CN114313524B

CN114313524B - Dyestripping mechanism and labeller

Info

Publication number: CN114313524B
Application number: CN202210028692.5A
Authority: CN
Inventors: 王全林; 刘俊廷; 黄瑞林; 黄平
Original assignee: Shenzhen Taowine Industrial Co ltd
Current assignee: SHENZHEN DAOYUAN INDUSTRIAL CO LTD
Priority date: 2022-01-11
Filing date: 2022-01-11
Publication date: 2023-07-14
Anticipated expiration: 2042-01-11
Also published as: CN114313524A

Abstract

The application discloses dyestripping mechanism and labeller relates to and pastes mark technical field. The film tearing mechanism comprises a frame body, a translation assembly is arranged on the frame body, a discharging assembly, a receiving assembly and a mucous membrane assembly are arranged on the translation assembly, the translation assembly drives the discharging assembly, the receiving assembly and the mucous membrane assembly to do reciprocating linear motion, the discharging assembly is used for placing a film tearing belt, the film tearing belt is wound to the receiving assembly through the mucous membrane assembly, and the receiving assembly acts to enable the discharging assembly to be driven to synchronously act. Can promote the degree of automation of dyestripping to promote dyestripping efficiency.

Description

Dyestripping mechanism and labeller

Technical Field

The application relates to the technical field of labeling, in particular to a film tearing mechanism and a labeling machine.

Background

A labeler (Label) is a device that attaches a sticker Label (paper or foil) to a PCB, product or prescribed package. Labelling machines are an integral part of modern packaging. At present, the types of production labeling machines in China are gradually increased, the technical level is greatly improved, and the situation of manual and semi-automatic labeling is changed from the situation of lagging, and the automatic high-speed labeling machine occupies the pattern of the vast market. Before labeling, the label carrier film is generally required to be torn off and then moved to a position where labeling is required for labeling.

In the prior art, manual or semi-automatic film tearing is generally adopted, a great amount of labor cost is required to be consumed by the film tearing method, the working efficiency of manual film tearing is low, and the labeling efficiency is affected.

Disclosure of Invention

An object of the present application is to provide a dyestripping mechanism and labeller, it can improve dyestripping efficiency.

Embodiments of the present application are implemented as follows:

in one aspect of the embodiment of the application, a film tearing mechanism is provided, which comprises a frame body, the setting is in translation subassembly on the support body, be provided with blowing subassembly, receipts material subassembly and mucosa subassembly on the translation subassembly, the translation subassembly drives the blowing subassembly receive the material subassembly with the mucosa subassembly is reciprocal rectilinear motion, the blowing subassembly is used for placing the dyestripping area, so that the dyestripping area warp the mucosa subassembly winds to receive the material subassembly, receive the material subassembly action messenger the blowing subassembly receives the synchronous action of driving.

Optionally, the translation subassembly is including setting up the straight line module on the support body, and with support body sliding connection's sliding plate, the straight line module drives the sliding plate is reciprocating rectilinear motion.

Optionally, the blowing subassembly is including setting up the blowing axle on the sliding plate, and with the blowing dish that the blowing axle rotates to be connected, be provided with a plurality of shell fragments on the blowing dish, shell fragment one end with blowing dish fixed connection, a plurality of the shell fragment with the blowing dish is the angle setting of predetermineeing, so that the shell fragment can with dyestripping area butt.

Optionally, receive the material subassembly include with the receipts material axle that the sliding plate rotates to be connected, and with receive the rotary drive spare that the material axle transmission is connected, be provided with on the receipts material axle and receive the charging tray, receive the charging tray and be used for coiling the dyestripping area.

Optionally, the mucosa assembly comprises a buffer assembly which is connected to the sliding plate in a sliding way, and a stop assembly and a pressure head assembly which are arranged on the buffer assembly, wherein the stop assembly can stop the film tearing belt wound on the pressure head assembly.

Optionally, the buffer assembly includes a buffer plate slidably connected to the sliding plate, and an elastic member disposed between the buffer plate and the sliding plate.

Optionally, the pressure head assembly includes the pressure head that sets up on the buffer board, first drive wheel, second drive wheel, first drive wheel with the second drive wheel is located the pressure head is relative both sides, tear the membrane area in proper order winding in first drive wheel, pressure head and on the second drive wheel.

Optionally, the stop assembly includes a linear driving member disposed on the buffer plate, and a stop block disposed on the linear driving member, the stop block being capable of simultaneously abutting the first and second driving wheels.

