CN217458176U - Antibacterial cloth cutting device of nanometer - Google Patents

Abstract

The utility model relates to a cloth processing technology field especially relates to an antibacterial cloth cutting device of nanometer. The utility model provides a can replace the manual work to carry out the operation mode of direction transmission, flattening and equidistance cutting out to the cloth, and the antibacterial cloth cutting out device of nanometer that operating efficiency is higher. The utility model provides a nanometer bacteriostatic cloth cutting device, which comprises a support leg, a support plate, a fixed frame, a guide plate, a second rotating shaft, a conveying cylinder and the like; the bottom of the supporting plate is symmetrically provided with a plurality of supporting feet at intervals, the supporting feet are jointly connected with a fixing frame, the upper part of the fixing frame is provided with a guide plate, one side of the fixing frame is rotationally connected with a second rotating shaft in an up-and-down symmetrical mode, and the second rotating shaft is connected with a conveying cylinder. Through the cooperation of a conveying section of thick bamboo, cylinder and backup pad, carry out the flattening with the antibacterial cloth of nanometer high-efficiently, replace the manual work from this to carry out the flattening to the cloth, promoted the work efficiency of cloth flattening.

Description

Antibacterial cloth cutting device of nanometer

Technical Field

The utility model relates to a cloth processing technology field especially relates to an antibacterial cloth cutting device of nanometer.

Background

The cloth is the material that is used for making the clothing, the clothes that good cloth was made have comfortable, sweat-absorbing ventilative, hang stiff and smooth, the advantage such as the visual sense is noble, touch is gentle and graceful, along with the development of science and technology and the promotion of people's quality of life, the rapid development of antibacterial technique and antibacterial material, use antibacterial technique and nanotechnology on the cloth, form nanometer antibacterial cloth from this, nanometer antibacterial cloth has the general characteristic of good cloth, still has good security, it can prevent bacterium regeneration and reproduction, keep the fabric clean, from this nanometer antibacterial cloth receives people's favor more and more.

The cloth need be cut into unified specification before making the clothes and make it accord with mill's preparation demand with it, and the cutting mode of most cloth is that the workman leads the transmission with the cloth at first at present, uses the instrument to its flattening again, uses the cutting instrument to carry out the equidistance cutting operation to it according to unified specification at last, and this kind of operation mode has the defect that work efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome the lower shortcoming of operating efficiency that the operation mode that relies on the manual work to lead transmission, flattening and equidistance cutting off with the cloth leads alone, the to-be-solved technical problem of the utility model is to provide an operation mode that can replace the manual work to lead transmission, flattening and equidistance cutting off to the cloth, and the higher antibacterial cloth cutting off device of nanometer of operating efficiency.

In order to solve the technical problem, the utility model provides a such antibacterial cloth cutting device of nanometer, including the stabilizer blade, a supporting plate, the mount, the deflector, first pivot, the cylinder, second pivot and a conveying section of thick bamboo, the bottom interval symmetry of backup pad is provided with a plurality of stabilizer blade, be connected with the mount on the stabilizer blade jointly, mount upper portion is provided with and is used for carrying out the deflector that leads to the cloth transmission, one side up-and-down symmetry rotation type of mount is connected with the second pivot, be connected with a conveying section of thick bamboo in the second pivot, the opposite side rotary type of mount is connected with first pivot, be connected with the cylinder in the first pivot, one side top of backup pad is located to the cylinder, the opposite side of backup pad is provided with tailoring mechanism.

Preferably, the cutting mechanism comprises guide rods, a cutting knife, a first elastic piece, a compacting plate and a second elastic piece, wherein the guide rods are symmetrically arranged on two opposite sides of the supporting plate, the cutting knife is connected between the guide rods in a sliding mode, the compacting plate is connected to one side of the cutting knife in a sliding mode, the cutting knife penetrates through the compacting plate, the second elastic piece is arranged between the compacting plate and the cutting knife, the first elastic piece is arranged between the cutting knife and the supporting plate, and the first elastic piece is wound on the guide rods.

