CN217104314U - Can carry sending pearl structure of multiple specification pearl - Google Patents

Abstract

The utility model discloses a can carry send pearl structure of multiple specification pearl, including bottom plate, the pearl that slides on the bottom plate presss from both sides, drive pearl clamp and comes and goes in the drive assembly who connects pearl position and embroiders pearl position. The utility model discloses it connects the pearl pole to be located to connect pearl position department setting on the bottom plate to set up the drive and connect the pearl pole can go up, glide and connect the pearl or can break away from the drive structure of location pearl, when needs connect and get the pearl, accessible drive structure drive connects the pearl pole and upwards slides, makes and connects the pearl pole protrusion to connect in the bottom plate and get the pearl that slides from leading the pearl pole, and fixes a position the pearl temporarily, treats behind the pearl clamp centre gripping pearl, the drive structure drive connects the pearl pole and can break away from the pearl downwards, so that the pearl is carried to the pearl clamp. The beads slide down from the bead guide rod, and before the beads are clamped and positioned by the beads, the beads can be accurately positioned by the bead receiving rod through the clamping device, the beads are effectively prevented from falling off from the bead guide rod, and the beads can be clamped and positioned quickly and accurately by the bead clamp. The bead rod positions the beads without affecting the delivery of the beads.

Description

Can carry sending pearl structure of multiple specification pearl

Technical Field

The utility model relates to a can carry sending pearl structure of multiple specification pearl.

Background

Along with the technical problem of bead threading of scattered beads is solved, the types of the existing bead embroidery beads are more and more abundant. The bead of present bead embroidery needs a bead guide rod suspended at the bead receiving position of the bead feeding structure to position the bead, and when in use, the bead slides off the bead guide rod and falls into the bead clamp of the bead feeding structure, and the bead clamp has certain adaptability generally. For example, the distance between the bead guide rod for conveying the high-height tube beads and the bead clamp is large, when the high-height tube bead beads slide down from the bead guide rod, the tube beads are easy to incline due to the fact that the height of the bead clamp at the clamping port is limited and the clamping port is too large, the gravity center of the tube beads is high, and therefore the difficulty of the bead clamp for rapidly and accurately clamping the tube beads is increased, tube bead deflection clamping conveying is easy to occur, and therefore the tube beads cannot be well matched with an embroidery needle, the beads can be embroidered rapidly and accurately, or the beads cannot be embroidered at all.

The end surface deflection of some beads can easily cause the beads to slide from the bead guide rod to the bead clamp to deflect, and the beads are not easily clamped and positioned by the bead clamp quickly and accurately.

In addition, when relatively round foam beads are conveyed, the foam beads are easy to roll, and the foam beads slide from the bead guide rod to the bead clamp of the bead conveying structure, so that the foam beads are not easy to be rapidly and accurately clamped and positioned by the bead clamp.

Disclosure of Invention

The utility model solves the problems that the prior art has a bead feeding structure in the use process and the bead feeding structure is different from the conveying structure

The utility model provides a current technical scheme who has the problem be: the bead feeding structure capable of conveying beads of various specifications comprises a base plate, a bead clamp sliding on the base plate, and a driving assembly driving the bead clamp to move back and forth between a bead receiving position and a bead embroidering position.

As a further improvement, the driving structure comprises a sliding block for driving the ball-receiving rod to slide and a driver for driving the sliding block to slide, the sliding block can slide on the corresponding position of the bottom plate in a sliding manner, and the sliding block is provided with a driving inclined plane for driving the ball-receiving rod to slide up and down along with the sliding of the sliding block.

As a further improvement, the driving inclined planes are symmetrically arranged double inclined planes, and the symmetrical planes of the double inclined planes are vertical to the moving direction of the sliding block; the symmetry plane is arranged at the lowest position of the inclined plane.

As a further improvement, the ball-receiving rod is provided with a seat body, and a guide hole for accommodating the guide ball-receiving rod to slide up and down is arranged in the seat body; the ball-receiving rod is provided with a driving convex handle matched with the driving inclined plane; the seat body is provided with a guide groove matched with the driving convex handle. The corresponding position of the sliding block is provided with a sliding groove for accommodating the seat body.

As a further improvement, the driving inclined planes are symmetrically arranged at the corresponding positions at the two sides of the sliding block, and the driving convex handles are arranged at the two sides of the ball-connecting rod

As a further improvement, the driver is a driving motor, and a gear and a strip-shaped tooth which are matched with each other or a gear and a rack which are matched with each other are arranged between the driving motor and the sliding block.

