CN205364016U - In bank red date normal section slicer - Google Patents

Abstract

The utility model discloses an in bank red date normal section slicer, it includes sheave intermittent type feeding mechanism, hold -in range conveying mechanism, vibration gesture sequencing mechanism, gear connecting rod feed mechanism, smooth roll and the circle disc cutter pair roller slice institue of group, separating mechanism, drive mechanism with connect the workbin, the utility model discloses a mechanism design theory and method design, the method of machine -building realizes that it is strong to have the practicality, has the slicing efficiency height, the chipping qualities is excellent, easy operation, the easy maintenance is fit for the large -scale production and uses, once can cut 10~12 red dates, the per minute is cut 60 times, per minute 15 kg that cut into slices approximately.

Description

Fructus Jujubae normal section microtome in a row

Technical field

This utility model relates to Fructus Jujubae normal section microtome in a row, belongs to mechanical manufacturing field.

Background technology

Red date slices is widely applied in food processing and medicine are processed, and current red date slices is in uneven thickness by what how manually to cut into slices one by one, cut into slices.Also have and cut into slices by forming method, namely a Fructus Jujubae is once put into die by the orientation of regulation by people, adopt the mode tramped with one's feet and driven the slide block moved up and down by connecting rod, slide block is installed equally spaced row's cutter, cutter is when moving downward, Fructus Jujubae is cut into slices, cutter is when moving upward, Fructus Jujubae is separated after the baffle on top from section, what the Fructus Jujubae after separation had directly falls into the charging basket of lower section, what have falls into die, now the cushion block below die is removed, form passage, the charging basket of lower section also fallen into by Fructus Jujubae, hereafter, cushion block resets, repeat next process；The process velocity of both approaches is all slower, it is impossible to meet the demand of large-scale production.

Summary of the invention

In order to overcome above-mentioned the deficiencies in the prior art, this utility model provides Fructus Jujubae normal section microtome in a row, it includes sheave interval feeding machanism, synchronous belt conveying mechanism, vibration attitude sorting mechanism, gear connecting rod feeding mechanism, smooth roll and cutting disc group pair roller slicing mechanism, separating mechanism, drive mechanism and splicing case；

Described sheave interval feeding machanism includes Fructus Jujubae feed tank assembly, feed driven toothed belt wheel, the sheave of three grooves and feed synchronous cog belt；Described Fructus Jujubae feed tank assembly upper end is provided with spout；The sheave of three described grooves is placed in Fructus Jujubae feed tank assembly；Sheave and the feed driven toothed belt wheel of three described grooves are co-axially mounted；

Described synchronous belt conveying mechanism includes parabola shaped hopper, rivet, conveying synchronous cog belt, and conveying is profile of tooth belt wheel actively, and feed is profile of tooth belt wheel and feed driven toothed belt wheel actively；Equipped with multiple rows of equally spaced parabola shaped hopper on described conveying synchronous cog belt；Described parabola shaped hopper is fixed on conveying synchronous cog belt by rivet；Described feed actively profile of tooth belt wheel is connected with feed driven toothed belt wheel by conveying synchronous cog belt；Described feed actively profile of tooth belt wheel is co-axially mounted conveying actively profile of tooth belt wheel；

Described conveying actively profile of tooth belt wheel is connected with feed driven toothed belt wheel by feed synchronous cog belt；Realize sheave interval feeding machanism and synchronous belt conveying mechanism reaches synchronous operation.

Described vibration attitude sorting mechanism includes vibration bearing, exciting eccentric shaft, vibration V-type band and vibration actively V-type belt wheel；Described vibration bearing is arranged on conveying synchronous cog belt the bottom of transportation surface；Described exciting eccentric shaft is arranged on vibration bearing；Described vibration actively V-type belt wheel is co-axially mounted with feed actively profile of tooth belt wheel；Described vibration actively V-type belt wheel is connected with exciting eccentric shaft by vibration V-type band；

