CN113276287A - Pearl perforation equipment for jewelry processing - Google Patents

Abstract

The invention relates to a perforating device, in particular to a pearl perforating device for jewelry processing. The invention provides pearl perforating equipment for jewelry processing, which can realize automatic repeated perforation, automatic feeding and convenient operation. A pearl perforating apparatus for jewelry processing, comprising: the drilling machine comprises a base, wherein a drilling mechanism is arranged on the rear side of the base; the feeding mechanism is arranged on the front side of the base; the clamping and positioning mechanism is arranged on the base. According to the pearl drill, the extending length of the telescopic rod of the cylinder is controlled, so that the descending height of the drill bit is controlled, a user places a pearl below the drill bit, and the drill bit punches the pearl, so that the drilling effect is achieved; through promoting the sliding support backward, make the sliding support rearward movement to drive the flourishing workbin rearward movement, and then drive backup pad and dog rearward movement, make the pearl be located the drill bit below, realize the pay-off effect.

Description

Pearl perforation equipment for jewelry processing

Technical Field

The invention relates to a perforating device, in particular to a pearl perforating device for jewelry processing.

Background

In jewelry pearl processing industry, often need punch the activity to the pearl, and the pearl is a more precious organic precious stone, and the powder that drops after punching also has very high value, but traditional mode of punching does not have fine collection pearl and punches the powder that drops, just so causes very big wasting of resources, and traditional mode of punching, relatively troublesome when retrieving the pearl, work efficiency is low.

Patent application CN208215711U, the publication date is 20181211, discloses a portable pearl perforating device, including the base, electronic hydraulic stem, fly leaf, lifter, collecting vat, stand, place the platform, hang plate and pearl fixed plate etc. through placing the pearl in the stand, on pearl passes through stand pipe and hang plate and drops the pearl fixed plate, the pearl fixed plate was fixed pearl, starts electronic hydraulic stem, and electronic hydraulic stem punches the pearl, however, this equipment can't realize punching many times.

Therefore, the pearl perforating equipment for jewelry processing is designed, which can realize automatic repeated perforation, automatic feeding and convenient operation.

Disclosure of Invention

In order to overcome the shortcoming that traditional pearl punches and can't realize automatic punching, can't carry out the material loading automatically and operate not convenient, the technical problem that solves is: the pearl perforation equipment for jewelry processing is convenient to automatically perforate for multiple times, automatically feed and operate.

The technical implementation scheme of the invention is as follows: a pearl perforating apparatus for jewelry processing, comprising:

the drilling machine comprises a base, wherein a drilling mechanism is arranged on the base;

the base is provided with a feeding mechanism;

the clamping and positioning mechanism is arranged on the base.

As a further preferable mode, the drilling mechanism includes:

the base is provided with a first support frame;

the lower parts of the first support frames are provided with fixed blocks;

the upper part of the first support frame is provided with a sliding block in a sliding way;

the first support frame is wound with springs, and two ends of each spring are respectively connected with the fixed block and the sliding block;

the upper part of the first support frame is provided with an air cylinder, and an expansion link of the air cylinder is connected with the sliding block;

the sliding block is provided with a second supporting frame;

the second support frame is provided with a motor;

the drill bit, motor output shaft are connected with the drill bit.

As a further preferable aspect, the feeding mechanism includes:

the base is provided with two sliding brackets in a sliding manner;

the material containing box is connected between the two sliding supports;

the supporting plate is arranged at the upper part of the material containing box in a sliding manner;

the lower part of the material containing box is provided with two stop blocks.

As a further preferable aspect, the clamp positioning mechanism includes:

four first telescopic assemblies are arranged on the two sliding supports;

the four first telescopic assemblies are provided with first connecting rods;

the clamping blocks are arranged between the two first connecting rods on the same side and are connected with the material containing box in a sliding mode;

the two clamping blocks are respectively provided with a first special-shaped rod;

the base of the second special-shaped rod is provided with the second special-shaped rod, and the second special-shaped rod is in contact fit with the first special-shaped rod.

