CN215323446U - Efficient cutting braider - Google Patents

Abstract

The application relates to an efficient cutting braider, which comprises a frame; a tape releasing mechanism; a conveying mechanism; a cutting mechanism; a turnover mechanism; the moving mechanism is arranged on the rack and used for transferring the cut single product to the turnover mechanism; the tape sealing mechanism is arranged on the rack and used for packaging the single product after the position is adjusted; the transfer mechanism is arranged on the rack and used for transferring the product after the position is adjusted to the belt sealing mechanism; put the tape unit and put the tape frame including setting up in the frame, rotate to connect in the material tep reel of putting the tape frame, slide in put the tape frame and can with the stock form section of thick bamboo of the material area butt of material tep reel coiling and drive the material tep reel pivoted and put the tape driving piece, it connects in putting the tape frame to put the tape driving piece. This application is convoluteed paper tape and material tep reel butt on the paper roll to drive the paper roll rotation by the material tep reel, the rotation of paper roll this moment keeps synchronous or asynchronous with the material tep reel, thereby makes the coiling process of paper tape be difficult for receiving the influence.

Description

Efficient cutting braider

Technical Field

The application relates to the field of hardware processing equipment, in particular to an efficient cutting braider.

Background

The existing small hardware is generally processed by a progressive die in the process of processing and forming, a roll material shape that a product and a material belt are connected into a whole is finally formed, and meanwhile, in the process of winding, in order to prevent the product from hanging or other staggered conditions, the small hardware and the material belt can be simultaneously wound in the process of winding, so that the product is separated from the product.

And in follow-up course of working, still need separate product and material area, can utilize die cutting mechanism to separate product and material area this moment usually, and at the in-process of separation, the material area all can unreel with the paper tape, for reducing the influence of paper tape to production environment this moment, can utilize the paper roll to roll up the paper tape usually, and the process of paper tape rolling drives the paper roll through utilizing the motor.

In view of the above-mentioned related art, since the motor is required to drive the paper winding drum during the paper tape winding process, and the rotation speed of the motor is not changed, when the motor still rotates at the initial rotation speed after the diameter of the wound paper tape is increased, the tension applied to the paper tape is likely to increase, which may cause the paper tape to break.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to make the difficult pulling force process that receives of paper tape in the coiling process and the condition of being torn apart, make the paper tape be difficult for receiving the influence at the in-process of being coiled, this application provides an efficient cutting braider.

The application provides a high efficiency cuts braider adopts following technical scheme:

an efficient cutting braider comprises a frame;

the tape unwinding mechanism is arranged on the rack and used for unwinding the material tape;

the conveying mechanism is arranged on the rack and used for conveying products;

the cutting mechanism is arranged on the rack and used for cutting the product on the preset position of the conveying mechanism to form a single product;

the turnover mechanism is arranged on the rack and used for adjusting the angle of the product;

the moving mechanism is arranged on the rack and used for transferring the cut single product to the turnover mechanism;

the tape sealing mechanism is arranged on the rack and used for packaging the single product after the position is adjusted;

the transfer mechanism is arranged on the rack and used for transferring the product after the position is adjusted to the belt sealing mechanism;

put the tape unit and put the tape frame including setting up putting in the frame, rotate to connect in the material tep reel of putting the tape frame, slide in the stock form section of thick bamboo of putting the tape frame and can coiling the paper tape and drive the material tep reel pivoted and put the tape driving piece, it connects in putting the tape frame to put the tape driving piece.

Through adopting above-mentioned technical scheme, unreel the in-process in material area, the paper tape of coiling on the paper roll with the material tep reel butt, the rotation of paper roll this moment keeps synchronous or asynchronous removal with the material tep reel to the coiling process that makes the paper tape is difficult for receiving the influence.

Optionally: the paper winding frame is characterized in that a plurality of guide rods are fixed on the tape placing frame, a barrel seat is arranged on the guide rods in a penetrating mode, the barrel seat slides along the guide rods, and the paper winding barrel is connected to the barrel seat in a rotating mode.

