CN112775264A - Novel die-cut mould of V type clamp ribbon - Google Patents

Abstract

The invention discloses a novel V-shaped clamp ribbon punching die, which comprises a base, a feeding mechanism and a separating and cutting mechanism, wherein a guide chute is arranged on the base, the feeding mechanism comprises a row of feeding rollers and a row of back-up rollers which are rotationally connected with the guide chute, a conveying channel matched with a ribbon to be separated is formed between the row of feeding rollers and the back-up rollers, the separating and cutting mechanism comprises two power worms, two lifting screw rods, two lifting slide blocks and a cutting tool, driving gears are fixed at the right ends of the power worms, driven gears are fixed at the top ends of the lifting screw rods, the two power worms are connected through a second driving belt, a power shaft is connected at the bottom end of a top plate, power turbines are fixed at the two ends of the power shaft, and the end part of the power shaft is connected with the feeding rollers through a third driving belt, need not to change the ribbon of the not unidimensional of mould adaptation, improved and cut towards efficiency, reduced die-cut cost and staff's the amount of labour.

Description

Novel die-cut mould of V type clamp ribbon

Technical Field

The invention relates to the technical field of dies, in particular to a novel V-shaped clamp binding belt punching die.

Background

The V-shaped belt clamp is a fastener commonly used in the industrial field and widely used for connection between tubular objects, the commonly used belt clamp comprises an outer steel belt, a fixed support and a locking device, the locking device comprises a T-shaped bolt, a bolt sleeve and a nut, the T-shaped bolt and the bolt sleeve are respectively arranged at two ends of the outer steel belt and can be moved, the locking device is connected with the nut after the T-shaped bolt penetrates through the bolt sleeve, and the purpose of locking is achieved by screwing the bolt.

The prior ribbon manufacturing process generally adopts a punching die to punch the ribbon to be separated, but the prior die-cutting die can only cut and punch the ribbon with one length to be suitable for assembling a V-shaped ribbon clamp with a specific size. Because the V-arrangement area clamp's that actual production came out size diverse, when the V-arrangement area clamp of various sizes need assemble not unidimensional ribbon, just need different cutting die utensil to cut and dash not unidimensional ribbon, lead to like this to cut and dash the in-process and need constantly change the mould to cut and dash efficiency has been reduced, also increased staff's work load and manufacturing cost.

Disclosure of Invention

The invention aims to provide a novel V-shaped hoop binding belt punching die to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a novel V-shaped clamp binding belt punching die comprises a base, a feeding mechanism and a material dividing and cutting mechanism, the front and the rear sides of the right end of the base are fixed with fixing pieces for installing the bundling belt discs to be separated through fixing rods, a top plate parallel to the base is fixed at the left end of the bundling belt disc to be distributed above the base, a material guide groove is arranged on the upper end surface of the base below the top plate, the feeding mechanism is positioned in the material guide groove, and the feeding mechanism sequentially comprises a row of feeding rollers and a row of supporting rollers which are rotationally connected with the material guide groove from top to bottom, a conveying channel matched with the ribbon to be separated is formed between the feeding rollers and the supporting rollers, the feeding rollers are connected with each other through a driving belt, a row of feeding rollers and a row of supporting rollers are distributed along the length direction of the material guide groove, and one supporting roller is distributed right below the position between every two adjacent feeding rollers;

the material distribution and cutting mechanism is positioned above the right end of the feeding mechanism and comprises two power worms which are parallel to the base and are rotationally connected with the front side and the rear side of the top plate, two lifting screw rods which are respectively positioned at the right end of the power worms and are in one-to-one correspondence with the power worms, lifting slide blocks which are respectively sleeved on the lifting screw rods and cutting tools which are arranged on the two lifting slide blocks, the lifting screw rods are rotationally connected between the base and the top plate and are vertical to the power worms, driving gears are fixed at the right ends of the power worms, driven gears which are matched with the driving gears are respectively fixed at the top ends of the lifting screw rods, the two power worms are connected through a second driving belt, a power shaft which is parallel to the feeding roller is rotationally connected at the bottom end of the top plate, the power shaft is positioned below the two power worms, and power turbines which are matched with the power worms are, and the end part of the power shaft is also in transmission connection with a feeding roller positioned right below the power shaft through a third transmission belt, and the left end of any one power worm is connected with a motor through a coupler.

