CN111230999B - Edge waste recovery mechanism of shaping ear area - Google Patents

Abstract

The invention discloses an edge waste recovery mechanism of a formed ear belt, which comprises a machine body provided with an ear belt raw material feeding mechanism, wherein an ear belt raw material traction cutting mechanism is arranged on the machine body above the ear belt raw material feeding mechanism; and an ear band raw material auxiliary laminating mechanism is arranged on the machine body between the ear band raw material feeding mechanism and the second ear band waste edge collecting mechanism. The utility model discloses a mask body, including the ear area, the ear area is cut to the ear area, the ear area is cut the in-process of carrying at the mask body and is effectively reliable material loading in step, and accomplish the shaping that cuts of ear area in step, both sides edge waste material after the ear area raw materials cuts is online simultaneously, stagger the collection, avoided collecting both sides edge waste material simultaneously, can be to middle application of force, and extrude the ear area that cuts the shaping, and lead to taking place the problem of deformation, and the influence cuts the ear area after the shaping and pastes.

Description

Edge waste recovery mechanism of shaping ear area

Technical Field

The invention belongs to the technical field of mask production equipment, and particularly relates to an edge waste recovery mechanism for a formed ear band.

Background

At present stage, the ear area on the supra-aural gauze mask is thinner, can cause the oppression to the ear, it is poor to wear the travelling comfort, in order to solve above-mentioned problem, the gauze mask of a wide ear area formula (see fig. 2) has been designed, in order to this kind of wide ear area 13 of shaping, need cut ear area raw materials 3, corresponding first waste material 11 and the second waste material 12 that can produce the edge after cutting, can influence subsequent other station work in the production of gauze mask in order to prevent the waste material, and the terminal of gauze mask machine can directly produce the gauze mask finished product, consequently, need design a waste recycling mechanism.

Disclosure of Invention

In view of the above problems, embodiments of the present invention provide an edge waste recycling mechanism for a formed ear band, so as to achieve an effect of online recycling of edge waste in the production of a mask.

The technical scheme provided by the embodiment of the invention is as follows: the edge waste recovery mechanism for the formed ear belt comprises a machine body and is characterized in that an ear belt raw material feeding mechanism is arranged on the machine body, an ear belt raw material traction cutting mechanism is arranged on the machine body above the ear belt raw material feeding mechanism, a first ear belt waste edge collecting mechanism is arranged on the machine body at the upstream of the ear belt raw material feeding mechanism, and a second ear belt waste edge collecting mechanism is arranged on the machine body at the downstream of the ear belt raw material feeding mechanism; and the ear belt raw material auxiliary laminating mechanism is arranged on the machine body and between the ear belt raw material feeding mechanism and the second ear belt waste edge collecting mechanism.

As an improvement, the ear belt raw material traction cutting mechanism comprises a first support arranged on the machine body, two traction rollers driven by a first driving device are rotatably arranged on the first support, and one of the two traction rollers is provided with an ear belt forming cutting die cutter.

As a further improvement, an ear belt transition guide roller is rotatably arranged on the machine body on the winding path of the ear belt raw material.

As an improvement, the ear belt raw material feeding mechanism, the first ear belt waste edge collecting mechanism and the second ear belt waste edge collecting mechanism respectively comprise a first material shaft driven by a first power device, and a material roller is arranged on the first material shaft.

As a further improvement, a material guide plate is arranged on the machine body at the upstream of the second ear belt slitter edge collecting mechanism, and a scrap transition guide roller is rotatably arranged on the machine body below the material guide plate.

As a further improvement, the ear belt raw material auxiliary attaching mechanism comprises a second material shaft driven by a second power device, a PE film roller is arranged on the second material shaft, and a conveying route of the PE film on the PE film roller is consistent with a conveying route of the ear belt raw material on the ear belt raw material feeding mechanism.

As a further improvement, a traction composite mechanism is arranged on the machine body positioned at the downstream of the ear band raw material traction cutting mechanism.

