CN213096353U - Superspeed piece-making mask machine - Google Patents

Abstract

The utility model discloses a hypervelocity is made piece gauze mask machine, relate to gauze mask production technical field, it is connected with lower floor's non-woven fabrics blowing frame to rotate respectively in equipment load-bearing platform A's front, middle level melt-blown cloth blowing frame and upper non-woven fabrics blowing frame, it is connected with bridge of the nose line blowing frame to rotate in equipment load-bearing platform A's top one side, moving direction according to raw and other materials, install in proper order and expect the roller frame on equipment load-bearing platform B's top, first folding roller, the folding roller of secondary, two sets of bridge of the nose lines lead positive roller, bridge of the nose line cutter, the embossing roller, carry over pinch rolls and cutter roll, the structure, when in-service use, can reliably stably last high-speed production and make the piece, can save a large amount of accent quick-.

Description

Superspeed piece-making mask machine

Technical Field

The utility model relates to a gauze mask production technical field specifically is a hypervelocity is made piece gauze mask machine.

Background

The mask machines on the market are all converted from different mask market demands. The gauze mask on the market is mainly applied to industries such as heavy industry, chemical industry, building industry and the like, and in addition, the gauze mask can be used like people in daily life. The mask machine is changed according to the market demand and mainly comprises three types, namely a plane mask machine, a cup-shaped mask machine and a special-shaped mask machine. Different masks need different mask machines, and some merchants who do not contact the mask machine industry before can produce a batch of masks for one mask machine. It is not true that a complete set of mask machine equipment is needed to produce a complete set of mask, and the mask machine comprises a mask machine with ear straps welded, a mask machine with a nose bridge strip attached and the like.

In the traditional mask making production process, a machine needs to be stopped and debugged frequently, the debugging time at least needs to be 1-2 hours each time, a large amount of labor cost and starting cost are consumed, and the production economic benefit of an enterprise is seriously affected.

SUMMERY OF THE UTILITY MODEL

The not enough to prior art, the utility model provides a hypervelocity is made piece gauze mask machine has solved traditional gauze mask and has made the piece production process, and the machine often need shut down the debugging, and debugging time at least need spend 1-2 hours at every turn, consumes a large amount of cost of labor and start cost, seriously influences the problem of the production economic benefits of enterprise.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an ultrahigh-speed piece-making mask machine comprises an equipment bearing platform A and an equipment bearing platform B which are connected in series in a straight line shape integrally, wherein the front surface of the equipment bearing platform A is respectively and rotatably connected with a lower non-woven fabric feeding frame, a middle layer melt-blown fabric feeding frame and an upper non-woven fabric feeding frame;

the device comprises a device bearing platform B, a material mixing roller frame, a primary folding roller, two sets of nose bridge line guiding rollers, a nose bridge line cutter, an embossing roller, a traction roller, a secondary folding roller, two sets of nose bridge line guiding rollers, a nose bridge line cutter, a drawing roller, a material mixing roller and a guide roller, wherein the position fixing device is arranged at the top end of the device bearing platform B and close to the middle-layer melt-blown fabric guide frame, the primary folding roller is fixedly arranged at the top end of the device bearing platform B and is positioned at one side position of the material mixing roller frame, the secondary folding roller is fixedly arranged at the top end of the device bearing platform B and is positioned at one side position of the secondary folding roller, the nose bridge line cutter is fixedly arranged at the top end of the device bearing platform B and is positioned at one side position of, and a cutter roller is fixedly arranged at the top end of the equipment bearing platform B and positioned at the outer side of the traction roller.

Preferably, three points which are in a regular triangle shape are distributed among the lower non-woven fabric feeding frame, the middle melt-blown fabric feeding frame and the upper non-woven fabric feeding frame, and the upper non-woven fabric feeding frame is located above the lower non-woven fabric feeding frame and the middle melt-blown fabric feeding frame.

Preferably, the upper non-woven fabric guide frame, the middle melt-blown fabric guide frame and the lower non-woven fabric guide frame are sequentially arranged from top to bottom, and the upper non-woven fabric guide frame, the middle melt-blown fabric guide frame and the lower non-woven fabric guide frame respectively correspond to the upper non-woven fabric feeding frame, the middle melt-blown fabric feeding frame and the lower non-woven fabric feeding frame.

Preferably, the corresponding raw materials released by the upper non-woven fabric feeding frame, the middle melt-blown fabric feeding frame and the lower non-woven fabric feeding frame correspond to the raw materials after passing through the upper non-woven fabric guide frame, the middle melt-blown fabric guide frame and the lower non-woven fabric guide frame, and the mask structure is formed by stacking the material combining roller frames.

Preferably, the intermediate section of the primary folding roller is provided in a pagoda-shaped configuration.

Preferably, embossing roller and carry over pinch rolls all are provided with a plurality ofly, and all form the structure that the drive shaping gauze mask removed through hold-in range, synchronizing wheel and motor.

