CN209907080U - Safety belt cutting and positioning integrated machine - Google Patents

Abstract

A safety belt cutting and positioning integrated machine comprises a machine frame, a safety belt feeding mechanism, a cutting mechanism, a pulling mechanism, a point drawing mechanism and a discharging mechanism; the safety belt feeding mechanism is arranged at the right end of the rack and is used for continuously conveying the belt to be cut to the cutting mechanism; the pulling mechanism is positioned at the left side of the safety belt feeding mechanism and is arranged on the rack, and the belt conveyed by the safety belt feeding mechanism can be continuously pulled leftwards according to the preset length; the point drawing mechanism is positioned above the material pulling mechanism and used for drawing points and marking the preset part of the pulled belt; the cutting mechanism is arranged on the rack, is positioned between the safety belt feeding mechanism and the pulling mechanism and is used for cutting the belt after the points are drawn; the discharging mechanism is arranged on the rack, is positioned below the pulling mechanism and is used for conveying the cut belt to a preset position. The utility model discloses can cut and draw the mark to a whole safety belt automatically to save a large amount of manual works, improve production efficiency.

Description

Safety belt cutting and positioning integrated machine

Technical Field

The utility model relates to a safety belt processing field, the more specifically says, is a safety belt cuts location all-in-one.

Background

As is known, the safety belt is a belt used for ensuring safety when a user rides an airplane, works aloft or performs skills, and the main raw materials of the safety belt are terylene, polypropylene and nylon. The safety belt does not refer to the webbing alone, but the safety belt is assembled with other parts (such as a hook, a buckle, etc., which are assembled at a later stage) in addition to the webbing.

After the whole belt is produced, the whole belt needs to be cut and sewn in order to manufacture the safety belt suitable for the requirements of a human body. In the cutting process, in order to facilitate people to sew the cut safety belt, marks are usually drawn on the corresponding positions of the safety belt. At present, most manufacturers manually cut and mark the whole safety belt (manually mark the stroke points), so that the production efficiency is very low, and therefore, an automatic device must be developed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a safety belt cuts location all-in-one, can cut and draw the mark to whole safety belt automatically to save a large amount of manual works, improve production efficiency.

The technical solution of the utility model is to provide a safety belt cutting and positioning integrated machine with the following structure, which comprises a frame, a safety belt feeding mechanism, a cutting mechanism, a pulling mechanism, a point drawing mechanism and a discharging mechanism; the safety belt feeding mechanism is arranged at the right end of the rack and is used for continuously conveying the belt to be cut to the cutting mechanism; the pulling mechanism is positioned at the left side of the safety belt feeding mechanism and is arranged on the rack, and the belt conveyed by the safety belt feeding mechanism can be continuously pulled leftwards according to the preset length; the point drawing mechanism is positioned above the material pulling mechanism and used for drawing points and marking the preset part of the pulled belt; the cutting mechanism is arranged on the rack, is positioned between the safety belt feeding mechanism and the pulling mechanism and is used for cutting the belt after the points are drawn; the discharging mechanism is arranged on the rack, is positioned below the pulling mechanism and is used for conveying the cut belt to a preset position.

The utility model discloses a safety belt cuts location all-in-one, wherein, safety belt feeding mechanism includes feeding wheel, feeding motor I, feeding motor II, action wheel, from the driving wheel, supports and presses the cylinder, exhibition flat frame, top board and holding down plate, feeding wheel and feeding motor I pass through the support mounting at the frame right-hand member, and feeding motor I is connected with the feeding wheel through the belt, feeding motor II, action wheel, from driving wheel and support and press the cylinder all to be located the support left side, and install in the frame, feeding motor II's pivot is connected with the action wheel, support and press the cylinder and be used for pushing up driven wheel on the action wheel, exhibition flat frame is installed in the frame, and is located the right side of cutting mechanism, the exhibition flat pole that sets up a plurality of fore-and-aft directions is installed from right side to left side on the exhibition flat frame in proper order, top board and holding down plate are located between cutting, the upper pressing plate is arranged right above the lower pressing plate through an adjusting screw rod, and the adjusting screw rod is used for adjusting the distance between the upper pressing plate and the lower pressing plate.

