CN113021436A - Device for axially cutting open seams on periphery of jujube pit before fresh jujube is used for making candied jujubes - Google Patents

Abstract

The invention discloses a jujube pit peripheral axial cutting device before fresh jujube is used for manufacturing candied jujubes. The output end of the speed reducing motor assembly is connected with the left barrel and the support sleeve; six joint cutting assemblies which are uniformly distributed around the axis of the cam are arranged outside the cam, and the joint cutting assemblies are connected with the output end of the speed reducing motor assembly through a middle large end cover; six jujube receiving components which are uniformly distributed around the axis of the supporting sleeve and are opposite to the cutting joint components one by one along the axial direction of the supporting sleeve and can yield and reset are fixedly arranged outside the supporting sleeve; six waiting area components uniformly distributed around the axis of the supporting sleeve are fixedly arranged in the middle of the supporting sleeve, and the waiting area components and the bearing components on the left part of the jujube receiving component capable of yielding and resetting are alternately arranged. The invention replaces manpower with machinery, the number of the cutting seams is set by users, the cutting seams are uniform, the cutting depth is almost consistent, the production efficiency is greatly improved, and the problem of mass supply before candied date production is solved.

Description

Device for axially cutting open seams on periphery of jujube pit before fresh jujube is used for making candied jujubes

Technical Field

The invention relates to the field of axial joint cutting methods and mechanics before candied date manufacturing, in particular to a date pit peripheral axial joint cutting device before candied date manufacturing from fresh dates.

Background

Candied date is popular food, although the date peel is thin, the date peel separates the date meat from the outside, and outside medium is difficult to penetrate through the date peel and enter the date meat, in order to produce delicious candied date, mature fresh date is required to be cut into 6 to 10 equally divided seams along the axis direction of the date on the periphery, the thickness of a cutting seam cutter is less than 0.5mm, the date meat is elastically restored after cutting the seams, obvious seams can not be seen almost, the depth of the cutting seams is close to that of date pits, ingredients such as brown sugar, honey and the like can uniformly permeate into the date meat during boiling, and the candied date commodity is formed after airing or drying and packaging.

At present, the method of cutting 6 to 10 equal seams of fresh jujubes on the outer layer of the periphery along the axis direction of the jujubes is manually completed, and one of the disadvantages is that the speed is too slow, and one person can cut 10kg of fresh jujubes one day, even more fresh jujubes are needed;

secondly, the cutting seam is not uniform and is not consistent in depth, the hand with the gloves takes the jujubes, holds the jujubes, intermittently rotates the jujubes, and holds the cutter to cut the seam once;

the third is that it is too hard, one person sits for a day, both hands and brain work together, and may cut hands with slight deviation.

Disclosure of Invention

In order to overcome the problems of low productivity, uneven cutting, inconsistent cutting depth and too hard of manual operation, the invention provides a jujube pit peripheral axial cutting device before candied jujube manufacturing from fresh jujubes.

The invention is realized by the following technical scheme: a jujube pit peripheral axial joint-cutting device before fresh jujube is used for making candied jujubes comprises a cam fixed at the left upper part of an underframe and a support sleeve rotatably installed at the right upper part of the underframe, wherein the cam and the support sleeve are coaxially arranged; a speed reducing motor assembly is fixed in the cam, and the output end of the speed reducing motor assembly is connected with the middle large end cover and the support sleeve;

a plurality of joint cutting assemblies which are uniformly distributed around the axis of the cam are arranged outside the cam, and the joint cutting assemblies are in rolling connection with the cam; the plurality of joint cutting assemblies are connected with the output end of the speed reducing motor assembly through a middle large end cover;

the joint cutting assembly comprises a date withdrawing shaft which is arranged along the axial direction of the cam, and a left sliding sleeve is sleeved outside the date withdrawing shaft in an axial sliding manner; the outer wall of the left sliding sleeve is connected with a transmission bearing, and the transmission bearing is arranged in a groove on the outer wall of the cam in a rolling manner; a blade support is fixed at the right end of the left sliding sleeve; a plurality of blades are fixed on the blade support and are uniformly distributed around the date returning shaft;

a plurality of abdicating and resetting jujube-receiving components which are uniformly distributed around the axis of the supporting sleeve are fixedly arranged outside the supporting sleeve, the number of the abdicating and resetting jujube-receiving components is equal to that of the cutting-seam components, and the abdicating and resetting jujube-receiving components and the cutting-seam components are opposite to each other along the axial direction of the supporting sleeve;

the date receiving component capable of yielding and resetting comprises a right sleeve connected with the support sleeve through a right support plate I; a right end cover is fixed at the right end of the right sleeve, a right sliding sleeve is axially sleeved at the left end of the right sleeve in a sliding manner, and a T-shaped groove disc is fixed at the left end of the right sliding sleeve; the right end of the date jacking shaft is fixed on the right end cover, and the left end of the date jacking shaft penetrates through the central hole of the T-shaped groove disc; the spring is sleeved outside the jujube-pushing shaft, and two ends of the spring are connected between the T-shaped groove disc and the right end cover; a receiving component for receiving fresh jujubes is arranged on the left side of the T-shaped groove disc;

a plurality of waiting area components which are uniformly distributed around the axis of the supporting sleeve are fixedly arranged in the middle of the supporting sleeve, the number of the waiting area components is equal to that of the jujube receiving components which can be abducted and reset, and the waiting area components and the bearing components at the left part of the jujube receiving components which can be abducted and reset are alternately arranged;

the hopper assembly is fixed on the underframe, and a channel of the hopper assembly is connected above the jujube receiving assembly.

