CN117430317A - Threaded pipe glass bead structure and preparation system thereof - Google Patents

Abstract

The invention discloses a threaded pipe glass bead structure and a preparation system thereof, wherein a rotary component a is arranged on a support frame a, a rotary component b is arranged on a support frame b, a clamping component a is arranged on the rotary component a, the clamping component a is used for clamping and fixing a part, a guide rail a used for driving the clamping component a to clamp the part is arranged on the rotary component a, a clamping component b is arranged on the rotary component b, a guide rail b is arranged on the rotary component b, a rack is arranged at the lower end of the clamping component b, the rack is used for driving the clamping component b to rotate on a set track, melting furnaces used for heating the part are arranged in the middle of the support frame a and the support frame b, the glass pipe is heated through the melting furnaces, and the rotation of the support component b on the rack is realized after the heating, so that the external surface of the glass pipe is subjected to threading treatment, the appearance form of the glass pipe is changed, and the problem that the existing glass bead is single in shape is solved.

Description

Threaded pipe glass bead structure and preparation system thereof

Technical Field

The invention relates to the technical field of glass tube forming, in particular to a threaded tube glass bead structure and a preparation system thereof.

Background

The pearl embroidery manufacturing technology is to thread a plurality of materials such as pearls, glass beads, jewel beads, sequins, gum stones and the like through needles, and embroider a picture which is rich in three-dimension, rich in themes and attractive in color on different materials such as canvas or textiles, figured cloth, cowhells cloth, artificial leather, leather and the like through the design of an author. The pearl elegance is developed on the basis of the famous embroidery in China, has the romantic style of fashion and trend and has the eastern culture and national charm of elegance and deep-lying in the deep. With the development of economy, the requirements of people on the aesthetic properties of clothes, shoe bags and decorations are higher and higher, and the pearl embroidery process is popular with people.

In a chinese patent publication No. CN111747636B, a method, an apparatus for producing glass beads, and an automated production apparatus for producing glass beads are provided, and in particular, a "method, an apparatus for producing glass beads, and an automated production apparatus for producing glass beads are provided, in which an air source assembly is used to blow air into irregularly shaped raw materials to make them in a suspended and rotating state, and a laser assembly is used to heat and fuse the raw materials in the suspended and rotating state into spherical glass beads".

The above mentioned reference also has the following drawbacks: the glass beads produced by the device in the comparison document are uniformly turned over and burned under the action of hot air flow to form spherical glass beads, most of spherical glass beads on the market at present have better presentation effect on fabrics and other embroidery products, and therefore, the threaded tube glass bead structure and the preparation system thereof are provided.

Disclosure of Invention

The invention aims at overcoming the defects of the prior art, by arranging a rotary component a on a support frame a, arranging a rotary component b on a support frame b, arranging a clamping component a on the rotary component a, clamping the part by the clamping component a, arranging a guide rail a for driving the clamping component a to clamp the part by the clamping component a on the rotary component a, arranging a clamping component b on the rotary component b, arranging a guide rail b on the rotary component b, arranging a rack at the lower end of the clamping component b, driving the clamping component b to rotate on a set track, arranging melting furnaces for heating the part in the middle of the support frame a and the support frame b, heating the glass pipe by the melting furnaces, realizing rotation on the rack by the support component b after heating, and carrying out threading treatment on the outer surface of the glass pipe, thereby changing the appearance form of the glass pipe and solving the problem of single modeling of the existing glass beads.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a screwed pipe glass pearl structure, includes the glass pipe body, glass pipe body center is provided with the round hole, the section outer lane of glass pipe body is equipped with a plurality of arch, the arch is triangle form ring round hole evenly distributed, the arch is along the vertical heliciform of glass pipe body and distributes, protruding distortion angle control is between 30-45 degrees.

