CN219325272U - Radix aconiti lateralis high-efficient section device that can activity be adjusted - Google Patents

Abstract

The utility model discloses a movable and adjustable aconite high-efficiency slicing device, which relates to the technical field of aconite slicing and comprises a return processing table, a pair of height adjusting structures, a blanking barrel, a bracket, a slicing mechanism, a blanking assembly and a tensioning structure. The upper surface of the processing table is provided with a feed opening; a collecting box is arranged at the position corresponding to the blanking opening in the processing table; the pair of height adjusting structures are arranged at the bottom of the square processing table; the blanking cylinder is fixedly arranged on the circular processing table. According to the utility model, the aconite is positioned and continuously pushed out for blanking by utilizing the tensioning structure and the blanking component which are linked on the slicing mechanism, and the tensioning structure can improve the quality of slicing the aconite by the slicing mechanism and the reliability of pushing the aconite by the blanking component, so that the continuity and stability of automatic blanking of slicing the aconite are satisfied; and the production cost of the aconite slicing equipment can be reduced by utilizing a simple and effective structural design with linkage.

Description

Radix aconiti lateralis high-efficient section device that can activity be adjusted

Technical Field

The utility model belongs to the technical field of radix aconiti lateralis slicing, and particularly relates to a radix aconiti lateralis efficient slicing device capable of being movably adjusted.

Background

The radix Aconiti lateralis is a medicine for warming interior and is processed product of radix Aconiti lateralis Preparata of Ranunculaceae. Radix aconiti lateralis preparata, also known as aconiti carmichaeli or aconiti lateralis preparata, or alternatively: radix Aconiti Kusnezoffii, herba Centipedae, flos Carthami, and radix et rhizoma Rhei, and radix Aconiti Kusnezoffii of Aconitum of Ranunculaceae. The aconite can be packaged and delivered after being cleaned, soaked, sliced, dried or steamed.

Through the search, authorized personnel number CN 208812171U discloses a aconite high-efficiency slicing device, which comprises a conveyor belt, a slicing box body and an attached slice collecting box, wherein fixed plates are arranged on two corresponding sides of the conveyor belt, and sliding grooves are formed in the inner sides of the two fixed plates.

According to the high-efficiency radix aconiti lateralis slicing device, the conveyor belt is used for intermittently rotating to drive the slicing box bodies to move, the slicing mechanism is used for slicing radix aconiti lateralis in the inner cavity of one slicing box body, the feeding mechanism is used for feeding the other slicing box body, after slicing the radix aconiti lateralis, the conveyor belt is used for rotating to enable the sliced radix aconiti lateralis to be poured into the inner cavity of the radix aconiti lateralis collecting box, the radix aconiti lateralis collecting box is used for collecting the sliced radix aconiti lateralis, and meanwhile the fed slicing box body is moved to the inner cavity of the slicing mechanism to slice the radix aconiti lateralis, so that the working efficiency is improved, and meanwhile, the device can automatically feed and is more convenient;

although the automatic blanking after the continuous slicing of the aconite is realized through the conveying device, aiming at the use of the small-sized individual aconite slices, the production cost and the occupied area of the conveying device are increased due to the use of the conveying device as conveying equipment, and the cost and the use requirement of the small-sized individual aconite slices cannot be met.

Disclosure of Invention

The utility model aims to provide a movable and adjustable aconite high-efficiency slicing device, which is characterized in that a blanking barrel, a slicing mechanism, a blanking assembly and a tensioning structure are arranged, the aconite in the blanking barrel is transversely sliced by the slicing mechanism, and the aconite is positioned and continuously pushed out for blanking by the tensioning structure and the blanking assembly which are linked on the slicing mechanism, so that the continuity and stability of automatic blanking of the slicing of the aconite are satisfied; and the power equipment of the slicing device can meet the whole slicing, compressing and blanking actions of the aconite by only adopting one electric push rod, so that the production cost of the aconite slicing device is reduced, the slicing cost and the use requirement of small individual household aconite are met, and the problems in the prior art are solved.

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

the utility model relates to a radix aconiti lateralis efficient slicing device capable of being movably adjusted, which comprises:

the upper surface of the processing table is provided with a feed opening; a collecting box is arranged at the position corresponding to the blanking port in the processing table;

a pair of height adjusting structures arranged at the bottom of the processing table;

the blanking cylinder is fixedly arranged on the circular processing table; the blanking cylinder is used for feeding the aconite;

a pair of processing grooves are formed in the bottoms of the two sides of the blanking barrel, and the processing grooves horizontally correspond to the blanking openings; an extrusion groove is formed in the side face of the blanking cylinder and above the processing groove;

the bracket is fixedly arranged at one side of the circular processing table;

the slicing mechanism is arranged on the bracket and transversely corresponds to the processing groove; the slicing mechanism is used for slicing the aconite;

the blanking assembly is arranged on the slicing mechanism and transversely corresponds to the processing groove; the blanking component is used for pushing the sliced rhizoma typhonii into the blanking port;

the tensioning structure is arranged on the slicing mechanism and transversely corresponds to the extrusion groove; when the slicing mechanism slices the aconite in the blanking barrel, the aconite in the blanking barrel is pressed by the tensioning structure.

