CN111020950A - Antibacterial fabric, processing system thereof and antibacterial fabric processing method - Google Patents

Abstract

The invention relates to the field of fabric processing, in particular to an antibacterial fabric, a processing system thereof and an antibacterial fabric processing method, and the process comprises the following steps: uniformly placing the antibacterial fabric with the aperture needing to be subjected to standard unified expansion on the driving support plate, and driving the driving support plate to intermittently move into the automatic processing base by the reciprocating combined driver; the reciprocating combined driver is powered on and simultaneously drives the reciprocating extrusion fixer to reciprocate up and down in the automatic processing base, so that the reciprocating combined driver intermittently buffers and clamps the antibacterial fabric on the carrier plate; the driving expander is powered on, in the process that the reciprocating extrusion fixer moves downwards, the driving expander is gradually inserted into a designated round hole of the antibacterial fabric on the driving presenting support plate, and the reciprocating combined driver drives the driving presenting support plate to move away from the automatic processing base, so that the reciprocating operation is carried out; the antibacterial fabric comprises the following components: 50% of terylene and 50% of nylon.

Description

Antibacterial fabric, processing system thereof and antibacterial fabric processing method

Technical Field

The invention belongs to the field of fabric processing, and particularly relates to an antibacterial fabric, a processing system thereof and an antibacterial fabric processing method.

Background

Patent No. CN201720756369.4 discloses an underwear processing device, comprising: a support frame; the workbench is fixedly arranged on the support frame; the processing unit is fixedly arranged on the workbench; the motor unit is fixedly arranged on the support frame, is positioned below the workbench and provides power for the machining unit; the operation box is fixedly arranged on the support frame, is positioned below the workbench and is electrically connected with the motor unit; wherein, the workstation is provided with the protection frame on trilateral at least fixedly, the protection frame follow the plane of workstation is upwards protruding. The utility model discloses a protection frame can make equipment more effectual prevent that underwear and the machining tool that processing was used on the workstation drop to the ground, avoids the user to need pause equipment to go the condition of picking up, makes user's operation more convenient, and reduce time consumption improves work efficiency. But the device can not automatically expand the aperture of the fabric to the specified requirement.

Disclosure of Invention

The invention aims to provide an antibacterial fabric, a processing system and a processing method thereof, which have the beneficial effects that the pore diameter of the antibacterial fabric can be automatically stretched to a specified size, so that the antibacterial fabric is applied to an automatic production line, and the next processing of the finished product of the antibacterial fabric is facilitated; the lower side of the antibacterial fabric is subjected to buffering extrusion in the process of stretching and expanding the aperture of the antibacterial fabric, so that the expanded aperture of the whole antibacterial fabric is more standard; degree of automation is high, when reducing the manpower, the use of the actual weaving mill of being convenient for.

The purpose of the invention is realized by the following technical scheme:

the invention aims to provide an antibacterial fabric processing system which comprises an automatic processing base, a driving expander, a reciprocating extrusion fixer, a reciprocating combined driver and a driving presenting support plate, wherein the upper end of the driving expander is fixedly connected to the reciprocating extrusion fixer, the lower end of the driving expander is connected into the reciprocating extrusion fixer in a sliding mode, the reciprocating extrusion fixer is connected onto the automatic processing base in a sliding mode, the reciprocating extrusion fixer is hinged to the reciprocating combined driver, the reciprocating combined driver is connected onto the automatic processing base in a rotating mode, the reciprocating combined driver is meshed with and drives the driving presenting support plate, and the driving presenting support plate is connected into the automatic processing base in a sliding mode.

As a further optimization of the invention, the automatic processing base comprises an operation bottom frame, a carrier plate sliding groove, two sliding rod fixing bases, two fixing sliding rods, an upper fixing swivel base, a side L-shaped fixing platform, a motor fixing platform, four grooves and two side rotating seats, the carrier plate sliding groove is arranged on the operation bottom frame in a left-right penetrating manner, the two sliding rod fixing bases are respectively and fixedly connected with the lower sides of the front end and the rear end of the operation bottom frame, the two sliding rod fixing bases are respectively and fixedly connected with the front end and the rear end of the operation bottom frame, the fixing sliding rods are fixedly connected with the sliding rod fixing bases and the sliding rod fixing bases, the upper fixing swivel base is fixedly connected with the upper end of the operation bottom frame, the side L-shaped fixing platform is fixedly connected with the right side of the rear end of the operation bottom frame, the motor fixing platform is fixedly connected, the two side rotating seats are respectively and fixedly connected to the front side and the rear side of the right end of the operation bottom frame.

As a further optimization of the invention, the reciprocating extrusion fixer comprises a cross sliding plate, two sliding round holes, two motor fixing seats, a lower hinge seat, two connecting plates, an operating sliding disc, four inner sliding grooves and two extrusion buffering frames, wherein the cross sliding plate is slidably connected in the four open grooves, the two sliding round holes are respectively arranged at the front end and the rear end of the cross sliding plate in an up-and-down penetrating manner, the two motor fixing seats are both fixedly connected on the cross sliding plate, the lower hinge seat is fixedly connected at the right side of the upper end of the cross sliding plate, the two connecting plates are both fixedly connected at the lower end of the cross sliding plate, the operating sliding disc is fixedly connected at the lower end of the cross sliding plate through the two connecting plates, the lower end of the operating sliding disc is uniformly provided with;

reciprocal extrusion fixer still include spout, three L shape slide bar, stripper plate and three buffer spring in three L shape, the lower extreme of extrusion buffering frame is provided with spout in three L shape, sliding connection is in spout in three L shape respectively in the upper end of three L shape slide bar, the equal fixed connection of lower extreme of three L shape slide bar is on stripper plate down, buffer spring cup joints on L shape slide bar, buffer spring sets up under between stripper plate and the extrusion buffering frame.

