CN217149557U - Bead feeding mechanism capable of adapting to beads of various specifications and device using same - Google Patents

Abstract

The utility model discloses a what adaptable multiple specification pearl send pearl mechanism and use device of this mechanism, including bottom plate, slide and carry pearl to the pearl of embroidering pearl station department on the bottom plate and press from both sides drive structure, the mounting bracket of subassembly, pearl clamp subassembly include the pearl and press from both sides, the bottom plate on be equipped with and press from both sides complex adjusting plate with the pearl. The utility model arranges the adjusting plate matched with the bead clamp on the bottom plate, and arranges the sliding driver which drives the adjusting plate to slide to the bead feeding area and leave the bead feeding area, and the adjusting plate is driven to slide to the bead feeding area by the sliding driver to form the bottom surface for supporting the beads clamped by the bead feeding clamp, so that the beads with relatively stable clamping height of the bead clamp can be clamped; or the adjusting plate is driven by the sliding driver to slide away from the bead conveying area, so that the bottom plate forms the bottom surface for holding the beads clamped by the bead conveying clamp, the depth of the bottom plate is increased, and the adjusting plate can be used for holding and conveying the beads with higher height.

Description

Bead feeding mechanism capable of adapting to beads of various specifications and device using same

Technical Field

The utility model relates to a what adaptable multiple specification pearl send pearl mechanism and use device of this mechanism.

Background

The bead embroidery has bright color and strong stereoscopic impression, and is widely popularized.

The beads are required to be threaded on the bead guide rod, and are sent out to the bead embroidering station from the bead receiving position through the bead sending clamp which slides on the bottom plate through the bead sending mechanism at the bottom of the bead guide rod. Because the certain distance will be preset with the bottom plate top in leading pearl pole end, this distance is greater than the 1 times of the pearl height of carrying, be less than the high 2 times of the pearl of carrying, in order to improve the stability that the pearl was carried, this distance is controlled more than 1 times usually, 1.2 times following a comparatively narrow and small within range, consequently the high specification of the pearl that a bottom plate can carry and limited, therefore the present bottom plate that send the pearl device is compatible relatively poor to the pearl of co-altitude not, carry the pearl of co-altitude not, need to change the bottom plate that has the different degree of depth and send the pearl to press from both sides. In addition, when the transport pearl of pearl clamp subassembly, in order to avoid the pearl focus too high, the pearl incline when avoiding the pearl to press from both sides the transport pearl, the pearl presss from both sides centre gripping usually in the middle part of pearl, perhaps is close to the upper portion centre gripping, can not make the pearl too protruding pearl press from both sides, has also caused the bottom plate of certain degree of depth like this and can only the comparatively limited pearl of centre gripping height, and is relatively poor to the compatibility of not co-altitude pearl.

With the continuous improvement of the pearl embroidery requirement, a base plate capable of conveying beads with various specifications is often required, and the existing bead conveying device can obviously not meet the requirement.

Disclosure of Invention

The utility model discloses a solve the current pearl device that send and only can carry the pearl of comparatively limited specification at the bottom plate of embroidering pearl in-process device problem, provide a pearl device that send of adaptable multiple specification pearl.

The utility model provides a current technical scheme who has the problem be: the bead feeding mechanism comprises a base plate, a bead clamp assembly driving structure and a mounting frame, wherein the bead clamp assembly slides on the base plate and conveys beads to an embroidery bead station, the bead clamp assembly comprises a bead clamp, as an improvement, an adjusting plate matched with the bead clamp is arranged on the base plate, the adjusting plate is provided with a sliding driver which can drive the adjusting plate to slide to a bead feeding area and leave the bead feeding area, and when the bead feeding area is used for feeding beads by the bead clamp assembly, a clamping port of the bead clamp or/and a path area where the clamped beads slide on the base plate relatively.

As a further improvement, the base plate is provided with a base surface, the bead clamp slides on the base surface, the base surface on the base plate is positioned at the adjusting plate and is provided with a sinking surface for placing the adjusting plate, the adjusting plate can be arranged on the sinking surface in a sliding manner, and the upper end surface of the adjusting plate and the base surface form the base surface for supporting the sliding of the bead clamp.