Described gear connecting rod feeding mechanism includes left rocking bar, right rocking bar, gear, speed increasing gear, rocking bar, lower link, synchronous pulley, crank, frame, adjustable shank and assembly connecting rod；Described left rocking bar one end is fixed on gear；Described right rocking bar is hinged in frame；The free end of described left rocking bar and the free end of right rocking bar are hinged at assembly connecting rod two ends respectively；Described left rocking bar, right rocking bar, frame and assembly connecting rod composition parallel-crank mechanism；On described assembly connecting rod, hinged one arranges adjustable shank；Described gear and speed increasing gear engagement；Described rocking bar one end is fixed on speed increasing gear；Described crank is fixed on synchronous pulley；The free end chain connection of the free end of described rocking bar and lower link one end chain connection, the other end of lower link and crank；

Described smooth roll and cutting disc group pair roller slicing mechanism include frame, cutter group, spacing guiding smooth roll, rolling bearing, spacing direct light roller end lid, smooth roll supporting axle, elastic opening pin, smooth roll belt wheel, cutter group belt wheel, washer sets, cutter group installs sleeve, and cutter group supports axle, cutter group smooth roll end cap and cutter group bearing；Described spacing direct light roller shell is contained on smooth roll supporting axle；Described spacing guiding smooth roll two ends are fixed on smooth roll supporting axle by elastic opening pin；Described smooth roll supporting axle is arranged in frame by rolling bearing；Described smooth roll supporting axle one end is equipped with smooth roll belt wheel；Described spacing guiding smooth roll two ends are equipped with spacing direct light roller end lid；Described cutter group is installed sleeve set and is fixed on cutter group supporting axle；Described cutter group supporting axle is arranged in frame by cutter group bearing；Described cutter group supporting axle one end is equipped with cutter group belt wheel；Described cutter group is sleeved on cutter group by washer sets and installs on sleeve；Described cutter group is made up of n equally spaced blade；

Described separating mechanism includes discharging steel wire and installs axle and discharging steel wire group；Described discharging steel wire group is radially arranged on discharging steel wire and installs on axle；Described discharging steel wire group is made up of n-1 bar steel wire；Described discharging steel wire is installed axle and is arranged in the frame of cutter group supporting axle side；The described steel wire in discharging steel wire group is correspondingly placed in the spacing of cutter group top cutter.

Described drive mechanism includes third level driven shaft, synchronous pulley, second level driven gear, left driven pulley, carrier gear, bridge shaft bearing, bridge shaft, first order driving gear, right driven pulley, the right driven gear of the first order, the right driven shaft of the first order, first order driving shaft, key, second level driving gear, second level driving shaft, second level drive shaft bearing, the left driven gear of the first order, third level driving gear, third level driving shaft, third level driven shaft bearing, third level driven shaft sleeve and third level driven gear；

The right driven shaft of the described first order, first order driving shaft, bridge shaft, second level driving shaft, third level driving shaft and third level driven shaft are installed from right to left successively；

Equipped with the right driven gear of the first order on the right driven shaft of the described first order；The right driven shaft of the described first order is fixed in frame by the right driven shaft bearing of the first order；The described first order right driven shaft one end is equipped with right driven pulley；

Described first order driving shaft is provided with the first order driving gear being meshed with the right driven gear of the first order；Described first order driving shaft is fixed in frame by first order drive shaft bearing；Described first order driving shaft one end is equipped with key；

Described bridge shaft is provided with the carrier gear being meshed with first order driving gear；Described bridge shaft is fixed in frame by bridge shaft bearing；

Equipped with the left driven gear of the first order and second level driving gear on described second level driving shaft；Described carrier gear is meshed with the left driven gear of the first order；Described second level driving shaft is fixed in frame by second level drive shaft bearing；Described driving shaft one end, the second level is equipped with left driven pulley；

Equipped with third level driving gear and second level driven gear on described third level driving shaft；Described second level driving gear is meshed with second level driven gear；Described third level driving shaft is fixed in frame by third level drive shaft bearing；Described third level driving gear is meshed with the third level driven gear being arranged on third level driven shaft with third level driven shaft sleeve；Described third level driven shaft is fixed in frame by third level driven shaft bearing；Described third level driven shaft one end is equipped with synchronous pulley；

Described synchronous pulley is connected with vibration actively V-type belt wheel by conveying Timing Belt；Described synchronous pulley synchronizes to drive band to be connected with synchronous pulley by Fructus Jujubae displacement；Described left driven pulley is connected with smooth roll belt wheel by spacing guiding smooth roll driving v-belt；Described right driven pulley is connected with cutter group belt wheel by rotor driving v-belt.