Through adopting above-mentioned technical scheme, utilize the guide bar to lead the removal of paper roll, make the paper roll difficult in the in-process that removes break away from with the material tape dish to make the rotation process of paper roll keep stable.

Optionally: the guide bar all is connected with and drives the bobbin holder towards putting of material tape dish removal and takes the elastic component, put the one end of taking the elastic component and be connected with the bobbin holder, put the other end of taking the elastic component and be connected with the guide bar.

Through adopting above-mentioned technical scheme, utilize and put the position of taking the elastic component to the winding paper section of thick bamboo and fix a position, the paper tape that makes the winding paper section of thick bamboo convolute keeps with material tep reel butt to make the winding process of paper tape more stable.

Optionally: conveying mechanism is including the loading board that is used for bearing the weight of product material area, set up in the transport pin wheel of loading board both sides and drive simultaneously and carry the pin wheel pivoted and carry the driving piece, cut the mechanism including setting up support on the loading board and press frame, vertical removal and be used for bearing the plummer of downcut product and drive plummer vertical movement cut the driving piece, cut the driving piece and be fixed in the frame, the plummer all is provided with the cutter with supporting the edge of pressing the frame one side that is close to each other.

Through adopting above-mentioned technical scheme, utilize the cutter to follow the product and cut off after the material area, the product is stayed on the plummer, the transfer and the processing of aspect subsequent product.

Optionally: the moving mechanism includes: the mounting base is arranged on the rack; the driving wheel and the driven wheel are rotationally connected to the mounting base; the movable driving piece is arranged on the mounting base and used for driving the driving wheel; the eccentric columns are respectively arranged on the same side of the driving wheel and the driven wheel; and the adsorption components are arranged on the two eccentric columns simultaneously, and comprise swing arms arranged on the two eccentric columns and suction nozzles arranged at one ends of the swing arms.

Through adopting above-mentioned technical scheme, utilize pivoted eccentric column to drive the swing arm and produce the removal of horizontal direction and vertical direction on the horizontal plane to remove the product that the suction nozzle was absorb.

Optionally: the turnover mechanism comprises: set up upset supporting seat in the frame, set up the upset dish on the upset supporting seat and set up on the upset supporting seat and be used for the drive to turn over the upset driving piece of dish, upset dish lateral wall circumference is provided with a plurality of material loading levels that are used for bearing the product, material loading level is including setting up in the first charge level and the second charge level of upset dish lateral wall, the predetermined contained angle that first charge level and second charge level formed predetermined contained angle and formed is unanimous with the contained angle of product.

Through adopting above-mentioned technical scheme, after arranging the material loading level in with the product, thereby the upset dish rotates and drives the product and overturn, and what this moment can be convenient rotates the product to the angle that needs, has promoted the efficiency of product processing.

Optionally: the machine frame is further provided with a waste material cutting mechanism for cutting off the cut material belt, the waste material cutting mechanism comprises a cutting support seat, an upper cutting piece vertically sliding on the cutting support seat and a cutting driving piece driving the upper cutting piece to vertically move, and the cutting driving piece is arranged on the cutting support seat.

Through adopting above-mentioned technical scheme, utilize waste material shutdown mechanism to have amputated the material area of product, no longer need carry out the rolling with the material area this moment, also made things convenient for the subsequent processing in material area simultaneously.

Optionally: the sealing belt mechanism comprises a sealing belt platform, a sealing belt pinwheel, a plastic package piece and a plastic package driving piece, wherein the sealing belt platform is arranged on the frame and used for bearing a carrier belt, the sealing belt pinwheel is used for driving the carrier belt to move, the plastic package piece is used for heat sealing, the plastic package driving piece is used for driving the plastic package piece to vertically move, and the frame is provided with the sealing belt driving piece which is used for driving the sealing belt pinwheel to rotate.

By adopting the technical scheme, the product after being turned over is directly sealed by the sealing mechanism, so that the product of the sealing tape is placed as required, and the subsequent processing process of the product is more convenient.

Optionally: the transfer mechanism comprises a transfer frame arranged on the rack, a suction pipe circumferentially arranged on the transfer frame and a transfer driving piece driving the transfer frame to rotate, and the transfer driving piece is arranged on the rack.