As a further optimization of the invention, the driving expander comprises an expanding driving motor, a driving rotating shaft, a first driving turntable, a first driving connecting rotating shaft and a second driving turntable, the expansion driving motor is fixedly connected between the two motor fixing seats, the driving rotating shaft is connected with a transmission shaft of the expansion driving motor through a coupler, the first driving rotating disc is fixedly connected to the lower end of the driving rotating shaft, the first driving rotating disc is connected with the second driving rotating disc through the first driving connecting rotating shaft, the second driving rotating disc is connected with the third driving rotating disc through the second driving connecting rotating shaft, the third driving rotating disc is connected with the fourth driving rotating disc through the third driving connecting rotating shaft, and the fourth driving connecting rotating shaft is fixedly connected to the lower end of the fourth driving rotating disc;

the drive expander still include four synchronous hinged levers, four synchronous slide bars, four sliding seats, four lower dead levers, four lower fixed connection axles and four 1/4 toper expansion seats, the one end of four synchronous hinged levers articulates respectively at first drive connection pivot, the pivot is connected in the second drive, the third drive is connected in pivot and the fourth drive connection pivot, the other end of four synchronous hinged levers articulates respectively on four synchronous slide bars, the upper end of four synchronous slide bars is respectively through four sliding seat sliding connection at four interior sliding tray, four lower dead levers of four synchronous slide bars's lower extreme difference fixed connection, four lower dead levers are respectively through four lower fixed connection axle fixed connection on four 1/4 toper expansion seats.

As a further optimization of the invention, the reciprocating combined driver comprises a combined driving motor, an upper driving rotating shaft, an upper driving turntable, an upper driving eccentric shaft, a driving hinge rod, an upper synchronous belt pulley, a lower synchronous belt pulley, 1/2 driving gears, a side rotating shaft, a transmission gear, a transmission rotating shaft and two synchronous driving gears, wherein the combined driving motor is fixedly connected on a motor fixing platform, the upper driving rotating shaft is connected on a transmission shaft of the combined driving motor through a coupler, the upper driving rotating shaft is rotatably connected on the upper fixed swivel base, the upper driving turntable is fixedly connected at the front end of the upper driving rotating shaft, the upper driving eccentric shaft is fixedly connected at the eccentric position at the front end of the upper driving turntable, two ends of the driving hinge rod are respectively hinged in the upper driving eccentric shaft and the lower hinge base, the upper synchronous belt pulley is fixedly connected on the upper driving rotating shaft, the upper synchronous belt pulley, lower synchronous pulley and 1/2 drive gear all fixed connection are on the side pivot, and the side pivot is rotated and is connected in side L shape fixed station and operation underframe, 1/2 drive gear and transmission gear looks meshing transmission, and transmission gear fixed connection is in the rear end of transmission pivot, and the transmission pivot is rotated and is connected in two side rotation seats, and two synchronous drive gear all fixed connection are on the transmission pivot.

As a further optimization of the invention, the driving presenting plate comprises a carrying sliding plate, a plurality of rectangular grooves, a plurality of carrying presenting plate grooves and a plurality of placing circular hole grooves, two ends of the carrying sliding plate are slidably connected in the presenting plate sliding grooves through sliding blocks, the carrying sliding plate is uniformly provided with a plurality of rectangular grooves, the plurality of carrying presenting plate grooves cover garbage respectively in the plurality of rectangular grooves, and the plurality of carrying presenting plate grooves are provided with placing circular hole grooves.

As a further optimization of the invention, the 1/4 conical expansion seat is provided with four, and four 1/4 conical expansion seats form a conical expansion seat.

As a further optimization of the invention, the upper end of the carrying sliding plate is in a rack shape, and the lower ends of the two synchronous driving gears are meshed with the carrying sliding plate for transmission.

A technology for processing an antibacterial fabric by an antibacterial fabric processing system is characterized by comprising the following steps: the method comprises the following steps:

the method comprises the following steps: uniformly placing the antibacterial fabric with the aperture needing to be subjected to standard unified expansion on the driving support plate, and driving the driving support plate to intermittently move into the automatic processing base by the reciprocating combined driver;

step two: the reciprocating combined driver is powered on and simultaneously drives the reciprocating extrusion fixer to reciprocate up and down in the automatic processing base, so that the reciprocating combined driver intermittently buffers and clamps the antibacterial fabric on the carrier plate;

step three: the driving expander is connected with electricity, and in the process of downward movement of the reciprocating extrusion fixer, the driving expander is gradually inserted into a specified circular hole of the antibacterial fabric on the driving support plate, and the circular hole of the antibacterial fabric is gradually expanded under the extrusion of the reciprocating combined driver to reach a specified aperture;

step four: the reciprocating extrusion fixer drives the driving expander to be separated from the antibacterial fabric in the upward movement process, simultaneously drives the expander to retract, drives the support plate to move away from the automatic processing base by the reciprocating combined driver, and reciprocates in the way.

The utility model provides an antibiotic surface fabric of antibiotic surface fabric system of processing which characterized in that: the antibacterial fabric comprises the following components: 50% of terylene and 50% of nylon.

Compared with the prior art, the technical scheme provided by the invention has the advantages that the automatic processing base, the driving expander, the reciprocating extrusion fixer, the reciprocating combined driver and the driving carrier plate can automatically stretch and expand the aperture of the antibacterial fabric to a specified size, so that the antibacterial fabric is applied to an automatic production line and the finished product of the antibacterial fabric can be conveniently processed in the next step; the lower side of the antibacterial fabric is subjected to buffering extrusion in the process of stretching and expanding the aperture of the antibacterial fabric, so that the expanded aperture of the whole antibacterial fabric is more standard; degree of automation is high, when reducing the manpower, the use of the actual weaving mill of being convenient for.

Drawings

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic structural view of the automatic processing base of the present invention;

FIG. 4 is a second schematic structural view of the automatic processing base of the present invention;

FIG. 5 is a partial first schematic structural view of the present invention;

FIG. 6 is a partial second schematic structural view of the present invention;

FIG. 7 is a first schematic structural view of the driver dilator of the present invention;

FIG. 8 is a second schematic structural view of the driver dilator of the present invention;

FIG. 9 is a third schematic structural view of the driver dilator of the present invention;

FIG. 10 is a fourth schematic structural view of the driver dilator of the present invention;

FIG. 11 is a schematic view showing the structure of a reciprocating extrusion fixture of the present invention

FIG. 12 is a second schematic structural view of the reciprocating extrusion fixture of the present invention;

fig. 13 is a schematic structural view of a reciprocating compound driver and a driving plate of the present invention.