It further comprises the following steps: the bearing assembly comprises 6 blades, a radial T-shaped groove C1 arranged around the central hole of the T-shaped groove disc is formed in the T-shaped groove disc, the blades are radially and slidably mounted in the T-shaped groove C1, and the interval between every two adjacent blades is 40 degrees;

a spiral gear is arranged on the right side of the T-shaped groove disc, and a central hole of the spiral gear is rotatably arranged on the jujube-pushing shaft; a pinion is rotatably arranged at the left end of the sliding sleeve and is meshed with the helical gear; the left side surface of the spiral gear is provided with a logarithmic spiral groove C2, and the right end of the blade and the logarithmic spiral groove C2 form a sliding pair.

The first shaft collar is sleeved on the support sleeve and is positioned through the first shaft collar pin shaft; the waiting area assembly comprises a support rib plate welded on the first shaft ring, and an arc-shaped plate is welded at the outer end of the support rib plate; the arc-shaped plates and the bearing assemblies which can be abducted and reset and are arranged on the left part of the jujube receiving assembly in an alternating mode.

The third shaft ring is sleeved on the supporting sleeve and is positioned through a third shaft ring pin shaft on the left side of the third shaft ring; a left jujube baffle is welded outside the third shaft ring; the left jujube baffle is provided with a hole axially opposite to the joint cutting assembly;

the second shaft ring is positioned on the right side of the first shaft ring, and the second shaft ring is sleeved on the supporting sleeve and is positioned through a pin shaft of the second shaft ring; a right jujube baffle is welded outside the second collar; the right jujube baffle is provided with a hole axially opposite to the jujube receiving component which can give way and reset;

a left limiting plate is welded outside the second shaft ring and located on the left side of the right jujube baffle, and the outer side edge of the left limiting plate is axially opposite to a T-shaped groove disc which can be abducted and reset and is located on the left portion of the jujube receiving assembly.

The channel in the hopper assembly is fixed on the bottom frame through a support plate II; the excitation screw is installed on the support plate II through threads and is fastened through a support plate nut;

a hopper vibration exciting assembly matched with a vibration exciting screw is fixed on a right sleeve in the jujube receiving assembly capable of abdicating and resetting; the hopper excitation assembly comprises an excitation support fixed on the right sleeve; the excitation shaft is arranged in a mounting hole on the excitation support and is positioned through an excitation pin shaft; and the excitation shaft is rotatably sleeved with an excitation roller, and the excitation roller is matched with the excitation screw relatively.

The upper end of a channel in the hopper assembly is connected with a hopper, and the channel comprises a channel left plate, a channel right plate, a channel front plate and a channel rear plate;

the rear support plate V is welded with the channel rear plate, the right plate is welded with the rear support plate V, the right sleeve is welded with the channel right plate, a right sleeve pin is inserted into a transverse hole of a left adjusting screw and a right adjusting screw to form a rotatable connection with an inner groove of the right sleeve, and the left adjusting screw and the right plate are thread pairs;

the right supporting plate IV is welded with the left plate of the channel, the front plate is welded with the right supporting plate IV, the front sleeve is welded with the front plate of the channel, a front sleeve pin is inserted into a transverse hole of the front and back adjusting screw to form rotatable connection with an inner groove of the front sleeve, and the front and back adjusting screw and the front plate are threaded pairs.

Compared with the prior art, the invention has the beneficial effects that: the machine replaces manual work, the problems of low productivity, uneven cutting seams, inconsistent cutting depths and too hard of manual work are solved, the number of the cutting seams is set by a user, the cutting seams are even, the cutting depths are almost consistent, the area of a channel can be adjusted according to the size of the jujube, 20 jujubes are used for calculating 500g, about 270kg of fresh jujubes can be cut in each hour, and the problem of large quantity of supplied jujubes before the production of candied jubes is solved.

Drawings

FIG. 1 is a front view of a device for axially cutting a seam on the periphery of a date pit before fresh dates are used for preparing candied dates;

FIG. 2 is an axial view of six sets of receiving modules and waiting area modules;

FIG. 3 is an axial view of a set of receiving modules and waiting area modules at maximum jujube diameter;

FIG. 4 is an axial view of a set of receiving modules and holding section modules at minimum jujube diameter;

FIG. 5 is a front view of the blade holder and take-up assembly in position on the right of the lancing assembly;

FIG. 6 is a front view of the right portion of the lancing assembly in the blade holder position;

FIG. 7 is a front view of the geared motor assembly, cam, and lancing assembly drive connection;

FIG. 8 is a front view of the female assembly;

FIG. 9 is a C-view of the blade of the receiver assembly of FIG. 8;

FIG. 10 is a left side view of the female assembly;

FIG. 11 is a front view of the receiving assembly beginning to receive fresh dates;

FIG. 12 is a front view of the compressed jujube-joining assembly after the fresh jujubes have been axially cut through and sewn;

FIG. 13 is a front view of the ordered entry of fresh dates into the adjustable channels;

FIG. 14 is a view taken along the line A in FIG. 13;

FIG. 15 is a sectional view of section B-B of FIG. 13 corresponding to the maximum diameter of fresh dates;

FIG. 16 is a sectional view of the section B-B in FIG. 13 corresponding to the smallest diameter of fresh jujube;

FIG. 17 is a sectional view of the fresh jujube taken along section C-C of FIG. 14;

FIG. 18 is a sectional view of the section C-C in FIG. 14 corresponding to the maximum diameter of fresh jujube;

FIG. 19 is a front view of the support sleeve in position;

FIG. 20 is a front view of the cam;

FIG. 21 is a cam groove width symmetric profile line;

FIG. 22 is a position of the front ends of the blades in the six slitting assemblies at a time with the cam as a reference frame;

FIG. 23 is a view from the direction A of FIG. 5;

FIG. 24 is an axial view of the waiting area assembly before fresh dates are dropped into the receiving assembly;

fig. 25 is a perspective geometrical view of fresh jujubes in a disordered state after passing through a shaking hopper and the axis of the fresh jujubes is vertical.

