CN111319960B

CN111319960B - Diverging device is used in gauze mask production

Info

Publication number: CN111319960B
Application number: CN202010181708.7A
Authority: CN
Inventors: 崔胜�
Original assignee: Tianjin Futao Technology Co ltd
Current assignee: Tianjin Futao Technology Co.,Ltd.
Priority date: 2020-03-16
Filing date: 2020-03-16
Publication date: 2021-08-10
Anticipated expiration: 2040-03-16
Also published as: CN111319960A

Abstract

The invention discloses a flow dividing device for mask production, which comprises: the inner side of the transverse sliding frame is provided with a transverse sliding chute, the inner side wall of the transverse sliding chute is uniformly provided with balls in an arranged mode, the middle of the transverse sliding chute is embedded with a transverse moving frame, and the middle of the transverse moving frame is provided with a connecting magnet; the inner side of the flow distribution disc is provided with a placing groove, the bottom of the flow distribution disc is provided with an embedded connecting groove, and the flow distribution disc is arranged above the transverse moving frame in an embedded mode through the embedded connecting groove. The mask distributing device drives the transverse moving frame and the two distributing disks to horizontally and circularly reciprocate on the transverse sliding frame by driving the rotating disk to rotate, so that a mask is uniformly distributed to two directions, the mask can be distributed in a state of keeping the direction and the moving direction of the mask, the distance between the transverse moving frame and the horizontal displacement of the distributing disks can be adjusted by the device, the mask distributing device is suitable for production lines with different sizes, and the distributing disks are fixed on the transverse moving frame through the clamping structure and magnetism, so that the distributing disks are convenient to adjust and replace, and the mask distributing device is more flexible and convenient to use.

Description

Diverging device is used in gauze mask production

Technical Field

The invention relates to mask production equipment, in particular to a flow dividing device for mask production.

Background

The mask is a sanitary article, is generally worn at the mouth and nose part and used for filtering air entering the mouth and nose so as to achieve the purpose of preventing harmful gas, smell and spray from entering and exiting the mouth and nose of a wearer, is made of gauze or paper and the like, has a certain filtering effect on the air entering the lung, has a very good effect when being worn in respiratory infectious diseases and operating in an environment polluted by dust and the like, is produced by mechanical energy of an automatic production line which is basically used at present, firstly uses coiled non-woven fabric, then automatically cuts the non-woven fabric into the shape of the mask, then automatically folds and welds ear bands, and packages finished products by disinfection and other procedures, wherein the whole process is full-automatic, and one to two products can be produced per second. The applicant finds that the existing mask production steps are mainly divided into laminating cutting and ear band welding, the speed of laminating cutting production is generally greater than that of ear band welding, so a corresponding shunting structure is needed to be utilized to distribute semi-finished products generated by laminating cutting to a plurality of ear band welding production lines, the production of the maximum speed is realized, the existing shunting device is generally of an overturning shunting structure, the mask is overturned from a middle conveying belt to two side conveying belts in sequence so as to be evenly shunted, but the structure needs to be additionally provided with an overturning structure to overturn the mask again to the front side, the shunting cannot be carried out under the condition of maintaining the unchanged direction of the mask, the shunting direction and the spacing cannot be adjusted, and the mask is difficult to adapt to conveying belts with various sizes.

Disclosure of Invention

In view of this, the present invention provides a flow dividing device for mask production.

Based on the above object, the present invention provides a mask production flow distribution device, comprising:

the inner side of the transverse sliding frame is provided with a transverse sliding chute, the inner side wall of the transverse sliding chute is uniformly provided with balls in an arranged mode, the middle of the transverse sliding chute is embedded with a transverse moving frame, and the middle of the transverse moving frame is provided with a connecting magnet;

the inner side of the shunting disc is provided with a placing groove, the bottom of the shunting disc is provided with an embedded connecting groove, the shunting disc is arranged above the transverse moving frame in an embedded mode through the embedded connecting groove, a conveying belt is arranged in the middle of the placing groove, driving wheels are arranged at the front end and the rear end of the conveying belt, and connecting friction surfaces are symmetrically arranged on the left side and the right side of each driving wheel;

