CN111280559A

CN111280559A - Mask production is with turning over mascerating machine

Info

Publication number: CN111280559A
Application number: CN202010178316.5A
Authority: CN
Inventors: 崔胜�
Original assignee: Anhui Kechuang Productivity Promotion Center Co ltd
Current assignee: Hunan Aowo Medical Technology Co ltd
Priority date: 2020-03-14
Filing date: 2020-03-14
Publication date: 2020-06-16
Anticipated expiration: 2040-03-14
Also published as: CN111280559B

Abstract

The invention discloses a piece turning machine for mask production, which relates to the field of mask production and comprises a bottom plate and fixing plates oppositely arranged and fixed on the bottom plate; the rear supporting plate and the front supporting plate are positioned between the fixing plates, and the rear supporting plate and the front supporting plate form a supporting plane; the two flap groups are arranged above the supporting plane, are positioned at different positions of the supporting plane and divide the supporting plane into a middle area and transition areas which are in one-to-one correspondence with the flap groups, and the flap groups are used for transporting the mask on the middle area to the corresponding transition areas; the front conveying device is provided with an outlet at one side of the middle area and is used for conveying the mask formed by slicing to the middle area; the import is located the back conveyor who corresponds transition region one side and is located the propelling movement portion that corresponds transition region opposite side, and propelling movement portion is used for corresponding the gauze mask propelling movement on the transition region to corresponding back conveyor, and back conveyor is used for carrying the gauze mask to ear area spot welding department, and this device has improved the production efficiency of gauze mask.

Description

Mask production is with turning over mascerating machine

Technical Field

The invention relates to the field of mask production, in particular to a piece turning machine for mask production.

Background

The mask is a sanitary article, generally refers to a device which is worn at the mouth and nose part and used for filtering air entering the mouth and nose so as to prevent harmful gas, smell and spray from entering and exiting the mouth and nose of a wearer, and is made of gauze or paper and the like. The mask has a certain filtering effect on air entering the lung, has a very good effect when being worn in respiratory infectious diseases and working in environments polluted by dust and the like, and generally after a whole roll of cloth is unreeled, the cloth is automatically folded and edged when the mask is produced; folding and wrapping; the nose bridge strip is wound in a whole roll, is pulled and uncoiled, is guided into a wrapping cloth after being cut in a fixed length, is welded to a seal through ultrasonic welding at two sides, is sealed through ultrasonic side direction, and is cut and formed through a cutter; conveying the mask to an ear band welding station through an assembly line, and finally forming the mask through ultrasonic welding; after the mask is manufactured, the mask is conveyed to a flat belt line through a production line to be collected.

The applicant found that: because the speed of the ear belt welding station is relatively slow, in order to adapt to the speed of ear belt welding, the process speed before the welding station must be adapted to the speed of ear belt welding, so that the production efficiency of the whole production line is reduced.

Disclosure of Invention

In view of the above, the present invention provides a flap machine for mask production, so as to solve the technical problem that in the prior art, since the speed of the ear band welding station is relatively slow, in order to adapt to the ear band welding speed, the process speed before the welding station must be adapted to the ear band welding speed, so that the production efficiency of the whole production line is reduced.

Based on the aim, the invention provides a piece turning machine for producing a mask, which comprises

The fixing plate is oppositely arranged and fixed on the bottom plate;

the rear supporting plate and the front supporting plate are positioned between the fixed plates and fixed on the inner side surfaces of the fixed plates, and the rear supporting plate and the front supporting plate are positioned on the same plane and form a supporting plane;

the two flap groups are arranged above the supporting plane, are positioned at different positions of the supporting plane and divide the supporting plane into a middle area and transition areas corresponding to the flap groups one by one, and are used for transporting masks on the middle area to the corresponding transition areas;

the front conveying device is provided with an outlet at one side of the middle area and is used for conveying the mask formed by slicing to the middle area;

import is located to correspond the back conveyor of transition region one side and be located to correspond the propelling movement portion of transition region opposite side, propelling movement portion is used for corresponding the gauze mask propelling movement on the transition region to corresponding back conveyor, back conveyor is used for carrying the gauze mask to ear area spot welding department.

