CN111376576A

CN111376576A - Cloth type raw material feeding and compounding device

Info

Publication number: CN111376576A
Application number: CN202010471451.9A
Authority: CN
Inventors: 宋光辉; 刘中强
Original assignee: Shandong Hoaco Automation Technology Co Ltd
Current assignee: Shandong Hoaco Automation Technology Co Ltd
Priority date: 2020-05-29
Filing date: 2020-05-29
Publication date: 2020-07-07
Anticipated expiration: 2040-05-29
Also published as: CN111376576B

Abstract

The invention discloses a cloth type raw material feeding and compounding device which comprises a machine body, wherein a first mounting seat is arranged on the machine body, a second mounting seat is arranged on the machine body positioned at the downstream of the first mounting seat, a first cloth layer conveying and traction mechanism is arranged on the first mounting seat, and a cutting roller is rotatably arranged on the first mounting seat above the first cloth layer conveying and traction mechanism; a first cloth layer guiding and conveying mechanism is arranged between a first mounting seat and a second mounting seat which are positioned at the downstream of the first cloth layer conveying and traction mechanism, a second cloth layer guiding and conveying mechanism is arranged between a machine body positioned above the first cloth layer guiding and conveying mechanism and the second mounting seat, and a traction composite mechanism is arranged on the second mounting seat which is positioned at the downstream of the second cloth layer guiding and conveying mechanism. The shunting conveying of the distributed raw materials, the compounding after the shunting conveying and the forming of the nose bridge line are realized, and the conveying of the distributed raw materials and the forming of the nose bridge line are synchronous and do not interfere with each other.

Description

Cloth type raw material feeding and compounding device

Technical Field

The invention belongs to the technical field of mask processing equipment, and particularly relates to a cloth type raw material feeding and compounding device.

Background

At present, the KN95 mask is formed by the following steps: the mask body 9 shown in fig. 3 (which includes a cloth-type raw material body 901 formed by welding multiple layers of non-woven fabrics and meltblown fabrics, and a bridge line is provided in the cloth-type raw material body 901) is first processed by mask processing equipment, and then the processing procedures such as folding and welding ear bands are performed. And the forming process of gauze mask body 9 is in the transport of multilayer non-woven fabrics and melt-blown fabric, in the nose bridge line 902 (cutting the nose bridge line on the nose bridge line roller and forming) with suitable length carry to multilayer non-woven fabrics and melt-blown fabric in step, in order not to influence the transport before the shaping of nose bridge line 902 and cut, simultaneously, in order to guarantee that the good linking of nose bridge line 902 can be carried to multilayer non-woven fabrics and melt-blown fabric, consequently need not design a material loading set composite of non-woven fabrics and melt-blown fabric.

Disclosure of Invention

In view of the above problems, an embodiment of the present invention provides a distributed raw material feeding composite device, so as to achieve the purpose that the distributed raw material does not interfere with the forming of a nose bridge line in the feeding process.

The technical scheme provided by the embodiment of the invention is as follows: a cloth type raw material feeding composite device comprises a machine body, wherein a first mounting seat is arranged on the machine body, a second mounting seat is arranged on the machine body and is positioned at the downstream of the first mounting seat, a first cloth layer conveying and traction mechanism is arranged on the first mounting seat, and a cutting roller is rotatably arranged on the first mounting seat above the first cloth layer conveying and traction mechanism;

and a first cloth layer guiding and conveying mechanism is arranged between the first mounting seat and the second mounting seat, which are positioned at the downstream of the first cloth layer conveying and traction mechanism, a second cloth layer guiding and conveying mechanism is arranged between the machine body and the second mounting seat, which are positioned above the first cloth layer guiding and conveying mechanism, and a traction composite mechanism is arranged on the second mounting seat, which is positioned at the downstream of the second cloth layer guiding and conveying mechanism.

As an improvement, the first cloth layer conveying traction mechanism comprises a first driving roller which is rotatably installed on the first installation seat and is driven by a first power element, a first conveying roller is rotatably installed above the first driving roller, and the first conveying roller, the first driving roller and the cutting roller are transmitted in pairs through a first transmission gear;

the first non-woven fabric roller is rotatably arranged on the machine body, and the first non-woven fabric on the first non-woven fabric roller penetrates through the space between the first conveying roller and the first driving roller.

As a further improvement, a first guide roller for guiding the first nonwoven fabric is rotatably mounted on the machine body.

