CN211662675U - Carrier band forming machine - Google Patents

Abstract

The utility model relates to a carrier band make-up machine, including heating mechanism (1), extrusion mechanism (2), punching mechanism (3) and stretching strap mechanism (4), its characterized in that: the heating mechanism (1) heats the passing carrier tape to enable the carrier tape to be easy to deform; the extrusion forming mechanism (2) extrudes the heated carrier band to form a preset shape; the punching mechanism (3) punches the carrier band after extrusion forming; and the belt drawing mechanism (4) draws the punched carrier belt to a preset position. The utility model discloses realized the carrier band automated processing completely, with the ejection of compact, heat, extrusion, punch a hole, cut off and the rolling is all automatic going on, the human cost that has significantly reduced to very big improvement production efficiency.

Description

Carrier band forming machine

Technical Field

The utility model relates to a carrier band make-up machine.

Background

The carrier band forming machine is a machine for sequentially carrying out different treatment processes on a carrier band, and sequentially heating, forming, punching, pulling a band, shearing and rolling an unprocessed band body to obtain a final product,

the above processes are completed by special mechanisms, for example, heating requires a heating mechanism to heat the carrier tape, forming requires a forming mechanism to press and form the heated carrier tape, and punching requires a punching die to punch the formed carrier tape.

In order to ensure the quality of the carrier tape products, the positions of the mechanisms and the carrier tape need to be aligned to ensure the quality of the carrier tape products, and the heating mechanism, the forming mechanism and the punching mechanism cannot ensure that the position relation between the heating mechanism, the forming mechanism and the punching mechanism and the carrier tape meets the design requirements, so that the positions of the heating component, the forming die and the punching die and the carrier tape need to be adjusted to ensure the processing precision.

However, in the prior art, no special device is provided for adjusting the heating component, the forming die and the punching die in the transverse direction, the longitudinal direction, the angle and the upper and lower limit positions so as to meet the precision requirement.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a carrier band make-up machine, the technical problem of its solution is that prior art carrier band make-up machine does not have special device to heating parts, forming die and cut-out press horizontal regulation, vertical regulation, angle modulation and upper and lower spacing regulation in order to satisfy the required precision.

In order to solve the technical problem existing in the above, the utility model discloses a following scheme:

a carrier band forming machine comprises a heating mechanism (1), an extrusion forming mechanism (2), a punching mechanism (3) and a belt drawing mechanism (4), wherein the heating mechanism (1) heats a passing carrier band to enable the carrier band to be easy to deform; the extrusion forming mechanism (2) extrudes the heated carrier band to form a preset shape; the punching mechanism (3) punches the carrier band after extrusion forming; and the belt drawing mechanism (4) draws the punched carrier belt to a preset position.

Preferably, the heating plate of the heating mechanism (1) can be transversely adjusted, longitudinally adjusted, angle adjusted and adjusted in upper and lower limiting adjustment, so that the heating plate is aligned with the carrier tape, and the influence of an included angle formed by the heating plate and the carrier tape on the processing precision of the carrier tape is avoided.

Preferably, the unsmooth extrusion die of extrusion forming mechanism (2) can carry out one or more in vertical regulation, angle modulation and upper and lower spacing regulation for unsmooth extrusion die with the carrier band is aimed at, avoids unsmooth extrusion die with the carrier band forms the contained angle and influences the carrier band machining precision.

Preferably, the punching die of the punching mechanism (3) can be adjusted transversely, longitudinally, angularly and upper and lower spacing adjustment one or more of, make punching die and carrier band align, avoid punching die and carrier band form the contained angle and influence the carrier band machining precision.

Preferably, the carrier tape heating device further comprises a guide mechanism (5), and the guide mechanism (5) adjusts the carrier tape entering in any direction to be in a set direction, outputs the carrier tape and enters the heating mechanism (1).

Preferably, the carrier tape processing device further comprises a feeding and discharging rack (84) and a material conveying motor, wherein the unprocessed carrier tape is wound on the feeding and discharging rack (84), and the material conveying motor controls the feeding and discharging rack (84) to rotate so as to release the unprocessed carrier tape into the guide mechanism (5).

