CN111673592A - Improved generation packaging design is with automatic grinding device - Google Patents

Abstract

The invention discloses an improved automatic polishing device for package design, which comprises an outer frame seat, a rubber sheath, a heat dissipation hole, a bearing sleeve, an electric mounting frame, a driving motor, a speed reducer, a polishing assembly, a control switch and a power line, wherein the polishing assembly is optimally arranged at the bottom of the bearing sleeve, and a lower rotating arm is locked and fixed through a fastening bolt after rotating at the bottom of an upper rotating arm; when first pinion rotates, face gear can drive the second pinion and rotate, make the second pinion drive the head of polishing through lower bull stick and rotate, thereby the lower rotor arm still can rotate and polish at the head of polishing after last rocking arm bottom side rotates, can go up the structure to article and buckle narrow department and polish the processing, the grinding device who has solved prior art utilizes motor drive to make the head of polishing press close to the article surface and polish more, the article structure is complicated, and when having the crack of buckling, grinding device inconveniently inserts its inboard and polishes, make the relatively poor problem of efficiency of polishing.

Description

Improved generation packaging design is with automatic grinding device

Technical Field

The invention relates to the field related to package design, in particular to an improved automatic grinding device for package design.

Background

The packaging design is to comprehensively use natural science and aesthetic knowledge, so that commodities are better protected in the commodity circulation process, and the sale of the commodities is promoted; the method mainly comprises the steps of packaging modeling design, packaging structure design and packaging decoration design; in the process of designing a package for a product, a grinding device is used to grind the surface of the product having burrs or having a relatively rough surface.

The polishing device in the prior art mainly utilizes the motor to drive the polishing head to be close to the surface of an article to be polished, the structure of the article is complex, and when the polishing device is provided with a bent crack, the polishing device is inconvenient to insert the inner side of the polishing device to polish, so that the polishing efficiency is relatively poor.

Disclosure of Invention

Accordingly, to address the above-described deficiencies, the present invention provides an improved automated grinding device for package design.

The invention is realized in such a way that an improved automatic polishing device for package design is constructed, which comprises an outer frame seat, a rubber sheath, a heat dissipation hole, a bearing sleeve, an electric mounting rack, a driving motor, a speed reducer, a polishing component, a control switch and a power line, the inner side of the top of the outer frame seat is embedded with a rubber sheath, the top side of the front part of the outer frame seat is provided with a heat dissipation hole, the bottom of the outer frame seat is fixedly inserted with a bearing sleeve, the inner side of the bearing sleeve is fixedly inserted with a polishing component, the polishing component comprises an upper sleeve seat, a steering structure, a lower sleeve seat, a bearing rod and a polishing head, the upper sleeve seat is inserted into the inner side of the bearing sleeve and is rotationally connected with the bearing sleeve, the bottom of the upper sleeve seat is fixed with the lower sleeve seat through a steering structure, the inner side of the lower sleeve seat is rotatably connected with a bearing rod, and the end part of the bottom of the bearing rod is fixed with the polishing head.

Preferably, the inside top side of frame foundation transversely is fixed with electronic mounting bracket, the inboard middle part of electronic mounting bracket is fixed mutually with driving motor through the bolt, driving motor bottom output inserts the reduction gear inboard and rather than coaxial rotation, the anterior bottom side of driving motor is provided with control switch, the power cord runs through the rubber sheath inboard and is connected with driving motor, control switch and power cord all are connected with driving motor electricity.

Preferably, turn to the structure and include rocking arm, last bull stick, first pinion, face gear, barrel casing, lower rocking arm, second pinion and lower bull stick, it is fixed mutually with the bearing housing to go up the rocking arm top, it is connected with the bull stick to go up the inboard middle part of rocking arm rotation, it welds mutually with first pinion to go up the bull stick bottom, first pinion rear side meshes mutually with face gear, the vertical welding in face gear middle part top side has the barrel casing to face gear bottom and lower bull stick normal running fit, the lower rocking arm top middle part inboard rotates with last rocking arm to be connected, the anterior bottom side of face gear meshes mutually with the second pinion, second pinion bottom welds mutually with lower bull stick.

Preferably, the top of the upper rotating rod penetrates through the middle of the top of the upper rotating arm, and the upper rotating rod is inserted into the inner side of the speed reducer to rotate coaxially with the speed reducer.

Preferably, the bottom of the lower rotating rod is inserted into the inner side of the lower sleeve seat, and the lower rotating rod and the bearing rod rotate coaxially.