As a further improvement, the first cloth layer guiding and conveying mechanism comprises first connecting rods which are arranged at two ends of the first mounting seat and extend towards the second mounting seat, and a first guiding and conveying roller is rotatably arranged between the two first connecting rods;

the device is characterized by further comprising second connecting rods arranged at two ends of the second mounting seat and extending towards the first mounting seat, a second guide roller is rotatably arranged between the second connecting rods, and the second guide roller is higher than the first guide roller.

As a further improvement, the second cloth layer guiding and conveying mechanism comprises third connecting rods which are arranged at two ends of the second mounting seat and extend towards the first mounting seat, and a third guiding and conveying roller is rotatably arranged between the two third connecting rods;

still including installing in rotating at least one melt-blown cloth roller and the second non-woven fabrics roller on the organism, melt-blown cloth on the cloth roller of melt-blown and second non-woven fabrics on the second non-woven fabrics roller around warp the third guide roll, the third guide roll is located directly over the second guide roll.

As a still further improvement, the second guide roller and the third guide roller abut against each other, and a guide position between the second guide roller and the third guide roller is disposed coplanar with a lower surface of the cutting roller.

As a still further improvement, a second guide roller for guiding the second nonwoven fabric and the meltblown fabric is rotatably mounted on the body.

As a further improvement, the traction composite mechanism comprises a second driving roller which is rotatably mounted on the second mounting seat and is driven by a second power element, a second conveying roller is rotatably mounted above the second driving roller, a rubber roller is rotatably mounted above the second conveying roller, and the rubber roller, the second conveying roller and the second driving roller are transmitted in pairs through a second transmission gear.

As a still further improvement, a traction composite position between the rubber roller and the second conveying roller and a guide position between the second guide roller and the third guide roller are arranged in a coplanar manner.

As a further improvement, the melt-blown fabric roller and the second nonwoven fabric roller are rotatably mounted on a material seat, and the material seat, the first mounting seat and the second mounting seat are slidably mounted on the machine body.

By adopting the technical scheme, the distributed raw material feeding composite device provided by the embodiment of the invention has the following beneficial effects:

the cloth type raw material feeding and compounding device comprises a machine body, wherein a first mounting seat is arranged on the machine body, a second mounting seat is arranged on the machine body positioned at the downstream of the first mounting seat, a first cloth layer conveying and traction mechanism is arranged on the first mounting seat, and a cutting roller is rotatably arranged on the first mounting seat above the first cloth layer conveying and traction mechanism; a first cloth layer guiding and conveying mechanism is arranged between the first mounting seat and the second mounting seat which are positioned at the downstream of the first cloth layer conveying and traction mechanism, a second cloth layer guiding and conveying mechanism is arranged between the machine body which is positioned above the first cloth layer guiding and conveying mechanism and the second mounting seat, a traction composite mechanism is arranged on the second mounting seat which is positioned at the downstream of the second cloth layer guiding and conveying mechanism, therefore, in the work, the nose bridge line is cut by the cutting roller, the distributed raw materials (non-woven fabrics) are fed and conveyed by the first cloth layer conveying tractor below the cutting roller, partial distributed raw materials are guided to the traction composite mechanism through the first cloth layer guiding and conveying mechanism, the other part of distributed raw materials (melt-blown fabric and non-woven fabric) are fed and guided through the second cloth layer guiding and conveying mechanism, at the moment, the two parts of distributed raw materials are converged together, and then the distributed raw materials are guided to the traction composite mechanism and are conveyed to the downstream mechanism.

In conclusion, by adopting the distributed raw material feeding and compounding device, the distributed raw material is conveyed in a shunting manner, compounded after the distributed raw material is conveyed in a shunting manner, and the nose bridge line is formed, and the conveying of the distributed raw material and the forming work of the nose bridge line are synchronously formed and do not interfere with each other.

The first cloth layer conveying traction mechanism comprises a first driving roller which is rotatably arranged on the first mounting seat and driven by a first power element, a first conveying roller is rotatably arranged above the first driving roller, and the first conveying roller, the first driving roller and the cutting roller are transmitted in pairs through a first transmission gear; still including rotating at least one first non-woven fabrics roller of installing on the organism, first non-woven fabrics on the first non-woven fabrics roller passes from between first conveying roller and the first drive roller to in operation, first non-woven fabrics on the first non-woven fabrics roller is through carrying towards first cloth layer guide mechanism direction again after between first conveying roller and the first drive roller, not only avoids cutting the roller, has played the effect of supplementary traction transport first non-woven fabrics moreover.

