CN213263041U - Automatic heat-sealing packaging machine for braid - Google Patents

Abstract

The utility model discloses a braid automatic heat sealing packaging machine, which relates to the technical field of braiders and comprises a workbench, wherein a carrier tape outlet wheel component and a carrier tape take-up wheel component are arranged at two ends of the top of the workbench, a PLC controller is arranged at one side of the top of the workbench, a guide seat is arranged at the middle position of the top of the workbench, a heat sealing component is arranged at the top of one end of the guide seat, a feeding component is arranged at the middle position of the guide seat, and a cover belt wheel is arranged at one side of the guide seat; the guide seat comprises a double-channel base and guide wheel assemblies, and the guide wheel assemblies are arranged at the tops of two ends of the double-channel base; the material taking speed can be improved, and the working efficiency of the braider is indirectly improved; the two braids can be simultaneously subjected to feeding, heat-sealing and packaging, so that the working efficiency of the braider is further improved; simultaneously, this braider can make the inseparable contact of cover tape and carrier band when heat-seal packing part, improves the heat-seal effect.

Description

Automatic heat-sealing packaging machine for braid

Technical Field

The utility model relates to a braider technical field specifically says to an automatic heat sealing packaging machine of braid.

Background

The braider can be divided into a semi-automatic type and a full-automatic type, bulk component products are put into a carrier tape after passing through stations such as detection, reversing and testing, and then collected after being packaged by hot packets.

However, analysis shows that the existing rotary disc braider takes materials by using the rotary disc, so that the material taking speed is slow, the working efficiency of the braider is reduced, and the existing braider only can feed one braid when working, so that the working efficiency of the braider is further reduced; meanwhile, when the braider is used for heat-sealing and packaging parts, the cover tape is difficult to contact with the carrier tape, and the heat-sealing effect is poor.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned deficiencies, the utility model provides an automatic heat sealing and packaging machine for braids, which not only can improve the material taking speed, but also indirectly improve the working efficiency of the braider; the two braids can be simultaneously subjected to feeding, heat-sealing and packaging, so that the working efficiency of the braider is further improved; simultaneously, this braider can make the inseparable contact of cover tape and carrier band when heat-seal packing part, improves the heat-seal effect.

The utility model discloses a realize like this, construct a braid automatic heat sealing packagine machine, including the workstation, workstation top both ends are installed and are had carrier tape outlet wheel subassembly and carrier tape take-up wheel subassembly, and workstation top one side is installed the PLC controller, and workstation top intermediate position is equipped with the guide holder, and the heat-seal subassembly is installed at guide holder one end top, and the guide holder is by the middle part position installation material loading subassembly, and guide holder one side is installed and is covered the band pulley; the guide seat comprises a double-channel base and guide wheel assemblies, and the guide wheel assemblies are arranged at the tops of two ends of the double-channel base; the heat-sealing assembly comprises a heat-sealing cavity, a guide inclined way, a heating block and an extrusion roller, wherein the guide inclined way is arranged at one end of the heat-sealing cavity; the feeding assembly comprises a feeding channel, a driving motor, a moving assembly, a discharging barrel and a laser sensor, the feeding channel is arranged at the bottom of one side of the feeding assembly, the driving motor is installed inside the feeding assembly and leans on the middle position, one end of the moving assembly is fixedly connected to one end of the driving motor, one end of the discharging barrel inside the feeding assembly is arranged, and the laser sensor is installed on the top end inside the feeding assembly and is right opposite to the top of the double-channel base.

Furthermore, two guide rail grooves are formed in the top of the double-channel base; the guide wheel assembly comprises two support plates and a rubber roller, the bottoms of the two support plates are fixedly connected to the surface of the workbench, and two ends of the rubber roller are respectively arranged at the tops of one sides of the two support plates through bearings; the rubber roller is slightly higher than the double-channel base, and one end of a carrier tape wound by the carrier tape outlet wheel assembly penetrates through the bottom of the rubber roller and can be effectively limited at the top of the guide rail groove through the limitation of the rubber roller.