Preferably, the outer sides of the middle parts of the upper rotating rod and the lower rotating rod are provided with bearing frames, the bearing frames on the outer sides of the upper rotating rod are fixed to the inner parts of the upper rotating arms, and the bearing frames on the outer sides of the lower rotating rods are fixed to the inner walls of the lower rotating arms.

Preferably, the first pinion and the second pinion are identical in structure and size, and the first pinion and the second pinion are on the same vertical plane.

Preferably, a fastening bolt is inserted into the bottom side of the front part of the upper rotating arm, and the fastening bolt penetrates through the inner part of the sleeve and is fastened with the lower rotating arm in an interlocking manner.

Preferably, the upper rotating arm and the lower rotating arm are made of tungsten steel.

Preferably, the materials used for the upper rotating rod and the lower rotating rod are stainless steel.

The invention has the following advantages: the present invention provides, by improvement, an improved automated grinding apparatus for package design, having the following improvements over the same type of equipment:

the advantages are that: according to the improved automatic polishing device for packaging design, the polishing assembly is optimally arranged at the bottom of the bearing sleeve, and the lower rotating arm is locked and fixed through the fastening bolt after rotating at an angle at the bottom of the upper rotating arm, so that the position of the first pinion on the face gear is changed; when first pinion rotates, face gear can drive the second pinion and rotate, make the second pinion drive the head of polishing through lower bull stick and rotate, thereby the lower rotor arm still can rotate and polish at the head of polishing after last rocking arm bottom side rotates, can go up the structure to article and buckle narrow department and polish the processing, the grinding device who has solved prior art utilizes motor drive to make the head of polishing press close to the article surface and polish more, the article structure is complicated, and when having the crack of buckling, grinding device inconveniently inserts its inboard and polishes, make the relatively poor problem of efficiency of polishing.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the interior of the outer frame of the present invention;

FIG. 3 is a schematic illustration of the construction of the sanding assembly of the present invention;

FIG. 4 is a schematic structural view of the steering mechanism of the present invention;

FIG. 5 is an enlarged view of a portion of the structure of FIG. 3;

fig. 6 is a schematic view of the face gear of the present invention.

Wherein: the device comprises an outer frame seat-1, a rubber sheath-2, a heat dissipation hole-3, a bearing sleeve-4, an electric mounting rack-5, a driving motor-6, a speed reducer-7, a polishing component-8, a control switch-9, a power line-10, an upper sleeve seat-81, a steering structure-82, a lower sleeve seat-83, a bearing rod-84, a polishing head-85, an upper rotating arm-821, an upper rotating rod-822, a first pinion-823, an end face gear-824, a barrel sleeve-825, a lower rotating arm-826, a second pinion-827, a lower rotating rod-828 and a fastening bolt-829.

Detailed Description

The present invention will be described in detail below with reference to fig. 1 to 6, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention relates to an improved automatic polishing device for packaging design, which comprises an outer frame seat 1, a rubber sheath 2, a heat dissipation hole 3, a bearing sleeve 4, an electric mounting rack 5, a driving motor 6, a speed reducer 7, a polishing component 8, a control switch 9 and a power cord 10, wherein the rubber sheath 2 is embedded in the inner side of the top of the outer frame seat 1, the heat dissipation hole 3 is formed in the top side of the front part of the outer frame seat 1, the bearing sleeve 4 is fixedly inserted in the bottom of the outer frame seat 1, the electric mounting rack 5 is transversely fixed on the top side of the inner part of the outer frame seat 1, the middle part of the inner side of the electric mounting rack 5 is fixed with the driving motor 6 through a bolt, the output end of the bottom of the driving motor 6 is inserted in the inner side of the speed reducer 7 and rotates coaxially with the speed reducer, the control switch 9 is arranged on the bottom side of, the polishing assembly 8 is fixedly connected to the middle side inside the bearing sleeve 4 in an inserted mode, the polishing assembly 8 comprises an upper sleeve seat 81, a steering structure 82, a lower sleeve seat 83, a bearing rod 84 and a polishing head 85, the upper sleeve seat 81 is inserted into the inner side of the bearing sleeve 4 and is rotatably connected with the inner side of the bearing sleeve, the bottom of the upper sleeve seat 81 is fixed with the lower sleeve seat 83 through the steering structure 82, the bearing rod 84 is rotatably connected to the middle side inside the lower sleeve seat 83, the end portion of the bottom side of the bearing rod 84 is fixed with the polishing head 85, and the angle of the polishing head 85 can be changed under the action of the steering structure 82.

