CN219403171U - Middle beam core assembly machine - Google Patents

Abstract

The utility model provides a well restraint core assembly machine, including the carousel, be equipped with controlling means on the carousel, be equipped with the second on the carousel and put the position and first put the position, be equipped with the inclined plane groove on the second and put a position, revolute the dish and be equipped with a plurality of mechanisms around in proper order, rotating-structure includes first support, sliding connection is equipped with first revolving cylinder on the first support, first revolving cylinder link sliding connection is equipped with the depression bar, be equipped with the spring between first revolving cylinder and the depression bar, first position one side of putting is equipped with first electron clamping jaw, flip structure includes the second support, be equipped with first cylinder push rod on the second support, first cylinder push rod pushes away the end and is equipped with the second cylinder push rod, second cylinder push rod is with first cylinder push rod one of them cylinder push rod displacement direction and is first position to push away to the second position, the pushing end of second cylinder push rod is equipped with first rotatory electronic clamping jaw, first rotatory electronic clamping jaw is put the position side towards first.

Description

Middle beam core assembly machine

Technical Field

The utility model belongs to the technical field of lipstick tube processing equipment, and particularly relates to a middle beam core assembly machine.

Background

At present, lipstick is an indispensable part of the existing female cosmetics, a structure called a central beam core is arranged in the lipstick composition, the central beam core is an important structure in the lipstick composition structure, and the lipstick can be pushed out and retracted slightly only by the central beam core and can be reused.

The current well bundle core is assembled according to pearl, bush and swivel nut in proper order, the pearl often is equipped with the end that stretches out, stretch out and be equipped with horizontal card strip on the end, often be equipped with the draw-in groove that matches with the card strip on the bush, the bush on the current well bundle core for pleasing to the eye can set up the inclined plane at the user end, and the position between card strip and the inclined plane is often fixed, the current equipment flow of this kind of well bundle core is often manual installation, at first the draw-in groove of the user end of inserting the bush with the card strip on the pearl, then insert out the bush with the card strip, finally the other end of bush is shifted into the swivel nut at the plug-in end of pearl and is assembled completely, manual installation's efficiency is very low.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a middle beam core assembly machine, which can use an automatic assembly line to install the middle beam core, thereby improving the efficiency.

In order to solve the technical problems, the utility model is solved by the following technical scheme: the utility model provides a well restraint core assembly machine, includes the carousel, be equipped with controlling means on the carousel, around being equipped with a plurality of second on the carousel and put the position, around being equipped with the first position of putting of same number on the carousel, be equipped with the inclined plane groove on the second, around being equipped with on the carousel in proper order bush structure, go up bead structure, rotating structure, flip structure, go up swivel nut structure, fixed swivel nut structure and unloading structure, rotating structure includes first support, sliding connection is equipped with first revolving cylinder on the first support, first revolving cylinder link sliding connection is equipped with the depression bar, first revolving cylinder drive the depression bar is rotatory, first revolving cylinder with be equipped with the spring between the depression bar, first position one side of putting is equipped with first electron clamping jaw, flip structure includes the second support, be equipped with first cylinder push rod on the second support, the second cylinder push rod with first cylinder push rod push direction intersects, the second cylinder push rod with first cylinder push rod push direction is equipped with first cylinder push rod orientation, first cylinder push rod orientation is first cylinder orientation, and first cylinder orientation has put one of them and has realized that this kind of revolving cylinder put the clamp jaw is put to the rotation, and has put one of them and has been put one kind of side face.

In the above technical scheme, preferably, the first placing position is provided with a positioning groove, in the running process of the rotating structure, the clamping strip on the bead is inserted into the positioning groove after being inserted into the clamping groove, the inclined plane positioning direction on the lining is utilized in the running process of the overturning structure, the inclined plane positioning on the lining is utilized, after overturning, the tip formed by the inclined plane on the lining avoids the highest end of the inclined plane groove, and the inclined plane tip on the lining can be ensured to avoid the highest end of the inclined plane groove under the design.

