CN210126115U - Tool stopping mark removing device for vertical-tool high-speed numerical control fabric cutting machine - Google Patents

Abstract

The utility model discloses a tool-stopping mark removing device for a vertical-tool high-speed numerical control fabric cutting machine, which comprises a high-speed rotating chip removing device, a fixed chip removing device, a supporting beam and a tool belt; the lower ends of the high-speed rotating chip removing device and the fixed chip removing device are fixed on the supporting beam, the knife belt penetrates through the upper ends of the high-speed rotating chip removing device and the fixed chip removing device, the high-speed rotating chip removing device removes iron chips and dust on the knife belt within three minutes before the fabric cutting machine stops, and the fixed chip removing device removes the iron chips and dust on the knife belt in the whole working process of the fabric cutting machine. The utility model belongs to the textile machinery field utilizes the utility model discloses a black iron fillings and the dust of adhesion on the sword area after the sword area is whetted a knife can be got rid of to the device, prevents to produce when founding the high-speed numerical control fabric separate cutter of sword formula and stops the sword trace, avoids bringing economic loss for the machine user because of being cut the existence on the fabric and stopping the sword trace.

Description

Tool stopping mark removing device for vertical-tool high-speed numerical control fabric cutting machine

Technical Field

The utility model relates to the field of textile machinery, specifically relate to a tool stopping mark remove device that is used for high-speed numerical control fabric separate cutter of found sword formula.

Background

The fabric dividing machine is a mechanical device for dividing and processing the interval fabrics produced by various warp knitting machines. The spacer fabric is a cloth woven by a warp knitting machine, the two sides of the spacer fabric are base fabrics, the middle of the spacer fabric is a plush fabric, when the spacer fabric is divided by a fabric dividing machine, the surface A and the surface B of the spacer fabric are pulled to move upwards, the knife belt is in a rotating state, and the knife belt cuts the spacer fabric from the plush fabric in the middle of the spacer fabric. In order to ensure that the knife belt keeps sharp all the time in the working state of cutting the spacer fabric at a high speed, the rotating knife belt is ground all the time by the knife grinding mechanism, black iron filings and dust are often adhered to the grinded knife belt, the knife belt grinding and the spacer fabric cutting are carried out synchronously, and the black iron filings and the dust are further adhered to the spacer fabric. In the process of continuously rotating and cutting the spacer fabric by the knife belt, black iron chips and dust are uniformly dispersed on the spacer fabric, no obvious knife mark is left, but when the knife belt stops cutting the spacer fabric, the knife belt still contacts with the spacer fabric, black marks are left on the spacer fabric, and the marks call the stop knife mark.

The tool stopping mark always troubles the fabric cutting industry, an effective method for completely removing the tool stopping mark does not exist in the prior art, and the current common method is to arrange wiping cloths on two side surfaces of a knife belt to wipe impurities such as scrap iron, dust and the like on the knife belt.

Disclosure of Invention

In order to solve the problem, the utility model provides a tool-stopping mark remove device for founding high-speed numerical control fabric separate cutter of sword formula can get rid of the tool-stopping mark that produces when the fabric separate cutter shuts down effectively.

In order to realize the technical purpose, the technical effect is achieved, the utility model discloses a realize through following technical scheme: a tool-stopping mark removing device for a vertical-tool high-speed numerical control fabric cutting machine comprises a high-speed rotating chip removing device, a fixed chip removing device, a supporting beam and a tool belt; the lower ends of the high-speed rotating scrap removing device and the fixed scrap removing device are fixed on the supporting beam, the knife belt penetrates through the upper ends of the high-speed rotating scrap removing device and the fixed scrap removing device, scrap iron and dust on the knife belt are removed by the high-speed rotating scrap removing device within 3 minutes before the fabric cutting machine stops, and the scrap iron and dust on the knife belt are removed by the fixed scrap removing device in the whole working process of the fabric cutting machine; the high-speed rotating chip removing device comprises a gear box transmission mechanism, a movable rotating chip removing mechanism, a magnetic suction control mechanism and a supporting bottom plate, wherein the gear box transmission mechanism and the movable rotating chip removing mechanism are fixed on the supporting bottom plate; the gear box transmission mechanism is connected with the movable rotary chip removing mechanism to provide power for rotary chip removal, and the magnetic attraction control mechanism controls the movable rotary chip removing mechanism to be separated and folded; the fixed scrap removing device comprises at least two supporting and clamping components, a first wool felt cover and a second wool felt cover are arranged on the inner sides of the supporting and clamping components, and a first wool felt and a second wool felt are arranged on the opposite surfaces of the first wool felt cover and the second wool felt cover respectively.

