CN211167553U - Material clamping and feeding mechanism of full-automatic wrapping machine - Google Patents

Abstract

The utility model provides a material clamping and feeding mechanism of a full-automatic wrapping machine. It has solved current technical problem. This material clamping and feeding mechanism of full-automatic wrapping machine, including the pay-off conveyer belt, the both sides of pay-off conveyer belt respectively be equipped with a set of material clamping frame, material clamping frame on be equipped with a plurality of pay-off seats, the pay-off seat including pressing from both sides the material seat, the material clamping seat on link firmly press from both sides the cup mould, and the cup mould that presss from both sides on two sets of material clamping frames uses the pay-off conveyer belt to set up as axis axial symmetry, be equipped with the conveying chain belt that links to each other with chain belt actuating mechanism on the material clamping frame, material clamping frame and material clamping seat between be equipped with the horizontal conduction subassembly of gliding formula. The utility model has the advantages of the product is difficult for taking place the skew, aligns effectually etc.

Description

Material clamping and feeding mechanism of full-automatic wrapping machine

Technical Field

The utility model belongs to the technical field of the wrapping machine, especially, relate to a material feeding mechanism is expected in pressing from both sides of full-automatic wrapping machine.

Background

In the current domestic production, most of the more regular bottled products are packaged by wrapping a group of products, such as three products, with paperboard, and the traditional packaging mode is accepted by the public. Paperboard packaging is widely applied to various packaging fields, and as the production scale of packaging is continuously increased, a shaft sleeve type wrapping machine is produced under the background of continuously improving the packaging efficiency and the packaging quality. The cup of the material feed mechanism that presss from both sides of current wrapping machine's cardboard is mostly delivered to the pay-off area through cyclic annular conveyer belt when carrying and is realized the cardboard and place on, then cyclic annular conveyer belt easily takes place the skew when driving bottled product pay-off, leads to a set of product alignment that can not be fine, influences the packing effect.

To solve this problem, people have also conducted research and study in long-term production and life practice, for example, the chinese utility model patent discloses a sheet-type carton wrapping machine for pop-top cans [ application No.: 201820551563.3], the utility model discloses a include the host computer frame, advance bottle mechanism, cardboard storehouse mechanism, the mechanism of falling bottle, support case mechanism and defeated package mechanism, it is located the below of reason bottle mechanism to advance bottle mechanism, it includes into the bottle conveyer belt to advance bottle mechanism, the host computer frame comprises frame subassembly, inside bottle mechanism, support case mechanism and the defeated package mechanism of falling of being provided with of host computer frame, the below of advancing bottle mechanism is provided with the glue sprayer, cardboard storehouse mechanism fixed mounting is on the host computer frame, be provided with in the cardboard storehouse mechanism and put paper subassembly of form advancing, the top of the mechanism of falling bottle is provided with dials the material mechanism, the below of the mechanism of falling bottle is provided with support case mechanism.

The solution described above improves to some extent some of the problems of the prior art, but it also has at least the following drawbacks: bottled products easily take place the skew when the pay-off, and the alignment effect is poor.

Disclosure of Invention

The utility model aims at the above-mentioned problem, a difficult emergence skew of product is provided, aligns effectual double-layered material feeding mechanism of full-automatic parcel machine.

In order to achieve the above purpose, the utility model adopts the following technical proposal: this material clamping and feeding mechanism of full-automatic wrapping machine, including the pay-off conveyer belt, the both sides of pay-off conveyer belt respectively be equipped with a set of material clamping frame, material clamping frame on be equipped with a plurality of pay-off seats, the pay-off seat including pressing from both sides the material seat, the material clamping seat on link firmly press from both sides the cup mould, and the cup mould that presss from both sides on two sets of material clamping frames uses the pay-off conveyer belt to set up as axis axial symmetry, be equipped with the conveying chain belt that links to each other with chain belt actuating mechanism on the material clamping frame, material clamping frame and material clamping seat between be equipped with the horizontal conduction subassembly of gliding formula. The cup passes through the pay-off conveyer belt conveying to between two sets of clamping material frames, and the conveying chain belt drives the pay-off seat and carries on the annular on clamping material frame, presss from both sides the material through the cup mould that presss from both sides on the clamping material seat on to the cup on the pay-off conveyer belt and carries, presss from both sides the cup mould and uses the pay-off conveyer belt to set up as axis axial symmetry, can the pay-off seat through the horizontal conducting assembly of sliding realize pressing from both sides the cup with the mode of translation on clamping material frame, carries reliably, and efficient.