In the figure: automatically processing the base 1; operating the bottom frame 1-1; a carrier plate sliding groove 1-2; a slide bar fixing base 1-3; a slide bar fixing seat 1-4; fixing a sliding rod 1-5; a rotary seat 1-6 is fixed on the upper part; side L-shaped fixed tables 1-7; 1-8 of a motor fixing table; 1-9 of slotting; 1-10 of a side rotating seat; a driving dilator 2; an expansion driving motor 2-1; a driving rotating shaft 2-2; a first drive turntable 2-3; the first driving connection rotating shaft 2-4; a second drive turntable 2-5; the second driving is connected with the rotating shaft 2-6; a third driving turntable 2-7; the third drive is connected with the rotating shaft 2-8; a fourth drive turntable 2-9; the fourth driving is connected with the rotating shaft 2-10; synchronous hinged rods 2-11; synchronous slide bars 2-12; 2-13 of a sliding seat; 2-14 parts of a lower fixing rod; a lower fixed connecting shaft 2-15; 1/4 conical expansion seats 2-16; a reciprocating extrusion holder 3; a cross sliding plate 3-1; 3-2 of sliding round holes; 3-3 motor fixing seats; 3-4 of a lower hinge seat; 3-5 of a connecting plate; operating the sliding discs 3-6; 3-7 parts of inner sliding groove; 3-8 parts of a buffer frame is extruded; 3-9 parts of an L-shaped inner chute; 3-10 parts of an L-shaped sliding rod; 3-11 parts of a lower extrusion plate; 3-12 parts of buffer spring; a reciprocating combined driver 4; a combined driving motor 4-1; an upper drive shaft 4-2; an upper driving turntable 4-3; an upper driving eccentric shaft 4-4; driving the hinge rod 4-5; 4-6 of an upper synchronous belt pulley; 4-7 parts of a lower synchronous belt pulley; 1/2 drive gears 4-8; 4-9 of a side rotating shaft; 4-10 of a transmission gear; a transmission rotating shaft 4-11; synchrodrive gears 4-12; driving the display carrier plate 5; a carrying slide plate 5-1; 5-2 of rectangular groove; carrying is carried as a loading plate groove 5-3; placing a round hole groove 5-4.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device can be fixed by welding, thread fixing and the like, the rotary connection can be realized by baking the bearing on a shaft, a spring retainer groove or an inter-shaft baffle is arranged on the shaft or a shaft hole, the axial fixation of the bearing is realized by clamping an elastic retainer ring in the spring retainer groove or the inter-shaft baffle, and the rotation is realized by the relative sliding of the bearing; different connection modes are used in combination with different use environments.

The first embodiment is as follows:

as shown in fig. 1 to 13, an antibacterial fabric processing system comprises an automatic processing base 1, a driving expander 2, a reciprocating extrusion fixer 3, a reciprocating combined driver 4 and a driving presentation support plate 5, wherein the upper end of the driving expander 2 is fixedly connected to the reciprocating extrusion fixer 3, the lower end of the driving expander 2 is slidably connected to the reciprocating extrusion fixer 3, the reciprocating extrusion fixer 3 is slidably connected to the automatic processing base 1, the reciprocating extrusion fixer 3 is hinged to the reciprocating combined driver 4, the reciprocating combined driver 4 is rotatably connected to the automatic processing base 1, the reciprocating combined driver 4 is engaged with and drives the presentation support plate 5, and the driving presentation support plate 5 is slidably connected to the automatic processing base 1. Uniformly placing the antibacterial fabric with the aperture needing to be subjected to standard unified expansion on the driving support plate, and driving the driving support plate to intermittently move into the automatic processing base by the reciprocating combined driver; the reciprocating combined driver is powered on and simultaneously drives the reciprocating extrusion fixer to reciprocate up and down in the automatic processing base, so that the reciprocating combined driver intermittently buffers and clamps the antibacterial fabric on the carrier plate; the driving expander is connected with electricity, and in the process of downward movement of the reciprocating extrusion fixer, the driving expander is gradually inserted into a specified circular hole of the antibacterial fabric on the driving support plate, and the circular hole of the antibacterial fabric is gradually expanded under the extrusion of the reciprocating combined driver to reach a specified aperture; the reciprocating extrusion fixer drives the driving expander to separate from the antibacterial fabric in the upward movement process, simultaneously drives the expander to retract, drives the support plate to move away from the automatic processing base by the driving of the reciprocating combined driver, and reciprocates in such a way; the pore diameter of the antibacterial fabric can be automatically stretched to a specified size, so that the antibacterial fabric is applied to an automatic production line, and the finished antibacterial fabric is conveniently processed in the next step; the lower side of the antibacterial fabric is subjected to buffering extrusion in the process of stretching and expanding the aperture of the antibacterial fabric, so that the expanded aperture of the whole antibacterial fabric is more standard; degree of automation is high, when reducing the manpower, the use of the actual weaving mill of being convenient for.

The second embodiment is as follows:

as shown in FIGS. 1 to 13, the present embodiment further illustrates the first embodiment, the automatic processing base 1 includes an operation bottom frame 1-1, a carrier plate sliding groove 1-2, two sliding rod fixing bases 1-3, two sliding rod fixing bases 1-4, two fixing sliding rods 1-5, an upper fixing rotary seat 1-6, a side L-shaped fixing platform 1-7, a motor fixing platform 1-8, four slots 1-9 and two side rotary seats 1-10, the carrier plate sliding groove 1-2 is arranged on the operation bottom frame 1-1 in a left-right penetrating manner, the two sliding rod fixing bases 1-3 are respectively fixedly connected to the lower sides of the front and rear ends of the operation bottom frame 1-1, the two sliding rod fixing bases 1-4 are respectively fixedly connected to the front and rear ends of the operation bottom frame 1-1, the fixing sliding rods 1-5 are fixedly connected to the sliding rod fixing bases 1-3 and the sliding rod fixing bases 1-1 4, an upper fixed swivel mount 1-6 is fixedly connected to the upper end of the operation bottom frame 1-1, a side L-shaped fixed station 1-7 is fixedly connected to the right side of the rear end of the operation bottom frame 1-1, a motor fixed station 1-8 is fixedly connected to the side L-shaped fixed station 1-7, four slots 1-9 are uniformly formed in the upper end of the operation bottom frame 1-1, and two side swivel mounts 1-10 are respectively and fixedly connected to the front side and the rear side of the right end of the operation bottom frame 1-1.