Safety belt cut location all-in-one, wherein, cut the mechanism and include cutter, cutter backing plate, vertical guide arm, vertical top band board and cut the cylinder, vertical top band board and the equal fore-and-aft direction setting of cutter, vertical top band board are located the left side of upper and lower clamp plate, and install the middle part at vertical guide arm, the cutter is installed at the top of vertical guide arm, is equipped with the heating tube in the cutter, the cutter backing plate is located the cutter under, and fixed mounting is in the frame, but vertical guide arm is installed in the frame with sliding from top to bottom, cut cylinder fixed mounting in the frame, the piston rod that cuts the cylinder is connected with the bottom of vertical guide arm.

The utility model discloses a safety belt cutting and positioning integrated machine, wherein, the drawing mechanism comprises an upper clamp plate, a lower clamp plate, a clamping cylinder, a sliding plate, a sliding seat, a sliding rail component I, a rack, a gear and a drawing servo motor, wherein the sliding rail component I and the rack are arranged in the left and right directions, the sliding rail component I is arranged between the sliding seat and a frame for the sliding seat to slide along the left and right directions of the frame, the drawing servo motor is fixedly arranged on the sliding seat, the gear is arranged on the rotating shaft of the drawing servo motor, the gear is meshed with the rack, the rear part of the sliding plate is fixedly arranged on the sliding seat, the lower clamp plate is fixedly arranged at the right end of the sliding plate, the upper clamp plate is positioned right above the lower clamp plate, the rear part of the upper clamp plate is hinged on the sliding plate, the left end of a cylinder body of the clamping cylinder is hinged on the sliding plate, the right end, the clamping of the belt is realized.

Safety belt cut location all-in-one, wherein, drawing point mechanism includes drawing point cylinder, drawing point base, drawing point seat, marker pen and is used for supplying marker pen top quick male quick-operation joint, marker pen's nib down, quick-operation joint installs on drawing point seat, drawing point seat passes through slide rail set II and can installs on drawing point base with sliding from top to bottom, drawing point cylinder's cylinder body fixed mounting is at drawing point base top, drawing point cylinder's piston rod bottom fixed mounting is on drawing point seat.

Safety belt cut location all-in-one, wherein, install at buffer between quick-operation joint and the drawing point seat.

Safety belt cut location all-in-one, wherein, buffer includes sleeve, slide bar and piston, the vertical setting of sleeve, top fixed mounting are on the drawing point seat, the piston is arranged in the sleeve inner chamber to can follow telescopic axis direction and freely slide from top to bottom, the upper portion of slide bar is arranged in the sleeve inner chamber, top and piston fixed connection, the bottom of slide bar is worn out back and quick-operation joint fixed connection from the sleeve lower part.

Safety belt cut location all-in-one, wherein, draw some bases and pass through slide rail set spare III and section bar and install in the frame, slide rail set spare III and section bar are all controlled the horizontal direction setting, draw some bases and be equipped with and be used for the tight set screw on the section bar in top.

Safety belt cut location all-in-one, wherein, discharge mechanism includes horizontal support plate, support cylinder and stock chest, the top surface of horizontal support plate pastes and leans on the bottom surface at the slide, and the rear side of horizontal support plate is articulated with the frame, support cylinder is located the bottom of horizontal support plate, and support cylinder's cylinder body bottom is articulated with the frame, and support cylinder's piston rod top is articulated with horizontal support plate, the stock chest is located the below of horizontal support plate, and fixed mounting in the frame, when the front portion of horizontal support plate swung down under support cylinder's drive, cut and the safety belt after the drawing point just falls into the stock chest.

