CN114522886A

CN114522886A - Automatic screening equipment for ornament drill before vacuum coating

Info

Publication number: CN114522886A
Application number: CN202011319872.6A
Authority: CN
Inventors: 王伟林
Original assignee: Pujiang Shunhua Crystal Jewelry Co ltd
Current assignee: Pujiang Shunhua Crystal Jewelry Co ltd
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2022-05-24
Anticipated expiration: 2040-11-23
Also published as: CN114522886B; WO2022105186A1

Abstract

The invention discloses an automatic screening device before vacuum coating of an ornament drill, which comprises: the device comprises a frame, a screening roller and a recovery hopper; the top of the frame is provided with a working platform and two operating platforms; a recovery hopper is fixedly arranged in the rack; a group of first moving mechanism and second moving mechanism are arranged on the rack; the first moving mechanism is positioned on two sides of the working platform, and is provided with at least one screening roller and a power motor for driving the screening roller to rotate; the two groups of second moving mechanisms respectively longitudinally span above the two operation tables and are integrally higher than the first moving mechanisms; a plurality of clamping components are fixedly arranged on the second moving mechanism; the invention provides automatic screening equipment before vacuum coating of an ornament drill, which replaces manual brushing and selecting, is high in speed and free of selection leakage, greatly improves the production efficiency, avoids the phenomenon of rework caused by selection leakage, and reduces the manufacturing cost.

Description

Automatic screening equipment for ornament before vacuum coating

Technical Field

The invention relates to automatic screening equipment before vacuum coating of an ornament drill, and belongs to the field of crystal equipment.

Background

The ornament drill mainly plays a role in decoration, is usually buckled on some ornaments of clothes, shoes and backpacks in a point mode, is usually about 5mm in size and very small, is convenient to mount and firm, is usually in a round table shape, cannot be taken out after being buckled by a metal buckle and a bag, in addition, in order to increase the decoration effect, manufacturers can plate various colors on the ornament drill, namely a coating film commonly known in the industry, the coating film process shown in figure 8 is that the ornament drill is pasted on a flat aluminum plate 100 through liquid resin, all the ornament drills need to be placed with the bottom down, so that the top surface and the side surfaces can be ensured to be plated with colors, if the bottom is upward, the colors are plated on the bottom surface, once the ornament drill is inlaid on an article, the decoration effect cannot be achieved, and because the ornament drill is small in size, the ornament drill cannot be placed on the aluminum plate 100, at present, liquid resin is coated on an aluminum plate 100, then a whole stack of ornaments are drilled on the aluminum plate 100, the ornaments are scraped by a machine and are dried or baked with the resin, so that the ornaments are firmly bonded, and finally the ornaments which are placed in an inverted mode are drilled out.

Disclosure of Invention

Technical problem to be solved

In order to solve the problems, the invention provides automatic screening equipment before vacuum coating of an ornament drill, which utilizes the appearance characteristic of the ornament drill, when the top of the ornament drill faces downwards, an included angle between the side surface and the bottom surface is suspended, so that a rope ring can enter conveniently, and the rotating rope ring can directly sweep the ornament drill with the top facing downwards.

(II) technical scheme

The invention relates to automatic screening equipment for ornament diamonds before vacuum coating, which comprises: the device comprises a frame, a screening roller and a recovery hopper; the top of the frame is provided with a working platform and two operating platforms; the two operation platforms are correspondingly distributed on two sides of the working platform; a recovery hopper is fixedly arranged in the rack and is correspondingly positioned right below the working platform; a group of first moving mechanism and second moving mechanism are arranged on the rack; the first moving mechanism is positioned on two sides of the working platform, and is provided with at least one screening roller and a power motor for driving the screening roller to rotate; the screening rollers are driven by the first moving mechanism to reciprocate at two ends of the working platform; the two groups of second moving mechanisms respectively longitudinally span above the two operation tables and are integrally higher than the first moving mechanisms; and a plurality of clamping components are fixedly arranged on the second moving mechanism.

Further, the screen roller includes: a rotating shaft and a mounting sleeve; two ends of the rotating shaft are correspondingly coupled with the first moving mechanism through bearing seats; the outer side of the middle section of the rotating shaft is fixedly sleeved with an installation sleeve; the mounting sleeve is provided with a plurality of wire loop clusters; one end of the screening roller is correspondingly connected with the power motor.

Furthermore, the mounting sleeve is made of rubber materials, a plurality of mounting holes are formed in the outer side wall of the mounting sleeve, and the wire loop clusters are correspondingly mounted on the mounting sleeve; the length of the line ring cluster is greater than the width of the working platform and less than the width of the opening of the recovery hopper.