The third concrete implementation mode:

as shown in fig. 1 to 13, the second embodiment is further illustrated in the present embodiment, the reciprocating extrusion fixer 3 includes a cross sliding plate 3-1, two sliding circular holes 3-2, two motor fixing seats 3-3, a lower hinge seat 3-4, two connecting plates 3-5, an operating sliding plate 3-6, four inner sliding grooves 3-7 and two extrusion buffer frames 3-8, the cross sliding plate 3-1 is slidably connected in the four slots 1-9, the two sliding circular holes 3-2 are respectively arranged at the front and rear ends of the cross sliding plate 3-1 in a vertically penetrating manner, the two motor fixing seats 3-3 are both fixedly connected to the cross sliding plate 3-1, the lower hinge seat 3-4 is fixedly connected to the right side of the upper end of the cross sliding plate 3-1, the two connecting plates 3-5 are both fixedly connected to the lower end of the cross sliding plate 3-1, the operation sliding disc 3-6 is fixedly connected to the lower end of the cross sliding plate 3-1 through two connecting plates 3-5, four inner sliding grooves 3-7 are uniformly formed in the lower end of the operation sliding disc 3-6, and two extrusion buffer frames 3-8 are fixedly connected to the left side and the right side of the lower end of the cross sliding plate 3-1 respectively;

the reciprocating extrusion fixer 3 further comprises three L-shaped inner chutes 3-9, three L-shaped sliding rods 3-10, a lower extrusion plate 3-11 and three buffer springs 3-12, the lower end of an extrusion buffer frame 3-8 is provided with the three L-shaped inner chutes 3-9, the upper ends of the three L-shaped sliding rods 3-10 are respectively connected in the three L-shaped inner chutes 3-9 in a sliding manner, the lower ends of the three L-shaped sliding rods 3-10 are fixedly connected on the lower extrusion plate 3-11, the buffer springs 3-12 are sleeved on the L-shaped sliding rods 3-10, and the buffer springs 3-12 are arranged between the lower extrusion plate 3-11 and the extrusion buffer frame 3-8. When the antibacterial fabric product moves to the lower ends of four 1/4 conical expansion seats 2-16 in a clearance mode and stops, two extrusion buffer frames 3-8 which reciprocate up and down move downwards, three L-shaped sliding rods 3-10, three lower extrusion plates 3-11 and three buffer springs 3-12 are driven to move downwards at the same time, the lower extrusion plates 3-11 extrude two sides of the antibacterial fabric product, and the extrusion buffer frames 3-8 which move downwards continuously buffer and extrude two ends of the fabric through the three buffer springs 3-12 and the three L-shaped sliding rods 3-10 sliding in three L-shaped inner sliding grooves 3-9.

The fourth concrete implementation mode:

as shown in fig. 1 to 13, in this embodiment, a third embodiment is further described, the driving expander 2 includes an expanding driving motor 2-1, a driving rotating shaft 2-2, a first driving rotating shaft 2-3, a first driving connecting rotating shaft 2-4, a second driving rotating shaft 2-5, a second driving connecting rotating shaft 2-6, a third driving rotating shaft 2-7, a third driving connecting rotating shaft 2-8, a fourth driving rotating shaft 2-9 and a fourth driving connecting rotating shaft 2-10, the expanding driving motor 2-1 is fixedly connected between two motor holders 3-3, the driving rotating shaft 2-2 is connected with a transmission shaft of the expanding driving motor 2-1 through a coupler, the first driving rotating shaft 2-3 is fixedly connected to a lower end of the driving rotating shaft 2-2, and the first driving rotating shaft 2-3 is connected with the second driving rotating shaft through the first driving connecting rotating shaft 2-4 2-5 of a disk, wherein the second driving turntable 2-5 is connected with the third driving turntable 2-7 through a second driving connecting rotating shaft 2-6, the third driving turntable 2-7 is connected with the fourth driving turntable 2-9 through a third driving connecting rotating shaft 2-8, and the fourth driving connecting rotating shaft 2-10 is fixedly connected with the lower end of the fourth driving turntable 2-9;

the driving dilator 2 also comprises four synchronous hinged rods 2-11, four synchronous sliding rods 2-12, four sliding seats 2-13, four lower fixed rods 2-14, four lower fixed connecting shafts 2-15 and four 1/4 conical dilating seats 2-16, one ends of the four synchronous hinged rods 2-11 are respectively hinged on a first driving connecting rotating shaft 2-4, a second driving connecting rotating shaft 2-6, a third driving connecting rotating shaft 2-8 and a fourth driving connecting rotating shaft 2-10, the other ends of the four synchronous hinged rods 2-11 are respectively hinged on the four synchronous sliding rods 2-12, the upper ends of the four synchronous sliding rods 2-12 are respectively connected in the four inner sliding grooves 3-7 in a sliding way through the four sliding seats 2-13, the lower ends of the four synchronous sliding rods 2-12 are respectively fixedly connected with the four lower fixed rods 2-14, the four lower fixing rods 2-14 are respectively fixedly connected to the four 1/4 conical expansion seats 2-16 through four lower fixing connecting shafts 2-15. The first driving connecting rotating shaft 2-4, the second driving connecting rotating shaft 2-6, the third driving connecting rotating shaft 2-8 and the fourth driving connecting rotating shaft 2-10 are respectively and uniformly and fixedly connected in different directions, so that synchronous driving is facilitated, and driving displacement is the same. The expansion driving motor 2-1 is connected with electricity to drive the driving rotating shaft 2-2 to rotate, further drive the first driving rotating disk 2-3, the first driving connecting rotating shaft 2-4, the second driving rotating disk 2-5, the second driving connecting rotating shaft 2-6, the third driving rotating disk 2-7, the third driving connecting rotating shaft 2-8, the fourth driving rotating disk 2-9 and the fourth driving connecting rotating shaft 2-10 to rotate, the two motor fixing seats 3-3 which are displaced up and down in a reciprocating way drive the expansion driving motor 2-1 and the rotating driving rotating shaft 2-2, the first driving rotating disk 2-3, the first driving connecting rotating shaft 2-4, the second driving rotating disk 2-5, the second driving connecting rotating shaft 2-6, the third driving rotating disk 2-7 and the third driving connecting rotating shaft 2-8, The fourth driving rotary disc 2-9 and the fourth driving connecting rotary shaft 2-10 simultaneously reciprocate up and down, the operation sliding disc 3-6 which simultaneously moves down synchronously drives the four synchronous hinged rods 2-11, the four synchronous sliding rods 2-12, the four sliding seats 2-13, the four lower fixing rods 2-14, the four lower fixing connecting shafts 2-15 and the four 1/4 conical expansion seats 2-16 to reciprocate up and down, when the antibacterial fabric product moves to the lower ends of the four 1/4 conical expansion seats 2-16 in a clearance mode and stops, the four 1/4 conical expansion seats 2-16 which move down are inserted into small round holes of the antibacterial fabric product, and the first driving connecting rotary shaft 2-4, the second driving connecting rotary shaft 2-6, the third driving connecting rotary shaft 2-8 and the fourth driving connecting rotary shaft 2-10 which rotate simultaneously synchronously drive the four synchronous hinged rods 2-11, the four synchronous hinged rods 2-12 The rods 2-11 move, so that the four synchronous sliding rods 2-12 slide in the four inner sliding grooves 3-7 of the operating sliding disc 3-6, the four 1/4 conical expansion seats 2-16 synchronously expand outwards, the aperture of the antibacterial fabric product is expanded, after the aperture reaches the specified standard, all devices simultaneously move upwards, the four 1/4 conical expansion seats 2-16 retract synchronously, and the operation is repeated.

