CN114537807A

CN114537807A - Seasoning packaging equipment based on pre-action

Info

Publication number: CN114537807A
Application number: CN202210155289.9A
Authority: CN
Inventors: 何入勇; 何儒刚; 何儒方; 邝贤旺; 唐应俊; 熊建双
Original assignee: Hunan Tianwei Food Ingredients Co ltd
Current assignee: Hunan Tianwei Food Ingredients Co ltd
Priority date: 2022-02-21
Filing date: 2022-02-21
Publication date: 2022-05-27
Anticipated expiration: 2042-02-21
Also published as: CN114537807B

Abstract

The invention discloses seasoning packaging equipment based on pre-action, which comprises a main body, a cross wrapping type medium compensation screening mechanism, a balanced weight feedback type self-induction blanking mechanism, an anti-blocking type impurity adsorption mechanism, an effective continuity packaging mechanism and a conveying device, wherein the cross wrapping type medium compensation screening mechanism is arranged in the main body, the balanced weight feedback type self-induction blanking mechanism is arranged on the main body, the anti-blocking type impurity adsorption mechanism is arranged at the lower end of the cross wrapping type medium compensation screening mechanism, the effective continuity packaging mechanism is arranged at the lower end of the balanced weight feedback type self-induction blanking mechanism, and the conveying device is arranged in the main body. The invention belongs to the technical field of seasoning packaging based on pre-action, and particularly relates to seasoning packaging equipment based on pre-action.

Description

Seasoning packaging equipment based on pre-action

Technical Field

The invention belongs to the technical field of seasoning packaging based on pre-action, and particularly relates to seasoning packaging equipment based on pre-action.

Background

The seasoning is an auxiliary food which can increase the color, the fragrance and the taste of dishes, promote appetite and benefit human health. Its main function is to improve the quality of the dish and meet the sensory requirements of consumers, thus stimulating appetite and improving human health. In a broad sense, the seasonings include salty agent, sour agent, sweetener, flavor enhancer, spicy agent, etc., such as salt, soy sauce, vinegar, monosodium glutamate, sugar, anise, fennel, zanthoxylum, mustard, etc.

The star anise is used as a seasoning, the star anise needs to be boiled with boiled water to be slightly yellow before production and packaging, then the star anise is dried, the dried star anise is manually screened, and seeds falling, corner breakage and some impurities are removed for manual packaging, so that the production efficiency is low.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides seasoning packaging equipment based on pre-action, aiming at solving the problem that the production efficiency is low because dried star anises are manually screened to remove seeds, broken corners and some impurities, the invention creatively provides a cross wrapping type medium compensation screening mechanism based on the continuity principle of effective action, and the star anises can be winnowed and simultaneously cleaned of impurities on the surfaces of the star anises by the mutual matching of a coaxial multi-wing type opposite reverse stirring mechanism, a nested communicated type self-transmission mechanism and a multi-dimensional communicated type self-driven cleaning mechanism device.

The technical scheme adopted by the invention is as follows: the invention provides seasoning packaging equipment based on pre-action, which comprises a main body, a cross wrapping type medium compensation screening mechanism, a balanced weight feedback type self-induction blanking mechanism, an anti-blocking type impurity adsorption mechanism, an effective continuity packaging mechanism and a conveying device, wherein the cross wrapping type medium compensation screening mechanism is arranged in the main body; the cleaning device comprises a main body, a cleaning device and a cleaning device, wherein the main body comprises a first feeding hole, a torsion spring, a first limiting part, a first feeding plate, a cleaning cylinder, a feeding hole, a discharging hole, a filter screen and a working table top; the cleaning barrel comprises a feeding hole, a discharging hole and a filter screen, the feeding hole is formed in the upper end of the cleaning barrel, the discharging hole is formed in the side wall of the cleaning barrel, and the filter screen is arranged at the lower end of the cleaning barrel.

Furthermore, the crossed wrapping type medium compensation screening mechanism comprises a coaxial multi-wing type relative reverse stirring mechanism, a nested type communicated self-transmission mechanism and a multi-dimensional communicated self-driven cleaning mechanism device, the coaxial multi-wing type relative reverse stirring mechanism is arranged in the cleaning barrel, the nested type communicated self-transmission mechanism is arranged on the coaxial multi-wing type relative reverse stirring mechanism, and the multi-dimensional communicated self-driven cleaning mechanism device is arranged on the nested type communicated self-transmission mechanism.

Further, the coaxial multi-wing type opposite reverse stirring mechanism comprises a cleaning motor, a first rotating short rod, a second rotating short rod, a first bearing, a second bearing, a first tooth block, a second tooth block, a first gear, a fixed shaft, a first ventilation pipe, a second ventilation pipe, a third ventilation pipe, a fourth ventilation pipe, a first sleeve pipe, a second sleeve pipe, a third sleeve pipe, a first connecting piece, a second connecting piece and a third connecting piece, wherein the cleaning motor is arranged on the side wall of the cleaning barrel, the first rotating short rod is arranged at the output end of the cleaning motor, the first bearing is arranged at one end of the first rotating short rod in a penetrating manner, one end of the first ventilation pipe is arranged on the first bearing in a penetrating manner, one end of the first connecting piece is arranged at one end inside the fixed shaft, one end of the inner wall of the second ventilation pipe is arranged at the other end of the first connecting piece, one end of the inner wall of the second connecting piece is arranged at the other end of the inner wall of the second ventilation pipe, one end of the inner wall of the third ventilation pipe is arranged at the other end of the inner wall of the second connecting piece, one end of the third connecting piece is arranged at the other end of the inner wall of the third ventilating pipe, one end of the inner wall of the fourth ventilating pipe is arranged at the other end of the third connecting piece, one end of the second bearing is arranged on the other side wall of the cleaning barrel in a penetrating way, the other end of the fourth ventilating pipe is arranged on the second bearing in a penetrating way, one end of the first ventilating pipe is sleeved and connected with one end of the second ventilating pipe in a rotating way, the other end of the second ventilating pipe is sleeved and connected with one end of the second sleeve in a rotating way, the other end of the third ventilating pipe is sleeved and connected with the third sleeve in a rotating way, the third sleeve is sleeved and connected with one end of the fourth ventilating pipe in a rotating way, the second rotating short stick is sleeved and connected with the first ventilating pipe and the second ventilating pipe in a rotating way, the fixed shaft is arranged on the first ventilating pipe, one end of the fixed shaft is rotated and connected with the gear, and the first tooth block is arranged on the side wall of the first rotating short stick in an annular array way, the tooth block annular array is arranged on the side wall of the second rotating short stick, the first tooth block is connected with the first gear in a meshing rotation mode, and the first gear is connected with the second tooth block in a meshing rotation mode.

