CN210555834U - Curtain bead sequencing series-connection distance-dividing and distance-setting device - Google Patents

Abstract

The curtain bead sequencing series-connection distance-dividing and distance-setting device comprises a rotary arranging component, a guiding and distance-setting component arranged behind the rotary arranging component, a bead-connecting wire-threading component arranged behind the guiding and distance-setting component and a supporting plate arranged below the component. The utility model provides a wear the pearl pole through the rotation and wear into a back with the pearl, will wear the pearl through the driving lever in the direction distance subassembly dial to with wear on the dead lever of pearl pole butt joint, the distance picture peg is with the unanimous back of distance adjustment between the pearl, through upset propelling movement spout and a curtain pearl sequencing polyphone that the subassembly was worn to the pearl establishes ties the pearl at the coplanar and divide apart from the distance device, compare with prior art, this curtain pearl sequencing polyphone divides apart from the distance device can increase substantially string of beads efficiency, and can automated production, reduction in production cost.

Description

Curtain bead sequencing series-connection distance-dividing and distance-setting device

Technical Field

The utility model relates to a string of beads mechanical apparatus technical field, in particular to a curtain pearl sequencing polyphone is apart from distance device for distance.

Background

The beads have wide application, are commonly used for decoration and embroidery in various industries, are connected into a string in actual production, can achieve a good three-dimensional decoration effect, or are used for curtain art and the like, and have practical functional application. In most of the processing, beads with through holes in the middle are strung by using a wire connecting needle and then are subsequently processed, or the processed fabrication hole beads are strung to be woven into various fabrication hole bead products and the like. The prior bead stringing operation is mostly manual bead stringing, and the automation degree is very low, so that the prior bead stringing operation has the results of large labor force and relatively high production cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the problem to prior art exists provides a curtain pearl sequencing polyphone minute distance device that structure is more reasonable. The utility model provides a wear the pearl pole through the rotation and wear into a back with the pearl, will wear the pearl through the driving lever in the direction distance subassembly dial to with wear on the dead lever of pearl pole butt joint, the distance picture peg is with the unanimous back of distance adjustment between the pearl, through upset propelling movement spout and a curtain pearl sequencing polyphone that the subassembly was worn to the pearl establishes ties the pearl at the coplanar and divide apart from the distance device, compare with prior art, this curtain pearl sequencing polyphone divides apart from the distance device can increase substantially string of beads efficiency, and can automated production, reduction in production cost.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

the curtain bead sequencing, series-connection, distance-dividing and distance-setting device comprises a rotary arranging component, a guiding and distance-setting component arranged behind the rotary arranging component, a bead-connecting and wire-threading component arranged behind the guiding and distance-setting component and a supporting plate,

the rotary arranging assembly comprises a rotary base and a plurality of bead penetrating rods inserted on the rotary base, the bead penetrating rods are perpendicular to each other, a first sliding block with a shaft hole is arranged below the rotary base, sliding block guide parts for fixing are arranged on two sides of the first sliding block, a first stepping motor for rotating the rotary base is arranged below the first sliding block, a first clamping plate and a second clamping plate are arranged on two sides parallel to the bead penetrating rods respectively, a first air cylinder is arranged in the perpendicular direction of the outer side of the second clamping plate, a second sliding block matched with the first clamping plate and the second clamping plate is arranged below the first clamping plate and the second clamping plate, a sliding rail is arranged below the second sliding block and is connected with the sliding rail in a sliding manner, a connecting rod is arranged below the sliding rail, and a second air cylinder is arranged at the tail end of the connecting rod;