The fifth concrete implementation mode:

as shown in fig. 1 to 13, in the present embodiment, to further explain the fourth embodiment, the reciprocating combined driver 4 includes a combined driving motor 4-1, an upper driving shaft 4-2, an upper driving turntable 4-3, an upper driving eccentric shaft 4-4, a driving hinge rod 4-5, an upper synchronous pulley 4-6, a lower synchronous pulley 4-7, an 1/2 driving gear 4-8, a side rotating shaft 4-9, a transmission gear 4-10, a transmission shaft 4-11 and two synchronous driving gears 4-12, the combined driving motor 4-1 is fixedly connected to a motor fixing platform 1-8, the upper driving shaft 4-2 is connected to a transmission shaft of the combined driving motor 4-1 through a coupling, the upper driving shaft 4-2 is rotatably connected to an upper fixing rotary base 1-6, an upper driving turntable 4-3 is fixedly connected at the front end of an upper driving rotating shaft 4-2, an upper driving eccentric shaft 4-4 is fixedly connected at the eccentric position of the front end of the upper driving turntable 4-3, two ends of a driving hinge rod 4-5 are respectively hinged in the upper driving eccentric shaft 4-4 and a lower hinge seat 3-4, an upper synchronous belt pulley 4-6 is fixedly connected on the upper driving rotating shaft 4-2, the upper synchronous belt pulley 4-6 is connected with a lower synchronous belt pulley 4-7 through belt transmission, the lower synchronous belt pulley 4-7 and a 1/2 driving gear 4-8 are both fixedly connected on a side rotating shaft 4-9, the side rotating shaft 4-9 is rotatably connected in a side L-shaped fixed table 1-7 and an operation bottom frame 1-1, and a 1/2 driving gear 4-8 is meshed with a transmission gear 4-10, the transmission gear 4-10 is fixedly connected with the rear end of the transmission rotating shaft 4-11, the transmission rotating shaft 4-11 is rotatably connected in the two side rotating seats 1-10, and the two synchronous driving gears 4-12 are both fixedly connected on the transmission rotating shaft 4-11. The combined driving motor 4-1 is electrified to drive the upper driving rotating shaft 4-2 to rotate and further drive the upper driving rotary disk 4-3 to rotate, the rotating upper driving rotary disk 4-3 drives the cross sliding plate 3-1 to move through the upper driving eccentric shaft 4-4, the driving hinge rod 4-5 and the lower hinge seat 3-4, the cross sliding plate 3-1 is driven to move through the sliding and the drag of the two fixed sliding rods 1-5 in the two sliding round holes 3-2, the cross sliding plate 3-1 is driven to move up and down through the two fixed sliding rods 1-5, the cross sliding plate 3-1 slides in the four grooves 1-9, and the cross sliding plate 3-1 which moves up and down in a reciprocating manner drives the two motor fixing seats 3-3, the lower hinge seat 3-4, the two connecting plates 3-5, the operating sliding disk 3-6, The four inner sliding grooves 3-7 and the two extrusion buffer frames 3-8 reciprocate up and down in the operation bottom frame 1-1; the rotating upper driving rotating shaft 4-2 simultaneously drives the upper synchronous belt pulley 4-6 to rotate, further drives the lower synchronous belt pulleys 4-7, 1/2 driving gears 4-8 and the side rotating shaft 4-9 to rotate, the rotating 1/2 driving gears 4-8 intermittently drive the transmission gear 4-10 to rotate, further enables the transmission rotating shaft 4-11 and the two synchronous driving gears 4-12 to intermittently rotate, the two synchronous driving gears 4-12 intermittently rotate drive the carrying sliding plate 5-1 to move on the carrier plate sliding groove 1-2, and further enables the antibacterial fabric product to intermittently move to the lower ends of the four 1/4 conical expansion seats 2-16.

The sixth specific implementation mode:

as shown in fig. 1 to 13, in the fifth embodiment, the driving carrier plate 5 includes a carrier sliding plate 5-1, a plurality of rectangular grooves 5-2, a plurality of carrier plate-presenting grooves 5-3, and a plurality of circular hole-placing grooves 5-4, two ends of the carrier sliding plate 5-1 are slidably connected in the carrier plate-presenting sliding grooves 1-2 through sliders, the carrier sliding plate 5-1 is uniformly provided with a plurality of rectangular grooves 5-2, the rectangular grooves 5-2 are covered with garbage respectively, the carrier plate-presenting grooves 5-3 are covered with garbage respectively, and the circular hole-placing grooves 5-4 are provided on the carrier plate-presenting grooves 5-3. And uniformly placing the antibacterial fabric products to be expanded on a plurality of carrying plate-shaped carrying grooves 5-3 and a plurality of circular hole-placing grooves 5-4.

The seventh embodiment:

as shown in fig. 1 to 13, in the sixth embodiment, four 1/4 conical expansion bases 2-16 are provided, and four 1/4 conical expansion bases 2-16 constitute one conical expansion base. The synchronous expansion of the aperture with the same specification is facilitated.

