CN217262953U - Material tray turnover device for hot-fix rhinestone production sieve beads - Google Patents

Abstract

The utility model discloses a charging tray turnover device for producing sieve beads by an rhinestone, which relates to the technical field of rhinestone production and comprises a base plate, wherein the top end of the base plate is connected with a first charging tray component and a second driving component, the top of the first charging tray component is connected with the first driving component, and the second servo motor rotates anticlockwise for 180 degrees, so that a connecting rod drives the second charging tray to turn over under the action of a bearing seat, the turnover component moves, the second charging tray is positioned right above the first charging tray, two groups of electric push rods extend synchronously to drive one ends of two groups of blocks to move downwards in the two groups of chutes, after the rhinestone is adhered by an adhesive layer, the two groups of electric push rods contract synchronously to lift the second charging tray, the turnover component is moved away, then the second servo motor rotates clockwise for 180 degrees to turn over the second charging tray, the structure can turn over the rhinestones stored in a plurality of groups of grooves at the top of the first charging tray, thereby being convenient for processing the drilling surface of the hot fix rhinestone.

Description

Material tray turnover device for producing sieve beads through hot fix rhinestones

Technical Field

The utility model relates to an ironing drill production technical field specifically is a material tray turning device of ironing drill production sieve pearl.

Background

In the hot-fix rhinestone production procedure, after boring bottom surface processing to the hot-fix rhinestone, need to bore the whole upset of hot-fix rhinestone to the top drilling surface that bores the hot-fix rhinestone is processed, adopts the manual work to overturn usually now, not only wastes time and energy, causes the incident easily moreover, for this reason, we have provided a charging tray turning device who bores production sieve pearl to the hot-fix rhinestone.

SUMMERY OF THE UTILITY MODEL

The utility model provides a be not enough to prior art, the utility model provides a material tray turning device who bores production sieve pearl has solved and has bored in the production process that scalds, bores the bottom surface processing back to scalding, needs to bore the whole upset of scalding to the top drilling surface that bores to scalding is processed, adopts the manual work to overturn usually now, not only wastes time and energy, causes the problem of incident easily moreover.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a tray overturning device for producing sieve beads through hot drilling comprises a base plate, wherein the top end of the base plate is connected with a first tray assembly and a second driving assembly, the top of the first tray assembly is connected with the first driving assembly, and the top end of the second driving assembly is connected with an overturning assembly;

the upset subassembly includes U type frame and second charging tray, the spout has all been seted up to two sets of lateral wall surfaces of U type frame, every group the inside sliding connection of spout has the square, the top of second charging tray is equipped with the viscose layer, the both ends side center department of second charging tray all is connected with the connecting rod, every group the bearing frame has all been cup jointed to the outside of connecting rod, and is two sets of the free end of connecting rod all passes the inside of two sets of squares, and is a set of the lateral surface of square and the free end of a set of connecting rod are connected with second servo motor jointly, two sets of medial surface center department of U type frame all are connected with electric putter, and two sets of electric putter's flexible end links to each other with the bottom of two sets of squares respectively.

As a further technical scheme of the utility model, the bottom symmetric connection of U type frame has two sets of extension boards, every group the bottom of extending the board all is connected with the second slider, every group the equal sliding connection in bottom of second slider has the second draw runner.

As a further technical scheme of the utility model, the bottom of U type frame links to each other, two sets of with second drive assembly's removal end the bottom of second draw runner links to each other with second drive assembly's bottom edge.

As a further technical scheme of the utility model, first charging tray subassembly includes the frame, frame top symmetry is equipped with two sets of first draw slips, every group the equal sliding connection in outside of first draw slip has first slider, and is two sets of the top of first slider is connected with first charging tray jointly, a plurality of groups recess has all been seted up on the top of first charging tray, the bottom center department of first charging tray is connected with the connecting piece.

