CN105539962A - Mechanism used for material multilayer treatment - Google Patents

Abstract

The invention particularly relates to a mechanism used for material multilayer treatment. The mechanism comprises a material compressing device, a negative pressure device, a damper gear, a pressing plate device and a multilayer overlaying device, and the material compressing device is used for compressing materials. The material compressing device and the multilayer overlaying device are connected end to end. The negative pressure device is located on one side of the material compressing device to enable the materials on the material compressing device to be in a negative pressure state. The damper gear is movably arranged between the material compressing device and the multilayer overlaying device and used for blocking the materials from being disengaged from the material compressing device from the side edges of the materials. The pressing plate device is arranged above the material compressing device and used for blocking the materials from being disengaged from the material compressing device from the upper portions of the materials. The multilayer overlaying device comprises a lifting system and at least one plug board system. The lifting system is provided with a high position and a low position. When in the low position, the lifting system is connected with the material compressing device; when in the high position, the lifting system is connected with one of the plug board systems. According to the mechanism used for material multilayer treatment, automatic packing of multilayer multi-row products can be achieved, and the diversity of the products is enriched.

Description

A kind of mechanism for material Multilevel method

Technical field

The invention belongs to disposal toilet article packaging technical field, be specifically related to a kind of mechanism for material Multilevel method.

Background technology

Present stage, the packing method of disposable urine trousers articles for use has multiple, there are Manual Packaging, S. A. packaging, fully-automatic packaging, existing wrapping machine packaged form is substantially all single layer arranging, the many package dresses of individual layer, if pack multi-layer multi-row product in same packaging bag, general is all by filling bag manually, cannot realize automation.

Summary of the invention

The object of this invention is to provide a kind of mechanism for material Multilevel method, the automatic packaging to multi-layer multi-row product can be realized, enrich the variety of product.

For achieving the above object, the technical solution adopted in the present invention is: comprise in order to the material compression device to material compression, negative pressure device, damper gear, presser device and multiple-layer stacked device, material compression device and multiple-layer stacked device end to end, the side that negative pressure device is positioned at material compression device is adjacent on material compression device to make the material on material compression device be in negative pressure state, from the side of material, being located at when working for material compression device between material compression device and multiple-layer stacked device of damper gear activity stops that material departs from material compression device, stop that material departs from material compression device from the top of material when the top that material compression device is located at by presser device works for material compression device, multiple-layer stacked device comprises jacking system and at least one panel system, jacking system has a high position and low level, jacking system connects with material compression device when being in low level, connects make this panel system hold material on jacking system when jacking system is in a high position with a panel system.

Preferably, described multiple-layer stacked device also comprises side plate baffle system, and side plate baffle system is located at the both sides of jacking system to adapt to the width of the material on jacking system.

Preferably, described jacking system comprises supporting plate, fixed block and lifting actuator, and pallets level is arranged, and lifting actuator is positioned at the below of supporting plate and vertically arranges, and supporting plate is connected with lifting actuator by fixed block.

Preferably, described side plate baffle system comprises fixed mount and backgauge side plate, and fixed mount is positioned at the both sides of supporting plate, and fixed mount is provided with backgauge guide rail, the prolonging direction of backgauge guide rail is horizontal direction and vertical with the service direction of supporting plate, and backgauge side plate is vertically arranged and being located on backgauge guide rail of sliding.

Preferably, described panel system comprises horizontally disposed plate actuator and plate, and plate actuator is erected on fixed mount, and plate is connected to be driven by plate actuator with plate actuator.

Preferably, the quantity of described panel system is two and is distributed in the both sides above jacking system.

Preferably, described material compression device comprises two compressions side plate, main panel and material compression actuators, main panel is horizontally disposed with, main panel is provided with two parallel material compression guide rails, two compression side plate be oppositely arranged and slides be located on material compression guide rail, described material compression actuator with compress side plate be connected to provide the power compressing side plate and slide.

Preferably, described damper gear comprises adjustable end stop, hoistway and lifting actuator, described hoistway is vertically arranged, and what described adjustable end stop slided is located on hoistway, and described lifting actuator is connected the power providing adjustable end stop to slide with adjustable end stop.

After adopting technique scheme, the present invention has following good effect:

The mechanism of the material Multilevel method in the present invention, multiple-layer stacked system can realize the process to multilayer dose, by converting the quantity of panel system, can realize that two-layer material is stacking, three layers of material is stacking or more than three layers materials stacking.High speed diaper production line can be mated in mechanism for material Multilevel method of the present invention, can accomplish 12-200 sheet/bag, greatly improve the degree of utilization of equipment.The product packing multiple different size can be realized simultaneously on a wrapping machine, such as arrange individual layer, many row's multilayers etc. more, enriched the variety of product.

Accompanying drawing explanation

Fig. 1 is the birds-eye view of the mechanism of material Multilevel method of the present invention;

Fig. 2 is the front view of the mechanism of material Multilevel method of the present invention.