Advantageous effects

The utility model provides a superspeed piece-making mask machine. Compared with the prior art, the method has the following beneficial effects:

the utility model provides a hypervelocity is made piece gauze mask machine, rotate respectively through the front at equipment load-bearing platform A and be connected with lower floor's non-woven fabrics blowing frame, middle level melt-blown cloth blowing frame and upper non-woven fabrics blowing frame, top one side at equipment load-bearing platform A rotates and is connected with bridge of the nose line blowing frame, moving direction according to raw and other materials, install in proper order and material roller frame on equipment load-bearing platform B's top, first folding roller, the secondary folding roller, two sets of bridge of the nose lines guide the roller, bridge of the nose line cutter, the embossing roller, carry over pinch rolls and cutter roll, above-mentioned structure, when the in-service use, can reliably stabilize and continuously high-speed production and make the piece, can save a large amount of accent machine time.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a top view of the present invention.

In the figure: 1. an equipment bearing platform A; 2. a device carrying platform B; 3. a lower non-woven fabric discharging frame; 4. the middle layer is melt-sprayed with a cloth placing frame; 5. an upper non-woven fabric discharging frame; 6. a nose bridge wire discharging frame; 7. an upper non-woven fabric guide frame; 8. the middle layer is melt-sprayed with a material guide frame; 9. a lower non-woven fabric guide frame; 10. a material combining roller frame; 11. a primary folding roller; 12. a secondary folding roller; 13. nose line guide rollers; 14. a nose bridge line cutter; 15. an embossing roll; 16. a traction roller; 17. a cutter roll.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: the utility model provides a hypervelocity is made piece gauze mask machine, including whole equipment load-bearing platform A1 and the equipment load-bearing platform B2 that is "one" font concatenation together, it is connected with lower floor's non-woven fabrics blowing frame 3 to rotate respectively in equipment load-bearing platform A1 front, the middle level melts blown fabric blowing frame 4 and upper non-woven fabrics blowing frame 5, it is connected with bridge of the nose line blowing frame 6 to rotate in equipment load-bearing platform A1's top one side, there is upper non-woven fabrics guide frame 7 in the front of equipment load-bearing platform A1 and the one side position that is located lower floor's non-woven fabrics blowing frame 3 respectively fixed mounting, the middle level melts blown fabric guide frame 8 and lower floor.

Further, a position at the top end of the equipment bearing platform B2 and close to the middle layer melt-blown fabric guide frame 8 is fixedly installed on the material combining roller frame 10, a position at the top end of the equipment bearing platform B2 and at one side of the material combining roller frame 10 is fixedly installed with a primary folding roller 11, a position at the top end of the equipment bearing platform B2 and at one side of the primary folding roller 11 is fixedly installed with a secondary folding roller 12, a position at the top end of the equipment bearing platform B2 and at one side of the secondary folding roller 12 is symmetrically and fixedly installed with two sets of nose bridge line guiding rollers 13, a position at the top end of the equipment bearing platform B2 and at one side of the nose bridge line guiding rollers 13 is fixedly installed with a nose bridge line cutter 14, a position at the top end of the equipment bearing platform B2 and at the front side of the nose bridge line cutter 14 is fixedly installed with an embossing roller 15, a position at the top end of the equipment bearing platform B2 and at one side of the nose bridge, a cutter roller 17 is fixedly arranged at the top end of the equipment bearing platform B2 and positioned at the outer side of the traction roller 16.

Further, three-point distribution that is regular triangle between lower floor's non-woven fabrics blowing frame 3, middle level melt blown fabric blowing frame 4 and upper strata non-woven fabrics blowing frame 5 three, upper strata non-woven fabrics blowing frame 5 is located lower floor's non-woven fabrics blowing frame 3 and middle level melt blown fabric blowing frame 4's top.

Further, an upper non-woven fabric guide frame 7, a middle layer melt-blown fabric guide frame 8 and a lower layer non-woven fabric guide frame 9 are sequentially arranged from top to bottom, and the upper non-woven fabric guide frame 7, the middle layer melt-blown fabric guide frame 8 and the lower layer non-woven fabric guide frame 9 respectively correspond to the upper non-woven fabric discharge frame 5, the middle layer melt-blown fabric discharge frame 4 and the lower layer non-woven fabric discharge frame 3.

Further, the corresponding raw and other materials that upper non-woven fabrics blowing frame 5, middle level melt blown fabric blowing frame 4 and lower floor's non-woven fabrics blowing frame 3 released correspond after passing through upper non-woven fabrics guide frame 7, middle level melt blown fabric guide frame 8 and lower floor's non-woven fabrics guide frame 9, through and material roller frame 10 pile together, form the gauze mask structure.

Further, the intermediate section of the primary folding roller 11 is provided in a pagoda-shaped configuration.

Further, embossing roller 15 and carry over pinch rolls 16 all are provided with a plurality ofly, and all form the structure that the drive shaping gauze mask removed through hold-in range, synchronizing wheel and motor.