After the structure more than adopting, compared with the prior art, the utility model discloses the safety belt cuts location all-in-one and has following advantage: during operation, a belt to be cut and painted is conveyed to the cutting mechanism by the safety belt feeding mechanism, then the pulling mechanism acts to pull the belt to a set length leftwards, the painting mechanism moves downwards to mark a pre-sewing part point of the belt, then the cutting mechanism cuts the belt with painted points, and finally the discharging mechanism conveys the cut belt to a preset position; the process is repeated to realize the continuous cutting and point drawing operation of the belt. Obviously, the utility model discloses this kind of automatic operation flow cuts and the drawing mark is compared through the artifical belt of accomplishing whole piece production one by one with prior art, has saved a large amount of manual works, has improved the efficiency of production greatly, has practiced thrift manufacturing cost.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of the seat belt cutting and positioning integrated machine of the present invention;

fig. 2 is an enlarged perspective view of the belt feeding mechanism of fig. 1;

fig. 3 is a perspective enlarged view of the cutting mechanism of fig. 1;

FIG. 4 is a rear perspective enlarged structural view of the pulling mechanism in FIG. 1;

FIG. 5 is an enlarged perspective view of the discharge mechanism of FIG. 1;

fig. 6 is a schematic perspective view of the dot mechanism of fig. 1.

Detailed Description

The seat belt cutting and positioning integrated machine of the present invention is further described in detail with reference to the accompanying drawings and the following detailed description:

as shown in fig. 1, in the present embodiment, the utility model discloses a safety belt cutting and positioning integrated machine includes a frame 10, a safety belt feeding mechanism 20, a cutting mechanism 30, a pulling mechanism 40, a point drawing mechanism 60 and a discharging mechanism 50.

The safety belt feeding mechanism 20 is arranged at the right end of the frame 10 and is used for continuously conveying the belt to be cut to the cutting mechanism 30; the pulling mechanism 40 is positioned at the left side of the safety belt feeding mechanism 20, is installed on the frame 10, and can continuously pull the belt conveyed by the safety belt feeding mechanism 20 to the left according to a preset length; the point drawing mechanism 60 is positioned above the material pulling mechanism 40 and is used for drawing points and marking the preset part of the pulled belt; the cutting mechanism 30 is installed on the frame 10, is positioned between the safety belt feeding mechanism 20 and the pulling mechanism 40, and is used for cutting the belt after point drawing; the discharging mechanism 50 is installed on the frame 10 and located below the pulling mechanism 40, and is used for conveying the cut belt to a predetermined position.

Referring to fig. 2, the belt feeding mechanism 20 includes a feeding wheel 201, a feeding motor i 202, a feeding motor ii 205, a driving wheel 204, a driven wheel 206, a pressing cylinder 207, a flattening frame 209, an upper pressing plate 211, and a lower pressing plate 212. The feeding wheel 201 and the feeding motor I202 are arranged at the right end of the rack 10 through a bracket 203, and the feeding motor I202 is connected with the feeding wheel 201 through a belt and used for driving the feeding wheel 201 to rotate; the feeding motor II 205, the driving wheel 204, the driven wheel 206 and the pressing cylinder 207 are all positioned on the left side of the bracket 203 and are arranged on the frame 10; a rotating shaft of the feeding motor II 205 is connected with the driving wheel 204 and is used for driving the driving wheel 204 to rotate; the pressing cylinder 207 is used for pressing the driven wheel 206 against the driving wheel 204, and when a belt to be cut passes through between the driving wheel 204 and the driven wheel 206, the belt can be continuously conveyed downwards through the mutual matching of the driving wheel 204 and the driven wheel 206; the flattening frame 209 is installed on the frame 10 and located at the right side of the cutting mechanism 30; a plurality of flattening rods 208 arranged in the front-back direction are sequentially arranged on the flattening frame 209 from right to left, and when the belt is threaded and wound from the plurality of flattening rods 208 from right to left, the belt can be prevented from being folded in the conveying process; the upper pressing plate 211 and the lower pressing plate 212 are positioned between the cutting mechanism 30 and the flattening frame 209, the upper pressing plate 211 is installed right above the lower pressing plate 212 through an adjusting screw 210, and the adjusting screw 210 is used for adjusting the distance between the upper pressing plate 211 and the lower pressing plate 212; when the belt to be cut passes through the space between the upper pressing plate 211 and the lower pressing plate 212, a certain clamping force can be applied to the belt by screwing the adjusting screw 210, so that the head of the belt is prevented from automatically retracting and withdrawing to the right after the cutting mechanism 30 cuts the belt.