The specific implementation mode is eight:

as shown in fig. 1 to 13, in the seventh embodiment, the upper end of the carrier slide plate 5-1 is rack-shaped, and the lower ends of the two synchronous driving gears 4-12 are meshed with the carrier slide plate 5-1 for transmission. The antibacterial fabric is driven and transported into the operation bottom frame 1-1 intermittently,

a technology for processing an antibacterial fabric by an antibacterial fabric processing system is characterized by comprising the following steps: the method comprises the following steps:

the method comprises the following steps: uniformly placing the antibacterial fabric with the aperture needing to be subjected to standard unified expansion on the driving display carrier plate 5, and driving the driving display carrier plate 5 to intermittently move into the automatic processing base 1 by the reciprocating combined driver 4;

step two: the reciprocating combined driver 4 is electrified and simultaneously drives the reciprocating extrusion fixer 3 to reciprocate up and down in the automatic processing base 1, so that the reciprocating combined driver 4 intermittently buffers and clamps the antibacterial fabric driven on the carrier plate 5;

step three: the driving expander 2 is connected with electricity, in the process that the reciprocating extrusion fixer 3 moves downwards, the driving expander 2 is gradually inserted into a specified circular hole of the antibacterial fabric on the driving presentation support plate 5, and the circular hole expansion is gradually carried out on the antibacterial fabric under the extrusion of the reciprocating combined driver 4, so that the diameter of the circular hole reaches the specified diameter;

step four: the reciprocating extrusion fixer 3 drives the driving expander 2 to be separated from the antibacterial fabric in the upward movement process, meanwhile, the driving expander 2 retracts, the reciprocating combined driver 4 drives the support plate 5 to move away from the automatic processing base 1, and the reciprocating operation is carried out in such a way.

The utility model provides an antibiotic surface fabric of antibiotic surface fabric system of processing which characterized in that: the antibacterial fabric comprises the following components: 50% of terylene and 50% of nylon.

The working principle of the Chinese herbal medicine mask processing device is as follows: uniformly placing the antibacterial fabric product to be expanded on a plurality of carrying plate-shaped carrying grooves 5-3 and a plurality of circular hole-placing grooves 5-4; the combined driving motor 4-1 is electrified to drive the upper driving rotating shaft 4-2 to rotate and further drive the upper driving rotary disk 4-3 to rotate, the rotating upper driving rotary disk 4-3 drives the cross sliding plate 3-1 to move through the upper driving eccentric shaft 4-4, the driving hinge rod 4-5 and the lower hinge seat 3-4, the cross sliding plate 3-1 is driven to move through the sliding and the drag of the two fixed sliding rods 1-5 in the two sliding round holes 3-2, the cross sliding plate 3-1 is driven to move up and down through the two fixed sliding rods 1-5, the cross sliding plate 3-1 slides in the four grooves 1-9, and the cross sliding plate 3-1 which moves up and down in a reciprocating manner drives the two motor fixing seats 3-3, the lower hinge seat 3-4, the two connecting plates 3-5, the operating sliding disk 3-6, The four inner sliding grooves 3-7 and the two extrusion buffer frames 3-8 reciprocate up and down in the operation bottom frame 1-1; the rotating upper driving rotating shaft 4-2 simultaneously drives the upper synchronous belt pulley 4-6 to rotate, further drives the lower synchronous belt pulley 4-7, the 1/2 driving gear 4-8 and the side rotating shaft 4-9 to rotate, the rotating 1/2 driving gear 4-8 intermittently drives the transmission gear 4-10 to rotate, further enables the transmission rotating shaft 4-11 and the two synchronous driving gears 4-12 to intermittently rotate, the two synchronous driving gears 4-12 intermittently rotate drive the carrying sliding plate 5-1 to move on the carrier plate sliding groove 1-2, and further enables the antibacterial fabric product to intermittently move to the lower ends of the four 1/4 conical expansion seats 2-16; when the antibacterial fabric product moves to the lower ends of four 1/4 conical expansion seats 2-16 in a clearance manner and stops, two extrusion buffer frames 3-8 which reciprocate up and down move downwards, three L-shaped slide bars 3-10, a lower extrusion plate 3-11 and three buffer springs 3-12 are driven to move downwards at the same time, the lower extrusion plate 3-11 extrudes two sides of the antibacterial fabric product, and the extrusion buffer frames 3-8 which move downwards continuously perform buffer extrusion on two ends of the fabric through the three buffer springs 3-12 and the sliding of the three L-shaped slide bars 3-10 in three L-shaped inner sliding grooves 3-9; the expansion driving motor 2-1 is connected with electricity to drive the driving rotating shaft 2-2 to rotate, further drive the first driving rotating disk 2-3, the first driving connecting rotating shaft 2-4, the second driving rotating disk 2-5, the second driving connecting rotating shaft 2-6, the third driving rotating disk 2-7, the third driving connecting rotating shaft 2-8, the fourth driving rotating disk 2-9 and the fourth driving connecting rotating shaft 2-10 to rotate, the two motor fixing seats 3-3 which are displaced up and down in a reciprocating way drive the expansion driving motor 2-1 and the rotating driving rotating shaft 2-2, the first driving rotating disk 2-3, the first driving connecting rotating shaft 2-4, the second driving rotating disk 2-5, the second driving connecting rotating shaft 2-6, the third driving rotating disk 2-7 and the third driving connecting rotating shaft 2-8, The fourth driving rotary disc 2-9 and the fourth driving connecting rotary shaft 2-10 simultaneously reciprocate up and down, the operation sliding disc 3-6 which simultaneously moves down synchronously drives the four synchronous hinged rods 2-11, the four synchronous sliding rods 2-12, the four sliding seats 2-13, the four lower fixing rods 2-14, the four lower fixing connecting shafts 2-15 and the four 1/4 conical expansion seats 2-16 to reciprocate up and down, when the antibacterial fabric product moves to the lower ends of the four 1/4 conical expansion seats 2-16 in a clearance mode and stops, the four 1/4 conical expansion seats 2-16 which move down are inserted into small round holes of the antibacterial fabric product, and the first driving connecting rotary shaft 2-4, the second driving connecting rotary shaft 2-6, the third driving connecting rotary shaft 2-8 and the fourth driving connecting rotary shaft 2-10 which rotate simultaneously synchronously drive the four synchronous hinged rods 2-11, the four synchronous hinged rods 2-12 The rods 2-11 move, so that the four synchronous sliding rods 2-12 slide in the four inner sliding grooves 3-7 of the operating sliding disc 3-6, the four 1/4 conical expansion seats 2-16 synchronously expand outwards, the aperture of the antibacterial fabric product is expanded, all devices simultaneously move upwards after the aperture reaches a specified standard, the four 1/4 conical expansion seats 2-16 retract synchronously, and the operation is repeated; the pore diameter of the antibacterial fabric can be automatically stretched to a specified size, so that the antibacterial fabric is applied to an automatic production line, and the finished antibacterial fabric is conveniently processed in the next step; the lower side of the antibacterial fabric is subjected to buffering extrusion in the process of stretching and expanding the aperture of the antibacterial fabric, so that the expanded aperture of the whole antibacterial fabric is more standard; degree of automation is high, when reducing the manpower, the use of the actual weaving mill of being convenient for.