As a further improvement, the bottom plate comprises a front bottom plate and a rear bottom plate, and an installation groove is arranged between the front bottom plate and the rear bottom plate.

As a further improvement, the ball-receiving rod is sequentially provided with at least two steps of ladder rods with the outer diameters from small to large, and the ladder rods are sequentially arranged from top to bottom and with the outer diameters from small to large.

As a further improvement, the ball-receiving rod is provided with an elastic body for driving the ball-receiving rod to reset into the guide hole; the upper end part of the ball-connecting rod is provided with a guide conical head.

As a further improvement, the bottom plate is provided with a guide hole for installing and guiding the ball-receiving rod at the position of the ball-receiving position.

Compared with the prior art, the utility model, it connects the pearl pole to lie in the setting of connecing pearl position department on the bottom plate, and set up the drive and connect the pearl pole can go up, the gliding moves and connects the pearl or can break away from the drive structure of location pearl, when needs connect and get the pearl, accessible drive structure drive connects the pearl pole upwards to slide, make and connect pearl pole protrusion to connect in the bottom plate and get from leading the pearl pole on the pearl bead that slides, and fix a position the pearl temporarily, treat behind the pearl clamp centre gripping pearl, drive structure drive connects the pearl pole downwards to slide and can break away from the pearl, in order to make things convenient for the pearl to press from both sides the transport pearl. The bead clamping device has the beneficial effects that the beads slide down from the bead guide rod, and the beads can be accurately positioned by the bead receiving rod through the bead clamping device before being clamped and positioned by the beads, so that the beads are effectively prevented from falling off from the bead guide rod, and the beads can be conveniently clamped and positioned quickly and accurately by the bead clamp. The bead rod positions the beads without affecting the delivery of the beads. The utility model discloses the setting connects the pearl pole can connect the pearl of getting multiple specifications such as tub pearl, bubble pearl on the basis of sending the pearl structure now.

Drawings

Fig. 1 is a schematic view of the bead feeding structure of the present invention.

Fig. 2 is an exploded view of a part of the present invention.

Fig. 3 is an enlarged schematic view of fig. 2 at a.

Fig. 4 is a schematic structural view of the bead feeding structure of the present invention.

Fig. 5 is a schematic view of the bead-receiving structure of the present invention.

Fig. 6 is an enlarged schematic view of fig. 5 at b.

Fig. 7 is a perspective structure diagram of the bead receiving structure of the present invention.

Fig. 8 is an enlarged schematic view at c of fig. 7.

Detailed Description

Referring to fig. 1-8, the present embodiment includes a bead feeding structure capable of conveying beads of various specifications, including a bottom plate 1, a bead clip 2 sliding on the bottom plate 1, and a driving assembly 3 driving the bead clip 2 to reciprocate between a bead receiving position and an embroidery bead position to convey beads, wherein a bead receiving rod 4 is disposed on the bottom plate 1 at the bead receiving position, the bead receiving rod 4 is provided with a driving structure 5 driving the bead receiving rod 4 to slide upwards to protrude out of the bottom plate 1 for receiving beads and slide downwards to be detachable from the positioning beads, and the bottom plate 1 is disposed at the bead receiving position with a vacant position for accommodating the bead receiving rod 4. The vacant position can be vacant or a hole, and the specific structure is based on the installation of the ball-connecting rod 4.

When the bead guiding device is used, the bead guiding rod for threading beads and supplying the beads is suspended at the bead receiving position of the bead conveying structure. The driving component 3 drives the clamping port of the ball clamp 2 to return to the ball receiving position to open the ball clamp. The bead receiving rod 4 at the bead receiving position can drive the bead receiving rod 4 to slide upwards through the driving structure 5 to receive beads sliding from the bead guiding rod and position the beads, after the beads are clamped by the bead clamp 2, the driving structure 5 drives the bead receiving rod 4 to slide downwards and can be separated from the beads, so that the bead clamp 2 can smoothly convey the beads to the bead embroidering position to be matched with an embroidery needle for bead embroidery. The bead-receiving rod 4, which is disposed at the bead-receiving position, is generally disposed coaxially with the bead-guiding rod suspended above the bead-delivering structure.

The bead clamp 2 and the driving component 3 can adopt the existing technical structure capable of conveying beads. Referring to fig. 1-4, in the present embodiment, the driving assembly 3 includes a pushing plate 31 for pushing the ball clamp to advance, and a U-shaped sliding plug connecting the pushing plate 31 and the swing rod, and the U-shaped sliding plug can be driven by the swing rod. A control structure for driving the ball clamp 2 to clamp and advance along with the advance of the push plate 31 or to open and retreat or to retreat along with the advance and retreat of the push plate 31 is arranged between the push plate 31 and the ball clamp.