As a further improvement, the bottom plate is provided with lifting parts at two sides of the bead clamp assembly, and the lifting parts at two sides and the bottom plate form a guide chute of the bead clamp assembly; the corresponding position of the lifting part on the side of the adjusting plate is provided with a guide groove matched with the adjusting plate.

As a further improvement, the sliding driver is a driving component which comprises a sliding driving motor, a connecting arm connected with the adjusting plate and a power driving connecting arm for transmitting the sliding driving motor.

As further improvement, drive assembly include the link of drive wheel and driven wheel, location installation drive wheel and driven wheel that mutual belt is connected, the drive wheel be connected with the driving motor that slides, the belt on be equipped with the transmission piece, the transmission piece be connected with the linking arm.

As a further improvement, the driving assembly further comprises a pushing arm connected to the transmission block in a switching manner, a sliding plate frame connected with the pushing arm, and a bent arm connected to the sliding plate frame, wherein the lower end of the bent arm is connected with a connecting arm on the transmission block; and a matched sliding rail assembly is arranged between the sliding plate frame and the mounting frame.

As a further improvement, the adjusting plate is arranged on one side of the bottom plate, and the sliding driver is arranged on the mounting frame and on the same side as the adjusting plate.

As a further improvement, the bead clamp is provided with a convex edge extending upwards at the position of the inner wall extending along the clamping opening.

As a further improvement, the sliding driver is a pneumatic rod, a hydraulic rod or a linear motor.

The bead feeding device provided with the bead feeding mechanism with any one scheme or any combination of any schemes comprises a bead guiding rod which is suspended above the bead feeding mechanism and used for supplying beads, wherein the bead feeding mechanism is arranged above a bead clamp assembly and provided with a bead receiving position, and the output end of the bead guiding rod is arranged at the bead receiving position.

As a further improvement, the bead guiding rods are provided with at least two paths, and the bead guiding rods are also provided with a switching mechanism for driving and switching the sliding of the at least two paths of bead guiding rods to the bead receiving position.

As a further improvement, the switching mechanism comprises a sliding block for positioning and driving the bead guide rod, the sliding block is provided with a bead guide hole which is matched with the bead guide rod and can accommodate beads penetrating through the bead guide rod, and the sliding block is provided with a switching driver for driving the sliding block to slide.

As a further improvement, the switching driver is an independent driver.

As a further improvement, the switching mechanism comprises a sliding block for positioning and driving the bead guiding rod, the sliding block is provided with a bead guiding hole which is matched with the bead guiding rod and can accommodate beads passing through the bead guiding rod, and the sliding block is provided with a connecting structure for connecting a sliding driver arranged on the bead feeding mechanism.

As a further improvement, the ball guide rod also comprises a ball supply mechanism matched with the upper end of the ball guide rod.

Compared with the prior art, the utility model, set up the adjusting plate cooperating with pearl clamp on the bottom plate, and set up the drive adjusting plate and can slide to sending pearl area, can leave and send the driver that slides of pearl area, drive adjusting plate to slide to sending pearl area through the driver that slides and make the adjusting plate constitute and support the bottom surface that send the pearl that pearl clamp held the pearl, can make the pearl clamp relatively stable the less pearl of height of centre gripping; or the adjusting plate is driven by the sliding driver to slide away from the bead conveying area, so that the bottom plate forms the bottom surface for holding the beads clamped by the bead conveying clamp, the depth of the bottom plate is increased, and the adjusting plate can be used for holding and conveying the beads with higher height. The utility model has the advantages that, the utility model discloses simple structure for current send pearl structure, the adaptable pearl of carrying multiple high difference.

Drawings

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

Fig. 2 is a schematic view of the bead feeding device according to another angle of the present invention.

Fig. 3 is an enlarged schematic view of fig. 1 at a.

Fig. 4 is an enlarged schematic view at b of fig. 2.

Fig. 5 is a schematic structural view of the bead feeding device of the present invention.

Fig. 6 is a schematic structural view of the bottom plate of the bead feeding device of the present invention.

