CN111975320A - Hardware bead threading device - Google Patents

Abstract

The invention discloses a hardware bead threading device which comprises a pushing mechanism, a bead placing position and a wire feeding mechanism, wherein the wire feeding mechanism and the bead placing position are oppositely arranged, after the pushing mechanism pushes a strip of a grain to the bead placing position, the punching directions of the strip are the same, and a clamping mechanism is also arranged on the bead placing position; after the clamping mechanism clamps the carried grains of one grain, the centers of the through holes of the carried grains are on the same straight line, and the wire feeding mechanism feeds wires and wires pass through the through holes to connect the carried grains of one grain in series. The string of beads is placed the position and is used for placing the area grain of a grain of waiting to concatenate, promotes a grain of grain and takes grain to the string of beads and places the position back at pushing mechanism, and the string of beads is placed the perforation direction of taking the grain on the position the same, places the tight back of area grain clamp on the position through clamping mechanism to the string of beads, and the string of beads is placed the perforation center of taking the grain on the position and is in same horizontal straight line, makes things convenient for wire feeding mechanism to concatenate the area grain of a grain after sending a silk.

Description

Hardware bead threading device

Technical Field

The invention belongs to the technical field of mechanical manufacturing equipment, and particularly relates to a hardware bead threading device.

Background

The beading of hardware refers to concatenating each subassembly of hardware equipment together, forms the overall structure of equipment, for example: in the watchband assembling process, it is just one of the hardware string of beads to concatenate the band grain or the bead of watchband and assemble, and under the traditional condition, the equipment of band grain often adopts manual mode, but this kind of mode is extravagant the manpower, and work efficiency is low, and the cost is higher.

In order to solve the problem, in the patent with the patent number of "CN 109531138A" and the name of "an automatic string of beads equipment of stainless steel watchband part and automatic string of beads method", an automatic string of beads equipment of stainless steel watchband part is disclosed, it includes frame, control box and two sets of processing stations, two processing stations all include sequencing vibration dish, quick location threading device, placer and unloader, sequencing vibration dish, quick location threading device, placer and unloader all are equipped with detection sensor, quick location threading device includes feed mechanism, material clamping mechanism, silk thread placement mechanism, transport manipulator and fixed bolster, the transport manipulator sets up on the fixed bolster.

However, in the above patent, the bead stringing apparatus is complicated in structure, complicated in parts, and high in production and assembly costs.

Disclosure of Invention

In order to solve the above problems, the primary object of the present invention is to provide a hardware bead threading device, which can automatically complete the bead threading operation by sorting and sequencing the beads to make the holes in the same direction, and then connecting the beads in series by using a threading device, and has the characteristics of convenience, accuracy and high efficiency.

The invention also aims to provide the hardware bead stringing device, which ensures the accuracy of the number of beads each time, avoids manual participation in screening and realizes automatic screening of the beads through the arrangement of the sensing assembly.

In order to achieve the above object, the technical solution of the present invention is as follows.

The hardware bead threading device is characterized by comprising a pushing mechanism, a bead placing position and a wire feeding mechanism, wherein the wire feeding mechanism and the bead placing position are oppositely arranged, after the pushing mechanism pushes a strip of one grain to the bead placing position, the punching directions of the strip grains are the same, and a clamping mechanism is further arranged on the bead placing position; after the clamping mechanism clamps the carried grains of one grain, the centers of the through holes of the carried grains are on the same straight line, and the wire feeding mechanism feeds wires and wires pass through the through holes to connect the carried grains of one grain in series. The string of beads is placed the position and is used for placing the area grain of a grain of waiting to concatenate, promotes a grain of grain and takes grain to the string of beads at pushing mechanism and places the position back, and the string of beads is placed the perforation direction of the area grain on the position the same, places the tight back of area grain clamp on the position through clamping mechanism to the string of beads, and the string of beads is placed the perforation center of the area grain on the position and is in same horizontal straight line, makes things convenient for thread feeding mechanism to concatenate the area grain of a grain after sending a silk.

Furthermore, after the clamping mechanism moves on the bead placing position, the space size of the bead placing position changes. Through the activity of clamping mechanism, realized the regulation of the space size that the position was placed to the string of beads. The movable range of the clamping mechanism is limited to ensure that the beads after being pushed by the pushing mechanism do not float on the bead placing position in a large range, so that the space of the bead placing position is limited, the pushing of the beads is only facilitated, and the beads are not rotated; and meanwhile, the perforation of the grains is ensured to be in the same direction.