Preferably, still including the rack, driving motor, the belt pulley, flat belt and gear, one side of mount is connected with the rack, the one side of mount is run through one side of mount and is connected with the belt pulley to the one end of first pivot, place the below of erectting in this belt pulley, be connected with driving motor on the rack, driving motor's output shaft and this belt pulley connection, the one side of mount is run through to the one end of second pivot and is connected with the gear, two gear intermeshing, the one end of one of them second pivot of the second pivot of longitudinal symmetry runs through the gear of being connected with it and is connected with the belt pulley, the epaxial belt pulley of first pivot and second are connected through flat belt.

Preferably, still including the crank, the locating rack, remove frame and extrusion piece, the one end that driving motor was kept away from to first pivot runs through in the mount and is provided with the relative one side of rack and be connected with the crank, the one side sliding type that first pivot was kept away from to the crank is connected with and removes the frame, one side interval connection that the rack was kept away from to the mount has the locating rack, it runs through the locating rack and sliding type connection with it to remove the frame, it is connected with the extrusion piece to remove one side that the crank was kept away from to the frame, the extrusion piece is on same plane with the tip that sets up the one end of the cutting knife on same one side mount.

Preferably, one side of the supporting plate close to the cutting mechanism is provided with an inclined surface.

Preferably, the first elastic member and the second elastic member are both compression springs.

Preferably, a notch matched with the cutting knife is formed in the supporting plate right below the cutting knife.

Preferably, the diameter of the end surfaces of the two sides of the roller is far larger than that of the middle part of the roller.

Preferably, the guide plate is arranged with two sides higher than the middle horizontal plane.

Preferably, the guide plate is disposed above and close to the drum.

The utility model has the advantages that:

1. through the cooperation of a conveying section of thick bamboo and deflector, can lead the cloth, make it transmit according to established requirement, cooperation through cylinder and backup pad, carry out the nano antibacterial cloth flattening high-efficiently, replace the manual work from this and carry out the flattening to the cloth, the work efficiency of cloth flattening has been promoted, through the cutting knife, the cooperation of guide bar and compacting plate, carry out the equidistance dissection with the cloth according to the specification requirement, replace the manual work from this and lead to the cloth, the flattening, the equidistance dissection, cutting efficiency has greatly been promoted from this.

2. Through the cooperation of driving motor, first pivot, belt pulley, gear for the cloth transmission is more high-efficient swift, through the cooperation of first pivot, crank, removal frame and cutting knife, further promotes the efficiency of cutting out the section.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of components such as a belt pulley, a placement frame, and a guide plate.

Fig. 3 is a schematic perspective view of components such as a crank, a positioning frame, and a cutting knife.

Fig. 4 is a schematic perspective view of the support leg, the support plate, and the fixing frame.

The symbols in the drawings are: 1-support leg, 2-support plate, 3-fixing frame, 5-guide plate, 6-placing frame, 7-driving motor, 8-first rotating shaft, 81-roller, 9-belt pulley, 10-second rotating shaft, 11-flat belt, 12-gear, 13-conveying cylinder, 14-crank, 15-positioning frame, 16-moving frame, 17-extrusion block, 18-guide rod, 19-cutting knife, 20-first elastic piece, 21-compacting plate and 22-second elastic piece.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Example 1

A nanometer bacteriostatic cloth cutting device is shown in figure 1, figure 2 and figure 4, and comprises four support legs 1, a support plate 2, a fixed frame 3, a guide plate 5, a first rotating shaft 8, a roller 81, a second rotating shaft 10 and a conveying cylinder 13, wherein the bottom of the support plate 2 is symmetrically provided with the four support legs 1 at intervals, the fixed frame 3 is commonly connected on the support legs 1, the guide plate 5 for guiding cloth transmission is arranged at the upper part of the fixed frame 3, two side plate blocks of the guide plate 5 are higher than the horizontal plane in the middle, the cloth can be limited and guided to avoid the cloth from being displaced to one side during the cloth transmission in the cloth transportation, the second rotating shaft 10 is rotationally connected at the front side of the fixed frame 3 up and down symmetrically, the conveying cylinder 13 is connected on the second rotating shaft 10, the rear side of the fixed frame 3 is rotationally connected with the first rotating shaft 8, the roller 81 is connected on the first rotating shaft 8, the roller 81 is a diameter of two side end surfaces which is far larger than the diameter of the middle part, the guide plate 5 is arranged above the roller 81 and close to the roller 81, during cloth conveying, the guide plate can smoothly distribute and convey the cloth to the roller 81, the roller 81 can also convey the cloth to a preset direction, the roller 81 is arranged above the rear side of the supporting plate 2, the front side of the supporting plate 2 is provided with a cutting mechanism, and the front side of the supporting plate 2 is an inclined plane.