In described discharging steel wire group, gauge of wire is in cutter group the 60% of blade space.

The reference diameter ratio of described gear and speed increasing gear is 2.

Actively profile of tooth belt wheel pitch diameter is identical with feed driven toothed belt wheel pitch diameter for described feed.

Actively profile of tooth belt wheel pitch diameter is identical with feed driven toothed belt wheel pitch diameter in described conveying.

This utility model beneficial effect:The disclosed in a row Fructus Jujubae normal section microtome of this utility model, has slice efficiency, and chipping qualities is excellent, is suitable for use of large-scale production；Once can cut 10～12 Fructus Jujubaes, per minute cut 60 times, the 15kg that about cuts into slices per minute.

Accompanying drawing explanation

Fig. 1 is this utility model sheave interval feeding machanism and synchronous belt conveying mechanism operation schematic diagram；

Fig. 2 is that this utility model sheave interval feeding machanism runs schematic diagram A；

Fig. 3 is that this utility model sheave interval feeding machanism runs schematic diagram B；

Fig. 4 is this utility model synchronous belt conveying mechanism and vibration attitude sorting mechanism schematic diagram；

Fig. 5 is that this utility model gear connecting rod feeding mechanism and smooth roll and cutting disc group pair roller slicing mechanism run schematic diagram；

Fig. 6 is this utility model smooth roll and cutting disc group pair roller slicing mechanism and separating mechanism schematic diagram；

Fig. 7 is this utility model drive mechanism schematic diagram；

Fig. 8 is V belt translation scheme of installation in this utility model drive mechanism；

Fig. 9 is this utility model Fructus Jujubae section schematic diagram；

nullWherein: Fructus Jujubae feed tank assembly (1)，Feed driven toothed belt wheel (2)，The sheave (3) of three grooves，Feed synchronous cog belt (4)，Parabola shaped hopper (5)，Rivet (6)，Conveying synchronous cog belt (7)，Conveying is profile of tooth belt wheel (8) actively，Feed is profile of tooth belt wheel (9) actively，Vibration bearing (10)，Exciting eccentric shaft (11)，Feed driven toothed belt wheel (12)，Left rocking bar (13)，Right rocking bar (14)，Gear (15)，Speed increasing gear (16)，Rocking bar (17)，Lower link (18)，Synchronous pulley (19)，Crank (20)，Frame (21)，Cutter group (22)，Spacing guiding smooth roll (23)，Adjustable shank (24)，Assembly connecting rod (25)，Rolling bearing (26)，Spacing direct light roller end lid (27)，Smooth roll supporting axle (28)，Elastic opening pin (29)，Smooth roll belt wheel (30)，Cutter group belt wheel (31)，Washer sets (32)，Axle (33) installed by discharging steel wire，Discharging steel wire group (34)，Cutter group installs sleeve (35)，Cutter group supporting axle (36)，Cutter group smooth roll end cap (37)，Cutter group bearing (38)；nullThird level driven shaft (39)，Synchronous pulley (40)，Second level driven gear (41)，Left driven pulley (42)，Carrier gear (43)，Bridge shaft bearing (44)，Bridge shaft (45)，First order driving gear (46)，Right driven pulley (47)，The right driven gear of the first order (48)，The right driven shaft of the first order (49)，First order driving shaft (50)，Key (51)，Second level driving gear (52)，Second level driving shaft (53)，Second level drive shaft bearing (54)，The left driven gear of the first order (55)，Third level driving gear (56)，Third level driving shaft (57)，Third level driven shaft bearing (58)，Third level driven shaft sleeve (59)，Third level driven gear (60)，Vibration is with V-type band (61)，Vibration actively V-type belt wheel (62)，Conveying Timing Belt (63)，Fructus Jujubae displacement is with synchronizing driving band (64)，Spacing guiding smooth roll driving v-belt (65)，Rotor driving v-belt (66).

Detailed description of the invention

Below in conjunction with embodiment, the utility model is described in further detail.