The utility model provides a preparation system of screwed pipe glass pearl, includes support frame a and support frame b that side by side, be provided with gyration subassembly a on the support frame a, be provided with gyration subassembly b on the support frame b, be provided with clamping assembly a on the gyration subassembly a, clamping assembly a is used for fixing the part centre gripping, gyration subassembly a right-hand member portion is provided with the material loading subassembly, be provided with the guide rail a that is used for driving clamping assembly a centre gripping part on gyration subassembly a, be provided with clamping assembly b on gyration subassembly b, be provided with guide rail b on gyration subassembly b, clamping assembly b lower extreme is provided with the rack, the rack is used for driving clamping assembly b autorotation on its established track, support frame a and support frame b middle part are provided with the melting furnace that is used for heating the part, the melting furnace tail end is provided with the unloading subassembly.

Preferably, the rotary assembly a comprises a motor a arranged on the support frame a, a driving gear a driven by the motor a, a driven gear a rotatably arranged on the support frame a, and a chain a arranged between the driving gear a and the driven gear a.

Preferably, the clamping assembly a comprises a supporting block a arranged on the chain a, long through grooves a arranged on two sides of the supporting block a, a sliding rod a arranged in the supporting block a in a sliding manner, a reset spring a arranged at the tail end of the sliding rod a, a supporting rod a fixedly connected to the front end of the sliding rod a, a gripper a hinged inside the supporting block a, a gripper b, a sliding groove a arranged on the gripper a and a sliding groove b arranged on the gripper b.

Preferably, the supporting rod a is arranged in the long through groove a in a sliding mode, and the supporting rod a is arranged in the sliding groove a and the sliding groove b in a sliding mode.

Preferably, the rotary assembly b comprises a motor b arranged on the support frame b, a driving gear b driven by the motor b, a driven gear b rotatably arranged on the support frame b, and a chain b arranged between the driving gear b and the driven gear b.

As one preferable mode, the clamping assembly b comprises a fixed block b arranged on the chain b, a sliding rod b arranged in the fixed block b in a sliding manner, a gear b arranged at the rear end part of the fixed block b, a reset spring b arranged at the tail end of the sliding rod b, a supporting block b arranged at the front end part of the fixed block, long through grooves b arranged on two sides of the supporting block b, a supporting rod b fixedly connected to the front end of the sliding rod b, a gripper c and a gripper d hinged in the supporting block, a sliding groove c arranged on the gripper c and a sliding groove d arranged on the gripper d.

Preferably, the supporting rod b is slidably arranged in the long through groove b, the supporting rods b are slidably arranged in the sliding groove c and the sliding groove d, the gear is meshed with the rack, and the rack is fixedly connected to the guide rail b.

Preferably, the feeding assembly comprises a conveying belt a, teeth arranged on the conveying belt a and guide plates arranged on the side face of the conveying belt a.

As still another preferable aspect, the discharging assembly includes a conveyor belt b, a branch bar erected above the guide rail b, and a pulling piece provided at a lower end portion of the branch bar.

The invention has the beneficial effects that:

1. according to the invention, the uniformly distributed teeth are arranged on the conveying belt in the feeding assembly, so that the glass tubes are uniformly and orderly fed, and the guide plates are arranged on one side of the conveying belt, so that the glass tubes are orderly and slowly protruded to one side, and the clamping assembly on the other side can be better used for clamping the glass tubes.

2. According to the invention, the rack is arranged on the rotary component, the gear corresponding to the rack is arranged on the clamping component, and when the gear runs on the rack, the glass tube on the clamping component is driven to rotate, so that the glass tube can be driven to be in a spiral shape better.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, it being obvious that the drawings described below are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an axial measurement structure according to the present invention;

FIG. 2 is a schematic diagram of an axial measurement structure according to the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic diagram of a rotary assembly a according to the present invention;

FIG. 5 is a schematic view of a rotary assembly b according to the present invention;

FIG. 6 is a schematic view of a portion of the structure according to the present invention;

FIG. 7 is a schematic view of a clamping assembly a according to the present invention;

FIG. 8 is a schematic view of a cross-sectional structure of a clamping assembly a according to the present invention;

FIG. 9 is a schematic view of a clamping assembly b according to the present invention;

