CN212728754U - Stick penetrating machine - Google Patents

Abstract

The utility model relates to a stick penetrating machine, which comprises a frame, a material conveying roller, a rotation driving device, a movable pressing block, a pressing block moving driving device and a stick penetrating component; the peripheral wall of the material transfer roller is provided with more than one material accommodating groove, and any one material accommodating groove of the material transfer roller rotates to a position between the movable pressing block and the rotating center of the material transfer roller, namely a stick penetrating working position which can be matched with the movable pressing block to compress and fix the material in the material accommodating groove at the position; the stick penetrating assembly comprises a stick inserting storage device, and a stick inserting storage groove is formed in the stick inserting storage device; the label penetrating assembly further comprises a label inserting pushing device and a label inserting movement driving device. The utility model discloses can replace manual work of wearing to sign, the operating mass with good quality who wears to sign, work efficiency is high moreover, can reduce artifical manufacturing cost, still has easy operation, the advantage of facilitate promotion and application.

Description

Stick penetrating machine

Technical Field

The utility model relates to a food processing equipment is a wear to sign machine very much.

Background

In the production and processing process of cylindrical food such as gluten or sausage, the peripheral wall sometimes needs to be cut with flowers to improve the aesthetic property of the food and attract other people, and the food sometimes needs to be labeled after being cut with the flowers so as to be manually taken at a later period.

The work of current cut flower and threading a bamboo slips relies on the manual work to go on mostly, and the quality of artifical cut flower is uneven, and the aesthetic property is difficult to guarantee, and the same manual work is threaded a bamboo slips, inserts and signs and hardly wears to the end from beginning to end, can wear out from the lateral wall of this food occasionally, perhaps inserts and signs the position difference great, leads to the product specification to be non-uniform, the great reduction of quality, manual operation work efficiency is lower moreover, intensity of labour is big, and high in production cost is not conform to the demand of modern production and processing.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the utility model provides a threading machine of signing, should thread the machine of signing and can replace manual threading work, the work quality of threading the signing is good, and work efficiency is high moreover, can reduce artifical manufacturing cost.

The utility model discloses a following technical scheme realizes: a stick penetrating machine is characterized in that: the automatic labeling machine comprises a rack, a material conveying roller rotationally connected to the rack, a rotation driving device in transmission connection with the material conveying roller and used for driving the material conveying roller to rotate, a movable pressing block movably mounted on the rack and located on the radial outer side of the material conveying roller and capable of moving radially relative to the material conveying roller, a pressing block moving driving device connected between the rack and the movable pressing block and used for driving the movable pressing block to move radially, and a labeling assembly arranged on the axial side of the material conveying roller;

the peripheral wall of the material transfer roller is provided with more than one material accommodating groove which is arranged at intervals in sequence along the circumferential direction, extends along the direction parallel to the rotating central line and is sunken towards the direction close to the rotating central line for accommodating strip-shaped materials, and any one material accommodating groove of the material transfer roller rotates to a position between the movable pressing block and the rotating center of the material transfer roller, namely a label-sticking working position which can be matched with the movable pressing block to tightly press and fix the materials in the material accommodating groove at the position;

the stick penetrating assembly comprises a stick inserting storage device which is arranged on the rack and is positioned at the axial side of the material conveying roller, more than one stick inserting accommodating groove which is arranged in parallel at intervals and has the channel extending direction parallel to the material accommodating groove extending direction and used for accommodating a stick is arranged on the stick inserting storage device, and one of the stick inserting accommodating grooves can be positioned at a stick penetrating preparation position right opposite to the middle part of a material in the material accommodating groove at the stick penetrating working position in the stick penetrating working process of the stick inserting storage device; the stick penetrating assembly further comprises a stick inserting pushing device and a stick inserting movement driving device, wherein the stick inserting pushing device can move in a reciprocating mode in the linear extending direction of the stick penetrating preparation position so as to push the stick inserting in the stick inserting accommodating groove of the stick penetrating preparation position to the middle of the material in the material accommodating groove of the stick penetrating working position, and the stick inserting movement driving device is connected between the stick inserting pushing device and the rack and used for driving the stick inserting pushing device to move in a reciprocating mode.

Preferably, the inserting and storing device is composed of an inserting and storing roller which is rotatably installed on the rack, the rotating center line of the inserting and storing roller and the rotating center line of the material conveying roller extend coaxially, the inserting and storing grooves are formed in the outer circumferential wall of the inserting and storing roller, extend along the direction parallel to the rotating center line of the inserting and storing roller and are arranged in a concave mode towards the rotating center line direction, the number of the inserting and storing grooves is more than two, and the inserting and storing grooves are sequentially arranged at intervals along the outer circumferential direction of the inserting and storing roller; the stick inserting pushing device is composed of a shifting sheet positioned on a stick penetrating preparation position, and the shifting sheet can reciprocate in a stick inserting accommodating groove positioned on the stick penetrating preparation position and move to an avoiding position retreating from the stick inserting accommodating groove when the stick inserting roller rotates under the driving of the stick inserting movement driving device.

Preferably, the stick inserting movement driving device is composed of a telescopic cylinder which is arranged beside the stick inserting roller and the telescopic direction of which is parallel to the movement direction of the shifting piece, the telescopic cylinder is fixedly arranged on the rack, and the free end of a piston rod of the telescopic cylinder is fixedly connected with the shifting piece; insert and sign and still be equipped with the flexible direction subassembly that is used for leading the direction of motion of plectrum between mobile drive arrangement and the plectrum, flexible direction subassembly includes flexible guide bar and flexible deflector, flexible guide bar sets up and axial one end fixed connection on the plectrum and the axial other end extends the setting to the direction that is close to material transfer roller along the direction of motion that is on a parallel with the plectrum, flexible deflector fixed connection is on telescopic cylinder and the activity cup joints on telescopic guide bar's periphery wall.