Embodiment 1

As shown in Figures 1 to 9, Fructus Jujubae normal section microtome in a row, it includes sheave interval feeding machanism, synchronous belt conveying mechanism, vibrates attitude sorting mechanism, gear connecting rod feeding mechanism, smooth roll and cutting disc group pair roller slicing mechanism, separating mechanism, drive mechanism and splicing case；

As it is shown in figure 1, described sheave interval feeding machanism includes Fructus Jujubae feed tank assembly 1, feed driven toothed belt wheel 2, the sheave 3 of three grooves and feed synchronous cog belt 4；Described Fructus Jujubae feed tank assembly 1 upper end is provided with spout；The sheave 3 of three described grooves is placed in Fructus Jujubae feed tank assembly 1；Sheave 3 and the feed driven toothed belt wheel 2 of three described grooves are co-axially mounted；Affecting feed in order to avoid the size of Fructus Jujubae has big difference, reply Fructus Jujubae sorts in advance, it is possible to carry out on two layers of screen cloth, it is possible to obtain on the Fructus Jujubae ground floor screen cloth of three class sizes, under；Under second layer screen cloth, so need to change the sheave 3 of three grooves corresponding with Fructus Jujubae size.

As shown in Figure 1 and Figure 4, described synchronous belt conveying mechanism includes parabola shaped hopper 5, rivet 6, conveying synchronous cog belt 7, and conveying is profile of tooth belt wheel 8 actively, and feed is profile of tooth belt wheel 9 and feed driven toothed belt wheel 12 actively；Equipped with multiple rows of equally spaced parabola shaped hopper 5 on described conveying synchronous cog belt 7；Described parabola shaped hopper 5 is fixed on conveying synchronous cog belt 7 by rivet 6；Described feed actively profile of tooth belt wheel 9 is connected with feed driven toothed belt wheel 12 by conveying synchronous cog belt 7；Described feed actively profile of tooth belt wheel 9 is co-axially mounted conveying actively profile of tooth belt wheel 8；

Described conveying actively profile of tooth belt wheel 8 is connected with feed driven toothed belt wheel 2 by feed synchronous cog belt 4；

As shown in Figure 1 to Figure 3, described sheave interval feeding machanism and synchronous belt conveying mechanism should meet, and when parabola shaped hopper arrives sheave 3 position directly below of three grooves, one group of Fructus Jujubae in sheave fairly falls in parabola shaped hopper；Described Fructus Jujubae feed tank assembly 1 and the width of parabola shaped hopper 5 are 410mm.

As shown in Figure 4, described vibration attitude sorting mechanism includes vibration bearing 10, exciting eccentric shaft 11, vibration V-type band 61 and vibration actively V-type belt wheel 62；Described vibration bearing 10 is arranged on conveying synchronous cog belt 7 bottom of transportation surface, and feed is actively between profile of tooth belt wheel 9 and feed driven toothed belt wheel 12；Described exciting eccentric shaft 11 is arranged on vibration bearing 10；Described vibration actively V-type belt wheel 62 is co-axially mounted with feed actively profile of tooth belt wheel 9；Described vibration actively V-type belt wheel 62 is connected with exciting eccentric shaft 11 by vibration V-type band 61；

The Fructus Jujubae attitude feeding parabola shaped hopper is different, it is necessary in course of conveying, by vibrating mechanism, Fructus Jujubae axis is vibrated the attitude parallel with belt wheel axis, and therefore, vibration attitude sorting mechanism should meet lines up parastate by the axis of Fructus Jujubae.

As it is shown in figure 5, described gear connecting rod feeding mechanism includes left rocking bar 13, right rocking bar 14, gear 15, speed increasing gear 16, rocking bar 17, lower link 18, synchronous pulley 19, crank 20, frame 21, adjustable shank 24 and assembly connecting rod 25；Described left rocking bar 13 one end is fixed on gear 15；Described right rocking bar 14 is hinged in frame 21；The free end of described left rocking bar 13 and the free end of right rocking bar 14 are hinged at assembly connecting rod 25 two ends respectively；Described left rocking bar 13, right rocking bar 14, frame 21 and assembly connecting rod 25 form parallel-crank mechanism；The free end hinged one of described assembly connecting rod 25 arranges adjustable shank 24；Described gear 15 and speed increasing gear 16 engage；Described rocking bar 17 one end is fixed on speed increasing gear 16；Described crank 20 is fixed on synchronous pulley 19；The free end chain connection of the free end of described rocking bar 17 and lower link 18 one end chain connection, the other end of lower link 18 and crank 20；