Furthermore, the gear box transmission mechanism comprises a motor, a gear box input shaft and a gear box output shaft which are arranged on a motor support, the motor support and the gear box are respectively fixed on a supporting bottom plate, a first synchronous belt wheel is connected to an output shaft of the motor, a second synchronous belt wheel is connected to the outer side of the gear box input shaft, the first synchronous belt wheel and the second synchronous belt wheel are in transmission connection through a synchronous belt, the gear box input shaft and the gear box output shaft can be rotatably installed in the gear box, a first gear and a second gear are respectively arranged on the gear box input shaft and the gear box output shaft and are positioned in the gear box, the first gear is meshed with the second gear, and a first universal coupling and a second universal coupling with the same specification are respectively.

Further, the movable rotary scrap removing mechanism comprises a cylindrical brush component and an impurity collecting component arranged below the cylindrical brush component, the cylindrical brush component comprises two cylindrical brushes, each cylindrical brush is respectively fixed on a cylindrical brush supporting rod, the inner side end of one cylindrical brush supporting rod is connected with a universal coupling I, the inner side end of the other cylindrical brush supporting rod is connected with a universal coupling II, a protective cover and a protective cover baffle are arranged on the periphery of the cylindrical brush, the cylindrical brush supporting rod connected with the universal coupling I is rotatably arranged in a supporting rod support I and a supporting rod support II, the cylindrical brush supporting rod connected with the universal coupling II is rotatably arranged in a supporting rod support III and a supporting rod support IV, the supporting rod support II and the supporting rod support IV are respectively fixed on a support short supporting frame I and a support short supporting frame II, the supporting rod support I and the supporting rod support III are respectively fixed on a support long supporting frame I and a support long supporting frame II, the bottom of the first support short support frame and the bottom of the second support short support frame are respectively connected with a first linear bearing seat and a second linear bearing seat, the first linear bearing seat and the second linear bearing seat can be movably arranged at two ends of a cylindrical rod, and the two cylindrical rod supports are arranged in the middle of the cylindrical rod and used for fixing the cylindrical rod; the impurity collecting assembly comprises an impurity collecting box arranged between two cylindrical brushes, the lower end of the impurity collecting box is fixed on the supporting bottom plate through a bolt, the impurity collecting box is used for collecting black iron filings and dust brushed off from the knife belt, and the black iron filings and dust in the impurity collecting box are finally sucked away by the air pump.

Furthermore, the magnetic attraction control mechanism comprises an electromagnet fixed on an electromagnet support, the electromagnet support is fixed on a support base plate, a first support long support frame is fixed on a first sliding block, a second support long support frame is fixed on a second sliding block, and the first sliding block and the second sliding block can be movably arranged at two ends of the guide rail; the first pull rod and the second pull rod can be respectively rotatably arranged on opposite side surfaces of the first support long support frame and the second support long support frame, and the connecting rod is connected with the first pull rod and the second pull rod; the connecting rod is magnetically connected with the electromagnet, a spring is arranged between the first support long support frame and the second support long support frame, a telescopic spring support rod is arranged in the spring, the gear box transmission mechanism and the electromagnet are controlled by a numerical control system, the electromagnet is powered off under the control of the numerical control system, and the rotary scrap removing mechanism can be moved to open under the action of the spring; the electromagnet is electrified to pull the connecting rod to move towards the direction of the electromagnet, and the movable rotary chip removing mechanism is further closed.