Preferably, the guide chute is provided with a cleaning mechanism below the row of support rollers, the cleaning mechanism comprises a row of cleaning rollers which are connected in the guide chute in a rotating mode at equal intervals along the length direction of the guide chute, the row of cleaning rollers are connected with one another in a four-way mode through a driving belt, one of the cleaning rollers is in transmission connection with one of the feeding rollers through a driving belt, and cleaning brushes are uniformly distributed on the surface of the cleaning rollers.

Preferably, the distance between two adjacent cleaning rollers is less than or equal to the length of the cleaning brush.

Preferably, the left end and the right end of each supporting roller are respectively fixed with an annular limiting plate, and the distance between the annular limiting plates at the two ends of each supporting roller is equal to the width of the to-be-distributed binding belt.

Preferably, the cutting tool comprises a connecting plate and a material distributing tool, the connecting plate is horizontally connected to the side walls of the two lifting slide blocks, and the material distributing tool is detachably connected with the connecting plate through a connecting piece.

Preferably, the connecting piece comprises a bolt and a nut, the connecting plate is of a structure like the Chinese character 'yi', through holes I are formed in two ends of the connecting plate, through holes II are formed in the top end of the material separating knife along the width direction of the material separating knife, the bolt penetrates through the through holes I and the through holes II respectively, and two ends of the bolt are connected with the nut.

Preferably, the mounting includes first arc snap ring, second arc snap ring and ball, and the girth of first arc snap ring is less than the girth of second arc snap ring, the equipartition interval ring of the inner wall of first arc snap ring and second arc snap ring is equipped with the ball, and the both ends of first arc snap ring and second arc snap ring have seted up direction spout one and direction spout two respectively along its circumferencial direction, all be fixed with the direction kelly through the tensioning spring in the direction spout one, and the direction kelly keeps away from the fixed permanent magnet of one end of tensioning spring one, direction spout two and driving lever looks adaptation, and the bottom mounting of direction spout two has the permanent magnet two opposite with permanent magnet magnetism.

Preferably, a shifting rod is fixed on the side wall of the guide clamping rod, and a guide hole for the shifting rod to pass through is formed in the side wall of the first guide sliding groove.

Compared with the prior art, the invention has the beneficial effects that:

(1) according to the invention, the material separating and cutting mechanism and the feeding mechanism are matched to sequentially carry out unreeling operation on the ribbon disc to be separated, cutting the unreeled ribbon disc to be separated and conveying the cut ribbon to be separated, so that the cutting and punching efficiency is improved.

(2) The length of the cut binding belt to be separated can be controlled by controlling the number of turns of the power shaft driven by the motor to rotate, so that the binding belt is suitable for assembling V-shaped hoops with different sizes, a cutting die does not need to be replaced, and the cutting efficiency can be further improved.

(3) The scrap generated in the cutting process can be cleaned through the cleaning mechanism, and workers do not need to clean the whole die after the cutting and punching operation is finished, so that the punching cost is saved, and the labor capacity of the workers is reduced.

In conclusion, the length of the to-be-separated belt to be cut is controlled only by controlling the number of turns of the motor driving the power shaft to rotate, so that the to-be-separated belt is suitable for assembling V-shaped clamps with different sizes, and scraps generated in the cutting process can be cleaned, so that the punching cost is saved, multiple functions are realized, and the labor amount of workers is reduced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure A-A in FIG. 1;

FIG. 3 is a schematic structural view of the fixing member;

FIG. 4 is a cross-sectional view of the structure of FIG. 3;

fig. 5 is a schematic view of the installation of the riving knife.

In the figure: 1. a base; 2. a top plate; 3. a material guide chute; 4. a feed roller; 5. a support roller; 6. a cleaning roller; 7. cleaning the brush; 8. an annular limiting plate; 9. bundling a belt disc to be distributed; 10. a fixing member; 101. a first arcuate snap ring; 102. a second arc-shaped snap ring; 103. a ball bearing; 11. a power worm; 12. a power shaft; 13. a power turbine; 14. a lifting screw rod; 15. a lifting slide block; 16. a driving gear; 17. a connecting plate; 18. a material distributing knife; 19. a driven gear; 20. a motor; 21. a first guide chute; 22. a guide clamping rod; 23. a second guide chute; 24. a deflector rod; 25. a guide hole; 26. a first through hole; 27. a second through hole; 28. and (4) bolts.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, an embodiment of the present invention is shown: a novel V-shaped clamp ribbon punching die comprises a base 1, a feeding mechanism and a material distribution cutting mechanism, wherein fixing parts 10 used for installing a material to be distributed ribbon disk 9 are fixed on the front side and the rear side of the right end of the base 1 through fixing rods, a top plate 2 parallel to the base 1 is fixed on the left end, located above the material to be distributed ribbon disk 9, of the base 1, a material guide groove 3 is formed in the upper end face, located below the top plate 2, of the base 1, the feeding mechanism is located in the material guide groove 3 and sequentially comprises a row of feeding rollers 4 and a row of supporting rollers 5 which are rotatably connected with the material guide groove 3 from top to bottom, a conveying channel matched with the material to be distributed ribbon is formed between the row of feeding rollers 4 and the supporting rollers 5, the row of feeding rollers 4 are connected with each other through a driving belt, and the row of feeding rollers 4 and the row of supporting rollers 5 are, a supporting roller 5 is distributed right below the space between two adjacent feeding rollers 4;

