CN114888877A - Radix codonopsis slicing technology and device for processing - Google Patents

Abstract

The invention discloses a radix codonopsis slicing device for processing, which comprises: the top surface of the rack is provided with a rack sliding chute, and the front end part of the rack sliding chute is provided with a fixed baffle; the cutting structure is arranged behind the fixed baffle and comprises a cutting cylinder and a cutting plate, and a plurality of cutting blades perpendicular to the rack sliding groove are arranged on the bottom surface of the cutting plate; the jacking structure is arranged behind the cutting structure and comprises a jacking cylinder, a jacking plate, a pair of auxiliary jacking plates and a pair of jacking rods; and the limiting structure is arranged behind the jacking structure and comprises a limiting baffle, a sliding plate and an Contraband-type connecting plate from top to bottom. The codonopsis pilosula cutting machine can automatically cut codonopsis pilosula, reduces manual intervention and improves cutting efficiency.

Description

Radix codonopsis slicing technology and device for processing

Technical Field

The invention relates to a Tibetan medicine processing device. More particularly, the invention relates to a radix codonopsis slice technology and a device for processing.

Background

The perennial herb of Codonopsis of Campanulaceae is a herb recorded in Chinese pharmacopoeia, and the Codonopsis is used as a medicine, the herb is derived from dried root of Codonopsis Pilosulae, Codonopsis Pilosulae vegetarian or Codonopsis tangshen, etc. of Campanulaceae, and the Codonopsis is cut into pieces when used; the traditional mode is the manual slicing, and the problem that exists is that the codonopsis pilosula shape size that cuts out is uneven, and the codonopsis pilosula is softer, has increased the difficulty of manual cutting, can't guarantee section thickness, and it is inefficient to cut into slices.

Disclosure of Invention

The invention provides a radix codonopsis slicing technology and device for processing, which can automatically cut radix codonopsis, reduce manual intervention and improve cutting efficiency.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a codonopsis pilosula slicing apparatus for processing, comprising:

the top surface of the rack is provided with a rack sliding chute, and the front end part of the rack sliding chute is provided with a fixed baffle;

the cutting structure is arranged behind the fixed baffle and comprises a cutting cylinder and a cutting plate, a piston rod of the cutting cylinder is fixedly connected with the top surface of the cutting plate, and the bottom surface of the cutting plate is provided with a plurality of cutting blades perpendicular to the sliding groove of the rack;

the jacking structure is arranged behind the cutting structure and comprises a jacking cylinder, a jacking plate, a pair of auxiliary jacking plates and a pair of jacking rods, a piston rod of the jacking cylinder is fixedly connected with the top surfaces of the jacking plates, jacking plate chutes perpendicular to the rack chutes and a pair of jacking plate sliders connected through compression springs are arranged on the bottom surfaces of the jacking plates, the pair of auxiliary jacking plates are arranged on the rack, the pair of jacking rods horizontally penetrate through the pair of auxiliary jacking plates and are fixed on the pair of auxiliary jacking plates through bolts, and the pair of jacking plate sliders are jacked by the pair of jacking rods to gather codonopsis pilosula between the jacking plates;

the limiting structure is arranged behind the jacking structure and comprises a limiting baffle, a sliding plate and Contraband-type connecting plates from top to bottom, the limiting baffle is parallel to the fixed baffle and the fixed baffle form a rear blocking surface and a front blocking surface of the codonopsis pilosula, pulleys sliding in sliding grooves of the rack are arranged on two sides of the sliding plate, the Contraband-type connecting plate is located inside the rack, a horizontal plate of the Contraband-type connecting plate is fixedly connected with the sliding plate, and the front end parts of a pair of vertical plates of the Contraband-type connecting plate are fixedly connected with the front end part of the rack through springs.

Preferably, the method further comprises the following steps:

the collecting structure comprises a pair of turnover plates and a collecting box, the turnover plates are located on two sides of the rack sliding groove and are adjacently arranged behind the fixed baffle, and the turnover plates are driven by the rotating shaft to turn downwards through a horizontal plane to form a blanking space and are communicated with the collecting box.