Because the first guide roller that is used for leading first non-woven fabrics is installed in the rotation on the organism to can compound the first non-woven fabrics of multilayer together in advance through first guide roller, can play the problem of avoiding other mechanisms on first non-woven fabrics and the organism to take place to interfere simultaneously.

The first cloth layer guiding and conveying mechanism comprises first connecting rods which are arranged at two ends of the first mounting seat and extend towards the direction of the second mounting seat, and a first guiding and conveying roller is rotatably arranged between the two first connecting rods; still including setting up in second mount pad both ends and to the second connecting rod that first mount pad direction extends, rotate between two second connecting rods and install the second and lead the roller, the second is led and is sent the roller setting higher than first to lead and send the roller setting through pivoted first and second and lead and send the roller to first non-woven fabrics and lead, avoid first non-woven fabrics and other mechanisms to take place the contact and cause the damage.

The second cloth layer guiding and conveying mechanism comprises third connecting rods which are arranged at two ends of the second mounting seat and extend towards the first mounting seat, and a third guiding and conveying roller is rotatably arranged between the two third connecting rods; still install at least one melt-blown cloth roller and second non-woven fabric roller on the organism including rotating, melt-blown cloth on the melt-blown cloth roller, and the second non-woven fabrics on the second non-woven fabric roller around leading the roller through the third, the third is led the roller and is located the second and is led the roller directly over, thereby lead through the third of pivoted and lead the roller and send second non-woven fabrics and melt-blown cloth, moreover, the steam generator is simple in structure, lead and send effectually, establish the basis for the joining of the two parts distributing type raw materials of reposition of redundant personnel transport.

Because second guide send roller and third guide send the roller to lean on each other and lean on together, and the guide between second guide send roller and the third guide send the roller send the position and cut the lower surface coplane setting of roller, thereby realized converging of two parts distributing type raw materials of reposition of redundant personnel transport, simultaneously, the fashioned bridge of the nose line can smooth-going transport to between second guide send roller and the third guide send roller after the cutting roll carries out cutting work, later through the second guide send roller and the third guide send roller that lean on each other with bridge of the nose line clamp in the non-woven fabrics and the melt-blown cloth of reposition of redundant personnel transport, the fixity of bridge of the nose line position in distributing type raw materials has been guaranteed.

Because the second guide roller that is used for carrying out the guide to second non-woven fabrics and melt-blown fabric is installed in the rotation on the organism to can be in advance with the compound together of multilayer melt-blown fabric through the second guide roller, can play the problem of avoiding on second non-woven fabrics and melt-blown fabric and the organism other mechanisms to take place to interfere simultaneously.

Because pull the combined mechanism and install on the second mount pad including rotating, and by second power component driven second drive roller, the second conveying roller is installed in the top rotation of second drive roller, the rubber roll is installed in the top rotation of second conveying roller, the rubber roll, second conveying roller and second drive roller carry out the transmission through second drive gear between two liang, thereby in operation, send into simultaneously between second conveying roller and the rubber roll after two parts distributing type raw materials collect, afterwards, come to compound and carry out the towed transport down stream two parts distributing type raw materials through the rotation of second conveying roller and rubber roll, moreover, the steam generator is simple in structure, it is effectual with compound to the pulling of distributing type raw materials.

Because the traction composite position between the rubber roller and the second conveying roller and the guide position between the second guide roller and the third guide roller are arranged in a coplanar manner, the straight conveying of the distributed raw materials between the rubber roller and the second conveying roller is ensured, and the position change of a nose bridge line in the distributed raw materials is avoided.

Because melt the cloth roller of melting and all rotate with the second non-woven fabric roller and install on the material seat, first mount pad and the equal slidable mounting of second mount pad are on the organism to according to actual need, be convenient for the quick adjustment material seat, the position of first mount pad and second mount pad.

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 an enlarged view of A in FIG. 1;

fig. 3 is a schematic structural view of the mask body of KN 95;

in the figure, 1-body; 101-a first mount; 102-a second mount; 103-a first guide roller; 104-a second guide roller; 2-cutting roller; 3, a first cloth layer conveying and traction mechanism; 301-a first drive roller; 302-a first conveyor roller; 303-a first nonwoven roll; 304-a first nonwoven; 4-a first cloth layer guiding and conveying mechanism; 401-a first link; 402-a first guide roll; 403-a second link; 404-a second guide roller; 5-a second cloth layer guiding and conveying mechanism; 501-a third connecting rod; 502-a third guide roll; 503-melt-blown cloth roller; 504-a second nonwoven roll; 505-meltblown; 506-a second non-woven fabric; 6-a traction compound mechanism; 601-a second drive roller; 602-a second conveyor roller; 603-rubber roll; 7-a material seat; 8-a multilayer composite; 9-mask body; 901-distributed raw material body; 902-nasal bridge line.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are merely 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 explanation, the two-dot chain line shown in fig. 1 and 2 is a transport route of the cloth material (the first nonwoven fabric 304, the second nonwoven fabric 506, the meltblown fabric 505, and the multilayer composite 8).