As a further preferred scheme, the material control device further comprises a material control mechanism, the base is provided with the material control mechanism, and the material control mechanism comprises:

the base is provided with a third support frame;

the third support frame is provided with a discharging pipe;

the blanking pipes of the second telescopic assemblies are provided with second telescopic assemblies;

the material pushing block is connected between the two second telescopic assemblies and is connected with the blanking pipe in a sliding mode;

the third telescopic assemblies are arranged on the material containing boxes;

third dysmorphism pole, all be equipped with third dysmorphism pole on two third telescopic component.

As a further preferred scheme, the device further comprises an ejection mechanism, the base is provided with the ejection mechanism, and the ejection mechanism comprises:

the bottom of the supporting plate is provided with two second connecting rods;

the wedge block is connected between the bottom ends of the two second connecting rods;

fourth dysmorphism pole all is equipped with fourth dysmorphism pole on the base, fourth dysmorphism pole and wedge contact cooperation.

As a further preferable scheme, the device further comprises a feeding auxiliary mechanism, the base is provided with the feeding auxiliary mechanism, and the feeding auxiliary mechanism comprises:

the first bearing seats are arranged on the base;

the second bearing seats are arranged on the base;

the third connecting rods are arranged on the sliding blocks;

the bottom ends of the two third connecting rods are respectively provided with a first rack;

the first rotating shafts are rotatably arranged on the two first bearing seats;

the two second bearing blocks are respectively and rotatably provided with a second rotating shaft;

the two first rotating shafts are respectively provided with a straight gear, the two second rotating shafts are respectively provided with a straight gear, and the straight gear on the upper side is meshed with the first rack;

the transmission assembly is connected between the first rotating shaft and the second rotating shaft;

and the left part and the right part of the sliding support are both provided with fourth connecting rods, and the fourth connecting rods are meshed with straight gears on the lower side.

The invention has the following advantages: 1. according to the pearl drill, the extending length of the telescopic rod of the cylinder is controlled, so that the descending height of the drill bit is controlled, a user places a pearl below the drill bit, and the drill bit punches the pearl, so that the drilling effect is achieved;

2. according to the feeding device, the sliding support is pushed backwards, so that the sliding support moves backwards, the material containing box is driven to move backwards, the supporting plate and the stop block are driven to move backwards, pearls are positioned below the drill bit, and the feeding effect is achieved;

3. the clamping blocks are driven to move oppositely through the second special-shaped rods, so that the first connecting rods are driven to move oppositely, the first telescopic assembly is compressed, the clamping blocks are in contact with the pearls on the supporting plate, the pearls are clamped by the clamping blocks, and the clamping and positioning effects are realized;

4. the pearl control device is compressed through the second telescopic assembly, the material pushing block is in contact with the pearls, and the pearls are pushed forwards by the material pushing block, so that the pearls fall on the material containing box, and the material control effect is realized;

5. the supporting plate is driven to move upwards through the second connecting rod, pearls on the supporting plate are driven to move upwards, and the material ejecting effect is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the drilling mechanism of the present invention.

Fig. 3 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 4 is a schematic perspective view of the clamping and positioning mechanism of the present invention.

Fig. 5 is a schematic perspective view of the material control mechanism of the present invention.

Fig. 6 is a schematic perspective view of the material ejecting mechanism of the present invention.

Fig. 7 is a schematic perspective view of the feeding auxiliary mechanism of the present invention.

The parts are labeled as follows: 1_ base, 2_ drilling mechanism, 21_ first support frame, 22_ fixed block, 23_ spring, 24_ slider, 25_ cylinder, 26_ second support frame, 27_ motor, 28_ drill, 3_ feeding mechanism, 31_ sliding support, 32_ bin, 33_ support plate, 34_ stopper, 4_ clamping positioning mechanism, 41_ first telescopic component, 42_ first connecting rod, 43_ clamping block, 44_ first profiled rod, 45_ second profiled rod, 5_ control mechanism, 51_ third support frame, 52_ blanking pipe, 53_ second telescopic component, 54_ pushing block, 55_ third telescopic component, 56_ third profiled rod, 6_ ejecting mechanism, 61_ second connecting rod, 62_ wedge-shaped block, 63_ fourth profiled rod, 7_ feeding auxiliary mechanism, 71_ first bearing block, 72_ second bearing block, 73_ third connecting rod, 74_ first rack, 75_ first shaft, 76_ second shaft, 77_ transmission assembly, 78_ spur gear, 79_ fourth connecting rod.