Fig. 7 is a schematic structural view of the bead feeding device of the present invention at another angle.

Fig. 8 is a schematic view of the structure at c of fig. 5.

Fig. 9 is an enlarged schematic view at d of fig. 8.

Detailed Description

Referring to fig. 1-8, in the present embodiment, a bead feeding mechanism adaptable to beads of various specifications includes a base plate 1, a bead clamp assembly 2 sliding on the base plate 1 to feed beads to an embroidery bead station, a driving structure of the bead clamp assembly 2, and a mounting frame 3 connecting and mounting each component, wherein an adjusting plate 4 matched with a bead clamp 20 is disposed on the base plate 1. In order to smoothly slide the bead clamps 4 and keep accurately conveying the clamped beads, the bead clamps 4 are usually slidable on the adjustment plate 4, and a backing plate for keeping the adjustment plate 4 sliding can be provided on the bottom plate 1 avoiding the bead conveying area. The backing plate avoiding the bead feeding area may also be fitted with the adjustment plate 4, if the bead clamps slide partly on the backing plate and partly on the adjustment plate 4, the upper end of the backing plate is preferably flush with the adjustment plate 4 and at the same height, so as to fit the flat bead clamp assembly 2. Specifically configured to incorporate the prior art to allow a smooth sliding position for the bead clamps 20.

The bead clip assembly 2 can adopt a bead clip assembly of a prior art structure, the bead clip assembly 2 generally comprises a bead clip 20 and a driving part 23 matched with the bead clip 20, a control structure which is clamped and moves forward along with the forward movement of the driving part 23 and expands the bead clip and moves backward along with the backward movement of the driving part 23 is arranged between the bead clip 20 and the driving part 23, in the embodiment, the driving part 23 comprises a driving plate matched with the driving structure of the bead clip assembly 2, and the front end of the driving plate is provided with a sliding groove for accommodating the bead clip 20. The control structure is a first inclined plane which is arranged at the corresponding position of the inner wall of the sliding groove of the driving plate and the outer wall of the ball clamp 21 and drives the ball clamp 21 to clamp and move forwards, a second inclined plane which drives the ball clamp 21 to open and move backwards, and a necessary sliding groove.

Of course other prior art configurations for the bead clamp assembly 2 are possible.

The bead clamps 20 can also be advanced and clamped with a delay as the drive member 23 is advanced and retracted and expand the bead clamps with a delay as the drive member 23 is retracted. The specific actions are based on corresponding prior art structures.

The driving structure of the bead clamp assembly 2 is used for driving the bead clamp assembly 2 to reciprocate to the bead embroidering station and the bead receiving position. The driving structure of the ball clamping assembly 2 comprises a first driving motor 24 arranged on the mounting frame 3 and a swing rod 25 connected with the driving part 23, the swing rod 25 is rotatably arranged on the mounting frame 3, a first belt pulley set is arranged between the swing rod 25 and the first driving motor 24, and the first belt pulley set comprises a first driving belt (not shown in the figure), a first belt pulley 26 arranged on the first driving motor 24 and a second belt pulley 27 arranged on the rotation shaft of the swing rod 25.

The mounting frame 3 may be provided as a mounting plate.

The bead feeding area is a path area where the clamping opening 21 of the bead clamp 20 or/and the clamped beads slide on the bottom plate 1 relatively when the bead clamp assembly 2 feeds the beads.