In the clamping and feeding mechanism of the full-automatic wrapping machine, the sliding type transverse conduction assembly comprises a chain guide rail arranged on a clamping base, a chain guide groove is formed in the chain guide rail, the conveying chain belt is arranged in the chain guide groove, a guide shaft fixedly connected with the top side of the conveying chain belt is arranged in the middle of the clamping base, and the guide shaft penetrates through a guide shaft bearing arranged on the clamping base. The stability of the position of the conveyor chain can be improved by arranging the conveyor chain in the chain guide groove.

In the clamping and feeding mechanism of the full-automatic wrapping machine, the sliding type transverse conduction assembly further comprises guide seats respectively arranged at two ends of the clamping machine base, the outer edge of each guide seat is provided with a semi-arc-shaped guide surface, guide wheels respectively symmetrically arranged at two sides of the guide shaft are further arranged at the bottom side of each clamping seat, and at least one side of each guide wheel is abutted against the inside of the chain guide groove. The material clamping seat realizes the transmission on the material clamping base through the guide shaft and the transmission chain belt, when the material clamping seat is transmitted to the end part of the material clamping base, one guide wheel of the material clamping seat is propped against the guide surface on the guide seat, and at the moment, the material clamping seat is transmitted to the other side of the material clamping base in an arc-shaped translation mode.

In the material clamping and feeding mechanism of the full-automatic wrapping machine, when the material clamping seat is conducted to the end part of the material clamping base by the conveying chain belt, the guide wheel positioned at the outer end of the material clamping seat is abutted against the guide surface on the guide seat, the guide wheel positioned at the inner end of the material clamping seat is embedded with the rotary positioning seat arranged in the material clamping base, and the rotary positioning seat is connected with the overturning driving mechanism arranged on the material clamping base.

In the clamping and feeding mechanism of the full-automatic wrapping machine, the overturning driving mechanism comprises an overturning motor, an output shaft of the overturning motor is fixedly connected with an overturning fixing seat arranged at the bottom side of the rotating positioning seat, the rotating positioning seat is circumferentially and fixedly connected with the overturning fixing seat, and the output shaft of the overturning motor is further arranged in a bearing seat arranged in the clamping machine seat in a penetrating manner. The realization that upset fixing base passes through the rotation positioning seat is rotatory, and the rotation positioning seat here can avoid pressing from both sides the one end of another leading wheel of material base to take place the lateral deviation at the translation in-process, and then guarantees to press from both sides the material base and can be parallel all the time after the translation.

In the material clamping and feeding mechanism of the full-automatic wrapping machine, the overturning fixing seat is arranged in the middle of the rotating positioning seat, and the two ends of the overturning fixing seat are provided with embedding openings corresponding to the guide wheels. In the translation process of the clamping seat, the guide wheel far away from one end of the guide surface rotates in the embedding opening, and the rotation positioning seat also rotates at the moment, so that the arc-shaped translation of the clamping seat is realized.

In the clamping and feeding mechanism of the full-automatic wrapping machine, the chain belt driving mechanism comprises a chain belt driving gear, the chain belt driving gear is connected with a chain belt driving motor, the two chain belt driving gears are symmetrically arranged in the clamping machine base respectively, and the conveying chain belt is meshed with the chain belt driving gear.

In the clamping and feeding mechanism of the full-automatic wrapping machine, the guide shaft bearing is fixedly connected in a guide shaft positioning seat arranged on the clamping seat, the guide shaft positioning seat is fixedly connected with the clamping seat, and a notch part is arranged on one side of the guide shaft positioning seat, which faces the clamping cup mold.

In the material clamping and feeding mechanism of the full-automatic wrapping machine, at least part of the guide shaft penetrates through a guide shaft positioning hole formed in the guide shaft positioning seat. The guide shaft positioning holes in the guide shaft positioning seat can ensure that the guide shaft is always in a vertical state, so that the material clamping seat is more stably connected with the conveying chain belt.