the material distribution and cutting mechanism is positioned above the right end of the feeding mechanism and comprises two power worms 11 which are parallel to the base 1 and are rotatably connected with the front side and the rear side of the top plate 2, two lifting screw rods 14 which are respectively positioned at the right end of the power worms 11 and correspond to the power worms one by one, lifting slide blocks 15 which are respectively sleeved on the lifting screw rods 14 and cutting tools which are arranged on the two lifting slide blocks 15, the lifting screw rods 14 are respectively and rotatably connected between the base 1 and the top plate 2 and are vertical to the power worms 11, driving gears 16 are respectively fixed at the right ends of the power worms 11, driven gears 19 which are matched with the driving gears 16 are respectively fixed at the top ends of the lifting screw rods 14, the two power worms 11 are connected through a second driving belt, a power shaft 12 which is parallel to the feeding roller 4 is rotatably connected at the bottom end of the top plate 2, and the power shaft, and the front end and the rear end of the power shaft 12 are respectively fixed with a power turbine 13 matched with the power worm 11 through a one-way bearing, the rotating direction of the one-way bearing is anticlockwise, the end part of the power shaft 12 is also in transmission connection with a feeding roller 4 positioned right below the power shaft through a third transmission belt, and the left end of any one of the power worms 11 is connected with a motor 20 through a coupler.

In this embodiment, the baffle box 3 is located the below of one row of backing roll 5 and is equipped with clean mechanism, and clean mechanism includes that the length direction and the equidistant rotation of edge baffle box 3 connect in one row of cleaning roller 6 in baffle box 3, and one row of cleaning roller 6 is through a drive belt interconnect four, and one of them cleaning roller 6 is through a drive belt five with one of them the transmission of feed roller 4 is connected, one row the surface evenly distributed of cleaning roller 6 has cleaning brush 7, under the effect of drive belt four for feed mechanism drives clean mechanism at the process of carrying and will fall into the piece discharge of baffle box 3, has avoided the staff to cut the piece that the end back will remain in the clean cutting process.

In this embodiment, the distance between two adjacent cleaning rollers 6 is less than or equal to the length of the cleaning brush 7, so that the cleaning brush 7 in the cleaning mechanism can clean more completely, and dead corners are prevented from being cleaned.

In this embodiment, every both ends all are fixed with annular limiting plate 8 about backing roll 5, and the distance between the annular limiting plate 8 at every backing roll 5 both ends equals the width of waiting to divide the material ribbon, prevents to wait to divide the material ribbon to take place the skew in transportation process.

In this embodiment, the cutting tool includes an attachment plate 17 and a riving knife 18, the attachment plate 17 is horizontally connected to the side walls of the two lifting sliders 15, and the riving knife 18 is detachably connected to the attachment plate 17 through a connector.

In this embodiment, the connecting member includes a bolt 28 and a nut, the connecting plate 17 is of a "]" structure, and the two ends of the connecting plate 17 are both provided with a first through hole 26, the top end of the riving knife 18 is provided with a second through hole 27 along the width direction thereof, the bolt 28 respectively passes through the first through hole 26 and the second through hole 27, and the two ends of the bolt 28 are connected with the nut, and the installation mode of the bolt and the nut is adopted, so that the riving knife 18 can be replaced.