The adjusting plate 4 is provided with a driver 5 for driving the adjusting plate 4 to slide. The sliding driver 5 drives the adjusting plate 4 to slide to the bead feeding area or leave the bead feeding area according to the height of the beads to be conveyed. If the beads with lower height need to be conveyed, the sliding driver 5 drives the adjusting plate 4 to slide to the bead conveying area, the upper end surface of the adjusting plate 4 forms the bottom surface of the bead clamp 20 of the bead clamping component 2, and the bead clamp 20 clamps the beads and then conveys the beads to the bead embroidering station, namely the beads are embroidered by the embroidery needle under the embroidery needle. When beads with higher height need to be conveyed, referring to fig. 6-7, the sliding driver 5 drives the adjusting plate 4 to leave the bead conveying area, i.e. the bead conveying groove 41 which is set aside after the adjusting plate 4 slides. The bottom surface that the corresponding face of bottom plate 1 constitutes to hold in the palm and send 2 pearl clamps 20 centre gripping pearls of pearl clamp subassembly this moment, and the degree of depth of carrying the pearl on the bottom plate 1 of effectual increase can make highly higher pearl bottom further descend to reduce the focus of pearl, make the pearl press from both sides 20 can be comparatively reasonable centre gripping at the reasonable height of pearl, thereby comparatively steady carry higher pearl. The utility model discloses a driver 5 drive adjusting plate that slides gets into or leaves and send the pearl regional compatible not high pearl of carrying.

In order to facilitate the standard language production and the matching of each component, the base surface 15 is arranged on the bottom plate 1, the bead clamp 20 slides on the base surface 15, the upper base surface of the bottom plate 1 is positioned at the adjusting plate 4 and is provided with a sinking surface 11 for placing the adjusting plate 4, the adjusting plate 4 can be arranged on the sinking surface 11 in a sliding manner, and the upper end surface of the adjusting plate 4 and the base surface 15 form a base surface for supporting the bead clamp 20 to slide.

The bottom plate 1 is provided with lifting parts 12 at two sides of the bead clamp assembly 2, and the lifting parts 12 at two sides and the bottom plate 1 form a guide chute 13 of the bead clamp assembly 2; a guide groove 14 which is engaged with the adjusting plate 4 is provided at a corresponding position of the lifting portion 12 on the adjusting plate 4 side.

In this embodiment, the sliding driver 5 is a driving assembly including a sliding driving motor 51, a connecting arm 52 connected to the adjusting plate 4, and a connecting arm 52 for transmitting power of the sliding driving motor 51 to drive the sliding driving motor. The driving assembly comprises a driving wheel 53 and a driven wheel 54 which are mutually connected through a belt 55, and a connecting frame 50 for positioning and installing the driving wheel 53 and the driven wheel 54, wherein the driving wheel 53 is connected with a sliding driving motor 51, the belt 55 is provided with a driving block 56, and the driving block 56 is connected with a connecting arm 52. In order to realize reasonable layout and maximum adaptation to the existing structure, the driving assembly further comprises a pushing arm 57 connected to the transmission block 56 in a switching manner, a sliding plate frame 58 connected with the pushing arm 57, and a bent arm 59 connected to the sliding plate frame 58, wherein the lower end of the bent arm 59 is connected with the connecting arm 52 on the transmission block 56; the sliding plate frame 58 and the mounting frame 3 are provided with the matched sliding rail assembly 6, and the sliding rail assembly 6 can ensure the sliding plate frame 58 to slide stably, so that the adjusting plate 4 can enter or separate from the bead feeding area quickly and accurately. The attachment frame 50 may also be provided as an attachment plate to which the mounting frame 3 is attached, or as a part of the mounting frame 3 itself.

The adjusting plate 4 is arranged on one side of the bottom plate 1, and the sliding driver 5 is arranged on the mounting frame 3 and on the same side as the bottom plate 1.

The bead clamp 20 is provided with an upward extending convex edge 22 at the position of the inner wall of the clamping opening 21, and the upward extending convex edge 22 can increase the depth of the clamping opening 21 of the bead clamp 20, is more beneficial to clamping beads with higher height, can be compatible to clamping various types of beads, such as tube beads, bubble beads and the like, and can even clamp round beads.

Alternatively, the sliding actuator 5 may adopt a pneumatic rod, a hydraulic rod, a linear motor or other existing structure or scheme capable of driving the adjusting plate 4 to slide.

The bead feeding mechanism can be matched with various existing bead supplying structures, such as a bead guiding rod structure for threading the beads with the positioning beads, a chain belt provided with the positioning beads for supplying the beads, a disc provided with the positioning beads for supplying the beads and the like. In this embodiment, a ball guide rod structure is adopted. The specific scheme is as follows.