Referring to fig. 3, the cutting mechanism 30 includes a cutter 301, a cutter backing plate 304, a vertical guide rod 303, a vertical top belt plate 305, and a cutting cylinder 306. The vertical top belt plate 305 and the cutter 301 are arranged in the front-back direction, the vertical top belt plate 305 is positioned on the left side of the upper pressing plate and the left side of the lower pressing plate, is installed in the middle of the vertical guide rod 303, and moves up and down synchronously along with the vertical guide rod 303; when the vertical belt jacking plate 305 moves upwards, the vertical belt jacking plate is used for jacking up the head of the cut belt upwards to prevent the head of the cut belt from being bonded on the cutter backing plate 304, so that the clamping of the pulling mechanism 40 is facilitated; the cutter 301 is arranged at the top of the vertical guide rod 303, and a heating tube 302 is arranged in the cutter 301 and used for heating the cutter 301 so as to cut off the belt conveniently; the cutter backing plate 304 is positioned right below the cutter 301 and is fixedly arranged on the rack 10; vertical guide rod 303 can be installed on frame 10 with sliding from top to bottom, and the cylinder body fixed mounting of cutting cylinder 306 is on frame 10, and the piston rod of cutting cylinder 306 is connected with the bottom of vertical guide rod 303 for order about cutter 301 up-and-down motion, the realization is to the cutting of belt.

Referring to fig. 4, the material pulling mechanism 40 includes an upper clamping plate 401, a lower clamping plate 409, a material clamping cylinder 402, a sliding plate 403, a sliding base 407, a sliding rail assembly i 405, a rack 406, a gear and a material pulling servo motor 408. The sliding rail assembly I405 and the rack 406 are arranged in the left-right direction, and the sliding rail assembly I405 is installed between the sliding seat 407 and the rack 10, so that the sliding seat 407 can slide in the left-right direction of the rack 10; the sliding rail assembly I405 is a commercially available product and comprises a sliding sleeve and a rail, wherein the sliding sleeve is fixedly connected with a sliding seat 407, and the rail is fixedly connected with a rack 10; the material pulling servo motor 408 is fixedly arranged on the sliding seat 407, a gear is arranged on a rotating shaft of the sliding seat, and the gear is meshed with the rack 406; the rear part of the sliding plate 403 is fixedly arranged on the sliding seat 407, the lower clamping plate 409 is fixedly arranged at the right end of the sliding plate 403, the upper clamping plate 401 is positioned right above the lower clamping plate 409, and the rear part is hinged on the sliding plate 403; the left end of the cylinder body of the material clamping cylinder 402 is hinged to the sliding plate 403, and the right end of the piston rod of the material clamping cylinder 402 is hinged to the left end of the upper clamping plate 401 and used for driving the upper clamping plate 401 and the lower clamping plate 409 to be opened and closed, so that a belt is clamped.

Referring to fig. 6, the pointing mechanism 60 includes a pointing cylinder 601, a pointing base 602, a pointing pad 603, a marker 607, and a quick connector 606 for quick insertion of the tip of the marker 607. The marking pen 607 is a common marking pen, belongs to a commercial product, and is arranged with the pen head downward after being arranged on the quick connector 606; the quick connector 606 is mounted on the drawing point seat 603, is also a product of the conventional technology, and only needs to clamp the marking pen 607; the drawing point seat 603 is installed on the drawing point base 602 in a manner of sliding up and down through a sliding rail assembly II 610, and the sliding rail assembly II 610 is also a commercially available product; the cylinder body of the drawing point cylinder 601 is fixedly arranged at the top of the drawing point base 602, and the bottom of the piston rod of the drawing point cylinder 601 is fixedly arranged on the drawing point base 603 and used for moving the drawing point base 603 up and down.