In the above technical scheme, preferably, a detection structure is arranged between the upper bushing structure and the upper bead structure, the detection structure comprises a fourth bracket, a fifth bracket is arranged on the fourth bracket in a sliding connection manner, a detection rod facing the bushing on the first placement position is arranged on the fifth bracket in a sliding connection manner, a detection sheet is arranged on the detection rod, the detection sheet limits the detection rod to completely downwards penetrate through the fifth bracket, a detection block is arranged above the detection sheet, a detection port through the detection sheet is arranged on the detection block, the detection block is fixed on the fifth bracket, and whether the bushing normally feeds or not can be detected by the design.

Among the above-mentioned technical scheme, preferably, the flip structure with be equipped with first extrusion structure between the last swivel nut structure, first extrusion structure includes the sixth support, be equipped with on the sixth support and orientation the third cylinder push rod of position is put to the second, and this design can help the inclined plane on the bush and the inclined plane groove better location on the position is put to the second.

In the above technical scheme, preferably, a second extrusion structure is arranged between the rotating structure and the overturning structure, and the difference between the second extrusion structure and the first extrusion structure is that the third cylinder push rod faces the first placing position, and the design can enable the beads to be inserted deeper into the lining in advance, so that the beads cannot fall off when overturning.

In the above technical scheme, preferably, the upper bushing structure, the upper bead structure, the rotating structure, the overturning structure, the upper screw sleeve structure, the fixed screw sleeve structure and the blanking structure are connected in the same mode and at the replaceable positions, the mechanism is replaceable through the design, the universality is improved, the mechanism position can be replaced in time when a better flow is provided, the position is not designed from the beginning, and the optimization difficulty is reduced.

In the above technical scheme, preferably, the turntable is provided with a display screen, and the display screen displays the running states of all the mechanisms.

In the above technical solution, preferably, the transverse direction of the positioning slot and the sliding direction of the first rotary electric clamping jaw form 45 degrees, the first rotary air cylinder connecting shaft on the rotating structure is provided with an extension plate, the extension plate is rotationally connected to the seventh bracket, the seventh bracket is provided with a baffle, the baffle limits the rotation angle of the extension plate by 270 degrees, and the inclined plane on the forming bushing forms 45 degrees relative to the sharp angle formed by the inclined plane slot forever as long as one side of the design is limited to 45 degrees correspondingly.

In the above technical scheme, preferably, the second placing position is provided with a supporting column extending below the bead, and the design can enable the bead to be inserted out of the bushing more, so that the bead and the screw sleeve are better connected in a rotating mode.

Compared with the prior art, the utility model has the following beneficial effects: 1. the middle beam core assembly machine provided by the utility model can be used for installing the middle beam core by using an automatic assembly line, so that the efficiency is improved.

The utility model sets up the locating slot to cooperate with turning over structure, can guarantee the inclined plane tip on the bush to avoid the highest end of the said inclined plane slot.

The utility model sets up the detection structure, can detect whether the bush is normally fed.

The utility model establishes the first extrusion structure, and can help the inclined plane on the lining and the inclined plane groove on the second placing position to be better positioned.

The utility model establishes a second extrusion structure, which can lead the beads to be inserted deeper in the lining in advance, and lead the beads not to fall off when turning over.

According to the utility model, the upper bushing structure, the upper bead structure, the rotating structure, the overturning structure, the first extruding structure, the upper screw sleeve structure, the fixed screw sleeve structure and the blanking structure are connected in the same mode and can be replaced, so that the mechanism can be replaced, the universality is improved, the mechanism position can be replaced in time without designing the position from the head when a better flow exists, and the optimization difficulty is reduced.

The utility model sets up the display screen, can let users know the running state more conveniently.

According to the utility model, through the cooperation among the positioning groove, the baffle plate and the extension plate, the inclined surface on the bushing is always formed to form 45 degrees relative to the sharp angle formed by the inclined surface groove as long as one side is limited to the corresponding 45 degrees.

According to the utility model, the support column is arranged below the beads in an extending way, and the beads can be inserted out of the bushing more by the design, so that the beads and the threaded sleeves are better connected in a rotating way.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present utility model.

Fig. 2 is a schematic structural diagram of a rotating structure according to an embodiment of the utility model.

Fig. 3 is a schematic view illustrating another direction of the rotating structure according to an embodiment of the present utility model.

Fig. 4 is a schematic structural diagram of a flip structure according to an embodiment of the present utility model.

Fig. 5 is a schematic structural view of a first pressing structure and a second pressing structure according to an embodiment of the present utility model.