Furthermore, the propelling movement portion includes first cylinder and push pedal, first cylinder is fixed in the bottom plate through the mounting, one of them side of push pedal is fixed in the output shaft of first cylinder, and another side of push pedal is towards corresponding transition region for the gauze mask on this transition region is pushed.

Further, the sheet turning group comprises a linkage shaft, a sheet turning rod, a first belt pulley, a first motor, a first belt and a second belt pulley; the linkage shaft is parallel to the inner side surface of the fixed plate and is positioned above the supporting plane, and two ends of the linkage shaft are respectively connected with bearing blocks fixed on the bottom plate; the linkage shaft is provided with two flap rods, the front supporting plate is positioned between the two flap rods, the middle positions of the flap rods are connected with the linkage shaft in a key mode, and the flap rods turn the mask from the middle area to the transition area when rotating; the corresponding blade turning rods in the two blade turning groups are staggered with each other, and the staggered distance is greater than the thickness of the blade turning rods; the first belt pulley is connected with the position key of the end part close to the linkage shaft, the first motor is fixed on the lower end face of the bottom plate, the second belt pulley is connected with the output shaft key of the first motor, the first belt penetrates through the bottom plate, and the second belt pulley drives the first belt pulley to rotate through the first belt.

Furthermore, the end part of the piece turning rod is provided with a limiting column, and in the process that the piece turning rod turns the mask from the middle area to the transition area, the limiting column limits the mask on the piece turning rod.

Further, a baffle is included, the baffle is positioned on one side of the middle area, and the baffle is opposite to the outlet of the front conveying device.

The mask conveying device comprises a first motor, a first belt pulley, a first belt, a second belt pulley, a first belt pulley, a second belt pulley, a first lower roller and a second upper roller, wherein the baffle is provided with a conveying hole for conveying the mask; the both ends of roller bearing and the both ends of last roller bearing all rotate with the lateral wall in transfer port down and are connected, the one end of roller bearing extends to the outside in transfer port down, and this end with fourth belt pulley key-type connection, the second motor is fixed in the side of baffle, and the output shaft of second motor with third belt pulley key-type connection, the third belt pulley passes through the second belt drive fourth belt pulley rotate when the roller bearing rotates down, drive the gauze mask through the clearance between roller bearing and the last roller bearing down.

Further, including the second cylinder, the up end of bottom plate is equipped with the end face groove, the lower extreme of baffle and the side groove sliding connection who establishes at the end face groove lateral wall, the second cylinder is fixed in the end face inslot, and the output shaft of second cylinder is fixed in the baffle for the drive baffle is close to or keeps away from the middle zone.

Further, including baffle, spring and electro-magnet, the upper and lower terminal surface in transfer port all is equipped with the spout, and the spout is located between roller bearing and the middle zone down, the bottom and the spout sliding connection of baffle, and the terminal surface of baffle bottom with spring fixed connection, the other end of spring is fixed in the bottom of spout, the electro-magnet is fixed in the bottom of spout when the electro-magnet is not switched on, the baffle is sealed the transfer port under the spring action.

Furthermore, a matching groove is formed in the end face, located in the conveying hole, of one of the partition plates, and is used for enabling the end portion, located in the conveying hole, of the other partition plate to coincide with the matching groove when the electromagnet is not electrified.

The invention has the beneficial effects that: by adopting the piece turning machine for mask production, due to the fact that the two rear conveying devices are arranged, when in production, after a front conveying device conveys a mask to the middle area, one of the turning pieces can turn the mask to the corresponding transition area, the corresponding pushing portion pushes the mask to the corresponding rear conveying device, in the process, after the front conveying device conveys the other mask to the middle area, the other turning piece acts to turn the mask to the corresponding transition area, and the corresponding pushing portion pushes the mask to the corresponding rear conveying device; the process in front of the ear belt welding process can accelerate the production speed, so that the production speed is adaptive to the welding speed of the two ear belt welding processes, and the production efficiency of the mask is improved.