FIG. 10 is a schematic view of a cross-sectional structure of a clamping set b according to the present invention;

in the figure: 1-a supporting frame a; 2-a support b; 3-parts; 4-a feeding assembly; 5-a melting furnace; 6-blanking components; 7-glass tube body; 8-round holes; 11-a swivel assembly a; 12-a clamping assembly a; 13-a guide rail a; 21-a swivel assembly b; 22-a clamping assembly b; 23-a guide rail; 24-rack; 41-conveyor belt a; 42-teeth; 43-guide plate; 61-conveyor belt b; 62-dividing the supporting rod; 63-shifting piece; 111-motor a; 112-a driving gear a; 113-driven gear b; 114-chain a; 121-supporting block a; 122-long through groove a; 123-a sliding rod a; 124-return spring a; 125-strut a; 126-grip a; 127-grip b; 128-chute a; 129-chute b; 211-motor b; 212-a driving gear b; 213-driven gear b; 214-chain b; 220-fixed block b; 221-a sliding bar b; 222-gear b; 223-return spring b; 224-support block b; 225-a long through groove b; 226-strut b;227—grip c;228—grip d; 229-chute c; 230-chute d.

Detailed Description

The following description of the embodiments of the present invention will be made more clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention.

Example 1

Referring to fig. 1, a threaded pipe glass bead structure comprises a glass pipe body 7, a round hole 8 is formed in the center of the glass pipe body 7, a plurality of protrusions are arranged on the outer ring of a cut-off surface of the glass pipe body 7, the protrusions are uniformly distributed in triangular circular holes 8, the protrusions are longitudinally and spirally distributed along the glass pipe body 7, and the twisting angle of the protrusions is controlled to be 30-45 degrees.

Referring to fig. 2-10, a preparation system of threaded pipe glass beads comprises a support frame a1 and a support frame b2 which are arranged in parallel, wherein a rotary component a11 is arranged on the support frame a1, a rotary component b21 is arranged on the support frame b2, a clamping component a12 is arranged on the rotary component a11, the clamping component a12 is used for clamping and fixing a part 3, a feeding component 4 is arranged at the right end part of the rotary component a11, a guide rail a13 used for driving the clamping component a12 to clamp the part is arranged on the rotary component a11, a clamping component b22 is arranged on the rotary component b21, a guide rail b23 is arranged on the rotary component b21, a rack 24 is arranged at the lower end of the clamping component b22 and used for driving the clamping component b22 to rotate on a set track thereof, a melting furnace 5 used for heating the part 3 is arranged in the middle of the support frame a1 and the support frame b2, and a discharging component 6 is arranged at the tail end of the melting furnace 5.

It is worth mentioning here that through the melting furnace to the glass pipe heating, realize the rotation through supporting component b on the rack after the heating, carry out spiral processing to the glass pipe, solved the single problem of current cellophane molding.

Referring to fig. 4, the swing assembly a11 includes a motor a111 disposed on a supporting frame a1, a driving gear a112 driven by the motor a111, a driven gear a113 rotatably disposed on the supporting frame a1, and a chain a114 disposed between the driving gear a112 and the driven gear a 113.

Referring to fig. 5, the swing assembly b21 includes a motor b211 disposed on the support frame b2, a driving gear b212 driven by the motor b211, a driven gear b213 rotatably disposed on the support frame b2, and a chain b214 disposed between the driving gear b212 and the driven gear b 213.

Referring to fig. 6, the feeding assembly 4 includes a conveyor belt a41, teeth 42 provided on the conveyor belt a41, and a guide plate 43 provided at a side of the conveyor belt a 41.

It should be mentioned here that, through being provided with evenly distributed's tooth on the conveyer belt in the material loading subassembly for even and orderly when the glass pipe material loading, be provided with the deflector in one side of conveyer belt, make the glass pipe orderly to one side slowly protruding, make the clamping assembly of the other side clamp that the glass pipe can be better.

Referring to fig. 6, the discharging assembly 6 includes a conveyor belt b61, a branch bar 62 erected above the guide rail b23, and a pulling piece 63 provided at a lower end portion of the branch bar 62.