Furthermore, the supporting and clamping assembly comprises two groups of connecting rod assemblies, tension springs and connecting bottom plates which are oppositely arranged; the two groups of connecting rod assemblies are symmetrically connected with the connecting bottom plate, the connecting bottom plate is fixed on the supporting cross beam, and a tension spring is arranged between the two groups of connecting rod assemblies and used for tensioning the connecting rod assemblies.

Further, the connecting rod assembly comprises a housing supporting rod, a connecting rod and a clamping connecting rod; the shell supporting rod is connected with the connecting rod, the connecting rod is connected with the clamping connecting rod, connecting holes matched with the connecting end parts of the shell supporting rod are respectively formed in the two sides of the first wool felt shell and the second wool felt shell, and the shell supporting rod penetrates through the connecting holes in the corresponding positions to be respectively connected with the first wool felt shell and the second wool felt shell.

The utility model has the advantages that:

1. the novel tool-stopping mark removing device comprises a fixed chip removing device and a high-speed rotating chip removing device which are respectively used for removing black scrap iron and dust on a tool belt in the whole working process and within 3 minutes before shutdown, the removing efficiency is high, and tool-stopping marks are not left on a spacer fabric;

2. the electromagnet and the motor in the high-speed rotating chip removing device are controlled by a numerical control system, so that the movable rotating chip removing mechanism can be automatically separated and folded, black scrap iron and dust on the cutter belt can be automatically removed, and the operation is convenient;

3. the fixed scrap removing device is provided with a tension spring, so that the wool felt is in closer contact with the cutter belt, and the black scrap iron and dust can be wiped conveniently;

4. the high-speed rotating scrap removing device is provided with the protective cover and the protective cover baffle plate, so that the process of removing black scrap iron and dust is safer.

Drawings

FIG. 1 is a schematic structural diagram of a tool-stopping mark removing device for a vertical-tool high-speed numerical control fabric cutting machine according to the present invention;

FIG. 2 is a schematic structural diagram of a high-speed rotating chip removing device disclosed by the invention;

FIG. 3 is a front view of the disclosed gearbox drive mechanism;

FIG. 4 is a schematic structural view of a gearbox drive mechanism according to the present disclosure;

FIG. 5 is a schematic structural view of a movable rotary chip removing mechanism disclosed in the present invention;

FIG. 6 is a rear view of the movable rotary chip removing mechanism of the present disclosure;

FIG. 7 is a schematic structural view of a fixed dandruff removing device disclosed in the present invention;

FIG. 8 is a schematic structural view of the support clamp assembly of the present disclosure;

FIG. 9 is a schematic diagram of a working process of a tool-stopping mark removing device for a vertical-knife type high-speed numerical control fabric cutting machine.

Wherein, 1: high-speed rotatory antidandruff device, 2: fixing and chip removing device, 3: supporting beam, 4: knife belt, 5: liftable mechanism, 6 of whetting a knife: a flywheel;

11: gearbox drive mechanism, 12: movable rotary chip removing mechanism, 13: electromagnet, 14: electromagnet support, 15: a support base plate;

111: motor, 112: motor support, 113: primary synchronous pulley, 114: synchronous belt, 115: secondary synchronous pulleys, 116: gearbox input shaft, 117: gearbox output shaft, 118: gearbox, 119: gear one, 1110: gear two, 1111: first universal coupling, 1112: a universal coupling II;

122: linear bearing seat one, 123: linear bearing seats two, 124: cylindrical rod, 125: cylindrical rod support, 126: a first support frame of a support, 127: support long support frame two, 128: first pull rod, 129: a second pull rod and 1210: connecting rod, 1211: first slide block 1212: a second slider, 1213: guide rail, 1214: spring, 1215: spring support bar, 1216: an impurity collection box;