Preferably, more than one lower blade which is uniformly arranged at intervals along the extension direction of the corresponding material containing groove and extends outwards from the bottom of the material containing groove along the radial direction of the material transfer roller is arranged above the bottom of each material containing groove of the material transfer roller, more than one upper blade which is arranged at intervals in a staggered way with each lower blade at the tag penetrating working position and extends towards the direction of the rotating center of the material transfer roller is arranged at the bottom of the movable pressing block, when the upper blade moves to the position matched with the lower blade at the tag penetrating working position to cut the flower of the material in the material accommodating groove along with the movable pressing block, the cutting edge position of the bottom of the upper blade is higher than the bottom position of the material, the cutting edge position of the top of the lower blade is lower than the top position of the material, so that the lower blade cannot cut the top of the material upwards and the upper blade cannot cut the bottom of the material downwards during the flower cutting operation; and a lower stick passing hole and an upper stick passing hole which are convenient for inserting sticks into the material and avoiding the sticks when the sticks are inserted into the material are respectively arranged in the middle of the top of the lower blade and in the middle of the bottom of the upper blade.

Preferably, the material transfer roller is composed of more than two connecting discs which are sequentially arranged at intervals along the direction of a rotation central line, more than one fan-shaped notch which is sequentially distributed at intervals along the same circumferential direction, extends along the direction parallel to the axis and is concavely arranged towards the direction close to the rotation central line is arranged on the peripheral wall of each connecting disc, the fan-shaped notches of the connecting discs in the same direction parallel to the direction of the rotation central line form the material accommodating groove, the material transfer roller further comprises more than one annular blade which is coaxially clamped between every two adjacent connecting discs, the part of each annular blade exposed in the material accommodating groove forms the lower blade, and each connecting disc and each annular blade are fixedly connected through a first locking component; the first locking assembly may be a bolt assembly.

The movable pressing block is composed of more than two connecting blocks which are sequentially arranged at intervals along the direction parallel to the rotating center line of the material transfer roller, each upper blade is respectively clamped between every two adjacent connecting blocks and extends towards the direction of the rotating center line of the material transfer roller, and each connecting block and each upper blade are fixedly locked through a second locking assembly. The second locking assembly may be a bolt assembly.

Preferably, more than one upper blade which is arranged at intervals along the direction parallel to the axis of the material conveying roller and extends towards the direction of the rotating center of the material conveying roller is arranged on the movable pressing block, the upper blade comprises two inclined blades which are symmetrically arranged at intervals, and the inclined blades are obliquely arranged from the position close to the symmetrical center line of the inclined blades to the direction far away from the symmetrical center line; when the upper blade moves to the position for cutting the patterns of the materials in the label penetrating working position along with the movable pressing block, the two inclined blades can cut into the two sides of the materials in the same radial direction respectively.

Preferably, the upper blade further comprises a connecting sheet fixedly connected between the two inclined blades, and two fixing sheets respectively fixedly connected to free ends of the two inclined blades and respectively extending in a direction away from the symmetrical center line; the material that can dodge the material dodges the groove still leaves in the bottom of connection piece, the activity briquetting comprises the connecting block of interval arrangement in proper order along the direction that is on a parallel with the axis of rotation of material transfer roller more than two, each goes up the blade and presss from both sides respectively and establishes to install between every two adjacent connecting blocks and extend to material transfer roller axis of rotation place direction, fixes the closure through second closure assembly between each connecting block and two stationary blades of each last blade.

Preferably, the rotation center line of the material transfer roller is horizontally arranged, and the movable pressing block is positioned right above the material transfer roller; the frame comprises two side baffles which are vertically arranged and are respectively arranged at two axial sides of the material transfer roller and perpendicular to the rotation center line of the material transfer roller, and a pressing block moving guide component which is positioned between the two side baffles, is fixedly connected with the frame and is in sliding connection with the movable pressing block and is used for guiding the movement of the movable pressing block; the axial two ends of the material transfer roller are respectively arranged on the baffles at the two sides.

Preferably, briquetting removes direction subassembly includes fixed connection on the activity briquetting and vertical upwards extending vertical guide bar and fixed connection between two side shields and the activity cup joints the fixed guide plate at vertical guide bar upper end periphery wall, briquetting removes drive arrangement and is the lift cylinder of more than one fixed mounting in fixed guide plate bottom, the piston rod free end of lift cylinder and the last fixed surface of activity briquetting are connected.

Preferably, wear to sign machine still includes the sharing pivot with the coaxial setting of material transfer roller, the fixed cover of material transfer roller is put on the periphery wall of sharing pivot, insert and sign the roller and also put on the periphery wall of sharing pivot by the coaxial fixed cover, insert and sign the roller and fit with a contraceptive ring and be equipped with the round and to being close to the sunken plectrum that is used for of axis direction and can let the plectrum remove to withdraw from and insert the plectrum annular of signing the storage tank and dodge when inserting the rotation of signing the roller far away from the axial one end periphery wall of material transfer roller and let the groove.