The high-efficiency aconite slicing device capable of being movably adjusted meets the requirements of continuity and stability of automatic slicing and blanking of aconite; and structural design is small and exquisite integrates, through utilizing simple effective and possess the structural design of linkage nature can reduce the manufacturing cost of aconite slicing equipment, satisfies small-size individual family aconite sliced cost and user demand.

Further, the slicing mechanism comprises an electric push rod, a knife board fixedly arranged at the output shaft end of the electric push rod and a plurality of pairs of blades fixedly arranged on the side surface of the knife board;

the knife plate transversely corresponds to the processing groove.

Further, the blanking assembly comprises a connecting rod fixedly arranged on the side surface of the knife board, which is opposite to the knife blade, and a push plate fixedly arranged at the other end of the connecting rod;

the push plate transversely corresponds to the processing groove, and the push plate and the knife plate are respectively arranged at two side positions of the blanking barrel.

Further, the push plate is used for pushing the sliced rhizoma typhonii into the feed opening.

Further, the tensioning structure is fixedly arranged on the upright post of the side surface of the knife board, which is opposite to the knife blade, a sliding rod transversely movably penetrating through the upright post, a miniature spring sleeved on the outer side of the sliding rod, and a pressing plate fixedly arranged at one end of the sliding rod, which is opposite to the upright post;

and two ends of the miniature spring are respectively arranged on the opposite surfaces of the upright post and the pressing plate.

Further, the slide bar is T-shaped structure, the clamp plate with the extrusion groove transversely corresponds, the clamp plate is used for touching and pressing the aconite in the feed cylinder.

Further, each height-adjusting structure comprises a U-shaped frame, a U-shaped inserted rod which movably penetrates through the space between the bottoms of the U-shaped frames and a bolt which movably penetrates through the space between the U-shaped frames and the U-shaped inserted rod.

The utility model has the following beneficial effects:

1. according to the utility model, the blanking barrel, the slicing mechanism, the blanking component and the tensioning structure are arranged, the aconite in the blanking barrel is transversely sliced through the slicing mechanism, the aconite is positioned and continuously pushed out to be blanked by the tensioning structure and the blanking component which are linked on the slicing mechanism, and the tensioning structure can improve the quality of the slicing of the aconite of the slicing mechanism and the reliability of the blanking of the aconite of the blanking component, so that the continuity and the stability of automatic blanking of the sliced aconite are met; the utility model provides a can move about high-efficient section device of aconite of regulation, its structural design is small and exquisite to integrate, through utilizing simple effective and possess the structural design of linkage can reduce the manufacturing cost of aconite slicing equipment, satisfies the sliced cost of small-size individual family aconite and user demand.

2. According to the utility model, the height adjusting structure is arranged, so that the adjustability of the operation height of the whole slicing device is realized, and the adjustable requirement of the operator for cutting and feeding height is met.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a bottom view of FIG. 1 of the present utility model;

FIG. 3 is a schematic diagram illustrating the connection between the processing station and the height-adjusting structure in FIG. 1 according to the present utility model;

FIG. 4 is a schematic view of the structure of the utility model without the processing table, the height adjusting structure and the blanking cylinder in FIG. 1.

In the drawings, the list of components represented by the various numbers is as follows:

1. a loop-shaped processing table; 11. a feed opening; 2. a collection box; 3. a heightening structure; 31. a U-shaped frame; 32. a U-shaped inserted link; 33. a bolt; 4. a blanking cylinder; 5. a processing groove; 6. an extrusion groove; 7. a bracket; 8. a slicing mechanism; 81. an electric push rod; 82. a knife board; 83. a blade; 9. a blanking assembly; 91. a connecting rod; 92. a push plate; 10. a tensioning structure; 101. a column; 102. a slide bar; 103. a micro spring; 104. and (5) pressing plates.