the guide distance assembly comprises a left cover plate and a right cover plate which are arranged in parallel, a third air cylinder is installed on the outer side of the left cover plate, plate grooves are uniformly distributed on the left cover plate, a fourth air cylinder is installed on the outer side of the right cover plate, a plurality of gears are installed at positions between corresponding plate grooves on the outer side of the right cover plate and are mutually matched and connected, a second stepping motor for gear rotation is installed at the tail end of the gear arrangement, a fixed rod is installed between the left cover plate and the right cover plate, a sixth air cylinder for the fixed rod to stretch is installed at the tail end of the fixed rod, a shifting rod is installed above the fixed rod, a baffle plate is installed at the front end of the shifting rod downwards, a fifth air cylinder is installed at the tail end of the shifting rod, a plurality of distance inserting plates with sequentially lengthened lengths are installed on the left side of the left cover plate, springs are, a seventh air cylinder is installed on one side, away from the left cover plate and the right cover plate, of the supporting plate, a pushing plate is fixedly installed below the left cover plate, the right cover plate and the fourth air cylinder, an eighth air cylinder is installed on one side, away from the right cover plate, of the pushing plate, a pushing chute for the pushing plate to slide is installed below the pushing plate, the pushing plate is connected with the pushing chute in a sliding mode, and a ninth air cylinder is installed on one side, away from the right cover plate, of the pushing chute;

even pearl threading subassembly is including installing the first confession filament plate in push away plate top and installing the second confession filament plate in push away plate side, and first confession filament plate and second confession filament plate mutually support, first confession filament plate includes a plurality of wire feed rollers and a plurality of wire drawing roller, wire drawing roller side-mounting cutting rod, a plurality of third step motor are installed to first confession filament plate rear side, and the tenth cylinder is installed to the opposite side, first confession filament plate vertical direction outside installation first reel, install directly over the first reel and supply its upper and lower reciprocating motion's eleventh cylinder, the twelfth cylinder is installed to second confession filament plate one side, and step motor is installed to the opposite side, first confession filament plate vertical direction outside installation second reel.

Preferably, one end of the fixed rod close to the sixth cylinder is provided with a fitting part, and a buffer spring is arranged behind the fitting part.

Preferably, one end of the baffle, which is close to the fixing rod, is provided with a vertical gap, and the fixing rod can be inserted into the gap.

Preferably, the pushing chute is provided with rotating parts close to two ends of the lateral edge of the bead wire threading assembly, and the pushing chute can rotate by taking the lateral edge as an axis.

Compared with the prior art, the utility model discloses curtain pearl is arranged in a sequence and is linked together the beneficial effect of separating apart the distance device:

1. can increase substantially string of beads efficiency, reduction in production cost, overall structure design is accurate.

2. The mechanical beads replace manual beads and can be automatically produced, so that the physical labor is reduced, and the working efficiency is improved.

Drawings

Fig. 1 is a schematic view of the whole structure of the curtain bead sequencing series distance-dividing and distance-setting device of the present invention.

FIG. 2 is a schematic view of the rotary positioning assembly of the bead sorting, series-connection, distance-dividing and spacing device of the present invention.

Fig. 3 is a schematic structural view of the guiding and spacing assembly of the curtain bead sequencing series distance-dividing and spacing device of the present invention.

Fig. 4 is a partially enlarged schematic view of the guiding distance assembly a of the curtain bead sequencing series distance-dividing and distance-setting device of the present invention.

Fig. 5 is a schematic structural view of the bead-connecting threading assembly of the bead sorting, series-connection, distance-dividing and distance-setting device of the present invention.

Fig. 6 is a schematic diagram of the filament supply installation plate structure of the curtain bead sequencing series distance-dividing and distance-setting device of the present invention.

Reference numerals: 1. rotating the ranking component; 11. rotating the base; 111. a bead threading rod; 12. a first slider; 121. a first stepper motor; 13. a slider guide portion; 14. a first splint; 141. a first cylinder; 15. a second splint; 16. a second slider; 161. a second cylinder; 17. a slide rail; 2. a guide distance assembly; 21. a left cover plate; 211. a third cylinder; 212. a plate groove; 22. a right cover plate; 221. a fourth cylinder; 222. a gear; 223. a second stepping motor; 23. a deflector rod; 231. a fifth cylinder; 24. fixing the rod; 241. a sixth cylinder; 25. a fitting part; 26. a distance inserting plate; 261. a seventh cylinder; 262. a spring; 27. a push plate; 271. an eighth cylinder; 28. a push chute; 281. a ninth cylinder; 3. a bead wire threading assembly; 31. a first wire supply plate; 311. a tenth cylinder; 312. a wire feeding roller; 313. a wire drawing roller; 314. an orientation block; 315. cutting the rod; 316. a third step motor; 32. a first reel; 321. an eleventh cylinder; 33. a second wire supply plate; 331. a twelfth cylinder; 34. and a second wire coiling disc.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "vertical", "horizontal", "inner", "outer", "one side" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1, the overall structure of the bead sorting and series-connection distance-dividing and spacing device of the present embodiment includes a rotary aligning component 1, a guiding and spacing component 2 installed behind the rotary aligning component 1, a bead-connecting threading component 3 installed behind the guiding and spacing component 2, and a supporting plate.