Fig. 6 is a schematic structural diagram of a detection structure in an embodiment of the present utility model.

Fig. 7 is a schematic structural diagram of a first placement position in an embodiment of the utility model.

FIG. 8 is a schematic view showing a structure with beads removed from the first placement location according to an embodiment of the present utility model.

Fig. 9 is a schematic structural diagram of a second placement position according to an embodiment of the utility model.

Fig. 10 is a cross-sectional view of a second placement location in an embodiment of the utility model.

Fig. 11 is a schematic structural diagram of a finished product in an embodiment of the present utility model.

Description of the embodiments

The utility model is described in further detail below with reference to the attached drawings and detailed description: referring to fig. 1 to 11, a medium beam core assembling machine comprises a rotary table 1, wherein a control device 10 is arranged on the rotary table 1, a plurality of second placing positions 2 are arranged on the rotary table 1 in a winding manner, the same number of first placing positions 3 are arranged on the rotary table 1, inclined grooves 9 are arranged on the second placing positions 2, an upper bushing structure 11, an upper bead structure 12, a rotating structure 13, a turnover structure 14, an upper screw sleeve structure 16, a fixed screw sleeve structure 17 and a blanking structure 18 are sequentially arranged on the rotary table 1 in a winding manner, the upper bushing structure 11, the upper bead structure 12, the upper screw sleeve structure 16, the fixed screw sleeve structure 17 and the blanking structure 18 can be realized by mechanical arms, the rotating structure 13 comprises a first bracket 19, a first rotary cylinder 20 is arranged on the first bracket 19 in a sliding manner, a pressing rod 21 is arranged on the connecting end of the first rotary cylinder 20 in a sliding manner, a spring is arranged between the first rotary cylinder 20 and the pressing rod 21, when the rotating structure 13 operates, the first electronic clamping jaw 23 clamps the bushing 8, then the first rotating cylinder 20 rotates the pressing rod 21, the first rotating cylinder 20 drives the pressing rod 21 to rotate, the driving mode can be driven by belt connection or gear connection, the pressing rod 21 presses the beads 4 to drive the beads 4 to rotate, the clamping strips 6 rotated onto the beads 4 are matched with the clamping grooves 71 on the bushing 8 for insertion, the insertion can be easier by the thrust of the pressing rod 21, the turnover structure 14 comprises a second bracket 24, the second bracket 24 is provided with a first cylinder push rod 25, the pushing end of the first cylinder push rod 25 is provided with a second cylinder push rod 70, the second cylinder push rod 70 is intersected with the pushing direction of the first cylinder push rod 25, the displacement direction of one of the second cylinder push rod 70 and the first cylinder push rod 25 is that the first placing position 3 pushes to the second placing position 2, the pushing end of the second cylinder push rod 70 is provided with a first rotary electric clamping jaw 26, the first rotary electric clamping jaw 26 faces to the side face of the first placing position 3, when the turnover structure 14 is used, the first rotary electric clamping jaw 26 clamps, then the first cylinder push rod 25 and the second cylinder push rod 70 are utilized to turn the lining 8 on the first placing position 3 to the second placing position 2, and the inclined plane on the lining 8 is matched with the inclined plane groove 9 on the second placing position 2 due to gravity, so that the automatic assembly line can be used for installing the medium-beam core, and the efficiency is improved.

In this embodiment, a problem is found when the above apparatus is operated, that is, when the tip of the inclined surface on the liner 8 collides with the highest end of the inclined surface groove 9, the liner 8 is damaged, waste is generated, the first placing position 3 is provided with the positioning groove 7, during the operation of the rotating structure 13, the clamping strip 6 on the bead 4 is inserted into the positioning groove 7 after being inserted into the clamping groove 71, the inclined surface on the liner 8 is positioned in the positioning direction, during the operation of the turning structure 14, the inclined surface on the front liner 8 is utilized to position, the tip formed by the inclined surface on the liner 8 after turning avoids the highest end of the inclined surface groove 9, because the position between the inclined surface on the liner 8 and the clamping strip 6 is fixed, the positions of the inclined surfaces on the positioning groove 7 and the liner 8 are fixed, and because the position of the inclined surface on the liner 8 after the turning structure 14 is fixed, the position of the inclined surface groove 9 on the second placing position 2 is staggered, so that the tip 9 on the liner 8 can avoid the highest end of the inclined surface 9 on the liner 8 can be guaranteed.