Further, the steering mechanism 82 includes an upper rotating arm 821, an upper rotating lever 822, a first pinion gear 823, a face gear 824, a sleeve 825, a lower rotating arm 826, a second pinion gear 827 and a lower rotating lever 828, the top of the upper rotating arm 821 is fixed with the bearing sleeve 4, the middle part of the inner side of the upper rotating arm 821 is rotatably connected with an upper rotating rod 822, the bottom of the upper rotating rod 822 is welded with a first pinion 823, the rear side of the first pinion 823 is meshed with a face gear 824, the top side of the middle part of the face gear 824 is vertically welded with a sleeve 825, and the bottom of the face gear 824 is rotatably fitted with a lower rotating arm 826, the top middle side of the lower rotating arm 826 is rotatably connected with an upper rotating arm 821, the underside of the front part of the face gear 824 is engaged with a second pinion 827, the bottom of the second pinion 827 is welded with a lower rotating rod 828, and the first pinion 823 drives the second pinion 827 to rotate through the face gear 824.

Further, the top of the upper rotating rod 822 penetrates the middle of the top of the upper rotating arm 821, and the upper rotating rod 822 is inserted into the inside of the decelerator 7 to rotate coaxially therewith, and the upper rotating rod 822 rotates under the action of the decelerator 7.

Further, the bottom of the lower rotating rod 828 is inserted into the inner side of the lower sleeve seat 83, and the lower rotating rod 828 rotates coaxially with the bearing rod 84, so that the bearing rod 84 is driven to rotate by the lower rotating rod 828.

Further, the outer sides of the middle portions of the upper rotating rod 822 and the lower rotating rod 828 are provided with bearing frames, the bearing frames on the outer sides of the upper rotating rod 822 and the upper rotating arm 821 are fixed inside, the bearing frames on the outer sides of the lower rotating rod 828 and the inner wall of the lower rotating arm 826 are fixed, and limiting of the upper rotating rod 822 and the lower rotating rod 828 is facilitated.

Further, the first pinion 823 and the second pinion 827 are identical in structure and size, and the first pinion 823 and the second pinion 827 are in the same vertical plane, so that the second pinion 827 can rotate conveniently.

Further, a fastening bolt 829 is inserted into a bottom side of a front portion of the upper rotating arm 821, and the fastening bolt 829 penetrates through an inside of the sleeve 825 to be fastened to the lower rotating arm 826, so that a position between the upper rotating arm 821 and the lower rotating arm 826 can be fixed.

Further, the upper rotating arm 821 and the lower rotating arm 826 are made of tungsten steel.

Further, the upper rotating rod 822 and the lower rotating rod 828 are made of stainless steel.

The invention provides an improved automatic grinding device for package design through improvement, and the working principle is as follows;

firstly, placing the design at a position where a packaging design product needs to be polished, and then connecting a power line 10 with an external power supply to use the design;

secondly, the user unscrews the fastening bolt 829 to detach the upper rotating arm 821 and the lower rotating arm 826, and then rotates the lower rotating arm 826 to the position at the bottom of the upper rotating arm 821 according to the requirement;

third, while the lower rotation arm 826 rotates, the face gear 824 rotates in mesh therewith on the rear side of the first pinion gear 823, thereby changing the position of the first pinion gear 823 on the top of the face gear 824;

fourthly, after the position of the lower rotating arm 826 is adjusted, the user screws the fastening bolt 829 to fix the upper rotating arm 821 and the lower rotating arm 826;

fifthly, after aligning the polishing head 85 to the position to be polished, the user presses the control switch 9 to start the driving motor 6, after the driving motor 6 is started, the reducer 7 rotates the upper rotating rod 822 at the inner side of the bearing sleeve 4, the upper rotating rod 822 rotates to enable the first pinion 823 to drive the second pinion 827 to rotate through the face gear 824, and the second pinion 827 rotates to enable the lower rotating rod 828 to drive the polishing head 85 to rotate through the bearing rod 84, so that the object is polished.