In this embodiment, the fixing member 10 includes a first arc-shaped snap ring 101, a second arc-shaped snap ring 102 and balls 103, a circumference of the first arc-shaped snap ring 101 is smaller than a circumference of the second arc-shaped snap ring 102, the balls 103 are annularly arranged on inner walls of the first arc-shaped snap ring 101 and the second arc-shaped snap ring 102 at equal intervals, two end portions of the first arc-shaped snap ring 101 and the second arc-shaped snap ring 102 are respectively provided with a first guide chute 21 and a second guide chute 23 along a circumferential direction thereof, a first guide clamping bar 22 is fixed in the first guide chute 21 through a tension spring, a first permanent magnet is fixed at one end of the first guide clamping bar 22 away from the tension spring, the second guide chute 23 is adapted to the shift lever 24, a second permanent magnet having a magnetic property opposite to that of the first permanent magnet is fixed at a bottom end of the second guide chute 23, as shown in fig. 3 and 4, the second arc-shaped snap ring 102 is connected to the first arc-shaped snap ring 101 by the common cooperation of the The two ends of the belt disc 9 are fixed, and under the action of the balls 103, the friction force between the belt disc 9 to be separated and the fixing member 10 can be reduced in the unwinding process, so that the service life of the fixing member 10 can be prolonged.

In this embodiment, a driving lever 24 is fixed on a side wall of the guiding latch 22, and a guiding hole 25 through which the driving lever 24 passes is formed on a side wall of the guiding chute 21, so that the guiding latch 22 can be manually moved by moving the driving lever 24 to connect the first arc-shaped snap ring 101 and the second arc-shaped snap ring 102.

The working principle is as follows: when the device is used, an external power supply is connected, as shown in fig. 1, two ends of a to-be-distributed bundling belt disc 9 are respectively fixed on a fixing piece 10, the free end of the to-be-distributed bundling belt wound on the to-be-distributed bundling belt disc 9 is placed at the right end of a conveying channel, then a starting motor 20 drives a power worm 11 to rotate so as to enable a power worm wheel 13 to drive a power shaft 12 to rotate clockwise (when the power shaft 12 rotates clockwise, the rotation direction of a one-way bearing is anticlockwise, therefore, the power worm wheel 13 is equivalent to fixed connection with the power shaft 12 under the action of the one-way bearing, therefore, the power worm wheel 13 drives the power shaft 12 to rotate clockwise in a clockwise manner), when the power shaft 12 rotates clockwise, a row of feeding rollers 4 are driven to rotate in the same direction through a driving belt three, the to-be-distributed bundling belt disc 9 is unreeled under the transmission action of the feeding rollers 4, meanwhile, in the rotating process, the power worm 11 drives the lifting screw rod 14 to rotate under the coordination of the driving gear 16 and the driven gear 19 so as to enable the cutting tool mounted on the lifting slide block 15 to move upwards from the bottom end of the lifting screw rod 14, therefore, the length of the to-be-separated ribbon to be unreeled by the to-be-separated ribbon disk 9 is controlled indirectly through the feeding mechanism by controlling the number of turns of the motor 20 to drive the power shaft 12 to rotate, when the length of the to-be-separated ribbon to be unreeled reaches a preset value, the motor 20 is started to rotate reversely, the power worm wheel 13 is connected with the power shaft 12 in a manner of rotating correspondingly under the action of the one-way bearing, at the moment, the power worm wheel 13 idles, so that the feeding mechanism stops conveying the to-be-separated ribbon to be unreeled, and simultaneously, the power worm 11 reversely rotates and drives the lifting screw rod 14 to reversely rotate under the coordination of the driving gear 16 and, after cutting, the motor 20 is started again to rotate reversely, so that the feeding mechanism conveys the cut ribbon to be separated to the next station and unreels the ribbon disk 9 to be separated again, and meanwhile, the cutting tool rises again, and the whole process finishes one-time punching operation.

In addition, the debris generated during the cutting process falls into the guide chute 3 and is swept out of the left end of the guide chute 3 by the cleaning mechanism.

To sum up, this embodiment can drive the branch material ribbon length of treating of cutting through control motor 20 and drive the power shaft 12 pivoted number of turns to be controlled to be applicable to the assembly of the V type clamp of unidimensional not, in the cutting, only need just can order about feeding mechanism simultaneously through a motor 20, divide material cutting mechanism and clean mechanism to use mutually in coordination, meanwhile, can also clear up the piece that produces in the cutting process, the die-cut cost has not only been saved, multiple action has still been realized, staff's the amount of labour has been reduced.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (8)