Preferably, the method further comprises the following steps:

the positioning structure is arranged at the rear of the limiting structure and comprises a shifting block, a connecting shell, a transmission assembly, a positioning sleeve, a positioning screw rod and a positioning block, the transmission assembly comprises a shifting shaft, a pair of driving gears and a driven gear, the top surface of the connecting shell is provided with an opening, the front end part of the connecting shell is fixed on the limiting baffle, the shifting shaft is horizontally arranged inside the connecting shell through a bearing, the middle part of the shifting shaft is fixedly connected with the shifting block, the shifting shaft is also symmetrically and fixedly connected with a pair of driving gears, the driven gear is meshed with the pair of driving gears, the driven gear is fixedly arranged at the bottom of the positioning sleeve, the positioning sleeve bearing is connected with the bottom surface of the shell and penetrates out of the bottom surface of the shell to be stretched into the inside of the rack through a rack chute, the positioning screw rod is arranged inside the positioning sleeve and is in threaded fit with the positioning sleeve, the positioning block is arranged at the bottom of the positioning screw rod, when the shifting block rotates for a preset angle, the positioning screw extends to the position of the positioning block and is abutted to the inner bottom surface of the rack.

Preferably, the top surface of the frame is provided with a plurality of semicircular concave grooves which are parallel and adjacently arranged on the sliding groove of the frame.

Preferably, the method further comprises the following steps:

suspension structure, it is including hanging the track, hanging the cylinder, it is located to hang the track the frame top, cutting cylinder fixed mounting in hang the track, top tight cylinder slidable mounting in hang the track, hang the piston rod level setting of cylinder and with the cylinder body rigid coupling of top tight cylinder.

A method for slicing codonopsis pilosula for processing comprises the following steps:

the codonopsis pilosula is placed on the top surface of the rack, so that two ends of the codonopsis pilosula respectively abut against the fixed baffle and the limiting baffle, the codonopsis pilosula is gathered between the tightening plate and the pair of tightening plate sliding blocks, the piston rod of the cutting cylinder moves in a telescopic mode at a certain frequency, and the cutting blade cuts the codonopsis pilosula.

The invention at least comprises the following beneficial effects:

firstly, the invention slices the radix codonopsitis with equal thickness by arranging a cutting structure, for example, a slice (0.3-0.5cm), a thick slice (0.8-1cm), a short section (1.5-2cm) and a long section (3-4cm), according to the subsequent decoction evaluation, the water-soluble decocted matter of the radix codonopsitis slice is the highest, and the water-soluble decocted matter of the long section decoction piece is the lowest, the application can realize the slicing technology with higher precision (the slice (0.3-0.5cm)), the top tight extrusion of the radix codonopsitis from the upper part to the lower part is realized by arranging the top tight structure, the top tight extrusion of the radix codonopsitis from the front part to the rear part is realized by arranging the limit structure, the automatic radix codonopsitis slicing operation is realized by arranging the telescopic frequency of a piston rod of a cutting cylinder, the thickness of the radix codonopsitis slice is uniform, the manual intervention is reduced, the cutting efficiency is improved, the speed can be fast or slow by adopting a digital frequency conversion regulation, and the cutting knife adopts an alloy knife head, the width can be designed to be 20-30 cm, the lifting height of the cutter can be designed to be 6-10 cm, the production capacity can reach 400-300 kg/h, and the production capacity greatly exceeds the 200-300kg/h in the prior art;