Further, the nested communicated self-transmission mechanism comprises a fifth ventilation pipe, a first cleaning roller, a second cleaning roller, a first fan, a second fan, a first fixing piece, a second fixing piece, a first sealing pipe and a second sealing pipe, one end of the ventilation pipe five is arranged on the bearing I in a penetrating way, one end of the cleaning roller I is arranged on the rotating short roller I in a rotating way, the cleaning roller II is rotatably arranged on the rotating short roller II, the fixing piece I is arranged at one end of the cleaning roller I, the first fan is arranged on the first fixing part, the second fixing part is arranged at one end of the second cleaning roller, the second fan is arranged on the second fixing part, one end of the first sealing pipe is arranged at the upper end of the inner wall of the first rotary short rod, the other end of the first sealing pipe is arranged on the fifth ventilation pipe in a penetrating way, one end of the second sealing pipe is arranged on the first sleeve in a penetrating mode, and the other end of the second sealing pipe is arranged at the upper end of the inner wall of the second rotating short rod; the cleaning roller comprises a ventilation pipe six and a rotating pipe, the ventilation pipe six is rotatably arranged on a rotating short roller, the rotating pipe is sleeved on the ventilation pipe six, firstly, sun-dried aniseed is poured into the cleaning roller from a feeding port I, a feeding plate is opened under the action of the weight of the aniseed and enters a cleaning barrel, the output end of a cleaning motor rotates to drive the rotating short roller I to rotate, the rotating short roller I rotates to drive a tooth block I to rotate, the tooth block I rotates to drive a tooth block II to rotate, the tooth block II rotates to drive the rotating short roller II to rotate, an air pump starts, air flow passes through a sealing pipe II to drive a fan II to rotate, the fan II rotates to drive a fixing part II to rotate, air flow passes through a sealing pipe to drive the fan I to rotate, the fan I rotates to drive the fixing part I to rotate, the air flow passes through a communicating pipe to drive the fan III to rotate, and the fan III rotates to drive the rotating part to rotate, the rotating piece rotates to drive the cleaning brush to rotate, finally, air flow is blown out through the air outlet hole, the octagon is cleaned while being winnowed, and the cleaned impurities enter the impurity collecting box.

Further, clean mechanism device of multidimension UNICOM formula self-drive includes clean brush, rotating member, venthole, closed tube, fan three, mounting three and air pump, the rotating member rotates and locates on the rotating tube, the one end of rotating member is located to mounting three, the mounting is located on three to fan three, clean brush is located on the rotating member, the one end of rotating member is located to the venthole, the one end of closed tube is located on the inner wall of rotating tube, the other end of rotating tube link up and locates on the ventilation pipe six, the output of air pump link up and locates on the bearing two.

Further, the balanced weight feedback type self-induction blanking mechanism comprises a blanking pipe, an electronic valve, a blanking barrel, a feeding port II, a blanking port, a balance roller, a balance plate, a material receiving plate, a limiting piece II, a limiting piece III, a supporting plate and a blocking piece, wherein the blanking barrel is arranged on the working table surface, one end of the blanking pipe is arranged on the discharging port in a penetrating way, the electronic valve is arranged on the blanking pipe, the feeding port II is arranged on the blanking barrel, the blanking port is arranged on the blanking barrel, the other end of the blanking pipe is arranged on the feeding port II in a penetrating way, the limiting piece II is arranged at the upper end of the inner wall of the blanking barrel, the limiting piece III is arranged at the lower end of the inner wall of the blanking barrel, the balance roller is rotatably arranged in the blanking barrel, the material receiving plate is arranged at one end of the balance roller, the balance plate is symmetrically arranged at the other end of the balance roller, and the supporting plate is arranged at the upper end of the balance roller, the upper end of backup pad is located to the piece, opens the electronic valve, and in the aniseed got into down the feed cylinder under coaxial many wings type reverse stirring mechanism's effect relatively, fell into and connect the flitch in, connect the flitch to begin to incline, and when the one end that connects the flitch moved to the feed opening and goes out, the piece just blocked material loading mouth two, and the aniseed gets into the wrapping bag through the feed opening in.

Further, prevent stifled type impurity adsorption formula mechanism includes impurity collecting box, gas outlet, filter cotton, stay tube, filter brush, fan four and water tank, the lower extreme of wash bowl is located to the impurity collecting box link up, the lower extreme of impurity collecting box is located to the gas outlet, the stay tube is located in the impurity collecting box, filter cotton is located in the impurity collecting box, fan four rotates and locates on the stay tube, filter brush's fan is four gone up, the water tank link up and locates one side of impurity collecting box, and the air current drives fan four and rotates, and fan four rotates and drives the rotation of filter brush, will fall into the impurity on the filter cotton and sweep into the water tank, the air pump of closing after the clearance.

Further, the effective continuous packaging mechanism comprises a feeding device, a longitudinal packaging device and a transverse packaging device, wherein the feeding device is arranged on the working table surface, the longitudinal packaging device is arranged in the working table surface, and the transverse packaging device is arranged in the working table surface.