Further, clamping mechanism includes die clamping cylinder, die clamping cylinder's output is a push pedal, the push pedal sets up on L shape base, and encloses the position of putting of the string of beads that closes to form the U-shaped with L shape base. The clamping cylinder acts on the push plate, and through the flexible activity of push plate, the regulation of the space size of the position is placed to the string of beads has been realized, wherein the setting of position is placed to the string of beads of U-shaped, also conveniently takes depositing and removing of grain.

Further, the device still includes and send the pearl slide, send and be provided with single pearl between pearl slide and the pushing mechanism and place the position, send the pearl slide with individual taking the grain to move to single pearl and place on the position, put the grain promotion to string of beads on the position and place the position once by pushing mechanism with single pearl. Wherein single band grain moves to single pearl along sending the pearl slide and puts the position on, realizes only promoting single band grain to put the position to remove to string of beads by pushing mechanism once.

Furthermore, a material blocking cylinder is arranged on the bead feeding slide way, the material blocking cylinder is supported on the belt particles after being stretched and moved, and one belt particle moves to a single bead placing position in the stretching and back-and-forth process of the material blocking cylinder. The material blocking cylinder ensures that the bead feeding slideway only passes one belt particle at a time, thereby facilitating the pushing of the pushing mechanism.

Furthermore, the bead feeding slide way is also communicated with a vibration disc, and the vibration disc pushes the sorted particles with the same perforation direction to the bead feeding slide way. The vibration dish is prior art, utilizes the vibration dish to select to put the angle the same band grain, utilizes the vibration dish can realize treating the perforation of the band grain of string of beads in same position.

Furthermore, a wire blocking cylinder is arranged on the L-shaped base, and the output end of the wire blocking cylinder can be telescopically acted on a single string particle on the bead string placing position. The wire blocking cylinder supports the single belt grain, so that the wires in the belt grain and the wires in the left and right belt grain form a tensioning state, under the condition, a stable connecting structure is formed between the wires and the belt grain, the wires are prevented from falling off from the belt grain, and the wires are prevented from moving in the resetting process of the wire feeding mechanism after the wire feeding mechanism feeds the wires, so that the wires and the belt grain are offset and staggered.

Furthermore, pushing mechanism, single pearl are placed the position and are put the position on same straight line with the string of beads, send the pearl slide to set up on single pearl is placed the position aslope downwards. Under the general condition, pushing mechanism and single pearl are placed the position and are put the position setting on same straight line with the string of beads, can conveniently with taking the grain to promote on the string of beads is placed the position, the setting of this kind of structure will make send pearl slide and string of beads to place and form the angle between the position, and send the design that the pearl slide single only took the grain through one, can guarantee to promote that the string of beads places the fenestrate angle of taking the grain on the position the same.

Furthermore, sensors for detecting the number of the particles are respectively arranged at two ends of the L-shaped base and are respectively electrically connected with the pushing mechanism and the clamping cylinder. The sensor is used for detecting the quantity of the particles on the bead placing position, the sensor is electrically connected with the pushing mechanism and the clamping cylinder, after the particles on the bead placing position reach a certain specified quantity, the sensor sends a signal to the pushing mechanism and the clamping cylinder, the clamping cylinder clamps the particles on the bead placing position, the pushing mechanism is controlled simultaneously, and the pushing of the particles on the single bead placing position is stopped.

Further, the structure of each belt particle is the same, and more than one through hole is arranged on each belt particle. Different perforations may be present for different beads, and the more the number of perforations on a bead, the better the fixation of a string of beads after a bead.

The belt grain of one grain is pushed to the bead placing position by the pushing mechanism, and then the belt grain on the bead placing position is clamped by the clamping mechanism, so that the centers of the through holes on the belt grain on the bead placing position are positioned on the same horizontal line, and the belt grains on the bead placing position are conveniently connected in series. Wherein, utilize clamping mechanism to put the area grain on the position to the string of beads and press from both sides tight location, realized taking the accuracy of grain to concatenate, string of beads process automation accomplishes, replaces artifical string of beads, provides work efficiency, saves the cost of labor.

Through the setting of hindering silk cylinder, place the skew of silk, guarantee that silk and area grain are in stable state.

