CN113463274B

CN113463274B - Medical non-woven fabric processing equipment for mask

Info

Publication number: CN113463274B
Application number: CN202111023421.2A
Authority: CN
Inventors: 廖江生
Original assignee: Nantong Gather Excellence Cleaning Medical Materials Co ltd
Current assignee: Nantong Gather Excellence Cleaning Medical Materials Co ltd
Priority date: 2021-09-02
Filing date: 2021-09-02
Publication date: 2021-10-29
Anticipated expiration: 2041-09-02
Also published as: CN113463274A

Abstract

The invention discloses medical non-woven fabric processing equipment for a mask, which comprises a shell, wherein an extrusion cavity is arranged in the shell, and a feeding pipe is fixedly arranged in the extrusion cavity; according to the invention, the cavity for dissolving the materials is stirred, so that the heating in the cavity is uniform, how the fluidity of the materials is detected in the rotating speed of the stirring rod, the melting temperature can be dynamically adjusted, the melting temperature is kept in a proper interval, and the condition of low filtering efficiency can be improved by changing the distance between the spinneret plate and the nozzle, so that the non-woven fabric is more uniformly formed, the possibility of abnormal wire drawing due to too close distance and the possibility of short wire due to too far distance are avoided, the production efficiency is greatly improved, the subsequent spinneret plate is cleaned and the residual materials are sucked, so that the residual materials on the spinneret plate cannot influence the subsequent processing process, the yield of the production is improved, and the processing is better facilitated.

Description

Medical non-woven fabric processing equipment for mask

Technical Field

The invention relates to the technical field of non-woven fabrics, in particular to medical non-woven fabric processing equipment for a mask.

Background

Non-woven fabric, also called non-woven fabric, is a cloth-like material produced by treating various fiber raw materials with a needle-punching machine or a carding machine and forming or bonding the materials under high pressure.

Traditional non-woven fabrics is made probably because it is unsuitable to dissolve raw materials temperature, and the high temperature can make the material discontinuous when leading to melt the silk, can appear condensing the possibility of dripping, and the low temperature can lead to material mobility poor excessively, remains the crystallization on the cloth that sprays, makes the defective rate of melt-blown non-woven fabrics improve, can make the spinneret be stained with and remain the material, leads to the clean difficulty in later stage.

Disclosure of Invention

The invention aims to provide medical non-woven fabric processing equipment for a mask, which is used for overcoming the defects in the prior art.

The medical non-woven fabric processing equipment for the mask comprises a shell, wherein a squeezing cavity is arranged in the shell, a feeding pipe is fixedly arranged in the squeezing cavity, a melt-blowing device capable of melt-blowing materials is arranged in the shell, a feeding device capable of placing the materials into the feeding pipe is arranged on the upper side of the feeding pipe, a collector is fixedly arranged on the right side of the shell, a collecting cavity which penetrates left and right and is provided with an upward opening is arranged in the collector, a motor is fixedly arranged on the collector, the motor is rotatably connected with a rotating shaft, a rolling shaft is rotatably connected to the lower side of the rotating shaft, sliding grooves which penetrate through the collecting cavity and are symmetrical in up-down position are arranged on the collector, a first sliding rod is connected in the sliding groove on the upper side in a sliding mode, a driving plate is rotatably connected between the first sliding rod and the rotating shaft, the driving plate is fixedly connected with the first sliding rod, and an upper roller wheel is fixedly connected to the first sliding rod, the upper roller is rotatably connected with a large rod, a sliding groove with a downward opening is formed in the large rod, a second sliding rod is slidably connected in the sliding groove at the lower side, a driven plate is rotatably connected between the second sliding rod and the rolling shaft, the rolling shaft is fixedly connected with the driven plate, a lower roller is fixedly connected on the second sliding rod, a small rod is rotatably connected with the second sliding rod, the small rod is slidably connected in the sliding groove, an upper gear is fixedly connected on the rotating shaft, a lower gear is fixedly connected on the rolling shaft, a guide block which is symmetrical in the vertical position and is fixedly connected in the collection cavity is arranged at the right side of the upper gear, a double-sided rack is arranged between the upper gear and the lower gear, the double-sided rack is slidably connected in the guide block, the double-sided rack is meshed with the upper gear and the lower gear, and a tensioning wheel is fixedly arranged at the right end of the double-sided rack, the spinning machine is characterized in that the upper side of the tensioning wheel is rotatably connected with an intermediate wheel, the lower side of the tensioning wheel is rotatably connected with a driving roller, the intermediate wheel, the upper roller and the lower roller are wound with a spinning net, a fixed rod is fixedly arranged on the bottom wall of the collecting cavity, the fixed rod is rotatably connected with a collecting wheel, and a cleaning device capable of cleaning the spinning net is arranged on the lower side of the fixed rod.