Drawings

FIG. 1 is a top view of an embodiment of the present invention;

FIG. 2 is an isometric view of a specific implementation of an embodiment of the invention;

FIG. 3 is a three-dimensional view of the bottom surface of a base plate in an embodiment of the present invention;

FIG. 4 is a schematic view of a flip bar in an embodiment of the present invention;

FIG. 5 is a front cross-sectional view of a baffle in an embodiment of the present invention;

FIG. 6 is an internal cross-sectional view of a baffle in an embodiment of the present invention;

FIG. 7 is a side view of a baffle in an embodiment of the present invention.

Wherein, 1-a bottom plate, 2-a front conveying device, 3-a rear conveying device, 4-a fixed plate, 5-a rear supporting plate, 6-a front supporting plate, 7-a first cylinder, 8-a pushing plate, 9-a linkage shaft, 10-a turning rod, 11-a first belt pulley, 12-a baffle, 13-a first motor, 14-a first belt and 15-a second belt pulley, 16-end surface groove, 17-side edge groove, 18-second air cylinder, 19-second motor, 20-third belt pulley, 21-second belt, 22-fourth belt pulley, 23-lower roller, 24-upper roller, 25-conveying hole, 26-clapboard, 27-chute, 28-spring, 29-electromagnet and 30-matching groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to specific embodiments and the accompanying drawings.

In view of the above objects, the first aspect of the present invention provides an embodiment of a flap machine for producing a mask, as shown in fig. 1 and 2, comprising

The device comprises a bottom plate 1 and a fixing plate 4 which is oppositely arranged and fixed on the bottom plate 1;

the rear support plate 5 and the front support plate 6 are positioned between the fixed plates 4 and fixed on the inner side surfaces of the fixed plates 4, and the rear support plate 5 and the front support plate 6 are positioned on the same plane and form a support plane;

the front conveying device 2 is provided with an outlet at one side of the middle area and is used for conveying the mask formed by slicing to the middle area;

import is located to correspond back conveyor 3 and the position of transition region one side correspond the propelling movement portion of transition region opposite side, propelling movement portion is used for corresponding conveyer 3 after the gauze mask propelling movement on the transition region is to corresponding, back conveyor 3 is used for carrying the gauze mask to ear area spot welding department.

In this embodiment, since two rear conveying devices 3 are provided, during production, after one of the masks is conveyed to the middle area by the front conveying device 2, one of the flap groups can turn over the mask to the corresponding transition area, and the corresponding pushing portion pushes the mask to the corresponding rear conveying device 3, during this process, after the front conveying device 2 conveys the other mask to the middle area, the other flap group acts to turn over the mask to the transition area corresponding to the flap group, and the pushing portion corresponding to the transition area pushes the mask to the corresponding rear conveying device 3; the process in front of the ear belt welding process can accelerate the production speed, so that the production speed is adaptive to the welding speed of the two ear belt welding processes, and the production efficiency of the mask is improved.

As an embodiment, as shown in fig. 1 and 2, the pushing part includes a first cylinder 7 and a push plate 8, the first cylinder 7 is fixed to the bottom plate 1 by a fixing member, one side surface of the push plate 8 is fixed to an output shaft of the first cylinder 7, and the other side surface of the push plate 8 faces to a corresponding transition region for pushing the mask on the transition region.

In this embodiment, when the mask is brought to the transition area, the first cylinder 7 is actuated to drive the pushing plate 8 to push the mask to move to the conveyor belt at the inlet of the rear conveyor 3.