Drawings

FIG. 1 is a block diagram of the present invention.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-2, the hardware bead stringing device of the present invention comprises a pushing mechanism 1, a bead placing position 2 and a wire feeding mechanism 3, wherein the wire feeding mechanism 3 is arranged opposite to the bead placing position 2, after the pushing mechanism 1 pushes a bead 4 of a pellet to the bead placing position 2, the direction of a perforation (not shown) of the bead 4 is the same, and a clamping mechanism 5 is further arranged on the bead placing position 2; after the clamping mechanism 5 clamps the one-grain carrying grain 4, the centers of the through holes of the carrying grain 4 are on the same straight line, the wire feeding mechanism 3 feeds wires, and the wires penetrate through the through holes to connect the one-grain carrying grains 4 in series. The string of beads is placed position 2 and is used for placing a band grain 4 of waiting to concatenate, promote a grain band grain 4 to the string of beads at pushing mechanism 1 and place the position 2 back on, the string of beads is placed the perforation direction of taking grain 4 on the position 2 the same, place the tight back of band grain 4 clamp on the position 2 through clamping mechanism 5 to the string of beads, the string of beads is placed the fenestrate center of taking grain 4 on the position 2 and is in same horizontal straight line, make things convenient for wire feeding mechanism 3 to send the back, concatenate the band grain 4 of a grain.

Wherein, clamping mechanism 5 is placed the position 2 back of moving on the string of beads, the space size that the position 2 was placed to the string of beads changes. The adjustment of the space size of the bead placing position 2 is realized through the movement of the clamping mechanism 5. In order to ensure that the belt particles 4 pushed by the pushing mechanism 1 do not float on the bead placing position 2 in a large range, the movable range of the clamping mechanism 5 is limited, so that the space of the bead placing position 2 is limited, the belt particles 4 are only conveniently pushed, and the belt particles 4 are not rotated; while also ensuring that the perforations of the strip 4 are in the same direction.

The clamping mechanism 5 comprises a clamping cylinder 51, the output end of the clamping cylinder 51 is a push plate 52, the push plate 52 is arranged on the L-shaped base 21, and the push plate 52 and the L-shaped base 21 enclose to form a U-shaped bead string placing position 2. The clamping cylinder 51 is acted on the push plate 52, and the adjustment of the space size of the bead placing position 2 is realized through the telescopic activity of the push plate 52, wherein the U-shaped beads are placed on the position 2, and the storage and the movement of the particles 4 are also convenient.

The device also comprises a bead feeding slide way 6, a single bead placing position 61 is arranged between the bead feeding slide way 6 and the pushing mechanism 1, the bead feeding slide way 6 moves the individual beads 4 to the single bead placing position 61, and the beads 4 on the single bead placing position 61 are pushed to the bead placing position 2 by the pushing mechanism 1 for one time. Wherein the single grain 4 moves to the single bead placing position 61 along the bead feeding slideway 6, and the pushing mechanism 1 realizes that only the single grain 4 is pushed to move to the bead placing position 2 at a time.

The bead feeding slideway 6 is provided with a material blocking cylinder 62, the material blocking cylinder 62 is supported on the strip grains 4 after being stretched and moved, and one strip grain 4 moves to the single bead placing position 61 in the stretching and returning process of the material blocking cylinder 62. The material blocking cylinder 62 ensures that the bead feeding slideway 6 only passes one carried bead 4 at a time, thereby facilitating the pushing of the pushing mechanism 1.

The bead feeding slide way 6 is also communicated with a vibration disc 63, and the vibration disc 63 pushes the sorted beads 4 with the same perforation direction to the bead feeding slide way 6. The vibration disk 63 is in the prior art, the belt grains 4 with the same placing angle can be screened out by the vibration disk 63, and the vibration disk 63 can be used for realizing that the perforation of the belt grains 4 to be beaded is in the same direction.

Wherein, be provided with on the L-shaped base 21 and hinder a silk cylinder 211, hinder silk cylinder 211's output end retractable acts on the single strip grain 4 on the position 2 is placed to the string of beads. The wire blocking cylinder 211 supports the single belt grain 4, so that the wires in the belt grain 4 and the wires in the left and right belt grains 4 form a tensioning state, in this case, a stable connection structure is formed between the wires and the belt grains 4, the wires are prevented from falling off from the belt grains 4, and the wires are prevented from moving in the resetting process of the wire feeding mechanism 3 after the wires are fed by the wire feeding mechanism 3, so that the wires and the belt grains 4 are offset and staggered.