Detailed Description

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

Example 1

A pearl perforating device for jewelry processing is shown in figure 1 and comprises a base 1, a drilling mechanism 2, a feeding mechanism 3 and a clamping and positioning mechanism 4, wherein the drilling mechanism 2 is arranged on the rear side of the base 1, the feeding mechanism 3 is arranged on the front side of the base 1, and the clamping and positioning mechanism 4 is arranged on the base 1.

When people want to punch the pearl, can use this kind of pearl perforation equipment for jewelry processing, at first, the user places the pearl on feeding mechanism 3, promotes feeding mechanism 3 backward, makes feeding mechanism 3 be located drilling mechanism 2's below, presss from both sides tightly the pearl through pressing from both sides tight positioning mechanism 4, starts drilling mechanism 2, and drilling mechanism 2 punches the pearl, and the pearl punches the completion back, closes drilling mechanism 2, takes out the pearl on feeding mechanism 3.

Example 2

On the basis of embodiment 1, as shown in fig. 2 to 4, the drilling mechanism 2 includes a first support frame 21, a fixed block 22, a spring 23, a slider 24, a cylinder 25, a second support frame 26, a motor 27 and a drill 28, the first support frame 21 is disposed on the rear side of the base 1, the fixed blocks 22 are disposed on the left and right sides of the lower portion of the first support frame 21, the slider 24 is slidably disposed on the upper portion of the first support frame 21, the spring 23 is wound on the left and right sides of the first support frame 21, two ends of the spring 23 are respectively connected with the fixed block 22 and the slider 24, the cylinder 25 is mounted on the upper portion of the first support frame 21, a telescopic rod of the cylinder 25 is connected with the slider 24, the second support frame 26 is disposed on the front side of the slider 24, the motor 27 is mounted on the second support frame 26, and an output shaft of the motor 27 is connected with the drill 28.

The user places the pearl under the drill bit 28, then starts the motor 27, the output shaft of the motor 27 drives the drill bit 28 to rotate, the user starts the cylinder 25 again, the telescopic rod of the cylinder 25 extends downwards, the telescopic rod of the cylinder 25 drives the slide block 24 to move downwards, the spring 23 is compressed, thereby driving the second support frame 26 to move downwards, thereby driving the motor 27 to move downwards, the motor 27 driving the drill bit 28 to move downwards, the user controlling the extension length of the telescopic rod of the cylinder 25, thereby controlling the descending height of the drill bit 28, the drill bit 28 punches the pearl to realize the drilling effect, after the pearl drilling is finished, the motor 27 is turned off, the drill bit 28 stops rotating, the user controls the telescopic rod of the air cylinder 25 to be shortened upwards, the telescopic rod of the air cylinder 25 drives the sliding block 24, the second supporting frame 26, the motor 27 and the drill bit 28 to move upwards, the spring 23 resets, the drill bit 28 is far away from the pearl, and the air cylinder 25 is turned off.

The feeding mechanism 3 comprises sliding supports 31, a material containing box 32, a supporting plate 33 and two stoppers 34, two sliding supports 31 are arranged on the front side of the base 1 in a sliding mode, the material containing box 32 is connected between the two sliding supports 31, the supporting plate 33 is arranged on the upper portion of the material containing box 32 in a sliding mode, and the two stoppers 34 are arranged on the lower portion of the material containing box 32.

The user places the pearl on backup pad 33, receive the influence of pearl self weight, make backup pad 33 downstream, backup pad 33 and dog 34 contact, backup pad 33 stops downstream, the user promotes sliding bracket 31 backward again, make sliding bracket 31 downstream, thereby drive flourishing workbin 32 downstream, and then drive backup pad 33 and dog 34 downstream, make the pearl be located the drill bit 28 below, realize the pay-off effect, the pearl is perforated the back, the user stimulates sliding bracket 31 forward, make sliding bracket 31 forward motion, sliding bracket 31 drives flourishing workbin 32, backup pad 33 and dog 34 forward motion.