Preferably, the feeding device further comprises a first photoelectric sensing mechanism, the first photoelectric sensing mechanism detects the sagging position of the carrier tape between the feeding and discharging rack (84) and the guide mechanism (5), and when the first photoelectric sensing mechanism (7) detects the carrier tape, the carrier tape is released excessively, and the feeding motor stops working.

Preferably, a cutting structure (6) is arranged at the output carrier tape end of the tape drawing mechanism (4), and the cutting structure (6) can divide and segment the processed carrier tape.

Preferably, the carrier tape winding device further comprises a winding mechanism (85), the winding mechanism (85) is provided with a discharging and discharging frame (86), the processed carrier tape is wound on the discharging and discharging frame (86), and the winding mechanism (85) is driven by a discharging motor to drive the discharging and discharging frame (86) to rotate;

preferably, the device further comprises a photoelectric sensing mechanism, the photoelectric sensing mechanism detects the sagging position of the carrier tape between the discharging and discharging rack (86) and the cutting structure (6), and when the photoelectric sensing mechanism (7) detects the carrier tape, the released carrier tape is too much to be wound, and the discharging motor is started.

The carrier band forming machine has the following beneficial effects:

(1) the utility model discloses realized the carrier band automated processing completely, with the ejection of compact, heat, extrusion, punch a hole, cut off and the rolling is all automatic going on, the human cost that has significantly reduced to very big improvement production efficiency.

(2) The utility model discloses the mechanism of heating can realize heating the horizontal regulation of board, vertical regulation, angle modulation and upper and lower spacing regulation, and the regulation direction is many, ensures to realize that the machining precision is high.

(3) The utility model discloses extrusion mechanism can realize unsmooth forming die's vertical regulation, angle modulation and spacing regulation, and it is many to adjust the direction, ensures to realize that the machining precision is high.

(4) The utility model discloses the mechanism of punching a hole can realize cut-out press's horizontal adjustment, vertical regulation, angle modulation, and the regulation direction is many, therefore ensures that the machining precision is high.

(5) The utility model discloses stretching strap mechanism can realize the stable and reliable removal of carrier band through the cooperation of three cylinder, ensures the stability and the continuity of other each link.

(6) The utility model discloses thereby the guide slot interval satisfies different width carrier band processing demands about stretching strap mechanism can adjust.

Drawings

FIG. 1: the utility model discloses a three-dimensional schematic diagram of a belt carrier;

FIG. 2: the structure schematic diagram of the heating mechanism in the utility model;

FIG. 3: the structure schematic diagram of the extrusion forming mechanism in the utility model;

FIG. 4: the structure schematic diagram of the middle punching mechanism of the utility model;

FIG. 5: the utility model discloses well stretching strap mechanism's structural schematic.

Description of reference numerals:

1-a heating mechanism; 11-installing a heating plate; 111 — cooling holes; 12-lower heating plate; 121 — cooling holes; 13-a first upper cylinder; 14-a first lower cylinder; 15, mounting a heating fixing plate; 151-upper guide post; 152-upper cylinder connecting plate; 153-applying a hydraulic buffer; 16-lower heating fixing plate; 161-lower guide post; 162-lower cylinder connecting plate; 163-lower hydraulic shock absorber; 171-angle adjusting plate; 172-longitudinal linear adjustment plate; 173-lateral linear adjusting plate; 174-transverse linear slide; 175-connecting column; 176-upper cylinder fixing plate; 181 — first micrometer; 182-a second micrometer;

2-extrusion forming mechanism; 21-convex forming die; 211-convex forming die fixing plate; 22-a female forming die; 221-female forming die fixing plate; 23-a second upper cylinder; 231-second upper cylinder fixing plate; 232-connecting column; 233-cylinder rod; 24-a second lower cylinder; 241, guide pillars; 242 — a second lower cylinder connecting plate; 243-oil pressure buffer; 25-adjusting the angle of the mould; 251 — third micrometer; 26-longitudinal adjusting plate; 261-a fourth micrometer; 262-linear guide rail;

3, a punching mechanism; 31-a punching die; 32-a punching cylinder; 33-a support plate; 34-angle adjusting plate; 35-longitudinal adjusting plate; 36-lateral adjustment plate; 37-fifth micrometer; 38-sixth micrometer; 39-linear slide rail;

4, a belt drawing mechanism; 41-servo motor; 42-a linear sliding table module; 43 — a first cylinder; 44-a second cylinder; 441-a clamping block; 442-clamping the holder; 45-a third cylinder; 46-adjusting screw rod; 47-left channel guide; 48-right guide groove; 49-linear slide rail;

5, a guide mechanism; 6-a cutting structure; 7-photoelectric sensing mechanism; 8, a frame; 81-operating the control box; 82-barometer; 83-pressure regulating valve; 84-a feeding and discharging frame; 85, a winding mechanism; 86-discharging and discharging frame; 9-guide groove.