In the figure, 1 a gear motor assembly; 2 left first end cap assembly; 3 a left first screw; 4, a left second end cover; 5, a left first pin shaft; 6, a left first shaft sleeve; 7, a cam; 8, a left cylinder body; 9 a left second pin shaft; 10 slitting the assembly; 11 a drive and sleeve support assembly; 12 a hopper assembly; 13 a date receiving component which can give way and reset; 14, a hopper excitation assembly; 15 a right sleeve assembly; 16 right support plate I; 17 a fourth collar; 18 a fourth shaft ring pin; 19 a right support shaft; 20 right support bearing; 21 a right support base assembly; 22 undercarriage bolts; 23 chassis nuts; 24 chassis; 25 channel front and back adjustment assemblies; 26 channel left and right adjustment assembly; 27 fresh jujube;

1-1 motor; 1-2 motor shafts; 1-3 motor keys; 1-4 motor support; 1-5 motor bolts; 1-6 motor nuts; 2-1 of a left first end cover, 2-2 of a left first support;

10-1, removing jujube axis; 10-2 of a third pin shaft; 10-3 bearing support; 10-4 of a drive bearing; 10-5 of left sliding sleeve; 10-6 middle big end cover; 10-7 of a small end cover in the middle; 10-8 of small shaft sleeve in the middle; 10-9 intermediate flanges; 10-10 of a left second shaft sleeve; 10-11 blade supports; 10-12 left second screws; 10-13 left third shaft sleeve; 10-14 steel wires; 10-15 left third screw; 10-16 seat end covers; 10-17 blades; 10-18 blade spacer blocks;

11-1 left support disc; 11-2 supporting the sleeve; 11-3 a first collar; 11-4 of supporting rib plates; 11-5 arc plates; 11-6 a first collar pin; 11-7 a fourth collar; 11-8 right support disc; 11-9 second collar; 11-10 of a right jujube baffle; 11-11 left limit plate; 11-12 second collar pin shafts; 11-13 left jujube baffle; 11-14 third collar; 11-15 third collar pin;

12-1 channel left plate; 12-2 supporting plate II; 12-3 hopper left plate; 12-4 hopper right upper plate; 12-5 hopper right lower plate; 12-6 channel right plate; 12-7 channel front plate; 12-8 front lower plate of hopper; 12-9 front upper plate of hopper; 12-10 hopper back plate; 12-11 channel rear rib plates; 12-12 channel back plates; 12-13 support base; 12-14 exciting the screw; 12-15 support plate nuts;

13-1 leaf; 13-2T-slot disks; 13-3 helical gears; 13-4 disc spring pins; 13-5 pinion gears; 13-6 jujube sleeves; 13-7 jujube axes; 13-8 gear inner sleeves; 13-9 springs; 13-10 of right sliding sleeve; 13-11 jujube shaft retainer rings;

14-1 exciting a support; 14-2 of an excitation shaft; 14-3, exciting a pin shaft; 14-4 exciting the roller;

15-1 right sleeve; 15-2, a first pin shaft of the right sleeve; 15-3 spring sleeves; 15-4, a second pin shaft of the right sleeve; 15-5 right end cap; 21-1 right support sleeve; 21-2 right support plate III; 21-3 right supporting feet;

25-1 of a right support plate IV; 25-2, front sleeve; 25-3 front sleeve pin; 25-4 front panel; 25-5 front and back adjusting screws;

26-1 rear support plate V; 26-2 right sleeve; 26-3 right sleeve pin; 26-4 right panel; and 26-5, adjusting the screw leftwards and rightwards.

The symbols in the figure are as follows: θ 1 phase angle at which the blade assembly stopped relative axial displacement (20 °); θ 2 blade assembly stops relative axial displacement angle (100 °); θ 3 angle of movement of the blade assembly axially relative to the advance (130 °); θ 4 angle of movement of the blade assembly axially relative to the retraction (130 °); theta 5 the bearing angle of the arc plate; θ 6 support the pitch angle of the blades; l0 distance from the left board of the descending channel of the fresh jujube to the vertical line; l11 width of the channel with the largest diameter of fresh jujube; l21 width of the channel with the smallest diameter of fresh jujube; the amount of change in the left-right width of the L31 channel; the front and back width of the largest diameter channel of the L12 fresh jujube; l22 front and back width of the smallest diameter channel of fresh jujube; the amount of change in the front-to-back width of the L32 channel; the inner diameter length of the L4 blade; the take-up length of the L5 blade; l6 blade to blade assembly spacing; the falling distance of the Sh1 fresh jujube when the diameter of the fresh jujube is the largest; the falling distance of the Sh2 fresh jujube when the diameter is the minimum; the height of the axle center of the Sc1 fresh jujube which is in contact with the leaf at the maximum diameter; the height of the axle center of the Sc2 fresh jujube which is in contact with the leaf at the minimum diameter; the angle of the blade assembly which is lifted and rotated when the psi 1 fresh jujube has the maximum diameter; the blade assembly rises and rotates at an angle when the phi 2 fresh jujubes have the minimum diameter; the contact angle between the beta 1 fresh jujube and the leaf blade at the maximum diameter; the contact angle between the beta 2 fresh jujube and the leaf blade at the minimum diameter; a, the minimum value of the diameter change of the leaves when the fresh jujubes have the minimum diameter; delta rho blade radius variation; a C1T-shaped slot; c2 logarithmic spiral grooves; k1 hexagonal hole; h, the stroke of the cam push rod; delta 01 push stroke angle of the cam slot (130 deg.); delta 1, the push stroke angular displacement of the cam push rod; δ 02 return angle of the cam groove (130 °); delta 2, the return angular displacement of the cam push rod; ST push stroke displacement of the cam push rod; the return displacement of the SH cam push rod; angular displacement of the delta cam follower; d1 diameters of the distribution circles where the axes of the six fresh jujube receiving components are located; d2 diameter of the circle on which the six arc plates are located; the pitch radius of the R1 cam groove; dz1 maximum diameter of fresh jujube; dz2 minimum diameter of fresh jujube; SJ1 the first cutting tool is axially static to wait for the fresh jujube to be in place; ST2 the second lancing cutter is to move axially; ST3 axial slitting of the third slitting cutter; ST4 the axial lancing of the fourth lancing cutter is about to end; SH5 fifth axial return of slitting tool; SH6 sixth cutting cutter axial direction returns to the end; output speed of nq motor.