Clamping positioning mechanism 4 is including first flexible subassembly 41, head rod 42, clamp splice 43, first dysmorphism pole 44 and second dysmorphism pole 45, be equipped with four first flexible subassemblies 41 on two sliding support 31, all be equipped with head rod 42 on four first flexible subassemblies 41, all be equipped with clamp splice 43 between two head rod 42 of homonymy, clamp splice 43 and flourishing workbin 32 sliding connection, all be equipped with first dysmorphism pole 44 on two clamp splice 43, both sides all are equipped with second dysmorphism pole 45 about the rear side on the base 1, second dysmorphism pole 45 and the contact cooperation of first dysmorphism pole 44.

When the sliding support 31 moves backwards, the sliding support 31 drives the first telescopic assembly 41, the first connecting rod 42, the clamping block 43 and the first special-shaped rod 44 to move backwards, the first special-shaped rod 44 is in contact fit with the second special-shaped rod 45 so as to drive the second special-shaped rod 45 to move in opposite directions, the second special-shaped rod 45 drives the clamping block 43 to move in opposite directions so as to drive the first connecting rod 42 to move in opposite directions, the first telescopic assembly 41 is compressed so as to make the clamping block 43 contact with the pearls on the support plate 33, the clamping block 43 clamps the pearls, the clamping and positioning effects are realized, when the sliding support 31 moves forwards, the sliding support 31 drives the first telescopic assembly 41, the first connecting rod 42, the clamping block 43 and the first special-shaped rod 44 to move forwards, the first special-shaped rod 44 is far away from the second special-shaped rod 45, the first telescopic assembly 41 resets so as to drive the first special-shaped rod 44, the clamping block 43 and the first connecting rod 42 to move in opposite directions, keeping the clamp 43 away from the pearl.

Example 3

Based on embodiment 2, as shown in fig. 5 to 7, the material handling device further includes a material handling mechanism 5, the material handling mechanism 5 is disposed on the front side of the base 1, the material handling mechanism 5 includes a third support frame 51, a material discharging tube 52, second telescopic assemblies 53, a material pushing block 54, third telescopic assemblies 55 and third special-shaped rods 56, the third support frame 51 is disposed on the front side of the base 1, the material discharging tube 52 is disposed on the rear side of the third support frame 51, the second telescopic assemblies 53 are disposed on the left and right sides of the material discharging tube 52, the material pushing block 54 is connected between the two second telescopic assemblies 53, the material pushing block 54 is slidably connected to the material discharging tube 52, the third telescopic assemblies 55 are disposed on the front side of the material containing box 32, and the third special-shaped rods 56 are disposed on the two third telescopic assemblies 55.

A user puts pearls into the blanking pipe 52, the user pushes the material containing box 32 forwards to enable the material containing box 32 to move forwards, the material containing box 32 drives the third telescopic assembly 55 and the third special-shaped rod 56 to move forwards, the third special-shaped rod 56 is in contact fit with the material pushing block 54, the third telescopic assembly 55 stretches to drive the material pushing block 54 to move forwards, the second telescopic assembly 53 is compressed, the material pushing block 54 is in contact with the pearls, the material pushing block 54 pushes the pearls forwards to enable the pearls to fall on the material containing box 32, the material control effect is achieved, the material containing box 32 is loosened, the third telescopic assembly 55 resets to drive the third special-shaped rod 56 and the material containing box 32 to move forwards, and the second telescopic assembly 53 resets to drive the material pushing block 54 to move forwards.

Still including liftout mechanism 6, the front side is equipped with liftout mechanism 6 on the base 1, and liftout mechanism 6 is equipped with two second connecting rods 61 including second connecting rod 61, wedge 62 and fourth dysmorphism pole 63 bottom backup pad 33, is connected with wedge 62 between two second connecting rod 61 bottoms, and the front side all is equipped with fourth dysmorphism pole 63 on the base 1, fourth dysmorphism pole 63 and the cooperation of wedge 62 contact.