the driving turntable is arranged on one side of the transverse sliding frame, the shaft end of the driving turntable is connected with a driving motor, the front side of the driving turntable is provided with a distance adjusting sliding groove, the inner side of the distance adjusting sliding groove is embedded with a connecting sliding block, the middle of the connecting sliding block is provided with a connecting rotating shaft, and the middle of the connecting rotating shaft is provided with a locking knob;

the telescopic connecting sleeve is arranged on one side of the driving turntable and is rotationally connected with the connecting slide block through the connecting rotating shaft, a locking screw is arranged on the outer side of the telescopic connecting sleeve, a connecting rod is nested on the inner side of the telescopic connecting sleeve, a traction rotating shaft is arranged at the top end of the connecting rod, and the transverse moving frame is rotationally connected with the connecting rod through the traction rotating shaft;

the driving friction wheel is arranged on the outer side of the connecting friction surface, a connecting shaft sleeve is arranged in the middle of the driving friction wheel, a hexagonal transmission shaft is nested on the inner side of the connecting shaft sleeve, and one end of the hexagonal transmission shaft is connected with a discharging motor;

the connecting frame is arranged below the transverse sliding frame, four corners of the connecting frame are provided with connecting sliding sleeves, and the middle of the connecting frame is provided with a lifting screw sleeve;

the electric bottom cabinet is arranged below the connecting frame, the vertical supporting rods are arranged at four corners of the electric bottom cabinet, the lifting screw rod is arranged in the middle of the electric bottom cabinet, and the adjusting handle is arranged at the bottom of the lifting screw rod.

In some optional embodiments, the transverse moving frame is connected with the transverse sliding frame in a sliding mode through the transverse sliding chute, and the horizontal center line of the transverse moving frame and the horizontal center line of the transverse sliding frame are parallel to each other.

In some optional embodiments, the horizontal center line of the jogged connecting groove and the horizontal center line of the transverse moving frame are positioned on the same straight line, and the jogged connecting groove and the transverse moving frame are matched in size.

In some optional embodiments, the connecting slide block is slidably connected to the driving turntable through the distance adjusting chute, and a horizontal center line of the distance adjusting chute and a horizontal center line of the driving turntable are located on the same straight line.

In some optional embodiments, the telescopic connecting sleeve is slidably connected with the connecting rod, and a horizontal center line of the telescopic connecting sleeve and a horizontal center line of the connecting rod are located on the same straight line.

In some alternative embodiments, the horizontal centerline of the drive friction wheel and the horizontal centerline of the connecting friction surface are parallel to each other.

In some alternative embodiments, the driving friction wheel and the connecting friction surface are mutually matched in size, and the inclination angle of the outer side surfaces of the driving friction wheel and the connecting friction surface is forty-five degrees.

In some optional embodiments, the connecting frame is slidably connected to the vertical support rod through the connecting sliding sleeve, and a horizontal center line of the connecting frame is perpendicular to a vertical center line of the vertical support rod.

In some optional embodiments, the vertical center line of the vertical strut and the vertical center line of the lifting screw are parallel to each other.

From the above, the shunting device for mask production provided by the invention has the advantages that the driving turntable, the telescopic connecting sleeve, the connecting rod and the corresponding rotary connecting structure form the crank connecting rod structure, so that the driving turntable can drive the transverse moving frame and the two shunting plates to horizontally and circularly reciprocate on the transverse sliding frame through rotation, the mask is uniformly shunted to two directions, the mask can be shunted under the state of keeping the orientation and the movement direction of the mask, meanwhile, the crank connecting rod structure is provided with the adjusting structure, the horizontal displacement distance between the transverse moving frame and the shunting plates can be adjusted, the shunting devices are suitable for production lines with different sizes, and the shunting plates are fixed on the transverse moving frame through the clamping structure and magnetism, so that the shunting plates can be adjusted and replaced conveniently, and the use is more flexible and convenient.