Furthermore, the feeding device comprises a support piece, a first roller, a first tensioning telescopic piece, a second roller, a third roller and a stepping motor, wherein the support piece is arranged on the working table, one roller is rotatably arranged on the support piece, the first tensioning telescopic piece is arranged on the side wall of the discharging barrel, the second tensioning telescopic piece is arranged on the working table, the second roller is rotatably arranged at one end of the first tensioning telescopic piece, the stepping motor is arranged at one end of the second tensioning telescopic piece, and one end of the third roller is arranged at the output end of the stepping motor; the longitudinal packaging device comprises a first air cylinder, a first telescopic rod, a first pressing plate, a first heating sheet, a guide tube, a fourth sleeve, a fifth sleeve and a packaging box, wherein the packaging box is arranged at the upper end of the inner wall of the workbench surface, one end of the guide tube is arranged on a feed opening in a penetrating manner, the fourth sleeve is arranged at the upper end of the inner wall of the packaging box, the fifth sleeve is arranged on the inner wall of the packaging box, the first air cylinder is arranged on the inner wall of the packaging box, the first telescopic rod is arranged at the output end of the first air cylinder, the first pressing plate is arranged at one end of the first telescopic rod, and the first heating sheet is arranged on one side of the first pressing plate; the transverse packaging device comprises a second air cylinder, a second telescopic rod, a second pressing plate, a second heating sheet and a cutting knife, the second air cylinder is arranged on the inner wall of the packaging box, the second telescopic rod is arranged at the output end of the second air cylinder, the second pressing plate is arranged at one end of the second telescopic rod, the second heating sheet is arranged at one side of the second pressing plate, the cutting knife is arranged at the output end of the second air cylinder, the output end of the stepping motor rotates to drive a third roller to rotate, the packaging bag is conveyed into a fourth sleeve and a fifth sleeve, the first telescopic rod is driven to move by the motion of the output end of the first air cylinder, the first heating sheet is driven to move by the motion of the first telescopic rod, the longitudinal surface of the packaging bag is packaged, the second telescopic rod drives the second heating sheet to move, the packaging bag is packaged, the cutting knife cuts the packaging bag, and packaged anises fall on a conveyer belt after cutting, the output end of the transport motor rotates to drive the rotary roller to rotate, the rotary roller rotates to drive the transport belt to rotate, and the packaged star anise is collected.

Further, the conveyer includes the transportation frame, rotates cylinder, transportation area, transportation motor and baffle, the transportation erects in the workstation, it locates on the transportation frame to rotate the cylinder, the transportation motor is located on the transportation frame, the output of transportation motor is located on rotating the cylinder, the transportation area cup joints and locates on rotating the cylinder, the baffle is located on the transportation area.

The invention adopting the structure has the following beneficial effects: the invention provides seasoning packaging equipment based on pre-action, which realizes the following beneficial effects:

(1) in order to solve the problem that the production efficiency is low because the dried star anise is manually screened to remove seeds, broken corners and impurities for manual packaging, the invention creatively provides a cross wrapping type medium compensation screening mechanism based on the continuity principle of effective action, and the star anise can be winnowed and simultaneously cleaned of the impurities on the surface of the star anise by the mutual matching of a coaxial multi-wing type opposite reverse stirring mechanism, a nested type communicated self-transmission mechanism and a multi-dimensional communicated self-driven cleaning mechanism device.

(2) In order to further improve the practicability and the popularization, the invention creatively provides an anti-blocking type impurity adsorption type mechanism based on the principle of reducing the harmful action time, and the blockage of filter cotton can be prevented while the impurities are adsorbed and collected through the mutual conversion of field energy.

(3) In order to enable the equivalent subpackage of the aniseed, the invention creatively provides a balanced weight feedback type self-induction blanking mechanism based on a feedback principle, the weight is induced to start to incline through one end of a balance, a feed inlet is just sealed during discharging, the balance resets after the aniseed is discharged, and the equivalent subpackage of the aniseed is realized under the condition that no pressure sensor is arranged.

(4) The water tank can prevent the impurity from flying in disorder, and avoid octagonal secondary pollution.

(5) The first tensioning extensible member and the second tensioning extensible member are arranged, so that the packaging bag can be more uniformly loaded.

(6) The arrangement of the baffle can prevent the packaged octagonal plate from falling back during discharging.

Drawings

FIG. 1 is a front view of a pre-action based condiment packaging apparatus in accordance with the present invention;

FIG. 2 is a front cross-sectional view of a pre-action based condiment packaging apparatus in accordance with the present invention;

FIG. 3 is a left side sectional view of a pre-action based condiment packaging apparatus in accordance with the present invention;

FIG. 4 is a right side cross-sectional view of a pre-action based condiment packaging apparatus in accordance with the present invention;

FIG. 5 is a schematic structural view of a cross-wrapped compensation screening mechanism;

FIG. 6 is a schematic view of a lateral packaging device;

FIG. 7 is a schematic view of a vertical packaging device;

FIG. 8 is a schematic structural view of a sleeve;

FIG. 9 is a schematic structural view of a fifth sleeve;

FIG. 10 is a schematic view of the three structures of the fixing member;

FIG. 11 is a schematic view of a fastener structure;

FIG. 12 is a schematic structural view of the second fixing member;

FIG. 13 is an enlarged view of a portion A of FIG. 5;

FIG. 14 is a partial enlarged view of portion B of FIG. 5;

FIG. 15 is an enlarged view of a portion C of FIG. 5;

FIG. 16 is an enlarged view of a portion D of FIG. 2;

FIG. 17 is an enlarged view of a portion E of FIG. 2;

fig. 18 is a partial enlarged view of portion F in fig. 2.