Wherein, pushing mechanism 1, single pearl place the position 61 and the string of beads place the position 2 on the collinear, send pearl slide 6 to set up on single pearl place the position 61 aslope downwards. Under the general condition, pushing mechanism 1 places position 61 with the single pearl and places the position 2 setting on same straight line with the string of beads, can conveniently with taking a pearl 4 promote to string of beads place on the position 2, the setting of this kind of structure will make send pearl slide 6 and string of beads to place and form the angle between the position 2, and send pearl slide 6 single only through a design that takes a pearl 4, can guarantee to promote that the string of beads places the fenestrate angle of taking a pearl 4 on the position 2 the same.

Wherein, the two ends of the L-shaped base 21 are respectively provided with a sensor 212 for detecting the number of the carried granules 4, and the sensors 212 are respectively electrically connected with the pushing mechanism 1 and the clamping cylinder 51. The sensor 212 is used for detecting the quantity of the particles 4 on the bead placing position 2, the sensor 212 is electrically connected with the pushing mechanism 1 and the clamping cylinder 51, after the particles 4 on the bead placing position 2 reach a certain specified quantity, the sensor 212 sends a signal to the pushing mechanism 1 and the clamping cylinder 51, the clamping cylinder 51 clamps the particles 4 on the bead placing position 2, and meanwhile, the pushing mechanism 1 is controlled to stop pushing the particles 4 on the single bead placing position 61.

Wherein, the structure of each belt particle 4 is the same, and the perforation on the belt particle 4 is set to more than one. Different perforations may be present for different beads 4, while a string of beads 4 may be better secured after a bead as the number of perforations on the bead 4 is greater.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The hardware bead threading device is characterized by comprising a pushing mechanism, a bead placing position and a wire feeding mechanism, wherein the wire feeding mechanism and the bead placing position are oppositely arranged, after the pushing mechanism pushes a strip of one grain to the bead placing position, the punching directions of the strip grains are the same, and a clamping mechanism is further arranged on the bead placing position; after the clamping mechanism clamps the carried grains of one grain, the centers of the through holes of the carried grains are on the same straight line, and the wire feeding mechanism feeds wires and wires pass through the through holes to connect the carried grains of one grain in series.

2. The hardware threading device of claim 1 wherein the size of the bead placement location space changes after the clamping mechanism is moved over the bead placement location.

3. The hardware bead stringing device according to claim 1, wherein the clamping mechanism comprises a clamping cylinder, the output end of the clamping cylinder is a push plate, and the push plate is arranged on the L-shaped base and surrounds the L-shaped base to form a U-shaped bead placing position.

4. The hardware bead stringing device according to claim 1, further comprising a bead feeding slide, wherein a single bead placing position is arranged between the bead feeding slide and the pushing mechanism, the bead feeding slide moves the individual beads to the single bead placing position, and the pushing mechanism pushes the beads on the single bead placing position to the bead placing position in one time.

5. The hardware bead stringing device according to claim 4, wherein the bead feeding slideway is provided with a material blocking cylinder, the material blocking cylinder is supported on the carried particles after stretching and retracting, and one carried particle moves to a single bead placing position in the process of stretching and retracting of the material blocking cylinder.

6. The hardware bead stringing device according to claim 4, wherein the bead feeding slide is further communicated with a vibrating disk, and the vibrating disk pushes the sorted beads with the same perforation direction to the bead feeding slide.

7. A hardware bead threading device as claimed in claim 3, wherein a wire blocking cylinder is provided on the L-shaped base, the output end of the wire blocking cylinder acting telescopically on a single bead on a bead placement location.

8. The hardware bead threading device of claim 4, wherein the pushing mechanism, the single bead placement position and the bead placement position are in the same straight line, and the bead feeding slide is obliquely arranged downwards on the single bead placement position.

9. The hardware beading apparatus of claim 3, wherein both ends of the L-shaped base are respectively provided with a sensor for detecting the amount of the carried particles, and the sensors are respectively electrically connected with the pushing mechanism and the clamping cylinder.

10. The hardware beading apparatus of claim 1, wherein each of the pellets has the same configuration and the perforations in the pellets are provided in more than one.

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