By adopting the technical scheme, the workpiece after being turned over is transferred to the belt sealing mechanism by the transfer mechanism, and the transfer process of the workpiece is automatically completed by machinery, so that the processing process of the product is more stable.

Optionally: the straw all slides along transferring the frame vertically, the straw all cup joints the transfer elastic component of injecing its position, the one end and the straw of transferring the elastic component are connected, the other end and the transfer frame of transferring the elastic component are connected, the straw lower extreme can with the upset dish contact and upward movement.

Through adopting above-mentioned technical scheme, can follow the vertical removal of transfer frame at the in-process straw that absorbs the product to make the straw be difficult for applying too big pressure to the product, make the product be difficult for producing deformation, absorb the in-process transfer frame of product at the straw simultaneously and need not vertical removal, make the absorption of product more high-efficient.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a schematic diagram for showing the structure of a conveying mechanism according to an embodiment of the present application;

FIG. 3 is a schematic diagram illustrating a structure of a tape discharging mechanism according to an embodiment of the present application;

FIG. 4 is an enlarged view of portion A of FIG. 2;

FIG. 5 is an enlarged view of portion B of FIG. 1;

FIG. 6 is a schematic view illustrating the structure of the turnover mechanism according to the embodiment of the present application;

FIG. 7 is a schematic diagram illustrating the structure of a scrap severing mechanism according to an exemplary embodiment of the present disclosure;

FIG. 8 is an enlarged view of section C of FIG. 1;

FIG. 9 is a schematic diagram illustrating the structure of a positioning mechanism according to an embodiment of the present disclosure;

fig. 10 is a schematic diagram for showing the matching relationship between the positioning block and the driving block.

In the figure, 1, a frame; 11. a positioning mechanism; 111. positioning seats; 112. positioning blocks; 113. an elastic ring; 114. a drive block; 115. a power member; 116. a butting block; 2. a conveying mechanism; 21. a carrier plate; 211. a conveying trough; 22. a delivery pinwheel; 23. a conveying drive member; 24. a compression block; 25. a pinch roller; 26. compressing the elastic piece; 27. a guide plate; 3. a cutting mechanism; 31. pressing the frame; 311. connecting grooves; 32. a bearing table; 33. cutting a driving piece; 34. a cutting frame; 35. cutting into blocks; 351. a top block; 352. a probe; 36. an eccentric wheel; 37. a connecting rod; 38. a cutter; 4. a turnover mechanism; 41. turning over the supporting seat; 42. turning over the turntable; 43. turning over the driving piece; 44. loading the material; 441. a first feeding surface; 442. a second feeding surface; 5. a moving mechanism; 51. installing a base; 52. a driving wheel; 53. a driven wheel; 54. moving the driving member; 55. swinging arms; 56. a suction nozzle; 57. an eccentric column; 6. a tape sealing mechanism; 61. a tape sealing station; 62. sealing the belt pinwheel; 63. a sealing tape driving member; 64. molding the part; 65. a film roll; 66. plastic packaging the driving piece; 7. a transfer mechanism; 71. a transfer frame; 72. a straw; 721. a butting ring; 74. transferring the elastic member; 75. an extension block; 76. a guide rod; 8. a tape releasing mechanism; 81. a tape placing frame; 82. a rotating shaft; 83. a material belt disc; 84. releasing the belt driving piece; 86. connecting blocks; 87. a cartridge holder; 88. placing the belt elastic piece; 89. a paper winding drum; 9. a waste cutting mechanism; 91. cutting off the supporting seat; 92. an upper cutter; 93. cutting off the driving member; 94. a lower cutting member.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The application discloses a high-efficiency cutting braider, which comprises a rack 1 and a conveying mechanism 2, wherein the conveying mechanism 2 is arranged on the rack 1 and is used for conveying products; a cutting mechanism 3 provided on the frame 1 for cutting the product at a predetermined position of the conveying mechanism 2 to form a single product; a turnover mechanism 4 arranged on the frame 1 and used for adjusting the angle of the cut product; a moving mechanism 5 arranged on the frame 1 and used for transferring the cut single product to the turnover mechanism 4; a tape sealing mechanism 6 arranged on the frame 1 and used for sealing the single product after the position adjustment; and a transfer mechanism 7 provided on the frame 1 for transferring the product after the adjustment of the position to the taping mechanism 6. The product that connects on the material area is passed through conveying mechanism 2 and is constantly transported, utilize to cut mechanism 3 and break away from the product with the material area, moving mechanism 5 will cut the product that gets off and remove to tilting mechanism 4 after, tilting mechanism 4 moves the product to banding mechanism 6 with transfer mechanism 7 after ninety degrees of product upset, banding mechanism 6 encapsulates the product, when adjusting the angle of the product that the cutting got off this moment, be difficult for appearing omitting or adjust the incorrect condition, the efficiency of production has also been increased simultaneously.