When in use, the upper non-woven fabric, the melt-blown fabric and the lower non-woven fabric are respectively pulled out from the upper non-woven fabric feeding frame 5, the middle melt-blown fabric feeding frame 4 and the lower non-woven fabric feeding frame 3 and sequentially pass through the corresponding upper non-woven fabric guide frame 7, the middle melt-blown fabric guide frame 8 and the lower non-woven fabric guide frame 9, after the upper non-woven fabric, the melt-blown fabric and the lower non-woven fabric are pulled out from the corresponding guide frames, the three layers of raw materials are stacked together through the material combining roller frame 10, then the stacked three layers of raw materials sequentially pass through the primary folding roller 11 and the secondary folding roller 12 to fold the stacked raw materials, the nose bridge line is pulled out from the nose bridge line feeding frame 6 and passes through the nose bridge line guide roller 13 to assemble the nose bridge line into the raw materials, the redundant nose bridge line is cut off by the nose bridge line cutter 14 and then passes through the embossing roller 15, the raw material cloth is pressed, finally, a traction structure of the whole raw material cloth is formed under the action of a traction roller 16, and after the process is completed, a cutter roller 17 cuts the formed mask cloth, so that the masks are obtained.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An ultra-high-speed piece-making mask machine comprises an equipment bearing platform A (1) and an equipment bearing platform B (2) which are integrally connected in series in a straight line shape, and is characterized in that the front of the equipment bearing platform A (1) is respectively and rotatably connected with a lower non-woven fabric feeding frame (3), a middle layer melt-blown fabric feeding frame (4) and an upper non-woven fabric feeding frame (5), one side of the top of the equipment bearing platform A (1) is rotatably connected with a nose bridge line feeding frame (6), and an upper non-woven fabric guide frame (7), a middle layer melt-blown fabric guide frame (8) and a lower non-woven fabric guide frame (9) are respectively and fixedly installed at the positions of the front of the equipment bearing platform A (1) and one side of the lower non-woven fabric feeding frame (3);

the device comprises a device bearing platform B (2), a material roller frame (10), a first folding roller (11), a second folding roller (12), a nose bridge line guide roller (13), a nose bridge line cutter (14), an embossing roller (15), a middle-layer melt-blown fabric guide frame (8), a first side position and a front side position, wherein the top end of the device bearing platform B (2) is close to the middle-layer melt-blown fabric guide frame (8), the top end of the device bearing platform B (2) is fixedly installed at the material roller frame (10), the top end of the device bearing platform B (2) is fixedly installed at one side position of the first folding roller (11), the top end of the device bearing platform B (2) is symmetrically and fixedly installed at one side position of the second folding roller (12), the nose bridge line guide rollers (13) are symmetrically and fixedly installed at one side position of the second folding roller (12), the nose bridge line cutter (14) is fixedly installed at the top end of the device bearing platform B (2) and at the front side position of the nose bridge line, the top of equipment load-bearing platform B (2) just is located one side position department fixed mounting of embossing roller (15) and has carry over pinch rolls (16) the top of equipment load-bearing platform B (2) just is located the outside position fixed mounting of carry over pinch rolls (16) and has cutter roller (17).

2. An ultra-high speed tabletting mask machine according to claim 1, wherein the lower non-woven fabric feeding frame (3), the middle melt-blown fabric feeding frame (4) and the upper non-woven fabric feeding frame (5) are distributed at three points in a regular triangle, and the upper non-woven fabric feeding frame (5) is located above the lower non-woven fabric feeding frame (3) and the middle melt-blown fabric feeding frame (4).

3. An ultra-high speed tabletting mask machine according to claim 1, wherein the upper non-woven fabric guide frame (7), the middle melt-blown fabric guide frame (8) and the lower non-woven fabric guide frame (9) are sequentially arranged from top to bottom, and the upper non-woven fabric guide frame (7), the middle melt-blown fabric guide frame (8) and the lower non-woven fabric guide frame (9) respectively correspond to the upper non-woven fabric discharge frame (5), the middle melt-blown fabric discharge frame (4) and the lower non-woven fabric discharge frame (3).

4. An ultra-high speed tabletting mask machine according to claim 3, wherein the raw materials released from the upper non-woven fabric feeding frame (5), the middle melt-blown fabric feeding frame (4) and the lower non-woven fabric feeding frame (3) correspondingly pass through the upper non-woven fabric guide frame (7), the middle melt-blown fabric guide frame (8) and the lower non-woven fabric guide frame (9), and are stacked together by the material-combining roller frame (10) to form the mask structure.

5. An ultra high speed lamination mask machine according to claim 1 wherein the intermediate section of the primary folding roller (11) is provided in a pagoda configuration.

6. An ultra-high speed mask making machine according to claim 1, wherein the embossing roller (15) and the drawing roller (16) are provided in plurality, and are driven by a synchronous belt, a synchronous wheel and a motor to move the formed mask.

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