121-1: cylindrical brush, 121-2: cylindrical brush support rod, 121-3: protective cover, 121-4: guard shield, 121-5: support rod support I, 121-6: support rod supports II, 121-7: supporting rod support III, 121-8: support rod support four, 121-9: a first support short support frame of a support, 121-10: a second support frame with a short support;

21: support clamping assembly, 22: first wool felt housing, 23: second wool felt casing, 24: wool felt I, 25: a wool felt II;

211: connecting rod assembly, 212: tension spring, 213: connecting the bottom plate;

211-1: housing support bar, 211-2: connecting link, 211-3: the connecting rod is clamped.

Detailed Description

The following description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings of fig. 1-9, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention can be more clearly and clearly defined.

In order to remove the tool stopping mark on the vertical-tool high-speed numerical control fabric cutting machine with high efficiency, the utility model discloses a tool stopping mark removing device for the vertical-tool high-speed numerical control fabric cutting machine, which comprises a high-speed rotating chip removing device 1, a fixed chip removing device 2, a supporting beam 3 and a cutter belt 4; the lower ends of the high-speed rotating chip removing device 1 and the fixed chip removing device 2 are fixed on the supporting beam 3, the knife belt 4 penetrates through the upper ends of the high-speed rotating chip removing device 1 and the fixed chip removing device 2, scrap iron and dust on the knife belt are removed by the high-speed rotating chip removing device 1 within three minutes before the fabric cutting machine stops, and the scrap iron and dust on the knife belt are removed by the fixed chip removing device 2 in the whole working process of the fabric cutting machine; the high-speed rotating chip removing device 1 comprises a gear box transmission mechanism 11, a movable rotating chip removing mechanism 12, a magnetic attraction control mechanism and a supporting bottom plate 15, wherein the gear box transmission mechanism 11 and the movable rotating chip removing mechanism 12 are fixed on the supporting bottom plate 15; the gear box transmission mechanism 11 is connected with the movable rotary chip removing mechanism 12 to provide power for rotary chip removal, and the magnetic attraction control mechanism is arranged below the movable rotary chip removing mechanism 12 to control the separation and the folding of the movable rotary chip removing mechanism; the fixed scrap removing device 2 comprises at least two supporting and clamping components 21, a first wool felt cover 22 and a second wool felt cover 23 are arranged on the inner sides of the supporting and clamping components 21, and a first wool felt 24 and a second wool felt 25 are respectively arranged on the opposite surfaces of the first wool felt cover 22 and the second wool felt cover 23.

The gearbox transmission mechanism 11 comprises a motor 111, a gearbox 118, a gearbox input shaft 116 and a gearbox output shaft 117 which are arranged on a motor support 112, the motor support 112 and the gearbox 118 are respectively fixed on a support base plate 15, a first synchronous pulley 113 is connected on the output shaft of the motor 111, a second synchronous pulley 115 is connected on the outer side of the gearbox input shaft 116, the first synchronous pulley 113 and the second synchronous pulley 115 are in transmission connection through a synchronous belt 114, the gearbox input shaft 116 and the gearbox output shaft 117 are rotatably installed in the gearbox 118, a first gear 119 and a second gear 1110 are respectively arranged on the gearbox input shaft 116 and the gearbox output shaft 117 and positioned in the gearbox 118, the first gear 119 is meshed with the second gear 1110, and the inner side ends of the gearbox input shaft 116 and the gearbox output shaft 117 are respectively connected with a first universal coupling 1111 and a second universal coupling 1112 which are in the same.