As an embodiment, as shown in fig. 2 and 3, the flap group comprises a linkage shaft 9, a flap rod 10, a first belt pulley 11, a first motor 13, a first belt 14 and a second belt pulley 15; the linkage shaft 9 is parallel to the inner side surface of the fixed plate 4 and is positioned above the supporting plane, and two ends of the linkage shaft 9 are respectively connected with bearing blocks fixed on the bottom plate 1; the linkage shaft 9 is provided with two flap rods 10, the front support plate 6 is positioned between the two flap rods 10, the middle position of the flap rod 10 is in key connection with the linkage shaft 9, and the flap rod 10 turns the mask from the middle area to the transition area when rotating; the corresponding blade turning rods 10 in the two blade turning groups are staggered with each other, and the staggered distance is greater than the thickness of the blade turning rods 10; first belt pulley 11 is close to the position key-type connection of tip with universal driving shaft 9, first motor 13 is fixed in the lower terminal surface of bottom plate 1, second belt pulley 15 is connected with first motor 13's output shaft key, first belt 14 runs through bottom plate 1, makes second belt pulley 15 drive first belt pulley 11 through first belt 14 and rotates.

In this embodiment, when the mask starts to be produced, the first motor 13 is started, the flap rods 10 are driven to rotate by the linkage shaft 9, and the two flap rods 10 rotate uninterruptedly, so that the mask conveyed to the middle area is enabled to be turned into the transition area by the flap rods 10 in the first time.

As an embodiment, as shown in fig. 4, the end of the flap lever 10 is provided with a limiting post, in this embodiment, during the process that the flap lever 10 overturns the mask from the middle area to the transition area, the limiting post limits the mask on the flap lever 10, and prevents the mask from falling off from the flap lever 10 due to too fast overturning speed during the overturning process.

As an embodiment, as shown in fig. 1 and 5, a baffle 12 is included, the baffle 12 is positioned at one side of the middle area, and the baffle 12 is opposite to the outlet of the front conveying device.

When the front conveying device 2 transmits the mask to the middle area, the mask slides for a certain distance due to inertia, and in the embodiment, the mask can be prevented from falling to the middle area in the sliding process through the baffle 12.

As an embodiment, as shown in fig. 5 and fig. 6, the mask conveying device comprises a second motor 19, a third belt pulley 20, a second belt 21, a fourth belt pulley 22, a lower roller 23 and an upper roller 24, the mask 12 is provided with a conveying hole 25 for conveying masks, one side of the mask 12 facing away from the middle area is provided with the rear conveying device 3, and an outlet of the rear conveying device 3 faces the conveying hole 25; lower roller 23's both ends and the both ends of last roller 24 all rotate with the lateral wall of transfer port 25 and be connected, lower roller 23's one end extends to the outside of transfer port 25, and this end with fourth belt pulley 22 key-type connection, second motor 19 is fixed in the side of baffle 12, and second motor 19's output shaft with third belt pulley 20 key-type connection, third belt pulley 20 passes through second belt 21 drive fourth belt pulley 22 and rotate when lower roller 23 rotates, drive the gauze mask through the clearance between lower roller 23 and the last roller 24.

In this embodiment, in order to further improve the working efficiency, when there is a mask on both of the two flap bars 10, and at this time, the front conveying device 2 conveys a mask to the middle area, under the inertia effect during the conveying of the mask, one end of the mask is moved to the gap between the lower roller 23 and the upper roller 24, at this time, the second motor 19 is started to drive the lower roller 23 to rotate, the mask passes through the conveying hole 25 rapidly before the next mask is conveyed to the middle area, and is moved to the corresponding rear conveying device 3, and then the second motor 19 is stopped, after the second motor 19 is stopped, and when the third mask is conveyed to the middle area, the second motor 19 is restarted to convey the mask to the corresponding rear conveying device 3.

As an embodiment, as shown in fig. 5, a second cylinder 18 is included, an end surface groove 16 is provided on the upper end surface of the bottom plate 1, the lower end of the baffle plate 12 is slidably connected with a side groove 17 provided on the side wall of the end surface groove 16, the second cylinder 18 is fixed in the end surface groove 16, and the output shaft of the second cylinder 18 is fixed to the baffle plate 12 for driving the baffle plate 12 to approach or depart from the middle area.

In this embodiment, when two back conveyor 3 can adapt to the production requirement, at this moment, accessible second cylinder 18 drives baffle 12 and keeps away from the middle zone for a distance, can prevent like this that because gauze mask conveys the middle zone inertia too much, cause partly card of gauze mask to the lower roller 23 and the upper roller 24 in the clearance, cause the flap pole 10 when the upset gauze mask, can't take away the gauze mask.