As shown in Figure 5, gear connecting rod feeding mechanism is that one group of Fructus Jujubae is fed smooth roll and cutting disc group pair roller slicing mechanism, carry out normal section section, the free end hinged one of the assembly connecting rod 25 of feeding mechanism arranges adjustable shank 24, insert Fructus Jujubae by adjustable shank 24, Fructus Jujubae is transported between smooth roll and cutting disc group, owing to the frictional force extruding generation of cutter group and Fructus Jujubae is more than the frictional force between pin and Fructus Jujubae, Fructus Jujubae departs from from pin, enters section state.Its mechanical movement is: whenAPoint existsA ₁During position, on assembly connecting rod 25DPoint existsD ₁Position, on adjustable shank 24GPoint existsG ₁Position,G ₁Position is the position that pin inserts Fructus Jujubae, and now Fructus Jujubae just arrivesG ₁Point；WhenAPoint existsA _n During position, on assembly connecting rod 25DPoint existsD _n Position, on adjustable shank 24GPoint existsG _n Position,G _n Position is the position that section sent to by Fructus Jujubae by shank；When crank 20 turns around,DPoint fromD ₁ArriveG _n ReturnD ₁Position a, it is achieved circulation, next group Fructus Jujubae displacementSArrive againG ₁Point；Synchronous pulley 19 turns around, parabola shaped hopper 5 displacement oneSDistance.

As shown in Figure 6, described smooth roll and cutting disc group pair roller slicing mechanism include frame 21, cutter group 22, spacing guiding smooth roll 23, rolling bearing 26, spacing direct light roller end lid 27, smooth roll supporting axle 28, elastic opening pin 29, smooth roll belt wheel 30, cutter group belt wheel 31, washer sets 32, cutter group installs sleeve 35, and cutter group supports axle 36, cutter group smooth roll end cap 37 and cutter group bearing 38；Described spacing guiding smooth roll 23 is sleeved on smooth roll supporting axle 28；Described spacing guiding smooth roll 23 two ends are fixed on smooth roll supporting axle 28 by elastic opening pin 29；Described smooth roll supporting axle 28 is arranged in frame 21 by rolling bearing 26；Described smooth roll supporting axle 28 one end is equipped with smooth roll belt wheel 30；Described spacing guiding smooth roll 23 two ends are equipped with spacing direct light roller end lid 27；Described cutter group is installed sleeve 35 suit and is fixed on cutter group supporting axle 36；Described cutter group supporting axle 36 is arranged in frame 21 by cutter group bearing 38；Described cutter group supporting axle 36 one end is equipped with cutter group belt wheel 31；Described cutter group 22 is sleeved on cutter group by washer sets 32 and installs on sleeve 35；Described cutter group 22 is made up of equally spaced blade；

Smooth roll belt wheel 30 and the spacing synchronized rotation of guiding smooth roll 23, rotating speed is 140r/min；Cutter group 22 and the synchronized rotation of cutter group belt wheel 31, rotating speed is 140r/min；The spacing of cutter group is determined by user.

As shown in Figure 5 and Figure 8, described separating mechanism includes discharging steel wire and installs axle 33 and discharging steel wire group 34；Described discharging steel wire group 34 is radially arranged on discharging steel wire and installs on axle 33；Described discharging steel wire group 34 is made up of n-1 bar steel wire；Described discharging steel wire is installed axle 33 and is arranged in the frame 21 of cutter group supporting axle 36 side；The described steel wire in discharging steel wire group 34 is correspondingly placed in the spacing of cutter group 22 top cutter.

