CN112873008B - Bottle cap surface rust removing equipment suitable for Chinese herbal medicine preparation - Google Patents

Abstract

The invention discloses bottle cap surface rust removing equipment suitable for Chinese herbal medicine preparations. The device comprises a belt conveyor for guiding and driving bottle caps to move, a first friction roller for removing bottle cap end face floccules, a second friction roller for removing bottle cap side floccules, a first adsorption structure for adsorbing and removing the bottle cap side floccules and dropping the floccules on the surface of the belt conveyor, a third friction roller for removing the bottle cap side floccules and a second adsorption structure for adsorbing and removing the bottle cap side floccules. The invention can solve the problem that the coating such as glue coated on the bottle cap can form flocculent hair on the surface of the bottle cap under the pressure and stretching action of the press forming equipment and is difficult to remove.

Description

Bottle cap surface rust removing equipment suitable for Chinese herbal medicine preparation

Technical Field

The invention relates to the technical field of bottle cap production, in particular to bottle cap surface and rust removing equipment suitable for Chinese herbal medicine preparations.

Background

With the increasing attention on food safety, bovine animals have a special rumen fermentation mechanism and need a proper rumen microbial population, more and more Chinese herbal medicines are used in dairy cows and beef cattle, but most of cattle drenchers in the market at present are simple soft plastic bottles similar to beer bottle shapes, and the bottle caps are rough, simple and lack of sealing performance.

At present, bottle caps of small-mouth containers (wine bottles, condiments and the like) are usually produced by using chromium-plated or tin-plated iron plates, paint coatings are coated on two surfaces of a plate while pattern printing of the bottle caps is carried out, and the printed iron plates are punched and molded by equipment when the bottle caps are produced. At the moment, the original iron of the cut edge of the bottle cap is directly exposed in the air, and the cut edge rusts when the bottle cap meets humid air, water, acid and the like. Rusted bottle caps seriously cause rust and rusty spots to adhere to bottle mouths, and influence the appearance of products and the drinking sanitation of packaged products. In the antirust production process of the bottle cap, a few domestic manufacturers adopt stainless steel-based materials, so that the product does not need an antirust layer, the bottle cap cannot rust under any severe conditions, the good luster of the product is kept, and the bottle cap plays an important positive role in brand maintenance. However, stainless steel materials are not economical due to their high cost compared to chrome/tin plated iron.

In order to solve the problems, the Chinese patent with patent number 200720052084.9 entitled bottle cap trimming rust-proof treatment device comprises a coating box, a coating pumping pump, a coating storage cylinder, a coating storage roller set and a coating wheel, wherein the coating pumping pump and the coating storage cylinder are respectively communicated with the coating box and the coating storage cylinder; the coating wheel and the coating storage roller group are horizontally arranged below the coating storage cylinder through an assembly box, the coating storage roller group comprises a main coating storage roller and a secondary coating storage roller which are attached to each other on the outer circumference, a coating outlet of the coating storage cylinder is opposite to the attachment parts of the main coating storage roller and the secondary coating storage roller, one side of the outer circumference of the coating wheel is attached to the secondary coating storage roller, the other side of the outer circumference of the coating wheel is attached to the cut edge of the bottle cap, and the outer circumference of the coating wheel is coated with a rubber layer or a fiber layer; one end of the coating wheel main shaft is in driving connection with a motor reduction box, the other end of the coating wheel main shaft is in driving connection with one end of a main coating storage wheel main shaft, and the other end of the main coating storage wheel main shaft is in meshing connection with a driven gear on a driven coating storage wheel main shaft through a driving gear; the bottom of the assembly box is communicated with the coating box through an oil return pipe.

Although the technical scheme can utilize the coating wheel to coat the coating on the cut edge of the bottle cap, and then utilize the high-frequency heating function of the bottle cap equipment to dry the coating newly coated on the cut edge of the bottle cap, the problem of rusting of the cut edge of the crown-shaped bottle cap is solved. However, in the process of press forming the bottle cap, the coating such as glue applied to the bottle cap may form flocculent burrs on the surface of the bottle cap due to the pressure and stretching of the press forming equipment and is difficult to remove.