Preferably, the stick penetrating machine further comprises a material feeding device for facilitating material feeding, the material feeding device comprises a material storage tank arranged between the two side baffles and located on one side of the radial direction of the material transfer roller, and a conveyor belt assembly connected between the material storage tank and the material transfer roller and used for conveying the material in the material storage tank to the material transfer roller, the conveyor belt assembly comprises a first roller shaft and a second roller shaft which are rotatably connected between the two side baffles and arranged in parallel, and a conveyor belt connected between the first roller shaft and the second roller shaft, the tank bottom of the material storage tank and the upper surface of the conveyor belt are obliquely arranged from top to bottom in the direction close to the material transfer roller, the inlet end of the conveyor belt is arranged above the tail end of the outlet of the material storage tank, so that the material close to the lower end opening in the material storage tank can be just conveyed to the conveyor belt, the outlet end of the conveying belt is arranged on one side close to the material conveying roller, and materials on the conveying belt can just fall into a material accommodating groove of the material conveying roller.

Preferably, the stick penetrating machine further comprises a hopper device which is arranged above the side of the stick inserting roller and is used for facilitating the feeding of the sticks to the stick inserting accommodating groove of the stick inserting roller, an inner cavity which is parallel to the axial direction of the stick inserting roller and is longer than or equal to the length of the sticks is arranged in the hopper device, a stick inserting discharge hole which is communicated with the inner cavity and the outer part of the hopper device and is parallel to the stick inserting accommodating groove is arranged at the bottom of the hopper device, the shape and the size of the stick inserting discharge hole are matched and corresponding to the shape and the size of the sticks, the stick inserting discharge hole is arranged at an obliquely upper position close to the outer peripheral wall of the stick inserting roller, the distance from the stick inserting discharge hole to the outer peripheral wall of the stick inserting roller is smaller than the diameter of the sticks, and the distance from the stick inserting discharge hole to the bottom of the stick inserting accommodating groove when the stick inserting discharge hole passes through the stick inserting discharge hole, so that when the stick inserting, the insert sticks in the hopper device can fall into the insert stick accommodating groove.

Preferably, the rotation driving device comprises a driving motor, a driving pulley fixedly connected to an output shaft of the driving motor, a first driven pulley and a second driven pulley which are arranged in parallel with the driving pulley and fixedly connected to the second roller shaft and one axial end of the common rotating shaft respectively, and a transmission belt which is in transmission connection among the driving pulley, the first driven pulley and the second driven pulley so that the driving pulley, the first driven pulley and the second driven pulley can rotate synchronously.

Compared with the prior art, the utility model has the advantages that:

1. the utility model relates to a wear to sign machine should wear to sign machine can replace manual work of wearing to sign, and the operating mass with good quality who wears to sign, and work efficiency is high moreover, can reduce artifical manufacturing cost.

2. The utility model provides a pair of wear to sign machine, wherein insert and sign strorage device and constitute by inserting the sign roller, can last carry insert sign to wear to sign and prepare the position on, make things convenient for the plectrum to promote to insert sign and insert sign work.

3. The utility model provides a pair of wear to sign machine should wear to sign machine and can also carry out the cut flower work, can promote the aesthetic property and the competitiveness of material product.

4. The utility model provides a pair of wear to sign machine, wherein material transfer roller and bottom knife form by connection pad and annular blade closure fixed connection, holistic simple structure, and the change and the maintenance of later stage blade are very convenient moreover.

5. The utility model provides a pair of wear to sign machine, wherein the material transfer roller with insert a pivot of signing roller sharing, can realize the material transfer roller and insert and sign the roller synchronous rotation, further simplify this transmission structure who wears to sign machine.

6. The utility model provides a pair of wear to sign machine still has easy operation, the advantage of convenient to popularize and apply.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of a first embodiment of the present invention;

fig. 2 is a schematic three-dimensional structure diagram of the embodiment of the present invention without a side baffle;

fig. 3 is a schematic view of a transmission relationship structure in the first embodiment of the present invention;

FIG. 4 is an exploded view of the material transfer roller, the movable pressing block and the related parts thereof according to the first embodiment of the present invention;

fig. 5 is a schematic structural view of an upper blade according to a first embodiment of the present invention;

fig. 6 is a schematic structural view of a middle ring blade according to an embodiment of the present invention;

fig. 7 is a schematic structural view of a stick inserting roller and a hopper device according to an embodiment of the present invention;

FIG. 8 is a front view of a stick inserting roller and hopper assembly according to an embodiment of the present invention;

FIG. 9 is a cross-sectional view D-D of FIG. 8;

FIG. 10 is an enlarged view of E in FIG. 9;

FIG. 11 is a schematic structural view of a material after being subjected to flower cutting and label threading by a label threading machine of the embodiment;

FIG. 12 is a schematic structural view of a movable pressing block and an upper blade in the second embodiment of the present invention;

fig. 13 is a schematic structural view of a connecting block and an upper blade in the second embodiment of the present invention;

fig. 14 is a first schematic structural view of an upper blade according to a second embodiment of the present invention;

fig. 15 is a second schematic structural view of an upper blade according to a second embodiment of the present invention;

fig. 16 is a schematic structural diagram of a material after being subjected to flower cutting and label threading by the second label threading machine of the embodiment.