It should be noted that, by providing the pulling sheet 63 between the clamping assembly a12 and the clamping assembly b22, the glass tube on the clamping assembly b22 can be blocked and dropped into the conveyor belt.

Referring to fig. 7 to 8, the clamping assembly a12 includes a supporting block a121 disposed on the chain a114, long through grooves a122 disposed at both sides of the supporting block a121, a sliding rod a123 slidably disposed in the supporting block a121, a return spring a124 disposed at the rear end of the sliding rod a123, a supporting rod a125 fixedly connected to the front end of the sliding rod a123, a gripper a126 hinged inside the supporting block a121, and a gripper b127, a sliding groove a128 disposed on the gripper a126, and a sliding groove b129 disposed on the gripper b 127. The support rod a125 is slidably arranged in the long through groove a122, and the support rod a125 is slidably arranged in the sliding groove a128 and the sliding groove b129.

It should be noted that, the restoring spring a124 at the tail end can make the clamping assembly a12 keep an expanded state, and the clamping assembly a12 controls the opening and closing of the grippers through the track on the guide rail a13, so that the mechanical automation is realized, and the manual participation is reduced.

Referring to fig. 9 to 10, the clamping assembly b22 includes a fixed block b220 provided on a chain b211, a sliding bar b221 slidably provided inside the fixed block b220, a gear b222 provided at a rear end portion of the fixed block b220, a return spring b223 provided at a rear end portion of the sliding bar b221, a supporting block b224 provided at a front end portion of the fixed block 220, long through grooves b225 provided at both sides of the supporting block b224, a strut b226 fixedly connected to a front end of the sliding bar b221, a gripper c227 and a gripper d228 hinged inside the supporting block 224, a chute c229 provided on the gripper c227, and a chute d230 provided on the gripper d 228. The support rod b226 is slidably arranged in the long through groove b225, the support rods b226 are slidably arranged in the slide groove c229 and the slide groove d230, the gear 222 is meshed with the rack 24, and the rack 24 is fixedly connected to the guide rail b 23.

It is worth mentioning here that through being provided with the rack on the gyration subassembly, be provided with the gear corresponding with the rack on the clamping assembly, when the gear was operated on the rack, drive the glass pipe on the clamping assembly and rotate, can be better order about the glass pipe to be the heliciform.

The working process is as follows

The motor a111 and the motor b211 are started, the guide plate 43 on the conveying belt a41 drives the part 3 to gradually approach the rotary assembly a11, and the book grabbing a126 and the hand grabbing b128 on the clamping assembly a12 drive the clamping assembly a12 to clamp the part 3 and drive the part 3 to run on the rotary assembly a11 through the movement on the guide rail a 13.

When the part 3 is operated to the clamping assembly b22, the book grabbing c227 and the hand grabbing d228 on the clamping assembly b22 drive the clamping assembly b22 to clamp the other end of the part 3 through movement on the guide rail b23, and the gear b222 on the clamping assembly b22 is meshed with the rack 24 to drive the part 3 to rotate, so that the glass tube is spiralized.

Of course, in this disclosure, those skilled in the art will understand that the term "a" or "an" is to be interpreted as "at least one" or "one or more," i.e., in one embodiment, the number of elements may be one, and in another embodiment, the number of elements may be multiple, and the term "a" is not to be construed as limiting the number.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a screwed pipe glass pearl structure, includes glass pipe body (7), its characterized in that: the glass tube comprises a glass tube body (7), and is characterized in that a round hole (8) is formed in the center of the glass tube body (7), a plurality of protrusions are arranged on the outer ring of a cut-off surface of the glass tube body (7), the protrusions are uniformly distributed in triangular circular holes (8), the protrusions are longitudinally and spirally distributed along the glass tube body (7), and the twisting angle of the protrusions is controlled to be 30-45 degrees.