As a further technical scheme of the utility model, first drive assembly and second drive assembly's structure is the same, first drive assembly's removal end links to each other with the bottom of connecting piece, second drive assembly's one end is located the one end below of frame.

As a further technical scheme of the utility model, a drive assembly includes the bottom plate, the top of bottom plate is connected with two sets of risers and a servo motor, every group the center department of riser all is equipped with the bearing, and is two sets of the inside of bearing is connected with the lead screw jointly, the one end of a servo motor's output lead screw links to each other, the outside of lead screw is rotated and is connected with a silk section of thick bamboo, the external connection of a silk section of thick bamboo has the removal seat, and is two sets of symmetrical connection has two sets of travelers, and is two sets of between the riser the travelers pass the both ends of removing the seat respectively, and be sliding connection.

Advantageous effects

The utility model provides a charging tray turning device of hot drill production sieve pearl. Compared with the prior art, the method has the following beneficial effects:

1. the utility model provides a charging tray turning device of hot drill production sieve pearl, through the anticlockwise 180 rotations of second servo motor, thereby make the connecting rod drive to overturn the second charging tray under the effect of bearing frame, the subassembly that will overturn removes, make the second charging tray be located first charging tray directly over, extend in step by two sets of electric putter, then drive the one end of two sets of squares and move down in the inside of two sets of spouts, glue the sticking and glue the back to hot drill by the viscose layer, two sets of electric putter shrink in step, make the second charging tray rise, remove the upset subassembly, second servo motor overturns to the second charging tray through clockwise 180 rotations after that, this structure can overturn the hot drill of depositing inside a plurality of groups of recesses in first charging tray top, thereby be convenient for process the drilling face of hot drill.

2. The utility model provides a material tray turning device who bores production sieve pearl scalds, moves through adopting first drive assembly to drive first charging tray, drives the upset subassembly by second drive assembly and removes to overturn the hot-fix rhinestone by the upset subassembly, thereby adopt automatic structure to realize pay-off and the upset process to the hot-fix rhinestone, and then improved machining efficiency.

Drawings

FIG. 1 is a schematic structural view of a tray turnover device for producing sieve beads by hot-fix drilling;

FIG. 2 is a schematic structural diagram of a first tray assembly in a tray turnover device for producing sieving beads by hot-fix drilling;

FIG. 3 is a schematic structural diagram of a first driving assembly in a tray turnover device for producing sieving beads by hot drilling;

fig. 4 is a schematic structural diagram of a turnover assembly in a tray turnover device for producing sieve beads by hot drilling.

In the figure: 1. a substrate; 2. a first tray assembly; 21. a frame; 22. a first slide bar; 23. a first slider; 24. a first tray; 25. a groove; 26. a connecting member; 3. a first drive assembly; 31. a base plate; 32. a vertical plate; 33. a bearing; 34. a screw rod; 35. a first servo motor; 36. a wire barrel; 37. a movable seat; 38. a traveler; 4. a second drive assembly; 5. a turnover assembly; 51. a U-shaped frame; 52. a second tray; 53. a chute; 54. a square block; 55. an adhesive layer; 56. a connecting rod; 57. a bearing seat; 58. a second servo motor; 59. an electric push rod; 510. an extension plate; 511. a second slider; 512. a second slide bar.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1, the utility model provides a material tray turnover device for hot-fix rhinestone production sieve beads, which comprises: the utility model provides a charging tray turning device of hot-fix rhinestone production sieve pearl, includes base plate 1, and the top of base plate 1 is connected with first charging tray subassembly 2 and second drive assembly 4, and the top of first charging tray subassembly 2 is connected with first drive assembly 3, and the top of second drive assembly 4 is connected with upset subassembly 5.

