CN217755773U - Two jar binary channels pile up neatly devices - Google Patents

Abstract

The utility model provides a two-tank double-channel stacking device, which comprises a left channel structure, an upper mounting plate, a right channel structure and a stacking structure, wherein the left channel structure is arranged at the left part of a top frame structure; the left channel structure and the right channel structure are bilaterally symmetrical about the center line of the top frame structure, the structures of the left channel structure and the right channel structure are consistent, and the left channel structure and the right channel structure are movably connected with an upper moving frame structure; the upper mounting plate is movably connected to the upper moving frame structure, and two groups of multistage telescopic cylinders are mounted on the left and right parts of the lower end face of the upper mounting plate; the stacking structure is fixed at the lower ends of the four groups of multistage telescopic cylinders. The utility model discloses specially set up binary channels transport structure, the activity of conveniently moving on X, Y, Z axle to carry out nimble centre gripping article, thereby the quick pile up neatly of binary channels helps improving whole pile up neatly efficiency.

Description

Two jar binary channels pile up neatly devices

Technical Field

The utility model relates to a pile up neatly technical field, concretely relates to two jar binary channels pile up neatly devices.

Background

At present, the metal cans for packaging are mainly aluminum two-piece cans, the aluminum two-piece cans adopt aluminum alloy sheets as materials, and a thinning and stretching process is used in the manufacturing process. The specification of the CN202022429672.8 novel stacker crane refers to that the stacker crane comprises a stand column assembly, a cross beam assembly and a chassis assembly, wherein the stand column assembly is positioned at the top of the chassis assembly, and the cross beam assembly is positioned at one side of the stand column assembly; the chassis assembly comprises a rotating chassis, and a chassis rotating motor is arranged at the top of the rotating chassis; the stand subassembly is including being fixed in the stand door plant at rotary chassis top, the lift slide rail is installed to one side of stand door plant, elevator motor is installed to top one side of stand door plant, elevator motor's output shaft tip installs the synchronous pulley that goes up and down, but the pile up neatly device rotatable activity in the comparison file is limited to a set of pile up neatly structure and is removed the pile up neatly, leads to whole pile up neatly efficiency not high.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, a two-tank double-channel stacking device is provided at present to solve the problem that the overall stacking efficiency is low as a group of stacking structures are only used for moving stacking although the stacking device in a comparison file can rotate and move.

In order to realize the aim, the two-piece can two-channel stacking device comprises a left channel structure, an upper mounting plate, a right channel structure and a stacking structure,

the left channel structure is arranged at the left part of the top frame structure;

the left channel structure and the right channel structure are bilaterally symmetrical about the center line of the top frame structure, the structures of the left channel structure and the right channel structure are consistent, and the left channel structure and the right channel structure are movably connected with an upper moving frame structure;

the upper mounting plate is movably connected to the upper moving frame structure, and two groups of multistage telescopic cylinders are mounted on the left and right parts of the lower end face of the upper mounting plate;

and the stacking structure is fixed at the lower ends of the four groups of multistage telescopic cylinders.

Furthermore, the upper end faces of the front portion and the rear portion of the left channel structure are provided with X-axis linear guide rails, a set of first sliding blocks are arranged on the front portion and the rear portion of the upper moving frame structure, and each set of first sliding blocks is connected to the X-axis linear guide rails on the same side in a sliding mode.

Furthermore, two parts all are provided with horizontal frame plate about going up the removal frame structure, and the up end of horizontal frame plate is provided with Y axle linear guide to two parts all are provided with a set of second slider about the lower terminal surface of going up the mounting panel, and every group second slider sliding connection is on the horizontal frame plate of homonymy.

Furthermore, the multi-stage telescopic cylinder below the upper mounting plate can stretch and move, and the stacking structure fixed at the lower end of the multi-stage telescopic cylinder can ascend and descend in the vertical direction.

Further, the pile up neatly structure is provided with down the mounting panel, and a set of recess has all been seted up in the left and right sides two of mounting panel down to all install a set of lead screw in every group recess, the front end at the motor is installed to the rear end of lead screw, and the middle part of mounting panel is provided with the fixed plate down simultaneously, and the front end of lead screw rotates to be connected in the fixed plate.

Further, swing joint has the fly leaf on the lead screw, and is provided with left grip block under the fly leaf to the medial surface of left grip block is provided with the buffering arch, and buffers the arch and adopts the silica gel material.

Furthermore, a movable plate is movably connected to the screw rod in the groove formed in the lower right portion of the lower mounting plate, a right clamping plate is fixed to the lower end of the movable plate on the right side, the buffering protrusion and the right clamping plate are bilaterally symmetrical about the center line of the lower mounting plate, and the structure of the right clamping plate is consistent with that of the buffering protrusion.

The beneficial effects of the utility model reside in that:

1. the utility model discloses the structure setting of the left access structure of the structural left part of well roof-rack and the right access structure of the right part is unanimous, can regard as the structural binary channels transport structure of roof-rack, can make a round trip the pile up neatly simultaneously, and is saving trouble more fast to improve whole machining efficiency.