Detailed Description

The present invention will be further explained with reference to fig. 1 to 5:

as shown in fig. 1, a carrier tape forming machine comprises a heating mechanism 1, an extrusion forming mechanism 2, a punching mechanism 3 and a tape drawing mechanism 4, wherein the heating mechanism 1 heats a passing carrier tape to enable the carrier tape to be easily deformed; the extrusion forming mechanism 2 extrudes the heated carrier band to form a preset shape; the punching mechanism 3 punches the carrier band after extrusion forming; and the belt drawing mechanism 4 draws the punched carrier belt to a preset position.

The heating plate of the heating mechanism 1 can be transversely adjusted, longitudinally adjusted, angle adjusted and adjusted in an upper limiting mode and a lower limiting mode, so that the heating plate is aligned with the carrier tape, and the influence of an included angle formed by the heating plate and the carrier tape on the processing precision of the carrier tape is avoided. The concave-convex extrusion die of the extrusion forming mechanism 2 can be longitudinally adjusted, the angle of the concave-convex extrusion die can be adjusted, and one or more of the upper limit adjustment and the lower limit adjustment can be adjusted, so that the concave-convex extrusion die is aligned to the carrier tape, and the influence of the included angle formed by the concave-convex extrusion die and the carrier tape on the processing precision of the carrier tape is avoided. The punching die of the punching mechanism 3 can be adjusted transversely, longitudinally, angularly and upper and lower spacing one or more of adjusting for the punching die aligns with the carrier band, avoids punching die and carrier band to form the contained angle and influences the carrier band machining precision.

The heating mechanism 1 and the extrusion forming mechanism 2 are also provided with cooling devices, and the cooling devices cool the heating plate and the concave-convex mould through cooling liquid. The frame 8 is provided with a barometer 82 and a pressure regulating valve 83 for regulating the pressure of the cylinder.

The device also comprises a guide mechanism 5, wherein the guide mechanism 5 adjusts the carrier tape entering in any direction into a set direction to output and enter the heating mechanism 1.

The carrier tape feeding device further comprises a feeding and discharging frame 84 and a conveying motor, wherein an unprocessed carrier tape is wound on the feeding and discharging frame 84, and the conveying motor controls the feeding and discharging frame 84 to rotate so as to release the unprocessed carrier tape to enter the guide mechanism 5.

The automatic feeding device further comprises a first photoelectric sensing mechanism, the first photoelectric sensing mechanism detects the drooping position of the carrier tape between the feeding and discharging frame 84 and the guide mechanism 5, and when the first photoelectric sensing mechanism 7 detects the carrier tape, the released carrier tape is too much, and the feeding motor stops working.

The end of the belt pulling mechanism 4, which outputs the carrier belt, is provided with a cutting structure 6, and the cutting structure 6 can divide and segment the processed carrier belt.

The automatic carrier tape winding machine further comprises a winding mechanism 85, wherein the winding mechanism 85 is provided with a discharging and discharging frame 86, a processed carrier tape is wound on the discharging and discharging frame 86, and the winding mechanism 85 is driven by a discharging motor so as to drive the discharging and discharging frame 86 to rotate;

still include photoelectric sensing mechanism, photoelectric sensing mechanism detects ejection of compact blowing frame 86 and cuts off the flagging position of carrying between the structure 6, when photoelectric sensing mechanism 7 detected the carrier band, then explains that the carrier band of release is too much to need the winding, opens ejection of compact motor.

The utility model discloses carrier band forming method, including following step: discharging, heating, extrusion forming, punching, drawing a belt, rolling and cutting.