The above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions and substitutions which may be made by those skilled in the art within the spirit of the present invention are within the scope of the present invention.

Claims (10)

1. The utility model provides an antibiotic surface fabric system of processing, is support plate (5) including automatic processing base (1), drive expander (2), reciprocal extrusion fixer (3), reciprocal combination driver (4) and drive, its characterized in that: the upper end fixed connection of drive expander (2) on reciprocal extrusion fixer (3), the lower extreme sliding connection of drive expander (2) is in reciprocal extrusion fixer (3), reciprocal extrusion fixer (3) sliding connection is on automatic processing base (1), reciprocal extrusion fixer (3) articulate on reciprocal combination driver (4), reciprocal combination driver (4) rotate to be connected on automatic processing base (1), reciprocal combination driver (4) are support plate (5) mesh and transmission mutually with the drive, the drive is support plate (5) sliding connection in automatic processing base (1).

2. The antibacterial fabric processing system according to claim 1, characterized in that: the automatic processing base (1) comprises an operation bottom frame (1-1), a carrier plate sliding groove (1-2), two sliding rod fixing bases (1-3), two sliding rod fixing bases (1-4), two fixing sliding rods (1-5), an upper fixing swivel base (1-6), a side L-shaped fixing table (1-7), a motor fixing table (1-8), four grooves (1-9) and two side rotating bases (1-10), wherein the carrier plate sliding groove (1-2) penetrates through the operation bottom frame (1-1) from left to right, the two sliding rod fixing bases (1-3) are respectively and fixedly connected to the lower sides of the front end and the rear end of the operation bottom frame (1-1), the two sliding rod fixing bases (1-4) are respectively and fixedly connected to the front end and the rear end of the operation bottom frame (1-1), the fixed slide bar (1-5) is fixedly connected to a slide bar fixing base (1-3) and a slide bar fixing base (1-4), the upper fixed swivel mount (1-6) is fixedly connected to the upper end of the operation bottom frame (1-1), the side L-shaped fixing table (1-7) is fixedly connected to the right side of the rear end of the operation bottom frame (1-1), the motor fixing table (1-8) is fixedly connected to the side L-shaped fixing table (1-7), four slots (1-9) are uniformly formed in the upper end of the operation bottom frame (1-1), and the two side swivel mounts (1-10) are respectively and fixedly connected to the front side and the rear side of the right end of the operation bottom frame (1-1).

3. The antibacterial fabric processing system according to claim 2, characterized in that: the reciprocating extrusion fixer (3) comprises a cross sliding plate (3-1), two sliding round holes (3-2), two motor fixing seats (3-3), a lower hinged seat (3-4), two connecting plates (3-5), an operation sliding disc (3-6), four inner sliding grooves (3-7) and two extrusion buffer frames (3-8), the cross sliding plate (3-1) is connected in the four grooves (1-9) in a sliding manner, the two sliding round holes (3-2) are respectively arranged at the front end and the rear end of the cross sliding plate (3-1) in an up-and-down penetrating manner, the two motor fixing seats (3-3) are fixedly connected on the cross sliding plate (3-1), the lower hinged seat (3-4) is fixedly connected on the right side of the upper end of the cross sliding plate (3-1), the two connecting plates (3-5) are fixedly connected to the lower end of the cross sliding plate (3-1), the operation sliding disc (3-6) is fixedly connected to the lower end of the cross sliding plate (3-1) through the two connecting plates (3-5), four inner sliding grooves (3-7) are uniformly formed in the lower end of the operation sliding disc (3-6), and the two extrusion buffer frames (3-8) are fixedly connected to the left side and the right side of the lower end of the cross sliding plate (3-1) respectively;

the reciprocating extrusion fixer (3) further comprises three L-shaped inner sliding grooves (3-9), three L-shaped sliding rods (3-10), a lower extrusion plate (3-11) and three buffer springs (3-12), the lower ends of the extrusion buffer frames (3-8) are provided with the three L-shaped inner sliding grooves (3-9), the upper ends of the three L-shaped sliding rods (3-10) are respectively connected in the three L-shaped inner sliding grooves (3-9) in a sliding mode, the lower ends of the three L-shaped sliding rods (3-10) are fixedly connected to the lower extrusion plate (3-11), the buffer springs (3-12) are sleeved on the L-shaped sliding rods (3-10), and the buffer springs (3-12) are arranged between the lower extrusion plate (3-11) and the extrusion buffer frames (3-8).