Wherein, 1, a main body, 2, a cross wrapping type medium compensation screening mechanism, 3, a balance weight feedback type self-induction blanking mechanism, 4, an anti-blocking type impurity adsorption type mechanism, 5, an effective continuity packaging mechanism, 6, a transportation device, 7, a first feeding port, 8, a torsion spring, 9, a first limiting part, 10, a feeding plate, 11, a cleaning cylinder, 12, a feeding port, 13, a discharging port, 14, a filter screen, 15, a coaxial multi-wing type opposite reverse stirring mechanism, 16, a nested type communicated type self-transmission mechanism, 17, a multi-dimensional communicated type self-driven cleaning mechanism device, 18, a cleaning motor, 19, a first rotating short rod, 20, a second rotating short rod, 21, a first bearing, 22, a second bearing, 23, a first tooth block, 24, a second tooth block, 25, a first gear, 26, a fixed shaft, 27, a first ventilation pipe, 28, a second ventilation pipe, 29, a third ventilation pipe, 30 and a fourth ventilation pipe, 31. the first sleeve, 32, the second sleeve, 33, the third sleeve, 34, the first connecting piece, 35, the second connecting piece, 36, the third connecting piece, 37, the fifth ventilating pipe, 38, the first cleaning roller, 39, the second cleaning roller, 40, the first fan, 41, the second fan, 42, the first fixing piece, 43, the second fixing piece, 44, the first sealing pipe, 45, the second sealing pipe, 46, the cleaning brush, 47, the rotating piece, 48, the air outlet hole, 49, the communicating pipe, 50, the third fan, 51, the third fixing piece, 52, the air pump, 53, the sixth ventilating pipe, 54, the rotating pipe, 55, the blanking pipe, 56, the electronic valve, 57, the blanking cylinder, 58, the feeding port two, 59, the blanking port, 60, the balance roller, 61, the balance plate, 62, the material receiving plate, 63, the second limiting piece, 64, the limiting piece three, 65, the supporting plate, 66, the blocking piece, 67, the impurity collecting box, 68, the air outlet, 69, the filter cotton, 70 and the supporting pipe, 71. the device comprises a filter brush 72, a fan IV, 73, a water tank 74, a feeding device 75, a longitudinal packaging device 76, a transverse packaging device 77, a supporting piece 78, a roller I, 79, a tension telescopic piece I, 80, a tension telescopic piece II, 81, a roller II, 82, a roller III, 83, a stepping motor 84, a cylinder I, 85, a telescopic rod I, 86, a pressing plate I, 87, a heating sheet I, 88, a guide pipe 89, a sleeve IV, 90, a sleeve V, 91, a packaging box 92, a cylinder II, 93, a telescopic rod II, 94, a pressing plate II, 95, a heating sheet II, 96, a transportation frame 97, a rotating roller 98, a transportation belt 99, a transportation motor 100, a baffle plate 101, a cutting knife 102 and a working table board.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

As shown in fig. 1, 2 and 18, the invention provides seasoning packaging equipment based on pre-action, which comprises a main body 1, a cross-type wrapped medium compensation screening mechanism 2, a balanced weight feedback type self-induction blanking mechanism 3, an anti-blocking impurity adsorption type mechanism 4, an effective continuity packaging mechanism 5 and a transportation device 6, wherein the cross-type wrapped medium compensation screening mechanism 2 is arranged in the main body 1, the balanced weight feedback type self-induction blanking mechanism 3 is arranged on the main body 1, the anti-blocking impurity adsorption type mechanism 4 is arranged at the lower end of the cross-type wrapped medium compensation screening mechanism 2, the effective continuity packaging mechanism 5 is arranged at the lower end of the balanced weight feedback type self-induction blanking mechanism 3, and the transportation device 6 is arranged in the main body 1; the main body 1 comprises a first feeding port 7, a torsion spring 8, a first limiting piece 9, a first feeding plate 10, a cleaning barrel 11, a feeding port 12, a discharging port 13, a filter screen 14 and a working table 102, the working table 102 is arranged at the lower end of the main body 1, the cleaning barrel 11 is arranged on the working table 102, the first feeding port 7 is arranged at the upper end of the cleaning barrel 11 in a penetrating manner, the first limiting piece 9 is arranged on the inner side wall of the first feeding port 7, one end of the first feeding plate 10 is rotatably arranged on the inner side wall of the first feeding port 7, one end of the torsion spring 8 is arranged at one end of the first feeding plate 10, the other end of the torsion spring 8 is arranged on the inner side wall of the first feeding port 7, and the cleaning barrel 11 is arranged at the lower end of the first feeding port 7; the cleaning barrel 11 comprises a feeding hole 12, a discharging hole 13 and a filtering screen 14, wherein the feeding hole 12 is arranged at the upper end of the cleaning barrel 11, the discharging hole 13 is arranged on the side wall of the cleaning barrel 11, and the filtering screen 14 is arranged at the lower end of the cleaning barrel 11.

As shown in fig. 2 and 5, the cross-wrapped intermediary compensation screening mechanism 2 includes a coaxial multi-wing type relative reverse stirring mechanism 15, a nested type linked self-transmission mechanism 16 and a multi-dimensional linked self-driven cleaning mechanism device 17, the coaxial multi-wing type relative reverse stirring mechanism 15 is disposed in the cleaning cylinder 11, the nested type linked self-transmission mechanism 16 is disposed on the coaxial multi-wing type relative reverse stirring mechanism 15, and the multi-dimensional linked self-driven cleaning mechanism device 17 is disposed on the nested type linked self-transmission mechanism 16.