Description of reference numerals: 1-rack, 2-side baffle, 3-material transfer roller, 31-material containing groove, 32-lower blade, 321-lower passing label avoiding hole, 33-connecting disc, 331-fan-shaped notch, 34-annular blade, 35-first locking component, 41-movable pressing block, 411-connecting block, 42-pressing block moving driving device, 43-pressing block moving guiding component, 431-vertical guiding rod, 432-fixed guiding plate, 44-upper blade, 441-upper passing label avoiding hole, 442-inclined blade, 443-connecting sheet, 444-fixing sheet, 445-material avoiding groove, 45-second locking component, 5-passing label component, 51-inserting label storing device, 511-inserting label containing groove, 512-shifting sheet annular avoiding groove, 52-stick inserting and pushing device, 53-stick inserting and moving driving device, 54-telescopic guide assembly, 541-telescopic guide rod, 542-telescopic guide plate, 6-rotating driving device, 61-driving pulley, 62-first driven pulley, 63-second driven pulley, 64-transmission belt, 7-common rotating shaft, 8-material feeding device, 81-material storage tank, 82-transmission belt assembly, 821-first roller shaft, 822-second roller shaft, 823-transmission belt, 9-hopper device, 91-stick inserting and discharging port, a-material, b-stick penetrating working position, c-stick inserting and d-stick penetrating preparation position.

Detailed Description

The invention is explained in detail below with reference to the accompanying drawings:

as shown in fig. 1-11, the utility model relates to a stick penetrating machine, its characterized in that: the automatic labeling machine comprises a rack 1, a material conveying roller 3 rotationally connected to the rack 1, a rotation driving device 6 which is in transmission connection with the material conveying roller 3 and is used for driving the material conveying roller 3 to rotate, a movable pressing block 41 which is movably arranged on the rack 1 and is positioned on the radial outer side of the material conveying roller 3 and can move radially relative to the material conveying roller 3, a pressing block movement driving device 42 which is connected between the rack 1 and the movable pressing block 41 and is used for driving the movable pressing block 41 to move radially, and a labeling component 5 which is arranged on the axial side of the material conveying roller 3;

the peripheral wall of the material transfer roller 3 is provided with more than one material accommodating grooves 31 which are sequentially arranged at intervals along the circumferential direction, extend along the direction parallel to the rotating central line and are sunken towards the direction close to the rotating central line for accommodating the strip-shaped materials a, and any one material accommodating groove 31 of the material transfer roller 3 rotates to a position between the movable pressing block 41 and the rotating center of the material transfer roller 3, and is a label penetrating working position b which can be matched with the movable pressing block 41 to compress and fix the materials a in the material accommodating groove 31 at the position;

the stick penetrating assembly 5 comprises a stick inserting storage device 51 which is arranged on the rack 1 and is positioned at the axial side of the material conveying roller 3, more than one stick inserting accommodating groove 511 which is arranged in parallel at intervals and has the channel extending direction parallel to the material accommodating groove 31 and used for accommodating a stick inserting c is arranged on the stick inserting storage device 51, and the stick inserting storage device 51 can enable one of the stick inserting accommodating grooves 511 to be positioned at a stick penetrating preparation position d opposite to the middle part of the material a in the material accommodating groove 31 at the stick penetrating working position b in the stick penetrating working process; the stick-threading assembly 5 further comprises a stick-inserting pushing device 52 which can move back and forth in the linear extending direction of the stick-threading preparation position d so as to push the stick-inserting c in the stick-inserting containing groove 511 at the stick-threading preparation position d to the middle of the material a in the material containing groove 31 at the stick-threading working position b, and a stick-inserting movement driving device 53 which is connected between the stick-inserting pushing device 52 and the machine frame 1 and is used for driving the stick-inserting pushing device 52 to move back and forth.

As shown in fig. 1 to 3, preferably, the stick-inserting storage device 51 is formed by a stick-inserting roller rotatably mounted on the frame 1, a rotation center line of the stick-inserting roller extends coaxially with a rotation center line of the material transfer roller 3, the stick-inserting storage grooves 511 are provided on an outer circumferential wall of the stick-inserting roller, extend in a direction parallel to the rotation center line of the stick-inserting roller, and are recessed toward a direction close to the rotation center line, the number of the stick-inserting storage grooves 511 is two or more, and the stick-inserting storage grooves 511 are sequentially arranged at intervals along an outer circumferential direction of the stick-inserting roller; the stick inserting pushing device 52 is composed of a shifting piece located at the stick penetrating preparation position d, and the shifting piece can reciprocate in the stick inserting accommodating groove 511 located at the stick penetrating preparation position d and move to an avoiding position exiting the stick inserting accommodating groove 511 when the stick inserting roller rotates under the driving of the stick inserting movement driving device 53.

As shown in fig. 1-3, preferably, the stick inserting movement driving device 53 is composed of a telescopic cylinder which is arranged beside the stick inserting roller and has a telescopic direction parallel to the movement direction of the poking sheet, the telescopic cylinder is fixedly mounted on the frame 1, and the free end of the piston rod of the telescopic cylinder is fixedly connected with the poking sheet; insert and still be equipped with the flexible guide assembly 54 that is used for leading the direction of motion of plectrum between bamboo slips moving drive arrangement 53 and the plectrum, flexible guide assembly 54 includes flexible guide bar 541 and flexible deflector 542, flexible guide bar 541 sets up and axial one end fixed connection on the plectrum and the axial other end extends the setting to the direction that is close to material transfer roller 3 along the direction of motion that is on a parallel with the plectrum, flexible deflector 542 fixed connection is on telescopic cylinder and the activity cup joints on telescopic guide bar 541's periphery wall.