Drawings

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

FIG. 2 is a schematic view of a cross carriage of an embodiment of the present invention;

FIG. 3 is a schematic top view of an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a cross-sliding frame according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of a diverter tray according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a driving turntable according to an embodiment of the present invention.

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.

It should be noted that all expressions using "first" and "second" in the embodiments of the present invention are used for distinguishing two entities with the same name but different names or different parameters, and it should be noted that "first" and "second" are merely for convenience of description and should not be construed as limitations of the embodiments of the present invention, and they are not described in any more detail in the following embodiments.

As an embodiment, a flow distribution device for mask production includes:

the inner side of the transverse sliding frame 1 is provided with a transverse sliding groove 101, the inner side wall of the transverse sliding groove 101 is uniformly provided with balls 102 in an arrangement mode, the middle of the transverse sliding groove 101 is embedded with a transverse moving frame 103, and the middle of the transverse moving frame 103 is provided with a connecting magnet 104;

the inner side of the diverter disc 2 is provided with a placing groove 202, the bottom of the diverter disc is provided with a jogged connecting groove 201, the diverter disc is jogged and arranged above the transverse moving frame 103 through the jogged connecting groove 201, the middle of the placing groove 202 is provided with a conveyor belt 203, the front end and the rear end of the conveyor belt 203 are provided with driving wheels 204, and the left side and the right side of each driving wheel 204 are symmetrically provided with connecting friction surfaces 205;

the driving turntable 3 is arranged on one side of the transverse sliding frame 1, the shaft end of the driving turntable is connected with a driving motor 301, the front surface of the driving turntable is provided with a distance adjusting sliding groove 302, the inner side of the distance adjusting sliding groove 302 is embedded with a connecting sliding block 303, the middle of the connecting sliding block 303 is provided with a connecting rotating shaft 304, and the middle of the connecting rotating shaft 304 is provided with a locking knob 305;

the telescopic connecting sleeve 4 is arranged on one side of the driving turntable 3, is rotatably connected with the connecting slide block 303 through a connecting rotating shaft 304, is provided with a locking screw 401 on the outer side, is nested with a connecting rod 402 on the inner side, is provided with a traction rotating shaft 403 on the top end of the connecting rod 402, and is rotatably connected with the connecting rod 402 through the traction rotating shaft 403 on the transverse frame 103;

the driving friction wheel 5 is arranged on the outer side of the connecting friction surface 205, a connecting shaft sleeve 501 is arranged in the middle of the driving friction wheel, a hexagonal transmission shaft 502 is nested on the inner side of the connecting shaft sleeve 501, and one end of the hexagonal transmission shaft 502 is connected with a discharging motor 503;

the connecting frame 6 is arranged below the transverse sliding frame 1, four corners of the connecting frame are provided with connecting sliding sleeves 601, and the middle of the connecting frame is provided with a lifting screw sleeve 602;

the electric bottom cabinet 7 is arranged below the connecting frame 6, vertical supporting rods 701 are arranged at four corners of the electric bottom cabinet, a lifting screw 702 is arranged in the middle of the electric bottom cabinet, and an adjusting handle 703 is arranged at the bottom of the lifting screw 702.