In the material clamping and feeding mechanism of the full-automatic wrapping machine, the chain guide rail is formed by axially butting a plurality of guide rail monomers; the feeding seat is also provided with a paper board blocking rod. The chain guide is formed by splicing a plurality of guide rail monomers and can be lengthened or shortened according to actual needs.

Compared with the prior art, the material clamping and feeding mechanism of the full-automatic wrapping machine has the advantages that: reasonable in design, simple structure, the product of two sets of double-layered material moulds on the material base of pressing from both sides can be to the pay-off conveyer belt on stabilizes the centre gripping to the horizontal conducting assembly of gliding formula can prevent effectively that the product mould from taking place the skew and leading to pressing from both sides not to expect, and it is effectual to align.

Drawings

FIG. 1 is a schematic structural view provided by the present invention;

FIG. 2 is a schematic structural view of the connection between the guide shaft and the conveyor belt provided by the present invention;

FIG. 3 is an enlarged view of the point A provided by the present invention;

fig. 4 is a schematic structural view of another viewing angle provided by the present invention;

in the figure, a feeding conveyor belt 1, a material clamping base 2, a feeding seat 3, a material clamping seat 4, a cup clamping mold 5, a conveying chain belt 1a, a chain guide rail 2a, a chain guide groove 3a, a guide shaft 4a, a guide shaft bearing 5a, a guide seat 6a, a guide surface 7a, a guide wheel 8a, a rotation positioning seat 9a, an overturning fixing seat 10a, a bearing seat 11a, an embedding opening 12a, a driving gear 13a, a chain belt driving motor 14a, a guide shaft positioning seat 15a, a notch part 16a, a guide shaft positioning hole 17a, a guide rail single body 18a and a paperboard blocking rod 19 a.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-4, the clamping and feeding mechanism of the full-automatic wrapping machine comprises a feeding conveyor belt 1, a group of clamping bases 2 are respectively arranged on two sides of the feeding conveyor belt 1, a plurality of feeding seats 3 are arranged on the clamping bases 2, each feeding seat 3 comprises a clamping seat 4, a cup clamping mold 5 is fixedly connected onto each clamping seat 4, the cup clamping molds 5 on the two groups of clamping bases 2 are arranged in a axisymmetric manner by taking the feeding conveyor belt 1 as a central axis, a conveying chain belt 1a connected with a chain belt driving mechanism is arranged on each clamping base 2, and a sliding type transverse conduction assembly is arranged between each clamping base 2 and each clamping seat 4.

The cup passes through pay-off conveyer belt 1 conveying to between two sets of clamp material frames 2, conveyer belt 1a drives pay-off seat 3 and carries on the annular at clamp material frame 2, carry out the clamp material through the cup mould 5 that presss from both sides on the clamp material seat 4 to the cup on the pay-off conveyer belt 1 and carry, press from both sides cup mould 5 and use pay-off conveyer belt 1 as the axial symmetry setting, can pay-off seat 3 through the horizontal conducting component of gliding formula realize pressing from both sides the cup with the mode of translation on clamp material frame 2, the transport is reliable, and is efficient.

The sliding transverse conduction assembly comprises a chain guide rail 2a arranged on the material clamping base 2, a chain guide groove 3a is formed in the chain guide rail 2a, a conveying chain belt 1a is arranged in the chain guide groove 3a, a guide shaft 4a fixedly connected with the top side of the conveying chain belt 1a is arranged in the middle of the material clamping base 4, and the guide shaft 4a penetrates through a guide shaft bearing 5a on the material clamping base 4. The arrangement of the conveyor belt 1a in the chain guide groove 3a can improve the stability of the position of the conveyor belt 1 a. The sliding type transverse conduction assembly further comprises guide seats 6a respectively arranged at two ends of the material clamping machine base 2, the outer edges of the guide seats 6a are provided with semi-arc-shaped guide surfaces 7a, guide wheels 8a respectively symmetrically arranged at two sides of the guide shaft 4a are further arranged at the bottom side of the material clamping base 4, and at least one side of each guide wheel 8a is abutted to the inside of the chain guide groove 3 a. The material clamping seats 4 realize the transmission on the material clamping base 2 through the guide shafts 4a and the transmission chain belts 1a, when the material clamping seats 4 are transmitted to the end parts of the material clamping base 2, the guide wheel 8a of one of the material clamping seats 4 is abutted against the guide surface 7a on the guide seat 6a, and at the moment, the material clamping seats 4 are transmitted to the other side of the material clamping base 2 in an arc-shaped translation mode.