In order to prevent the impact to marker 607 when drawing a point, the utility model discloses install at buffer between quick-operation joint 606 and drawing a point seat 603, this buffer includes sleeve 604, slide bar 605 and piston, the vertical setting of sleeve 604, top fixed mounting is on drawing a point seat 603, the piston is located sleeve 604 inner chamber, and can follow the free up-and-down slip of axis direction of sleeve 604, the upper portion of slide bar 605 is located sleeve 604 inner chamber, the top and the piston fixed connection of slide bar 605, the bottom of slide bar 605 is worn out the back from sleeve 604 lower part and is connected with quick-operation joint 606 fixed connection. Thus, when the marker 607 touches the tape for dot marking, even if the piston rod of the dot cylinder 601 continues to move downwards, the piston at the top of the sliding rod 605 only slides upwards in the sleeve 604, and no pressure is applied to the tip of the marker 607, thereby playing a role of buffering and preventing the marker 607 from being damaged due to large pressure.

The drawing point base 602 is installed on the machine frame 10 through a sliding rail assembly III 608 and a section bar 609, wherein the sliding rail assembly III 608 and the section bar 609 are commercially available products and are arranged in the left-right horizontal direction; the section 609 is fixedly installed on the machine frame 10, a track in the sliding rail assembly III 608 is fixedly installed on the section 609, and a sliding sleeve in the sliding rail assembly III 608 is fixedly connected with the drawing point base 602; the dotting base 602 is provided with a set screw 611 for abutting against the profile 609. After the positioning screw 611 is loosened, the left and right directions of the positioning screw can be adjusted by pushing the animation point mechanism 60 so as to adapt to the drawing point marks of different parts of the belt, and the universality is improved; after the position adjustment is completed, the positioning screw 611 is screwed down again to fix the position, so that the influence on the precision caused by the self-left-right sliding during the work is avoided.

Referring to fig. 5, the discharging mechanism 50 includes a lateral support plate 501, a support cylinder 502, and a storage tank 503. The top surface of the transverse supporting plate 501 abuts against the bottom surface of the slide plate 403; the rear side of the transverse supporting plate 501 is hinged with the frame 10; the supporting cylinder 502 is positioned at the bottom of the transverse supporting plate 501, the bottom of the cylinder body of the supporting cylinder 502 is hinged with the frame 10, and the top of the piston rod of the supporting cylinder 502 is hinged with the transverse supporting plate 501; the storage slot 503 is located below the transverse support plate 501 and is fixedly installed on the frame 10, and when the front portion of the transverse support plate 501 swings downwards under the driving of the support cylinder 502, the cut and painted safety belt just falls into the storage slot 503.

The utility model discloses the theory of operation of safety belt cutting location all-in-one as follows:

1. during operation, firstly, a belt to be cut is arranged on the feeding wheel 201, then the belt passes through the space between the driving wheel 204 and the driven wheel 206, then the head of the belt sequentially passes through the flattening rod 208 from right to left, and finally the head of the belt passes through the space between the upper pressing plate 211 and the lower pressing plate 212 to the left; the belt is prevented from automatically withdrawing rightwards by screwing the adjusting screw 210 to apply a certain clamping force to the belt; starting the feeding motor I202 and the feeding motor II 205 to realize the continuous leftward conveying of the belt;

2. the material pulling mechanism 40 acts, the right parts of the upper clamp plate 401 and the lower clamp plate 409 penetrate through the gap between the cutter 301 and the cutter backing plate 304, and the head of the belt is clamped by the material clamping cylinder 402; the pulling servo motor 408 works to move the sliding plate 403 to the left, so that the belt is pulled to the left to a set length;

3. the point drawing mechanism 60 moves downwards, the marking pen 607 is driven to draw marks to the pre-sewing part of the belt for sewing and positioning under the driving of the point drawing cylinder 601, and then the point drawing mechanism 60 is reset;

4. the cutting cylinder 306 acts to drive the cutter 301 to move downwards to cut the tape with the painted dots, and then the tape is reset; because the vertical top belt plate 305 and the cutter 301 synchronously move up and down, when the vertical top belt plate 305 ascends, the head of the belt is jacked up by the vertical top belt plate 305, the belt is prevented from being adhered to the cutter backing plate 304, and the belt is further conveniently clamped by the upper clamping plate 401 and the lower clamping plate 409 at the next time;

5. the piston rod of the supporting cylinder 502 retracts downwards, so that the front part of the transverse supporting plate 501 swings downwards, the tapes marked with the drawing points and cut automatically fall into the storage tank 503 under the action of gravity, and the tapes are conveyed to a preset position;

6. and repeating the steps 2-5 to realize the continuous point marking and cutting operation of the belt.