As a still further improvement, the traction composite mechanism comprises a second bracket, and two traction composite roll shafts driven by a second driving device are rotatably mounted on the second bracket.

By adopting the technical scheme, the edge waste recovery mechanism of the formed ear band provided by the embodiment of the invention has the following beneficial effects:

because the edge waste recovery mechanism of the formed ear belt comprises a machine body, the machine body is provided with an ear belt raw material feeding mechanism, the machine body positioned above the ear belt raw material feeding mechanism is provided with an ear belt raw material traction cutting mechanism, the machine body positioned at the upstream of the ear belt raw material feeding mechanism is provided with a first ear belt waste edge collecting mechanism, the machine body positioned at the downstream of the ear belt raw material feeding mechanism is provided with a second ear belt waste edge collecting mechanism, based on the structure, in the application of the edge waste recovery mechanism for the molding ear belt, the ear belt raw material is fed by the ear belt raw material feeding mechanism, the ear band raw material is traction-conveyed and synchronously cut (for forming the ear band) through the ear band raw material traction cutting mechanism, collecting waste materials on one side of the cut ear belt raw materials through a first ear belt waste edge collecting mechanism, and collecting waste materials on the other side of the cut ear belt raw materials through a second ear belt waste edge collecting mechanism; in the transportation process of above-mentioned ear area raw materials, come supplementary material loading to the ear area raw materials through the supplementary laminating mechanism of ear area raw materials, guaranteed the validity of ear area raw materials material loading.

To sum up, adopt the marginal waste recovery mechanism in this shaping ear area, realized the in-process of carrying at the gauze mask body, carry out effective, reliable material loading to the ear area raw materials in step, and can accomplish the shaping that cuts of ear area in step, simultaneously, the both sides marginal waste material after having realized the ear area raw materials and cut is online, stagger and collect, the both sides marginal waste material of having avoided collecting simultaneously, can be to middle application of force, and extrude the ear area that cuts the shaping, and lead to taking place the problem of deformation, and the influence cuts the ear area after the shaping and pastes the problem of compactness with the gauze mask body.

Because the ear area raw materials pulls cuts the mechanism including setting up the first support on the organism, rotates on the first support and installs two carry over pinch rolls of first drive arrangement driven, is equipped with ear area shaping cutting die sword on one of them carry over pinch roll to come to carry out the roll-in formula to the ear area raw materials through the cooperation of two carry over pinch rolls and pull the transport, and accomplish in step and cut, simple structure has good drawing and cutting effect to the ear area raw materials.

Because on the route of winding of ear area raw materials, rotate on the organism and install ear area transition guide roll to through ear area transition guide roll to ear area raw materials arrange in advance, simultaneously, make the good laminating of stack formula in ear area raw materials and the PE membrane of low reaches before getting into ear area raw materials and drawing cutting mechanism together.

Owing to be located and be equipped with the stock guide on the organism of second ear area slitter edge collection mechanism upper reaches, it installs waste material transition guide roll to rotate on the organism that is located the stock guide below to superpose gauze mask body and ear area raw materials together (cut the back) in the transport that lasts, carry out the bearing through the stock guide, simultaneously, be convenient for second waste material limit through the stock guide draw the formula separation of dragging from the ear area raw materials at the in-process of bearing, and can not make the ear area after cutting the shaping take place to warp when dragging the formula separation.

Because supplementary laminating mechanism of ear area raw materials includes second power device driven second material axle, and the epaxial PE membrane roller that is equipped with of second material, the transport route of PE membrane on the PE membrane roller with the transport route of ear area raw materials on the ear area raw materials feed mechanism roller is unanimous to come to carry out reliable stack formula laminating with the ear area raw materials through the viscidity of PE membrane, effectively avoided the ear area raw materials to take place to warp in carrying.