Further, the material moving assembly comprises a rotating rod, an air pressure telescopic rod and an air pressure material suction pipe, the air pressure telescopic rod is installed at the bottom of one end of the rotating rod, and the air pressure material suction pipe is installed at the bottom of the air pressure telescopic rod; the air pressure suction pipe and the air pressure telescopic rod are controlled by an external air pressure system, the external air pressure system is controlled by a PLC (programmable logic controller), meanwhile, a driving motor is controlled by the PLC, an external power supply of the driving motor is switched on, the driving motor operates to drive the rotating rod to horizontally rotate, the rotating rod rotates to drive the air pressure telescopic rod and the air pressure suction pipe to rotate until the air pressure telescopic rod and the air pressure suction pipe rotate to the top of the other side of the supporting plate, then the PLC controls the external air pressure system to enable the air pressure telescopic rod to extend out to drive the air pressure suction pipe to descend for a certain length to be contacted with flat parts to be packaged, then the PLC controls the external air pressure system to enable the external air pressure system to pump out air in the air pressure suction pipe, suction is generated by the air pressure suction pipe to suck the parts, and then the PLC controls the driving motor to operate to rotate to, the rotating rod drives the air pressure telescopic rod and the air pressure material suction pipe to rotate after rotating, sucked parts are conveyed to the carrier belt at the top of the guide rail groove, then the PLC controls the external air pressure system to blow air, and the parts sucked by the air pressure material suction pipe are blown to the inner part of the groove of the carrier belt.

Further, the discharge cylinder comprises two discharge channels, a material supporting plate, an air pressure telescopic rod A, a laser sensor A and a material pushing block, wherein the two discharge channels are arranged at the top of the material supporting plate; laser sensor A and laser sensor receive PLC controller control, air pressure telescopic link A passes through outside atmospheric system control, and outside atmospheric system receives PLC controller control, at first make air pressure telescopic link A stretch out certain length and drive the ejector pad and release the part of discharging channel bottom through outside atmospheric system through PLC controller control outside atmospheric system, then air pressure telescopic link A resets through outside atmospheric system again, when laser sensor A detects the part, feed back the information that detects to PLC controller, then remove the part through PLC controller control driving motor and material moving assembly, after air pressure telescopic link A stretches out certain length and drives the ejector pad and release the part of discharging channel bottom, the inside part of discharging channel descends to the support flitch top because of gravity is automatic.

Furthermore, the structure principles of the cover belt wheel, the carrier tape wheel-out assembly and the carrier tape wheel-in assembly are consistent, the carrier tape wheel-out assembly comprises a support frame, a double-layer disc, a through hole and a brake motor, the brake motor is installed at the top of the support frame, one end of the brake motor penetrates through the top of the support frame through a bearing, the double-layer disc is installed on the penetrating part of the brake motor, and the through hole is formed in the double-layer disc in; the weight of the double-layer disc can be reduced through the through holes, the two carrier tapes or the cover tapes can be wound simultaneously through the double-layer disc, an external power supply of the brake motor is switched on, the double-layer disc can be driven to rotate through the operation of the brake motor, the carrier tapes are automatically collected or loosened, and the brake motor is controlled by the PLC.

The utility model discloses a concrete advantage embodies:

the method has the advantages that: the external power supply of a driving motor is switched on, the rotating rod is driven to horizontally rotate through the operation of the driving motor, the air pressure telescopic rod and the air pressure suction pipe are driven to rotate after the rotating rod rotates until the air pressure telescopic rod and the air pressure suction pipe rotate to the top of the other side of the material supporting plate, then the PLC controls an external air pressure system, the air pressure telescopic rod is controlled by the external air pressure system to extend out to drive the air pressure suction pipe to descend for a certain length to be contacted with flat parts to be packaged, then the external air pressure system is controlled by the PLC to pump out air in the air pressure suction pipe, the parts are sucked through the suction pipe, then the PLC controls the driving motor to operate and rotate to drive the rotating rod to horizontally rotate, the air pressure telescopic rod and the air pressure suction pipe are driven to rotate after the rotating rod rotates, and the sucked parts are sent to a carrying belt at, and then the PLC controller controls the external air pressure system to blow air, so that the parts sucked by the air pressure suction pipe are blown to the inner part of the groove of the carrier band, a rotary table is not used for taking materials, the material taking speed is improved, and the working efficiency of the braider is indirectly improved.