4. The antibacterial fabric processing system according to claim 3, characterized in that: the driving expander (2) comprises an expanding driving motor (2-1), a driving rotating shaft (2-2), a first driving turntable (2-3), a first driving connecting rotating shaft (2-4), a second driving turntable (2-5), a second driving connecting rotating shaft (2-6), a third driving turntable (2-7), a third driving connecting rotating shaft (2-8), a fourth driving turntable (2-9) and a fourth driving connecting rotating shaft (2-10), the expanding driving motor (2-1) is fixedly connected between two motor fixing seats (3-3), the driving rotating shaft (2-2) is connected with a transmission shaft of the expanding driving motor (2-1) through a coupler, the first driving turntable (2-3) is fixedly connected at the lower end of the driving rotating shaft (2-2), the first driving turntable (2-3) is connected with the second driving turntable (2-5) through a first driving connection rotating shaft (2-4), the second driving turntable (2-5) is connected with the third driving turntable (2-7) through a second driving connection rotating shaft (2-6), the third driving turntable (2-7) is connected with the fourth driving turntable (2-9) through a third driving connection rotating shaft (2-8), and the fourth driving connection rotating shaft (2-10) is fixedly connected with the lower end of the fourth driving turntable (2-9);

the driving expander (2) also comprises four synchronous hinged rods (2-11), four synchronous sliding rods (2-12), four sliding seats (2-13), four lower fixing rods (2-14), four lower fixing connecting shafts (2-15) and four 1/4 conical expanding seats (2-16), one ends of the four synchronous hinged rods (2-11) are respectively hinged on a first driving connecting rotating shaft (2-4), a second driving connecting rotating shaft (2-6), a third driving connecting rotating shaft (2-8) and a fourth driving connecting rotating shaft (2-10), the other ends of the four synchronous hinged rods (2-11) are respectively hinged on the four synchronous sliding rods (2-12), the upper ends of the four synchronous sliding rods (2-12) are respectively connected in four inner sliding grooves (3-7) in a sliding mode through the four sliding seats (2-13), the lower ends of the four synchronous sliding rods (2-12) are respectively fixedly connected with four lower fixing rods (2-14), and the four lower fixing rods (2-14) are respectively fixedly connected to four 1/4 conical expansion seats (2-16) through four lower fixing connecting shafts (2-15).

5. The antibacterial fabric processing system according to claim 4, characterized in that: the reciprocating combined driver (4) comprises a combined driving motor (4-1), an upper driving rotating shaft (4-2), an upper driving turntable (4-3), an upper driving eccentric shaft (4-4), a driving hinge rod (4-5), an upper synchronous belt pulley (4-6), a lower synchronous belt pulley (4-7), an 1/2 driving gear (4-8), a side rotating shaft (4-9), a transmission gear (4-10), a transmission rotating shaft (4-11) and two synchronous driving gears (4-12), the combined driving motor (4-1) is fixedly connected on a motor fixing table (1-8), the upper driving rotating shaft (4-2) is connected on a transmission shaft of the combined driving motor (4-1) through a coupler, the upper driving rotating shaft (4-2) is rotatably connected on an upper fixing rotary seat (1-6), an upper driving turntable (4-3) is fixedly connected at the front end of an upper driving rotating shaft (4-2), an upper driving eccentric shaft (4-4) is fixedly connected at the eccentric position of the front end of the upper driving turntable (4-3), two ends of a driving hinge rod (4-5) are respectively hinged in the upper driving eccentric shaft (4-4) and a lower hinge seat (3-4), an upper synchronous belt pulley (4-6) is fixedly connected on the upper driving rotating shaft (4-2), an upper synchronous belt pulley (4-6) is connected with a lower synchronous belt pulley (4-7) through belt transmission, both the lower synchronous belt pulley (4-7) and a 1/2 driving gear (4-8) are fixedly connected on a side rotating shaft (4-9), the side rotating shaft (4-9) is rotatably connected in a side L-shaped fixed table (1-7) and an operation bottom frame (1-1), 1/2 the driving gears (4-8) are meshed with the transmission gears (4-10) for transmission, the transmission gears (4-10) are fixedly connected with the rear ends of the transmission rotating shafts (4-11), the transmission rotating shafts (4-11) are rotatably connected in the two side rotating seats (1-10), and the two synchronous driving gears (4-12) are fixedly connected on the transmission rotating shafts (4-11).

6. The antibacterial fabric processing system according to claim 5, characterized in that: the driving and carrying plate (5) comprises a carrying sliding plate (5-1), a plurality of rectangular grooves (5-2), a plurality of carrying plate-carrying grooves (5-3) and a plurality of circular hole-placing grooves (5-4), two ends of the carrying sliding plate (5-1) are connected in the carrying plate-carrying sliding grooves (1-2) in a sliding mode through sliding blocks, the carrying sliding plate (5-1) is evenly provided with the rectangular grooves (5-2), garbage is covered in the rectangular grooves (5-2) respectively, the carrying plate-carrying grooves (5-3) are used for carrying the garbage, and the circular hole-placing grooves (5-4) are arranged on the carrying plate-carrying grooves (5-3).

7. The antibacterial fabric processing system according to claim 6, characterized in that: the 1/4 conical expansion seats (2-16) are provided with four, and the four 1/4 conical expansion seats (2-16) form a conical expansion seat.

8. The antibacterial fabric processing system according to claim 7, characterized in that: the upper end of the carrying sliding plate (5-1) is in a rack shape, and the lower ends of the two synchronous driving gears (4-12) are meshed with the carrying sliding plate (5-1) for transmission.

9. The process for processing the antibacterial fabric by using the antibacterial fabric processing system as claimed in claim 8, which is characterized in that: the method comprises the following steps:

the method comprises the following steps: the antibacterial fabric with the aperture needing to be expanded in a standard and unified mode is uniformly placed on the driving and presenting support plate (5), and the reciprocating combined driver (4) drives the driving and presenting support plate (5) to move towards the automatic processing base (1) intermittently;

step two: the reciprocating combined driver (4) is electrified and drives the reciprocating extrusion fixer (3) to reciprocate up and down in the automatic processing base (1), so that the reciprocating combined driver (4) intermittently buffers and clamps the antibacterial fabric on the driving carrier plate (5);

step three: the driving expander (2) is connected with electricity, in the process that the reciprocating extrusion fixer (3) moves downwards, the driving expander (2) is gradually inserted into a specified circular hole of the antibacterial fabric on the driving presentation support plate (5), and the circular hole expansion is gradually carried out on the antibacterial fabric under the extrusion of the reciprocating combined driver (4) so as to enable the antibacterial fabric to reach the specified aperture;

step four: the reciprocating extrusion fixer (3) drives the driving expander (2) to be separated from the antibacterial fabric in the upward movement process, meanwhile, the driving expander (2) retracts, the reciprocating combined driver (4) drives the driving presentation support plate (5) to move away from the automatic processing base (1), and the reciprocating operation is carried out in such a way.

10. The antibacterial fabric processed by the antibacterial fabric processing system of claim 9, characterized in that: the antibacterial fabric comprises the following components: 50% of terylene and 50% of nylon.

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