Optionally, at least one first guide wheel and at least one second guide wheel are arranged on the sliding plate, the first guide wheel is arranged between the first driving wheel and the discharging assembly, the second guide wheel is arranged between the second driving wheel and the receiving assembly, a first tensioning wheel is arranged between the first guide wheel and the discharging assembly, and a second tensioning wheel is arranged between the second guide wheel and the receiving assembly.

In another aspect of the embodiments of the present application, there is provided a labelling machine comprising a film tearing mechanism as defined in any one of the above, and a labelling mechanism cooperating with the film tearing mechanism.

The beneficial effects of the embodiment of the application include:

the embodiment of the application provides a dyestripping mechanism, through the support body and the translation subassembly that sets up on the support body, be provided with the blowing subassembly on the translation subassembly, receive material subassembly and mucosa subassembly, so that the blowing subassembly, receive material subassembly and mucosa subassembly can follow the translation subassembly motion, so that the winding can adhere and tear the product carrier film at the dyestripping area on the mucosa subassembly, the blowing subassembly is used for placing unused dyestripping area, receive the material subassembly and be used for collecting used dyestripping area, so that the dyestripping area can continuously tear the label carrier film, in order to save the cost of labor. Above-mentioned operation process need not manual intervention, can promote the degree of automation of dyestripping to promote dyestripping efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a film tearing mechanism according to an embodiment of the present disclosure;

FIG. 2 is a second schematic structural view of a film tearing mechanism according to an embodiment of the present disclosure;

fig. 3 is a third schematic structural view of the film tearing mechanism according to the embodiment of the present application.

Icon: 100-a film tearing mechanism; 110-a frame body; 120-a translation assembly; 121-a linear module; 122-a sliding plate; 1221-a first guide wheel; 1222-a second guide wheel; 1223-a first tensioning wheel; 1224-a second tensioning wheel; 130-a discharging assembly; 131-a discharging shaft; 132-a discharge tray; 133-shrapnel; 140, a material receiving component; 141-a material receiving shaft; 142-a rotary drive; 143-a receiving tray; 150-mucosal component; 151-a cushioning assembly; 1511-a buffer plate; 1512-elastic member; 152-stop assembly; 1521-linear drive; 1522-stop blocks; 153-ram assembly; 1531-indenter; 1532-a first drive wheel; 1533-a second drive wheel; 160-a tear tape;

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present application, it should be noted that, the terms "center," "vertical," "horizontal," "inner," "outer," and the like indicate an azimuth or a positional relationship based on that shown in the drawings, or an azimuth or a positional relationship that a product of the application is conventionally put in use, merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal," "vertical," and the like do not denote a requirement that the component be absolutely horizontal or overhang, but rather may be slightly inclined. As "horizontal" merely means that its direction is more horizontal than "vertical", and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present application, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Referring to fig. 1, the present embodiment provides a film tearing mechanism 100, including a frame 110, a translation assembly 120 disposed on the frame 110, a discharging assembly 130, a receiving assembly 140 and a mucosa assembly 150 disposed on the translation assembly 120, the translation assembly 120 drives the discharging assembly 130, the receiving assembly 140 and the mucosa assembly 150 to reciprocate in a linear motion, the discharging assembly 130 is used for placing a film tearing belt 160, so that the film tearing belt 160 is wound to the receiving assembly 140 through the mucosa assembly 150, and the receiving assembly 140 acts to make the discharging assembly 130 driven in synchronization.

Specifically, when the film tearing mechanism 100 works, the film tearing belt 160 is wound on the discharging component 130, the film tearing assembly 150 and the collecting component 140, the film tearing belt 160 can be wound on the collecting component 140 from the discharging component 130, the translation component 120 makes reciprocating linear motion, the film tearing assembly 150 moves towards a film tearing product, and the film tearing belt 160 wound on the film tearing assembly 150 is in contact with the product carrier film, so that the product carrier film is adhered on the film tearing belt 160. The film assembly 150 moves in the opposite direction to peel the product carrier film from the product surface and follow the movement of the tear tape 160. The mucosa assembly 150 can set up reciprocal dyestripping frequency according to the dyestripping effect of dyestripping area 160, reaches and presets the dyestripping frequency after, and material receiving assembly 140 action is in order to make used dyestripping area 160 roll into material receiving assembly 140, and blowing subassembly 130 is driven synchronous action in order to make unused dyestripping area 160 roll on mucosa assembly 150.