The invention provides an improved automatic grinding device for packaging design through improvement, a grinding assembly 8 is optimally arranged at the bottom of a bearing sleeve 4, and a lower rotating arm 826 is locked and fixed through a fastening bolt 829 after rotating at the bottom of an upper rotating arm 821, so that the position of a first pinion 823 on an end face gear 824 is changed; when first pinion 823 rotates, face gear 824 can drive second pinion 827 and rotate, make second pinion 827 drive the head 85 of polishing through lower bull stick 828 and rotate, thereby lower rocking arm 826 rotates back head 85 of polishing and still can rotate and polish at last rocking arm 821 bottom side, can buckle narrow department to article upper structure and polish the processing, the grinding device who has solved prior art utilizes motor drive to make the head of polishing press close to the article surface and polish more, the article structure is complicated, and when having the crack of buckling, grinding device inconveniently inserts its inboard and polishes, make the relatively poor problem of efficiency of polishing.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. An improved automatic polishing device for package design comprises an outer frame base (1), a rubber sheath (2), heat dissipation holes (3), a bearing sleeve (4), an electric mounting rack (5), a driving motor (6), a speed reducer (7), a control switch (9) and a power line (10), wherein the rubber sheath (2) is embedded in the inner side of the top of the outer frame base (1), the heat dissipation holes (3) are formed in the top side of the front part of the outer frame base (1), and the bearing sleeve (4) is fixedly inserted in the bottom of the outer frame base (1);

the method is characterized in that: still include the subassembly (8) of polishing, the side is pegged graft in bearing housing (4) inside and is fixed with the subassembly (8) of polishing, the subassembly (8) of polishing includes upper cover seat (81), turns to structure (82), lower cover seat (83), bearing rod (84) and polish head (85), upper cover seat (81) insert bearing housing (4) inboard and rotate rather than being connected, upper cover seat (81) bottom is fixed mutually with lower cover seat (83) through turning to structure (82), the side is rotated in lower cover seat (83) inside and is connected with bearing rod (84), bearing rod (84) bottom side tip is fixed mutually with polish head (85).

2. The improved automated grinding device for package design of claim 1, wherein: outer frame seat (1) inside top side transversely is fixed with electronic mounting bracket (5), electronic mounting bracket (5) inboard middle part is fixed mutually with driving motor (6) through the bolt, driving motor (6) bottom output inserts reduction gear (7) inboard and rotates rather than coaxial, driving motor (6) front portion bottom side is provided with control switch (9), power cord (10) run through rubber sheath (2) inboard and are connected with driving motor (6), control switch (9) and power cord (10) all are connected with driving motor (6) electricity.

3. The improved automated grinding device for package design of claim 1, wherein: the steering structure (82) comprises an upper rotating arm (821), an upper rotating rod (822), a first pinion (823), a face gear (824), a barrel sleeve (825), a lower rotating arm (826), a second pinion (827) and a lower rotating rod (828), the top of the upper rotating arm (821) is fixed with the bearing sleeve (4), the middle of the inner side of the upper rotating arm (821) is rotatably connected with the upper rotating rod (822), the bottom of the upper rotating rod (822) is welded with the first pinion (823), the rear side of the first pinion (823) is meshed with the face gear (824), the top side of the middle of the face gear (824) is vertically welded with the barrel sleeve (825), the bottom of the face gear (824) is in rotating fit with the lower rotating arm (826), the middle of the top of the lower rotating arm (826) is rotatably connected with the upper rotating arm (821), and the bottom of the front part of the face gear (824) is meshed with the second pinion (827), the bottom of the second pinion (827) is welded with a lower rotating rod (828).

4. An improved automated grinding device for packaging design according to claim 3, characterized in that: the top of the upper rotating rod (822) penetrates through the middle of the top of the upper rotating arm (821), and the upper rotating rod (822) is inserted into the inner side of the speed reducer (7) to rotate coaxially with the speed reducer.

5. An improved automated grinding device for packaging design according to claim 3, characterized in that: the bottom of the lower rotating rod (828) is inserted into the inner side of the lower sleeve seat (83), and the lower rotating rod (828) rotates coaxially with the bearing rod (84).

6. An improved automated grinding device for packaging design according to claim 3, characterized in that: and bearing frames are arranged on the outer sides of the middle parts of the upper rotating rod (822) and the lower rotating rod (828), the bearing frame on the outer side of the upper rotating rod (822) is fixed with the inner part of the upper rotating arm (821), and the bearing frame on the outer side of the lower rotating rod (828) is fixed with the inner wall of the lower rotating arm (826).

7. An improved automated grinding device for packaging design according to claim 3, characterized in that: the first pinion (823) and the second pinion (827) are identical in structure and size, and the first pinion (823) and the second pinion (827) are on the same vertical plane.

8. An improved automated grinding device for packaging design according to claim 3, characterized in that: and a fastening bolt (829) is inserted into the bottom side of the front part of the upper rotating arm (821), and the fastening bolt (829) penetrates through the inner part of the barrel sleeve (825) and is mutually locked and fixed with the lower rotating arm (826).

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