secondly, the rack can be arranged at a height convenient for operation through a supporting frame, a rack sliding groove is used for the unimpeded sliding of a sliding plate, a limit baffle plate can conveniently advance in real time to tightly push the tail end of the codonopsis pilosula, a cutting cylinder is arranged in a hanging mode, a piston rod of the cutting cylinder moves up and down in a reciprocating mode, a plurality of cutting blades contact and cut the codonopsis pilosula, a cushion layer can be arranged at the contact position of the cutting blades to reduce abrasion, the plurality of cutting blades can be arranged in a mounting and dismounting mode, the distance can be adjusted, the distance is equal to the distance between the foremost cutting blade and the fixed baffle plate, the thickness of slices is uniform, the jacking cylinder is arranged in a hanging mode, the distance between a pair of jacking rods is adjusted according to the using amount of the codonopsis pilosula to be cut placed at each time, the codonopsis pilosula is limited to collapse towards the outer side, the piston rod of the jacking cylinder extends to a certain length, the lower bottom surface of the jacking plate tightly pushes the top of the codonopsis pilosula, and a pair of jacking plate sliding blocks are connected with a compression spring to slide in the jacking plate sliding groove, when the jacking plate sliding blocks are pressed by the jacking rods to move inwards, the pair of jacking plates only clamp the inner codonopsis pilosula, anti-skid convex parts can be arranged on the inner side surfaces of the jacking plates, inclined surfaces are arranged on the outer side surfaces of the jacking plates to facilitate sliding extrusion, the limiting baffle is arranged in a sliding mode and fixedly connected with the rack through springs, when the codonopsis pilosula is cut once, the length of the codonopsis pilosula is shortened, the limiting baffle is pulled by spring elasticity to move forwards, the tail end of the codonopsis pilosula is guaranteed to be extruded in real time, the springs can be tension springs or torsion springs, namely one end of each spring is wound on the column body, the other end of each spring is wound on the column body and then connected with Contraband-type connecting plates, and pulleys are arranged on two sides of the sliding plate, so that more symmetrical and smooth sliding is realized;

thirdly, when the device is used for slicing, one or more codonopsis pilosula is/are placed on the top surface of a rack, the positions of the codonopsis pilosula are adjusted, a top tightening plate and a pair of tightening plates above the codonopsis pilosula are extruded and stressed, a fixed baffle in front of a limiting baffle behind the codonopsis pilosula is extruded and stressed, then a cutting cylinder is started, a piston rod extends in the processes of air inlet and exhaust, a cutting blade cuts the codonopsis pilosula, the piston rod contracts, the limiting baffle advances, and the next cutting operation is carried out until all the codonopsis pilosula at this time are cut;

fourthly, a pair of turnover plates are arranged, a motor drives a rotating shaft to rotate, the turnover plates turn over, the cut radix codonopsis slices are discharged to a collecting box from the middle part downwards, a certain edge plate can be arranged to prevent the radix codonopsis slices from falling in a rack, the radix codonopsis slices can be quickly cut by a mobile phone, the turnover plates reset after the discharging is finished, a cutting cylinder extends a piston rod again, and the next cutting operation is prepared; the positioning structure is arranged to facilitate the limit baffle to be fixed at a certain position, when feeding or checking equipment is required to operate, the shifting block is shifted to position the limit baffle, the shifting block and the shifting block shaft can be fixedly connected and integrally formed, the rotation of the shifting block drives the shifting block shaft to rotate, the pair of driving gears drives the driven gear to rotate, the horizontally rotating power is transmitted to the vertically rotating power, the positioning sleeve rotates along with the shifting block, the connecting shell is fixedly arranged and does not rotate or move along with the shifting block due to the arrangement of the bearing, the positioning sleeve can only rotate due to relative fixation, the positioning screw rod can ascend and descend along with the rotating process of the positioning screw rod, when the shifting block rotates towards a certain direction, the positioning screw rod extends, the positioning block at the bottom descends to the inner bottom surface of the low-pressure rack to form blocking force, otherwise, when the shifting block resets, the positioning block is not in contact with the inner bottom surface of the rack any more, and the positioning screw rod contracts into the positioning sleeve, the positioning block can be preferably designed to have a sharp surface at the bottom, a tension spring can be arranged on the periphery of the positioning screw rod, the upper end of the tension spring is fixedly connected with the positioning sleeve, the lower end of the tension spring is fixedly connected with the positioning block, and when the positioning screw rod is reset, the tension spring rebounds rapidly and enables the shifting block to be relatively fixed at a certain position;

fifthly, the hanging rail is arranged, so that the cutting cylinder and the jacking cylinder can be conveniently installed, the cylinder body of the cutting cylinder is fixed on the hanging rail, the piston rod of the hanging cylinder can stably move, the cylinder body of the cutting cylinder can also be fixed on the hanging rail, for example, the position adjacent to the cutting cylinder, the piston rod of the hanging cylinder can be adjusted to reach a certain position and then fixed on the hanging cylinder, and the rear part of the part to be cut can be conveniently jacked and fixed.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic structural diagram of one embodiment of the present invention;

FIG. 2 is a schematic view of the main structure of the interior of the housing of the present invention;

fig. 3 is a schematic view of the positioning structure of the present invention.