As an embodiment, as shown in fig. 5, 6 and 7, the device includes a partition 26, a spring 28 and an electromagnet 29, wherein the upper and lower end surfaces of the transfer hole 25 are provided with sliding grooves 27, the sliding grooves 27 are located between the lower rollers 23 and the middle region, the bottom of the partition 26 is slidably connected with the sliding grooves 27, the end surface of the bottom of the partition 26 is fixedly connected with the spring 28, the other end of the spring 28 is fixed at the bottom of the sliding grooves 27, the electromagnet 29 is fixed at the bottom of the sliding grooves 27, and when the electromagnet 29 is not energized, the partition 26 seals the transfer hole 25 under the action of the spring 28.

In this embodiment, when the two rear conveyors 3 can meet the production requirements, the electromagnet 29 is not powered, the partition plate 26 closes the conveying hole 25 under the action of the spring 28, and the mask can be blocked outside the conveying hole 15 by the partition plate 26, so that the mask is prevented from being clamped in the gap between the lower roller 23 and the upper roller 24 under the action of inertia; when three rear conveying devices 3 are needed to meet production requirements, the second motor 19 is started, when masks are arranged on two turnover rods 10 in the turnover process and the front conveying device 2 is opened again to convey one mask to the middle area, the electromagnet 29 is electrified to generate magnetic force, the partition plate 26 overcomes the elastic force of the spring 28 to slide in the sliding groove 27, so that the conveying hole 25 is opened, at the moment, under the inertia effect during conveying of the mask, one end of the mask moves to the gap between the lower roller 23 and the upper roller 24, the mask quickly passes through the conveying hole 25 and moves to the corresponding rear conveying device 3 before the next mask is conveyed to the middle area, then the electromagnet 29 is powered off, the partition plate 26 seals the conveying hole 25 again under the action of the spring 28, and until the third sealed mask is conveyed to the middle area, the electromagnet 29 is electrified again to generate magnetic force, the transfer port 25 is opened.

As an embodiment, as shown in fig. 6, the end face of one of the partition boards 26 in the transfer hole 25 is provided with a matching groove 30, and when the electromagnet 29 is not energized, the end of the other partition board 26 in the transfer hole 25 coincides with the matching groove 30, so that the transfer hole 25 is prevented from being opened in a short time due to vibration generated when the two partition boards 26 are closed.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the idea of the invention, also technical features in the above embodiments or in different embodiments may be combined and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity. Therefore, any omissions, modifications, substitutions, improvements and the like that may be made without departing from the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims

1. The utility model provides a piece machine is used in gauze mask production which characterized in that: comprises that

The device comprises a bottom plate (1) and a fixing plate (4) which is oppositely arranged and fixed on the bottom plate (1);

the rear supporting plate (5) and the front supporting plate (6) are positioned between the fixing plates (4) and fixed on the inner side surfaces of the fixing plates (4), and the rear supporting plate (5) and the front supporting plate (6) are positioned on the same plane and form a supporting plane;

the front conveying device (2) is provided with an outlet at one side of the middle area and is used for conveying the mask formed by slicing to the middle area;

import is located to correspond back conveyor (3) of transition region one side and be located to correspond the propelling movement portion of transition region opposite side, propelling movement portion is used for corresponding conveyer (3) after gauze mask propelling movement on the transition region is to corresponding, back conveyor (3) are used for carrying the gauze mask to ear area spot welding department.

2. The wafer turnover machine for producing a mask according to claim 1, wherein: the propelling movement portion comprises a first cylinder (7) and a push plate (8), the first cylinder (7) is fixed on the bottom plate (1) through a fixing piece, one side face of the push plate (8) is fixed on an output shaft of the first cylinder (7), and the other side face of the push plate (8) faces towards a corresponding transition area and is used for propelling the mask on the transition area.