The bead feeding device provided with the bead feeding mechanism with any one scheme or any combination of any schemes comprises a bead guiding rod 7 which is suspended above the bead feeding mechanism and used for supplying beads, a bead receiving position is arranged above a bead clamp component 2 of the bead feeding mechanism, and the output end of the bead guiding rod 7 is arranged at the bead receiving position. The bead guiding rod 7 can be provided with one path or at least two paths to be matched with the bead feeding mechanism.

Referring to fig. 1-8, the bead guiding rod 7 has at least two paths, the bead guiding rod 7 further has a switching mechanism for driving the switching of the sliding of the at least two paths of bead guiding rods 7 to the bead receiving position, beads with different heights can be arranged on the bead guiding rods 7 on different paths, the switching mechanism is used for conveying beads with different heights, and the sliding driver 5 is used for driving the adjusting plate 4 to convey beads with different heights.

The switching mechanism comprises a sliding block 71 for positioning and driving the bead guide rod 7, a bead guide hole 72 which is matched with the bead guide rod 7 and can accommodate beads penetrating through the bead guide rod 7 is formed in the sliding block 71, and a switching driver for driving the sliding block 71 to slide is arranged on the sliding block 71.

The switching driver may be a separate driver.

The switching mechanism in this embodiment comprises a sliding block 71 for positioning and driving the bead guiding rod 7, the sliding block 71 is provided with a bead guiding hole 72 which is matched with the bead guiding rod 7 and can accommodate beads passing through the bead guiding rod 7, and the sliding block 71 is provided with a connecting structure for connecting a sliding driver 5 arranged on the bead feeding mechanism. Referring to fig. 3-8, the connecting structure may be a clamping arm 73 disposed on the sliding block 71, the clamping arm 73 may be clamped into a clamping groove disposed on the sliding plate rack 58 of the sliding driver 5, and the ball guiding rods 7 of different paths are switched to enter the ball receiving position simultaneously when the adjusting plate 4 is driven by the sliding driver 5.

In order to facilitate continuous bead supply, the bead supply mechanism 8 matched with the upper end of the bead guide rod 7 is further included. The bead supplying mechanism 8 can adopt a prior art mechanism, for example, the bead supplying mechanism 8 can include a rotating material cylinder 81, the upper end of the bead guiding rod 7 can be placed into the material cylinder 81 to form a bead penetrating end, beads rotating along with the material cylinder 81 in the material cylinder 81 can penetrate through the beads and the bead guiding rod 7 according to probability, and gradually move the beads to the bead guiding rod 7 from the bead penetrating end along with the friction of materials accumulated in the material cylinder 81, and move along with the continuous penetration of the beads to the other end of the bead guiding rod 7 to achieve the purpose of conveying the beads, and the bead arranging structure 82 for clamping and positioning the bead guiding rod 7 or the positioning structure of the bead guiding rod 7 can be further arranged on the continuous bead supplying mechanism 8 along with the upper end of the bead guiding rod 7. The bead arranging structure 82 generally comprises a plurality of groups of clamps for clamping the bead guiding rod 7, and beads of the bead guiding rod 7 are sequentially arranged from top to bottom by alternately opening the plurality of groups of clamps, and at least one group of clamps clamp the positioning bead guiding rod 7 at any time.

The positioning structure comprises one or more rollers capable of driving rotation, the ball guide rod 7 is wound on the one or more rollers, or the ball guide rod 7 winds among the rollers, or winds on the rollers and winds among the rollers.

The ball guide rod 7 can also be provided with a driving and pressing wheel set.

Claims (15)

1. The utility model provides a send pearl mechanism of adaptable multiple specification pearl, includes the bottom plate, slides and carry pearl to the pearl of embroidering pearl station department on the bottom plate and press from both sides drive structure, the mounting bracket of pearl clamp subassembly, pearl clamp subassembly include the pearl and press from both sides its characterized in that: the bead feeding device is characterized in that an adjusting plate matched with the bead clamp is arranged on the bottom plate, a sliding driver for driving the adjusting plate to slide to a bead feeding area and leave the bead feeding area is arranged on the adjusting plate, and when the bead feeding area is used for feeding beads by the bead clamp assembly, a clamping opening of the bead clamp or/and a path area where the clamped beads slide on the bottom plate relatively are arranged.