Beneficially or exemplarily, the melt-blowing device comprises a middle channel arranged in the feeding pipe, a spiral cavity is communicated with the bottom wall of the middle channel, an extrusion motor is fixedly arranged on the left side of the spiral cavity, a spiral conveyor extending into the spiral cavity is rotatably connected to the right surface of the extrusion motor, the extrusion cavity is communicated with the right surface of the shell through a nozzle, an extrusion filter is fixedly arranged on the right wall of the extrusion cavity, a secondary air channel communicated with the nozzle is annularly arranged on the outer side of the extrusion cavity, an air inlet channel is communicated with the left wall of the secondary air channel, a fan is arranged on the upper side of the air inlet channel, a cold air channel is communicated with the right surface of the shell, a first heater is arranged in the tail end of the secondary air channel, when melted materials exist in the middle channel, the melted materials flow into the spiral cavity from the middle channel, and the extrusion motor is started to rotate the spiral conveyor, carry the material right, when the material is piled up in extrusion chamber department, can be because pressure is too big from extrusion filter blowout, and the fan can be with the air intake in the flue, can be heated when the air passes through the first heater in the inferior wind channel, make from extrusion filter spun material stretched into the flocculus, and the air current that blows off in the cold air duct makes the material by the cooling down.

A further technical scheme, feed arrangement includes the feeder that the inlet pipe upside was equipped with, be equipped with the feeding chamber in the feeder, the horizontal pole has set firmly in the feeding chamber, agitator motor has set firmly on the horizontal pole, the agitator motor bottom surface is rotated and is connected with the pivot, the pivot lower extreme has set firmly the stirring rod, be equipped with the second heater in the feeding chamber diapire, the feeder with the inlet pipe passes through the interface channel intercommunication.

According to the technical scheme, the cleaning device comprises a cleaning motor fixedly arranged in the left surface of the fixing rod, the left surface of the cleaning motor is rotatably connected with a cleaning shaft, a cleaning brush is fixedly arranged at the left end of the cleaning shaft, and a dust collector is fixedly arranged on the bottom wall of the collecting cavity.

According to a further technical scheme, the wall surface of the spiral cavity can generate heat all the time, and the flowability of the material is kept.

The invention has the beneficial effects that: the invention can stir the cavity for dissolving the material, so as to ensure that the cavity is heated uniformly, detect the fluidity of the material in the rotating speed of the stirring rod, and dynamically adjust the melting temperature to keep the melting temperature in a proper interval.

The invention can improve the condition of low filtering efficiency by changing the distance between the spinneret plate and the nozzle, so that the non-woven fabric is more uniformly formed, the possibility of short yarn caused by too short distance and too long distance can be avoided, and the production efficiency is greatly improved.

According to the invention, the subsequent spinneret plate is cleaned and the residual materials are absorbed, so that the residual materials on the spinneret plate cannot influence the subsequent processing process, the yield of production is improved, and the processing is better facilitated.