Because the machine body positioned on the downstream of the ear band raw material traction cutting mechanism is provided with the traction composite mechanism, the traction composite mechanism can play a role in traction conveying, and can compound the three-layer superposed body formed by superposing the mask body, the cut ear band raw material and the PE film, so that the reliable work of the downstream mechanism is guaranteed.

Because pull the combined mechanism and include the second support, rotate on the second support and install two compound roller shafts that pull of second drive arrangement driven to come to carry out roll-in formula through pulling compound roller and carry, simple structure has good drawing and compound effect to the coincide body.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of a cut-out ear band material;

in the figure, 1-body; 2-ear belt raw material traction cutting mechanism; 201-a first support; 202-a pulling roll; 203-ear belt transition guide roller; 3-earlap raw material; 4-a first material shaft; 401-material roller; 5-a material guide plate; 501-waste transition guide roll; 6-a second material shaft; 601-PE film roller; 7-PE film; 8-a traction compound mechanism; 801-a second scaffold; 802-pulling the composite roll shaft; 803-intermediate transition rolls; 9-a three layer laminate; 10-mask body; 11-a first waste material; 12-a second waste material; 13-ear band.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

For convenience of illustration, the direction of the arrow in fig. 1 is the conveying direction of the material.

As shown in fig. 1, an edge waste recycling mechanism for a formed ear belt comprises a machine body 1, wherein the machine body 1 is provided with an ear belt raw material feeding mechanism, the machine body 1 positioned above the ear belt raw material feeding mechanism is provided with an ear belt raw material traction cutting mechanism 2, the machine body 1 positioned at the upstream of the ear belt raw material feeding mechanism is provided with a first ear belt waste edge collecting mechanism, and the machine body 1 positioned at the downstream of the ear belt raw material feeding mechanism is provided with a second ear belt waste edge collecting mechanism; be located and be equipped with the supplementary laminating mechanism of ear area raw materials on organism 1 between ear area raw materials feed mechanism and the second ear area slitter edge collection mechanism, as preferred, be located and pull the combined mechanism 8 on the organism 1 of ear area raw materials traction cutting mechanism 2 low reaches.

The ear band raw material traction cutting mechanism 2 comprises a first support 201 arranged on a machine body 1, wherein the first support 201 is rotatably provided with two traction rollers 202 driven by a first driving device, one traction roller 202 is provided with an ear band forming and cutting die cutter (not shown in the figure), in the scheme, the ear band forming and cutting die cutter is arranged on the traction roller 202 positioned above, and the ear band forming and cutting die cutter is a plurality of blades arranged on the traction roller 202 according to the shape of an ear band; an ear belt transition guide roller 203 is rotatably mounted on the machine body 1 on the winding path of the ear belt material 3.

This ear area raw materials feed mechanism, first ear area slitter edge are collected mechanism and second ear area slitter edge and are collected mechanism and all include first material axle 4 of first power device (motor) driven, are equipped with material roller 401 on this first material axle 4.

A material guide plate 5 with a triangular structure is arranged on the machine body 1 at the upstream of the second ear belt slitter edge collecting mechanism, and a waste material transition guide roller 501 is rotatably arranged on the machine body 1 below the material guide plate 5.

This supplementary laminating mechanism of ear area raw materials includes second power device (motor) driven second stub shaft 6, is equipped with PE membrane roller 601 on this second stub shaft 6, and the delivery route of PE membrane 7 is unanimous with the delivery route of ear area raw materials 3 on the ear area raw materials feed mechanism on this PE membrane roller 601.

The traction composite mechanism 8 comprises a second bracket 801, two traction composite roller shafts 802 driven by a second driving device are rotatably mounted on the second bracket 801, and an intermediate transition roller 803 is rotatably mounted on the machine body 1 between the second bracket 801 and the first bracket 201; the guide plate 5 and the scrap transition guide roller 501 are located downstream of the second support 801.

In the scheme, the first driving device and the second driving device both comprise driving gears driven by a motor and driven gears arranged on the traction roller 202 or the traction composite roller shaft 802, and the driving gears are meshed with one of the driven gears; the driving gear may be disposed on a driving shaft rotatably mounted on the first bracket 201 and the second bracket 801.