1. The utility model provides a novel die-cut mould of V type clamp ribbon which characterized in that: comprises a base (1), a feeding mechanism and a material-dividing cutting mechanism, wherein a fixing part (10) used for installing a material-dividing bundling belt disc (9) to be arranged is fixed on the front side and the rear side of the right end of the base (1) through fixing rods, a top plate (2) parallel to the base (1) is fixed on the left end of the material-dividing bundling belt disc (9) to be arranged above the base (1), a material guide groove (3) is arranged on the upper end surface of the base (1) below the top plate (2), the feeding mechanism is arranged in the material guide groove (3), the feeding mechanism sequentially comprises a row of feeding rollers (4) and a row of supporting rollers (5) which are rotatably connected with the material guide groove (3) from top to bottom, a conveying channel matched with the material to be arranged is formed between the row of feeding rollers (4) and the supporting rollers (5), the row of feeding rollers (4) and the row of supporting rollers (5) are mutually connected through a driving belt, and the row of feeding rollers (4), a supporting roller (5) is distributed right below the space between two adjacent feeding rollers (4);

the material distribution and cutting mechanism is positioned above the right end of the feeding mechanism and comprises two power worms (11) which are parallel to the base (1) and are rotatably connected with the front side and the rear side of the top plate (2), two lifting screw rods (14) which are respectively positioned at the right ends of the power worms (11) and correspond to the power worms one by one, lifting slide blocks (15) which are respectively sleeved on the lifting screw rods (14) and cutting tools which are arranged on the two lifting slide blocks (15), the lifting screw rods (14) are respectively rotatably connected between the base (1) and the top plate (2) and are vertical to the power worms (11), the right ends of the power worms (11) are respectively fixed with a driving gear (16), the top ends of the lifting screw rods (14) are respectively fixed with a driven gear (19) which is matched with the driving gear (16), and the two power worms (11) are connected through a second driving, the bottom of roof (2) is rotated and is connected with power shaft (12) parallel with feed roll (4), and power shaft (12) are located the below of two power worms (11), both ends are all fixed with power turbine (13) with power worm (11) looks adaptation through one-way bearing around power shaft (12), and the tip of power shaft (12) still is connected through the transmission of drive belt three with feed roll (4) that are located its under, wherein arbitrary one the left end of power worm (11) has motor (20) through the coupling joint.

2. The novel V-band strap die-cut mold of claim 1, wherein: the utility model discloses a cleaning device, including baffle box (3), conveying belt, feed chute (4), cleaning mechanism, conveying belt, cleaning roller, conveying belt, cleaning mechanism, conveyer belt, conveying roller, conveying belt, cleaning brush, cleaning mechanism, conveying belt, cleaning roller, conveying belt, cleaning brush.

3. The novel V-band strap die-cut mold of claim 2, wherein: the distance between two adjacent cleaning rollers (6) is less than or equal to the length of the cleaning hairbrush (7).

4. The novel V-band strap die-cut mold of claim 1, wherein: every both ends all are fixed with annular limiting plate (8) about backing roll (5), and the distance between annular limiting plate (8) at every backing roll (5) both ends equals the width of waiting to divide the material ribbon.

5. The novel V-band strap die-cut mold of claim 1, wherein: the cutting tool comprises a connecting plate (17) and a material distributing knife (18), the connecting plate (17) is horizontally connected to the side walls of the two lifting sliding blocks (15), and the material distributing knife (18) is detachably connected with the connecting plate (17) through a connecting piece.

6. The novel V-band strap die-cut mold of claim 5, wherein: the connecting piece comprises a bolt (28) and a nut, the connecting plate (17) is of a J structure, through holes I (26) are formed in the two ends of the connecting plate (17), through holes II (27) are formed in the top end of the material separating knife (18) in the width direction of the material separating knife, the bolt (28) penetrates through the through holes I (26) and the through holes II (27) respectively, and the two ends of the bolt (28) are connected with the nut.

7. The novel V-band strap die-cut mold of claim 1, wherein: the fixing piece (10) comprises a first arc-shaped snap ring (101), a second arc-shaped snap ring (102) and a ball (103), the circumference of the first arc-shaped snap ring (101) is smaller than that of the second arc-shaped snap ring (102), the inner walls of the first arc-shaped snap ring (101) and the second arc-shaped snap ring (102) are provided with balls (103) at equal intervals, and two ends of the first arc-shaped snap ring (101) and the second arc-shaped snap ring (102) are respectively provided with a first guide sliding groove (21) and a second guide sliding groove (23) along the circumferential direction, a guide clamping rod (22) is fixed in the guide sliding groove I (21) through a tension spring, and one end of the guide clamping rod (22) far away from the tension spring is fixed with a first permanent magnet, the second guide sliding groove (23) is matched with the shifting rod (24), and a second permanent magnet with the magnetism opposite to that of the first permanent magnet is fixed at the bottom end of the second guide chute (23).

8. The novel V-band strap die-cut mold of claim 7, wherein: a driving lever (24) is fixed on the side wall of the guide clamping rod (22), and a guide hole (25) for the driving lever (24) to pass through is formed in the side wall of the guide sliding groove I (21).

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