Furthermore, the wire loop cluster is formed by folding two ends of a plurality of polyester fiber ropes, inserting the polyester fiber ropes into the mounting hole, and bonding and fixing the polyester fiber ropes by glue.

Further, the first moving mechanism consists of two groups of same moving components; the two groups of moving assemblies are distributed on two sides of the working platform in a mirror image mode; the moving assembly includes: the first movable mounting frame, the first servo motor, the first sliding rail and the first rack are arranged on the first movable mounting frame; the first sliding rail and the first rack are correspondingly installed and fixed on the rack; the first movable mounting rack is connected to the first sliding rail in a sliding manner; a first servo motor is fixedly arranged on the first movable mounting frame; the output end of the first servo motor is fixedly connected with a first gear which is correspondingly meshed with a first rack; the first movable mounting frame is also provided with a manual adjusting frame; and a bearing seat is correspondingly connected in the manual adjusting frame.

Furthermore, the power motor adopts a forward and reverse rotating motor and is correspondingly arranged on the first movable mounting rack of any movable assembly.

Further, the second moving mechanism includes: the two groups of second movable mounting racks, the second sliding rails and the second racks are arranged on the two sides of the first movable mounting rack; the second sliding rail and the second rack are correspondingly installed and fixed on the rack and cross over the first moving mechanism; two groups of second movable mounting frames are connected onto the second sliding rails in a sliding mode; the two groups of second movable mounting frames are respectively connected to the two operation platforms in a corresponding mode, and the number of clamping assemblies mounted on each group of second movable mounting frames is the same; a group of second servo motors are fixedly arranged at two ends of the second movable mounting rack; and the output end of the second servo motor is fixedly provided with a second gear which is correspondingly meshed with a second rack.

Further, the clamping assembly includes: the pushing cylinder, the clamping frame and the plastic sucker; the number of the pushing cylinders is at least two, and the pushing cylinders are correspondingly installed and fixed on a second movable installation frame of a second moving mechanism; the pushing end of the pushing cylinder is fixedly connected with a clamping frame; four plastic suckers are mounted on the clamping frame.

Further, the open periphery of the recovery hopper is longer than the periphery of the working platform.

(III) advantageous effects

The invention has the following beneficial effects:

the invention provides automatic screening equipment before vacuum coating of an ornament drill, which replaces manual brushing and selecting, is high in speed and free of selection leakage, greatly improves the production efficiency, avoids the phenomenon of rework caused by selection leakage, and reduces the manufacturing cost.

Drawings

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

Fig. 2 is a partial front view of the present invention.

Fig. 3 is a schematic structural view of the first moving mechanism in the present invention.

Fig. 4 is a schematic structural view of a second moving mechanism in the present invention.

Fig. 5 is a sectional view of the screen roller in the present invention.

Fig. 6 is an enlarged view at a in fig. 5.

Fig. 7 is a schematic view of the correct placement of the workpiece.

Figure 8 is a schematic view of a wire loop tuft stripping workpiece.

Detailed Description

As shown in fig. 1-8, an automatic screening apparatus before vacuum coating of an ornament drill comprises: the device comprises a frame 1, a screening roller 2 and a recovery hopper 3; the top of the frame 1 is provided with a working platform 11 and two operating platforms 12; the two operation tables 12 are correspondingly distributed on two sides of the working platform 11, wherein one operation table 12 is used for placing the aluminum plates 100 which are well fed, and the other operation table 12 is used for placing the screened aluminum plates 100; a recovery hopper 3 is fixedly arranged in the rack 1, is correspondingly positioned right below the working platform 11 and is used for recovering the screened ornaments; a group of first moving mechanism 4a and second moving mechanism 4b are arranged on the frame 1; the first moving mechanism 4a is positioned at two sides of the working platform 11, and is provided with at least one screening roller 2 and a power motor 5 for driving the screening roller 2 to rotate; the screening roller 2 is driven by a first moving mechanism 4a to reciprocate at two ends of the working platform 11; the two groups of second moving mechanisms 4b longitudinally span above the two operation platforms 12 respectively and are integrally higher than the first moving mechanisms 4 a; and a plurality of clamping components 6 are fixedly arranged on the second moving mechanism 4b and used for clamping the aluminum plate 100 to realize the automatic feeding and discharging function.

Referring to fig. 5 and 6, the screen roller 2 includes: a rotating shaft 21 and a mounting sleeve 22; two ends of the rotating shaft 21 are correspondingly coupled with the first moving mechanism 4a through a bearing seat 7; the outer side of the middle section of the rotating shaft 21 is fixedly sleeved with a mounting sleeve 22; a plurality of wire loop clusters 23 are arranged on the mounting sleeve 22; one end of the screening roller 2 is correspondingly connected with a power motor 5.