Detailed Description

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

Referring to fig. 1-4, the present utility model is a radix Aconiti lateralis efficient slicing device capable of being movably adjusted, comprising a processing table 1, a pair of height adjusting structures 3, a blanking cylinder 4, a bracket 7, a slicing mechanism 8, a blanking component 9 and a tensioning structure 10;

the upper surface of the processing table 1 is provided with a feed opening 11; the position of the processing table 1 corresponding to the blanking port 11 is provided with a collecting box 2; the design has the advantages that the sliced aconite is pushed into the feed opening 11, and can be collected by the collecting box 2;

the pair of height adjusting structures 3 are arranged at the bottom position of the circular processing table 1; each height-adjusting structure 3 comprises a U-shaped frame 31, a U-shaped inserting rod 32 which movably penetrates through the bottom end of the U-shaped frame 31 and a bolt 33 which movably penetrates through the U-shaped frame 31 and the U-shaped inserting rod 32; the U-shaped frame 31 is of a hollow structure;

in this embodiment, when the operation height of the machining table 1 needs to be adjusted, the insertion depth of the U-shaped insert rod 32 in the U-shaped frame 31 can be adjusted, that is, the height difference between the two can be adjusted, and when the U-shaped insert rod 32 is locked in the U-shaped frame 31 by the bolt 33, the requirement of movable adjustment of the height of the whole slicing device can be met;

the blanking cylinder 4 is fixedly arranged on the loop-shaped processing table 1; the blanking cylinder 4 is used for feeding the aconite; the blanking barrel 4 is of a vertical design, so that the aconite with relative standard specification can be placed vertically conveniently and arranged, and then slicing is carried out on the aconite in sequence;

a pair of processing grooves 5 are formed in the bottoms of two sides of the blanking barrel 4, and the processing grooves 5 horizontally correspond to the blanking openings 11; an extrusion groove 6 is arranged on the side surface of the blanking cylinder 4 and above the processing groove 5; a pair of processing grooves 5, one for providing deep space for slicing radix Aconiti lateralis and the other for providing pushing space for slicing radix Aconiti lateralis; the extrusion groove 6 is used for providing a pressing deep section for the aconite;

referring to fig. 4, a bracket 7 is fixedly arranged at one side of the processing table 1; the slicing mechanism 8 is arranged on the bracket 7 and transversely corresponds to the processing groove 5; the slicing mechanism 8 is used for slicing the aconite; the slicing mechanism 8 comprises an electric push rod 81, a knife board 82 fixedly arranged at the output shaft end of the electric push rod 81 and a plurality of pairs of blades 83 fixedly arranged on the side surface of the knife board 82; the knife board 82 transversely corresponds to the processing groove 5;

in this embodiment, after the aconite is arranged in the blanking barrel 4, the linear reciprocating motion program of the electric push rod 81 is set by the external controller, the electric push rod 81 drives the blade 83 to move towards the processing groove 5 by the knife board 82 until the blade 83 extends into the blanking barrel 4 and is in transverse contact with the bottommost aconite, so that the aconite transverse slicing process can be completed;

the blanking assembly 9 is arranged on the slicing mechanism 8 and transversely corresponds to the processing groove 5; the blanking component 9 is used for pushing the sliced rhizoma typhonii into the blanking port 11; the blanking assembly 9 comprises a connecting rod 91 fixedly arranged on the side surface of the knife board 82, which is opposite to the knife blade 83, and a push plate 92 fixedly arranged on the other end of the connecting rod 91; the push plate 92 transversely corresponds to the processing groove 5, and the push plate 92 and the knife plate 82 are respectively arranged at two sides of the blanking cylinder 4;

the push plate 92 is used for pushing the sliced rhizoma typhonii into the feed opening 11;

in this embodiment, by using the blanking assembly 9 linked to the knife board 82, after the knife blade 83 is located in the blanking barrel 4, the push plate 92 may face away from the position of the blanking barrel 4, when the knife blade 83 is reset to the initial state, the push plate 92 may pass through the processing groove 5, and push the sliced aconite in the blanking barrel 4 by the knife blade 83 until pushing into the blanking opening 11, and the collecting box 2 may collect the blanking of the sliced aconite;

the tensioning structure 10 is arranged on the slicing mechanism 8 and transversely corresponds to the extrusion groove 6; when the slicing mechanism 8 slices the aconite in the blanking barrel 4, the aconite in the blanking barrel 4 is pressed by the tensioning structure 10; the tensioning structure 10 is fixedly arranged on a stand column 101 of the side surface of the knife board 82, which is opposite to the knife blade 83, a slide bar 102 which transversely and movably penetrates through the stand column 101, a miniature spring 103 sleeved outside the slide bar 102, and a pressing plate 104 fixedly arranged at one end of the slide bar 102, which is opposite to the stand column 101; two ends of the miniature spring 103 are respectively arranged on opposite surfaces of the upright post 101 and the pressing plate 104; the pressing plate 104 in the application can be made of silica gel material, so as to avoid the pressing damage of the aconite;

the slide bar 102 is in a T-shaped structure; the design has the advantages that the sliding rod 102 can be ensured to slide on the upright post 101; the pressing plate 104 transversely corresponds to the extrusion groove 6, and the pressing plate 104 is used for pressing down the monkshood in the charging barrel 4;