The control structure can adopt the prior art, for example, a driving arm matched with the bead clamp 2 is arranged on the pushing plate 31, a control groove and a finger handle for driving the bead clamp to advance or retard to advance and retreat along with the advancing of the pushing plate 31 or retard to retreat are arranged between the driving arm and the bead clamp, a first inclined surface for clamping along with the advancing of the pushing plate and a second inclined surface for opening the bead clamp along with the retreating of the pushing plate are arranged between the control groove and the finger handle.

The control structure can also be an eccentric rotating column arranged between the ball clamp and the pushing plate, and the eccentrically arranged ball clamp is clamped and moves forwards along with the advancing of the pushing plate or moves forwards and backwards with delay, and is opened and moves backwards or moves backwards with delay. In this embodiment, as shown in fig. 1-2, a cover plate 32 may be disposed on the bead clamp 2, the bead clamp 2 includes a pair of clamping arms 21 that are engaged with each other, a chute and a first guide post that are engaged with each other are disposed between each clamping arm 21 and the pushing plate 31, and a translation guide groove and a pair of second guide posts that are engaged with each other are disposed between the cover plate 32 and each clamping arm 21. The inclined groove is matched with the first guide post, and the translation guide groove is matched with the second guide post, so that the bead clamp 2 is clamped by the forward movement of the pushing plate 31 and moves forward or moves backward with delay, and is opened by the backward movement of the pushing plate 31 and moves backward or moves backward with delay.

The driving structure 5 comprises a slide block 51 for driving the ball-receiving rod 4 to slide up and down and a driver 6 for driving the slide block 51 to slide, the slide block 51 can slide on the corresponding position of the bottom plate 1 in a sliding manner, and the slide block 51 is provided with a driving inclined surface 52 for driving the ball-receiving rod 4 to slide up and down along with the slide block 51. The ball-receiving rod 4 is driven to slide up and down by the matching of the driving inclined plane 52 and the ball-receiving rod 4.

Referring to fig. 2-8, the driving inclined plane 52 is a symmetrically arranged double inclined plane, and the symmetric plane of the double inclined plane is perpendicular to the moving direction of the slider 51; the symmetry plane is arranged at the lowest position of the inclined plane. The double inclined planes can reduce the reciprocating sliding frequency of the sliding block 51, so that the ball-receiving rod 4 can run more stably, and the precision of the sliding block 51 for controlling the ball-receiving rod 4 is improved. The lowest department when this application structure normal installation uses.

In order to ensure that the ball-receiving rod 4 runs stably and is convenient to install and use, the ball-receiving rod 4 is provided with a seat body 41, and a guide hole 42 for accommodating the upward and downward sliding movement of the guiding ball-receiving rod 4 is arranged in the seat body 41; the ball-receiving rod 4 is provided with a driving convex handle 43 matched with the driving inclined plane 52, and the driving convex handle 43 slides to the driving inclined plane 52 and is driven by the driving inclined plane 52 to drive the ball-receiving rod 4 to slide up and down; the base body 41 is provided with a guide groove 44 matched with the driving convex handle 43. The sliding block 51 is provided with a sliding groove 53 corresponding to the seat 41, so that the sliding block 51 can avoid collision with the seat 41 when sliding left and right.

In order to facilitate the driving ball-catching rod 4 to slide smoothly, the driving inclined planes 52 are symmetrically arranged at the corresponding positions on the two sides of the sliding block 51, and the driving convex handles 43 are arranged on the two sides of the ball-catching rod 4.

For the convenience of installation, the driver 6 in this embodiment is a driving motor, and a gear and a rack 61 or a rack 62 are disposed between the driving motor and the slider 51. Of course, the driver 6 may be other propulsion mechanisms that can provide power, such as pneumatic rod, hydraulic rod, linear motor, electromagnetic push rod, etc.

Referring to fig. 1, 2 and 4, for convenience of manufacture and installation, the base plate 1 includes a front base plate 11 and a rear base plate 12, a mounting groove 13 is provided between the front and rear base plates, and the mounting groove 13 can be used for mounting a slider 51 of the driving structure 5.

The ball-receiving rod 4 is sequentially provided with at least two stepped rods with small to large outer diameters, and the stepped rods are sequentially arranged from top to bottom and from small to large outer diameters. The ladder rods with different outer diameters are arranged above two stages, so that beads with different inner diameters can be conveniently and adaptively accessed. The step rod with corresponding outer diameter is controlled to protrude out of the bottom plate 1 by the distance that the ball receiving rod 4 is driven to move upwards by the driving inclined surface 52 of the driving structure 5, and the upper step ball receiving rod forms a guiding function.