Detailed Description

The following is a specific embodiment of the present invention, which will be further described with reference to the accompanying drawings.

As shown in fig. 1, 2 and 6, the device for axially cutting the periphery of the date pit before the production of candied dates from fresh dates comprises a cam 7 fixedly arranged at the left upper part of a bottom frame 24, and a support sleeve 11-2 rotatably arranged above the bottom frame 24. The cam 7 and the supporting sleeve 11-2 are coaxially arranged, and the output end of the speed reducing motor component 1 is connected with the supporting sleeve 11-2. 6 cutting-seam assemblies 10 uniformly distributed around the axis of the cam 7 are arranged outside the cam 7, and the cutting-seam assemblies 10 are in rolling connection with the cam 7; the 6 slitting assemblies 10 are connected with the output end of the speed reducing motor assembly 1 through a middle large end cover 10-6. 6 abdicating and resetting jujube-receiving components 13 which are uniformly distributed around the axis of the supporting sleeve 11-2 are fixedly arranged outside the supporting sleeve 11-2, and the abdicating and resetting jujube-receiving components 13 and the cutting-joint components 10 are axially opposite to each other along the supporting sleeve 11-2. The middle part of the supporting sleeve 11-2 is fixedly provided with 6 waiting area components which are uniformly distributed around the axis of the supporting sleeve 11-2, and the waiting area components and the bearing components which can be abducted and reset and are arranged at the left part of the Chinese date receiving component 13 are alternately arranged.

The transmission connecting structure of the speed reducing motor assembly, the cam and the joint cutting assembly;

as shown in fig. 1 and 5 to 7, the left first bracket 2-2 is welded at the lower left of the left first end cap 2-1, the left first bracket 2-2 is connected to the chassis 24 through the chassis bolt 22 and the chassis nut 23, and the left first end cap 2-1 is connected to the left end of the cam 7 through four left first screws 3. The motor 1-1 is fixedly connected with the motor support 1-4 through four motor bolts 1-5 and four motor nuts 1-6, and the motor support 1-4 is welded with the cam 7. The middle big end cover 10-6 is connected with the motor shaft 1-2 through a motor key 1-3, and a left second shaft sleeve 10-10 made of polytetrafluoroethylene is arranged at the right end of the cam 7 and forms a revolute pair with the middle big end cover 10-6.

The left second end cover 4 is welded with the left barrel 8, the inner hole of the left second end cover 4 is provided with a left first shaft sleeve 6 made of polytetrafluoroethylene, and the left first shaft sleeve 6 and the cam 7 form a rotating pair. A date returning shaft 10-1 is arranged in an axial hole of the left second end cover 4, and the date returning shaft 10-1 is fixed on the left second end cover 4 through a left first pin shaft 5. The left sliding sleeve 10-5 is sleeved outside the date retreating shaft 10-1, an axial groove is formed in the date retreating shaft 10-1, the bearing support 10-3 is sleeved on the left sliding sleeve 10-5, and the bearing support 10-3 and the left sliding sleeve 10-5 are fixedly connected through a left third pin shaft 10-2 and form a moving pair with the date retreating shaft 10-1. The transmission bearing 10-4 is fixedly arranged on a radial shaft of the bearing support 10-3, and the transmission bearing 10-4 and the groove of the cam 7 form a high pair. The middle small end cover 10-7 is fixed on the left cylinder body 8 by the left second pin shaft 9 and axially restricts the middle large end cover 10-6. The middle small shaft sleeve 10-8 made of polytetrafluoroethylene is in interference fit with the middle small end cover 10-7, and the middle small shaft sleeve 10-8 and the left sliding sleeve 10-5 form a sliding pair.

The middle flange 10-9 is welded at the right end of the left sliding sleeve 10-5, and the middle flange 10-9 is fixedly connected with the blade support 10-11 through four left second screws 10-12. The left third shaft sleeve 10-13 made of polytetrafluoroethylene is in interference fit with the blade support 10-11, and the left third shaft sleeve 10-13 and the date withdrawing shaft 10-1 form a sliding pair.

Six groups of blade assemblies are uniformly distributed in the circumferential direction;

as shown in fig. 1, 5, 6 and 23, for solving the problem of asynchronously cutting 9 slits on 6 fresh jujubes making circular motion, the length of the blade satisfies the requirement of cutting the longest fresh jujubes, and only one group is described here. The 9 blades 10-17 and the 9 blade spacing blocks 10-18 are alternately connected in series through steel wires 10-14 and are placed in holes of the blade support 10-11, the support end cover 10-16 is in axial contact with the blade spacing blocks 10-18 and is fixed on the blade support 10-11 through three left third screws 10-15, and therefore a pair of slitting cutters is formed.