As shown in fig. 2, 5 and 14, the coaxial multi-wing type opposite reverse stirring mechanism 15 comprises a cleaning motor 18, a first rotating short rod 19, a second rotating short rod 20, a first bearing 21, a second bearing 22, a first tooth block 23, a second tooth block 24, a first gear 25, a fixed shaft 26, a first ventilation pipe 27, a second ventilation pipe 28, a third ventilation pipe 29, a fourth ventilation pipe 30, a first sleeve 31, a second sleeve 32, a third sleeve 33, a first connecting piece 34, a second connecting piece 35 and a third connecting piece 36, wherein the cleaning motor 18 is arranged on the side wall of the cleaning barrel 11, the first rotating short rod 19 is arranged at the output end of the cleaning motor 18, the first bearing 21 is arranged at one end of the first rotating short rod 19, one end of the first ventilation pipe 27 is arranged on the first bearing 21, one end of the first connecting piece 34 is arranged at one end inside the fixed shaft 26, one end of the inner wall of the second ventilation pipe 28 is arranged at the other end of the first connecting piece 34, one end of the second connecting piece 35 is arranged at the other end of the inner wall of the second ventilation pipe 28, one end of the inner wall of the third ventilation pipe 29 is arranged at the other end of the second connection piece 35, one end of the third connection piece 36 is arranged at the other end of the inner wall of the third ventilation pipe 29, one end of the inner wall of the fourth ventilation pipe 30 is arranged at the other end of the third connection piece 36, one end of the bearing 22 is arranged on the other side wall of the cleaning barrel 11 in a penetrating manner, the other end of the fourth ventilation pipe 30 is arranged on the bearing 22 in a penetrating manner, the first sleeve 31 is rotatably sleeved at one end of the first ventilation pipe 27, the first sleeve 31 is rotatably sleeved at one end of the second ventilation pipe 28, the second sleeve 32 is rotatably sleeved at the other end of the second ventilation pipe 28, the second sleeve 32 is rotatably sleeved at one end of the third ventilation pipe 29, the third sleeve 33 is rotatably sleeved at the other end of the third ventilation pipe 29, the third sleeve 33 is rotatably sleeved at one end of the fourth ventilation pipe 30, the second rotary short stick 20 is rotatably sleeved on the first ventilation pipe 27 and the second ventilation pipe 28, and the fixed shaft 26 is arranged on the first ventilation pipe 27, the first gear 25 is rotatably arranged at one end of the fixed shaft 26, the first tooth block 23 is annularly arrayed on the side wall of the first rotating short rod 19, the second tooth block 24 is annularly arrayed on the side wall of the second rotating short rod 20, the first tooth block 23 is connected with the first gear 25 in a meshing rotation mode, and the first gear 25 is connected with the second tooth block 24 in a meshing rotation mode.

As shown in fig. 2, 5, 11, 12, 13, 14 and 15, the nested communication type self-transmission mechanism 16 comprises a ventilation pipe five 37, a cleaning roller one 38, a cleaning roller two 39, a fan one 40, a fan two 41, a fixing piece one 42, a fixing piece two 43, a sealing pipe one 44 and a sealing pipe two 45, wherein one end of the ventilation pipe five 37 is arranged on a bearing one 21 in a penetrating way, one end of the cleaning roller one 38 is arranged on a rotating short roller one 19 in a rotating way, the cleaning roller two 39 is arranged on a rotating short roller two 20 in a rotating way, the fixing piece one 42 is arranged at one end of the cleaning roller one 38, the fan one 40 is arranged on the fixing piece one 42, the fixing piece two 43 is arranged at one end of the cleaning roller two 39, the fan two 41 is arranged on the fixing piece two 43, one end of the sealing pipe one 44 is arranged at the upper end of the inner wall of the rotating short roller one 19, the other end of the ventilation pipe one 44 is arranged on the five 37 in a penetrating way, one end of the sealing pipe two 45 is arranged on the sleeve one 31, the other end of the second sealing pipe 45 is arranged at the upper end of the inner wall of the second rotating short rod 20; the first cleaning roller 38 comprises a sixth ventilation pipe 53 and a rotating pipe 54, the sixth ventilation pipe 53 is rotatably arranged on the first rotating short roller 19, and the rotating pipe 54 is sleeved on the sixth ventilation pipe 53.

As shown in fig. 2, 5, 13 and 17, the multi-dimensional communicating self-driven cleaning mechanism device 17 includes a cleaning brush 46, a rotating member 47, an air outlet 48, a communicating pipe 49, a third fan 50, a third fixing member 51 and an air pump 52, wherein the rotating member 47 is rotatably disposed on the rotating pipe 54, the third fixing member 51 is disposed at one end of the rotating member 47, the third fan 50 is disposed on the third fixing member 51, the cleaning brush 46 is disposed on the rotating member 47, the air outlet 48 is disposed at one end of the rotating member 47, one end of the communicating pipe 49 is disposed on the inner wall of the rotating pipe 54, the other end of the rotating pipe 54 is disposed on a sixth ventilating pipe 53, and an output end of the air pump 52 is disposed on the second bearing 22.

As shown in fig. 2, the balanced weight feedback type self-induction blanking mechanism 3 includes a blanking tube 55, an electronic valve 56, a blanking cylinder 57, a second feeding port 58, a blanking port 59, a balance roller 60, a balance plate 61, a material receiving plate 62, a second limiting member 63, a third limiting member 64, a support plate 65 and a blocking member 66, wherein the blanking cylinder 57 is disposed on the working table 102, one end of the blanking tube 55 is disposed through the discharge port 13, the electronic valve 56 is disposed on the blanking tube 55, the second feeding port 58 is disposed on the blanking cylinder 57, the blanking port 59 is disposed on the blanking cylinder 57, the other end of the blanking tube 55 is disposed through the second feeding port 58, the second limiting member 63 is disposed on the upper end of the inner wall of the blanking cylinder 57, the third limiting member 64 is disposed on the lower end of the inner wall of the blanking cylinder 57, the balance roller 60 is rotatably disposed in the blanking cylinder 57, the material receiving plate 62 is disposed on one end of the balance roller 60, the balance plate 61 is symmetrically disposed on the other end of the balance roller 60, the support plate 65 is disposed on the upper end of the balance roller 60, the blocking member 66 is provided at the upper end of the support plate 65.

As shown in fig. 2, the anti-clogging type impurity adsorbing mechanism 4 includes an impurity collecting tank 67, an air outlet 68, filter cotton 69, a support pipe 70, a filter brush 71, a fan assembly 72 and a water tank 73, the impurity collecting tank 67 is disposed at the lower end of the cleaning drum 11, the air outlet 68 is disposed at the lower end of the impurity collecting tank 67, the support pipe 70 is disposed in the impurity collecting tank 67, the filter cotton 69 is disposed in the impurity collecting tank 67, the fan assembly 72 is rotatably disposed on the support pipe 70, the fan assembly 72 of the filter brush 71 is disposed on the fan assembly 72, and the water tank 73 is disposed at one side of the impurity collecting tank 67.

As shown in fig. 2, the effective continuous packaging mechanism 5 includes a feeding device 74, a longitudinal packaging device 75 and a transverse packaging device 76, the feeding device 74 is disposed on the work table 102, the longitudinal packaging device 75 is disposed in the work table 102, and the transverse packaging device 76 is disposed in the work table 102.