2. The bead feeding mechanism capable of adapting to beads of various specifications as claimed in claim 1, wherein: the base plate is provided with a base surface, the bead clamp slides on the base surface, the base surface on the base plate is positioned at the adjusting plate and is provided with a sinking surface for placing the adjusting plate, the adjusting plate can be arranged on the sinking surface in a sliding manner, and the upper end surface of the adjusting plate and the base surface form the base surface for supporting the sliding of the bead clamp.

3. The bead feeding mechanism capable of adapting to beads of various specifications as claimed in claim 1, wherein: the bottom plate is provided with lifting parts at two sides of the bead clamp assembly, and the lifting parts at two sides and the bottom plate form a guide chute of the bead clamp assembly; the corresponding position of the lifting part on the side of the adjusting plate is provided with a guide groove matched with the adjusting plate.

4. The bead feeding mechanism capable of adapting to beads of various specifications as claimed in claim 1, wherein: the sliding driver comprises a sliding driving motor, a connecting arm connected with the adjusting plate and a driving assembly for transmitting power of the sliding driving motor to drive the connecting arm.

5. The bead feeding mechanism capable of accommodating beads of various specifications as set forth in claim 4, wherein: the drive assembly include the link of drive wheel and follower, location installation drive wheel and follower of belt connection each other, the drive wheel be connected with the driving motor that slides, the belt on be equipped with the transmission piece, the transmission piece be connected with the linking arm.

6. The bead feeding mechanism capable of accommodating beads of various specifications as set forth in claim 5, wherein: the driving assembly further comprises a pushing arm connected to the transmission block in a switching mode, a sliding plate frame connected with the pushing arm and a bent arm connected to the sliding plate frame, and the lower end of the bent arm is connected with a connecting arm on the transmission block; and a matched sliding rail assembly is arranged between the sliding plate frame and the mounting frame.

7. The bead feeding mechanism capable of accommodating beads of various specifications as claimed in claim 1 or 2, wherein: the adjusting plate is arranged on one side of the bottom plate, and the sliding driver is arranged on the mounting frame and on the same side as the adjusting plate.

8. The bead feeding mechanism capable of adapting to beads of various specifications as claimed in claim 1, wherein: the bead clamp is provided with a convex edge extending upwards at the position of the clamping opening along the inner wall.

9. The bead feeding mechanism capable of adapting to beads of various specifications as claimed in claim 1, wherein: the sliding driver is a pneumatic rod, a hydraulic rod or a linear motor.

10. A bead feeding apparatus equipped with the bead feeding mechanism according to any one of claims 1 to 9, characterized in that: the bead feeding mechanism is arranged above the bead clamp assembly and is provided with a bead receiving position, and the output end of the bead guiding rod is arranged at the bead receiving position.

11. The bead delivery apparatus of claim 10, wherein: the bead guiding rod is provided with at least two paths, and the bead guiding rod is further provided with a switching mechanism for driving and switching the at least two paths of bead guiding rods to slide to the bead receiving position.

12. The bead delivery apparatus of claim 11, wherein: the switching mechanism comprises a sliding block for positioning and driving the bead guide rod, a bead guide hole which can accommodate a bead penetrating through the bead guide rod in a matched manner with the bead guide rod is formed in the sliding block, and a switching driver for driving the sliding block to slide is arranged on the sliding block.

13. The bead delivery apparatus of claim 12, wherein: the switching driver is an independent driver.

14. The bead delivery apparatus of claim 11, wherein: the switching mechanism comprises a sliding block for positioning and driving the bead guide rod, the sliding block is provided with a bead guide hole which is matched with the bead guide rod and can accommodate beads penetrating through the bead guide rod, and the sliding block is provided with a connecting structure for connecting a sliding driver arranged on the bead feeding mechanism.

15. The bead delivery apparatus as claimed in claim 10 or 11, wherein: also comprises a bead supply mechanism matched with the upper end of the bead guide rod.

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