In this embodiment, a detection structure 34 is disposed between the upper bushing structure 11 and the upper bead structure 12, the detection structure 34 includes a fourth support 35, a fifth support 36 is slidably connected to the fourth support 35, a detection rod 37 opposite to the bushing 8 on the first placement position 3 is slidably connected to the fifth support 36, a detection piece 38 is disposed on the detection rod 37, the detection piece 38 limits the detection rod 37 to completely pass through the fifth support 36 downwards, a detection block 39 is disposed above the detection piece 38, a detection port 40 through which the detection piece 38 can pass is disposed on the detection block 39, and the detection block 39 is fixed on the fifth support 36.

In this embodiment, a first extrusion structure 15 is arranged between the turnover structure 14 and the upper screw sleeve structure 16, the first extrusion structure 15 includes a sixth bracket 27, a third cylinder push rod 28 facing the second placing position 2 is arranged on the sixth bracket 27, and the bushing 8 on the second placing position 2 is vibrated to match two inclined planes through the third cylinder push rod 28, so that the inclined planes on the bushing 8 and the inclined plane groove 9 on the second placing position 2 can be better positioned.

In this embodiment, a second extruding structure 41 is disposed between the rotating structure 13 and the turning structure 14, and the second extruding structure 41 is different from the first extruding structure 15 in that the third cylinder push rod 28 faces the first placing position 3, and this design can make the bead 4 insert deeper into the liner 8 in advance, so that the bead 4 will not drop during turning.

In this embodiment, the connection modes of the upper bushing structure 11, the upper bead structure 12, the rotating structure 13, the turnover structure 14, the upper screw sleeve structure 16, the fixed screw sleeve structure 17 and the blanking structure 18 are the same and the positions can be replaced, and the design provides mechanism replacement, so that the universality is improved, and when a better flow is provided, the mechanism position can be replaced in time without designing the position from the beginning, so that the optimization difficulty is reduced.

In this embodiment, the turntable 1 is provided with a display screen 46, and the display screen 46 displays the operation states of the mechanisms, so that the user can more conveniently understand the operation states.

In this embodiment, the transverse direction of the positioning slot 7 and the sliding direction of the first rotary electric clamping jaw 26 form 45 degrees, the connecting shaft of the first rotary air cylinder 20 on the rotating structure 13 is provided with the extension plate 47, the extension plate 47 is rotatably connected to the seventh bracket 48, the seventh bracket 48 is provided with the baffle 49, the baffle 49 limits the rotation angle of the extension plate 47 by 270 degrees, the first electronic clamping jaw 23 is used for clamping the liner 8 under the design, then the first rotary air cylinder 20 is used for rotating the compression bar 21 to rotate 270 degrees in one direction, the compression bar 21 is used for driving the bead 4 to rotate, the clamping bar 6 on the bead 4 and the clamping groove 71 on the liner 8 are enabled to be mutually matched and inserted, then the first electronic clamping jaw 23 is released to enable the compression bar 21 to rotate 270 degrees in the opposite direction, finally, the clamping bar 6 on the bead 4 enters the positioning slot 7 on the first positioning position 3, the angle before positioning and overturning is 45 degrees difference is realized, at the moment, the opposite positioning positions can be set up for rotation when the design is performed, the two positioning positions can be rotated by using one motor, the two positioning positions 4 and 8 can be set up, and the angle 45 degrees can be formed to be opposite to the positioning angle corresponding to the positioning slot 45 degrees when the positioning slot is formed, and the angle is limited to the angle 45 degrees is formed relative to the positioning slot 45 degrees and the positioning slot is formed.

In this embodiment, the second placement location 2 is provided with a support column 50 extending below the bead 4, which allows the bead 4 to be inserted more into the bushing 8, thereby allowing a better rotational connection between the bead 4 and the screw 29.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.