The embodiment of the application provides a dyestripping mechanism 100, through support body 110 and translation subassembly 120 that sets up on support body 110, be provided with blowing subassembly 130 on the translation subassembly 120, receive material subassembly 140 and mucosa subassembly 150, so that blowing subassembly 130, receive material subassembly 140 and mucosa subassembly 150 can follow translation subassembly 120 motion, in order to make winding dyestripping area 160 on mucosa subassembly 150 can adhere and tear the product carrier film, blowing subassembly 130 is used for placing unused dyestripping area 160, receive material subassembly 140 is used for collecting used dyestripping area 160, in order to make dyestripping area 160 can continuously tear the label carrier film, in order to save the cost of labor. Above-mentioned operation process need not manual intervention, can promote the degree of automation of dyestripping to promote dyestripping efficiency.

In one possible embodiment of the present application, as shown in fig. 2, the translation assembly 120 includes a linear module 121 disposed on the frame 110, and a sliding plate 122 slidably connected to the frame 110, where the linear module 121 drives the sliding plate 122 to perform a reciprocating linear motion.

Specifically, the discharging assembly 130, the receiving assembly 140 and the mucosa assembly 150 are disposed on the sliding plate 122, and the linear module 121 drives the sliding plate 122 to reciprocate to make the discharging assembly 130, the receiving assembly 140 and the mucosa assembly 150 reciprocate to make the film tearing tape 160 wound on the mucosa assembly 150 tear the bottom film. As the film assembly 150 moves toward the product carrier film, the product carrier film can adhere to the film tearing tape 160 wound around the film assembly 150, and the product carrier film adhered to the film tearing tape 160 can follow the film assembly 150 away from the product carrier film.

For example, the linear module 121 may be configured as a ball screw type, and the rotating motor drives the screw to rotate, so that the sliding plate 122 fixedly connected to the screw nut performs a reciprocating linear motion along the length direction of the screw, to complete the film tearing action. It can be appreciated that the linear module 121 may also be configured as a linear motor type or a synchronous belt type to realize the reciprocating linear motion of the sliding plate 122, so as to ensure the stability of the film tearing.

In a feasible implementation manner of the present application, as shown in fig. 3, the discharging assembly 130 includes a discharging shaft 131 disposed on the sliding plate 122, and a discharging disc 132 rotationally connected to the discharging shaft 131, where a plurality of elastic sheets 133 are disposed on the discharging disc 132, one end of each elastic sheet 133 is fixedly connected to the discharging disc 132, and the plurality of elastic sheets 133 are disposed at a preset angle with the discharging disc 132, so that the elastic sheets 133 can be abutted to the tear film strips 160.

Specifically, the plurality of elastic sheets 133 are uniformly arranged on the discharging disc 132, one end of each elastic sheet 133 is fixedly connected with the discharging disc 132, the other end of each elastic sheet 133 is abutted against the corresponding film tearing belt 160, the film tearing belt 160 is arranged on the elastic sheet 133 in a coiled shape so as to prevent the corresponding film tearing belt 160 from rotating relative to the discharging disc 132, and it is required to be noted that the discharging shaft 131 is in rotary connection with the discharging disc 132 through a bearing, and a friction plate is arranged on the bearing so as to prevent the film tearing belt 160 coiled on the discharging assembly 130 from rotating randomly.

In one possible embodiment of the present application, as shown in fig. 2, the material collecting assembly 140 includes a material collecting shaft 141 rotationally connected to the sliding plate 122, and a rotary driving member 142 drivingly connected to the material collecting shaft 141, where a material collecting tray 143 is disposed on the material collecting shaft 141, and the material collecting tray 143 is used for winding the tear film tape 160.

Specifically, the rotation driving piece 142 is in transmission connection with the material receiving shaft 141, the rotation driving piece 142 drives the material receiving shaft 141 to rotate, the number of film tearing times of the film tearing belt 160 is set, after the number of film tearing times of the film tearing belt 160 reaches a preset number, the rotation driving piece 142 drives the material receiving shaft 141 to rotate by a certain angle, and the used film tearing belt 160 is wound towards the material receiving shaft 141, so that the unused film tearing belt 160 can be wound on the film tearing assembly 150, and the film tearing belt 160 wound on the film tearing assembly 150 can tear a bottom film. Wherein the rotary driving member 142 may be provided as a stepping motor, a servo motor, or the like.

In one possible embodiment of the present application, as shown in fig. 1, the mucosa assembly 150 includes a buffer assembly 151 slidably coupled to the sliding plate 122, and a stop assembly 152 and a ram assembly 153 disposed on the buffer assembly 151, wherein the stop assembly 152 is capable of stopping the tear tape 160 wound on the ram assembly 153.