Specifically, the method comprises the following steps:

1. the blowing is carried out the blowing through the blowing frame, places the blowing frame with the raw materials on to photoelectric sensing is automatic identification switch, thereby controls the motor and starts and stops, makes the automatic blowing of blowing frame.

2. Heating, wherein the raw material enters a heating part through the guide groove, the heating part consists of an upper red copper plate, a lower red copper plate and a heating plate, and the heating pipe is arranged in the two red copper plates to heat the red copper plates to a preset temperature.

3. Extrusion molding, wherein the preheated raw material passes through a concave-convex mold, and the upper cylinder and the lower cylinder work simultaneously until the concave-convex mold is closed, until the product is molded.

4. And (4) punching, namely punching the edge of the product by using a punching die.

5. The drawstring, the product punch a hole and accomplish and get into the drawstring position, and the drawstring is driven by servo motor, through the predetermined drawstring size of display screen, servo motor control accuracy can reach 0.01 mm.

6. Divide the strip, can go out a lot of, choose for use simultaneously to divide the strip machine into many with the product.

7. And (3) rolling, namely rolling the products on a circular material receiving plate, driving a rolling motor to receive the materials through photoelectric induction, and connecting a plurality of products with a multi-shaft rolling machine all the time.

8. Cutting, presetting the length of a small roll, and cutting the product by a cutter after the preset length is finished.

As shown in fig. 2, a heating mechanism of a carrier tape forming machine comprises an upper heating plate 11 and a lower heating plate 12, wherein a first upper cylinder 13 enables the upper heating plate 11 to move back and forth in the vertical direction through an upper transmission mechanism, a first lower cylinder 14 enables the lower heating plate 12 to move back and forth in the vertical direction through a lower transmission mechanism, a carrier tape passes between the upper heating plate 11 and the lower heating plate 12 and is contacted and heated by the upper heating plate 11 and the lower heating plate 12, the carrier tape forming machine further comprises an angle adjusting plate 171, the angle adjusting plate 171 is connected with the upper heating plate 11 and the lower heating plate 12, the angle adjusting plate 171 rotates to enable the upper heating plate 11 and the lower heating plate 12 to be aligned with the carrier tape at the same time, and an included angle between the upper heating plate 11 and.

The upper heating plate 11 and the lower heating plate 12 are both made of red copper.

The angle adjusting plate 171 rotates by 0 to 15 °. Both ends of the angle adjusting plate 171 are clamped between the first micrometer 181 and the first elastic device, and the angle adjusting plate 171 is rotated by 0-15 degrees by adjusting the first micrometer 181.

A longitudinal linear adjusting plate 172 is arranged below the angle adjusting plate 171, two ends of the longitudinal linear adjusting plate 172 are clamped between the second micrometer 182 and the second elastic device, the longitudinal linear adjusting plate 172 moves within the range of 0-25 mm by adjusting the second micrometer 182, and the longitudinal linear adjusting plate 172 can move longitudinally, so that the upper heating plate 11 and the lower heating plate 12 can move longitudinally.

A transverse linear adjusting plate 173 is arranged below the longitudinal linear adjusting plate 172, a transverse linear sliding groove is formed in the bottom of the transverse linear adjusting plate 173, and the transverse linear adjusting plate 173 is matched with the transverse linear sliding rail 174 through the transverse linear sliding groove to slide, so that the upper heating plate 11 and the lower heating plate 12 can move transversely.

The upper transmission mechanism comprises an upper guide pillar 151, a first upper cylinder connecting plate 152 and an upper heating fixing plate 15, a cylinder rod of the first upper cylinder 13 is fixedly connected with the first upper cylinder connecting plate 152, the first upper cylinder connecting plate 152 is connected with one end of the upper guide pillar 151, the other end of the upper guide pillar 151 is fixedly connected with the upper heating fixing plate 15, and the lower part of the upper heating fixing plate 15 is fixedly connected with the upper heating plate 11; the first upper cylinder 13 is mounted on a first upper cylinder fixing plate 176, a through hole of the upper guide pillar 151 is formed on the first upper cylinder fixing plate 176, and a linear bearing is formed on the upper guide pillar 151.