Claims (9)

1. The utility model provides a well beam core assembly machine, includes carousel (1), be equipped with controlling means (10), its characterized in that on carousel (1): the rotary table (1) is provided with a plurality of second placing positions (2) in a winding manner, the rotary table (1) is provided with first placing positions (3) with the same number, the second placing positions (2) are provided with inclined grooves (9), the rotary table (1) is provided with an upper lining structure (11), an upper bead structure (12), a rotary structure (13), a turnover structure (14), an upper screw sleeve structure (16), a fixed screw sleeve structure (17) and a blanking structure (18) in a winding manner, the rotary structure (13) comprises a first support (19), a first rotary cylinder (20) is arranged on the first support (19) in a sliding manner, the connecting end of the first rotary cylinder (20) is provided with a pressing rod (21) in a sliding manner, the first rotary cylinder (20) drives the pressing rod (21) to rotate, a spring is arranged between the first rotary cylinder (20) and the pressing rod (21), one side of the first placing positions (3) is provided with a first electronic device (23), the turnover structure (14) comprises a second support (24), the second support (24) is provided with a first rotary cylinder (25), the first pushing cylinder (25) is provided with a first pushing cylinder (70) and the first pushing cylinder (25) is provided with a pushing rod (70), the second cylinder push rod (70) and one of the first cylinder push rods (25) are pushed to the second placing position (2) by the first placing position (3) in the displacement direction, a first rotary electric clamping jaw (26) is arranged at the pushing end of the second cylinder push rod (70), and the first rotary electric clamping jaw (26) faces to the side face of the first placing position (3).

2. A medium beam core assembly machine as set forth in claim 1, wherein: the first placing position (3) is provided with a positioning groove (7), the clamping strip (6) on the bead (4) is inserted into the positioning groove (7) after being inserted into the clamping groove (71) in the process of running the rotating structure (13), the inclined plane on the bushing (8) is positioned in the direction of the inclined plane, the inclined plane on the bushing (8) is utilized in the process of running the overturning structure (14), and after overturning, the tip formed by the inclined plane on the bushing (8) avoids the highest end of the inclined plane groove (9).

3. A medium beam core assembly machine as set forth in claim 1, wherein: the utility model provides a detection structure (34) is equipped with between last bush structure (11) with go up pearl structure (12), detect structure (34) including fourth support (35), sliding connection is equipped with fifth support (36) on fourth support (35), sliding connection is equipped with on fifth support (36) subtend detect pole (37) of bush (8) on first position (3), be equipped with detection piece (38) on detect pole (37), detect piece (38) restriction detect pole (37) pass completely downwards fifth support (36), detect piece (38) top is equipped with detection piece (39), be equipped with on detection piece (39) can be through detect mouth (40) of detection piece (38), detect piece (39) are fixed on fifth support (36).

4. A medium beam core assembly machine as set forth in claim 1, wherein: the novel screw cap structure is characterized in that a first extrusion structure (15) is arranged between the turnover structure (14) and the upper screw cap structure (16), the first extrusion structure (15) comprises a sixth support (27), and a third cylinder push rod (28) facing the second placing position (2) is arranged on the sixth support (27).

5. A medium beam core assembly machine as set forth in claim 4, wherein: a second extrusion structure (41) is arranged between the rotation structure (13) and the turnover structure (14), and the second extrusion structure (41) is different from the first extrusion structure (15) in that the third cylinder push rod (28) faces the first placement position (3).

6. A medium beam core assembly machine as set forth in claim 1, wherein: the upper bushing structure (11), the upper bead structure (12), the rotating structure (13), the turnover structure (14), the upper screw sleeve structure (16), the fixed screw sleeve structure (17) and the blanking structure (18) are identical in connection mode and can be replaced.

7. A medium beam core assembly machine as set forth in claim 1, wherein: a display screen (46) is arranged on the rotary table (1), and the display screen (46) displays the running states of all the mechanisms.

8. A medium beam core assembly machine as set forth in claim 2, wherein: the transverse direction of the positioning groove (7) and the sliding direction of the first rotary electric clamping jaw (26) form 45 degrees, an extension plate (47) is arranged on a connecting shaft of the first rotary air cylinder (20) on the rotating structure (13), the extension plate (47) is rotationally connected to a seventh bracket (48), a baffle plate (49) is arranged on the seventh bracket (48), and the baffle plate (49) limits the extension plate (47) to have a rotation angle of 270 degrees only.

9. A medium beam core assembly machine as set forth in claim 1, wherein: the second placement position (2) is provided with a support column (50) extending below the beads (4).