Drawings

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic view of the internal structure of FIG. 1;

FIG. 3 is a schematic view of the structure at A-A in FIG. 2;

FIG. 4 is a schematic view of the structure at the collector in FIG. 1;

fig. 5 is a schematic view of the structure at B-B in fig. 4.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the following description is made in detail with reference to the accompanying examples, it is to be understood that the following text is only intended to describe a medical nonwoven fabric processing apparatus for mask of the present invention or several specific embodiments thereof, and does not strictly limit the scope of the protection specifically claimed in the present invention, as used herein, the terms up, down, left and right are not limited to their strict geometric definitions, but include tolerances for reasonable and inconsistent machining or human error, and the following detailed description is made for specific features of the medical nonwoven fabric processing apparatus for mask:

referring to the attached drawings, the medical non-woven fabric processing equipment for the mask according to the embodiment of the invention comprises a shell 11, wherein a squeezing cavity 33 is arranged in the shell 11, a feeding pipe 14 is fixedly arranged in the squeezing cavity 33, a melt-blowing device 101 capable of melt-blowing materials is arranged in the shell 11, a feeding device 102 capable of placing the materials in the feeding pipe 14 is arranged on the upper side of the feeding pipe 14, a collector 69 is fixedly arranged on the right side of the shell 11, a collecting cavity 75 which penetrates through the collecting cavity 75 from left to right and has an upward opening is arranged in the collector 69, a motor 59 is fixedly arranged on the collector 69, the motor 59 is rotatably connected with a rotating shaft 70, a rolling shaft 72 is rotatably connected to the lower side of the rotating shaft 70, sliding grooves 57 which penetrate through the collecting cavity 75 and are symmetrical in the up-down position are arranged on the collector 69, a first sliding rod 58 is slidably connected in the sliding groove 57 on the upper side, and a driving plate 37 is rotatably connected between the first sliding rod 58 and the rotating shaft 70, the driving plate 37 is fixedly connected with the first sliding rod 58, the first sliding rod 58 is fixedly connected with an upper roller 36, the upper roller 36 is rotatably connected with a large rod 52, a sliding groove 71 with a downward opening is arranged in the large rod 52, a second sliding rod 73 is slidably connected with the sliding groove 57 at the lower side, a driven plate 49 is rotatably connected between the second sliding rod 73 and the roller 72, the roller 72 is fixedly connected with the driven plate 49, a lower roller 48 is fixedly connected with the second sliding rod 73, the second sliding rod 73 is rotatably connected with a small rod 50, the small rod 50 is slidably connected with the sliding groove 71, an upper gear 53 is fixedly connected with the rotating shaft 70, a lower gear 51 is fixedly connected with the roller 72, a guide block 76 which is symmetrical in upper and lower positions and is fixedly connected in the collecting cavity 75 is arranged at the right side of the upper gear 53, and a double-sided rack 54 is arranged between the upper gear 53 and the lower gear 51, the double-sided rack 54 is slidably connected in the guide block 76, the double-sided rack 54 is engaged with the upper gear 53 and the lower gear 51, a tension wheel 55 is fixedly arranged at the right end of the double-sided rack 54, an intermediate wheel 39 is rotatably connected to the upper side of the tension wheel 55, a driving roller 47 is rotatably connected to the lower side of the tension wheel 55, the driving roller 47 is in power connection with a first power source, the wire spraying net 38 is wound on the driving roller 47, the intermediate wheel 39, the upper roller 36 and the lower roller 48, a fixed rod 41 is fixedly arranged at the bottom wall of the collection cavity 75, a collection wheel 40 is rotatably connected to the fixed rod 41, the collection wheel 40 is in power connection with a second power source, and a cleaning device 103 capable of cleaning the wire spraying net 38 is arranged below the fixed rod 41.