As shown in FIG. 2, the rotary positioning assembly 1 comprises a cylindrical rotary base 11 and four bead penetrating rods 111 inserted in the rotary base 11, wherein the bead penetrating rods 111 are arranged perpendicularly to each other, and in order to make beads better penetrate the bead penetrating rods 111, the tail ends of the bead penetrating rods 111 are arranged to be chamfered. A first sliding block 12 with a shaft hole is arranged below the rotating base 11, sliding block guiding parts 13 for fixing are arranged on two sides of the first sliding block 12, the sliding block guiding parts 13 are composed of guiding blocks fixed on the left side and the right side of the first sliding block 12, a first stepping motor 121 for rotating the rotating base 11 is arranged below the first sliding block 12, a first clamping plate 14 and a second clamping plate 15 are respectively arranged on two sides parallel to the bead penetrating rod 111, a first air cylinder 141 is vertically arranged on the outer side of the second clamping plate 15, a matched second sliding block 16 is arranged below the first clamping plate 14 and the second clamping plate 15, a sliding rail 17 is arranged below the second sliding block 16, an inverted T-shaped convex rib is arranged below the second sliding block 16, a groove matched with the inverted T-shaped convex rib is arranged above the sliding rail 17, and second sliding block 16 and slide rail 17 sliding connection, the connecting rod is installed to slide rail 17 below, and second cylinder 161 is installed to the connecting rod end.

As shown in fig. 3 to 4, the guiding and spacing assembly 2 includes a left cover plate 21 and a right cover plate 22 that are parallel to each other, a third cylinder 211 for sliding the left cover plate 21 on the pushing plate 27 is installed on the outer side of the left cover plate 21, plate grooves 212 that are vertically disposed with beads and are matched in shape are uniformly distributed on the left cover plate 21, a rotatable rotating circular shaft is installed between each plate groove 212, a fourth cylinder 221 for sliding the right cover plate 22 on the pushing plate 27 is installed on the outer side of the right cover plate 22, inverted T-shaped ribs are disposed below the left cover plate 21 and the right cover plate 22, grooves matched with the inverted T-shaped ribs are disposed on the pushing plate 27, and the left cover plate and the right cover plate are slidably connected with the pushing plate 27. A plurality of gears 222 are arranged at the outer side of the right cover plate 22 corresponding to the positions between the plate grooves 212, the gears 222 are mutually matched and connected, and the gear 222 at the tail end of the arrangement is provided with a second stepping motor 223 for rotating the gear 222.

The fixing rod 24 is installed between the left cover plate 21 and the right cover plate 22, the diameter of the fixing rod 24 can penetrate through a through hole in the bead vertical placement process, the end of the fixing rod 24 is provided with a sixth air cylinder 241 for the fixing rod 24 to stretch, one end of the fixing rod 24 close to the sixth air cylinder 241 is provided with a fitting part 25, and a buffer spring 262 is installed behind the fitting part 25. A shifting rod 23 used for shifting beads from the bead threading rod 111 to the fixing rod 24 is installed above the fixing rod 24 through a supporting plate, a baffle plate is installed at the front end of the shifting rod 23 and faces downwards, a vertical opening is formed in one end, close to the fixing rod 24, of the baffle plate, the fixing rod 24 can be inserted into the opening, and a fifth air cylinder 231 used for enabling the shifting rod 23 to be in butt joint with the bead threading rod 111 forwards is installed at the tail end of the shifting rod 23.