Wherein: 1, material compression device, 11, compression side plate, 12, main panel, 2, negative pressure device, 3, damper gear, 4, presser device, 5, multiple-layer stacked device, 51, jacking system, 511, supporting plate, 512, fixed block, 513, lifting actuator, 52, panel system, 521, plate actuator, 522, plate, 53, baffle system, 531, fixed mount, 532, backgauge side plate, 533, backgauge guide rail.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

In the present invention, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood as the case may be.

Embodiment 1

As shown in Figure 1-2, for the mechanism of material Multilevel method of the present invention, comprise material compression device 1, negative pressure device 2, damper gear 3, presser device 4 and multiple-layer stacked device 5, material compression device 1 and multiple-layer stacked device 5 end to end, material compression device 1 is for the material compression be delivered to herein, negative pressure device 2 is positioned at the side of material compression device 1, negative pressure device 2 is in negative pressure state for making the material on material compression device 1, thus material can be close on material compression device 1.Damper gear 3 can be elevated, and when damper gear 3 rises, it is between material compression device 1 and multiple-layer stacked device 5, from the side of material, damper gear 3 is for stopping that material departs from material compression device 1 during material compression device 1 pair of material compression.Presser device 4 is positioned at the vertical top of material compression device 1, from the top of material, presser device 4 is for stopping that material departs from material compression device 1 during material compression device 1 pair of material compression.

Material compression device 1 comprises two compressions side plate 11, main panel 12 and material compression actuators, and main panel 12 is horizontally disposed with, and main panel 12 is provided with pore, and being convenient to negative pressure device 2 can act on material.Main panel 12 is provided with two parallel material compression guide rails, two compression side plate 11 be oppositely arranged and slides be located on described material compression guide rail, described material compression actuator with compress side plate 11 be connected and be supplied to the power compressing side plate 11 and slide.Compression side plate 11 can be gone in opposite directions or relatively on material compression guide rail, thus compresses the material on main panel 12 or loosen.Wherein, described material compression actuator is cylinder.

Negative pressure device 2 is made up of pipeline and gas control valve module, plays stable booster action in the front and back of material compression device 1 pair of material compression to material, prevents material in compression process from wantonly flying up.

Damper gear 3 comprises adjustable end stop, hoistway and lifting actuator, described hoistway is vertically arranged, described adjustable end stop also vertically arrange and slide be located on described hoistway, described lifting actuator is connected to be supplied to the power that adjustable end stop slides with adjustable end stop.When material compression device 1 pair of material compression, described adjustable end stop rises and material compression device 1 and multiple-layer stacked device 5 is kept apart, and described adjustable end stop serves the effect preventing material from departing from from material compression device 1.Wherein, described lifting actuator is cylinder.

Multiple-layer stacked device 5 comprises jacking system 51, panel system 52 and side plate baffle system 53.Jacking system 51 has a high position and low level, connects when jacking system 51 is in low level with material compression device 1, and the material on material compression device 1 can be transferred on jacking system 51 smoothly; Jacking system 51 connects with panel system 52 when being in a high position, makes panel system 52 to insert from the bottom of material and to hold material.Side plate baffle system 53 is located at the both sides of jacking system 51, by regulating the distance between two jacking systems 51 to adapt to the product group working width of different size.

Wherein, jacking system 51 comprises supporting plate 511, fixed block 512 and lifting actuator 513, and supporting plate 511 is horizontally disposed with, and lifting actuator 513 is positioned at the vertical below of supporting plate 511, and supporting plate 511 is connected with lifting actuator 513 by fixed block 512.Wherein, lifting actuator 513 is cylinder, and the telescopic direction of described cylinder upper piston rod is vertical direction, during described cylinder operation, drives supporting plate 511 up-and-down movement.When jacking system 51 is positioned at low level, supporting plate 511 and main panel 12 are in sustained height, and connect therebetween thus material after compressing can be transferred on supporting plate 511 from main panel 12, supporting plate 511 by described material lifting to panel system 52 position.

The quantity of side plate baffle system 53 is two, and side plate baffle system 53 is positioned at the both sides of jacking system 51.Side plate baffle system 53 comprises fixed mount 531 and backgauge side plate 532, fixed mount 531 is a support body with certain altitude, backgauge guide rail 533 is provided with in the lower position of described support body, the prolonging direction of backgauge guide rail 533 is horizontal direction and vertical with the service direction of supporting plate 511, backgauge side plate 532 be vertically oppositely arranged and slide be located on backgauge guide rail 533, the distance of running orbit of backgauge side plate 532 from one end of backgauge guide rail 533 to the other end apart from supporting plate 511 increases gradually or reduces gradually.Backgauge side plate 532 is by its movement on backgauge guide rail 533 of an air cylinder driven.The operation of the backgauge side plate 532 be oppositely arranged by two on backgauge guide rail 533 controls the distance between two backgauge side plates 532, to adapt to the product group working width of different size.