The reference numbers are as follows:

1-a frame; 2-a rack chute; 3-fixing a baffle plate; 4-cutting cylinder, 5-cutting plate; 6-a jacking cylinder, 7-a jacking plate, 8-an auxiliary jacking plate and 9-a jacking rod; 10-limit baffle, 11-sliding plate and 12-Contraband type connecting plate; 13-shifting block, 14-connecting shell, 15-positioning sleeve, 16-positioning screw, 17-positioning block, 18-shifting shaft, 19-driving gear, 20-driven gear and 21-collecting box

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

It is to be noted that the experimental methods described in the following embodiments are all conventional methods unless otherwise specified, and the reagents and materials, if not otherwise specified, are commercially available; in the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can, for example, be fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The terms "lateral," "longitudinal," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the invention and to simplify the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1-2, the present invention provides a codonopsis pilosula slicing device for processing, comprising:

the top surface of the rack 1 is provided with a rack sliding chute 2, and the front end part of the rack sliding chute 2 is provided with a fixed baffle 3;

the cutting structure is arranged behind the fixed baffle 3 and comprises a cutting cylinder 4 and a cutting plate 5, a piston rod of the cutting cylinder 4 is fixedly connected with the top surface of the cutting plate 5, and a plurality of cutting blades perpendicular to the rack sliding groove 2 are arranged on the bottom surface of the cutting plate 5;

the jacking structure is arranged behind the cutting structure and comprises a jacking cylinder 6, a jacking plate 7, a pair of auxiliary jacking plates 8 and a pair of jacking rods 9, a piston rod of the jacking cylinder 6 is fixedly connected with the top surfaces of the jacking plates 7, the bottom surfaces of the jacking plates 7 are provided with jacking plate 7 chutes perpendicular to the rack chutes 2 and a pair of jacking plate 7 sliders connected through compression springs, the pair of auxiliary jacking plates 8 are arranged on the rack 1, the pair of jacking rods 9 horizontally penetrate through and are fixed on the pair of auxiliary jacking plates 8 through bolts, and the pair of jacking plate 7 sliders are jacked by the pair of jacking rods 9 to gather codonopsis pilosula between the jacking plates;

the limiting structure is arranged behind the jacking structure and comprises a limiting baffle 10, a sliding plate 11 and an Contraband-type connecting plate 12 from top to bottom, the limiting baffle 10 is parallel to the fixed baffle 3, the fixed baffle and the fixed baffle form a rear blocking surface and a front blocking surface of the codonopsis pilosula, pulleys sliding in the rack sliding grooves 2 are arranged on two sides of the sliding plate 11, the Contraband-type connecting plate 12 is located inside the rack 1, a horizontal plate of the Contraband-type connecting plate 12 is fixedly connected with the sliding plate 11, and front end parts of a pair of vertical plates of the Contraband-type connecting plate 12 are fixedly connected with front end parts of the rack 1 through springs.

In the technical scheme, the codonopsis pilosula is sliced into slices with equal thickness by arranging the cutting structure, for example, slices (0.3-0.5cm), thick slices (0.8-1cm), short sections (1.5-2cm) and long sections (3-4cm), according to subsequent decoction evaluation, the water-soluble decocted substances of the codonopsis pilosula slices are highest, and the water-soluble decocted substances of the long-section decoction pieces are lowest.