The combination realizes the rotation and the advance and retreat driving of the six cutting joint assemblies 10 by the motor 1-1, the blade cuts into the fresh jujubes, the fresh jujubes are blocked by the jujube retreating shaft 10-1 when the blade assembly returns, the blade is drawn out of the fresh jujubes, and the fresh jujubes finally fall into a frame below the blade assembly.

A jujube receiving component which can give way and reset;

as shown in fig. 1, 5, 8 to 12, only one of them is described herein for solving the yielding and resetting problem of the receiving assembly during lancing. The fourth shaft ring 17 is welded on the right sleeve 15-1, and the right support plate I16 is sleeved on the right sleeve 15-1. The sliding sleeve 13-10 and the right sleeve 15-1 form a moving pair and are limited to rotate relatively by a first pin shaft 15-2 of the right sleeve. The spring sleeve 15-3, the right sleeve 15-1 and the right end cover 15-5 are fixedly connected through a second pin shaft 15-4 of the right sleeve. A top jujube sleeve 13-6 made of polytetrafluoroethylene is arranged at the left end of the top jujube shaft 13-7 in an interference mode, and a top jujube shaft retainer ring 13-11 is arranged at the right end of the top jujube shaft 13-7 to limit the left movement of the top jujube shaft 13-7. The gear inner sleeve 13-8 is arranged in an inner hole of the spiral gear 13-3 in an interference mode, and the gear inner sleeve 13-8 and the date jacking shaft 13-7 form a moving pair. The spring 13-9 is sleeved between the date jacking shaft 13-7 and the spring sleeve 15-3, the left end of the spring 13-9 is contacted with the gear inner sleeve 13-8, and the right end of the spring 13-9 is contacted with the right end cover 15-5.

The length between the left limiting plate 11-11 and the right supporting plate I16 is fixed, so that the spring 13-9 obtains initial pressure, after the blade assembly moves rightwards H, the blade assembly pushes the adapting assembly to move rightwards L5, fresh jujubes are axially stopped by the jujube-propping sleeve 13-6, the blades cut into the fresh jujubes until the fresh jujubes are axially cut through, when the blade assembly returns, the adapting assembly moves leftwards under the action of the spring 13-9, when the T-shaped groove disc 13-2 touches the left limiting plate 11-11, 6 blades 13-1 enter a state of waiting for adapting the fresh jujubes, the number of large-diameter rings of the spring 13-9 is 12, the number of transitional turns is 5, the number of small-diameter turns is 6, the initial pressure F0 on the spring 13-9 is 10N, and the final pressure F63.

Six groups of spiral grooves which are uniformly distributed in the circumferential direction adjust the bearing assembly of the blade reducing diameter;

as shown in fig. 1, 8-12, for solving the problem of taking up fresh jujubes before cutting, the length of the leaves is sufficient for taking up the longest fresh jujubes, and only one group is described here. The T-shaped groove disc 13-2 is fixed on the sliding sleeve 13-10 through 2 disc elastic pins 13-4. 6 blades 13-1 and a T-shaped groove C1 on the T-shaped groove disc 13-2 form a moving pair at an interval of 40 degrees, and 6 blades 13-1 and a logarithmic spiral groove C2 on the spiral gear 13-3 form a moving pair. The helical gear 13-3 and the sliding sleeve 13-10 form a rotating pair. When a hexagonal elbow tool is used for driving a hexagonal hole K1 on a pinion 13-5 shaft, a spiral gear 13-3 rotates relative to a T-shaped groove disc 13-2, and a logarithmic spiral groove C2 on the spiral gear 13-3 drives 6 blades 13-1 to radially displace in a T-shaped groove C1 of the T-shaped groove disc 13-2, so that the requirement of adapting to different diameters of fresh jujubes for receiving is met, and adjustment is performed according to the diameters of the fresh jujubes.

Fresh jujubes uniformly distributed in the circumferential direction fall into a waiting area component before the receiving component;

as shown in fig. 1 to 4, 19 and 24, for solving the waiting problem before fresh jujubes fall into six groups of receiving assemblies in sequence. Six support rib plates 11-4 are uniformly welded on the first shaft collar 11-3, and six arc-shaped plates 11-5 are respectively welded at the outer ends of the six support rib plates 11-4 to form a fresh jujube receiving waiting area assembly; the arc plates 11-5 and the bearing component at the left part of the jujube receiving component 13 which can give way and reset are alternately arranged.

A transmission and sleeve support assembly 11;

as shown in fig. 1 to 4, 11, 12, 19 and 24, for solving the problem that the six sets of abdicative and resettable jujube-receiving assemblies on the right side and the six sets of blade assemblies on the left side rotate at the same speed and phase,

the left end of the supporting sleeve 11-2 is welded with a left supporting disk 11-1, and the left supporting disk 11-1 is connected with a motor shaft 1-2 through a motor key 1-3; the right end of the supporting sleeve 11-2 is welded with a right supporting disk 11-8, and a right supporting bearing 20 is arranged in a hole of the right supporting disk 11-8. The left side of the right supporting shaft 19 is provided with a right supporting bearing 20, and the right side is provided with a right supporting sleeve 21-1. The right support plate 21-2 is welded below the right support sleeve 21-1, the right support foot 21-3 is welded on the right side of the right support plate 21-2, and the right support foot 21-3 is connected to the underframe 24 through an underframe bolt 22 and an underframe nut 23. The fourth collar 11-7 is welded to the right side of the support sleeve 11-2, and the fourth collar 17 is welded to the left side of the right support plate I16, sleeved on the support sleeve 11-2 from the left end and positioned by a fourth collar pin 18.