Disclosure of Invention

Aiming at the defects of the prior art, the invention discloses bottle cap surface rust removing equipment suitable for a Chinese herbal medicine preparation, which can solve the problem that coatings such as glue coated on a bottle cap can form flocculent hair bodies on the surface of the bottle cap under the pressure and stretching action of a compression molding device and are difficult to remove.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a bottle cap surface rust removing device suitable for Chinese herbal medicine preparations comprises a belt conveyor used for guiding and driving bottle caps to move, a first friction roller used for removing bottle cap end face floccules, a second friction roller used for removing bottle cap side floccules, a first adsorption structure used for adsorbing and removing bottle cap side floccules and dropping the floccules on the surface of the belt conveyor, a third friction roller used for removing bottle cap side floccules and a second adsorption structure used for adsorbing and removing bottle cap side floccules, wherein the first friction roller is rotatably connected with the belt conveyor, the first friction roller crosses a belt of the belt conveyor and is arranged in a suspended mode, the first adsorption structure extends parallel to the moving direction of the belt conveyor, the second friction roller is rotatably connected with the first adsorption structure and is arranged in a suspended mode relative to the belt of the belt conveyor, the second adsorption structure extends obliquely relative to the moving direction of the belt conveyor, the third friction roller is rotatably connected with the second adsorption structure and arranged in a suspension mode relative to a belt of the belt conveyor, and the first friction roller, the second friction rollers and the third friction rollers surround a first area for removing floccules on the surface of the bottle cap together above the belt conveyor.

Preferably, a first cavity is formed inside the first adsorption structure, a first opening of the first cavity is arranged toward a belt of the belt conveyor, a second opening of the first cavity is arranged toward the outside of the belt conveyor, and the first opening is arranged along the edge of the belt conveyor in parallel with the moving direction of the belt conveyor.

According to a further preferable technical scheme, a first mounting hole is formed in the outer wall of the first adsorption structure, a first positioning hole is formed in the frame of the belt conveyor, the first mounting hole and the first positioning hole are coaxially arranged, and the first adsorption structure and the frame of the belt conveyor are fixedly connected through a bolt penetrating through the first mounting hole and the first positioning hole.

According to a further preferable technical scheme, the second friction roller comprises a second connecting shaft and a second body, the upper end of the second connecting shaft is rotatably connected with the first opening, the lower end of the second connecting shaft is rotatably connected with the second body, and the second body rotates in a horizontal plane.

According to the preferable technical scheme, a second cavity is formed in the second adsorption structure, a third opening of the second cavity faces a belt of the belt conveyor, a fourth opening of the second cavity faces the outer portion of the belt conveyor, and a third opening extends from the edge of the belt conveyor to the center of the belt conveyor.

According to a further preferable technical scheme, a second mounting hole is formed in the outer wall of the second adsorption structure, a second positioning hole is formed in the frame of the belt conveyor, the second mounting opening and the second positioning hole are coaxially arranged, and the second adsorption structure and the frame of the belt conveyor are fixedly connected through the second mounting hole and the second positioning hole by bolts.

According to a further preferable technical scheme, the third friction roller comprises a third connecting shaft and a third body, the upper end of the third connecting shaft is rotatably connected with the third opening, the lower end of the third connecting shaft is rotatably connected with the third body, and the third body rotates in a horizontal plane.

According to the preferable technical scheme, a first guide groove used for guiding the bottle caps to enter the first area along the linear direction and a second guide groove used for guiding the bottle caps to enter the first area along the oblique line direction are formed on the peripheral side face of the first friction roller, the first guide groove is parallel to the moving direction of the belt conveyor, an included angle formed by an acute angle is formed between the second guide groove and the moving direction of the belt conveyor, and the extension line of the second guide groove extends into the first area.

According to the preferable technical scheme, one end of the first friction roller is rotatably connected with one side of the rack of the belt conveyor, the other end of the first friction roller is rotatably connected with the other side of the rack of the belt conveyor, and the peripheral side face of the first friction roller is opposite to the height of a belt of the belt conveyor and the thickness of the bottle cap are the same.