Specifically, the buffer assembly 151 is slidably connected to the sliding plate 122, and the buffer assembly 151 can enable the film tearing belt 160 wound on the pressure head assembly 153 to be completely adhered to the bottom film of the product, so as to ensure that the film tearing belt 160 can tear the bottom film. The stop component 152 can be abutted with the film tearing belt 160 wound on the pressure head component 153, so that the film tearing belt 160 wound on the pressure head component 153 is prevented from shaking randomly, and the film tearing success rate is ensured.

In one possible embodiment of the present application, as shown in fig. 3, the buffer assembly 151 includes a buffer plate 1511 slidably coupled to the sliding plate 122, and an elastic member 1512 disposed between the buffer plate 1511 and the sliding plate 122.

Specifically, the pressure head assembly 153 and the stop assembly 152 are disposed on the buffer plate 1511, the slide plate 122 is provided with a slide rail, the buffer plate 1511 slides on the slide rail, the elastic member 1512 is disposed between the buffer plate 1511 and the slide plate 122, one end of the elastic member 1512 is fixedly connected with the buffer plate 1511, the other end of the elastic member 1512 is fixedly connected with the slide plate 122, when the film tearing belt 160 wound on the pressure head assembly 153 is adhered to the product carrier film, the elastic member 1512 is extruded by the buffer plate 1511 and the slide plate 122 to generate elastic potential energy, the elastic potential energy accumulated on the elastic member 1512 can be transferred to the product carrier film, so that the pressure head assembly 153 and the product carrier film are prevented from being in rigid contact, meanwhile, the film tearing belt 160 and the product carrier film can be ensured to be perfectly adhered, and after the carrier film is torn off by the film tearing belt 160, the elastic potential energy on the elastic member 1512 enables the buffer plate 1511 to return to the original position.

In one possible embodiment of the present application, as shown in fig. 3, the pressure head assembly 153 includes a pressure head 1531, a first driving wheel 1532, and a second driving wheel 1533 disposed on the buffer plate 1511, the first driving wheel 1532 and the second driving wheel 1533 are disposed on opposite sides of the pressure head 1531, and the tear film tape 160 is wound on the first driving wheel 1532, the pressure head 1531, and the second driving wheel 1533 in sequence.

Specifically, the first driving wheel 1532 and the second driving wheel 1533 are rotatably connected with the buffer plate 1511, and the first driving wheel 1532 and the second driving wheel 1533 are disposed on two opposite sides of the pressure head 1531, so as to ensure that the first driving wheel 1532 and the second driving wheel 1533 can guide the film tearing belt 160 to abut against the pressure head 1531, and the film tearing plane of the pressure head 1531 can abut against the film tearing belt 160, so that the film tearing belt 160 can smoothly tear the bottom film.

In one possible embodiment of the present application, as shown in fig. 3, stop assembly 152 includes a linear drive 1521 disposed on buffer plate 1511 and a stop 1522 disposed on linear drive 1521, stop 1522 being capable of simultaneously abutting both first drive wheel 1532 and second drive wheel 1533.

Specifically, after the material collecting assembly 140 stops moving, the linear driving member 1521 drives the stop block 1522 to move towards the first driving wheel 1532 and the second driving wheel 1533, so that the stop block 1522 can be simultaneously abutted against the first driving wheel 1532 and the second driving wheel 1533, so that the film tearing belt 160 wound on the first driving wheel 1532 and the second driving wheel 1533 is subjected to the mutual extrusion force of the stop block 1522 and the first driving wheel 1532, and the stop block 1522 and the second driving wheel 1533, so as to prevent the film tearing belt 160 wound on the pressure head 1531 from loosening in the film tearing process.

In one possible embodiment of the present application, as shown in fig. 3, at least one first guide wheel 1221 and a second guide wheel 1222 are disposed on the sliding plate 122, the first guide wheel 1221 is disposed between the first driving wheel 1532 and the discharging component 130, the second guide wheel 1222 is disposed between the second driving wheel 1533 and the receiving component 140, a first tensioning wheel 1223 is disposed between the first guide wheel 1221 and the discharging component 130, and a second tensioning wheel 1224 is disposed between the second guide wheel 1222 and the receiving component 140.