As shown in fig. 3, the cutting mechanism includes a guide bar 18, a cutting knife 19, a first elastic member 20, a compacting plate 21 and a second elastic member 22, the guide bar 18 is symmetrically arranged on two opposite sides of the support plate 2, the cutting knife 19 is slidably connected between the guide bars 18, an incision matched with the cutting knife 19 is formed in the support plate 2 under the cutting knife 19, the incision is arranged from top to bottom in a direction gradually narrowing from width to width, the compacting plate 21 is slidably connected to the front side of the cutting knife 19, the compacting plate 21 penetrates through the cutting knife 19, the second elastic member 22 is arranged between the compacting plate 21 and the cutting knife 19, the first elastic member 20 is arranged between the cutting knife 19 and the support plate 2, and the first elastic member 20 is wound on the guide bar 18.

When the nanometer antibacterial cloth needs to be cut, a worker places the device on a flat working plane, the cloth penetrates through a gap between the conveying cylinder 13 and the second rotating shaft 10, the cloth moves to the side face of the roller 81 under the guiding of the guide plate 5, the diameters of the end faces of the two sides of the roller 81 are far larger than the diameter of the middle part of the roller 81, so that the roller 81 can guide the cloth to the preset direction, the cloth penetrates through a gap between the roller 81 and the supporting plate 2 and moves towards one side of the supporting plate 2 with an inclined plane along the plane of the supporting plate 2, and the worker can move the cloth along the preset direction with a small acting force through the matching of the conveying cylinder 13, the guide plate 5 and the roller 81, so that the aim of conveying the cloth along the preset direction is fulfilled; through the matching of the roller 81 and the supporting plate 2, the cloth is leveled so as to be beneficial to cutting the cloth at the later stage; when the cloth moves to the inclined side of the supporting plate 2 gradually, a worker applies downward pressure to the cutting knife 19, the cutting knife 19 compresses the first elastic parts 20 on the two sides, the cutting knife 19 moves downward along the guide rods 18 on the two sides, the synchronous belt pressing plate 21 moves downward while the cutting knife 19 moves downward, after the cutting knife 19 and the pressing plate 21 are synchronously contacted with the cloth on the supporting plate 2, downward pressure is continuously applied to the cutting knife 19, the cutting knife 19 compresses the first elastic part 20 and the second elastic part 22 to deform the first elastic part and continuously move downward, the pressing plate 21 presses the cloth, the cutting knife 19 cuts downward along the notch which is formed in the supporting plate 2 and is matched with the cutting knife 19, so that the cloth is cut off, after the cloth is cut off, downward acting force is stopped being applied to the cutting knife 19, under the action of the elastic force of the first elastic part 20, the first elastic part 20 drives the cutting knife 19 to reset, the second elastic part 22 drives the compacting plate 21 to reset, and the first elastic part 20 and the second elastic part 22 are compression springs.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and fig. 2, the device further includes a placing frame 6, a driving motor 7, a belt pulley 9, a flat belt 11 and a gear 12, the left side of the fixing frame 3 is connected with the placing frame 6, the left end of the first rotating shaft 8 penetrates through the left side of the fixing frame 3 and is connected with the belt pulley 9, the placing frame 6 is arranged below the belt pulley 9, the driving motor 7 is connected to the placing frame 6, the output shaft of the driving motor 7 is connected with the belt pulley 9, the left end of the second rotating shaft 10 penetrates through the left side of the fixing frame 3 and is connected with the gear 12, the two gears 12 are mutually engaged, the left end of the second rotating shaft 10 at the lower part penetrates through the gear 12 connected with the lower part, the second rotating shaft 10 is connected with the belt pulley 9, and the belt pulley 9 on the first rotating shaft 8 is connected with the belt pulley 9 on the second rotating shaft 10 through the flat belt 11.