The method has the advantages that: two guide rail grooves are formed in the top of the double-channel base, and two braids can be guided through the two guide rail grooves at the same time; the carrier band wheel subassembly includes support frame, double-deck dish, through-hole and brake motor, can twine two carrier bands simultaneously through double-deck dish and carry out material loading heat-seal packing, the work efficiency of further improvement braider.

The method has the advantages that: when carrier band and cover tape move and get into inside the heat-seal chamber, squeeze the cover tape through the squeeze roll in the direction chute and contact the carrier band for the inseparable contact of cover tape and carrier band, then through along with the removal of carrier band and cover tape, remove to heating block bottom gradually, switch-on heating block external power source, produce high temperature through PLC controller control heating block and connect the cover band both sides at the carrier band top, with the automatic package of part inside the carrier band, improved the heat-seal effect.

Drawings

FIG. 1 is a schematic view of the structure of the automatic heat sealing and packaging machine for braids of the present invention;

FIG. 2 is a schematic view of the structure of the dual-channel base of the present invention;

FIG. 3 is a schematic structural view of the heat sealing assembly of the present invention;

fig. 4 is a schematic structural view of the feeding assembly of the present invention;

FIG. 5 is a cross-sectional view AA taken along the direction of the discharge cylinder A-A in FIG. 4 according to the present invention;

FIG. 6 is a front sectional view of the belt feeding passage of the present invention;

FIG. 7 is a schematic diagram of the structure of the supporting plate of the present invention;

fig. 8 is a schematic structural view of the material moving assembly of the present invention;

FIG. 9 is a schematic structural view of the belt-carrying wheel-out assembly of the present invention;

fig. 10 is a top view of the present invention carrier take-off wheel assembly.

The figure illustrates the format: the device comprises a workbench 1, a guide seat 2, a heat-sealing component 3, a feeding component 4, a cover belt wheel 5, a PLC 6, a carrier tape outlet wheel component 7, a carrier tape take-up wheel component 8, a double-channel base 21, a guide wheel component 22, a guide rail groove 211, a support plate 221, a rubber roller 222, a heat-sealing cavity 31, a guide chute 32, a heating block 33, an extrusion roller 34, a tape feeding channel 41, a driving motor 42, a material moving component 43, a material outlet cylinder 44, a laser sensor 45, a rotating rod 431, a pneumatic telescopic rod 432, a pneumatic suction pipe 433, a material outlet channel 441, a material supporting plate 442, a pneumatic telescopic rod A443, a laser sensor A444, a material pushing block 445, a support frame 71, a double-layer disc 72, a through hole 73.

Detailed Description

The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention; furthermore, the terms "first," "second," "third," "upper, lower, left, right," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model provides an automatic heat sealing packer of braid through the improvement, as shown in the attached drawing of the specification, can be implemented as follows; the automatic feeding device comprises a workbench 1, wherein two ends of the top of the workbench 1 are provided with a carrier tape outlet wheel assembly 7 and a carrier tape take-up wheel assembly 8, one side of the top of the workbench 1 is provided with a PLC (programmable logic controller) 6, the middle position of the top of the workbench 1 is provided with a guide seat 2, the top of one end of the guide seat 2 is provided with a heat-sealing assembly 3, the guide seat 2 is provided with a feeding assembly 4 close to the middle position, and one side of the guide seat 2 is provided with a; the guide seat 2 comprises a double-channel base 21 and a guide wheel assembly 22, and the guide wheel assembly 22 is arranged on the tops of two ends of the double-channel base 21; the heat-seal assembly 3 comprises a heat-seal cavity 31, a guide chute 32, a heating block 33 and a squeezing roller 34, wherein the guide chute 32 is arranged at one end of the heat-seal cavity 31, the heating block 33 is arranged at the middle position of the heat-seal cavity 31, and two ends of the squeezing roller 34 are arranged at two sides of the bottoms of the heat-seal cavity 31 and the guide chute 32 through bearings; the feeding assembly 4 comprises a belt feeding channel 41, a driving motor 42, a material moving assembly 43, a discharging barrel 44 and a laser sensor 45, the belt feeding channel 41 is arranged at the bottom of one side of the feeding assembly 4, the driving motor 42 is arranged inside the feeding assembly 4 and leans on the middle position, one end of the material moving assembly 43 is fixedly connected to one end of the driving motor 42, the discharging barrel 44 is arranged at one end inside the feeding assembly 4, and the laser sensor 45 is arranged at the top end inside the feeding assembly 4 and is right opposite to the top of the double-channel base 21.