As shown in fig. 1-6, in order to cut staggered patterns on the materials, more than one lower blade 32 is arranged above the bottom of each material containing groove 31 of the material transfer roller 3 at intervals along the extending direction of the corresponding material containing groove 31 and extends outwards from the bottom of the material transfer roller 3 along the radial direction of the material transfer roller 3, more than one upper blade 44 is arranged at the bottom of the movable pressing block 41 at intervals and staggered with each lower blade 32 at the tag threading working position b and extends towards the direction of the rotating center of the material transfer roller 3, when the upper blade 44 moves to the position of cutting the patterns on the materials a in the material containing groove 31 in cooperation with the lower blade 32 at the tag threading working position b along with the movable pressing block 41, the bottom of the upper blade 44 is higher than the bottom of the materials, the top of the lower blade 32 is lower than the top of the materials, so that the lower blade 32 does not cut the top of the material a upward and the upper blade 44 does not cut the bottom of the material a downward when the flower cutting work is performed; and a lower passing-tag avoiding hole 321 and an upper passing-tag avoiding hole 441 which are convenient for the inserting tag c to avoid the inserting tag c when the inserting tag c is inserted into the material a are respectively arranged in the middle of the top of the lower blade 32 and in the middle of the bottom of the upper blade 44.

As shown in fig. 1-6, in order to facilitate the installation and the later maintenance of the material transfer roller, the material transfer roller 3 is composed of more than two connecting discs 33 which are sequentially arranged at intervals along the direction of the rotation center line, the peripheral wall of the connecting disc 33 is provided with more than one fan-shaped notches 331 which are sequentially distributed at intervals along the same circumferential direction, extend along the direction parallel to the axis and are concavely arranged towards the direction close to the rotating central line, the fan-shaped notches 331 of the connecting discs 33 in the direction parallel to the rotating central line form the material accommodating groove 31, the material transfer roller 3 further comprises more than one annular blade 34 coaxially clamped between every two adjacent connecting discs 33, the part of each annular blade 34 exposed in the material accommodating groove 31 forms the lower blade 32, and each connecting disc 33 and each annular blade 34 are fixedly connected through a first locking assembly 35; the first locking member 35 may be a bolt member.

The movable pressing block 41 is composed of more than two connecting blocks 411 which are sequentially arranged at intervals along a direction parallel to the rotation center line of the material transfer roller 3, each upper blade 44 is respectively clamped between every two adjacent connecting blocks 411 and extends towards the direction of the rotation center line of the material transfer roller 3, and each connecting block 411 and each upper blade 44 are fixedly locked through a second locking component 45. The second locking assembly 45 may be a bolt assembly.

As shown in fig. 1 to 3, preferably, the rotation center line of the material transfer roller 3 is horizontally arranged, and the movable pressing block 41 is positioned right above the material transfer roller 3; the frame 1 comprises two side baffles 2 which are vertically arranged and are respectively arranged at two axial sides of the material transfer roller 3 and perpendicular to the rotation center line of the material transfer roller 3, and a pressing block moving guide component 43 which is positioned between the two side baffles 2, is fixedly connected with the frame 1 and is in sliding connection with the movable pressing block 41 and is used for guiding the movement of the movable pressing block 41; the axial two ends of the material transfer roller 3 are respectively arranged on the baffle plates 2 at the two sides.

As shown in fig. 1 to 3, preferably, the pressing block moving guide assembly 43 includes a vertical guide rod 431 fixedly connected to the movable pressing block 41 and extending vertically upwards, and a fixed guide plate 432 fixedly connected between the two side guards 2 and movably sleeved on the outer peripheral wall of the upper end of the vertical guide rod 431, the pressing block moving driving device 42 is one or more lifting cylinders fixedly installed at the bottom of the fixed guide plate 432, and the free ends of the piston rods of the lifting cylinders are fixedly connected with the upper surface of the movable pressing block 41.

As shown in fig. 1-4 and 7, preferably, the stick penetrating machine further includes a common rotating shaft 7 coaxially disposed with the material transfer roller 3, the material transfer roller 3 is fixedly sleeved on the peripheral wall of the common rotating shaft 7, the stick inserting roller is also coaxially and fixedly sleeved on the peripheral wall of the common rotating shaft 7, and a ring of stick inserting ring-shaped yielding groove 512 recessed toward the axial direction and used for enabling the stick to move to the stick withdrawing accommodating groove 511 for yielding when the stick inserting roller rotates is annularly disposed on the peripheral wall of the axial end far away from the material transfer roller 3 of the stick inserting roller.

As shown in fig. 1 to 3, preferably, the stick penetrating machine further comprises a material feeding device 8 for facilitating feeding of the material a, the material feeding device 8 comprises a material storage tank 81 disposed between the two side boards 2 and located at one side in the radial direction of the material moving roller 3, and a conveyor belt assembly 82 connected between the material storage tank 81 and the material moving roller 3 for conveying the material a of the material storage tank 81 to the material moving roller 3, the conveyor belt assembly 82 comprises a first roller shaft 821 and a second roller shaft 822 rotatably connected between the two side boards 2 and arranged in parallel with each other, and a conveyor belt connected between the first roller shaft 821 and the second roller shaft 822, the bottom of the material storage tank 81 and the upper surface of the conveyor belt 823 are arranged obliquely from top to bottom in the direction close to the material moving roller 3, the inlet end of the conveyor belt is arranged at a position above the outlet end of the material storage tank 81, make and be close to lower extreme open-ended material a in the material holding tank 81 can just in time be carried to conveyer belt 823 on, the exit end setting of conveyer belt 823 is in the one side that is close to material transfer roller 3 to material a that is located on the conveyer belt 823 can just in time fall into a material storage tank 31 to material transfer roller 3.