When backup pad 33 is the forward motion, backup pad 33 drives second connecting rod 61 forward motion, thereby drive wedge 62 forward motion, wedge 62 and fourth dysmorphism pole 63 contact cooperation, thereby drive wedge 62 upward movement, and then drive second connecting rod 61 upward movement, second connecting rod 61 drives backup pad 33 upward movement, drive the pearl upward movement on the backup pad 33, realize the liftout effect, when backup pad 33 is the backward motion, backup pad 33 drives second connecting rod 61 and wedge 62 rearward movement, fourth dysmorphism pole 63 is kept away from to wedge 62, receive the influence of pearl self weight, make backup pad 33 downstream, backup pad 33 drives second connecting rod 61 and wedge 62 downstream.

The automatic feeding device also comprises a feeding auxiliary mechanism 7, the rear side of the base 1 is provided with the feeding auxiliary mechanism 7, the feeding auxiliary mechanism 7 comprises a first bearing seat 71, a second bearing seat 72, a third connecting rod 73, a first rack 74, a first rotating shaft 75, a second rotating shaft 76, a transmission component 77, a straight gear 78 and a fourth connecting rod 79, the left and right parts of the rear side of the base 1 are respectively provided with the first bearing seat 71, the left and right parts of the rear side of the base 1 are respectively provided with the second bearing seat 72, the left and right sides of the slide block 24 are respectively provided with the third connecting rod 73, the bottom ends of the two third connecting rods 73 are respectively provided with the first rack 74, the two first bearing seats 71 are respectively and rotatably provided with the first rotating shaft 75, the two second bearing seats 72 are respectively and rotatably provided with the second rotating shaft 76, the two first rotating shafts 75 are respectively provided with the straight gear 78, the two second rotating shafts 76 are respectively provided with the straight gear 78, the straight gear 78 on the upper side is meshed with the first rack 74, a transmission assembly 77 is connected between the first rotating shaft 75 and the second rotating shaft 76, a fourth connecting rod 79 is arranged at the left and right parts of the sliding bracket 31 at the rear side, and the fourth connecting rod 79 is meshed with a spur gear 78 at the lower side.

When the slide block 24 moves downwards, the slide block 24 drives the third connecting rod 73 to move downwards, so as to drive the first rack 74 to move downwards, the first rack 74 is meshed with the straight gear 78 on the upper side, so as to drive the straight gear 78 on the upper side to rotate, so as to drive the first rotating shaft 75 to rotate, the first rotating shaft 75 drives the transmission component 77 to rotate, so as to drive the second rotating shaft 76 to rotate, so as to drive the straight gear 78 on the lower side to rotate, the straight gear 78 on the lower side is meshed with the fourth connecting rod 79, so as to drive the fourth connecting rod 79 to move backwards, the fourth connecting rod 79 drives the sliding support 31 to move backwards, so as to realize the feeding auxiliary effect, when the slide block 24 moves upwards, the slide block 24 drives the third connecting rod 73 to move upwards, so as to drive the first rack 74 to move upwards, the first rack 74 is meshed with the straight gear 78 on the upper side, so as to drive the straight gear 78, the first rotating shaft 75 drives the transmission assembly 77 to rotate reversely, thereby driving the second rotating shaft 76 to rotate reversely, and further driving the spur gear 78 of the lower side to rotate reversely, the spur gear 78 of the lower side is engaged with the fourth connecting rod 79, thereby driving the fourth connecting rod 79 to move forward, and the fourth connecting rod 79 drives the sliding bracket 31 to move forward.

It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims (8)

1. A pearl perforating apparatus for jewelry processing, comprising:

the drilling machine comprises a base (1), wherein a drilling mechanism (2) is arranged on the base (1);

the feeding mechanism (3) is arranged on the base (1);

a clamping and positioning mechanism (4), and the base (1) is provided with the clamping and positioning mechanism (4).