Beneficially or exemplarily, the melt-blowing device 101 includes a middle channel 15 arranged in the feeding pipe 14, a spiral cavity 67 is arranged in the bottom wall of the middle channel 15 in a communication manner, an extruding motor 12 is fixedly arranged on the left side of the spiral cavity 67, a screw conveyor 32 extending into the spiral cavity 67 is rotatably connected to the right surface of the extruding motor 12, the extruding cavity 33 is communicated with the right surface of the housing 11 through the nozzle 35, an extruding filter 34 is fixedly arranged on the right wall of the extruding cavity 33, a secondary air duct 29 communicated with the nozzle 35 is annularly arranged outside the extruding cavity 33, the left wall of the secondary air duct 29 is communicated with an air inlet duct 28, a fan 27 is arranged on the upper side of the air inlet duct 28, a cold air duct 31 is arranged in the communication manner between the right wall of the secondary air duct 29 and the right surface of the housing 11, a first heater 30 is arranged in the end of the secondary air duct 29, when melted materials are in the middle channel 15, the material flows into the spiral cavity 67 from the middle channel 15, the extrusion motor 12 is started, the spiral conveyor 32 is made to rotate, the material is conveyed to the right, when the material is accumulated at the extrusion cavity 33, the material can be sprayed out of the extrusion filter 34 due to overlarge pressure, the fan 27 can suck air into the air inlet channel 28, the air can be heated when passing through the first heater 30 in the secondary air channel 29, the material sprayed out of the extrusion filter 34 is stretched into floccules, and the air flow blown out of the cold air channel 31 enables the material to be cooled.

Advantageously or exemplarily, the feeding device 102 includes a feeder 17 disposed on the upper side of the feeding pipe 14, a feeding cavity 24 is disposed in the feeder 17, a cross rod 68 is fixedly disposed in the feeding cavity 24, a stirring motor 20 is fixedly disposed on the cross rod 68, a rotating shaft 21 is rotatably connected to the bottom surface of the stirring motor 20, a stirring rod 23 is fixedly disposed at the lower end of the rotating shaft 21, a second heater 18 is disposed in the bottom wall of the feeding cavity 24, and the feeder 17 and the feeding pipe 14 are communicated through a connecting channel 16.

Advantageously or exemplarily, the cleaning device 103 comprises a cleaning motor 42 fixedly arranged in the left surface of the fixing rod 41, a cleaning shaft 43 is rotatably connected to the left surface of the cleaning motor 42, a cleaning brush 44 is fixedly arranged at the left end of the cleaning shaft 43, a dust collector 46 is fixedly arranged on the bottom wall of the collecting cavity 75, and when the cleaning motor 42 is continuously started, the cleaning shaft 43 drives the cleaning brush 44 to rotate, so that residual materials on the wire-spraying net 38 are cleaned, and the dust collector 46 sucks the cleaned materials.

Advantageously or exemplarily, the wall of the spiral cavity 67 will always generate heat, maintaining the fluidity of the material.

The medical non-woven fabric processing equipment for the mask comprises the following working procedures:

when a worker pours the materials into the feeding cavity 24, the stirring motor 20 is started to enable the rotating shaft 21 to drive the stirring rod 23 to rotate to stir the materials, the second heater 18 is in a heating state, when the materials are melted, the materials enter the middle channel 15 through the connecting channel 16, the screw conveyor 32 sprays the melted materials onto the spinning net 38, the collecting wheel 40 and the driving roller 47 synchronously rotate to enable the non-woven fabrics sprayed onto the spinning net 38 to be internally wrapped on the collecting wheel 40, when the adjustment is needed, the motor 59 is started to enable the upper gear 53 to rotate, the upper gear 53 drives the driving plate 37 to rotate, the upper gear 53 drives the double-sided rack 54 to move, the double-sided rack 54 drives the lower gear 51 to rotate, the lower gear 51 drives the driven plate 49 to rotate, the distance between the upper roller 36 and the lower roller 48 is increased or decreased, the distance between the spinning net 38 and the nozzle 35 is changed, and the spraying yield is ensured, the cleaning brush 44 will clean the remaining material and the vacuum cleaner 46 will suck the material away.