Preferably, the mounting sleeve 22 is made of rubber, and the outer side wall thereof is provided with a plurality of mounting holes 221 for correspondingly mounting the wire loop cluster 23; the length of the wire loop cluster 23 is larger than the width of the working platform 11 and smaller than the width of the opening of the recovery hopper 3.

Preferably, the loop cluster 23 is formed by folding two ends of a plurality of polyester fiber ropes, inserting the two ends into the mounting hole 221, and bonding and fixing the two ends by glue.

Referring to fig. 2 and 3, the first moving mechanism 4a is composed of two sets of identical moving assemblies 40 a; the two groups of moving assemblies 40a are distributed on two sides of the working platform 11 in a mirror image manner; the moving assembly 40a includes: a first movable mounting frame 41a, a first servo motor 42a, a first slide rail 43a and a first rack 44 a; the first slide rail 43a and the first rack 44a are correspondingly installed and fixed on the rack 1; the first movable mounting frame 41a is slidably connected to the first slide rail 43 a; a first servo motor 42a is fixedly arranged on the first movable mounting frame 41 a; the output end of the first servo motor 42a is fixedly connected with a first gear 421a, and correspondingly meshed with the first rack 44 a; a manual adjusting frame 411a is further arranged on the first movable mounting frame 41 a; a bearing seat 7 is correspondingly connected in the manual adjusting frame 411 a.

Preferably, the power motor 5 is a forward and reverse rotating motor, and is correspondingly mounted on the first movable mounting frame 41a of any one of the movable assemblies 40 a.

Referring to fig. 4, the second moving mechanism 4b includes: two sets of second movable mounting frames 41b, second sliding rails 43b and second racks 44 b; the second slide rail 43b and the second rack 44b are correspondingly installed and fixed on the frame 1 and cross over the first moving mechanism 4 a; two groups of second movable mounting frames 41b are slidably connected to the second slide rails 43 b; the two groups of second movable mounting frames 41b are respectively correspondingly connected to the two operation tables 12, and the number of the clamping assemblies 6 mounted on each group of second movable mounting frames 41b is the same; a group of second servo motors 42b are fixedly arranged at both ends of the second movable mounting frame 41 b; the output end of the second servo motor 42b is fixedly provided with a second gear 421b which correspondingly engages with the second rack 44 b.

Preferably, the clamping assembly 6 comprises: a pushing cylinder 61, a clamping frame 62 and a plastic sucker 63; the number of the pushing cylinders 61 is at least two, and the pushing cylinders are correspondingly installed and fixed on the second movable installation frame 41b of the second moving mechanism 4 b; the pushing end of the pushing cylinder 61 is fixedly connected with a clamping frame 62; four plastic suction cups 63 are mounted on the holder 62.

Preferably, the open perimeter of the recovery hopper 3 is longer than the perimeter of the work platform 11.

The operation and principle of the present invention are explained in detail with reference to fig. 1-8: one operation table 12 is used for placing the well-finished aluminum plate 100, the other operation table 12 is used for placing the screened aluminum plate 100, the clamping component 6 acts to enable the plastic suction cups 63 on the operation table to firmly suck the well-finished aluminum plate 100, the well-finished aluminum plate 100 is conveyed to the working platform 11 through the second movable mounting frame 41b and then returns to the original position, the first moving mechanism 4a acts to drive the screening roller 2 to move forwards, the power motor 5 rotates forwards to drive the screening roller 2 to rotate, when the upside-down ornament drill exists as shown in figure 7, the wire loop cluster 23 enters one side of the hanging part of the ornament drill, the upside-down product is reduced due to the rotating force of the screening roller 2, the square product has no force applying point and is added with the resin bonding force on the aluminum plate 100, the power motor 5 rotates backwards, and the hanging part from other angles is ensured to the greatest extent when the screening roller 2 returns to the original point after walking once, avoiding missing the selection, the reversed products are swept into the recycling hopper 3 through one back-and-forth screening, after the screening is completed, the other group of second movable mounting frames 41b drive the clamping assemblies 6 thereon to complete the blanking, and the aluminum plate 100 is placed on the other operation table 12.

It is to be understood that the exemplary embodiments described herein are illustrative and not restrictive; although the embodiments of the present invention have been described with reference to the accompanying drawings, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. An automatic screening equipment before vacuum coating of ornament brill includes: the device comprises a frame (1), a screening roller (2) and a recovery hopper (3); the method is characterized in that: the top of the frame (1) is provided with a working platform (11) and two operating platforms (12); the two operation platforms (12) are correspondingly distributed on two sides of the working platform (11); a recovery hopper (3) is fixedly arranged in the rack (1) and is correspondingly positioned right below the working platform (11); a group of first moving mechanism (4 a) and second moving mechanism (4 b) are arranged on the frame (1); the first moving mechanism (4 a) is positioned at two sides of the working platform (11), and is provided with at least one screening roller (2) and a power motor (5) for driving the screening roller (2) to rotate; the screening roller (2) is driven by a first moving mechanism (4 a) to reciprocate at two ends of the working platform (11); the two groups of second moving mechanisms (4 b) longitudinally span above the two operation tables (12) respectively and are integrally higher than the first moving mechanisms (4 a); and a plurality of clamping components (6) are fixedly arranged on the second moving mechanism (4 b).