The movable rotary chip removing mechanism 12 comprises a cylindrical brush assembly and an impurity collecting assembly arranged below the cylindrical brush assembly, the cylindrical brush assembly comprises two cylindrical brushes 121-1, each cylindrical brush 121-1 is respectively fixed on one cylindrical brush supporting rod 121-2, the inner side end of one cylindrical brush supporting rod 121-2 is connected with a first universal coupling 1111, the inner side end of the other cylindrical brush supporting rod 121-2 is connected with a second universal coupling 1112, a protective cover 121-3 and a protective cover baffle 121-4 are arranged on the periphery of the cylindrical brush 121-1, the cylindrical brush supporting rod 121-2 connected with the first universal coupling 1111 is rotatably arranged in a first supporting rod support 121-5 and a second supporting rod support 121-6, the cylindrical brush supporting rod 121-2 connected with the second universal coupling 1112 is rotatably arranged in a third supporting rod support 121-7 and a fourth supporting rod support 121-8, the second support rod support 121-6 and the fourth support rod support 121-8 are respectively fixed on the first support short support frame 121-9 and the second support short support frame 121-10, the first support rod support 121-5 and the third support rod support 121-7 are respectively fixed on the first support long support frame 126 and the second support long support frame 127, the bottoms of the first support short support frame 121-9 and the second support short support frame 121-10 are respectively connected with a first linear bearing seat 122 and a second linear bearing seat 123, the first linear bearing seat 122 and the second linear bearing seat 123 can be movably arranged at two ends of the cylindrical rod 124, and the two cylindrical rod supports 125 are arranged in the middle of the cylindrical rod 124 and used for fixing the cylindrical rod 124; the impurity collecting assembly comprises an impurity collecting box 1216 arranged between the two cylindrical brushes 121-1, the lower end of the impurity collecting box 1216 is fixed on the supporting bottom plate 15 through bolt connection, the impurity collecting box 1216 is used for collecting black scrap iron and dust brushed off from the knife belt 4, and the black scrap iron and dust in the impurity collecting box 1216 are finally sucked away by an air pump.

The magnetic control mechanism comprises an electromagnet 13 fixed on an electromagnet support 14, the electromagnet support 14 is fixed on a support base plate 15, a support long support frame I126 is fixed on a slide block I1211, a support long support frame II 127 is fixed on a slide block II 1212, and the slide block I1211 and the slide block II 1212 can be movably arranged at two ends of a guide rail 1213; the first pull rod 128 and the second pull rod 129 are respectively rotatably arranged on the opposite side surfaces of the first support long support frame 126 and the second support long support frame 127, and the connecting rod 1210 is connected with the first pull rod 128 and the second pull rod 129; the connecting rod 1210 is magnetically connected with the electromagnet 13, a spring 1214 is arranged between the first support frame 126 and the second support frame 127, a telescopic spring support rod 1215 is arranged in the spring 1214, the gearbox transmission mechanism 11 and the electromagnet 13 are controlled by a numerical control system, the electromagnet 13 is powered off under the control of the numerical control system, and the movable rotary chip removing mechanism 12 is opened under the action of the spring 1214; the electromagnet 13 is electrified, and the connecting rod 1210 is pulled to move towards the electromagnet 13 through the magnetic attraction effect, so that the movable rotary chip removing mechanism 12 is further folded.

The supporting and clamping assembly 21 comprises two groups of connecting rod assemblies 211, tension springs 212 and connecting bottom plates 213 which are oppositely arranged; two sets of link assemblies 211 are symmetrical to be connected with connecting bottom plate 213, and connecting bottom plate 213 is fixed on supporting beam 3, is provided with extension spring 212 between two sets of link assemblies 211, and extension spring 212 is used for taut link assemblies 211.

In other embodiments, the tension spring 212 in the fixed chip removing device 2 can be changed into a spring I, a magnetic attraction control mechanism in the chip removing device 1 rotating at high speed is also arranged in the fixed chip removing device 2, two pull rods are rotatably connected to the inner side of the connecting rod assembly 211 and then connected with a fixed connecting rod, the fixed connecting rod is magnetically connected with an electromagnet I, and the opening and closing of the two groups of connecting rod assemblies 211 are controlled by powering off and on the electromagnet I.