A plurality of distance inserting plates 26 which are matched with the plate grooves 212 in shape are installed on the left side of the left cover plate 21, the length of the distance inserting plates 26 is gradually increased in the direction away from the rotary aligning component 1, a spring 262 is installed in the middle of the distance inserting plates 26, a supporting plate for fixing the distance inserting plates 26 is arranged below the distance inserting plates 26, a seventh air cylinder 261 is installed on one side, away from the left cover plate and the right cover plate, of the supporting plate, the seventh air cylinder 261 is used for the supporting plate to slide and extrude the spring 262, and the distance inserting plates 26 extend out to be inserted into the plate grooves.

Left side apron 21, right side apron 22 and fourth cylinder 221 below fixed mounting push plate 27, one side installation eighth cylinder 271 that right side apron 22 was kept away from to push plate 27, push plate 27 below installation can supply the gliding propelling movement spout 28 of push plate 27, and push plate 27 and propelling movement spout 28 sliding connection, ninth cylinder 281 is installed to one side that right side apron 22 was kept away from to propelling movement spout 28, propelling movement spout 28 is close to the lateral edge both ends installation rotation portion of even pearl threading subassembly 3, ninth cylinder 281 can supply propelling movement spout 28 to use the lateral edge to rotate as the axle.

As shown in fig. 5 to 6, the bead wire threading assembly 3 includes a first wire feeding plate 31 installed right above the pushing plate 27 and a second wire feeding plate 33 installed on a side surface of the pushing plate 27, and the first wire feeding plate 31 and the second wire feeding plate 33 are engaged with each other, the first wire feeding plate 31 includes a plurality of wire feeding rollers 312 and a plurality of wire drawing rollers 313, in this embodiment, six wire feeding rollers 312 are a small group, three are arranged closely above and below and are used for feeding a wire, the three wire drawing rollers 313 are a group of three and are arranged in a triangle for changing a wire threading direction, an orientation block 314 is installed on one side of the wire drawing rollers 313, a gap is opened in the middle of the orientation block 314, the wire is threaded through the gap, a cutting rod 315 is installed on the orientation block 314, the wire is cut after passing through the through holes of two vertically adjacent beads, a plurality of third step feeding motors 316 are installed on a rear side of the first wire feeding plate 31, the plurality of third step feeding motors 316 rotate the wire feeding rollers 312 and the wire drawing rollers 313, the tenth air cylinder 311 is installed on the other side of the first wire supplying plate 31, the first wire winding plate 32 is installed on the outer side of the first wire supplying plate 31 in the vertical direction, and the eleventh air cylinder 321 for up-and-down reciprocating motion is installed right above the first wire winding plate 32. The twelfth air cylinder 331 is installed on one side of the second wire supplying plate 33, the stepping motor is installed on the other side of the second wire supplying plate, the second wire winding disc 34 is installed on the outer side of the first wire supplying plate 31 in the vertical direction, the second wire winding disc 34 and the first wire winding disc 32 are basically the same in structure, and when wire threading work is started, the two discs work simultaneously.