As shown in fig. 2, the conveying mechanism 2 includes a bearing plate 21 fixed at the upper end of the frame 1 by bolts, two conveying pinwheels 22 for driving the material belt to move, and a conveying driving member 23 for driving the two conveying pinwheels 22 to move simultaneously, and the conveying driving member 23 is a motor with dual output shafts. The motor with double output shafts is fixed on the frame 1 by using bolts, the output shaft at one end of the motor is coaxially connected with one conveying pin wheel 22, and the output shaft at the other end of the motor drives the other conveying pin wheel 22 to synchronously rotate through a synchronous belt. The two needle conveying wheels 22 are respectively positioned at two ends of the bearing plate 21. The position that the loading board 21 both ends are close to and carry pinwheel 22 all rotates and is connected with compact heap 24, and the one end of compact heap 24 all rotates and is connected with pinch roller 25, and compact heap 24 all is connected with and drives its one end that is connected with pinch roller 25 and compress tightly elastic component 26 towards carrying pinwheel 22 pivoted, and it is the extension spring to compress tightly elastic component 26. The pressing wheel 25 can be abutted against the conveying pin wheel 22 under the driving of the pressing elastic piece 26, so that the material belt is pressed on the surface of the conveying pin wheel 22, and the material belt is not easy to slip in the conveying process. The upper end of the bearing plate 21 is provided with a conveying groove 211 parallel to the conveying direction of the material belt, and the material belt can slide in the conveying groove 211. The upper end of the bearing table 32 is also fixed with a guide plate 27 by bolts, and a gap is reserved between the guide plates 27 positioned at the two sides of the conveying groove 211.

As shown in fig. 3, a tape placing rack 81 is fixed on the upper end of the machine frame 1 by bolts, a tape placing mechanism 8 is arranged on the tape placing rack 81, the tape placing mechanism 8 includes a rotating shaft 82 rotatably connected to the upper end of the tape placing rack 81, a tape reel 83 sleeved on the rotating shaft 82, and a tape placing driving member 84 for driving the rotating shaft 82 to rotate, and the tape placing driving member 84 is a motor. The belt placing frame 81 is further fixed with two guide rods 85 which are vertically arranged by using bolts, and one ends of the guide rods 85 far away from the belt placing frame 81 are jointly fixed with connecting blocks 86 by using bolts. The two guide rods 85 are simultaneously sleeved with a cylinder seat 87 which vertically moves along the guide rods 85, the side wall of the cylinder seat 87 is rotatably connected with a paper winding cylinder 89 which is parallel to the rotating shaft 82, and a paper tape which is coaxially wound with the material tape is wound on the paper winding cylinder 89 after being separated from the material tape. Two guide bars 85 all cup joint the elastic component 88 of putting of promotion barrel holder 87 towards pivot 82 removal, put and take elastic component 88 for the spring, put the upper end of taking elastic component 88 and barrel holder 87 lower extreme butt, put the upper end butt of taking elastic component 88 and the upper end butt of connecting block 86. At this moment, under the drive of the tape releasing elastic piece 88, the paper tape wound on the roll paper tube is abutted against the outer wall of the material tape reel 83, and the material tape reel 83 rotates to drive the roll paper tube to rotate in the process of discharging the material tape, so that the paper tape is wound on the roll paper tube automatically, and the paper tape is not easy to loosen in the process of winding the paper tape.