2. A pearl perforating device for jewelry processing according to claim 1, wherein the drilling mechanism (2) comprises:

the base (1) is provided with a first support frame (21);

the lower parts of the first supporting frames (21) are provided with fixing blocks (22);

the upper part of the first support frame (21) is provided with a sliding block (24) in a sliding way;

the springs (23) are wound on the first support frame (21), and two ends of each spring (23) are respectively connected with the fixed block (22) and the sliding block (24);

the air cylinder (25) is installed on the upper portion of the first support frame (21), and an expansion rod of the air cylinder (25) is connected with the sliding block (24);

the second supporting frame (26) is arranged on the sliding block (24);

the motor (27) is mounted on the second supporting frame (26);

the drill bit (28) is connected with the output shaft of the motor (27).

3. A pearl perforating device for jewelry processing according to claim 2, wherein the feeding mechanism (3) comprises:

the base (1) is provided with two sliding supports (31) in a sliding manner;

the material containing box (32) is connected between the two sliding supports (31);

the supporting plate (33) is arranged at the upper part of the material containing box (32) in a sliding way;

the lower part of the material containing box (32) is provided with two stoppers (34).

4. A pearl perforating device for jewellery as claimed in claim 3, characterized in that the clamping and positioning means (4) comprise:

the two sliding supports (31) are provided with four first telescopic assemblies (41);

the four first telescopic assemblies (41) are provided with first connecting rods (42);

the clamping blocks (43) are arranged between the two first connecting rods (42) on the same side, and the clamping blocks (43) are connected with the material containing box (32) in a sliding manner;

the two clamping blocks (43) are respectively provided with a first special-shaped rod (44);

second dysmorphism pole (45), all be equipped with second dysmorphism pole (45) on base (1), second dysmorphism pole (45) and first dysmorphism pole (44) contact cooperation.

5. A pearl perforating device for jewelry processing according to claim 4, characterized in that it further comprises a material control mechanism (5), the base (1) being provided with the material control mechanism (5), the material control mechanism (5) comprising:

a third support frame (51), wherein the base (1) is provided with the third support frame (51);

a blanking pipe (52) is arranged on the third supporting frame (51);

the blanking pipe (52) is provided with a second telescopic assembly (53);

a material pushing block (54) is connected between the two second telescopic assemblies (53), and the material pushing block (54) is connected with the blanking pipe (52) in a sliding manner;

the third telescopic assemblies (55) are arranged on the material containing boxes (32);

and the third special-shaped rods (56) are arranged on the two third telescopic assemblies (55).

6. A pearl perforating device for jewelry processing according to claim 5, characterized in that it further comprises an ejecting mechanism (6), the base (1) being provided with the ejecting mechanism (6), the ejecting mechanism (6) comprising:

the bottom of the supporting plate (33) is provided with two second connecting rods (61);

the wedge-shaped blocks (62) are connected between the bottom ends of the two second connecting rods (61);

fourth dysmorphism pole (63), all be equipped with fourth dysmorphism pole (63) on base (1), fourth dysmorphism pole (63) and wedge (62) contact cooperation.

7. A pearl perforating device for jewelry processing according to claim 6, characterized in that it further comprises a feeding auxiliary mechanism (7), the base (1) being provided with the feeding auxiliary mechanism (7).

8. A pearl perforating device for jewelry processing according to claim 6, characterized in that the feeding assist mechanism (7) comprises:

the first bearing seats (71) are arranged on the base (1);

the second bearing seats (72) are arranged on the base (1);

the third connecting rods (73) are arranged on the sliding blocks (24);

the bottom ends of the first rack (74) and the two third connecting rods (73) are respectively provided with the first rack (74);

the first rotating shafts (75) are rotatably arranged on the two first bearing seats (71);

the second rotating shafts (76) are rotatably arranged on the two second bearing seats (72);

straight gears (78), wherein the straight gears (78) are arranged on the two first rotating shafts (75), the straight gears (78) are arranged on the two second rotating shafts (76), and the straight gears (78) on the upper sides are meshed with the first racks (74);

the transmission component (77) is connected between the first rotating shaft (75) and the second rotating shaft (76);

and the sliding support (31) is provided with a fourth connecting rod (79), and the fourth connecting rod (79) is meshed with a spur gear (78) on the lower side.

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