in this embodiment, when the blade 83 faces the bottom charging barrel 4 to slice the aconite, the tensioning structure 10 can synchronously move transversely with the blade 83, and when the blade 83 contacts the aconite, the pressing plate 104 can first enter the pressing groove 6 to elastically press the aconite in the bottom charging barrel 4, so as to achieve a certain fixing effect when the aconite slices, and then the fixed aconite slices are cut by the blade 83, so that the quality of the sliced aconite can be improved;

when the blade 83 performs the retracting action on the sliced aconite, the micro spring 103 sequentially returns to the initial state from the original tensioning state, namely, the fixation of the sliced aconite is gradually released until the knife board 82 moves and drives the push plate 92 to move into the blanking cylinder 4 through the processing groove 5, at the moment, the pressing plate 104 completely releases the fixation of the sliced aconite, and the movement of the push plate 92 can correspond to the sliced aconite and pushes the aconite into the blanking opening 11;

it should be noted that, when the pushing plate 92 moves into the blanking barrel 4 to release the pressure of the pressing plate 104, the design has the advantage that the pushing plate 92 moves into the blanking barrel 4 to perform blanking on the sliced aconite, so that the design can ensure the reliability of the blanking assembly 9 for continuously blanking the sliced aconite.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (7)

1. An efficient aconite slicing device capable of being movably adjusted, which is characterized by comprising:

a blanking opening (11) is formed in the upper surface of the processing table (1); a collecting box (2) is arranged at a position corresponding to the blanking opening (11) in the processing table (1);

a pair of height adjusting structures (3) arranged at the bottom position of the circular processing table (1);

a blanking cylinder (4) fixedly arranged on the circular processing table (1); the blanking cylinder (4) is used for feeding the aconite;

a pair of processing grooves (5) are formed in the bottoms of two sides of the blanking barrel (4), and the processing grooves (5) horizontally correspond to the blanking openings (11); an extrusion groove (6) is formed in the side surface of the blanking cylinder (4) and above the processing groove (5);

a bracket (7) fixedly arranged at one side of the processing table (1);

a slicing mechanism (8) which is arranged on the bracket (7) and transversely corresponds to the processing groove (5); the slicing mechanism (8) is used for slicing the aconite;

the blanking assembly (9) is arranged on the slicing mechanism (8) and transversely corresponds to the processing groove (5); the blanking component (9) is used for pushing the sliced rhizoma typhonii into the blanking opening (11);

a tensioning structure (10) arranged on the slicing mechanism (8) and transversely corresponding to the extrusion groove (6); when the slicing mechanism (8) slices the aconite in the blanking barrel (4), the aconite in the blanking barrel (4) is pressed by the tensioning structure (10).

2. The movable and adjustable aconite high-efficiency slicing device according to claim 1, wherein the slicing mechanism (8) comprises an electric push rod (81), a knife board (82) fixedly arranged at the output shaft end of the electric push rod (81) and a plurality of pairs of blades (83) fixedly arranged at the side surface of the knife board (82);

the knife plate (82) transversely corresponds to the processing groove (5).

3. The movable and adjustable aconite high-efficiency slicing device according to claim 2, wherein the blanking component (9) comprises a connecting rod (91) fixedly arranged on the side surface of the knife board (82) opposite to the knife blade (83) and a push plate (92) fixedly arranged on the other end of the connecting rod (91);

the push plate (92) transversely corresponds to the processing groove (5), and the push plate (92) and the knife board (82) are respectively arranged at two sides of the blanking cylinder (4).

4. A mobile, adjustable, high efficiency slicing apparatus for monkshood according to claim 3, wherein said push plate (92) is adapted to push sliced monkshood into the feed opening (11).

5. The movable and adjustable aconite high-efficiency slicing device according to claim 2, characterized in that the tensioning structure (10) is fixedly arranged on a column (101) of the knife board (82) opposite to the side surface of the knife blade (83), a sliding rod (102) transversely movably penetrating through the column (101), a miniature spring (103) sleeved outside the sliding rod (102) and a pressing plate (104) fixedly arranged on one end of the sliding rod (102) opposite to the column (101);

the two ends of the miniature spring (103) are respectively arranged on the opposite surfaces of the upright post (101) and the pressing plate (104).

6. The movable and adjustable aconite high-efficiency slicing device according to claim 5, wherein the slide bar (102) is of a T-shaped structure, the pressing plate (104) transversely corresponds to the extrusion groove (6), and the pressing plate (104) is used for pressing the aconite in the blanking barrel (4).

7. The high-efficiency slicing device for monkshood capable of being movably adjusted according to claim 1, wherein each height-adjusting structure (3) comprises a U-shaped frame (31), a U-shaped inserted rod (32) which movably penetrates through the bottom ends of the U-shaped frames (31) and a bolt (33) which movably penetrates through the space between the U-shaped frames (31) and the U-shaped inserted rod (32).

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