As shown in fig. 2 and 4, the cutting mechanism 3 includes a pressing frame 31 fixed to a carrier table 32 using bolts, the carrier table 32 vertically moving and carrying a cut product, and a cutting driving member 33 driving the carrier table 32 to vertically move. The lower end of the bearing plate 21 is fixed with a cutting frame 34 by bolts, a cutting block 35 is connected in the cutting frame 34 in a vertical sliding mode, and the bearing table 32 is arranged at the upper end of the cutting block 35. For the present embodiment, the cutting drive 33 is a motor. An eccentric wheel 36 is coaxially fixed at the output shaft of the cutting driving piece 33, the end face of the eccentric wheel 36 is rotatably connected with a connecting rod 37, and the other end of the connecting rod 37 is rotatably connected with the cutting block 35. The abutting frame 31 is disposed between the adjacent guide plates 27, and the lower end thereof can abut against the upper end of the material tape. The upper end of the pressing frame 31 is further provided with a connecting groove 311 which penetrates through the lower end face of the pressing frame, and products which are not separated from the material belt can be placed in the connecting groove 311, so that the unprocessed products are prevented from being extruded. The edge of one side of the carrier 32 close to the pressing frame 31 is integrally formed with a cutter 38, and after the carrier 32 rises, the cutters 38 connected to the carrier 32 and the pressing frame 31 are staggered with each other to cut the product from the material belt. The upper end of the cutting block 35 is also fixed with a probe 352 which defines the position of the material belt and a plurality of top blocks 351 which lift the material belt by bolts, and the upper end of the probe 352 can be inserted into a preset hole on the material belt, so that the cutting position of the material belt is defined. The top blocks 351 are respectively located on two sides of the bearing table 32, lift the material belt to abut against the lower end of the pressing frame 31, and the position of the cutting knife 38 and the material belt in the cutting process is kept vertical, so that the size of the cut product is more standard.

As shown in fig. 5, the moving mechanism 5 includes a mounting base 51 fixed to the frame 1 by bolts, a driving wheel 52 rotatably connected to the mounting base 51, a driven wheel 53, a moving driving member 54 for driving the driving wheel 52 to rotate, and an adsorption assembly for adsorbing a product. The axes of the driving wheel 52 and the driven wheel 53 are horizontally arranged and are in the same horizontal plane, the movable driving member 54 is a motor, which is fixed on the mounting base 51 by using a ring, and the output shaft of the movable driving member 54 is coaxially connected with the driving wheel 52. The same side of the end face of the driving wheel 52 and the driven wheel 53 is provided with an eccentric column 57, the adsorption component is connected to the eccentric column 57, and the adsorption component comprises a swing arm 55 and a suction nozzle 56, the swing arm 55 is arranged on the two eccentric columns 57, the suction nozzle 56 is arranged at one end of the swing arm 55, the eccentric column 57 is rotatably connected with the swing arm 55, and the suction nozzle 56 is communicated with the air compressor. The suction driving member drives the driving wheel 52 to rotate, so as to drive the swing arm 55 to move vertically and horizontally in the vertical plane, thereby sucking and moving the cut product from the bearing table 32.

As shown in fig. 6, the turnover mechanism 4 includes a turnover support base 41 fixed to the frame 1 by bolts, a turnover plate 42 rotatably connected to the turnover support base 41, and a turnover driving member 43 for driving the turnover plate 42 to rotate, the turnover driving member 43 is a motor, an output shaft of the turnover driving member 43 is connected to the turnover plate 42 through a gear, and an end surface of the turnover plate 42 away from the turnover driving member 43 faces the moving mechanism 5. The side wall of the turnover disc 42 is circumferentially provided with a plurality of loading positions 44 for loading products, each loading position 44 comprises a first loading surface 441 and a second loading surface 442 arranged on the side wall of the turnover disc 42, each first loading surface 441 and each second loading surface 442 form a preset included angle, the formed preset included angle is consistent with the included angle of the product, the product is placed between the first loading surface 441 and the second loading surface 442, and two side walls, far away from each other, of the product are respectively abutted to the first loading surface 441 and the second loading surface 442. The product turnover process is now facilitated by the tumble disc 42 rotating ninety degrees to turn the product ninety degrees after the product is moved to the upper level 44 by the moving mechanism 5.