2. Meanwhile, the upper moving frame structure can move left and right on the X-axis linear guide rail, the upper mounting plate can move back and forth on the transverse frame plate, and the stacking structure drives the stacking structure to move straightly up and down under the telescopic action of the multistage telescopic cylinders, so that the aim of moving in multiple directions is fulfilled.

3. The utility model discloses all install the lead screw in the recess that two portions were seted up about well lower mounting panel downside, drive the fly leaf through motor clockwise rotation and remove toward middle direction, then can drive the fly leaf and move the activity toward the outside side when carrying out anticlockwise rotation to reach and drive buffering arch and right grip block and carry out relative centre gripping work, the pile up neatly is stabilized to the convenience.

Drawings

Fig. 1 is a schematic front view of an embodiment of the present invention;

fig. 2 is a schematic top view of an embodiment of the present invention;

fig. 3 is an installation effect diagram of the stacking structure according to the embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of a stacking structure according to an embodiment of the present invention;

fig. 5 is a schematic top view of the upper mounting plate according to the embodiment of the present invention.

In the figure: 1. a top frame structure; 2. a left channel structure; 20. an X-axis linear guide rail; 3. an upper moving frame structure; 30. a transverse frame plate; 31. a Y-axis linear guide; 32. a first slider; 4. an upper mounting plate; 40. a second slider; 41. a multi-stage telescopic cylinder; 5. a right channel structure; 6. a stacking structure; 60. a lower mounting plate; 61. a groove; 62. a motor; 63. a screw rod; 64. a fixing plate; 65. a movable plate; 66. a left clamping plate; 67. a buffer protrusion; 68. and a right clamping plate.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. The specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention, such specific details are set forth as a particular system architecture, techniques, etc., in order to provide a more thorough understanding of the embodiments of the invention. The described embodiments are only a subset of the embodiments of the present disclosure, and not all embodiments. It will be apparent, however, to one skilled in the art that the present invention may be practiced in other embodiments that depart from these specific details. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

The following detailed description of the invention refers to the accompanying drawings.

Fig. 1 is the utility model discloses an orthographic view schematic diagram, fig. 2 are the utility model discloses an overlook the schematic diagram, fig. 3 do the utility model discloses a pile up neatly structure installation effect picture, fig. 4 do the utility model discloses a pile up neatly structure section schematic diagram and fig. 5 are the utility model discloses an upward mounting panel overlook the schematic diagram.

Referring to fig. 1 to 5, the utility model provides a two-tank two-channel stacking device, which comprises a left channel structure 2, an upper mounting plate 4, a right channel structure 5 and a stacking structure 6, wherein the left channel structure 2 is arranged at the left part of a top frame structure 1; the right channel structure 5 is arranged at the right part of the top frame structure 1, the left channel structure 2 and the right channel structure 5 are bilaterally symmetrical about the central line of the top frame structure 1, the structures of the left channel structure 2 and the right channel structure 5 are consistent, and the left channel structure 2 and the right channel structure 5 are both movably connected with the upper moving frame structure 3; the upper mounting plate 4 is movably connected to the upper moving frame structure 3, and two groups of multistage telescopic cylinders 41 are mounted on the left and right parts of the lower end face of the upper mounting plate 4; the stacking structure 6 is fixed at the lower ends of four groups of multistage telescopic cylinders 41.

In this embodiment, the upper end surfaces of the front and rear parts of the left channel structure 2 are provided with the X-axis linear guide rails 20, the front and rear parts of the upper moving frame structure 3 are provided with a group of first sliding blocks 32, and each group of first sliding blocks 32 is slidably connected to the X-axis linear guide rails 20 on the same side; the left part and the right part of the upper moving frame structure 3 are both provided with a transverse frame plate 30, the upper end surface of the transverse frame plate 30 is provided with a Y-axis linear guide rail 31, the left part and the right part of the lower end surface of the upper mounting plate 4 are both provided with a group of second sliding blocks 40, and each group of second sliding blocks 40 are slidably connected on the transverse frame plate 30 at the same side; the multi-stage telescopic cylinder 41 below the upper mounting plate 4 can move in a telescopic manner, and the stacking structure 6 fixed at the lower end of the multi-stage telescopic cylinder 41 can move in a lifting manner in the vertical direction.

As an embodiment of preferred, the utility model discloses well roof structure 1 goes up left access structure 2 of left part and the right access structure 5 structure setting of right part unanimously, can regard as binary channels transport structure on the roof structure 1, can make a round trip the pile up neatly simultaneously, and is saved trouble more fast to improve whole machining efficiency.

Meanwhile, the upper moving frame structure 3 can move left and right on the X-axis linear guide rail 20, the upper mounting plate 4 can move back and forth on the transverse frame plate 30, and the stacking structure 6 drives the stacking structure 6 to move up and down straightly under the telescopic action of the multi-stage telescopic cylinders 41, so that the aim of multidirectional moving movement is fulfilled.