The ball-receiving rod 4 is provided with an elastic body for driving the ball-receiving rod 4 to reset into the guide hole 42, the ball-receiving rod 4 can be driven to slide upwards through the driving inclined surface 52, and the ball-receiving rod 4 can be driven to slide downwards through self weight or/and the elastic body; the upper end part of the ball-receiving rod 4 is provided with a guide conical head.

As another mode, the bottom plate 1 is provided with a guide hole for installing and guiding the ball-receiving rod 4 at the ball-receiving position. Namely, the bottom plate 1 can be arranged as an integral bottom, and the bottom plate 1 is directly provided with a guide hole.

The utility model discloses the structure can send pearl structure with single pearl or many pearls to cooperate, in the utility model discloses the drawing, send pearl structure and many pearls structure cooperation. The multi-bead structure generally comprises a bead guide rod capable of arranging multi-path bead conveying, the bead guide rod is suspended above the bead conveying structure, a switching mechanism is arranged, and the bead guide rod for switching the multi-path bead conveying is used for pushing the corresponding bead guide rod to a bead receiving position of the bead conveying structure to supply beads according to needs.

Claims (10)

1. The utility model provides a can carry send pearl structure of multiple specification pearl, includes the bottom plate, slides pearl clamp, the drive pearl clamp on the bottom plate and reciprocates the drive assembly who connects pearl position and embroiders pearl position, its characterized in that: the bottom plate is provided with a bead receiving rod at a bead receiving position, the bead receiving rod is provided with a driving structure which can drive the bead receiving rod to slide upwards to protrude out of the bead receiving position of the bottom plate and slide downwards to separate from the positioning beads, and the bottom plate is provided with a vacant position for accommodating the bead receiving rod at the bead receiving position.

2. The bead delivery structure capable of delivering beads of various sizes as claimed in claim 1, wherein: the driving structure comprises a sliding block and a driver, the sliding block is driven to slide by the sliding block, the sliding block can slide at the corresponding position of the bottom plate in a sliding manner, and the sliding block is provided with a driving inclined plane which drives the ball-receiving rod to slide up and down along with the sliding of the sliding block.

3. The bead delivery structure capable of delivering beads of various sizes as claimed in claim 2, wherein: the driving inclined planes are symmetrically arranged double inclined planes, and the symmetrical planes of the double inclined planes are vertical to the motion direction of the sliding block; the symmetry plane is arranged at the lowest part of the inclined plane.

4. The bead delivery structure capable of delivering beads of various sizes as claimed in claim 2, wherein: the ball-connecting rod is provided with a seat body, and a guide hole for accommodating and installing the guide ball-connecting rod to slide up and down is arranged in the seat body; the ball-receiving rod is provided with a driving convex handle matched with the driving inclined plane; the seat body is provided with a guide groove matched with the driving convex handle; the corresponding position of the sliding block is provided with a sliding groove for accommodating the seat body.

5. The bead delivery structure capable of delivering beads of various sizes as claimed in claim 4, wherein: the driving inclined planes are symmetrically arranged at corresponding positions on two sides of the sliding block, and the driving convex handles are arranged on two sides of the ball-connecting rod.

6. The bead delivery structure capable of delivering beads of various sizes as claimed in claim 2, wherein: the driver is a driving motor, and a gear and a strip-shaped tooth which are matched with each other or a gear and a rack which are matched with each other are arranged between the driving motor and the sliding block.

7. The bead delivery structure capable of delivering beads of various sizes as claimed in claim 1, wherein: the bottom plate comprises a front bottom plate and a rear bottom plate, and a mounting groove is formed between the front bottom plate and the rear bottom plate.

8. The bead delivery structure capable of delivering beads of various sizes as claimed in claim 1, wherein: the ball-receiving rod is sequentially provided with at least two stepped rods with small to large outer diameters, and the stepped rods are sequentially arranged from top to bottom and from small to large outer diameters.

9. The bead delivery structure capable of delivering beads of various sizes as claimed in claim 1, wherein: the ball-connecting rod is provided with an elastic body for driving the ball-connecting rod to reset into the guide hole; the upper end part of the ball-connecting rod is provided with a guide conical head.

10. The bead delivery structure capable of delivering beads of various sizes as claimed in claim 1, wherein: the bottom plate is provided with a guide hole for installing and guiding the ball-receiving rod at the ball-receiving position.

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