As shown in fig. 7, a waste material cutting mechanism 9 for cutting the material strip from which the product is cut is further disposed at the upper end of the frame 1, and the waste material cutting mechanism 9 includes a cutting support base 91 fixed to the upper end of the frame 1 by bolts, an upper cutting member 92 vertically moving along the cutting support base 91, and a cutting driving member 93 for driving the upper cutting member 92 to move. The cutting driving member 93 is a cylinder, the cutting driving member 93 is fixed to the upper end of the cutting support base 91 by using a bolt, and the upper cutting member 92 is fixed to the output shaft through a guide block. The cutting support seat 91 is further fixed with a lower cutting piece 94 by using bolts, and the upper cutting piece 92 can be staggered with the lower cutting piece 94, so that the material belt passing between the upper cutting piece and the lower cutting piece is cut off, and waste materials are convenient to treat.

As shown in fig. 8, the tape sealing mechanism 6 includes a tape sealing table 61 fixed on the frame 1 by bolts and used for carrying the carrier tape, two tape sealing pinwheels 62 for driving the carrier tape to move along the tape sealing table 61, a plastic package member 64 for plastic sealing, and a plastic driving member 66 for driving the plastic package member 64 to move vertically. The two tape sealing pinwheels 62 are respectively located at two ends of the tape sealing table 61, and the side walls of the tape sealing pinwheels 62 are abutted to the carrier tape. The tape sealing table 61 is provided with a tape sealing driving part 63 for driving the tape sealing pinwheel 62 to rotate, the tape sealing driving part 63 is provided with a double-output-shaft motor, one output shaft of the double-output-shaft motor is coaxially fixed with one tape sealing pinwheel 62, and the other output shaft of the double-output-shaft motor is connected with the other tape sealing pinwheel 62 through a synchronous belt. The sealing tape driving part 63 is a cylinder, and a piston rod of the cylinder is fixed with the plastic package part 64, so that the plastic package part 64 is driven to move vertically. The upper end of the frame 1 is rotatably connected with an adhesive film roller 65 for winding an adhesive film, the adhesive film wound on the adhesive film roller 65 is attached to the carrier tape, and then the plastic package member 64 descends and heats the adhesive film, so that the adhesive film is adhered to the surface of the carrier tape.

As shown in fig. 8, the transferring mechanism 7 includes a transferring frame 71 rotatably connected to the frame 1, a plurality of suction pipes 72 circumferentially disposed on the transferring frame 71, and a transferring driving member for driving the transferring frame 71 to rotate, the transferring driving member is a motor, a divider for driving the transferring frame 71 to vertically move is disposed at an output shaft of the transferring driving member, and the divider is coaxially connected to the transferring frame 71 and drives the transferring frame 71 to rotate. The upper ends of the suction pipes 72 are connected with a vacuum pump, and the suction pipes 72 vertically slide along the transfer frame 71. The suction pipes 72 are coaxially fitted with transfer elastic members 74 for regulating the positions thereof, and the upper ends of the transfer elastic members 74 are abutted against the lower ends of the transfer frames 71. An abutment ring 721 is coaxially fixed to the lower end of the suction pipe 72, and the lower end of the transfer elastic member 74 abuts against the upper end of the abutment ring 721. An extension block 75 is fixed at the upper end of the suction pipe 72, a guide rod 76 is fixed at the upper end of the transfer frame 71, and the guide rod 76 is arranged through the extension block 75 and connected with the extension block 75 in a sliding manner. At this time, when the suction pipe 72 sucks the product, the suction pipe 72 is buffered by the transfer elastic member 74, so that the suction pipe 72 is not easily damaged by an excessive pressure.