As shown in fig. 1-3 and 7-9, preferably, the stick penetrating machine further comprises a hopper device 9 disposed above the side of the stick inserting roller for facilitating feeding of the stick-inserted c to a stick-inserting accommodating groove 511 of the stick-inserting roller, an inner cavity having a length parallel to the axial direction of the stick-inserting roller longer than or equal to the length of the stick-inserted c is disposed inside the hopper device 9, a stick-inserting outlet 91 communicated with the inner cavity and the outer cavity of the hopper device 9 and disposed parallel to the stick-inserting accommodating groove 511 is disposed at the bottom of the hopper device 9, the size of the stick-inserting outlet 91 is matched with the size of the stick-inserted c, the stick-inserting outlet 91 is disposed at a position close to the obliquely upper side of the outer peripheral wall of the stick-inserting roller, the distance from the stick-inserting outlet 91 to the outer peripheral wall of the stick-inserting roller is smaller than the diameter of the stick-inserted c, the distance from the stick-inserting outlet 91 to the bottom of the stick-inserting accommodating groove 511 when passing through the stick-, so that the insert-labels c in the hopper means 9 can fall into the insert-label accommodating groove 511 when the insert-label accommodating groove 511 on the insert-label roller passes through the insert-label discharge port 91.

As shown in fig. 1 to 4, preferably, the rotation driving device 6 includes a driving motor, a driving pulley 61 fixedly connected to an output shaft of the driving motor, a first driven pulley 62 and a second driven pulley 63 disposed in parallel with the driving pulley 61 and fixedly connected to the second roller 822 and one axial end of the common rotating shaft 7, respectively, and a transmission belt 64 drivingly connected between the driving pulley 61, the first driven pulley 62 and the second driven pulley 63 so that the driving pulley 61, the first driven pulley 62 and the second driven pulley 63 can rotate synchronously.

Example two:

as shown in fig. 12 to 16, the present embodiment is different from the first embodiment in that: in order to facilitate cutting of the wheatear-shaped patterns, more than one upper blade 44 which is arranged at intervals along the direction parallel to the axis of the material conveying roller 3 and extends towards the direction of the rotation center of the material conveying roller 3 is arranged on the movable pressing block 41, the upper blade 44 comprises two inclined blades 442 which are symmetrically arranged at intervals, and the inclined blades 442 are obliquely arranged from the position close to the symmetric center line to the direction far away from the symmetric center line; when the upper blade 44 moves to a position for cutting the patterns of the material a in the threading work position b along with the movable pressing block 41, the two inclined blades 442 can cut into two sides of the material a in the same radial direction.

Preferably, the upper blade 44 further includes a connecting sheet 443 fixedly connected between the two inclined blades 442, and two fixing sheets 444 respectively fixedly connected to the free ends of the two inclined blades 442 and respectively extending in a direction away from the center line of symmetry; a material avoiding groove 445 capable of avoiding the material a is reserved at the bottom of the connecting sheet 443, the movable pressing block 41 is composed of more than two connecting blocks 411 which are sequentially arranged at intervals along a direction parallel to the rotation center line of the material transfer roller 3, each upper blade 44 is respectively clamped and installed between every two adjacent connecting blocks 411 and extends towards the direction of the rotation center line of the material transfer roller 3, and the connecting blocks 411 and the two fixing sheets 444 of each upper blade 44 are fixedly locked through the second locking assembly 45. And no lower blade is provided in the insert accommodating groove 511.

While the present invention has been shown and described with reference to particular embodiments and alternatives thereof, it will be understood that various changes and modifications can be made without departing from the spirit and scope of the invention. It is understood, therefore, that the invention is not to be limited, except as by the appended claims and their equivalents.

Claims (12)

1. A stick penetrating machine is characterized in that: the automatic labeling machine comprises a rack (1), a material transfer roller (3) rotationally connected to the rack (1), a rotation driving device (6) which is in transmission connection with the material transfer roller (3) and is used for driving the material transfer roller (3) to rotate, a movable pressing block (41) which is movably arranged on the rack (1) and is positioned at the radial outer side of the material transfer roller (3) and can move radially relative to the material transfer roller (3), a pressing block movement driving device (42) which is connected between the rack (1) and the movable pressing block (41) and is used for driving the movable pressing block (41) to move radially, and a labeling assembly (5) which is arranged at the axial side of the material transfer roller (3);

the peripheral wall of the material transfer roller (3) is provided with more than one material accommodating groove (31) which is arranged at intervals in sequence along the circumferential direction, extends along the direction parallel to the rotating center line and is concavely arranged towards the direction close to the rotating center line and is used for accommodating long-strip-shaped materials (a), and any one material accommodating groove (31) of the material transfer roller (3) rotates to a position between the movable pressing block (41) and the rotating center of the material transfer roller (3) to be a label penetrating working position (b) which can be matched with the movable pressing block (41) to compress and fix the materials (a) in the material accommodating groove (31) at the position;

the stick penetrating assembly (5) comprises a stick inserting storage device (51) which is arranged on the rack (1) and is positioned at the axial side of the material conveying roller (3), more than one stick inserting accommodating groove (511) which is arranged in parallel at intervals and has a channel extending direction parallel to the extending direction of the material accommodating groove (31) and used for accommodating a stick (c) is arranged on the stick inserting storage device (51), and the stick inserting storage device (51) can enable one of the stick inserting accommodating grooves (511) to be positioned at a stick penetrating preparation position (d) which is right opposite to the middle part of the material (a) in the material accommodating groove (31) at the stick penetrating working position (b) in the stick penetrating working process; the stick penetrating assembly (5) further comprises a stick inserting pushing device (52) and a stick inserting movement driving device (53), wherein the stick inserting pushing device (52) can move in a reciprocating mode in the linear extending direction of the stick penetrating preparation position (d) so as to push the stick inserting (c) in the stick inserting containing groove (511) of the stick penetrating preparation position (d) to the middle of the material (a) in the material containing groove (31) of the stick penetrating working position (b), and the stick inserting movement driving device (53) is connected between the stick inserting pushing device (52) and the rack (1) and is used for driving the stick inserting pushing device (52) to move in a reciprocating mode.