The working process of the curtain bead sequencing, series-connection, distance-dividing and distance-setting device in the embodiment is as follows: after the device is started, after a plurality of beads are threaded on the bead threading rod 111, the rotating base 11 rotates ninety degrees, the beads are vertically fixed in the first clamping plate 14 and the second clamping plate 15, the first air cylinder 141 pushes the first clamping plate 14 to clamp the beads between the first clamping plate 15 and the second clamping plate 15, the second air cylinder 161 pushes the second sliding block 16 to slide towards the guide distance assembly 2 through the sliding rail 17, the first clamping plate 15 is butted with the left cover plate and the right cover plate, namely the bead threading rod 111 is butted with the fixed rod 24, the shifting rod 23 is lifted to shift the beads on the bead threading rod 111 to the fixed rod 24, at the moment, the beads are matched with the matching part 25, then the seventh air cylinder 261 pushes the supporting plate extrusion spring 262 to push the distance inserting plate 26 to slide towards the left cover plate 21, the distance inserting plates 26 are sequentially inserted into the plate slots 212 to keep a certain distance between two adjacent beads, the fourth air cylinder 221 pushes the right cover plate 22 to clamp the beads between the left, the distance inserting plate 26 and the fixing rod 24 are drawn out backwards, then the second stepping motor 223 drives the gear 222 to rotate, beads and the rotating circular shaft are turned right and left, the eighth air cylinder 271 arranged on one side of the pushing plate 27 pulls the pushing plate 27, the pushing plate 27 slides to one side through the pushing chute 28, the pushing chute 28 is close to two ends of the side edge of the bead wire threading assembly 3, the ninth air cylinder 281 pushes the pushing chute 28 to rotate by taking the side edge as the shaft, after the pushing plate 27 turns upwards in cooperation with the left and right cover plates 22, the eleventh air cylinder 321 pushes the first wire supplying plate 31 to vertically downwards, and the first wire supplying plate 31 and the second wire supplying plate 33 are respectively arranged on the two sides of the left and right cover plates.

In this embodiment, the wire threading of the plurality of wire coiling discs is 0.2mm steel wire, the beads are octagonal, two ends of each bead are provided with two through holes, eight beads between the left cover plate 21 and the right cover plate 22 are fixed into a group, the wire threading of the wire coiling discs is conveyed forward through a gap in the wire feeding roller 312 combination, the wire threading of the first wire supply plate 31 horizontally penetrates through the through holes arranged at the lower end of the first beads, the wire threading is inserted into the wire drawing roller 313 combination, then the wire threading is extruded by the orientation block 314 and then bent, the wire threading penetrates through the through holes arranged at the upper end of the second beads, the bent wire threading is cut by the cutting rod 315 after being inserted into the gap in the middle of the orientation block 314, and the wire threading work of the two separate. Because the pearl is less volumetrically, in order to facilitate the device setting, the first silk supply plate 31 and the second silk supply plate 33 are used in a left-right matching manner, the first silk supply plate 31 is connected and arranged at the lower end perforation of the first-position pearl and the upper end perforation of the second-position pearl, the second silk supply plate 33 is connected and arranged at the lower end perforation of the second-position pearl and the upper end perforation of the third-position pearl, and so on, the first silk supply plate 31 and the second silk supply plate 33 are matched in a mutual staggering manner.

The utility model provides a wear the pearl pole through the rotation and wear into a back with the pearl, will wear the pearl through the driving lever in the direction distance subassembly dial to with wear on the dead lever of pearl pole butt joint, the distance picture peg is with the unanimous back of distance adjustment between the pearl, through upset propelling movement spout and a curtain pearl sequencing polyphone that the subassembly was worn to the pearl establishes ties the pearl at the coplanar and divide apart from the distance device, compare with prior art, this curtain pearl sequencing polyphone divides apart from the distance device can increase substantially string of beads efficiency, and can automated production, reduction in production cost.

Finally, it should be noted that: the above embodiments are merely illustrative of the technical solutions of the present invention, and not limitative thereof; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (4)

1. A curtain bead sequencing series-connection distance-dividing and distance-setting device comprises a rotary arranging component (1), a guiding and distance-setting component (2) arranged behind the rotary arranging component (1), a bead-connecting wire-threading component (3) arranged behind the guiding and distance-setting component (2) and a supporting plate, and is characterized in that,

the rotary arranging component (1) comprises a rotary base (11) and a plurality of bead penetrating rods (111) inserted on the rotary base (11), the bead penetrating rods (111) are arranged in a mutually perpendicular mode, a first sliding block (12) with a shaft hole is arranged below the rotary base (11), sliding block guide parts (13) used for fixing are installed on two sides of the first sliding block (12), a first stepping motor (121) for rotating the rotary base (11) is installed below the first sliding block (12), a first clamping plate (14) and a second clamping plate (15) which are parallel to each other are arranged on two sides of the bead penetrating rods (111), a first air cylinder (141) is installed in the outer side of the second clamping plate (15) in a perpendicular direction, a second sliding block (16) matched with each other is installed below the first clamping plate (14) and the second clamping plate (15), and a sliding rail (17) is installed below the second sliding block (16), the second sliding block (16) is connected with the sliding rail (17) in a sliding mode, a connecting rod is installed below the sliding rail (17), and a second air cylinder (161) is installed at the tail end of the connecting rod;