More specifically, two guide rail grooves 211 are formed at the top of the double-channel base 21; the guide wheel assembly 22 comprises two support plates 221 and two rubber rollers 222, the bottoms of the two support plates 221 are fixedly connected to the surface of the workbench 1, and two ends of each rubber roller 222 are respectively arranged at the tops of one sides of the two support plates 221 through bearings; the rubber roller 222 is slightly higher than the double-track base 21, one end of the carrier tape wound by the carrier tape wheel-out component 7 passes through the bottom of the rubber roller 222, and then the carrier tape can be effectively limited at the top of the guide rail groove 211 through the limitation of the rubber roller 222.

More specifically, the material moving assembly 43 comprises a rotating rod 431, an air pressure telescopic rod 432 and an air pressure suction pipe 433, wherein the air pressure telescopic rod 432 is installed at the bottom of one end of the rotating rod 431, and the air pressure suction pipe 433 is installed at the bottom of the air pressure telescopic rod 432; the air pressure suction pipe 433 and the air pressure telescopic rod 432 are controlled by an external air pressure system, the external air pressure system is controlled by a PLC (programmable logic controller) 6, meanwhile, a driving motor 42 is controlled by the PLC 6, an external power supply of the driving motor 42 is connected, the rotating rod 431 is driven to horizontally rotate through the operation of the driving motor 42, the rotating rod 431 drives the air pressure telescopic rod 432 and the air pressure suction pipe 433 to rotate until the air pressure telescopic rod 432 and the air pressure suction pipe 433 rotate to the top of the other side of the material supporting plate 442, then, the PLC 6 controls the external air pressure system, so that the external air pressure system controls the air pressure telescopic rod 432 to extend out to drive the air pressure suction pipe 433 to descend for a certain length to be contacted with a flat part to be packaged, then, the PLC 6 controls the external air pressure system to draw out the air in the air pressure suction pipe 433, and the part is sucked by, then, the PLC 6 controls the driving motor 42 to operate and rotate to drive the rotating rod 431 to rotate horizontally, the rotating rod 431 drives the air pressure telescopic rod 432 and the air pressure suction pipe 433 to rotate after rotating, the sucked parts are sent to the carrier tape at the top of the guide rail groove 211, then the PLC 6 controls the external air pressure system to blow air, and the parts sucked by the air pressure suction pipe 433 are blown down to the inner part of the groove of the carrier tape.

More specifically, the discharging barrel 44 includes two discharging channels 441, a retainer plate 442, a pneumatic telescoping rod a443, a laser sensor a444 and a pusher block 445, the two discharging channels 441 are provided at the top of the retainer plate 442, the laser sensor a444 is mounted at one end of the retainer plate 442, the pneumatic telescoping rod a443 is mounted at one side of the top of the retainer plate 442, the pusher block 445 is mounted at one end of the pneumatic telescoping rod a443, and the pusher block 445 is supported by the retainer plate 442; the laser sensor A444 and the laser sensor 45 are controlled by the PLC 6, the air pressure telescopic rod A443 is controlled by an external air pressure system, the external air pressure system is controlled by the PLC 6, firstly, the air pressure telescopic rod A443 is made to extend out for a certain length to drive the material pushing block 445 to push out parts at the bottom of the material discharging channel 441, then, the air pressure telescopic rod A443 is reset by the external air pressure system, when the laser sensor A444 detects the parts, detected information is fed back to the PLC 6, then, the PLC 6 controls the driving motor 42 and the material moving assembly 43 to move the parts away, when the air pressure telescopic rod A443 extends for a certain length to drive the material pushing block 445 to push out the parts at the bottom of the material discharging channel 441, the parts in the material discharging channel 441 automatically descend to the top of the material supporting plate 442 due to gravity.