The above-mentioned embodiments are only described for the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and the technical solution of the present invention is not limited by the above-mentioned embodiments, and various modifications and improvements made by those skilled in the art can be made without departing from the spirit of the present invention.

Claims (9)

1. The utility model provides a safety belt cuts location all-in-one which characterized in that: comprises a frame (10), a safety belt feeding mechanism (20), a cutting mechanism (30), a pulling mechanism (40), a point drawing mechanism (60) and a discharging mechanism (50);

the safety belt feeding mechanism (20) is arranged at the right end of the rack (10) and is used for continuously conveying the belt to be cut to the cutting mechanism (30);

the pulling mechanism (40) is positioned at the left side of the safety belt feeding mechanism (20), is arranged on the rack (10), and can continuously pull the belt conveyed by the safety belt feeding mechanism (20) leftwards according to a preset length;

the point drawing mechanism (60) is positioned above the material pulling mechanism (40) and is used for drawing points and marking the preset part of the pulled belt;

the cutting mechanism (30) is arranged on the rack (10), is positioned between the safety belt feeding mechanism (20) and the pulling mechanism (40), and is used for cutting the belt after point drawing;

the discharging mechanism (50) is installed on the rack (10), is positioned below the pulling mechanism (40) and is used for conveying the cut belt to a preset position.

2. The seat belt cutting and positioning all-in-one machine as claimed in claim 1, characterized in that: the safety belt feeding mechanism (20) comprises a feeding wheel (201), a feeding motor I (202), a feeding motor II (205), a driving wheel (204), a driven wheel (206), a pressing cylinder (207), a flattening frame (209), an upper pressing plate (211) and a lower pressing plate (212), wherein the feeding wheel (201) and the feeding motor I (202) are installed at the right end of the rack (10) through a support (203), the feeding motor I (202) is connected with the feeding wheel (201) through a belt, the feeding motor II (205), the driving wheel (204), the driven wheel (206) and the pressing cylinder (207) are all located on the left side of the support (203) and installed on the rack (10), a rotating shaft of the feeding motor II (205) is connected with the driving wheel (204), the pressing cylinder (207) is used for pressing the driven wheel (206) against the driving wheel (204), the flattening frame (209) is installed on the rack (10), and be located the right side that cuts mechanism (30), the exhibition flat bar (208) that a plurality of fore-and-aft directions set up are installed from the right side left in proper order on exhibition flat frame (209), top board (211) and holding down plate (212) are located and cut between mechanism (30) and exhibition flat frame (209), and top board (211) are installed directly over holding down plate (212) through adjusting screw (210), and adjusting screw (210) are used for adjusting the interval between top board (211) and holding down plate (212).

3. The seat belt cutting and positioning all-in-one machine according to claim 2, characterized in that: cut mechanism (30) and include cutter (301), cutter backing plate (304), vertical guide arm (303), vertical top band board (305) and cut cylinder (306), vertical top band board (305) and the equal fore-and-aft direction setting of cutter (301), vertical top band board (305) are located the left side of upper and lower clamp plate, and install the middle part at vertical guide arm (303), install the top at vertical guide arm (303) cutter (301), are equipped with heating tube (302) in cutter (301), cutter backing plate (304) are located cutter (301) under, and fixed mounting is in frame (10), vertical guide arm (303) can be installed on frame (10) with sliding from top to bottom, cut cylinder (306) fixed mounting in frame (10), the piston rod that cuts cylinder (306) is connected with the bottom of vertical guide arm (303).