the guide distance assembly (2) comprises a left cover plate (21) and a right cover plate (22) which are arranged in parallel, a third air cylinder (211) is installed on the outer side of the left cover plate (21), plate grooves (212) are uniformly distributed on the left cover plate (21), a fourth air cylinder (221) is installed on the outer side of the right cover plate (22), a plurality of gears (222) are installed on the outer side of the right cover plate (22) corresponding to positions between the plate grooves (212) and are matched and connected with each other, a second stepping motor (223) for rotating the gears (222) is installed at the tail end of each gear (222), a fixing rod (24) is installed between the left cover plate (21) and the right cover plate (22), a sixth air cylinder (241) for stretching and retracting the fixing rod (24) is installed at the tail end of the fixing rod (24), a shifting rod (23) is installed above the fixing rod (24), and a baffle is installed at the front end of the, a fifth cylinder (231) is arranged at the tail end of the deflector rod (23), a plurality of distance inserting plates (26) with sequentially lengthened lengths are arranged on the left side of the left cover plate (21), a spring (262) is arranged in the middle of the distance inserting plate (26), a supporting plate for fixing a plurality of distance inserting plates (26) is arranged below the distance inserting plate (26), a seventh cylinder (261) is arranged on one side of the supporting plate far away from the left cover plate and the right cover plate, a pushing plate (27) is fixedly arranged below the left cover plate (21), the right cover plate (22) and the fourth cylinder (221), an eighth cylinder (271) is arranged on one side of the push plate (27) far away from the right cover plate (22), a pushing chute (28) which can be used for the pushing plate (27) to slide is arranged below the pushing plate (27), the pushing plate (27) is connected with the pushing chute (28) in a sliding mode, and a ninth cylinder (281) is installed on one side, far away from the right cover plate (22), of the pushing chute (28);

the continuous bead wire threading assembly (3) comprises a first wire feeding plate (31) arranged above the pushing plate (27) and a second wire feeding plate (33) arranged on the side face of the pushing plate (27), the first wire feeding plate (31) and the second wire feeding plate (33) are matched with each other, the first wire feeding plate (31) comprises a plurality of wire feeding rollers (312) and a plurality of wire drawing rollers (313), a directional block (314) is arranged on one side of each wire drawing roller (313), a cutting rod (315) is arranged on each directional block (314), a plurality of third step motor (316) are arranged on the rear side of the first wire feeding plate (31), a tenth air cylinder (311) is arranged on the other side of the first wire feeding plate (31), a first wire winding disc (32) is arranged on the outer side of the vertical direction of the first wire winding disc (32), an eleventh air cylinder (321) for up-down reciprocating motion of the first wire winding disc (32) is arranged right above the first wire winding disc, and a twelfth air cylinder (331) is arranged on one side of the second wire feeding plate (33), a stepping motor is arranged on the other side of the first wire supply plate, and a second wire winding disc (34) is arranged on the outer side of the first wire supply plate (31) in the vertical direction.

2. Curtain bead sequencing, in-line, distancing and spacing device according to claim 1, characterized in that one end of the fixed rod (24) close to the sixth cylinder (241) is fitted with a fitting part (25), and a buffer spring (262) is fitted behind the fitting part (25).

3. The curtain bead sequencing, series-connection, distance-dividing and distance-fixing device as claimed in claim 1, wherein a baffle is arranged at the front end of the deflector rod (23), a vertical gap is arranged on the baffle, and the fixing rod (24) can be inserted into the gap.

4. The curtain bead sequencing and tandem spacing and spacing device as claimed in claim 1, wherein the pushing chute (28) is provided with a rotating part near both ends of the lateral edge of the bead threading assembly (3), and the pushing chute (28) can rotate by taking the lateral edge as an axis.

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