More specifically, the structure principle of the cover tape wheel 5, the carrier tape wheel-out assembly 7 and the carrier tape wheel-in assembly 8 are consistent, the carrier tape wheel-out assembly 7 comprises a support frame 71, a double-layer disc 72, a through hole 73 and a brake motor 74, the brake motor 74 is mounted at the top of the support frame 71, one end of the brake motor 74 penetrates through the top of the support frame 71 through a bearing, the double-layer disc 72 is mounted at the penetrating part of the brake motor 74, and the through hole 73 is formed in the double-; the weight of the double-layer disc 72 can be reduced through the through hole 73, two carrier tapes or cover tapes can be wound simultaneously through the double-layer disc 72, an external power supply of the brake motor 74 is switched on, the double-layer disc 72 can be driven to rotate to automatically collect or release the carrier tapes through the operation of the brake motor 74, and the brake motor 74 is controlled by the PLC 6.

The working principle of the automatic heat sealing and packaging machine for the braid is as follows: the worker firstly penetrates one end of the carrier tape in the carrier tape outlet wheel component 7 through the bottom of the rubber roller 222, then limits the carrier tape at the top of the guide rail groove 211 through the limiting of the rubber roller 222, then further penetrates the carrier tape of the rubber roller 222 and the guide rail groove 211 through the heat-sealing component 3 to be recovered through the carrier tape recovery wheel component 8, and then pulls out the cover tape in the cover tape wheel 5 to be connected to the carrier tape outside one end of the heat-sealing component 3;

then the PLC controller 6 controls the external air pressure system to make the air pressure telescopic rod A443 extend out for a certain length to drive the material pushing block 445 to push out the parts at the bottom of the discharging channel 441, then the air pressure telescopic rod A443 is reset through the external air pressure system, when the laser sensor A444 detects the parts, the detected information is fed back to the PLC controller 6, then the PLC controller 6 controls the driving motor 42 to operate to drive the rotating rod 431 to horizontally rotate, the rotating rod 431 rotates to drive the air pressure telescopic rod 432 and the air pressure suction pipe 433 to rotate until the air pressure telescopic rod 432 and the air pressure suction pipe 433 rotate to the top of the other side of the material supporting plate 442, then the PLC controller 6 controls the external air pressure system to make the air pressure telescopic rod 432 extend out to drive the air pressure suction pipe 433 to descend for a certain length to contact with the flat parts to be packaged, and then the PLC controller 6 controls the, so that the external air pressure system draws out the air inside the air pressure suction pipe 433, the air pressure suction pipe 433 sucks the parts by generating suction force, then the PLC 6 controls the driving motor 42 to operate and rotate to drive the rotating rod 431 to horizontally rotate, the rotating rod 431 rotates to drive the air pressure telescopic rod 432 and the air pressure suction pipe 433 to rotate, the sucked parts are sent to the carrier tape at the top of the guide rail groove 211, then the PLC 6 controls the external air pressure system to blow air, the parts sucked by the air pressure suction pipe 433 are blown down into the groove of the carrier tape, the PLC 6 controls the driving motor 42 to operate to drive the rotating rod 431 to horizontally rotate and reset, at the moment, the laser sensor 45 detects the parts at the top of the carrier tape, then the laser sensor 45 feeds detected information back to the PLC 6, and the PLC 6 controls the brake motor 74 in the carrier tape take-out wheel assembly 7 and the carrier tape take-up wheel assembly 8 to operate, the double-layer disc 72 in the carrier tape take-out wheel assembly 7 and the carrier tape take-up wheel assembly 8 is driven to rotate through the brake motor 74, so that the carrier tape take-out wheel assembly 7 loosens the carrier tape, the carrier tape take-up wheel assembly 8 draws the carrier tape, the carrier tape with the parts placed on the top is moved for a proper distance, the spare carrier tape groove is convenient to receive the parts, and meanwhile, the cover belt wheel 5 is operated through the brake motor 74 to loosen the cover tape to move along with the carrier tape;

when the carrier tape and the cover tape move into the heat-seal cavity 31, the cover tape is squeezed to contact the carrier tape through the squeezing roller 34 in the guide chute 32, then the cover tape gradually moves to the bottom of the heating block 33 along with the movement of the carrier tape and the cover tape, the external power supply of the heating block 33 is switched on, the PLC 6 controls the heating block 33 to generate high temperature, the two sides of the cover tape are connected to the top of the carrier tape, and parts are automatically packaged in the carrier tape;

it should be noted that the driving motor 42 and the braking motor 74 are 100W loosening motors, the cover tape is made of polypropylene film, the heating block 33 is an aluminum block, and the heating wire is installed inside, and the power switch and the temperature thereof are controlled by the PLC controller 6.