The machine frame 1 can be arranged at a height convenient to operate through a supporting frame, the machine frame sliding groove 2 is used for the unimpeded sliding of the sliding plate 11, the limiting baffle 10 can conveniently advance in real time to tightly push the tail end of the codonopsis pilosula, the cutting cylinder 4 is arranged in a hanging mode, the piston rod of the cutting cylinder 4 moves up and down in a reciprocating mode, a plurality of cutting blades contact and cut the codonopsis pilosula, a cushion layer can be arranged at the contact part of the cutting blades to reduce abrasion, the plurality of cutting blades can be arranged to be detachable and adjustable in interval, and the interval is equal to the distance between the cutting blade at the forefront and the fixed baffle 3, the slicing technology with higher precision can be realized by the application, such as a thin slice (0.3-0.5cm) and a thick slice (0.8-1cm), and certainly, the slicing technology can be cut according to the technological requirements, such as a short section (1.5-2cm) and a long section (3-4cm), the unification of slice thickness is realized, the tight pushing cylinder 6 is arranged in a hanging mode, according to the usage amount of the codonopsis pilosula to be cut each time, the distance between a pair of tightening rods 9 is adjusted to limit the codonopsis pilosula to collapse towards the outer side, a piston rod of a tightening cylinder 6 extends to a certain length to enable the lower bottom surface of a tightening plate 7 to tighten the top of the codonopsis pilosula, a pressure spring is connected with a pair of tightening plate 7 sliding blocks to slide in a tightening plate 7 sliding groove, when the tightening plate 7 sliding blocks are pressed by the tightening rods 9 to move towards the inner side, the pair of tightening plates 7 only clamp the internal codonopsis pilosula, anti-skid convex parts can be arranged on the inner side surface of the tightening plate 7, the outer side surface is provided with an inclined surface to facilitate sliding extrusion, a limit baffle 10 is arranged in a sliding mode and fixedly connected with a rack 1 through a spring, when the codonopsis pilosula is cut once, the length of the codonopsis pilosula is shortened, the limit baffle 10 is pulled to move forwards by the elastic force of the spring to ensure that the tail end of the codonopsis pilosula is extruded in real time, the spring can select a tension spring or a torsion spring, namely one end is wound on a cylinder, the other end is wound around a cylinder and then connected with an Contraband-type connecting plate 12, and pulleys are arranged on two sides of the sliding plate 11, so that more symmetrical and smooth sliding is realized.

When the device is used for slicing, one or more codonopsis pilosula is/are placed on the top surface of a rack 1, the positions of the codonopsis pilosula are adjusted, a top tightening plate 7 and a pair of tightening plates 7 above the codonopsis pilosula are extruded and stressed, a rear limiting baffle 10 is extruded and stressed on a front fixed baffle 3, then a cutting cylinder 4 is started, in the air inlet and exhaust process, a piston rod extends, a cutting blade cuts the codonopsis pilosula, the piston rod contracts, the limiting baffle 10 advances, and the next cutting operation is carried out until all the codonopsis pilosula are cut.

In another technical solution, the method further comprises:

the collecting structure comprises a pair of turnover plates and a collecting box 21, wherein the pair of turnover plates are positioned on two sides of the rack sliding groove 2 and are adjacently arranged behind the fixed baffle 3, and the pair of turnover plates are driven by the rotating shaft to be turned downwards by a horizontal plane to form a blanking space and are communicated with the collecting box 21.

In above-mentioned technical scheme, set up a pair of returning face plate, the motor drive pivot is rotated, and a pair of returning face plate upset, the codonopsis pilosula section that has just cut is by middle downward blanking to collecting box 21, can set up certain marginal board and prevent that the codonopsis pilosula section from falling in frame 1 inside, and the quick cell-phone codonopsis pilosula section of being convenient for, the blanking finishes a pair of returning face plate and resets, and cutting cylinder 4 extends the piston rod once more, prepares for next cutting operation.

In another technical solution, as shown in fig. 2-3, the method further includes:

the positioning structure is arranged behind the limiting structure and comprises a shifting block 13, a connecting shell 14, a transmission assembly, a positioning sleeve 15, a positioning screw 16 and a positioning block 17, the transmission assembly comprises a shifting shaft 18, a pair of driving gears 19 and a driven gear 20, the top surface of the connecting shell 14 is provided with an opening, the front end part of the connecting shell is fixed on the limiting baffle 10, the shifting shaft 18 is horizontally arranged inside the connecting shell through a bearing, the middle part of the shifting shaft 18 is fixedly connected with the shifting block 13, the shifting shaft 18 is also symmetrically and fixedly connected with the pair of driving gears 19, the driven gear 20 is meshed with the pair of driving gears 19, the driven gear 20 is fixedly arranged at the bottom of the positioning sleeve 15, the positioning sleeve 15 is in bearing connection with the bottom surface of the shell and penetrates out of the rack sliding groove 2 to extend into the rack 1, the positioning screw 16 is arranged inside the positioning sleeve 15 and is in threaded fit with the positioning screw, the positioning block 17 is arranged at the bottom of the positioning screw rod 16, and when the shifting block 13 rotates by a preset angle, the positioning screw rod 16 extends to the position where the positioning block 17 abuts against the inner bottom surface of the rack 1.