The connecting rod assembly 211 comprises a housing supporting rod 211-1, a connecting rod 211-2 and a clamping connecting rod 211-3; the shell supporting rod 211-1 is connected with the connecting rod 211-2, the connecting rod 211-2 is connected with the clamping connecting rod 211-3, connecting holes matched with the connecting end parts of the shell supporting rod 211-1 are respectively arranged at the two sides of the first wool felt shell 22 and the second wool felt shell 23, and the shell supporting rod 211-1 is respectively connected with the first wool felt shell 22 and the second wool felt shell 23 by penetrating through the connecting holes at the corresponding positions.

The specific working process of the device is as follows:

after the vertical knife type high-speed numerical control fabric cutting machine is started, as shown in the attached figure 9, the knife belt 4 is driven by the flywheel 6 to rotate clockwise at a high speed. The left side and the right side of the knife belt 4 can be divided into a knife grinding and dust removing working area and a fabric cutting working area, one side of the knife belt 4, which is provided with a knife stopping mark removing device and a lifting knife grinding mechanism 5, is the knife grinding and dust removing working area, and the other side is the fabric cutting working area. In order to guarantee that the cutter band 4 always keeps sharp under the working state of cutting the interval fabric at a high speed, the lifting cutter grinding mechanism 5 always grinds the rotating cutter band 4, the grinding wheel in the lifting cutter grinding mechanism 5 and the cutter band 4 rub each other to generate black iron chips and dust during cutter grinding, and the black iron chips and the dust are adsorbed on the cutter band 4 rotating clockwise. The clockwise rotating knife belt 4 is removed with black iron chips and dust after passing through a device for removing tool marks in a knife grinding and dust removing working area, and then the knife belt 4 enters a fabric cutting working area.

When the knife belt 4 absorbed with the black iron chips and dust rotates to the fixed scrap removing device 2 in the knife mark stopping device, the tension springs 212 in the fixed scrap removing device 2 tension the two groups of connecting rod assemblies 211, so that the wool felt I24 and the wool felt II 25 are in better contact with the knife belt 4, and the wool felt I24 and the wool felt II 25 arranged in the fixed scrap removing device 2 wipe off a part of the black iron chips and dust on the knife belt 4. Because the rotating speed of the knife belt is very high, the magnetic black iron filings and the dust with static electricity are difficult to be completely removed from the knife belt 4, along with the continuous knife sharpening of the liftable knife sharpening mechanism 5, the black iron filings and the dust accumulated on the wool felt I24 and the wool felt II 25 are more and more, the wiping effect is poorer and poorer, and the wool felt I24 and the wool felt II 25 are required to be replaced and cleaned after a period of time.

When the vertical knife type high-speed numerical control fabric cutting machine is started within 3 minutes before the machine is stopped, under the control of a numerical control system, the electromagnet 13 in the high-speed rotary scrap removing device 1 is always in a power-off state, the spring 1214 in the movable rotary scrap removing mechanism 12 pushes the first support frame 126 and the second support frame 127 to move outwards, the second slide block 1212 of the first slide block 1211 is further caused to move outwards, meanwhile, the first linear bearing seat 122 and the second linear bearing seat 123 also move outwards, the movable rotary scrap removing mechanism 12 is further caused to be opened, and the two cylindrical brushes 121-1 and the knife belt 4 are in a non-contact state; at this time, under the control of the numerical control system, the motor 111 in the gear box transmission mechanism 11 does not rotate, and the cylindrical brush 121-1 does not rotate.