2. The utility model provides a preparation system of screwed pipe glass pearl, includes support frame a (1) and support frame b (2) that side by side, its characterized in that: the automatic feeding device is characterized in that a rotary component a (11) is arranged on the support frame a (1), a rotary component b (21) is arranged on the support frame b (2), a clamping component a (12) is arranged on the rotary component a (11), the clamping component a (12) is used for clamping and fixing a part (3), a feeding component (4) is arranged at the right end part of the rotary component a (11), a guide rail a (13) used for driving the clamping component a (12) to clamp the part is arranged on the rotary component a (11), a clamping component b (22) is arranged on the rotary component b (21), a guide rail b (23) is arranged on the rotary component b (21), a rack (24) is arranged at the lower end of the clamping component b (22), the rack (24) is used for driving the clamping component b (22) to rotate on a given track, a melting furnace (5) used for heating the part (3) is arranged in the middle of the support frame a (1) and the support frame b (2), and the melting furnace (5) is provided with a discharging component (6).

3. A system for preparing a glass bead for a threaded pipe according to claim 2, characterized in that the swivel assembly a (11) comprises a motor a (111) arranged on the support frame a (1), a driving gear a (112) driven by the motor a (111), a driven gear a (113) arranged on the support frame a (1) in a rotating manner, and a chain a (114) arranged between the driving gear a (112) and the driven gear a (113).

4. The system for preparing a glass bead for a threaded pipe according to claim 2, wherein the clamping assembly a (12) comprises a supporting block a (121) arranged on the chain a (114), long through grooves a (122) arranged on two sides of the supporting block a (121), a sliding rod a (123) arranged in the supporting block a (121) in a sliding manner, a return spring a (124) arranged at the tail end of the sliding rod a (123), a supporting rod a (125) fixedly connected to the front end of the sliding rod a (123), a gripper a (126) hinged inside the supporting block a (121), a gripper b (127), a sliding groove a (128) arranged on the gripper a (126) and a sliding groove b (129) arranged on the gripper b (127).

5. The system for preparing a threaded tubular glass bead according to claim 2, wherein the rod a (125) is slidably disposed in the long through slot a (122), and the rod a (125) is slidably disposed in both the slot a (128) and the slot b (129).

6. A system for preparing glass beads for threaded pipes according to claim 2, characterized in that the swivel assembly b (21) comprises a motor b (211) arranged on the support frame b (2), a driving gear b (212) driven by the motor b (211), a driven gear b (213) arranged on the support frame b (2) in rotation, and a chain b (214) arranged between the driving gear b (212) and the driven gear b (213).

7. The preparation system of a threaded pipe glass bead according to claim 2, wherein the clamping assembly b (22) comprises a fixed block b (220) arranged on the chain b (211), a sliding rod b (221) arranged in the fixed block b (220) in a sliding manner, a gear b (222) arranged at the rear end part of the fixed block b (220), a return spring b (223) arranged at the tail end of the sliding rod b (221), a supporting block b (224) arranged at the front end part of the fixed block (220), long through grooves b (225) arranged at two sides of the supporting block b (224), a supporting rod b (226) fixedly connected to the front end of the sliding rod b (221), a gripper c (227) and a gripper d (228) hinged in the supporting block b (224), a sliding groove c (229) arranged on the gripper c (227) and a sliding groove d (230) arranged on the gripper d (228).

8. The system for preparing glass beads for a threaded pipe according to claim 6, wherein the supporting rod b (226) is slidably disposed in the long through groove b (225), the supporting rod b (226) is slidably disposed in the sliding groove c (229) and the sliding groove d (230), the gear (222) is meshed with the rack (24), and the rack (24) is fixedly connected to the guide rail b (23).

9. A system for preparing glass beads for threaded pipes according to claim 2, characterized in that the feeding assembly (4) comprises a conveyor belt a (41), teeth (42) provided on the conveyor belt a (41) and guide plates (43) provided on the sides of the conveyor belt a (41).

10. A system for preparing glass beads for threaded pipes according to claim 2, characterized in that the blanking assembly (6) comprises a conveyor belt b (61), a support rod (62) erected above the guide rail b (23) and a pulling piece (63) arranged at the lower end of the support rod (62).