Described drive mechanism includes third level driven shaft 39, synchronous pulley 40, second level driven gear 41, left driven pulley 42, carrier gear 43, bridge shaft bearing 44, bridge shaft 45, first order driving gear 46, right driven pulley 47, the right driven gear 48 of the first order, the right driven shaft 49 of the first order, first order driving shaft 50, key 51, second level driving gear 52, second level driving shaft 53, second level drive shaft bearing 54, the left driven gear 55 of the first order, third level driving gear 56, third level driving shaft 57, third level driven shaft bearing 58, third level driven shaft sleeve 59 and third level driven gear 60；

As it is shown in fig. 7, the right driven shaft 49 of the described first order, first order driving shaft 50, bridge shaft 45, second level driving shaft 53, third level driving shaft 57 and third level driven shaft 39 are installed from right to left successively；Equipped with the right driven gear 48 of the first order on the right driven shaft of the described first order 49；The right driven shaft of the described first order 49 is fixed in frame 21 by the right driven shaft bearing of the first order；The described first order right driven shaft 49 one end is equipped with right driven pulley 47；Described first order driving shaft 50 is provided with the first order driving gear 46 being meshed with the right driven gear 48 of the first order；Described first order driving shaft 50 is fixed in frame 21 by first order drive shaft bearing；Described first order driving shaft 50 one end is equipped with key 51；Described bridge shaft 45 is provided with the carrier gear 43 being meshed with first order driving gear 46；Described bridge shaft 45 is fixed in frame 21 by bridge shaft bearing 44；Equipped with the left driven gear 55 of the first order and second level driving gear 52 on described second level driving shaft 53；Described carrier gear 43 is meshed with the left driven gear 55 of the first order；Described second level driving shaft 53 is fixed in frame 21 by second level drive shaft bearing 54；Described second level driving shaft 53 one end is equipped with left driven pulley 42；Equipped with third level driving gear 56 and second level driven gear 41 on described third level driving shaft 57；Described second level driving gear 52 is meshed with second level driven gear 41；Described third level driving shaft 57 is fixed in frame 21 by third level drive shaft bearing；Described third level driving gear 56 is meshed with the third level driven gear 60 being arranged on third level driven shaft 39 with third level driven shaft sleeve 59；Described third level driven shaft 39 is fixed in frame 21 by third level driven shaft bearing 58；Described third level driven shaft 39 one end is equipped with synchronous pulley 40；

As shown in Figure 8, described synchronous pulley 40 is connected with vibration actively V-type belt wheel 62 by conveying Timing Belt 63；Described synchronous pulley 40 synchronizes to drive band 64 to be connected with synchronous pulley 19 by Fructus Jujubae displacement；Described left driven pulley 42 is connected with smooth roll belt wheel 30 by spacing guiding smooth roll driving v-belt 65；Described right driven pulley 47 is connected with cutter group belt wheel 31 by rotor driving v-belt 66.

Drive mechanism is made up of two parts, and part is gear drive and transfer gear；Left driven pulley 42 is identical with right driven pulley 47 rotating speed to be turned on the contrary, and rotating speed is 1400/2.5r/min；The rotating speed of synchronous pulley 40 is 1400/2.5/55/18²r/min。

In described discharging steel wire group 34, gauge of wire is in cutter group 22 the 60% of blade space.

The reference diameter ratio of described gear 15 and speed increasing gear 16 is 2.

Actively profile of tooth belt wheel 9 pitch diameter is identical with feed driven toothed belt wheel 12 pitch diameter for described feed.

Actively profile of tooth belt wheel 8 pitch diameter is identical with feed driven toothed belt wheel 2 pitch diameter in described conveying.

As it is shown in figure 9, Fructus Jujubae section schematic diagram.

This utility model Fructus Jujubae normal section microtome in a row, designed by mechanism's design theory and method, the method of machine-building creates, used V-type band, Timing Belt, bearing, key, pin, sealing ring and motor select standard, gear adopts 45 steel, axle adopts 45 steel, and casing adopts 20 steel plates or shaped steel to be welded.