In conclusion; compared with the prior braider, the automatic heat sealing and packaging machine for braiders not only can improve the material taking speed, but also indirectly improves the working efficiency of the braider; the two braids can be simultaneously subjected to feeding, heat-sealing and packaging, so that the working efficiency of the braider is further improved; simultaneously, this braider can make the inseparable contact of cover tape and carrier band when heat-seal packing part, improves the heat-seal effect.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. The utility model provides a braid automatic heat seal packaging machine, includes workstation (1), its characterized in that: the carrier tape take-off assembly (7) and the carrier tape take-up assembly (8) are mounted at two ends of the top of the workbench (1), the PLC (programmable logic controller) is mounted on one side of the top of the workbench (1), the guide seat (2) is arranged in the middle of the top of the workbench (1), the heat-sealing assembly (3) is mounted at the top of one end of the guide seat (2), the feeding assembly (4) is mounted at the middle position of the guide seat (2), and the cover belt wheel (5) is mounted on one side of the guide seat (2); the guide seat (2) comprises a double-channel base (21) and a guide wheel assembly (22), and the guide wheel assembly (22) is arranged on the tops of two ends of the double-channel base (21); the heat-sealing assembly (3) comprises a heat-sealing cavity (31), a guide chute (32), a heating block (33) and an extrusion roller (34), wherein the guide chute (32) is arranged at one end of the heat-sealing cavity (31), the heating block (33) is arranged at the position close to the middle of the heat-sealing cavity (31), and two ends of the extrusion roller (34) are arranged at two sides of the bottoms of the heat-sealing cavity (31) and the guide chute (32) through bearings; feeding subassembly (4) including advancing band passageway (41), driving motor (42), move material subassembly (43), play feed cylinder (44) and laser sensor (45), it sets up in feeding subassembly (4) one side bottom to advance band passageway (41), driving motor (42) are installed and are leaned on the intermediate position in feeding subassembly (4) inside, move material subassembly (43) one end fixed connection in driving motor (42) one end, the inside one end of feeding subassembly (4) is located in play feed cylinder (44), laser sensor (45) are installed on the inside top of feeding subassembly (4), and just are just to double-track base (21) top.

2. The automatic heat seal packaging machine for braids according to claim 1, characterized in that: the top of the double-channel base (21) is provided with two guide rail grooves (211); the guide wheel assembly (22) comprises two support plates (221) and two rubber rollers (222), the bottoms of the two support plates (221) are fixedly connected to the surface of the workbench (1), and two ends of each rubber roller (222) are respectively installed on one side of the tops of the two support plates (221) through bearings.

3. The automatic heat seal packaging machine for braids according to claim 1, characterized in that: move material subassembly (43) and include dwang (431), air pressure telescopic link (432) and atmospheric pressure and inhale material pipe (433), air pressure telescopic link (432) install in dwang (431) one end bottom, air pressure is inhaled material pipe (433) and is installed in air pressure telescopic link (432) bottom.

4. The automatic heat seal packaging machine for braids according to claim 1, characterized in that: the discharge barrel (44) comprises two discharge channels (441), a material supporting plate (442), an air pressure telescopic rod A (443), a laser sensor A (444) and a material pushing block (445), wherein the two discharge channels (441) are arranged at the top of the material supporting plate (442), the laser sensor A (444) is installed at one end of the material supporting plate (442), the air pressure telescopic rod A (443) is installed at one side of the top of the material supporting plate (442), the material pushing block (445) is installed at one end of the air pressure telescopic rod A (443), and the material pushing block (445) is supported by the material supporting plate (442).

5. The automatic heat seal packaging machine for braids according to claim 1, characterized in that: the structure principle of the cover belt wheel (5), the carrying belt wheel-out component (7) and the carrying belt wheel-collecting component (8) is consistent, the carrying belt wheel-out component (7) comprises a support frame (71), a double-layer disc (72), a through hole (73) and a brake motor (74), and the brake motor (74) is installed on the support frame (71)

And one end of the brake motor (74) penetrates through the top of the support frame (71) through a bearing, the penetrating part of the brake motor is provided with the double-layer disc (72), and the through hole (73) is formed in the double-layer disc (72) in a penetrating mode.

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