The left limit plate 11-11 is axially arranged on the second collar 11-9 from the right side, the right date baffle 11-10 is axially arranged on the second collar 11-9 and welded together, and the hole of the second collar 11-9 is in clearance fit with the support sleeve 11-2 and is positioned by the pin shaft 11-12 of the second collar. The waiting area assembly composed of the first collar 11-3, the support rib plate 11-4 and the arc plate 11-5 is axially installed into the support sleeve 11-2 from the left side and is positioned by the first collar pin shaft 11-6. The left jujube baffle 11-13 and the third shaft ring 11-14 are welded and then are axially arranged on the supporting sleeve 11-2 from the left side and are positioned by the third shaft ring pin shaft 11-15.

The hopper component ensures that the fresh jujubes enter in order and can adjust the size of the channel;

as shown in fig. 1 to 4, 12 to 18, and 25,

the left side of the hopper is a hopper left plate 12-3 with a large upper opening and a small lower opening, the rear side of the hopper is a hopper rear plate 12-10 with a large upper opening and a small lower opening, the upper part of the front side of the hopper is a hopper front upper plate 12-9 with a large upper opening and a small lower opening, the lower part of the front side of the hopper is a hopper front lower plate 12-8 in a vertical state, the upper part of the right side of the hopper is a hopper right upper plate 12-4 with a large upper opening and a small lower opening, and the lower part of the right side of the hopper is a hopper right lower. The vertical arrangement of the front lower plate 12-8 of the hopper and the vertical arrangement combination of the right lower plate 12-5 of the hopper, and the size of any direction of the section of the vertical channel section is smaller than the length of the fresh jujubes, thereby creating a geometrical condition for the disordered fresh jujubes to slide down in a vertical state through the shaken rear axis of the hopper. The hopper left plate 12-3 is welded with a hopper front upper plate 12-9 and a hopper rear plate 12-10, the hopper right upper plate 12-4 is welded with the hopper front upper plate 12-9 and the hopper rear plate 12-10, the hopper left plate 12-3 is welded on the left upper part of the channel left plate 12-1, the hopper right lower plate 12-5 is welded with the channel right plate 12-6, the channel front plate 12-7 is welded with the hopper front lower plate 12-8, the hopper rear plate 12-10 is welded with the channel rear plate 12-12, the channel rear rib plate 12-11 is welded with the hopper rear plate 12-10 and the channel rear plate 12-12, and the upper part of the support plate II 12-2 is welded with the channel left plate 12-1 and the hopper left plate 12-3.

An excitation screw 12-14 and a support plate nut 12-15 are arranged on the middle upper portion of the support plate II 12-2, the lower portion of the support plate II 12-2 is welded with the support base 12-13, and the support base 12-13 is fixed on the base frame 24. The phase difference between the adjacent 6 right sleeves 15-1 is 60 degrees, and hopper excitation assemblies 14 are respectively welded on 2 right sleeves 15-1 with the phase difference of 180 degrees; the hopper excitation assembly 14 comprises an excitation support 14-1 welded on a right sleeve 15-1; the excitation shaft 14-2 is arranged in an installation hole on the excitation support 14-1 and is positioned through an excitation pin shaft 14-3; the excitation shaft 14-2 is rotatably sleeved with an excitation roller 14-4. When 2 excitation rollers 14-4 excite the excitation screws 12-14 for two times per circle, the hopper shakes twice, and power conditions are created for the disordered fresh jujubes to slide down in a vertical state after passing through the shaken hopper.

The rear supporting plate V26-1 is welded with the channel rear plate 12-12, the right plate 26-4 is welded with the rear supporting plate V26-1, the right sleeve 26-2 is welded with the channel right plate 12-6, and the right sleeve pin 26-3 is inserted into the transverse hole of the left and right adjusting screw 26-5 to form a rotatable connection with the inner groove of the right sleeve 26-2. The left and right adjusting screws 26-5 and the right plate 26-4 are thread pairs, and the left and right adjustment of the channel size is realized by rotating the left and right adjusting screws 26-5. The right support plate IV 25-1 is welded with the channel left plate 12-1, the front plate 25-4 is welded with the right support plate IV 25-1, the front sleeve 25-2 is welded with the channel front plate 12-7, a front sleeve pin 25-3 is inserted into a transverse hole of the front and rear adjusting screw 25-5 to form a rotatable connection with an inner groove of the front sleeve 25-2, and the front and rear adjusting screw 25-5 and the front plate 25-4 are thread pairs. The front and back adjustment of the channel size is realized by rotating the front and back adjusting screws 25-5, and the maximum diameter of the channel is smaller than the length of the fresh jujube.

The rotating speed of the motor and the parameters of the leaves of the fresh jujube falling into the six groups of bearing components are set,

as shown in figures 2 to 4 of the drawings,

if the diameter of the fresh jujubes reaches dz1, a group of receiving assemblies are rotated to a position of beta 1+ psi 1, the height from the geometric center of the fresh jujubes to the axis of the receiving assemblies is Sc1, when the rotating speed nq output by a motor is 30r/min, the output shaft of the motor rotates psi 1 to 13.84 degrees, the axis of the receiving assemblies rises to Sc1-Sh1, the geometric center of the fresh jujubes falls to Sh1, the fresh jujubes just fall into the arc-shaped space of the receiving assemblies, and the falling time of the fresh jujubes is Sc1