Claims (6)

1. Fructus Jujubae normal section microtome in a row, it is characterised in that: it includes sheave interval feeding machanism, synchronous belt conveying mechanism, vibrates attitude sorting mechanism, gear connecting rod feeding mechanism, smooth roll and cutting disc group pair roller slicing mechanism, separating mechanism, drive mechanism and splicing case；

Described sheave interval feeding machanism includes Fructus Jujubae feed tank assembly (1), feed driven toothed belt wheel (2), the sheave (3) of three grooves and feed synchronous cog belt (4)；Described Fructus Jujubae feed tank assembly (1) upper end is provided with spout；The sheave (3) of three described grooves is placed in Fructus Jujubae feed tank assembly (1)；Sheave (3) and feed driven toothed belt wheel (2) of three described grooves are co-axially mounted；

Described synchronous belt conveying mechanism includes parabola shaped hopper (5), rivet (6), conveying synchronous cog belt (7), conveying is profile of tooth belt wheel (8) actively, and feed is profile of tooth belt wheel (9) and feed driven toothed belt wheel (12) actively；Equipped with multiple rows of equally spaced parabola shaped hopper (5) on described conveying synchronous cog belt (7)；Described parabola shaped hopper (5) is fixed on conveying synchronous cog belt (7) by rivet (6)；Described feed actively profile of tooth belt wheel (9) is connected with feed driven toothed belt wheel (12) by conveying synchronous cog belt (7)；Described feed actively profile of tooth belt wheel (9) is co-axially mounted conveying actively profile of tooth belt wheel (8)；

Described conveying actively profile of tooth belt wheel (8) is connected with feed driven toothed belt wheel (2) by feed synchronous cog belt (4)；

Described vibration attitude sorting mechanism includes vibration bearing (10), exciting eccentric shaft (11), vibration V-type band (61) and vibration actively V-type belt wheel (62)；Described vibration bearing (10) is arranged on the bottom of the upper transportation surface of conveying synchronous cog belt (7)；Described exciting eccentric shaft (11) is arranged on vibration bearing (10)；Described vibration actively V-type belt wheel (62) is co-axially mounted with feed actively profile of tooth belt wheel (9)；Described vibration actively V-type belt wheel (62) is connected with exciting eccentric shaft (11) by vibration V-type band (61)；

Described gear connecting rod feeding mechanism includes left rocking bar (13), right rocking bar (14), gear (15), speed increasing gear (16), rocking bar (17), lower link (18), synchronous pulley (19), crank (20), frame (21), adjustable shank (24) and assembly connecting rod (25)；Described left rocking bar (13) one end is fixed on gear (15)；Described right rocking bar (14) is hinged in frame (21)；The free end of described left rocking bar (13) and the free end of right rocking bar (14) are hinged at assembly connecting rod (25) two ends respectively；Described left rocking bar (13), right rocking bar (14), frame (21) and assembly connecting rod (25) composition parallel-crank mechanism；Adjustable shank (24) arranged by described assembly connecting rod (25) upper hinged；Described gear (15) and speed increasing gear (16) engagement；Described rocking bar (17) one end is fixed on speed increasing gear (16)；Described crank (20) is fixed on synchronous pulley (19)；The free end chain connection of the free end of described rocking bar (17) and lower link (18) one end chain connection, the other end of lower link (18) and crank (20)；

Described smooth roll and cutting disc group pair roller slicing mechanism include frame (21), cutter group (22), spacing guiding smooth roll (23), rolling bearing (26), spacing direct light roller end lid (27), smooth roll supporting axle (28), elastic opening pin (29), smooth roll belt wheel (30), cutter group belt wheel (31), washer sets (32), cutter group installs sleeve (35), cutter group supporting axle (36), cutter group smooth roll end cap (37) and cutter group bearing (38)；Described spacing guiding smooth roll (23) is sleeved on smooth roll supporting axle (28)；Described spacing guiding smooth roll (23) two ends are fixed on smooth roll supporting axle (28) by elastic opening pin (29)；Described smooth roll supporting axle (28) is arranged in frame (21) by rolling bearing (26)；Described smooth roll supporting axle (28) one end is equipped with smooth roll belt wheel (30)；Described spacing guiding smooth roll (23) two ends are equipped with spacing direct light roller end lid (27)；Described cutter group is installed sleeve (35) suit and is fixed in cutter group supporting axle (36)；Described cutter group supporting axle (36) is arranged in frame (21) by cutter group bearing (38)；Described cutter group supporting axle (36) one end is equipped with cutter group belt wheel (31)；Described cutter group (22) is sleeved on cutter group by washer sets (32) and installs on sleeve (35)；Described cutter group (22) is made up of n equally spaced blade；