As shown in fig. 2, 3, 6, 7, 8, 9 and 16, the feeding device 74 includes a support member 77, a first roller 78, a first tensioning extensible member 79, a second tensioning extensible member 80, a second roller 81, a third roller 82 and a stepping motor 83, the support member 77 is disposed on the working platform 102, the first roller 78 is rotatably disposed on the support member 77, the first tensioning extensible member 79 is disposed on the sidewall of the lower charging barrel 57, the second tensioning extensible member 80 is disposed on the working platform 102, the second roller 81 is rotatably disposed at one end of the first tensioning extensible member 79, the stepping motor 83 is disposed at one end of the second tensioning extensible member 80, and one end of the third roller 82 is disposed at an output end of the stepping motor 83; the longitudinal packaging device 75 comprises a first air cylinder 84, a first telescopic rod 85, a first pressing plate 86, a first heating plate 87, a guide tube 88, a fourth sleeve tube 89, a fifth sleeve tube 90 and a packaging box 91, wherein the packaging box 91 is arranged at the upper end of the inner wall of the workbench surface 102, one end of the guide tube 88 is arranged on the feed opening 59 in a penetrating manner, the fourth sleeve tube 89 is arranged at the upper end of the inner wall of the packaging box 91, the fifth sleeve tube 90 is arranged on the inner wall of the packaging box 91, the first air cylinder 84 is arranged on the inner wall of the packaging box 91, the first telescopic rod 85 is arranged at the output end of the first air cylinder 84, the first pressing plate 86 is arranged at one end of the first telescopic rod 85, and the first heating plate 87 is arranged on one side of the first pressing plate 86; the transverse packaging device 76 comprises a second air cylinder 92, a second telescopic rod 93, a second pressing plate 94, a second heating sheet 95 and a cutting knife 101, wherein the second air cylinder 92 is arranged on the inner wall of the packaging box 91, the second telescopic rod 93 is arranged at the output end of the second air cylinder 92, the second pressing plate 94 is arranged at one end of the second telescopic rod 93, the second heating sheet 95 is arranged on one side of the second pressing plate 94, and the cutting knife 101 is arranged at the output end of the second air cylinder 92.

As shown in fig. 2, the transportation device 6 includes a transportation frame 96, a rotating roller 97, a transportation belt 98, a transportation motor 99 and a baffle 100, the transportation frame 96 is disposed in the working table 102, the rotating roller 97 is rotatably disposed on the transportation frame 96, the transportation motor 99 is disposed on the transportation frame 96, the output end of the transportation motor 99 is disposed on the rotating roller 97, the transportation belt 98 is sleeved on the rotating roller 97, and the baffle 100 is disposed on the transportation belt 98.

When the cleaning brush is used, firstly, dried anises are poured into the cleaning brush from the feeding port I7, the feeding plate 10 is opened under the action of the weight of the anises and enters the cleaning cylinder 11, the output end of the cleaning motor 18 rotates to drive the rotating short rod I19 to rotate, the rotating short rod I19 rotates to drive the tooth block I23 to rotate, the tooth block I23 rotates to drive the gear I25 to rotate, the gear I25 rotates to drive the tooth block II 24 to rotate, the tooth block II 24 rotates to drive the rotating short rod II 20 to rotate, the air pump 52 starts, the air flow drives the fan II 41 to rotate when passing through the sealing pipe II 45, the fan II 41 rotates to drive the fixing part II 43 to rotate, the air flow drives the fan I40 to rotate when passing through the sealing pipe I44, the fan I40 rotates to drive the fixing part I42 to rotate, the air flow drives the fan III 50 to rotate when passing through the communicating pipe 49, the fan III 50 rotates to drive the rotating part 47 to rotate, the rotating part 47 rotates to drive the cleaning brush 46 to rotate, finally, the air flow is blown out through the air outlet hole 48, the star anise is cleaned while being winnowed, the cleaned impurities enter the impurity collecting box 67, the air flow drives the fan four 72 to rotate, the fan four 72 rotates to drive the filter brush 71 to rotate, the impurities falling onto the filter cotton 69 are swept into the water tank 73, the air pump 52 is closed after the cleaning, the electronic valve 56 is opened, the star anise enters the lower charging barrel 57 under the action of the coaxial multi-wing opposite reverse stirring mechanism 15, the star anise falls into the material receiving plate 62, the material receiving plate 62 begins to incline, when one end of the material receiving plate 62 moves to the lower opening 59, the blocking piece 66 just blocks the upper material opening two 58, the star anise enters the packaging bag through the lower opening 59, the output end of the stepping motor 83 rotates to drive the roller three 82 to rotate, the packaging bag is conveyed into the sleeve four 89 and the five 90, the telescopic rod one 85 is driven to move through the output end of the cylinder one 84, the telescopic rod one 85 drives the heating piece one 87 to move, the longitudinal surface of the packaging bag is packaged, the output end of the second cylinder 92 moves to drive the second telescopic rod 93 to move, the second telescopic rod 93 moves to drive the second heating piece 95 to move, the upper surface of the packaging bag is packaged, the cutting knife 101 cuts the packaging bag, the packaged star anise falls on the conveying belt 98 after cutting, the output end of the conveying motor 99 rotates to drive the rotating roller 97 to rotate, the rotating roller 97 rotates to drive the conveying belt 98 to rotate, the packaged star anise is collected, the whole working process is completed, and the step is repeated when the packaging bag is used next time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A seasoning packaging apparatus based on preaction characterized by: the automatic feeding device comprises a main body (1), a cross-type wrapped medium compensation screening mechanism (2), a balanced weight feedback type self-induction blanking mechanism (3), an anti-blocking type impurity adsorption type mechanism (4), an effective continuity packaging mechanism (5) and a conveying device (6), wherein the cross-type wrapped medium compensation screening mechanism (2) is arranged in the main body (1), the balanced weight feedback type self-induction blanking mechanism (3) is arranged on the main body (1), the anti-blocking type impurity adsorption type mechanism (4) is arranged at the lower end of the cross-type wrapped medium compensation screening mechanism (2), the effective continuity packaging mechanism (5) is arranged at the lower end of the balanced weight feedback type self-induction blanking mechanism (3), and the conveying device (6) is arranged in the main body (1); the main body (1) comprises a feeding opening I (7), a torsion spring (8), a limiting piece I (9), a feeding plate (10), a cleaning cylinder (11), a feeding opening (12), a discharging opening (13), a filter screen (14) and a working table top (102), the working table surface (102) is arranged at the lower end of the main body (1), the cleaning cylinder (11) is arranged on the working table surface (102), the first feeding port (7) is arranged at the upper end of the cleaning barrel (11) in a penetrating way, the first limiting piece (9) is arranged on the inner side wall of the first feeding port (7), one end of the feeding plate (10) is rotatably arranged on the inner side wall of the feeding port I (7), one end of the torsion spring (8) is arranged at one end of the feeding plate (10), the other end of the torsion spring (8) is arranged on the inner side wall of the feeding opening I (7), and the cleaning cylinder (11) is arranged at the lower end of the feeding opening I (7); the cleaning barrel (11) comprises a feed inlet (12), a discharge outlet (13) and a filter screen (14), the feed inlet (12) is arranged at the upper end of the cleaning barrel (11), the discharge outlet (13) is arranged on the side wall of the cleaning barrel (11), and the filter screen (14) is arranged at the lower end of the cleaning barrel (11).