As shown in fig. 1 and fig. 2, a cloth-type raw material feeding composite device includes a machine body 1, a first mounting seat 101 is provided on the machine body 1, a second mounting seat 102 is provided on the machine body 1 located at the downstream of the first mounting seat 101, a first cloth layer conveying and drawing mechanism 3 is provided on the first mounting seat 101, and a cutting roller 2 is rotatably mounted on the first mounting seat 101 above the first cloth layer conveying and drawing mechanism 3; a first cloth layer guiding and conveying mechanism 4 is arranged between a first mounting seat 101 and a second mounting seat 102 which are positioned at the downstream of the first cloth layer conveying and traction mechanism 3, a second cloth layer guiding and conveying mechanism 5 is arranged between a machine body 1 which is positioned above the first cloth layer guiding and conveying mechanism 4 and the second mounting seat 102, and a traction composite mechanism 6 is arranged on the second mounting seat 102 which is positioned at the downstream of the second cloth layer guiding and conveying mechanism 5.

The first fabric layer conveying traction mechanism 3 comprises a first driving roller 301 which is rotatably mounted on the first mounting seat 101 and is driven by a first power element (such as a motor and other power sources, not shown in the figure), a first conveying roller 302 is rotatably mounted above the first driving roller 301, and the first conveying roller 302, the first driving roller 301 and the cutting roller 2 are transmitted in pairs through a first transmission gear (not shown in the figure); at least one first nonwoven roller 303 is rotatably mounted on the machine body 1, and a first nonwoven 304 on the first nonwoven roller 303 passes through between the first feed roller 302 and the first drive roller 301.

The first cloth layer guiding and conveying mechanism 4 comprises first connecting rods 401 which are arranged at two ends of the first mounting seat 101 and extend towards the direction of the second mounting seat 102, and a first guiding and conveying roller 402 is rotatably arranged between the two first connecting rods 401; the first nonwoven fabric conveying device further comprises second connecting rods 403 which are arranged at two ends of the second mounting seat 102 and extend towards the first mounting seat 101, a second guide roller 404 is rotatably arranged between the two second connecting rods 403, the second guide roller 404 is higher than the first guide roller 402, and the first nonwoven fabric 304 passes through the first conveying roller 302 and the first driving roller 301 and then winds around the first guide roller 402 and the second guide roller 404 in an S shape.

The second fabric layer guiding and conveying mechanism 5 comprises third connecting rods 501 which are arranged at two ends of the second mounting seat 102 and extend towards the first mounting seat 101, a third guiding and conveying roller 502 is rotatably arranged between the two third connecting rods 501, and the third guiding and conveying roller 502 is positioned right above the second guiding and conveying roller 404; the machine also comprises at least one melt-blown fabric roller 503 and a second non-woven fabric roller 504 which are rotatably arranged on the machine body 1, wherein the melt-blown fabric 505 on the melt-blown fabric roller 503 and the second non-woven fabric 506 on the second non-woven fabric roller 504 are wound by a third guide roller 502.

Preferably, the second guide roller 404 and the third guide roller 502 abut against each other, and a guide position between the second guide roller 404 and the third guide roller 502 is disposed coplanar with the lower surface of the cutting roller 2; a first guide roller 103 for guiding the first nonwoven fabric 304 and a second guide roller 104 for guiding the second nonwoven fabric 506 and the meltblown fabric 505 are rotatably mounted on the machine body 1.

The traction compound mechanism 6 includes a second driving roller 601 rotatably mounted on the second mounting base 102 and driven by a second power element (such as a motor and other power sources, not shown in the figure), a second conveying roller 602 is rotatably mounted above the second driving roller 601, a rubber roller 603 is rotatably mounted above the second conveying roller 602, and the rubber roller 603, the second conveying roller 602 and the second driving roller 601 are driven by a second transmission gear (not shown in the figure). Preferably, the drawing and combining position between the glue roller 603 and the second conveying roller 602 is coplanar with the conveying position between the second conveying roller 404 and the third conveying roller 503, and the melt-blown fabric 505 and the second non-woven fabric 506 wound around the third conveying roller 502 and the first non-woven fabric roller 303 wound around the second conveying roller 404 simultaneously enter between the glue roller 603 and the second conveying roller 602 to be drawn and combined, so as to form the multilayer composite 8 (the multilayer composite 8 is welded and cut to form the cloth type raw material body 901 shown in fig. 3).