2. The tabbing machine of claim 1, wherein: the stick inserting storage device (51) is composed of a stick inserting roller which is rotatably installed on the rack (1), the rotating center line of the stick inserting roller and the rotating center line of the material conveying roller (3) coaxially extend, the stick inserting accommodating grooves (511) are formed in the outer circumferential wall of the stick inserting roller, extend in the direction parallel to the rotating center line of the stick inserting roller and are recessed in the direction close to the rotating center line, the number of the stick inserting accommodating grooves (511) is more than two, and the stick inserting accommodating grooves (511) are sequentially arranged at intervals in the outer circumferential direction of the stick inserting roller; the stick inserting pushing device (52) is composed of a shifting sheet positioned on a stick penetrating preparation position (d), and the shifting sheet can reciprocate in a stick inserting accommodating groove (511) positioned on the stick penetrating preparation position (d) and move to an avoiding position of exiting the stick inserting accommodating groove (511) when the stick inserting roller rotates under the drive of the stick inserting moving driving device (53).

3. The tabbing machine of claim 2, wherein: the stick inserting movement driving device (53) is composed of a telescopic cylinder which is arranged beside the stick inserting roller and the telescopic direction of which is parallel to the movement direction of the shifting piece, the telescopic cylinder is fixedly arranged on the rack (1), and the free end of a piston rod of the telescopic cylinder is fixedly connected with the shifting piece; insert and sign and move flexible direction subassembly (54) that still is equipped with between drive arrangement (53) and the plectrum and is used for carrying out the direction of motion of plectrum to lead, flexible direction subassembly (54) are including flexible guide bar (541) and flexible deflector (542), flexible guide bar (541) set up and axial one end fixed connection on the plectrum and the axial other end extends the setting to the direction that is close to material transfer roller (3) along the direction of motion that is on a parallel with the plectrum, flexible deflector (542) fixed connection is on telescopic cylinder and the activity cup joints on the periphery wall of flexible guide bar (541).

4. A threading machine according to any one of claims 1 to 3, characterized in that: more than one lower blade (32) which is uniformly arranged at intervals along the extending direction of the corresponding material containing groove (31) and extends outwards from the groove bottom along the radial direction of the material conveying roller (3) is arranged above the groove bottom of each material containing groove (31) of the material conveying roller (3), more than one upper blade (44) which is staggered and arranged with each lower blade (32) at the tag penetrating working position (b) and extends towards the direction of the rotating center of the material conveying roller (3) is arranged at the bottom of the movable pressing block (41), when the upper blade (44) moves to the position of cutting the patterns of the material (a) in the material containing groove (31) by matching with the lower blade (32) at the tag penetrating working position (b) along with the movable pressing block (41), the cutting edge position of the bottom of the upper blade (44) is higher than the bottom position of the material, and the cutting edge position of the top of the lower blade (32) is lower than the top position of the material, so that the lower blade (32) does not cut the top of the material (a) upwards and the upper blade (44) does not cut the bottom of the material (a) downwards during the flower cutting operation; and a lower passing stick avoiding hole (321) and an upper passing stick avoiding hole (441) which are convenient for the inserting stick (c) to avoid the inserting stick (c) when the inserting stick (c) is inserted into the material (a) are respectively arranged in the middle of the top of the lower blade (32) and in the middle of the bottom of the upper blade (44).

5. The prod piercing machine of claim 4, wherein: the material transfer roller (3) is composed of more than two connecting discs (33) which are sequentially arranged at intervals along the direction of a rotation central line, more than one fan-shaped notches (331) which are distributed at intervals in sequence along the same circumferential direction, extend along the direction parallel to the axis and are concavely arranged towards the direction close to the rotating central line are arranged on the peripheral wall of the connecting disc (33), the material accommodating groove (31) is formed by the fan-shaped notches (331) of the connecting discs (33) which are positioned on the same direction parallel to the rotating central line, the material transfer roller (3) further comprises more than one annular blade (34) coaxially clamped between every two adjacent connecting discs (33), the part of each annular blade (34) exposed in the material accommodating groove (31) forms the lower blade (32), and each connecting disc (33) and each annular blade (34) are fixedly connected through a first locking assembly (35);

the movable pressing block (41) is composed of more than two connecting blocks (411) which are sequentially arranged at intervals along the direction parallel to the rotating central line of the material conveying roller (3), each upper blade (44) is respectively clamped between every two adjacent connecting blocks (411) and extends towards the direction of the rotating central line of the material conveying roller (3), and each connecting block (411) and each upper blade (44) are fixedly locked through a second locking assembly (45).

6. A threading machine according to any one of claims 1 to 3, characterized in that: more than one upper blade (44) which is arranged at intervals along the axial direction parallel to the material conveying roller (3) and extends towards the direction of the rotating center of the material conveying roller (3) is arranged on the movable pressing block (41), the upper blade (44) comprises two inclined blades (442) which are symmetrically arranged at intervals, and the inclined blades (442) are obliquely arranged from the position close to the symmetrical center line to the direction far away from the symmetrical center line; when the upper blade (44) moves to a position for cutting patterns with the material (a) in the label penetrating working position (b) along with the movable pressing block (41), the two inclined blades (442) can cut into two sides of the material (a) in the same radial direction respectively.