Referring to fig. 4, the u-shaped frame 5 includes a u-shaped frame 51 and a second tray 52, wherein two sets of side walls of the u-shaped frame 51 have sliding grooves 53, the inside of each sliding groove 53 is slidably connected with a square 54, the top end of the second tray 52 is provided with an adhesive layer 55, the centers of two side surfaces of the second tray 52 are connected with connecting rods 56, the outside of each connecting rod 56 is sleeved with a bearing seat 57, the free ends of the two sets of connecting rods 56 penetrate the inside of the two sets of square 54, the outside surfaces of the one set of square 54 and the free ends of the one set of connecting rods 56 are connected with a second servo motor 58, the centers of two inner sides of the u-shaped frame 51 are connected with electric push rods 59, the telescopic ends of the two sets of electric push rods 59 are respectively connected with the bottom ends of the two sets of square 54, the bottom ends of the u-shaped frame 51 are symmetrically connected with two sets of extension plates 510, and the bottom ends of each set of extension plates 510 are connected with a second slider 511, the bottom of each set of second sliders 511 is slidably connected with a second slide bar 512, the bottom end of the u-shaped frame 51 is connected with the moving end of the second driving element 4, and the bottom ends of the two sets of second slide bars 512 are connected with the bottom edge of the second driving element 4.

In practical use, the turnover assembly 5 rotates clockwise or counterclockwise 180 ° through the second servo motor 58, so that the connecting rod 56 is driven to turn over the second tray 52 under the action of the bearing seat 57, and the two sets of electric push rods 59 extend or contract synchronously to drive one ends of the two sets of blocks 54 to move up or down inside the two sets of sliding grooves 53.

Referring to fig. 2, the first tray assembly 2 includes a frame 21, two sets of first sliding strips 22 are symmetrically disposed on the top of the frame 21, a first sliding block 23 is slidably connected to the outside of each set of first sliding strips 22, the top ends of the two sets of first sliding blocks 23 are commonly connected to a first tray 24, a plurality of sets of grooves 25 are formed in the top end of the first tray 24, a connecting member 26 is connected to the center of the bottom end of the first tray 24, the first driving assembly 3 and the second driving assembly 4 have the same structure, the moving end of the first driving assembly 3 is connected to the bottom end of the connecting member 26, and one end of the second driving assembly 4 is located below one end of the frame 21.

Referring to fig. 3, the first driving assembly 3 includes a bottom plate 31, two sets of vertical plates 32 and a first servo motor 35 are connected to a top end of the bottom plate 31, a bearing 33 is disposed at a center of each set of vertical plates 32, a lead screw 34 is connected to an inside of each set of bearings 33, one end of the lead screw 34 at an output end of the first servo motor 35 is connected to the other end of the lead screw 34, a wire barrel 36 is rotatably connected to an outside of the lead screw 34, a moving seat 37 is connected to an outside of the wire barrel 36, two sets of sliding posts 38 are symmetrically connected between the two sets of vertical plates 32, and the two sets of sliding posts 38 respectively penetrate two ends of the moving seat 37 and are slidably connected to each other.

In practical use, the first driving assembly 3 drives the screw rod 34 to rotate clockwise or counterclockwise through the first servo motor 35, so that the moving seat 37 moves along the directions of the two sets of sliding columns 38 under the action of the wire barrel 36.

The utility model discloses a theory of operation: when the hot-fix rhinestone is used, firstly, the hot-fix rhinestone is placed in the plurality of groups of grooves 25 in an upward mode, the first servo motor 35 drives the screw rod 34 to rotate clockwise, the moving seat 37 moves along the directions of the two groups of sliding columns 38 under the action of the screw cylinder 36, and therefore the moving seat 37 drives the connecting piece 26 to enable the first material tray 24 to move to the rightmost end;

then the second servo motor 58 rotates 180 degrees counterclockwise, so that the connecting rod 56 is driven to turn over the second material tray 52 under the action of the bearing seat 57, the second driving assembly 4 drives the turning assembly 5 to move leftwards, the second material tray 52 is positioned right above the first material tray 24, the two groups of electric push rods 59 extend synchronously, one end of each group of square blocks 54 is driven to move downwards in the two groups of sliding grooves 53, and the adhesive layer 55 is used for adhering the hot drills;

after the adhesion, the two groups of electric push rods 59 contract synchronously to enable the second material tray 52 to ascend, the second driving assembly 4 works to drive the overturning assembly 5 to move rightwards, and then the second servo motor 58 rotates clockwise 180 degrees to overturn the second material tray 52.