Preferably, when the material clamping seat 4 is conducted to the end part of the material clamping base 2 by the conveying chain belt 1a, the guide wheel 8a positioned at the outer end of the material clamping seat 4 abuts against the guide surface 7a on the guide seat 6a, the guide wheel 8a positioned at the inner end of the material clamping seat 4 is embedded with the rotation positioning seat 9a arranged in the material clamping base 2, and the rotation positioning seat 9a is connected with the overturning driving mechanism arranged on the material clamping base 2.

Further, upset actuating mechanism includes the upset motor, the output shaft of upset motor links firmly with the upset fixing base 10a that sets up in the rotation positioning seat 9a bottom side mutually, rotation positioning seat 9a links firmly with upset fixing base 10a circumference, and the output shaft of upset motor still wears to locate to set up in the bearing frame 11a of pressing from both sides in the material frame 2, upset fixing base 10a is rotatory through the realization of rotation positioning seat 9a, the rotation positioning seat 9a here can avoid pressing from both sides 4 one end of another leading wheel 8a of material frame and take place the lateral deviation at the translation in-process, and then guarantee to press from both sides material frame 4 and can be parallel all the time after the translation.

The overturning fixing seat 10a is arranged in the middle of the rotating positioning seat 9a, the two ends of the overturning fixing seat 10a are both provided with embedding openings 12a corresponding to the guide wheels 8a, the material clamping seat 4 is far away from the guide wheels 8a at one end of the guide surface 7a in the translation process, the rotating positioning seat 9a rotates at the moment, and therefore arc-shaped translation of the material clamping seat 4 is achieved.

Further, the chain driving mechanism includes a chain driving gear 13a, the chain driving gear 13a is connected to a chain driving motor 14a, and two chain belt driving gears 13a are respectively and symmetrically arranged in the material clamping base 2, the transmission chain belt 1a is engaged with the chain belt driving gears 13a, the guide shaft bearing 5a is fixedly connected in a guide shaft positioning seat 15a arranged on the material clamping base 4, the guide shaft positioning seat 15a is fixedly connected with the material clamping base 4, and one side of the guide shaft positioning seat 15a facing the cup clamping mold 5 is provided with a gap part 16a, the guide shaft 4a at least partially penetrates through a guide shaft positioning hole 17a arranged on the guide shaft positioning seat 15a, the guide shaft 4a can be ensured to be always in a vertical state through the guide shaft positioning hole 17a on the guide shaft positioning seat 15a, so that the connection between the material clamping seat 4 and the conveying chain belt 1a is more stable.

In addition, the chain guide 2a is formed by axially butting a plurality of guide single bodies 18 a; the feeding seat 3 is also provided with a paper board blocking rod 19a, and the chain guide rail 2a is formed by splicing a plurality of guide rail single bodies 18a and can be lengthened or shortened according to actual needs.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the feeding conveyor belt 1, the material clamping base 2, the feeding base 3, the material clamping base 4, the cup clamping mold 5, the conveying chain belt 1a, the chain guide rail 2a, the chain guide groove 3a, the guide shaft 4a, the guide shaft bearing 5a, the guide base 6a, the guide surface 7a, the guide wheel 8a, the rotation positioning base 9a, the overturn fixing base 10a, the bearing base 11a, the embedding opening 12a, the driving gear 13a, the chain belt driving motor 14a, the guide shaft positioning base 15a, the notch part 16a, the guide shaft positioning hole 17a, the guide rail single body 18a and the paperboard blocking rod 19a are more used herein. Etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a double-layered material feeding mechanism of full-automatic bale wrapping machine, includes pay-off conveyer belt (1), its characterized in that, the both sides of pay-off conveyer belt (1) respectively be equipped with a set of double-layered material frame (2), double-layered material frame (2) on be equipped with a plurality of pay-off seats (3), pay-off seat (3) including pressing from both sides material seat (4), double-layered material seat (4) on link firmly press from both sides cup mould (5), and double-layered cup mould (5) on two sets of double-layered material frame (2) use pay-off conveyer belt (1) to set up as axis axial symmetry, be equipped with on double-layered material frame (2) and carry the conveying chain belt (1a) that link to each other with chain belt actuating mechanism, double-layered material frame (2) and double-layered material seat (4).