7. The prod piercing machine of claim 6, wherein: the upper blade (44) further comprises a connecting sheet (443) fixedly connected between the two inclined blades (442), and two fixing sheets (444) which are respectively fixedly connected to the free ends of the two inclined blades (442) and respectively extend towards the direction far away from the symmetrical center line; still leave material that can dodge material (a) and dodge groove (445) at the bottom of connection piece (443), activity briquetting (41) are by two above along being on a parallel with the direction of the rotation central line of material transfer roller (3) interval arrangement in proper order connecting block (411) are constituteed, each goes up blade (44) and presss from both sides respectively and establish and install between every two adjacent connecting block (411) and extend to material transfer roller (3) rotation central line place direction, carries out fixed closure through second closure subassembly (45) between two stationary blade (444) of each connecting block (411) and each upper blade (44).

8. A threading machine according to any one of claims 2 to 3, characterized in that: the rotating center line of the material conveying roller (3) is horizontally arranged, and the movable pressing block (41) is positioned right above the material conveying roller (3); the rack (1) comprises two side baffles (2) which are vertically arranged and are respectively arranged at two axial sides of the material transfer roller (3) and perpendicular to the rotation center line of the material transfer roller (3), and a pressing block moving guide component (43) which is positioned between the two side baffles (2), is fixedly connected with the rack (1), is in sliding connection with the movable pressing block (41) and is used for guiding the movement of the movable pressing block (41); the axial two ends of the material transfer roller (3) are respectively arranged on the baffles (2) at the two sides.

9. The prod piercing machine of claim 8, wherein: briquetting removes direction subassembly (43) including fixed connection on movable briquetting (41) and vertical upwards vertical guide bar (431) of extending and fixed connection between two side shield (2) and activity cup joint fixed deflector (432) at vertical guide bar (431) upper end periphery wall, briquetting removes drive arrangement (42) and is the lift cylinder of more than one fixed mounting in fixed deflector (432) bottom, the piston rod free end of lift cylinder and the last fixed surface of activity briquetting (41) are connected.

10. The tabbing machine of claim 2, wherein: it still includes sharing pivot (7) with the coaxial setting of material migration roller (3), the material migration roller (3) is fixed to be overlapped and is put on the periphery wall of sharing pivot (7), insert and sign the roller and also put on the periphery wall of sharing pivot (7) by coaxial fixed cover, insert and sign the roller and fit with a contraceptive ring and be equipped with the round and move to being close to the sunken plectrum that is used for of axis direction and carrying out the plectrum annular of dodging to withdrawing from and sign storage tank (511) and withdraw from when inserting and sign the roller rotation of keeping away from material migration roller (3) and let recess (512).

11. The prod piercing machine of claim 8, wherein: the stick penetrating machine further comprises a material feeding device (8) used for facilitating feeding of materials (a), the material feeding device (8) comprises a material storage tank (81) arranged between the two side baffles (2) and located on one side of the material moving roller (3) in the radial direction, a conveyor belt component (82) connected between the material storage tank (81) and the material moving roller (3) and used for conveying the materials (a) of the material storage tank (81) to the material moving roller (3), the conveyor belt component (82) comprises a first roller shaft (821) and a second roller shaft (822) which are rotatably connected between the two side baffles (2) and arranged in parallel, and a conveyor belt (823) connected between the first roller shaft (821) and the second roller shaft (822), the groove bottom of the material storage tank (81) and the upper surface of the conveyor belt (823) are obliquely arranged from top to bottom towards the direction close to the material moving roller (3), the entrance end of conveyer belt (823) sets up the position in material holding tank (81) export end top for material (a) near the lower extreme open-ended in material holding tank (81) can just in time be carried to on conveyer belt (823), the exit end of conveyer belt (823) sets up in the one side that is close to material transfer roller (3) to material (a) that is located on conveyer belt (823) can just in time fall into one material storage tank (31) to material transfer roller (3).

12. The prod piercing machine of claim 8, wherein: the penetrating machine further comprises a hopper device (9) arranged on a stick inserting accommodating groove (511) above the stick inserting roller and used for facilitating feeding of a stick (c) to the stick inserting roller, wherein the inside of the hopper device (9) is provided with an inner cavity parallel to the axis direction of the stick inserting roller and longer than or equal to the length of the stick inserting roller, the bottom of the hopper device (9) is provided with a stick inserting discharge hole (91) communicated with the inner cavity and the outside of the hopper device (9) and parallel to the stick inserting accommodating groove (511), the size of the stick inserting discharge hole (91) corresponds to the size of the stick inserting (c), the stick inserting discharge hole (91) is arranged at an oblique upper position close to the outer peripheral wall of the stick inserting roller, the distance from the stick inserting discharge hole (91) to the outer peripheral wall of the stick inserting roller is smaller than the diameter of the stick inserting (c), and the distance from the stick inserting discharge hole (91) to the bottom of the stick inserting accommodating groove (511) passing through the stick inserting discharge hole (91) is larger than or equal to the size of the stick inserting discharge hole The diameter of the stick (c) is such that when the stick-insertion receiving groove (511) on the stick-insertion roller passes through the stick-insertion discharge port (91), the stick (c) in the hopper device (9) can fall into the stick-insertion receiving groove (511).

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