The quantity of panel system 52 is two, and panel system 52 is distributed in the both sides above jacking system 51, and two panel system 52 are oppositely arranged.Panel system 52 comprises horizontally disposed plate actuator 521 and plate 522, plate actuator 521 is erected on fixed mount 531, plate actuator 521 is cylinder, and the telescopic direction of described cylinder upper piston rod is horizontal direction, plate 522 is connected to be driven by plate actuator 521 with described piston rod.When described piston rod shrinks, plate 522 is positioned at the oblique upper of supporting plate 511; When described piston rod stretches out, plate 522 is positioned at the vertical top of supporting plate 511, when plate 522 stretches out, can insert, and hold material from the bottom of the material supporting plate 511.

When mechanism for material Multilevel method of the present invention uses, material is introduced on main panel 12, and compressed side plate 11 compresses.Now jacking system 51 is in low level, and damper gear 3 declines, and material is transferred to supporting plate 511 from main panel 12, and be lifting actuator 513 drive with rear supporting plate 511 and rise to a high position, panel system 52 works, and holds material.Then jacking system 51 declines, and continues to transport next group material, and such first group of material is stacked with next group material, enters next station together, achieves the process to double-deck material like this.

Embodiment 2

In this enforcement, be with the difference of embodiment 1, the quantity of panel system 52 is four, and wherein two panel system 52 stacked on top are positioned at the side above jacking system 51, and all the other two panel system 52 stacked on top are positioned at the opposite side above jacking system 51.The process to three layers of material can be realized like this.

Be appreciated that the quantity of panel system 52 can also be the even number of six, more than eight or eight, realize the process to more multi-layered material.

To one skilled in the art, according to technical scheme described above and design, other various corresponding change and deformation can be made, and all these change and deformation all should belong within the protection domain of application claims.

Claims (8)

1. the mechanism for material Multilevel method, it is characterized in that: comprise in order to the material compression device (1) to material compression, negative pressure device (2), damper gear (3), presser device (4) and multiple-layer stacked device (5), material compression device (1) is end to end with multiple-layer stacked device (5), the side that negative pressure device (2) is positioned at material compression device (1) is adjacent on material compression device (1) to make the material on material compression device (1) be in negative pressure state, from the side of material, movable being located at when working for material compression device (1) between material compression device (1) and multiple-layer stacked device (5) of damper gear (3) stops that material departs from material compression device (1), the top that material compression device (1) is located at by presser device (4) is used for stopping that material departs from material compression device (1) from the top of material when material compression device (1) works, multiple-layer stacked device (5) comprises jacking system (51) and at least one panel system (52), jacking system (51) has a high position and low level, jacking system (51) connects with material compression device (1) when being in low level, connects make this panel system (52) hold material on jacking system (51) when jacking system (51) is in a high position with a panel system (52).

2. the mechanism for material Multilevel method according to claim 1, it is characterized in that: described multiple-layer stacked device (5) also comprises side plate baffle system (53), side plate baffle system (53) is located at the both sides of jacking system (51) to adapt to the width of the material on jacking system (51).

3. the mechanism for material Multilevel method according to claim 2, it is characterized in that: jacking system (51) comprises supporting plate (511), fixed block (512) and lifting actuator (513), supporting plate (511) is horizontally disposed with, lifting actuator (513) is positioned at the below of supporting plate (511) and vertically arranges, and supporting plate (511) is connected with lifting actuator (513) by fixed block (512).

4. the mechanism for material Multilevel method according to claim 3, it is characterized in that: side plate baffle system (53) comprises fixed mount (531) and backgauge side plate (532), fixed mount (531) is positioned at the both sides of supporting plate (511), fixed mount (531) is provided with backgauge guide rail (533), the prolonging direction of backgauge guide rail (533) is horizontal direction and vertical with the service direction of supporting plate (511), and backgauge side plate (532) is vertically arranged and being located on backgauge guide rail (533) of sliding.

5. the mechanism for material Multilevel method according to claim 4, it is characterized in that: panel system (52) comprises horizontally disposed plate actuator (521) and plate (522), plate actuator (521) is erected on fixed mount (531), and plate (522) is connected to be driven by plate actuator (521) with plate actuator (521).

6. the mechanism for material Multilevel method according to claim 5, is characterized in that: the quantity of panel system (52) is two and is distributed in the both sides of jacking system (51) top.

7. the mechanism for material Multilevel method according to claim 6, it is characterized in that: material compression device (1) comprises two compressions side plate (11), main panel (12) and material compression actuators, main panel (12) is horizontally disposed with, main panel (12) is provided with two parallel material compression guide rails, two compression side plate (11) be oppositely arranged and slides be located on material compression guide rail, described material compression actuator with compress side plate (11) be connected to provide the power compressing side plate (11) and slide.

8. the mechanism for material Multilevel method according to claim 7, it is characterized in that: damper gear (3) comprises adjustable end stop, hoistway and lifting actuator, described hoistway is vertically arranged, what described adjustable end stop slided is located on hoistway, and described lifting actuator is connected the power providing adjustable end stop to slide with adjustable end stop.