2. The clamping and feeding mechanism of the fully automatic bale wrapping machine according to claim 1, wherein the sliding type transverse transmission assembly comprises a chain guide rail (2a) arranged on the clamping base (2), a chain guide groove (3a) is formed in the chain guide rail (2a), the conveying chain belt (1a) is arranged in the chain guide groove (3a), a guide shaft (4a) fixedly connected with the top side of the conveying chain belt (1a) is arranged in the middle of the clamping base (4), and the guide shaft (4a) is arranged in a guide shaft bearing (5a) arranged on the clamping base (4) in a penetrating manner.

3. The clamping and feeding mechanism of the full-automatic wrapping machine according to claim 2, characterized in that the sliding type transverse conducting assembly further comprises guide seats (6a) respectively arranged at two ends of the clamping base (2), the outer edge of each guide seat (6a) is provided with a semi-arc-shaped guide surface (7a), guide wheels (8a) respectively symmetrically arranged at two sides of the guide shaft (4a) are further arranged at the bottom side of the clamping base (4), and at least one side of each guide wheel (8a) abuts against the chain guide groove (3 a).

4. The clamping and feeding mechanism of the fully automatic wrapping machine according to claim 3, characterized in that when the clamping seat (4) is transferred from the conveying chain belt (1a) to the end of the clamping base (2), the guide wheel (8a) at the outer end of the clamping seat (4) abuts against the guide surface (7a) on the guide seat (6a), the guide wheel (8a) at the inner end of the clamping seat (4) is embedded with the rotation positioning seat (9a) arranged in the clamping base (2), and the rotation positioning seat (9a) is connected with the overturning driving mechanism arranged on the clamping base (2).

5. The clamping and feeding mechanism of the fully automatic bale wrapping machine as claimed in claim 4, wherein the turnover driving mechanism comprises a turnover motor, an output shaft of the turnover motor is fixedly connected with a turnover fixing seat (10a) arranged at the bottom side of the rotation positioning seat (9a), the rotation positioning seat (9a) is circumferentially and fixedly connected with the turnover fixing seat (10a), and the output shaft of the turnover motor is further inserted into a bearing seat (11a) arranged in the clamping base (2).

6. The clamping and feeding mechanism of the full-automatic wrapping machine according to claim 5, characterized in that the turning fixing seat (10a) is arranged in the middle of the rotating positioning seat (9a), and both ends of the turning fixing seat (10a) are provided with embedding openings (12a) corresponding to the guide wheels (8 a).

7. The clamping and feeding mechanism of the fully automatic wrapping machine according to claim 1, characterized in that the chain belt driving mechanism comprises two chain belt driving gears (13a), the chain belt driving gears (13a) are connected with a chain belt driving motor (14a), the two chain belt driving gears (13a) are respectively and symmetrically arranged in the clamping machine base (2), and the conveying chain belt (1a) is engaged with the chain belt driving gears (13 a).

8. The clamping and feeding mechanism of the fully automatic wrapping machine according to claim 2, characterized in that the guide shaft bearing (5a) is fixedly connected with a guide shaft positioning seat (15a) arranged on the clamping seat (4), the guide shaft positioning seat (15a) is fixedly connected with the clamping seat (4), and a notch (16a) is arranged on one side of the guide shaft positioning seat (15a) facing the clamping cup mold (5).

9. The clamping and feeding mechanism of the fully automatic wrapping machine according to claim 8, wherein the guide shaft (4a) is at least partially inserted into a guide shaft positioning hole (17a) formed in the guide shaft positioning seat (15 a).

10. The clamping and feeding mechanism of the full-automatic wrapping machine according to claim 2, characterized in that the chain guide (2a) is formed by axially butting a plurality of guide single bodies (18 a); the feeding seat (3) is also provided with a paper board blocking rod (19 a).

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