2. The pre-action based condiment packaging apparatus according to claim 1, wherein: the crossed wrapped medium compensation screening mechanism (2) comprises a coaxial multi-wing type relative reverse stirring mechanism (15), a nested type communicated self-transmission mechanism (16) and a multidimensional communicated self-driven cleaning mechanism device (17), the coaxial multi-wing type relative reverse stirring mechanism (15) is arranged in a cleaning barrel (11), the nested type communicated self-transmission mechanism (16) is arranged on the coaxial multi-wing type relative reverse stirring mechanism (15), and the multidimensional communicated self-driven cleaning mechanism device (17) is arranged on the nested type communicated self-transmission mechanism (16).

3. The pre-action based condiment packaging apparatus according to claim 2, wherein: the coaxial multi-wing type opposite reverse stirring mechanism (15) comprises a cleaning motor (18), a first rotating short rod (19), a second rotating short rod (20), a first bearing (21), a second bearing (22), a first tooth block (23), a second tooth block (24), a first gear (25), a fixed shaft (26), a first ventilation pipe (27), a second ventilation pipe (28), a third ventilation pipe (29), a fourth ventilation pipe (30), a first sleeve (31), a second sleeve (32), a third sleeve (33), a first connecting piece (34), a second connecting piece (35) and a third connecting piece (36), wherein the cleaning motor (18) is arranged on the side wall of the cleaning barrel (11), the first rotating short rod (19) is arranged at the output end of the cleaning motor (18), the first bearing (21) is arranged at one end of the first rotating short rod (19) in a penetrating manner, one end of the first ventilation pipe (27) is arranged on the first bearing (21) in a penetrating manner, the inside one end of fixed axle (26) is located to the one end of connecting piece (34), the other end of connecting piece (34) is located to the inner wall one end of ventilation pipe two (28), the inner wall other end of ventilation pipe two (28) is located to the one end of connecting piece two (35), the other end of connecting piece two (35) is located to the inner wall one end of ventilation pipe three (29), the inner wall other end of ventilation pipe three (29) is located to the one end of ventilation pipe four (30), the other end of connecting piece three (36) is located to the inner wall one end of ventilation pipe four (30), the one end of bearing two (22) link up and locate on another lateral wall of wash bowl (11), the other end of ventilation pipe four (30) link up and locate on bearing two (22), sleeve pipe one (31) rotates to cup joint and locates the one end of ventilation pipe one (27), sleeve pipe one (31) rotates to cup joint and locates the one end of ventilation pipe two (28), the second sleeve (32) is rotatably sleeved at the other end of the second ventilation pipe (28), the second sleeve (32) is rotatably sleeved at one end of the third ventilation pipe (29), the third sleeve (33) is rotatably sleeved at the other end of the third ventilation pipe (29), the third sleeve (33) is rotatably sleeved at one end of the fourth ventilation pipe (30), the second rotating short stick (20) is rotatably sleeved on the first ventilation pipe (27) and the second ventilation pipe (28), the fixed shaft (26) is arranged on the first ventilation pipe (27), the first gear (25) is rotatably arranged at one end of the fixed shaft (26), the first tooth blocks (23) are arranged on the side wall of the first rotating short stick (19) in an annular array, the second tooth blocks (24) are arranged on the side wall of the second rotating short stick (20) in an annular array, the first gear block (23) is connected with the first gear (25) in a meshing rotation mode, and the first gear (25) is connected with the second gear block (24) in a meshing rotation mode.

4. A pre-action based condiment packaging apparatus as recited in claim 3, wherein: the nested communicated self-transmission mechanism (16) comprises a fifth ventilation pipe (37), a first cleaning roller (38), a second cleaning roller (39), a first fan (40), a second fan (41), a first fixing piece (42), a second fixing piece (43), a first sealing pipe (44) and a second sealing pipe (45), one end of the fifth ventilation pipe (37) is arranged on a first bearing (21) in a penetrating manner, one end of the first cleaning roller (38) is rotatably arranged on the first rotating short roller (19), the second cleaning roller (39) is rotatably arranged on the second rotating short roller (20), the first fixing piece (42) is arranged at one end of the first cleaning roller (38), the first fan (40) is arranged on the first fixing piece (42), the second fixing piece (43) is arranged at one end of the second cleaning roller (39), the second fan (41) is arranged on the second fixing piece (43), one end of the first sealing pipe (44) is arranged at the upper end of the inner wall of the first rotating short roller (19), the other end of the first sealing pipe (44) is arranged on the fifth ventilation pipe (37) in a penetrating mode, one end of the second sealing pipe (45) is arranged on the first sleeve (31) in a penetrating mode, and the other end of the second sealing pipe (45) is arranged at the upper end of the inner wall of the second rotating short rod (20); the cleaning roller I (38) comprises a ventilation pipe six (53) and a rotating pipe (54), the ventilation pipe six (53) is rotatably arranged on the rotating short roller I (19), and the rotating pipe (54) is sleeved on the ventilation pipe six (53).