2. The automatic screening equipment before vacuum coating of ornament drill according to claim 1, characterized in that: the screen roller (2) comprises: a rotating shaft (21) and a mounting sleeve (22); two ends of the rotating shaft (21) are correspondingly coupled with the first moving mechanism (4 a) through a bearing seat (7); the outer side of the middle section of the rotating shaft (21) is fixedly sleeved with a mounting sleeve (22); a plurality of wire loop clusters (23) are arranged on the mounting sleeve (22); one end of the screening roller (2) is correspondingly connected with the power motor (5).

3. The automatic screening equipment before vacuum coating of ornament drill according to claim 2, characterized in that: the mounting sleeve (22) is made of rubber materials, a plurality of mounting holes (221) are formed in the outer side wall of the mounting sleeve, and the wire loop clusters (23) are correspondingly mounted on the mounting sleeve; the length of the distribution of the wire loop clusters (23) is greater than the width of the working platform (11) and less than the width of the opening of the recovery hopper (3).

4. The automatic screening equipment before vacuum coating of ornament drill according to claim 3, characterized in that: the loop cluster (23) is formed by folding two ends of a plurality of polyester fiber ropes, inserting the polyester fiber ropes into the mounting hole (221) and bonding and fixing the polyester fiber ropes by glue.

5. The automatic screening equipment before vacuum coating of ornament drill according to claim 1, characterized in that: the first moving mechanism (4 a) consists of two groups of identical moving components (40 a); the two groups of moving assemblies (40 a) are distributed on two sides of the working platform (11) in a mirror image mode; the moving assembly (40 a) comprises: the device comprises a first movable mounting frame (41 a), a first servo motor (42 a), a first sliding rail (43 a) and a first rack (44 a); the first sliding rail (43 a) and the first rack (44 a) are correspondingly installed and fixed on the rack (1); the first movable mounting rack (41 a) is in sliding connection with the first sliding rail (43 a); a first servo motor (42 a) is fixedly arranged on the first movable mounting frame (41 a); the output end of the first servo motor (42 a) is fixedly connected with a first gear (421 a) which is correspondingly meshed with a first rack (44 a); a manual adjusting frame (411 a) is further arranged on the first movable mounting frame (41 a); and a bearing seat (7) is correspondingly connected in the manual adjusting frame (411 a).

6. The automatic screening equipment before vacuum coating of ornament drill according to claim 1, characterized in that: the power motor (5) adopts a forward and reverse rotating motor and is correspondingly arranged on a first movable mounting rack (41 a) of any one movable assembly (40 a).

7. The automatic screening equipment before vacuum coating of ornament drill according to claim 1, characterized in that: the second moving mechanism (4 b) includes: two groups of second movable mounting racks (41 b), second sliding rails (43 b) and second racks (44 b); the second sliding rail (43 b) and the second rack (44 b) are correspondingly installed and fixed on the rack (1) and cross over the first moving mechanism (4 a); two groups of second movable mounting frames (41 b) are connected onto the second sliding rails (43 b) in a sliding manner; the two groups of second movable mounting frames (41 b) are respectively correspondingly connected to the two operation tables (12), and the number of the clamping assemblies (6) arranged on each group of second movable mounting frames (41 b) is the same; a group of second servo motors (42 b) are fixedly arranged at two ends of the second movable mounting frame (41 b); and a second gear (421 b) is fixedly installed at the output end of the second servo motor (42 b) and correspondingly meshed with a second rack (44 b).

8. The automatic screening equipment before vacuum coating of ornament drill according to claim 1, characterized in that: the clamping assembly (6) comprises: a pushing cylinder (61), a clamping frame (62) and a plastic sucker (63); the number of the pushing cylinders (61) is at least two, and the pushing cylinders are correspondingly installed and fixed on a second movable installation rack (41 b) of the second moving mechanism (4 b); the pushing end of the pushing cylinder (61) is fixedly connected with a clamping frame (62); four plastic suckers (63) are mounted on the clamping frame (62).

9. The automatic screening equipment before vacuum coating of ornament drill according to claim 1, characterized in that: the open periphery of the recovery hopper (3) is longer than the periphery of the working platform (11).