Within 3 minutes before the vertical knife type high-speed numerical control fabric cutting machine stops, under the control of a numerical control system, the electromagnet 13 in the high-speed rotation scrap removing device 1 is always in an electrified state, the electromagnet 13 magnetically attracts the connecting rod 1210 and pulls the connecting rod to move towards the electromagnet 13, the second slider 1212 of the first slider 1211 further moves towards the inner side, meanwhile, the first linear bearing seat 122 and the second linear bearing seat 123 also move towards the inner side, the movable rotation scrap removing mechanism 12 is further folded, and the two cylindrical brushes 121-1 are in a contact state with the knife belt 4; at the moment, under the control of a numerical control system, the motor 111 in the gear box transmission mechanism 11 rotates at a high speed, and the two cylindrical brushes 121-1 rotate at a high speed; the cylindrical brush 121-1 rotating at a high speed sweeps away the black iron filings and dust adsorbed on the blade belt 4, the swept away black iron filings and dust are scattered in the impurity collecting box 1216, the impurity collecting box is used for collecting the black iron filings and dust brushed off from the blade belt, and the black iron filings and dust in the impurity collecting box are finally sucked away by the air pump.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (6)

1. A tool stopping mark removing device for a vertical-tool high-speed numerical control fabric cutting machine is characterized by comprising a high-speed rotating chip removing device (1), a fixed chip removing device (2), a supporting beam (3) and a tool belt (4); the lower ends of the high-speed rotating scrap removing device (1) and the fixed scrap removing device (2) are fixed on the supporting beam (3), the cutter belt (4) penetrates through the upper ends of the high-speed rotating scrap removing device (1) and the fixed scrap removing device (2), scrap iron and dust on the cutter belt are removed by the high-speed rotating scrap removing device (1) within three minutes before the fabric cutting machine stops, and scrap iron and dust on the cutter belt are removed by the fixed scrap removing device (2) in the whole working process of the fabric cutting machine; the high-speed rotating chip removing device (1) comprises a gear box transmission mechanism (11), a movable rotating chip removing mechanism (12), a magnetic suction control mechanism and a supporting bottom plate (15), wherein the gear box transmission mechanism (11) is connected with the movable rotating chip removing mechanism (12) to provide power for rotating chip removing, the gear box transmission mechanism and the movable rotating chip removing mechanism are both fixed on the supporting bottom plate (15), and the magnetic suction control mechanism is arranged below the movable rotating chip removing mechanism (12) and used for controlling the chip removing mechanism to be separated and folded; the fixed scrap removing device (2) comprises at least two supporting and clamping components (21), a first wool felt housing (22) and a second wool felt housing (23) are arranged on the inner side of each supporting and clamping component (21), and a first wool felt (24) and a second wool felt (25) are respectively arranged on opposite surfaces of the first wool felt housing (22) and the second wool felt housing (23).

2. The tool mark removing device for the vertical knife type high-speed numerical control fabric cutting machine is characterized in that the gear box transmission mechanism (11) comprises a motor (111), a gear box (118), a gear box input shaft (116) and a gear box output shaft (117) which are arranged on a motor support (112), the motor support (112) and the gear box (118) are respectively fixed on a support base plate (15), a synchronous pulley I (113) is connected to the output shaft of the motor (111), a synchronous pulley II (115) is connected to the outer side of the gear box input shaft (116), the synchronous pulley I (113) and the synchronous pulley II (115) are in transmission connection through a synchronous belt (114), the gear box input shaft (116) and the gear box output shaft (117) are rotatably arranged in the gear box (118), a gear I (119) and a gear II (1110) are respectively arranged on the gear box input shaft (116) and the gear box output shaft (117) and positioned in the gear box (118), the first gear (119) is meshed with the second gear (1110), and a first universal coupling (1111) and a second universal coupling (1112) with the same specification are respectively connected to the inner side ends of the gearbox input shaft (116) and the gearbox output shaft (117).