The angle psi 1s of the receiving module cannot exceed psi 1 at th1, the angle psi 1s of the receiving module is (2 pi nq/60) th1 x 180 deg./pi,

psi 1s is 30X 0.07266X 180/30 is 13.08 deg., psi 1s is less than psi 1, the turning angle of receiving assembly waiting fresh jujube is psi 1-psi 1s is 13.84-13.08 is 0.76 deg.,

if the diameter of the fresh jujubes reaches dz2, a group of receiving assemblies are rotated to a position of beta 2+ psi 2, the height from the geometric center of the fresh jujubes to the axis of the receiving blade assembly is Sc2, when the rotating speed nq of a motor is 30r/min, the output shaft of the motor rotates psi 2 to 15.84 degrees, the axis of the receiving assemblies rises to Sc2-Sh2, the geometric center of the fresh jujubes falls to Sh2, the fresh jujubes just fall into the arc-shaped space of the receiving assemblies, and the falling time of the fresh jujubes is Sc2-Sh2

The angle psi 2s of the receiving module cannot exceed psi 2 at th2, the angle psi 2s of the receiving module is (2 pi nq/60) th2 x 180 deg./pi,

ψ2s＝0.06385 × 180 ═ 11.49 °, ψ 2s < ψ 2, the rotation angle of holding assembly waiting fresh jujube is ψ 2- ψ 2s ═ 15.84-11.49 ═ 4.35 °;

the selection of the profile of the cam is made,

the profile of the cam is selected to be a sine function without rigid impact and flexible impact, the cam 7 is fixed in a cylindrical shape, and in the range angle delta 01 of the cam groove being 13 pi/18 (rad), the axial motion equation of each secondary blade assembly, namely the groove profile equation of the cam 7 in the range stage is

In the return angle δ 02 of the cam groove being 13 pi/18 (rad), the axial motion equation of each secondary blade assembly, i.e., the groove profile equation of the cam 7 in the return phase, is

Maximum pressure angle alpha of push stroke_TmaxAngle alpha with the maximum pressure of the return stroke_HmaxThe allowable pressure angle [ alpha ] is satisfied by calculating to be 28.355 DEG]35 ° is the requirement.

Calculating the productivity of the jujube pit peripheral axial joint cutting device before the fresh jujube is used for manufacturing the candied jujubes;

the method is characterized in that a motor of Xindemark Motor company, Guangzhou, is adopted, the model of the motor is D5BLD450-310A-30S, the model of a matching driver is BLD-350B, the power of the motor is 450W, the voltage is 310V, the rated rotating speed is 3000r/min, the transmission ratio is 100, the output rotating speed nq is 30r/min, 6 jujube kerfs are entered in each rotation, 30 multiplied by 6 jujube kerfs are entered in each rotation, 20 fresh jujubes are taken as 500k, the kerfs (180/20) are taken as 500k per minute, the kerfs (180/20) are taken as 4500k, and the kerfs are 4500 multiplied by 60/1000 per hour as 270 kg.

Claims (6)

1. The utility model provides a peripheral axial joint-cutting device of jujube core before bright jujube preparation candied date which characterized in that: the device comprises a cam (7) fixed on the left part of an underframe (24) and a supporting sleeve (11-2) rotatably arranged on the right part of the underframe (24), wherein the cam (7) and the supporting sleeve (11-2) are coaxially arranged; a speed reducing motor assembly (1) is fixed at the center of the cam (7), the output end of the speed reducing motor assembly (1) is connected with a left supporting plate (11-1) through a motor key (1-3), and the left supporting plate (11-1) is welded at the left end of the supporting sleeve (11-2);

a plurality of cutting joint assemblies (10) uniformly distributed around the axis of the cam (7) are arranged outside the cam (7), and the cutting joint assemblies (10) and the cam (7) form rolling connection; the plurality of lancing assemblies (10) are connected with the output end of the speed reducing motor assembly (1) through a middle large end cover (10-6);

the cutting joint assembly (10) comprises a jujube returning shaft (10-1) which is axially arranged along the cam (7), and a left sliding sleeve (10-5) is axially sleeved on the outer shaft of the jujube returning shaft (10-1) in a sliding manner; the outer wall of the left sliding sleeve (10-5) is connected with a transmission bearing (10-4), and the transmission bearing (10-4) is arranged in a groove on the outer wall of the cam (7) in a rolling mode; a blade support (10-11) is fixed at the right end of the left sliding sleeve (10-5); a plurality of blades (10-17) are fixed on the blade support (10-11), and the blades (10-17) are uniformly distributed around the jujube returning shaft (10-1);

a plurality of abdicating and resetting jujube-receiving components (13) which are uniformly distributed around the axis of the supporting sleeve (11-2) are fixedly arranged outside the supporting sleeve (11-2), the number of the abdicating and resetting jujube-receiving components (13) is equal to that of the cutting-seam components (10), and the abdicating and resetting jujube-receiving components (13) and the cutting-seam components (10) are axially opposite to each other along the supporting sleeve (11-2);

the date receiving component (13) capable of yielding and resetting comprises a right sleeve (15-1) connected with the support sleeve (11-2) through a right support plate I (16); a right end cover (15-5) is fixed at the right end of the right sleeve (15-1), a right sliding sleeve (13-10) is axially sleeved at the left end of the right sleeve (15-1) in a sliding manner, and a T-shaped groove disc (13-2) is fixed at the left end of the right sliding sleeve (13-10); the right end of the jujube-ejecting shaft (13-7) is fixed on the right end cover (15-5), and the left end of the jujube-ejecting shaft (13-7) passes through the central hole of the T-shaped groove disc (13-2); the spring (13-9) is sleeved outside the top jujube shaft (13-7), and two ends of the spring (13-9) are connected between the T-shaped groove disc (13-2) and the right end cover (15-5); a receiving component for receiving fresh jujubes (27) is arranged on the left side of the T-shaped groove disc (13-2);

a plurality of waiting area components uniformly distributed around the axis of the supporting sleeve (11-2) are fixedly arranged in the middle of the supporting sleeve (11-2), the number of the waiting area components is equal to that of the jujube receiving components (13) capable of abdicating and resetting, and the waiting area components and the bearing components at the left part of the jujube receiving components (13) capable of abdicating and resetting are alternately arranged;

the hopper assembly (12) is fixed on the base frame (24), and a channel of the hopper assembly (12) is connected above the Chinese date receiving assembly (13).