5. The pre-action based condiment packaging apparatus according to claim 4, wherein: clean mechanism device of multidimension UNICOM formula self-drive (17) is including clean brush (46), rotating member (47), venthole (48), closed tube (49), three (50) of fan, mounting three (51) and air pump (52), rotating member (47) are rotated and are located on rotating tube (54), the one end of rotating member (47) is located in mounting three (51), on mounting three (50) are located, clean brush (46) are located on rotating member (47), the one end of rotating member (47) is located in venthole (48), the one end of closed tube (49) is located on the inner wall of rotating tube (54), the other end of rotating tube (54) link up and is located on six ventilation pipes (53), the output link up of air pump (52) is located on bearing two (22).

6. The pre-action based condiment packaging apparatus according to claim 5, wherein: the balanced weight feedback type self-induction blanking mechanism (3) comprises a blanking tube (55), an electronic valve (56), a blanking barrel (57), a feeding port II (58), a blanking port (59), a balance roller (60), a balance plate (61), a material receiving plate (62), a limiting part II (63), a limiting part III (64), a supporting plate (65) and a blocking part (66), wherein the blanking barrel (57) is arranged on the working table top (102), one end of the blanking tube (55) is arranged on the discharge port (13) in a penetrating way, the electronic valve (56) is arranged on the blanking tube (55), the feeding port II (58) is arranged on the blanking barrel (57), the blanking port (59) is arranged on the blanking barrel (57), the other end of the blanking tube (55) is arranged on the feeding port II (58) in a penetrating way, the limiting part II (63) is arranged at the upper end of the inner wall of the blanking barrel (57), and the limiting part III (64) is arranged at the lower end of the inner wall of the blanking barrel (57), the balance roller (60) is rotatably arranged in the lower charging barrel (57), the material receiving plate (62) is arranged at one end of the balance roller (60), the balance plate (61) is symmetrically arranged at the other end of the balance roller (60), the supporting plate (65) is arranged at the upper end of the balance roller (60), and the blocking piece (66) is arranged at the upper end of the supporting plate (65).

7. The pre-action based condiment packaging apparatus according to claim 6, wherein: anti-blocking type impurity adsorption type mechanism (4) is including impurity collecting box (67), gas outlet (68), filtration cotton (69), stay tube (70), filter brush (71), four (72) of fan and water tank (73), impurity collecting box (67) link up the lower extreme of locating wash bowl (11), the lower extreme of impurity collecting box (67) is located in gas outlet (68), stay tube (70) are located in impurity collecting box (67), filter cotton (69) are located in impurity collecting box (67), four (72) of fan rotate and locate on stay tube (70), on four (72) of fan of filter brush (71), one side of locating impurity collecting box (67) is link up in water tank (73).

8. The pre-action based condiment packaging apparatus according to claim 7, wherein: the effective continuous packaging mechanism (5) comprises a feeding device (74), a longitudinal packaging device (75) and a transverse packaging device (76), wherein the feeding device (74) is arranged on the working table top (102), the longitudinal packaging device (75) is arranged in the working table top (102), and the transverse packaging device (76) is arranged in the working table top (102).

9. The pre-action based condiment packaging apparatus according to claim 8, wherein: the feeding device (74) comprises a supporting piece (77), a first roller (78), a first tensioning telescopic piece (79), a second tensioning telescopic piece (80), a second roller (81), a third roller (82) and a stepping motor (83), wherein the supporting piece (77) is arranged on a working table top (102), the first roller (78) is rotatably arranged on the supporting piece (77), the first tensioning telescopic piece (79) is arranged on the side wall of the lower material barrel (57), the second tensioning telescopic piece (80) is arranged on the working table top (102), the second roller (81) is rotatably arranged at one end of the first tensioning telescopic piece (79), the stepping motor (83) is arranged at one end of the second tensioning telescopic piece (80), and one end of the third roller (82) is arranged at the output end of the stepping motor (83); the longitudinal packaging device (75) comprises a first air cylinder (84), a first telescopic rod (85), a first pressing plate (86), a first heating sheet (87), a guide pipe (88), a fourth sleeve (89), a fifth sleeve (90) and a packaging box (91), wherein the packaging box (91) is arranged at the upper end of the inner wall of the workbench surface (102), one end of the guide pipe (88) is arranged on the discharging port (59) in a penetrating manner, the fourth sleeve (89) is arranged at the upper end of the inner wall of the packaging box (91), the fifth sleeve (90) is arranged on the inner wall of the packaging box (91), the first air cylinder (84) is arranged on the inner wall of the packaging box (91), the first telescopic rod (85) is arranged at the output end of the first air cylinder (84), the first pressing plate (86) is arranged at one end of the first telescopic rod (85), and the first heating sheet (87) is arranged on one side of the first pressing plate (86); the transverse packaging device (76) comprises a second air cylinder (92), a second telescopic rod (93), a second pressing plate (94), a second heating sheet (95) and a cutting knife (101), wherein the second air cylinder (92) is arranged on the inner wall of the packaging box (91), the second telescopic rod (93) is arranged at the output end of the second air cylinder (92), the second pressing plate (94) is arranged at one end of the second telescopic rod (93), the second heating sheet (95) is arranged on one side of the second pressing plate (94), and the cutting knife (101) is arranged at the output end of the second air cylinder (92).

10. The pre-action based condiment packaging apparatus according to claim 9, wherein: conveyer (6) are including transporting frame (96), rotating cylinder (97), transportation area (98), transportation motor (99) and baffle (100), the transportation frame (96) is located in table surface (102), it locates on transporting frame (96) to rotate cylinder (97), transportation motor (99) are located on transporting frame (96), the output of transportation motor (99) is located on rotating cylinder (97), transportation area (98) cup joint is located on rotating cylinder (97), baffle (100) are located on transportation area (98).