Specifically, the first guide wheel 1221 is disposed between the first driving wheel 1532 and the discharging shaft 131, so as to guide the film tearing strip 160 to wind in a set direction, so that the film tearing strip 160 can wind from the discharging shaft 131 onto the pressing head 1531. The second guide wheel 1222 is disposed between the driving wheel and the take-up shaft 141, so that the tear tape 160 can be transferred from the discharge shaft 131 to the take-up shaft 141. The first tensioning wheel 1223 is disposed between the first guiding wheel 1221 and the discharging component 130, and the first tensioning wheel 1223 is not in a straight line with the first guiding wheel 1221 and the discharging component 130, so as to increase the tension of the tear film tape 160, the second tensioning wheel 1224 is disposed between the second guiding wheel 1222 and two adjacent second guiding wheels 1222 of the receiving component 140, and the second tensioning wheel 1224 is not in a straight line with the second guiding wheel 1222 and the receiving component 140, so as to further increase the tension of the tear film tape 160.

It will be appreciated that when the first guide wheel 1221 and the second guide wheel 1222 are provided in plurality, the first tensioning wheel 1223 may also be disposed between two adjacent first guide wheels 1221, and the second tensioning wheel 1224 may also be disposed between two adjacent second guide wheels 1222 to increase the tension of the tear tape 160.

The embodiment of the application also discloses a labeling machine, which comprises a labeling mechanism and the film tearing mechanism 100 in the previous embodiment. The labelling machine comprises the same structure and benefits as the film tearing mechanism 100 in the previous embodiment. The structure and the beneficial effects of the film tearing mechanism 100 are described in detail in the foregoing embodiments, and are not described herein.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims

1. The film tearing mechanism is characterized by comprising a frame body, wherein a translation assembly is arranged on the frame body, a discharging assembly, a receiving assembly and a film sticking assembly are arranged on the translation assembly, the translation assembly drives the discharging assembly, the receiving assembly and the film sticking assembly to do reciprocating rectilinear motion, the discharging assembly is used for placing a film tearing belt, the film tearing belt is wound to the receiving assembly through the film sticking assembly, the receiving assembly acts to enable the discharging assembly to be driven to synchronously act, the translation assembly comprises a rectilinear module arranged on the frame body, and a sliding plate connected with the frame body in a sliding mode, and the rectilinear module drives the sliding plate to do reciprocating rectilinear motion;

the film tearing belt winding device comprises a film tearing belt, a film pressing assembly and a film gluing assembly, wherein the film tearing belt is wound on the film pressing assembly, the film pressing assembly is connected with the film tearing belt, and the film tearing belt is wound on the film pressing assembly;

the buffer assembly comprises a buffer plate and an elastic piece, wherein the buffer plate is connected to the sliding plate in a sliding way, and the elastic piece is arranged between the buffer plate and the sliding plate;

the pressure head assembly comprises a pressure head, a first driving wheel and a second driving wheel which are arranged on the buffer plate, the first driving wheel and the second driving wheel are positioned on two opposite sides of the pressure head, and the film tearing belt is sequentially wound on the first driving wheel, the pressure head and the second driving wheel;

the stop assembly comprises a linear driving piece arranged on the buffer plate and a stop block arranged on the linear driving piece, and the stop block can be simultaneously abutted with the first driving wheel and the second driving wheel.

2. The film tearing mechanism according to claim 1, wherein the feeding assembly comprises a feeding shaft arranged on the sliding plate and a feeding disc rotatably connected with the feeding shaft, a plurality of elastic pieces are arranged on the feeding disc, one ends of the elastic pieces are fixedly connected with the feeding disc, and a plurality of elastic pieces are arranged at preset angles with the feeding disc so that the elastic pieces can be abutted with the film tearing belt.

3. The film tearing mechanism of claim 1, wherein the material receiving assembly comprises a material receiving shaft rotatably connected with the sliding plate and a rotary driving piece in transmission connection with the material receiving shaft, and a material receiving disc is arranged on the material receiving shaft and used for winding the film tearing belt.

4. The film tearing mechanism of claim 1, wherein at least one first guide wheel and one second guide wheel are arranged on the sliding plate, the first guide wheel is arranged between the first driving wheel and the material discharging assembly, the second guide wheel is arranged between the second driving wheel and the material receiving assembly, a first tensioning wheel is arranged between the first guide wheel and the material discharging assembly, and a second tensioning wheel is arranged between the second guide wheel and the material receiving assembly.

5. A labelling machine comprising a film tearing mechanism as claimed in any one of claims 1 to 4, and a labelling mechanism co-operating with the film tearing mechanism.