arranged on the inner side of the rectangular cavity of the machine shell (6), the material storage barrel component (7) is communicated with the micro discharging mechanism (5) and the discharging component (3) through the material guide pipe component (8), a weighing component (2) is arranged at the position, close to the lower portion of the discharging component (3), of the machine shell (6), a stop component (806) is arranged between the material guide pipe component (8) and the discharging component (3) and used for controlling burdock slices to enter the discharging component (3) through the material guide pipe component (8), and a control cabinet (4) is arranged on one side of the machine shell (6), and the control cabinet (4) is electrically connected with the stop component (806) and the weighing component (2).

The micro discharging mechanism (5) comprises a transparent cover (501) and an outer barrel (503) which are obliquely arranged, one end of the transparent cover (501) is penetrated out from one side of the casing (6), one end of the outer barrel (503) is penetrated out from the other side of the casing (6), the outer barrel (503) is communicated with the material guiding pipe assembly (8), a rotary barrel (509) is rotatably arranged on the inner wall of the outer barrel (503), a power assembly for driving the rotary barrel (509) to rotate is arranged on the outer barrel (503), helical blades (5091) are arranged on the inner circumferential surface of the rotary barrel (509), two ends of the rotary barrel (509) are of opening structures, one ends, opposite to the transparent cover (501) and the outer barrel (503), of the transparent cover (501) are coaxially arranged, the outer barrel (503) is partially arranged in the transparent cover (501), and a concave portion (502) which extends downwards is arranged on one side, close to the outer barrel (503).

2. The burdock processing is with ration equipment for packing according to claim 1, characterized in that, blanking subassembly (3) is including fixing lower hopper (301) on casing (6), lower hopper (301) top is provided with rectangle opening (302), lower hopper (301) lower part is provided with standpipe portion (303), standpipe portion (303) are kept away from guide tube subassembly (8) one side and are slided and are provided with movable frame plate (304), standpipe portion (303) are kept away from guide tube subassembly (8) one side lower part and are inclined plane structure, movable frame plate (304) top is fixed with extension spring (309), and extension spring (309) upper portion and lower hopper (301) lateral wall fixed connection, standpipe portion (303) lower part is kept away from inclined plane portion one side and is provided with the arc face, and is provided with the unloading hole of intercommunication standpipe portion (303) inside on the arc face, standpipe portion (303) lateral wall lower part rotation is provided with arc baffle assembly (307), arc baffle assembly (307) are including being in contact with cambered surface portion laminating (3071), and are provided with both sides of arc face portion (3071), and are close to two side plates (72) and are provided with two side plates (72) and are connected with two side plates (72) respectively, two side plates (72) are connected with two side plates (72), the lower part of the movable frame plate (304) is contacted with the inclined plane at the upper part of the triangular bulge (3073), and an anti-overflow baffle (308) is hinged at the lower side of the arc plate (3071).

3. The burdock processing quantitative packaging equipment according to claim 2, wherein guide holes (306) are formed in two sides of the movable frame plate (304), guide pins (3010) are inserted into the two guide holes (306), and the two guide pins (3010) are fixedly connected with two sides of the vertical pipe portion (303) respectively.

4. The burdock processing quantitative packaging equipment according to claim 3, wherein the burdock processing quantitative packaging equipment comprises a barrel (701), wherein the barrel (701) is fixed at the top of a machine shell (6), a bevel part (7011) is arranged at the lower part of the barrel (701), the lower end of the barrel (701) is communicated with the top of a material guiding pipe assembly (8), and a top cover (702) is fixed at the top of the barrel (701).

5. The burdock processing quantitative packaging equipment according to claim 1, wherein the weighing assembly (2) comprises a supporting disc (202) fixed on the machine shell (6), a plurality of weighing sensors (203) distributed in a matrix are arranged on the upper portion of the supporting disc (202), and a carrying disc (201) is fixed on the upper portion of the weighing sensors (203).

6. The burdock processing is with ration equipment for packing according to claim 5, characterized in that, guide pipe subassembly (8) include guide pipe (801), guide pipe (801) lower part is provided with first feed opening (802) that are connected with lower hopper (301) one side, first feed opening (802) are linked together with lower hopper (301) inside, guide pipe (801) lateral wall is provided with second feed opening (803) that are connected with urceolus (503) lateral wall top, and second feed opening (803) intercommunication urceolus (503) inside, guide pipe (801) are kept away from urceolus (503) one side outer wall and are close to second feed opening (803) position department and are provided with induced draft tube (804) that communicate guide pipe (801) inside, and induced draft tube (804) internal fixation has fan (805), guide pipe (801) inner wall is provided with filter screen plate near induced draft tube (804) position department.

7. The burdock processing is with ration equipment for packing according to claim 6, characterized in that, stop subassembly (806) is including fixing articulated seat (8061) at the lateral wall of passage (801), and articulated on articulated seat (8061) have cylinder (8062), passage (801) are close to first feed opening (802) one end and are provided with the perforation that runs through its both sides outer wall, and perforation rotation is provided with linkage bent lever (8063), linkage bent lever (8063) are rectangular frame structure, linkage bent lever (8063) are close to the inboard department of passage (801) and are fixed with valve plate (8064), the flexible end of cylinder (8062) forms the articulated with linkage bent lever (8063).

8. The burdock processing quantitative packaging equipment according to claim 3, wherein a transverse plate (305) is fixed on the outer wall of one side of the movable frame plate (304) far away from the vertical pipe part (303), and a finger hole is formed in the transverse plate (305).

9. The burdock processing quantitative packaging equipment for processing according to claim 1, wherein a bracket (1) for supporting is arranged at the bottom of the machine shell (6), the blanking assembly (3) comprises a U-shaped frame, two stand columns are arranged on the upper portion of the U-shaped frame, and the two stand columns are fixedly connected with the lower portion of the machine shell (6).

10. The burdock processing is with ration equipment for packing according to claim 1, characterized in that, power pack is including fixing motor support (505) on urceolus (503) upper portion, be fixed with motor (504) on motor support (505), and motor (504) output shaft passes motor support (505) and is fixed with belt pulley (508), be provided with bar opening (506) on the outer peripheral face of urceolus (503), be provided with synchronous tooth groove (5092) that the equidistance is annular distribution on the outer peripheral face of rotating cylinder (509) near bar opening (506) position department, bar opening (506) endotheca is equipped with hold-in range (507), and hold-in range (507) upper portion cover is established on belt pulley (508), and belt pulley (508) and synchronous tooth groove (5092) meshing.