In the above technical solution, a positioning structure is provided to fix the limit baffle 10 at a certain position, when a material feeding or inspection device is required to operate, the dial 13 is shifted to position the limit baffle 10, the dial 13 and the dial 13 shaft can be fixedly connected to form an integral, the rotation of the dial 13 drives the rotation of the dial 13 shaft, the pair of driving gears 19 rotate to drive the driven gears 20 to rotate, the horizontally rotating power is transmitted to the vertically rotating power, the positioning sleeve 15 rotates therewith, due to the arrangement of the bearing, the connecting shell 14 is fixedly installed and does not rotate or move therewith, the positioning sleeve 15 is relatively fixed and can only rotate, the positioning screw 16 is lifted and lowered during the rotation process, when the dial 13 rotates in a certain direction, the positioning screw 16 extends, the positioning block 17 at the bottom is lowered to the inner bottom surface of the low-pressure rack 1 to form a blocking force, otherwise when the dial 13 is reset, locating piece 17 no longer contacts the bottom surface in the frame 1, and inside positioning screw 16 contracted to position sleeve 15, realized limit baffle 10's smooth slip, locating piece 17 can preferred design to have sharp face for the bottom, also can set up the extension spring in positioning screw 16's periphery, upper end and positioning sleeve 15 rigid coupling, lower extreme and locating piece 17 rigid coupling, when reseing, the extension spring kick-backs fast to make shifting block 13 relatively fix in a certain position.

In another technical scheme, the top surface of the frame 1 is provided with a plurality of semicircular concave grooves which are parallel and adjacent to the frame sliding groove 2. Is convenient for more properly placing a plurality of codonopsis pilosula.

In another technical solution, the method further comprises:

suspension structure, it is including hanging the track, hanging the cylinder, it is located to hang the track 1 top of frame, 4 fixed mounting in cutting cylinder in hang the track, 6 slidable mounting in the tight cylinder in top hang the track, hang the piston rod level setting of cylinder and with the cylinder body rigid coupling of the tight cylinder 6 in top.

In the technical scheme, the hanging rail is arranged to facilitate installation of the cutting cylinder 4 and the jacking cylinder 6, the cylinder body of the cutting cylinder 4 is fixed on the hanging rail, the piston rod of the hanging cylinder can stably move conveniently, the cylinder body of the cutting cylinder 4 can also be fixed on the hanging rail, for example, the position adjacent to the cutting cylinder 4 is adjacent to the position of the hanging rail, the piston rod of the hanging cylinder can be adjusted to reach a certain position and then fixed on the hanging cylinder, and the rear part of the part to be cut is convenient to jack and fix.

A method for slicing codonopsis pilosula for processing comprises the following steps:

the codonopsis pilosula is placed on the top surface of the rack 1, so that two ends of the codonopsis pilosula respectively abut against the fixed baffle 3 and the limiting baffle 10, the codonopsis pilosula is gathered between the tightening plate 7 and the pair of tightening plate 7 sliding blocks, the piston rod of the cutting cylinder 4 is made to perform telescopic motion at a certain frequency, and the cutting blade cuts the codonopsis pilosula.

In the technical scheme, the codonopsis pilosula can be automatically cut, manual intervention is reduced, and cutting efficiency is improved.