Two cooling holes 111 are formed in the upper heating fixing plate 15, cooling liquid or cooling gas enters the upper heating fixing plate 15 through one cooling hole 111, and then leaves the upper heating fixing plate 15 through the other cooling hole 111, so that the upper heating fixing plate 15 is cooled.

An upper hydraulic buffer 153 is provided on the first upper cylinder connection plate 152 to limit and buffer the stroke of the first upper cylinder 13.

The lower transmission mechanism comprises a lower heating fixing plate 16, a lower guide pillar 161 and a first lower cylinder connecting plate 162, a cylinder rod of the first lower cylinder 14 is fixedly connected with the first lower cylinder connecting plate 162, the first lower cylinder connecting plate 162 is connected with one end of the lower guide pillar 161, the other end of the lower guide pillar 161 is fixedly connected with the lower heating fixing plate 16, and the upper part of the lower heating fixing plate 16 is fixedly connected with the lower heating plate 12; the angle adjusting plate 171 is provided with a passage hole of the lower guide post 161, and the lower guide post 161 is provided with a linear bearing.

Two cooling holes 121 are formed in the lower heating fixing plate 16, cooling liquid or cooling gas enters the lower heating fixing plate 16 through one cooling hole 121, and then leaves the lower heating fixing plate 16 through the other cooling hole 121, so that the lower heating fixing plate 16 is cooled.

The longitudinal linear adjustment plate 172 is also correspondingly provided with a passing hole of the lower guide post 161, and the diameter of the passing hole of the longitudinal linear adjustment plate 172 is larger than that of the lower guide post 161, so that the longitudinal linear adjustment plate 172 does not block when the angle adjustment plate 171 rotates.

The first lower cylinder connecting plate 162 is provided with a lower hydraulic cushion 163 for limiting and cushioning the stroke of the first lower cylinder 14.

The utility model discloses carrier band make-up machine's the mechanism theory of operation that heats is: after the upper heating plate 11 and the lower heating plate 12 are adjusted to be aligned with the raw materials (carrier tapes), the angle adjusting plate 171, the longitudinal linear adjusting plate 172 and the transverse linear adjusting plate 173 are fixed, when the raw materials (carrier tapes) are sent to the position between the upper heating plate 11 and the lower heating plate 12, the upper first lower air cylinder and the lower first lower air cylinder move towards the middle direction simultaneously, so that the two heating plates touch the raw materials, the retention time parameters are set through a control display, after the raw materials are heated to be suitable, the upper first lower air cylinder and the lower first lower air cylinder are simultaneously withdrawn to finish heating.

As shown in fig. 3, a forming mechanism of a carrier tape forming machine, includes a convex forming mold 21 and a concave forming mold 22, a second upper cylinder 23 makes the convex forming mold 21 move back and forth in the vertical direction through an upper transmission mechanism, a second lower cylinder 24 makes the concave forming mold 22 move back and forth in the vertical direction through a lower transmission mechanism, a carrier tape passes between the convex forming mold 21 and the concave forming mold 22 and is extruded by the convex forming mold 21 and the concave forming mold 22, the carrier tape forming machine further includes a mold angle adjusting plate 25, the mold angle adjusting plate 25 is connected with the convex forming mold 21 and the concave forming mold 22, the mold angle adjusting plate 25 is adjusted to rotate so that the convex forming mold 21 and the concave forming mold 22 are aligned with the carrier tape at the same time, and an included angle between the convex forming mold 21.

The rotation angle of the mold angle adjusting plate 25 is 0 to 15 °. The two ends of the die angle adjusting plate 25 are clamped between the third micrometer 251 and the third elastic device, and the rotation angle of the die angle adjusting plate 25 is 0-15 degrees by adjusting the cooperation of the third micrometer 251 and the third elastic device.

A longitudinal adjusting plate 26 is arranged below the mold angle adjusting plate 25, two ends of the longitudinal adjusting plate 26 are clamped between the fourth micrometer 261 and the fourth elastic device, the longitudinal adjusting plate 26 moves in the range of 0-25 mm along a straight line by adjusting the fourth micrometer 261, and the longitudinal adjusting plate 26 can move longitudinally, so that the male forming mold 21 and the female forming mold 22 can move longitudinally.