In the embodiment, the stacking structure 6 is provided with a lower mounting plate 60, a set of grooves 61 is formed in each of the left and right portions of the lower mounting plate 60, a set of screw rods 63 is mounted in each set of grooves 61, the rear ends of the screw rods 63 are mounted at the front end of a motor 62, a fixing plate 64 is arranged in the middle of the lower mounting plate 60, and the front ends of the screw rods 63 are rotatably connected in the fixing plate 64; a movable plate 65 is movably connected to the screw 63, a left clamping plate 66 is arranged below the movable plate 65, a buffering protrusion 67 is arranged on the inner side surface of the left clamping plate 66, and the buffering protrusion 67 is made of silica gel; the screw 63 in the groove 61 formed in the lower right portion of the lower mounting plate 60 is movably connected with a movable plate 65, the lower end of the movable plate 65 on the right side is fixed with a right clamping plate 68, the buffering protrusion 67 and the right clamping plate 68 are bilaterally symmetrical about the center line of the lower mounting plate 60, and the structure arrangement of the right clamping plate 68 and the buffering protrusion 67 is consistent.

As an embodiment of preferred, the utility model discloses all install lead screw 63 in the recess 61 that two portions were seted up about well lower mounting panel 60 downside, rotate clockwise through the motor and drive fly leaf 65 and remove toward middle direction, then can drive fly leaf 65 and move the activity toward the outside when carrying out anticlockwise rotation to reach and drive buffering arch 67 and right grip block 68 and carry out relative centre gripping work, convenient stable pile up neatly.

The utility model discloses the pile up neatly device in the contrast file can be effectively solved albeit rotatable activity, but only a set of pile up neatly structure removes the pile up neatly, leads to the not high problem of whole pile up neatly efficiency, the utility model discloses specially set up binary channels transport structure, conveniently at X, Y, the epaxial removal activity that carries on of Z to carry out nimble centre gripping article, thereby the quick pile up neatly of binary channels helps improving whole pile up neatly efficiency.

The above-mentioned embodiments are provided for explaining the present invention, not for limiting the present invention, and any modifications and changes made to the present invention within the spirit and scope of the claims should be included in the scope of the present invention.

Claims (7)

1. The utility model provides a two jar binary channels pile up neatly devices, includes left access structure (2), goes up mounting panel (4), right access structure (5) and pile up neatly structure (6), its characterized in that:

the left channel structure (2) is arranged at the left part of the top frame structure (1);

the left channel structure (2) and the right channel structure (5) are bilaterally symmetrical about the center line of the top frame structure (1), the structures of the left channel structure (2) and the right channel structure (5) are consistent, and the left channel structure (2) and the right channel structure (5) are both movably connected with an upper moving frame structure (3);

the upper mounting plate (4) is movably connected to the upper moving frame structure (3), and two groups of multistage telescopic cylinders (41) are mounted on the left and right parts of the lower end face of the upper mounting plate (4);

and the stacking structure (6) is fixed at the lower ends of the four groups of multistage telescopic cylinders (41).

2. Two-pot two-way palletizing device according to claim 1, wherein the upper end surfaces of the front and rear parts of the left channel structure (2) are provided with X-axis linear guide rails (20), the front and rear parts of the upper moving frame structure (3) are provided with a set of first sliding blocks (32), and each set of first sliding blocks (32) is slidably connected to the X-axis linear guide rails (20) on the same side.

3. Two-can two-way palletizer according to claim 1, wherein a transverse frame plate (30) is arranged at each of the left and right parts of the upper moving frame structure (3), a Y-axis linear guide rail (31) is arranged at the upper end face of the transverse frame plate (30), a group of second sliding blocks (40) is arranged at each of the left and right parts of the lower end face of the upper mounting plate (4), and each group of second sliding blocks (40) is slidably connected to the transverse frame plate (30) at the same side.

4. Two-can two-way palletizer according to claim 1, wherein the multi-stage telescopic cylinder (41) below the upper mounting plate (4) can be telescopically moved, and the palletizing structure (6) fixed at the lower end of the multi-stage telescopic cylinder (41) can be vertically lifted and lowered.

5. The two-channel stacking device for two cans as claimed in claim 1, wherein the stacking structure (6) is provided with a lower mounting plate (60), a set of grooves (61) are formed in the left and right parts of the lower mounting plate (60), a set of lead screws (63) are mounted in each set of grooves (61), the rear ends of the lead screws (63) are mounted at the front end of a motor (62), a fixing plate (64) is arranged in the middle of the lower mounting plate (60), and the front ends of the lead screws (63) are rotatably connected in the fixing plate (64).

6. The two-channel two-can stacking device as claimed in claim 5, wherein a movable plate (65) is movably connected to the screw rod (63), a left clamping plate (66) is arranged below the movable plate (65), a buffering protrusion (67) is arranged on an inner side surface of the left clamping plate (66), and the buffering protrusion (67) is made of silica gel.

7. The two-channel stacking device for two cans as claimed in claim 5, wherein a movable plate (65) is movably connected to a screw rod (63) in a groove (61) formed in the lower right portion of the lower mounting plate (60), a right clamping plate (68) is fixed to the lower end of the movable plate (65) on the right side, the buffering protrusion (67) and the right clamping plate (68) are bilaterally symmetrical with respect to the center line of the lower mounting plate (60), and the right clamping plate (68) and the buffering protrusion (67) are arranged in the same structure.

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