For ease of understanding, the raw material feed and waste recovery routes are: the ear belt raw material 3 and the PE film 7 are synchronously conveyed, when passing through an ear belt transition guide roller 203, the ear belt raw material 3 and the PE film 7 are in a laminated arrangement state, at the moment, the ear belt raw material 3 is positioned below the PE film 7, then passes through a space between two traction rollers 202 on a first support 201, and is cut by an ear belt forming and cutting die knife on the traction rollers 202 to complete the formation of the ear belt, then is converged with a mask body 10 conveyed from the upstream when passing through the traction rollers 202 on the first support 201, is also in a laminated arrangement state and forms a three-layer laminated body 9, the three-layer laminated body 9 sequentially comprises the mask body 10, the ear belt raw material 3 and the PE film 7 from top to bottom, and in the process, the first waste material 11 on one side of the cut ear belt raw material 3 is synchronously collected by a first ear belt waste edge collecting mechanism; then, the three-layer superimposed body 9 enters between two traction composite roll shafts 802 on the second support 801 after passing through the intermediate transition roll 803, and then the PE film 7 and the second waste material 12 on the other side after cutting the ear band raw material 3 simultaneously pass through the material guide plate 5 and the waste material transition guide roll 501 in sequence and are synchronously collected by the second ear band waste edge collecting mechanism, and after removing the waste materials on the two side edges, the mask body 10 and the formed ear band 13 which are arranged in a stacked manner are continuously conveyed to the downstream mechanism (see the two-dot chain line shown in fig. 1).

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (7)

1. The edge waste recovery mechanism for the formed ear belt comprises a machine body and is characterized in that an ear belt raw material feeding mechanism is arranged on the machine body, an ear belt raw material traction cutting mechanism is arranged on the machine body above the ear belt raw material feeding mechanism, a first ear belt waste edge collecting mechanism is arranged on the machine body at the upstream of the ear belt raw material feeding mechanism, and a second ear belt waste edge collecting mechanism is arranged on the machine body at the downstream of the ear belt raw material feeding mechanism; an auxiliary lug belt raw material attaching mechanism is arranged on the machine body between the lug belt raw material feeding mechanism and the second lug belt waste edge collecting mechanism;

supplementary laminating mechanism of ear area raw materials includes second power device driven second stub shaft, be equipped with PE membrane roller on the second stub shaft, the delivery route of PE membrane on the PE membrane roller with the delivery route of ear area raw materials is unanimous on the ear area raw materials feed mechanism.

2. The apparatus as claimed in claim 1, wherein the ear band material pulling and cutting mechanism comprises a first bracket disposed on the machine body, the first bracket is rotatably mounted with two pulling rolls driven by a first driving device, and one of the pulling rolls is provided with an ear band forming and cutting die.

3. The edge scrap recycling apparatus for ear straps as claimed in claim 2, wherein an ear strap transition guide roller is rotatably mounted on said housing along the path of the ear strap material.

4. The edge scrap recycling mechanism for forming ear belts as claimed in claim 3, wherein said ear belt material feeding mechanism, said first ear belt scrap edge collecting mechanism and said second ear belt scrap edge collecting mechanism each comprise a first material shaft driven by a first power device, and a material roller is disposed on said first material shaft.

5. The edge waste recycling mechanism for forming ear belt of claim 4, wherein a material guiding plate is disposed on the machine body upstream of the second ear belt waste edge collecting mechanism, and a waste transition guiding roller is rotatably mounted on the machine body below the material guiding plate.

6. The mechanism of any one of claims 1 to 5, wherein a pulling and cutting mechanism is provided on the housing downstream of the ear band material pulling and cutting mechanism.

7. The edge trim reclamation mechanism of claim 6, wherein the pull assembly comprises a second frame having two pull assembly rollers rotatably mounted thereon and driven by a second drive mechanism.

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