The bottom of the longitudinal adjusting plate 26 is provided with a longitudinal linear sliding groove, and the longitudinal adjusting plate 26 is matched with the linear guide rail 262 through the longitudinal linear sliding groove to realize sliding.

The upper transmission mechanism comprises a sliding rod, a second upper cylinder connecting plate and a convex forming die fixing plate 211, a cylinder rod 233 of the second upper cylinder 23 is fixedly connected with the second upper cylinder connecting plate, the second upper cylinder connecting plate is connected with one end of the sliding rod, the other end of the sliding rod is fixedly connected with the convex forming die fixing plate 211, and the lower part of the convex forming die fixing plate 211 is fixedly connected with the convex forming die 21; the second upper cylinder 13 is mounted on the second upper cylinder fixing plate 231, and the second upper cylinder fixing plate 231 is provided with a passing hole of the slide bar.

Be equipped with two cooling holes on the protruding forming die fixed plate 211, cooling liquid or cooling gas get into protruding forming die fixed plate 211 through a cooling hole, and the protruding forming die fixed plate 211 is left in another cooling hole of rethread to realize the protruding forming die fixed plate 211 of cooling.

The lower transmission mechanism comprises a second lower air cylinder connecting plate 242, a guide post 241 and a concave forming die fixing plate 221, an air cylinder rod of the second lower air cylinder 24 is fixedly connected with the second lower air cylinder connecting plate 242, the second lower air cylinder connecting plate 242 is connected with one end of the guide post 241, the other end of the guide post 241 is fixedly connected with the concave forming die fixing plate 221, the concave forming die fixing plate 221 is fixedly connected with the concave forming die 22, and the die angle adjusting plate 25 is provided with a through hole of the guide post 241.

The longitudinal adjusting plate 26 is also correspondingly provided with a passing hole of the guide post 241, and the diameter of the passing hole of the longitudinal adjusting plate 26 is larger than that of the guide post 241, so that the longitudinal adjusting plate 26 can not block when the die angle adjusting plate 25 rotates.

The female forming die fixing plate 221 is provided with two cooling holes, and cooling liquid or cooling gas enters the female forming die fixing plate 221 through one cooling hole and leaves the female forming die fixing plate 221 through the other cooling hole, so that the female forming die fixing plate 221 is cooled.

A hydraulic buffer 243 is provided on the second lower cylinder attachment plate 242 to limit the stroke of the second lower cylinder 24.

The utility model discloses carrier band make-up machine's forming mechanism theory of operation is: after the convex forming die 21 and the concave forming die 22 are adjusted to be aligned with raw materials (carrier tapes), the angle adjusting plate 25 and the longitudinal adjusting plate 26 are fixed, after the carrier tapes are heated, the carrier tapes are sent between the convex forming die 21 and the concave forming die 22, the upper and lower second lower air cylinders move towards the middle direction simultaneously, the upper and lower dies extrude the carrier tapes, the dwell time parameters are set through controlling a display, and after the carrier tapes are extruded and formed by the dies, the upper and lower second lower air cylinders are simultaneously withdrawn to complete extrusion and forming.

As shown in fig. 4, a punching mechanism of a carrier tape forming machine comprises a fixed part of a punching die 3 and a moving part of the punching die 3, wherein the moving part moves back and forth in the vertical direction under the action of a punching air cylinder 32, a carrier tape passes between the moving part and the fixed part and is extruded and punched by the moving part and the fixed part, the punching die 3 is arranged on an angle adjusting plate 34, and the angle adjusting plate 34 rotates to enable the fixed part and the moving part to be aligned with the carrier tape at the same time, so that an included angle between the fixed part and the moving part and the carrier tape is avoided.

The angle adjusting plate 34 rotates at an angle of 0-15 deg. The two ends of the angle adjusting plate 34 are clamped between the sixth micrometer 38 and the fifth elastic device, and the angle adjusting plate 34 rotates by 0-15 degrees by adjusting the cooperation of the sixth micrometer 38 and the fifth elastic device.

A longitudinal adjusting plate 35 is arranged below the angle adjusting plate 34, two ends of the longitudinal adjusting plate 35 are clamped between a fifth micrometer 37 and a sixth elastic device, the longitudinal adjusting plate 35 can move in a range of 0-25 mm along a straight line by adjusting the fifth micrometer 37, and the longitudinal adjusting plate 35 can move longitudinally, so that the punching die 3 can move longitudinally.