Referring to fig. 1 to 6, as an embodiment of the present invention, a flow dividing device for mask production includes: the inner side of the transverse sliding frame 1 is provided with a transverse sliding groove 101, the inner side wall of the transverse sliding groove 101 is uniformly provided with balls 102 in an arrangement mode, the middle of the transverse sliding groove 101 is embedded with a transverse moving frame 103, and the middle of the transverse moving frame 103 is provided with a connecting magnet 104; the inner side of the diverter disc 2 is provided with a placing groove 202, the bottom of the diverter disc is provided with a jogged connecting groove 201, the diverter disc is jogged and arranged above the transverse moving frame 103 through the jogged connecting groove 201, the middle of the placing groove 202 is provided with a conveyor belt 203, the front end and the rear end of the conveyor belt 203 are provided with driving wheels 204, and the left side and the right side of each driving wheel 204 are symmetrically provided with connecting friction surfaces 205; the driving turntable 3 is arranged on one side of the transverse sliding frame 1, the shaft end of the driving turntable is connected with a driving motor 301, the front surface of the driving turntable is provided with a distance adjusting sliding groove 302, the inner side of the distance adjusting sliding groove 302 is embedded with a connecting sliding block 303, the middle of the connecting sliding block 303 is provided with a connecting rotating shaft 304, and the middle of the connecting rotating shaft 304 is provided with a locking knob 305; the telescopic connecting sleeve 4 is arranged on one side of the driving turntable 3, is rotatably connected with the connecting slide block 303 through a connecting rotating shaft 304, is provided with a locking screw 401 on the outer side, is nested with a connecting rod 402 on the inner side, is provided with a traction rotating shaft 403 on the top end of the connecting rod 402, and is rotatably connected with the connecting rod 402 through the traction rotating shaft 403 on the transverse frame 103; the driving friction wheel 5 is arranged on the outer side of the connecting friction surface 205, a connecting shaft sleeve 501 is arranged in the middle of the driving friction wheel, a hexagonal transmission shaft 502 is nested on the inner side of the connecting shaft sleeve 501, and one end of the hexagonal transmission shaft 502 is connected with a discharging motor 503; the connecting frame 6 is arranged below the transverse sliding frame 1, four corners of the connecting frame are provided with connecting sliding sleeves 601, and the middle of the connecting frame is provided with a lifting screw sleeve 602; the electric bottom cabinet 7 is arranged below the connecting frame 6, vertical supporting rods 701 are arranged at four corners of the electric bottom cabinet, a lifting screw 702 is arranged in the middle of the electric bottom cabinet, and an adjusting handle 703 is arranged at the bottom of the lifting screw 702.

Referring to fig. 1 to 6, optionally, the traverse frame 103 is slidably connected to the traverse carriage 1 through the traverse chute 101, a horizontal center line of the traverse frame 103 is parallel to a horizontal center line of the traverse carriage 1, a horizontal center line of the jogged connecting groove 201 and a horizontal center line of the traverse frame 103 are on the same straight line, the jogged connecting groove 201 and the traverse frame 103 are matched in size, the connecting slider 303 is slidably connected to the driving turntable 3 through the distance adjusting chute 302, a horizontal center line of the distance adjusting chute 302 and a horizontal center line of the driving turntable 3 are on the same straight line, the traverse frame 103 is rotatably connected to the connecting rod 402 through the traction rotating shaft 403, the telescopic connecting sleeve 4 is slidably connected to the connecting rod 402, a horizontal center line of the telescopic connecting sleeve 4 and a horizontal center line of the connecting rod 402 are on the same straight line, the device receives the mask semi-finished product transmitted from the upper flow line through the diverter 2, the inner side of the diverter disc 2 is provided with a placing groove 202, the left side and the right side of the placing groove 202 are baffles, the front side and the rear side are communicated, the mask can fall into the placing groove 202 from the front side of the placing groove 202 and then is output from the placing groove 202 from the rear side, the diverter disc 2 is clamped on the transverse sliding frame 103 through the embedded connecting groove 201 and is fixed by the connecting magnet 104 arranged on the transverse sliding frame 103, the diverter disc 2 is integrated with the transverse sliding frame 103, the transverse sliding frame 103 can horizontally move in the transverse sliding groove 101 of the transverse sliding frame 1 so as to drive the diverter disc 2 thereon to horizontally move, so that the mask is shunted by the translation of the diverter disc 2, the transverse sliding groove 101 is provided with balls 102 to reduce friction, the transverse sliding frame 103 is pulled to horizontally move by a pulling rotating shaft 403 and a connecting rod 402, and the connecting rod 402, the telescopic connecting sleeve 4, the connecting rotating shaft 304 and the driving rotating disc 3 form, rotate through drive carousel 3 alright with drive sideslip frame 103 and the 2 circulation horizontal migration of reposition of redundant personnel dish, in order to realize the reposition of redundant personnel effect of one minute two, and connect pivot 304 and drive carousel 3 and connect through link block 303 and roll adjustment spout 302 before, can be through sliding connection slider 303 with the interval of adjusting the link shaft 304 and the 3 centre of a circle of drive carousel, sideslip frame 103 and the 2 circulation horizontal migration's of reposition of redundant personnel dish distance promptly, in order to adapt to the production line of demand, it is more nimble to use.