As shown in fig. 3, the cutting device further comprises a crank 14, a positioning frame 15, a movable frame 16 and an extrusion block 17, the right end of the first rotating shaft 8 penetrates through the right side of the fixed frame 3 and is connected with the crank 14, one side of the crank 14, which is far away from the first rotating shaft 8, is connected with the movable frame 16 in a sliding manner, the right side of the fixed frame 3 is connected with the two positioning frames 15 at intervals, the movable frame 16 penetrates through the positioning frame 15 and is connected with the same in a sliding manner, one side of the movable frame 16, which is far away from the crank 14, is connected with the extrusion block 17, and the end of the right end of the cutting knife 19 on the right side fixed frame 3 is positioned on the same plane through the extrusion block 17.

The worker starts the driving motor 7 to rotate positively, the driving motor 7 drives the first rotating shaft 8 to rotate positively through the output shaft, the first rotating shaft 8 drives the roller 81 and the belt pulley 9 connected with the first rotating shaft to rotate positively, the belt pulley 9 drives the belt pulley 9 connected with the second rotating shaft 10 to rotate positively through the flat belt 11, the second rotating shaft 10 and the gear 12 connected with the second rotating shaft are driven to rotate positively, the gear 12 connected with the second rotating shaft 10 is meshed with the gear 12 connected with the conveying cylinder 13, the second rotating shaft 10 drives the conveying cylinder 13 to rotate positively through the meshed gear 12, the cloth is leveled and conveyed to the cutting mechanism through the rotation of the roller 81, and therefore the purpose of quickly and efficiently conveying the cloth to the cutting mechanism is achieved; when the driving motor 7 drives the first rotating shaft 8 to rotate in the forward direction through the output shaft, the first rotating shaft 8 drives the crank 14 connected with the first rotating shaft to rotate in the forward direction, the crank 14 drives the moving frame 16 to reciprocate back and forth, at the moment, the rotation motion of the first rotating shaft 8 is changed into the linear reciprocating motion of the moving frame 16, when the connection part of the crank 14 and the moving frame 16 is positioned right above the right end part of the first rotating shaft 8, the crank 14 and the first rotating shaft 8 are on the same plane vertical to the supporting plate 2, at the moment, the crank 14 is positioned at the highest point of the plane vertical to the supporting plate 2, the crank 14 rotates in the forward direction along with the first rotating shaft 8, the crank 14 gradually moves to the right front part of the right end part of the first rotating shaft 8 from the highest point, the moving frame 16 drives the extrusion block 17 to gradually approach and extrude the right side of the cutting knife 19, so as to provide downward pressure to the cutting knife 19, instead of manually pressing the cutting knife 19, the cutting of the cutting knife 19 to the cloth is realized; the crank 14 continuously rotates forward along with the first rotating shaft 8, the crank 14 gradually moves to a position right below the right end of the first rotating shaft 8, at the moment, the crank 14 is located at the lowest point of a plane vertical to the supporting plate 2, the moving frame 16 drives the extrusion block 17 to gradually get away from the cutting knife 19 from the right side of the extrusion cutting knife 19, and the cutting knife 19 finishes cutting the cloth and realizes resetting; the crank 14 continues to rotate along with the first rotating shaft 8, the crank 14 gradually moves to the position right behind the right side end part of the first rotating shaft 8 from the lowest point, the movable frame 16 drives the extrusion block 17 to continue to be away from the cutting knife 19, when the crank 14 gradually moves to the position right above the right side end part of the first rotating shaft 8 from the position right behind the right side end part of the first rotating shaft 8, the movable frame 16 drives the extrusion block 17 to gradually approach the cutting knife 19, the operation is repeated, the cloth can be comprehensively replaced by manpower to be efficiently transmitted, leveled and cut at equal intervals, and the operation efficiency is greatly improved.