A transverse adjusting plate 36 is arranged below the longitudinal adjusting plate 35, a transverse linear sliding groove is formed in the bottom of the transverse adjusting plate 36, and the transverse adjusting plate 36 slides through the cooperation of the transverse linear sliding groove and the linear sliding rail 39, so that the punching die 3 can move transversely.

Two support plates 33 are mounted on the angle adjusting plate 34, a cylinder mounting plate is provided between the two support plates 33, the punching cylinder 32 is mounted on the cylinder mounting plate, and the punching die 3 is located below the support plates 33.

The support plate 33 is provided with a carrier tape passing hole. A control display is also included for inputting and displaying the operating frequency of the pierce cylinder 32.

The utility model discloses carrier band make-up machine's the mechanism theory of operation of punching a hole is: after the fixed part of the punching die 3 and the moving part of the punching die 3 are adjusted to be aligned with the raw material (carrier tape), the angle adjusting plate 34, the longitudinal adjusting plate 35 and the transverse adjusting plate 36 are fixed, when the carrier tape after stamping forming enters between the fixed part and the moving part of the punching die 3, the moving part is driven by the punching cylinder to move downwards, so that the punching die punches product holes, and the cylinder rod is retracted by the punching cylinder at a set time by controlling a display to set a retention time parameter.

As shown in fig. 5, a belt pulling mechanism of a carrier belt forming machine includes a first cylinder 43, a second cylinder 44 and a third cylinder 45, wherein both the first cylinder 43 and the third cylinder 45 are fixed cylinders, and the first cylinder 43 and the third cylinder 45 respectively hold a carrier belt by respective cylinder rods; the second air cylinder 44 is a movable air cylinder, is positioned between the first air cylinder 43 and the third air cylinder 45, and is used for clamping the carrier tape and driving the carrier tape to move, and when the first air cylinder 43 and the third air cylinder 45 are contacted with the carrier tape, the second air cylinder 44 is separated from the carrier tape; when the first and third cylinders 43 and 45 are separated from the carrier tape, the second cylinder 44 is brought into contact with the carrier tape.

The second cylinder 44 includes a clamp block 441 and a clamp bracket 442, the carrier tape is positioned between the clamp block 441 and the clamp bracket 442, a cylinder rod of the second cylinder 44 is connected to the clamp block 441, the clamp block 441 moves downward so that the carrier tape is clamped, and the clamp block 441 moves upward so that the carrier tape can pass.

The second cylinder 44 drives the carrier tape to move through a driving device, the driving device comprises a servo motor 41 and a linear sliding table module 42, the servo motor 41 acts on the linear sliding table module 42 to move back and forth through a transmission structure, and the second cylinder 44 is installed on the linear sliding table module 42 so that the second cylinder 44 can do linear motion.

The linear sliding table module further comprises two left guide grooves 47 and two right guide grooves 48, the carrier tape is clamped between the left guide grooves 47 and the right guide grooves 48, the first air cylinder 43 is matched with one left guide groove 47, the third air cylinder 45 is matched with the other left guide groove 47, and the space between the two left guide grooves 47 is a moving area of the second air cylinder 44.

The left channel 47 is open at the top and has a support platform at the bottom through which the cylinder rods of the first and third cylinders 43, 45 can pass to press the carrier tape against the platform.

The spacing between the left and right guide slots 47, 48 is adjustable to accommodate carrier tapes of different widths. The right guide groove 48 is threadedly coupled to the lead screw 46, and the motor drives the lead screw 46 to rotate so that the right guide groove 48 moves to adjust the interval between the left guide groove 47 and the right guide groove 48. Also included is a linear slide 49 which moves in cooperation with the right guide slot 48.

And a control display for setting parameters of the linear movement of the second cylinder 44.

The utility model discloses carrier band make-up machine's the mechanism theory of operation of punching a hole is: when the carrier band after stamping forming moves to the position of the stretching strap, the servo motor drives the second air cylinder 44 to do linear motion so as to drive the carrier band to move, and meanwhile, the two auxiliary air cylinders ensure the smoothness and stability of the carrier band in operation. And setting the linear movement length parameter of the second air cylinder through controlling the display.