Described separating mechanism includes discharging steel wire and installs axle (33) and discharging steel wire group (34)；Described discharging steel wire group (34) is radially arranged on discharging steel wire and installs on axle (33)；Described discharging steel wire group (34) is made up of n-1 bar steel wire；Described discharging steel wire is installed axle (33) and is arranged in the frame (21) of cutter group supporting axle (36) side；The described steel wire in discharging steel wire group (34) is correspondingly placed in the spacing of cutter group (22) top cutter.

null2. Fructus Jujubae normal section microtome in a row according to claim 1，It is characterized in that: described drive mechanism includes third level driven shaft (39)，Synchronous pulley (40)，Second level driven gear (41)，Left driven pulley (42)，Carrier gear (43)，Bridge shaft bearing (44)，Bridge shaft (45)，First order driving gear (46)，Right driven pulley (47)，The right driven gear of the first order (48)，The right driven shaft of the first order (49)，First order driving shaft (50)，Key (51)，Second level driving gear (52)，Second level driving shaft (53)，Second level drive shaft bearing (54)，The left driven gear of the first order (55)，Third level driving gear (56)，Third level driving shaft (57)，Third level driven shaft bearing (58)，Third level driven shaft sleeve (59) and third level driven gear (60)；

The right driven shaft of the described first order (49), first order driving shaft (50), bridge shaft (45), second level driving shaft (53), third level driving shaft (57) and third level driven shaft (39) are installed from right to left successively；

Equipped with the right driven gear of the first order (48) in the right driven shaft of the described first order (49)；The right driven shaft of the described first order (49) is fixed in frame (21) by the right driven shaft bearing of the first order；The described first order right driven shaft (49) one end is equipped with right driven pulley (47)；

Described first order driving shaft (50) is provided with the first order driving gear (46) being meshed with the right driven gear of the first order (48)；Described first order driving shaft (50) is fixed in frame (21) by first order drive shaft bearing；Described first order driving shaft (50) one end is equipped with key (51)；

Described bridge shaft (45) is provided with the carrier gear (43) being meshed with first order driving gear (46)；Described bridge shaft (45) is fixed in frame (21) by bridge shaft bearing (44)；

Equipped with the left driven gear of the first order (55) and second level driving gear (52) on described second level driving shaft (53)；Described carrier gear (43) is meshed with the left driven gear of the first order (55)；Described second level driving shaft (53) is fixed in frame (21) by second level drive shaft bearing (54)；Described second level driving shaft (53) one end is equipped with left driven pulley (42)；

Equipped with third level driving gear (56) and second level driven gear (41) on described third level driving shaft (57)；Described second level driving gear (52) is meshed with second level driven gear (41)；Described third level driving shaft (57) is fixed in frame (21) by third level drive shaft bearing；Described third level driving gear (56) is meshed with the third level driven gear (60) being arranged on third level driven shaft (39) with third level driven shaft sleeve (59)；Described third level driven shaft (39) is fixed in frame (21) by third level driven shaft bearing (58)；Described third level driven shaft (39) one end is equipped with synchronous pulley (40)；

Described synchronous pulley (40) is connected with vibration actively V-type belt wheel (62) by conveying Timing Belt (63)；Described synchronous pulley (40) synchronizes to drive band (64) to be connected with synchronous pulley (19) by Fructus Jujubae displacement；Described left driven pulley (42) is connected with smooth roll belt wheel (30) by spacing guiding smooth roll driving v-belt (65)；Described right driven pulley (47) is connected with cutter group belt wheel (31) by rotor driving v-belt (66).

3. Fructus Jujubae normal section microtome in a row according to claim 1, it is characterised in that: in described discharging steel wire group (34), gauge of wire is in cutter group (22) the 60% of blade space.

4. Fructus Jujubae normal section microtome in a row according to claim 1, it is characterised in that: the reference diameter ratio of described gear (15) and speed increasing gear (16) is 2.

5. Fructus Jujubae normal section microtome in a row according to claim 1, it is characterised in that: actively profile of tooth belt wheel (9) pitch diameter is identical with feed driven toothed belt wheel (12) pitch diameter for described feed.

6. Fructus Jujubae normal section microtome in a row according to claim 1, it is characterised in that: actively profile of tooth belt wheel (8) pitch diameter is identical with feed driven toothed belt wheel (2) pitch diameter in described conveying.