Referring to fig. 1 to 5, optionally, the horizontal center line of the driving friction wheel 5 and the horizontal center line of the connecting friction surface 205 are parallel to each other, the driving friction wheel 5 and the connecting friction are matched with each other in size, the inclination angles of the outer side surfaces of the driving friction wheel 5 and the connecting friction surface 205 are forty-five degrees, the bottom of the placement groove 202 of the distribution plate 2 is mainly composed of the conveyor belt 203, the mask falling into the placement groove 202 is supported by the conveyor belt 203, the conveyor belt 203 is driven by the drive wheel 204, but the drive wheel 204 is not connected with a driving structure, so that the mask falling onto the conveyor belt 203 is not conveyed out of the placement groove 202 by the conveyor belt 203, so as to ensure that the mask is not output in advance when being input, the driving friction wheel 5 is arranged at a distance of circular translation outside the distribution plate 2, and when the distribution plate 2 translates to the outermost side, i.e. the output position, the drive wheel 204 just can contact with the driving friction wheel 5 through the connecting friction surface 205, thereby make drive friction pulley 5 drive wheel 204 and rotate, and then drive conveyer belt 203 removes and carries out the gauze mask to realize the output function of fixed point location, be favorable to improving diverging device's reliability, drive friction pulley 5 installs in hexagonal transmission shaft 502 outside and through the screw locking through connecting axle sleeve 501 nestification simultaneously, thereby it is concrete to be convenient for adjusting the position with the removal of cooperation flow distribution plate 2, improves and uses the flexibility.

Referring to fig. 1 to 2, optionally, the connecting frame 6 is slidably connected to the vertical support rod 701 through a connecting sliding sleeve 601, a horizontal center line of the connecting frame 6 is perpendicular to a vertical center line of the vertical support rod 701, the vertical center line of the vertical support rod 701 is parallel to a vertical center line of the lifting screw 702, the shunt structures of the device are all disposed on the connecting frame 6, the connecting frame 6 is nested on the vertical support rod 701 of the electrical bottom cabinet 7 through the connecting sliding sleeve 601, and can slide up and down to adjust the height of the shunt structure, the height adjustment is performed by the lifting screw 702, the center of the connecting frame 6 is connected to the lifting screw 702 disposed on the electrical bottom cabinet 7 through a lifting screw 602, and the lifting screw 702 can be rotated through the adjusting handle to adjust the height of the connecting frame 6, so as to adapt to production lines with different requirements 703.