3. The device for removing the tool marks of the vertical-blade high-speed numerical control fabric cutting machine as claimed in claim 2, wherein the movable rotary chip removing mechanism (12) comprises a cylindrical brush assembly and an impurity collecting assembly arranged below the cylindrical brush assembly, the cylindrical brush assembly comprises two cylindrical brushes (121-1), each cylindrical brush (121-1) is fixed on a cylindrical brush supporting rod (121-2), the inner side end of one cylindrical brush supporting rod (121-2) is connected with a first universal coupling (1111), the inner side end of the other cylindrical brush supporting rod (121-2) is connected with a second universal coupling (1112), a protective cover (121-3) and a protective cover baffle (121-4) are arranged on the periphery of the cylindrical brush (121-1), and the cylindrical brush supporting rod (121-2) connected with the first universal coupling (1111) can be rotatably arranged on a first supporting rod support (121-5) and a supporting rod support (1112) A cylindrical brush supporting rod (121-2) in a second seat (121-6) and connected with a second universal coupling (1112) can be rotatably arranged in a third supporting rod support (121-7) and a fourth supporting rod support (121-8), the second supporting rod support (121-6) and the fourth supporting rod support (121-8) are respectively fixed on a first support short supporting frame (121-9) and a second support short supporting frame (121-10), a first supporting rod support (121-5) and a third supporting rod support (121-7) are respectively fixed on a first support long supporting frame (126) and a second support long supporting frame (127), the bottoms of the first support short supporting frame (121-9) and the second support short supporting frame (121-10) are respectively connected with a first linear bearing seat (122) and a second linear bearing seat (123), the first linear bearing seat (122) and the second linear bearing seat (123) can be movably arranged at two ends of a cylindrical rod (124), the two cylindrical rod supports (125) are arranged in the middle of the cylindrical rod (124) and used for fixing the cylindrical rod (124); the impurity collecting assembly comprises an impurity collecting box (1216) arranged between two cylindrical brushes (121-1), the lower end of the impurity collecting box (1216) is fixed on the supporting bottom plate (15) through bolt connection, and the impurity collecting box (1216) is connected with an air pump.

4. The device for removing the tool stopping mark for the vertical knife type high-speed numerical control fabric cutting machine according to claim 3, wherein the magnetic control mechanism comprises an electromagnet (13) fixed on an electromagnet support (14), the electromagnet support (14) is fixed on a support base plate (15), a support long support frame I (126) is fixed on a slide block I (1211), a support long support frame II (127) is fixed on a slide block II (1212), and the slide block I (1211) and the slide block II (1212) can be movably arranged at two ends of a guide rail (1213); the first pull rod (128) and the second pull rod (129) are respectively rotatably arranged on opposite side surfaces of the first support frame (126) and the second support frame (127), and the connecting rod (1210) is connected with the first pull rod (128) and the second pull rod (129); the connecting rod (1210) is magnetically connected with the electromagnet (13), a spring (1214) is arranged between the first support frame (126) and the second support frame (127), a telescopic spring supporting rod (1215) is arranged in the spring (1214), and the gear box transmission mechanism (11) and the electromagnet (13) are controlled by a numerical control system.

5. The tool stopping mark removing device for the vertical knife type high-speed numerical control fabric cutting machine is characterized in that the supporting and clamping assembly (21) comprises two groups of connecting rod assemblies (211), tension springs (212) and a connecting bottom plate (213) which are oppositely arranged; two sets of link assemblies (211) are connected with connecting bottom plate (213) symmetrically, connecting bottom plate (213) are fixed on supporting beam (3), and extension spring (212) is arranged between two sets of link assemblies (211).

6. The tool stopping mark removing device for the vertical knife type high-speed numerical control fabric cutting machine according to claim 5, wherein the connecting rod assembly (211) comprises a housing supporting rod (211-1), a connecting rod (211-2) and a clamping connecting rod (211-3); the encloser supporting rod (211-1) is connected with the connecting rod (211-2), and the connecting rod (211-2) is connected with the clamping connecting rod (211-3); connecting holes matched with the connecting end parts of the first wool felt housing (22) and the second wool felt housing (23) are respectively formed in the two sides of the first wool felt housing (22) and the second wool felt housing (23), and the housing supporting rods (211-1) penetrate through the connecting holes in the corresponding positions to be respectively connected with the first wool felt housing (22) and the second wool felt housing (23).

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