The above-mentioned embodiments only represent the preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several changes, modifications and substitutions can be made, which are all within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A nanometer antibacterial cloth cutting device is characterized by comprising support legs (1), a support plate (2), a fixing frame (3) and a guide plate (5), the cloth conveying device comprises a first rotating shaft (8), a roller (81), a second rotating shaft (10) and a conveying cylinder (13), wherein a plurality of support legs (1) are symmetrically arranged at the bottom of a supporting plate (2) at intervals, a fixing frame (3) is jointly connected to the support legs (1), a guide plate (5) used for guiding cloth conveying is arranged on the upper portion of the fixing frame (3), the second rotating shaft (10) is rotationally connected to one side of the fixing frame (3) in an up-and-down symmetrical mode, the conveying cylinder (13) is connected to the second rotating shaft (10), the first rotating shaft (8) is connected to the other side of the fixing frame (3), the roller (81) is connected to the first rotating shaft (8), the roller (81) is arranged above one side of the supporting plate (2), and a cutting mechanism is arranged on the other side of the supporting plate (2).

2. The bacteriostatic nano fabric cutting device according to claim 1, wherein the cutting mechanism comprises guide rods (18), cutting knives (19), first elastic members (20), compacting plates (21) and second elastic members (22), the guide rods (18) are symmetrically arranged on two opposite sides of the support plate (2), the cutting knives (19) are connected between the guide rods (18) in a common sliding manner, the compacting plates (21) are connected on one sides of the cutting knives (19) in a sliding manner, the compacting plates (21) penetrate through the cutting knives (19), the second elastic members (22) are arranged between the compacting plates (21) and the cutting knives (19), the first elastic members (20) are arranged between the cutting knives (19) and the support plate (2), and the first elastic members (20) are wound on the guide rods (18).

3. The nano bacteriostatic fabric cutting device according to claim 2, characterized by further comprising a placing rack (6), a driving motor (7), a belt pulley (9), a flat belt (11) and gears (12), wherein one side of the fixing rack (3) is connected with the placing rack (6), one end of a first rotating shaft (8) penetrates through one side of the fixing rack (3) and is connected with the belt pulley (9), the placing rack (6) is arranged below the belt pulley (9), the driving motor (7) is connected on the placing rack (6), an output shaft of the driving motor (7) is connected with the belt pulley (9), one end of a second rotating shaft (10) penetrates through one side of the fixing rack (3) and is connected with the gears (12), the two gears (12) are mutually engaged, one end of one second rotating shaft (10) of the vertically symmetrical second rotating shafts (10) penetrates through the gear (12) connected with the second rotating shaft and is connected with the belt pulley (9), the belt pulley (9) on the first rotating shaft (8) is connected with the belt pulley (9) on the second rotating shaft (10) through a flat belt (11).

4. The nanometer bacteriostatic fabric cutting device according to claim 3, characterized in that, the device also comprises a crank (14) and a positioning frame (15), remove frame (16) and extrusion piece (17), the one end that driving motor (7) were kept away from in first pivot (8) runs through mount (3) and is provided with the relative one side of rack (6) and be connected with crank (14), one side sliding type that first pivot (8) were kept away from in crank (14) is connected with removes frame (16), one side interval connection that rack (6) were kept away from in mount (3) has locating rack (15), remove frame (16) runs through locating rack (15) and sliding type connection with it, one side that crank (14) were kept away from in removal frame (16) is connected with extrusion piece (17), extrusion piece (17) are on same plane with the tip that sets up the one end of cutting knife (19) on same side mount (3).

5. The bacteriostatic nano-fabric cutting device according to claim 4, wherein one side of the supporting plate (2) close to the cutting mechanism is provided with an inclined surface.

6. The bacteriostatic nano fabric cutting device according to claim 5, wherein the first elastic member (20) and the second elastic member (22) are compression springs.

7. The bacteriostatic nano fabric cutting device according to claim 6, wherein a notch matched with the cutting knife (19) is arranged on the supporting plate (2) right below the cutting knife (19).

8. The cutting device for nano bacteriostatic fabrics according to claim 7, wherein the diameter of the end surfaces at both sides of the roller (81) is much larger than that of the middle part of the roller (81).

9. The bacteriostatic nano fabric cutting device according to claim 8, wherein the guide plates (5) are arranged with two sides higher than the middle horizontal plane.

10. The cutting device for nano bacteriostatic fabrics according to claim 8, wherein the guide plate (5) is arranged above and close to the roller (81).

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