The invention has the beneficial effects that: the invention can improve the condition of low filtering efficiency by changing the distance between the spinneret plate and the nozzle, so that the non-woven fabric is more uniformly formed, the possibility of short yarn caused by too short distance and too long distance can be avoided, and the production efficiency is greatly improved.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides a medical non-woven fabrics processing equipment for gauze mask, includes the shell, its characterized in that: the utility model discloses a melt-blown material collecting device, including shell, inlet pipe, motor, roller, first slide bar, second slide bar, the shell is equipped with the extrusion chamber in, the inlet pipe has set firmly the inlet pipe in the extrusion chamber, be equipped with the melt-blown device that can melt the material in the shell, the inlet pipe upside is equipped with the feed arrangement that can put into the material wherein, the shell right side has set firmly the collector, be equipped with in the collector and run through about and the ascending collection chamber of opening, the motor has set firmly the motor on the collector, the motor rotates and is connected with the axis of rotation, the axis of rotation downside rotates and is connected with the roller bearing, be equipped with the spout that runs through the upper and lower position symmetry of collection chamber on the collector, upside sliding connection has first slide bar in the spout, first slide bar with the axis of rotation between be connected with the active plate, the active plate with first slide bar is fixed connection, fixedly connected with the top roller on the first slide bar, the top roller rotates and is connected with the bull stick, a sliding groove with a downward opening is formed in the big rod, a second sliding rod is connected in the sliding groove at the lower side, a driven plate is connected between the second sliding rod and the rolling shaft in a rotating mode, the rolling shaft is fixedly connected with the driven plate, a lower roller is fixedly connected to the second sliding rod, a small rod is connected in the second sliding rod in a rotating mode, the small rod is connected in the sliding groove in a sliding mode, an upper gear is fixedly connected to the rotating shaft, a lower gear is fixedly connected to the rolling shaft, a guide block which is symmetrical in vertical position and fixedly connected to the inside of the collection cavity is arranged on the right side of the upper gear, a double-sided rack is arranged between the upper gear and the lower gear and is connected in the guide block in a sliding mode, the double-sided rack is connected with the upper gear and the lower gear in a meshed mode, a tensioning wheel is fixedly arranged at the right end of the double-sided rack, and a middle wheel is rotatably connected to the upper side of the tensioning wheel, the spinning machine is characterized in that a driving roller is rotatably connected to the lower side of the tensioning wheel, a spinning net is wound on the driving roller, the middle roller, the upper roller and the lower roller, a fixed rod is fixedly arranged on the bottom wall of the collecting cavity, a collecting wheel is rotatably connected to the fixed rod, and a cleaning device capable of cleaning the spinning net is arranged on the lower side of the fixed rod.

2. The medical non-woven fabric processing device for masks according to claim 1, characterized in that: melt the device and include the intermediate channel that is equipped with in the inlet pipe, intermediate channel diapire intercommunication is equipped with the spiral chamber, spiral chamber left side has set firmly the extrusion motor, extrusion motor right side surface rotates to be connected with and extends to the auger delivery ware of spiral intracavity, the extrusion chamber with the spout intercommunication is passed through on the shell right side surface, extrusion chamber right side wall has set firmly the extrusion filter tip, the extrusion chamber outside ring is equipped with the intercommunication the inferior wind channel of spout, inferior wind channel left side wall intercommunication is equipped with the air-supply line, the air-supply line upside is equipped with the fan, inferior wind channel right side wall with shell right side surface intercommunication is equipped with the cold wind channel, be equipped with first heater in the inferior wind channel end.

3. The medical non-woven fabric processing device for masks according to claim 1, characterized in that: feed arrangement includes the feeder that the inlet pipe upside was equipped with, be equipped with the feeding chamber in the feeder, the feeding intracavity has set firmly the horizontal pole, agitator motor has set firmly on the horizontal pole, the agitator motor bottom surface is rotated and is connected with the pivot, the pivot lower extreme has set firmly the stirring rod, be equipped with the second heater in the feeding chamber diapire, the feeder with the inlet pipe passes through the interface channel intercommunication.

4. The medical non-woven fabric processing device for masks according to claim 1, characterized in that: the cleaning device comprises a cleaning motor fixedly arranged in the left surface of the fixing rod, the left surface of the cleaning motor is rotatably connected with a cleaning shaft, a cleaning brush is fixedly arranged at the left end of the cleaning shaft, and a dust collector is fixedly arranged on the bottom wall of the collecting cavity.

5. The medical non-woven fabric processing device for masks according to claim 2, characterized in that: the wall of the spiral cavity will always generate heat.