3. The wafer turnover machine for producing a mask according to claim 1, wherein: the turning-over piece group comprises a linkage shaft (9), a turning-over piece rod (10), a first belt pulley (11), a first motor (13), a first belt (14) and a second belt pulley (15); the linkage shaft (9) is parallel to the inner side surface of the fixed plate (4) and is positioned above the supporting plane, and two ends of the linkage shaft (9) are respectively connected with bearing seats fixed on the bottom plate (1); the linkage shaft (9) is provided with two flap rods (10), the front support plate (6) is positioned between the two flap rods (10), the middle position of each flap rod (10) is connected with the linkage shaft (9) in a key mode, and the flap rods (10) turn the mask from the middle area to the transition area when rotating; the corresponding blade turning rods (10) in the two blade turning groups are staggered with each other, and the staggered distance is greater than the thickness of the blade turning rods (10); first belt pulley (11) and universal driving shaft (9) are close to the position key-type connection of tip, first motor (13) are fixed in the lower terminal surface of bottom plate (1), the output shaft key-type connection of second belt pulley (15) and first motor (13), bottom plate (1) is run through in first belt (14), makes second belt pulley (15) drive first belt pulley (11) through first belt (14) and rotates.

4. The wafer turnover machine for producing a mask according to claim 3, wherein: the end part of the flap lever (10) is provided with a limiting column, the flap lever (10) limits the mask on the flap lever (10) in the process of turning the mask from the middle area to the transition area.

5. The wafer turnover machine for producing a mask according to claim 1, wherein: comprises a baffle (12), wherein the baffle (12) is positioned at one side of the middle area, and the baffle (12) is right opposite to the outlet of the front conveying device.

6. The wafer turnover machine for producing a mask according to claim 5, wherein: the mask conveying device comprises a second motor (19), a third belt pulley (20), a second belt (21), a fourth belt pulley (22), a lower rolling shaft (23) and an upper rolling shaft (24), wherein a conveying hole (25) for conveying a mask is formed in the baffle (12), a rear conveying device (3) is arranged on one side, back to the middle area, of the baffle (12), and an outlet of the rear conveying device (3) is opposite to the conveying hole (25); the both ends of lower roller (23) and the both ends of last roller (24) all rotate with the lateral wall of transfer port (25) and are connected, the one end of lower roller (23) extends to the outside of transfer port (25), and this end with fourth belt pulley (22) key-type connection, second motor (19) are fixed in the side of baffle (12), and the output shaft of second motor (19) with third belt pulley (20) key-type connection, third belt pulley (20) pass through second belt (21) drive fourth belt pulley (22) and rotate when lower roller (23) rotate, drive the gauze mask through the clearance between lower roller (23) and last roller (24).

7. The wafer turnover machine for producing a mask according to claim 6, wherein: including second cylinder (18), the up end of bottom plate (1) is equipped with end face slot (16), the lower extreme of baffle (12) with establish side groove (17) sliding connection at end face slot (16) lateral wall, in second cylinder (18) were fixed in end face slot (16), the output shaft of second cylinder (18) was fixed in baffle (12) for drive baffle (12) are close to or keep away from middle zone.

8. The wafer turnover machine for producing a mask according to claim 6, wherein: including baffle (26), spring (28) and electro-magnet (29), the upper and lower terminal surface of transfer port (25) all is equipped with spout (27), and spout (27) are located down between roller (23) and the middle zone, the bottom and spout (27) sliding connection of baffle (26), and the terminal surface of baffle (26) bottom with spring (28) fixed connection, the other end of spring (28) is fixed in the bottom of spout (27), electro-magnet (29) are fixed in the bottom of spout (27) when electro-magnet (29) is not electrified, baffle (26) are sealed transfer port (25) under spring (28) effect.

9. The wafer turnover machine for producing a mask according to claim 8, wherein: the end face of one of the partition boards (26) in the conveying hole (25) is provided with a matching groove (30), and when the electromagnet (29) is not electrified, the end part of the other partition board (26) in the conveying hole (25) is coincided with the matching groove (30).