The number of apparatuses and the scale of the process described herein are intended to simplify the description of the present invention. Applications, modifications and variations of the present invention will be apparent to those skilled in the art.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (6)

1. A radix codonopsis section device is used in processing, its characterized in that includes:

the top surface of the rack is provided with a rack sliding chute, and the front end part of the rack sliding chute is provided with a fixed baffle;

the cutting structure is arranged behind the fixed baffle and comprises a cutting cylinder and a cutting plate, a piston rod of the cutting cylinder is fixedly connected with the top surface of the cutting plate, and the bottom surface of the cutting plate is provided with a plurality of cutting blades perpendicular to the sliding groove of the rack;

the jacking structure is arranged behind the cutting structure and comprises a jacking cylinder, a jacking plate, a pair of auxiliary jacking plates and a pair of jacking rods, a piston rod of the jacking cylinder is fixedly connected with the top surfaces of the jacking plates, jacking plate chutes perpendicular to the rack chutes and a pair of jacking plate sliders connected through compression springs are arranged on the bottom surfaces of the jacking plates, the pair of auxiliary jacking plates are arranged on the rack, the pair of jacking rods horizontally penetrate through the pair of auxiliary jacking plates and are fixed on the pair of auxiliary jacking plates through bolts, and the pair of jacking plate sliders are jacked by the pair of jacking rods to gather codonopsis pilosula between the jacking plates;

the limiting structure is arranged behind the jacking structure and comprises a limiting baffle, a sliding plate and Contraband-type connecting plates from top to bottom, the limiting baffle is parallel to the fixed baffle and the fixed baffle form a rear blocking surface and a front blocking surface of the codonopsis pilosula, pulleys sliding in sliding grooves of the rack are arranged on two sides of the sliding plate, the Contraband-type connecting plate is located inside the rack, a horizontal plate of the Contraband-type connecting plate is fixedly connected with the sliding plate, and the front end parts of a pair of vertical plates of the Contraband-type connecting plate are fixedly connected with the front end part of the rack through springs.

2. The apparatus for slicing Codonopsis pilosula as claimed in claim 1, further comprising:

the collecting structure comprises a pair of turnover plates and a collecting box, the turnover plates are located on two sides of the rack sliding groove and are adjacently arranged behind the fixed baffle, and the turnover plates are driven by the rotating shaft to turn downwards through a horizontal plane to form a blanking space and are communicated with the collecting box.

3. The apparatus for slicing Codonopsis pilosula as claimed in claim 1, further comprising:

the positioning structure is arranged at the rear of the limiting structure and comprises a shifting block, a connecting shell, a transmission assembly, a positioning sleeve, a positioning screw rod and a positioning block, the transmission assembly comprises a shifting shaft, a pair of driving gears and a driven gear, the top surface of the connecting shell is provided with an opening, the front end part of the connecting shell is fixed on the limiting baffle, the shifting shaft is horizontally arranged inside the connecting shell through a bearing, the middle part of the shifting shaft is fixedly connected with the shifting block, the shifting shaft is also symmetrically and fixedly connected with a pair of driving gears, the driven gear is meshed with the pair of driving gears, the driven gear is fixedly arranged at the bottom of the positioning sleeve, the positioning sleeve bearing is connected with the bottom surface of the shell and penetrates out of the bottom surface of the shell to be stretched into the inside of the rack through a rack chute, the positioning screw rod is arranged inside the positioning sleeve and is in threaded fit with the positioning sleeve, the positioning block is arranged at the bottom of the positioning screw rod, when the shifting block rotates for a preset angle, the positioning screw extends to the position of the positioning block and is abutted to the inner bottom surface of the rack.

4. The apparatus for slicing Codonopsis pilosula as claimed in claim 1, wherein the top surface of the frame is provided with a plurality of parallel semi-circular grooves adjacent to the runners of the frame.

5. The codonopsis pilosula slicing apparatus for processing as claimed in claim 1, further comprising:

suspension structure, it is including hanging the track, hanging the cylinder, it is located to hang the track the frame top, cutting cylinder fixed mounting in hang the track, top tight cylinder slidable mounting in hang the track, hang the piston rod level setting of cylinder and with the cylinder body rigid coupling of top tight cylinder.

6. A method for slicing codonopsis pilosula for processing is characterized by comprising the following steps:

the codonopsis pilosula is placed on the top surface of the rack, so that two ends of the codonopsis pilosula respectively abut against the fixed baffle and the limiting baffle, the codonopsis pilosula is gathered between the tightening plate and the pair of tightening plate sliding blocks, the piston rod of the cutting cylinder moves in a telescopic mode at a certain frequency, and the cutting blade cuts the codonopsis pilosula.

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