4. The seat belt cutting and positioning all-in-one machine according to claim 3, characterized in that: the material pulling mechanism (40) comprises an upper clamping plate (401), a lower clamping plate (409), a material clamping cylinder (402), a sliding plate (403), a sliding seat (407), a sliding rail assembly I (405), a rack (406), a gear and a material pulling servo motor (408), wherein the sliding rail assembly I (405) and the rack (406) are arranged in the left-right direction, the sliding rail assembly I (405) is installed between the sliding seat (407) and the rack (10) and used for the sliding seat (407) to slide in the left-right direction of the rack (10), the material pulling servo motor (408) is fixedly installed on the sliding seat (407), the gear is installed on a rotating shaft of the gear, the gear is meshed with the rack (406), the rear part of the sliding plate (403) is fixedly installed on the sliding seat (407), the lower clamping plate (409) is fixedly installed at the right end of the sliding plate (403), the upper clamping plate (401) is located right above the lower clamping plate (409), and the rear part of, the left end of the cylinder body of the material clamping cylinder (402) is hinged to the sliding plate (403), the right end of the piston rod of the material clamping cylinder (402) is hinged to the left end of the upper clamping plate (401) and used for driving the upper clamping plate (401) to be opened and closed with the right end of the lower clamping plate (409), and clamping of a belt is achieved.

5. The seat belt cutting and positioning all-in-one machine according to claim 4, characterized in that: drawing point mechanism (60) are including drawing point cylinder (601), drawing point base (602), drawing point seat (603), marker pen (607) and be used for supplying marker pen (607) top quick male quick-operation joint (606), and the nib of marker pen (607) is down, quick-operation joint (606) are installed on drawing point seat (603), drawing point seat (603) can install on drawing point base (602) through slide rail set II (610) with sliding from top to bottom, the cylinder body fixed mounting of drawing point cylinder (601) is at drawing point base (602) top, and the piston rod bottom fixed mounting of drawing point cylinder (601) is on drawing point seat (603).

6. The seat belt cutting and positioning all-in-one machine according to claim 5, characterized in that: and a buffer device is arranged between the quick connector (606) and the drawing point seat (603).

7. The seat belt cutting and positioning all-in-one machine according to claim 6, characterized in that: the buffering device comprises a sleeve (604), a sliding rod (605) and a piston, wherein the sleeve (604) is vertically arranged, the top of the sleeve (604) is fixedly installed on a drawing point seat (603), the piston is located in an inner cavity of the sleeve (604) and can freely slide up and down along the axis direction of the sleeve (604), the upper portion of the sliding rod (605) is located in the inner cavity of the sleeve (604), the top of the sliding rod is fixedly connected with the piston, and the bottom of the sliding rod (605) penetrates out of the lower portion of the sleeve (604) and then is fixedly connected with a quick connector (606).

8. The seat belt cutting and positioning all-in-one machine according to claim 7, characterized in that: the drawing point base (602) is installed on the rack (10) through a sliding rail assembly III (608) and a section bar (609), the sliding rail assembly III (608) and the section bar (609) are arranged in the left-right horizontal direction, and a positioning screw (611) used for being tightly pressed on the section bar (609) is installed on the drawing point base (602).

9. The seat belt cutting and positioning all-in-one machine according to claim 8, characterized in that: the discharging mechanism (50) comprises a transverse supporting plate (501), a supporting cylinder (502) and a storage trough (503), the top surface of the transverse supporting plate (501) is attached to the bottom surface of a sliding plate (403), the rear side of the transverse supporting plate (501) is hinged to a rack (10), the supporting cylinder (502) is located at the bottom of the transverse supporting plate (501), the bottom of the cylinder body of the supporting cylinder (502) is hinged to the rack (10), the top of the piston rod of the supporting cylinder (502) is hinged to the transverse supporting plate (501), the storage trough (503) is located below the transverse supporting plate (501) and is fixedly mounted on the rack (10), and when the front portion of the transverse supporting plate (501) swings downwards under the driving of the supporting cylinder (502), a cut safety belt with a point drawn just falls into the storage trough (503).

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