As shown in fig. 9, the upper end of the rack 1 is further provided with a positioning mechanism 11 for positioning the product sucked on the suction pipe 72, an image detection mechanism for detecting the bottom and side surfaces of the product, and a correlation optical fiber for detecting whether the suction pipe 72 is filled with the product. The positioning mechanism 11, the image detection mechanism and the correlation fiber are circumferentially arranged along the axis of the transfer frame 71, and the positioning mechanism 11 includes a positioning seat 111 disposed on the rack 1, four positioning blocks 112 circumferentially sliding on the positioning seat 111, and an elastic ring 113 driving the positioning blocks 112 to approach each other. Elastic ring 113 colludes for four extension springs head and the tail and holds and form, and elastic ring 113's inner wall simultaneously and the mutual lateral wall butt of keeping away from of locating piece 112 to drive locating piece 112 and be close to each other, the lateral wall that locating piece 112 is close to each other can be simultaneously with the product butt, thereby adjusts the position of product, and it is more accurate to make the position that the product was arranged in on the carrier band.

As shown in fig. 9, an abutting block 116 for limiting the relative positions of the four positioning blocks 112 is further fixed to the upper end of the positioning base 111, and the abutting block 116 abuts against the four positioning blocks 112 at the same time, so that the four positioning blocks 112 are prevented from being deformed due to the proximity of each other.

As shown in fig. 10, the positioning base 111 is further provided with a positioning driving member for driving the positioning blocks 112 to move away from each other, and the positioning driving member includes a driving block 114 rotatably connected to the positioning base 111 and a power member 115 for driving the driving member to rotate. The upper projection view of the driving block 114 is rectangular, four side walls of the driving block are respectively abutted to one positioning block 112, the power part 115 is a motor, the power part 115 is fixed at the lower end of the positioning seat 111 by using bolts, and an output shaft of the power part is fixed with the driving block 114, so that the driving block 114 is driven to rotate on the horizontal plane, and the positioning pieces are driven to be away from each other.

The implementation principle of the embodiment is as follows: the strip connected with the product moves towards the waste cutting mechanism 9 on the bearing plate 21, and meanwhile, when the strip is unreeled, the strip is reeled on the paper reel, and when the product connected with the strip moves to the upper end of the bearing table 32, the bearing table 32 rises, so that the cutters 38 positioned above and below the strip are staggered mutually to cut off the product from the strip. Suction nozzle 56 will break away from the product absorption in material area and move to material loading level 44 on, thereby turnover disk 42 rotates ninety degrees and makes the product upset ninety degrees, the product absorption after suction pipe 72 will rotate and through positioning mechanism 11 adjustment position, image detection mechanism detects whether the product damages, detect whether the suction pipe 72 absorbs the product through correlation optic fibre, suction pipe 72 places the product on carrying the area after detecting the completion, image detection mechanism who sets up on support body 1 detects whether filling of product, later carrying area and product remove to plastic-sealed piece 64 below, plastic-sealed piece 64 is with the glued membrane and the encapsulation of carrying the bonding completion product of area. After the product is cut from the strip, the strip continues to move between the upper cut 92 and the lower cut 94.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an efficient braider that cuts which characterized in that: comprises a frame (1);

the tape unwinding mechanism is arranged on the rack and used for unwinding the material tape;

the conveying mechanism (2) is arranged on the rack (1) and used for conveying products;

a cutting mechanism (3) arranged on the frame (1) and used for cutting the product on the preset position of the conveying mechanism (2) to form a single product;

a turnover mechanism (4) arranged on the frame (1) and used for adjusting the angle of the product;

a moving mechanism (5) arranged on the frame (1) and used for transferring the cut single product to the turnover mechanism (4);

the tape sealing mechanism (6) is arranged on the rack (1) and is used for sealing the single product after the position is adjusted;

the transfer mechanism (7) is arranged on the rack (1) and is used for transferring the products after the position adjustment to the tape sealing mechanism (6);

put the tape unit and put the tape frame including setting up putting in the frame, rotate to connect in the material tep reel of putting the tape frame, slide in the stock form section of thick bamboo of putting the tape frame and can coiling the paper tape and drive the material tep reel pivoted and put the tape driving piece, it connects in putting the tape frame to put the tape driving piece.