When in use, firstly, the device is arranged in a production line of a mask, one side of the device is connected to the upstream production conveyor belt 203 of the mask, then the other side of the device is connected to two parallel downstream conveyor belts 203, the upstream conveyor belt 203 needs to be positioned at the central positions of the two parallel downstream conveyor belts 203, the upstream conveyor belt 203 needs to be slightly higher than a diverter disc 2 of the device, the downstream conveyor belt 203 needs to be slightly lower than a diverter disc 2 of the device, then a connecting slide block 303 slides in a distance adjusting chute 302, the distance between a connecting rotating shaft 304 on the connecting slide block 303 and the circle center of a driving turntable 3 is equal to the parallel distance between the upstream conveyor belt 203 and the downstream conveyor belt 203, then the driving turntable 3 is manually rotated and adjusted, the connecting rotating shaft 304 is positioned at the outer position, the connecting rod 402, the telescopic connecting sleeve 4 and the transverse frame 103 are positioned on the same horizontal line, and then one diverter disc 2 is clamped on the transverse frame 103 through an embedding connecting groove 201, when the device starts to work, a driving motor 301 and a discharging motor 503 are started, the driving motor 301 drives the driving turntable 3 to rotate, the driving turntable 3 drives the transverse moving frame 103 to horizontally and circularly move in the transverse sliding groove 101 of the transverse sliding frame 1 through a connecting rod structure, when the shunting disc 2 on one side is positioned on the upstream conveyor belt 203, the upstream conveyor belt 203 conveys a mask to the shunting disc 2, then the transverse moving frame 103 moves horizontally, the other diverter disc 2 moves to the front of the upstream conveyor belt 203, the diverter disc 2 loaded with the mask moves to the front of the downstream conveyor belt 203 on one side, meanwhile, the driving wheel 204 just can be in contact with the driving friction wheel 5 through the connecting friction surface 205, so that the driving friction wheel 5 drives the driving wheel 204 to rotate, the driving conveyor belt 203 moves to convey the mask out, then the transverse moving frame 103 moves back to the water, the diverter disc 2 unloading the mask returns to the front of the upstream conveyor belt 203 again, the other diverter disc 2 unloads the mask onto the other downstream conveyor belt 203, and therefore the one-division-two-division-flow work of the mask is achieved.

According to the mask production shunting device provided by the invention, the driving turntable 3, the telescopic connecting sleeve 4, the connecting rod 402 and the corresponding rotary connecting structure form a crank connecting rod structure, so that the driving turntable 3 can drive the transverse moving frame 103 and the two shunting plates 2 to horizontally and circularly reciprocate on the transverse sliding frame 1 through rotation, the mask is uniformly shunted to two directions, the mask can be shunted under the state of keeping the orientation and the moving direction of the mask, meanwhile, the crank connecting rod structure is provided with an adjusting structure, the horizontal displacement distance between the transverse moving frame 103 and the shunting plates 2 can be adjusted, the mask production shunting device is suitable for production lines with different sizes, the shunting plates 2 are fixed on the transverse moving frame 103 through a clamping structure and magnetism, the shunting plates 2 are convenient to adjust and replace, and the mask production shunting device is more flexible and convenient to use.

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. A diverging device is used in gauze mask production, its characterized in that includes:

2. The mask production shunting device according to claim 1, wherein the traverse frame is slidably connected to the traverse carriage through the traverse chute, and a horizontal center line of the traverse frame and a horizontal center line of the traverse carriage are parallel to each other.

3. The mask producing flow dividing device according to claim 1, wherein the horizontal center line of the fitting connecting groove and the horizontal center line of the traverse frame are located on the same straight line, and the fitting connecting groove and the traverse frame are matched in size.

4. The shunt device for mask production according to claim 1, wherein the connecting slider is slidably connected to the driving turntable through the distance-adjusting chute, and a horizontal center line of the distance-adjusting chute and a horizontal center line of the driving turntable are located on the same line.

5. The shunt device for mask production according to claim 1, wherein the telescopic connecting sleeve is slidably connected with the connecting rod, and a horizontal center line of the telescopic connecting sleeve and a horizontal center line of the connecting rod are located on the same straight line.

6. The mask producing flow divider according to claim 1, wherein the horizontal center line of the driving friction wheel and the horizontal center line of the connecting friction surface are parallel to each other.

7. The shunt device for producing masks according to claim 1, wherein the driving friction wheel and the connecting friction surface are mutually matched in size, and the inclination angles of the outer side surfaces of the driving friction wheel and the connecting friction surface are forty-five degrees.

8. The shunt device for mask production according to claim 1, wherein the connecting frame is slidably connected to the vertical support rod through the connecting sliding sleeve, and a horizontal center line of the connecting frame is perpendicular to a vertical center line of the vertical support rod.

9. The shunt device for mask production according to claim 1, wherein the vertical center line of the vertical support rod and the vertical center line of the lifting screw are parallel to each other.