Claims (6)

1. A tray turnover device for producing sieve beads through hot drilling comprises a base plate (1), and is characterized in that the top end of the base plate (1) is connected with a first tray component (2) and a second driving component (4), the top of the first tray component (2) is connected with a first driving component (3), and the top end of the second driving component (4) is connected with a turnover component (5);

the turning component (5) comprises a U-shaped frame (51) and a second tray (52), the outer surfaces of two groups of side walls of the U-shaped frame (51) are both provided with sliding grooves (53), the inside of each group of sliding grooves (53) is connected with square blocks (54) in a sliding way, the top end of the second material tray (52) is provided with an adhesive layer (55), the centers of the side surfaces of the two ends of the second material tray (52) are connected with connecting rods (56), the outer part of each group of connecting rods (56) is sleeved with a bearing seat (57), the free ends of the two groups of connecting rods (56) penetrate through the inner parts of the two groups of square blocks (54), the outer side surface of one group of square blocks (54) and the free end of one group of connecting rods (56) are connected with a second servo motor (58) together, the centers of two inner side surfaces of the U-shaped frame (51) are connected with electric push rods (59), and the telescopic ends of the two groups of electric push rods (59) are respectively connected with the bottom ends of the two groups of square blocks (54).

2. The tray turning device for producing the u-shaped frames with the expanded beads according to claim 1, wherein two sets of extension plates (510) are symmetrically connected to the bottom end of the u-shaped frame (51), the bottom end of each set of extension plates (510) is connected to a second slider (511), and the bottom of each set of second slider (511) is connected to a second sliding bar (512) in a sliding manner.

3. The tray turning device for producing u-shaped balls by hot drilling as claimed in claim 2, wherein the bottom end of said u-shaped frame (51) is connected to the moving end of the second driving element (4), and the bottom ends of two sets of said second sliding bars (512) are connected to the bottom edge of the second driving element (4).

4. The charging tray turnover device for producing the sieve beads through the hot-fix rhinestones as claimed in claim 1, wherein the first charging tray assembly (2) comprises a rack (21), two groups of first sliding strips (22) are symmetrically arranged at the top of the rack (21), a first sliding block (23) is slidably connected to the outer portion of each group of the first sliding strips (22), a first charging tray (24) is commonly connected to the top ends of the two groups of the first sliding blocks (23), a plurality of groups of grooves (25) are formed in the top end of each first charging tray (24), and a connecting piece (26) is connected to the center of the bottom end of each first charging tray (24).

5. The tray turnover device for producing sieve beads through hot drilling according to claim 4, wherein the first driving assembly (3) and the second driving assembly (4) are identical in structure, the moving end of the first driving assembly (3) is connected with the bottom end of the connecting piece (26), and one end of the second driving assembly (4) is located below one end of the rack (21).

6. The tray turnover device for producing the sieve beads through the hot fix rhinestones as claimed in claim 5, wherein the first driving assembly (3) comprises a bottom plate (31), the top end of the bottom plate (31) is connected with two sets of vertical plates (32) and a first servo motor (35), a bearing (33) is arranged at the center of each vertical plate (32), the two sets of bearings (33) are connected with a lead screw (34) together, one end of an output lead screw (34) of the first servo motor (35) is connected, a wire barrel (36) is rotatably connected to the outside of the lead screw (34), a movable seat (37) is connected to the outside of the wire barrel (36), two sets of sliding columns (38) are symmetrically connected between the vertical plates (32), and the two sets of sliding columns (38) respectively penetrate through two ends of the movable seat (37) and are in sliding connection.

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