2. A high efficiency cutting braider as claimed in claim 1, wherein: the paper winding frame is characterized in that a plurality of guide rods are fixed on the tape placing frame, a barrel seat is arranged on the guide rods in a penetrating mode, the barrel seat slides along the guide rods, and the paper winding barrel is connected to the barrel seat in a rotating mode.

3. A high efficiency cutting braider as claimed in claim 2, wherein: the guide bar all is connected with and drives the bobbin holder towards putting of material tape dish removal and takes the elastic component, put the one end of taking the elastic component and be connected with the bobbin holder, put the other end of taking the elastic component and be connected with the guide bar.

4. A high efficiency cutting braider according to claim 3, characterized in that: conveying mechanism (2) including be used for bearing the weight of the loading board (21) in product material area, set up in the transport pin wheel (22) of loading board (21) both sides and drive simultaneously and carry pin wheel (22) pivoted and carry driving piece (23), cut mechanism (3) including set up on loading board (21) support pressing frame (31), vertical removal and be used for bearing the weight of the product of cutting plummer (32) and drive plummer (32) vertical removal cut driving piece (33), cut driving piece (33) and be fixed in on frame (1), plummer (32) all are provided with cutter (38) with support pressing the mutual edge of being close to of frame (31).

5. A high efficiency cutting braider according to claim 4, characterized in that: the moving mechanism (5) includes: a mounting base (51) arranged on the frame (1); a driving wheel (52) and a driven wheel (53) which are rotatably connected to the mounting base (51); a movable driving member (54) arranged on the mounting base (51) and used for driving the driving wheel (52); eccentric columns (57) respectively arranged on the same side of the driving wheel (52) and the driven wheel (53); and the adsorption components are arranged on the two eccentric columns (57) simultaneously, and comprise swing arms (55) arranged on the two eccentric columns (57) and suction nozzles (56) arranged at one ends of the swing arms (55).

6. A high efficiency cutting braider according to claim 5, characterized in that: the turning mechanism (4) comprises: set up upset supporting seat (41) on frame (1), set up upset dish (42) on upset supporting seat (41) and set up on upset supporting seat (41) and be used for the drive to turn over upset driving piece (43) of dish (42), it is provided with a plurality of material loading levels (44) that are used for bearing the weight of the product to turn over dish (42) lateral wall circumference, material loading level (44) are including setting up in first material loading level (441) and second material loading level (442) of upset dish (42) lateral wall, first material loading level (441) and second material loading level (442) form predetermined contained angle and the predetermined contained angle that forms is unanimous with the contained angle of product.

7. A high efficiency cutting braider according to claim 6, characterized in that: the machine frame (1) is further provided with a waste material cutting mechanism (9) for cutting off the cut material belt, the waste material cutting mechanism (9) comprises a cutting support seat (91), an upper cutting piece (92) which vertically slides on the cutting support seat (91) and a cutting driving piece (93) which drives the upper cutting piece (92) to vertically move, and the cutting driving piece (93) is arranged on the cutting support seat (91).

8. A high efficiency cutting braider according to claim 7, wherein: the sealing tape mechanism (6) comprises a sealing tape table (61) arranged on the frame (1) and used for bearing a carrier tape, a sealing tape pinwheel (62) for driving the carrier tape to move, a plastic packaging piece (64) for heat sealing and a plastic packaging driving piece (66) for driving the plastic packaging piece (64) to vertically move, and the frame (1) is provided with a sealing tape driving piece (63) which simultaneously drives the sealing tape pinwheel (62) to rotate.

9. A high efficiency cutting braider according to claim 8, wherein: the transfer mechanism (7) comprises a transfer frame (71) arranged on the rack (1), a suction pipe (72) circumferentially arranged on the transfer frame (71) and a transfer driving piece driving the transfer frame (71) to rotate, and the transfer driving piece is arranged on the rack (1).

10. A high efficiency cutting braider according to claim 9, wherein: the straw (72) vertically slides along the transfer frame (71), the straw (72) is sleeved with a transfer elastic piece (74) limiting the position of the straw, one end of the transfer elastic piece (74) is connected with the straw (72), the other end of the transfer elastic piece (74) is connected with the transfer frame (71), and the lower end of the straw (72) can be in contact with the turnover disc (42) and moves upwards.

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