The present invention has been described in detail with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and various improvements of the method concept and the technical solution of the present invention can be made without modification, or the present invention can be directly applied to other occasions without modification, and is within the protection scope of the present invention.

The present invention has been described in detail with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and various improvements of the method concept and the technical solution of the present invention can be made without modification, or the present invention can be directly applied to other occasions without modification, and is within the protection scope of the present invention.

Claims (10)

1. The utility model provides a carrier band make-up machine, includes mechanism (1), extrusion mechanism (2), punching mechanism (3) and stretching strap mechanism (4) of heating, its characterized in that: the heating mechanism (1) heats the passing carrier tape to enable the carrier tape to be easy to deform; the extrusion forming mechanism (2) extrudes the heated carrier band to form a preset shape; the punching mechanism (3) punches the carrier band after extrusion forming; and the belt drawing mechanism (4) draws the punched carrier belt to a preset position.

2. The carrier tape molding machine of claim 1, wherein: the heating plate of the heating mechanism (1) can be transversely adjusted, longitudinally adjusted, angle adjusted and adjusted in an upper limiting mode and a lower limiting mode, so that the heating plate is aligned to the carrier band, and the influence of an included angle formed by the heating plate and the carrier band on the processing precision of the carrier band is avoided.

3. The carrier tape molding machine of claim 1, wherein: the concave-convex extrusion die of the extrusion forming mechanism (2) can be longitudinally adjusted, angle adjusted and adjusted in upper and lower limiting adjustment, so that the concave-convex extrusion die is aligned with the carrier tape, and is prevented from forming included angles on the carrier tape to affect the processing precision of the carrier tape.

4. The carrier tape molding machine of claim 1, wherein: the punching die of the punching mechanism (3) can be transversely adjusted, longitudinally adjusted, angle adjusted and adjusted in an upper limiting adjustment mode and a lower limiting adjustment mode, so that the punching die is aligned with the carrier tape, and the influence on the processing precision of the carrier tape caused by the included angle formed by the punching die and the carrier tape is avoided.

5. The carrier tape molding machine according to any one of claims 1 to 4, wherein: the carrier tape heating device is characterized by further comprising a guide mechanism (5), wherein the guide mechanism (5) adjusts the carrier tape entering from any direction into a set direction to be output and enter the heating mechanism (1).

6. The carrier tape molding machine of claim 5, wherein: the automatic carrier tape feeding device is characterized by further comprising a feeding and discharging frame (84) and a conveying motor, wherein an unprocessed carrier tape is wound on the feeding and discharging frame (84), and the conveying motor controls the feeding and discharging frame (84) to rotate so as to release the unprocessed carrier tape to enter the guide mechanism (5).

7. The carrier tape molding machine of claim 6, wherein: the feeding motor is characterized by further comprising a first photoelectric sensing mechanism, wherein the first photoelectric sensing mechanism detects the sagging position of the carrier tape between the feeding and discharging frame (84) and the guide mechanism (5), and when the first photoelectric sensing mechanism (7) detects the carrier tape, the released carrier tape is too much, and the feeding motor stops working.

8. The carrier tape molding machine of claim 7, wherein: the end, outputting the carrier tape, of the tape pulling mechanism (4) is provided with a cutting structure (6), and the cutting structure (6) can divide the processed carrier tape into segments.

9. The carrier tape molding machine of claim 8, wherein: the carrier tape winding device is characterized by further comprising a winding mechanism (85), wherein a discharging and discharging frame (86) is installed on the winding mechanism (85), the carrier tape which is processed is wound on the discharging and discharging frame (86), and the winding mechanism (85) is driven by a discharging motor to drive the discharging and discharging frame (86) to rotate.

10. The carrier tape molding machine of claim 9, wherein: the automatic material cutting machine is characterized by further comprising a photoelectric sensing mechanism, wherein the photoelectric sensing mechanism detects the drooping position of a carrier tape between the discharging and discharging frame (86) and the cutting structure (6), and when the photoelectric sensing mechanism (7) detects the carrier tape, the released carrier tape is too much to be wound, and the discharging motor is started.

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