In the scheme, the first guide roller 402, the second guide roller 404 and the third guide roller 502 are also arranged as rubber rollers; the meltblown fabric roll 503 and the second nonwoven fabric roll 504 are rotatably mounted on the material base 7, and the material base 7, the first mounting base 101 and the second mounting base 102 are slidably mounted on the machine body 1.

For convenience of understanding, the working principle of the distributed raw material feeding and compounding device provided by the invention is given as follows:

a first nonwoven 304 (a part of the fabric material, which may be a multilayer) is pulled out from a first nonwoven roller 303, guided by a first guide roller 103, and then enters between a first driving roller 301 and a first conveying roller 302, and then sequentially passes through a first guide roller 402 and a second guide roller 404 and then enters between a second conveying roller 602 and a rubber roller 603; in the process of conveying the first nonwoven fabric 304, after being respectively pulled out from the second nonwoven fabric roller 504 and the meltblown fabric roller 503, the second nonwoven fabric 506 and the meltblown fabric 505 (another portion of the fabric material) sequentially pass through the second guide roller 104 and the third guide roller 502, when passing through the third guide roller 502, the two portions of the fabric material which are divided and guided are combined together, and then when passing through the space between the second conveying roller 602 and the rubber roller 603, the two portions of the fabric material are combined and are subjected to traction conveying. In the process of conveying and compounding the cloth raw materials, the cutting roller 2 located at the upstream of the second guide roller 404 and the third guide roller 502 cuts the nose bridge line synchronously, and then the cut and formed nose bridge line is sent between the second guide roller 404 and the third guide roller 502, and at the moment, the nose bridge line is clamped in the converged cloth raw materials.

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

1. A cloth type raw material feeding composite device comprises a machine body and is characterized in that a first mounting seat is arranged on the machine body, a second mounting seat is arranged on the machine body and located at the downstream of the first mounting seat, a first cloth layer conveying and traction mechanism is arranged on the first mounting seat, and a cutting roller is rotatably arranged on the first mounting seat above the first cloth layer conveying and traction mechanism;

2. The cloth material feeding and compositing device according to claim 1, wherein the first cloth layer conveying and pulling mechanism comprises a first driving roller which is rotatably mounted on the first mounting seat and driven by a first power element, a first conveying roller is rotatably mounted above the first driving roller, and the first conveying roller, the first driving roller and the cutting roller are driven by a first transmission gear;

3. The distributed raw material feeding and compounding device according to claim 2, wherein a first guide roller for guiding the first nonwoven fabric is rotatably mounted on the body.

4. The cloth material loading and compositing device of claim 3, wherein the first cloth layer guiding and feeding mechanism comprises first connecting rods arranged at two ends of the first mounting seat and extending towards the second mounting seat, and a first guiding and feeding roller is rotatably arranged between the two first connecting rods;

5. The cloth material loading and compositing device of claim 4, wherein the second cloth layer guiding and feeding mechanism comprises third connecting rods arranged at two ends of the second mounting base and extending towards the first mounting base, and a third guiding and feeding roller is rotatably arranged between the two third connecting rods;

6. The distributed raw material feeding and compounding device according to claim 5, wherein the second guide roller and the third guide roller abut against each other, and a guide position between the second guide roller and the third guide roller is disposed coplanar with a lower surface of the cutting roller.

7. The distributed raw material feeding and compounding device according to claim 6, wherein a second guide roller for guiding the second nonwoven fabric and the meltblown fabric is rotatably mounted on the body.

8. The distributed raw material feeding and compounding device according to claim 7, wherein the traction compounding mechanism includes a second driving roller rotatably mounted on the second mounting seat and driven by a second power element, a second conveying roller is rotatably mounted above the second driving roller, a rubber roller is rotatably mounted above the second conveying roller, and the rubber roller, the second conveying roller and the second driving roller are driven by a second transmission gear.

9. The distributed raw material feeding and compounding device of claim 8, wherein a pulling compounding position between the rubber roller and the second conveying roller and a guiding position between the second guiding roller and the third guiding roller are arranged coplanar.

10. The distributed raw material feeding and combining device according to claim 9, wherein the melt-blown fabric roller and the second nonwoven fabric roller are rotatably mounted on a material base, and the material base, the first mounting base and the second mounting base are slidably mounted on the machine body.