2. The device for axially slitting the periphery of the date pit of the fresh dates before the candied dates are manufactured according to claim 1, which is characterized in that: the bearing assembly comprises 6 blades (13-1), a radial T-shaped groove C1 arranged around the central hole of the T-shaped groove disk (13-2) is formed in the T-shaped groove disk (13-2), the blades (13-1) are radially and slidably mounted in the T-shaped groove C1, and adjacent blades (13-1) are spaced at intervalsθ ₆=40°；

A spiral gear (13-3) is arranged on the right side of the T-shaped groove disc (13-2), and a central hole of the spiral gear (13-3) is rotatably arranged on a jujube-ejecting shaft (13-7); a pinion (13-5) is rotatably arranged at the left end of the sliding sleeve 13-10, and the pinion (13-5) is meshed with the helical gear (13-3); the left side surface of the spiral gear (13-3) is provided with a logarithmic spiral groove C2, and the right end of the blade (13-1) and the logarithmic spiral groove C2 form a moving pair.

3. The device for axially slitting the periphery of the date pit before the fresh dates are used for manufacturing the candied dates according to claim 1 or 2, which is characterized in that: the first collar (11-3) is sleeved on the support sleeve (11-2) and is positioned through a first collar pin shaft (11-6); the waiting area assembly comprises a support rib plate (11-4) welded on the first shaft collar (11-3), and an arc-shaped plate (11-5) is welded at the outer end of the support rib plate (11-4); the arc-shaped plates (11-5) and the bearing assemblies which can give way and reset and are arranged on the left part of the Chinese date receiving assembly (13) alternately.

4. The device for axially slitting the periphery of the date pit before the fresh dates are used for manufacturing the candied dates according to claim 3, which is characterized in that: the third collar (11-14) is positioned at the left side of the first collar (11-3), and the third collar (11-14) is sleeved on the support sleeve (11-2) and is positioned by a third collar pin shaft (11-15); a left jujube baffle plate (11-13) is welded outside the third collar (11-14); the left jujube baffle (11-13) is provided with a hole axially opposite to the cutting joint assembly (10);

the second shaft ring (11-9) is positioned at the right side of the first shaft ring (11-3), and the second shaft ring (11-9) is sleeved on the support sleeve (11-2) and is positioned through a second shaft ring pin shaft (11-12); a right jujube baffle (11-10) is welded outside the second collar (11-9); the right jujube baffle (11-10) is provided with a hole which is axially opposite to the jujube receiving component (13) which can give way and reset;

a left limiting plate (11-11) is welded outside the second shaft ring (11-9), the left limiting plate (11-11) is located on the left side of the right jujube baffle (11-10), and the outer side edge of the left limiting plate (11-11) is axially opposite to a T-shaped groove disc (13-2) which can be abducted and reset and is located on the left portion of the jujube receiving component (13).

5. The device for axially slitting the periphery of the date pit of the fresh dates before the candied dates are manufactured according to claim 1, which is characterized in that: the channel in the hopper assembly (12) is fixed on the bottom frame (24) through a support plate II (12-2); the excitation screws (12-14) are installed on the support plate II (12-2) through threads and are fastened through support plate nuts (12-15);

a hopper excitation component (14) matched with the excitation screws (12-14) is fixed on a right sleeve (15-1) in the jujube receiving component (13) capable of abdicating and resetting; the hopper excitation assembly (14) comprises an excitation support (14-1) fixed on a right sleeve (15-1); the excitation shaft (14-2) is arranged in a mounting hole on the excitation support (14-1) and is positioned through an excitation pin shaft (14-3); the excitation shaft (14-2) is rotatably sleeved with an excitation roller (14-4), and the excitation roller (14-4) is matched with the excitation screw (12-14) relatively.

6. The device for axially slitting the periphery of the date pit of the fresh dates before the candied dates are manufactured according to claim 5, which is characterized in that: the upper end of a channel in the hopper assembly (12) is connected with a hopper, and the channel comprises a channel left plate (12-1), a channel right plate (12-6), a channel front plate (12-7) and a channel rear plate (12-12);

the rear supporting plate V (26-1) is welded with the channel rear plate (12-12), the right plate (26-4) is welded with the rear supporting plate V (26-1), the right sleeve (26-2) is welded with the channel right plate (12-6), the right sleeve pin (26-3) is inserted into a transverse hole of the left and right adjusting screw (26-5) to form rotatable connection with an inner groove of the right sleeve (26-2), and the left and right adjusting screw (26-5) and the right plate (26-4) are a thread pair;

the right support plate IV (25-1) is welded with the channel left plate (12-1), the front plate (25-4) is welded with the right support plate IV (25-1), the front sleeve (25-2) is welded with the channel front plate (12-7), a front sleeve pin (25-3) is inserted into a transverse hole of the front and rear adjusting screw (25-5) to form rotatable connection with an inner groove of the front sleeve (25-2), and the front and rear adjusting screw (25-5) and the front plate (25-4) are in a thread pair.

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