The invention discloses a bottle cap surface rust removing device suitable for Chinese herbal medicine preparations, which has the following advantages:

the second friction roller can remove floccules on the side face of the bottle cap from one side of the bottle cap through friction action through design and installation, and the floccules are directly sucked out at the first time through the first adsorption structure, so that the floccules are prevented from escaping and polluting while the bottle cap is removed.

The third friction roller can remove floccules on the side face of the bottle cap from the other side of the bottle cap through friction action through design and installation, and the floccules are directly sucked out at the first time through the second adsorption structure, so that the floccules are prevented from escaping and polluting while the floccules are removed.

In this embodiment, the second adsorption structure is obliquely extended to the middle of the belt conveyor, and the second adsorption structure can also adsorb floccules falling off from the first friction roller moving along with the belt conveyor, so that pollution caused by the first friction roller is reduced, and the second adsorption structure can also guide bottle caps far away from the first adsorption structure to be close to the second friction roller, so that two sides of the bottle caps can be simultaneously processed.

The first friction roller through design and installation can clear away the flocculus from the terminal surface of bottle lid, can help the bottle lid in the process adjustment moving direction through first friction roller through the guide way that forms at first friction roller simultaneously to more accurate entering first region and contact second friction roller and third friction roller.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

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

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

FIG. 3 is a front view of a first adsorption structure in an embodiment of the present invention;

FIG. 4 is a cross-sectional view of a first adsorption structure in an embodiment of the present invention;

fig. 5 is a front view of a second adsorption structure in an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of the 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.

As shown in fig. 1 to 5, the bottle cap surface removing and rust removing apparatus suitable for Chinese herbal medicine preparations according to the embodiment of the present invention includes a belt conveyor 1 for guiding and driving bottle caps to move, a first friction roller 2 for removing bottle cap end face flocs, a second friction roller 3 for removing bottle cap side flocs, a first adsorption structure 4 for adsorbing and removing bottle cap side flocs and falling flocs on the surface of the belt conveyor 1, a third friction roller 5 for removing bottle cap side flocs, and a second adsorption structure 6 for adsorbing and removing bottle cap side flocs, wherein the first friction roller 2 is rotatably connected to the belt conveyor 1, the first friction roller 2 crosses a belt 11 of the belt conveyor 1 and is suspended, the first adsorption structure 4 extends parallel to the moving direction of the belt conveyor 1, and the second friction roller 3 is rotatably connected to the first adsorption structure 4 and is suspended relative to the belt 11 of the belt conveyor 1 The second adsorption structure 6 extends obliquely relative to the moving direction of the belt conveyor 1, the third friction roller 5 is rotatably connected with the second adsorption structure 6 and arranged in a suspension mode relative to a belt 11 of the belt conveyor 1, and the first friction roller 2, the plurality of second friction rollers 3 and the plurality of third friction rollers 5 surround a first area F for removing floccules on the surface of the bottle cap above the belt conveyor 1.

The second friction roller 3 can remove floccules on the side surface of the bottle cap from one side of the bottle cap through friction action, and the floccules are directly sucked out at the first time through the first adsorption structure 4, so that the floccules are removed while the floccules are prevented from escaping to cause pollution.

The third friction roller 5 can remove floccules on the side surface of the bottle cap from the other side of the bottle cap through friction action, and the floccules are directly sucked out at the first time through the second adsorption structure 6, so that the floccules are removed while the floccules are prevented from escaping to cause pollution.

In the embodiment, the second adsorption structure 6 extends obliquely to the middle of the belt 11 of the belt conveyor 1, the second adsorption structure 6 can adsorb floccules falling off from the first friction roller 2 moving along with the belt conveyor 1, so that pollution caused by the first friction roller 2 is reduced, and the second adsorption structure 6 can guide bottle caps far away from the first adsorption structure 4 to be close to the second friction roller 3, so that two sides of the bottle caps can be processed simultaneously.

The first friction roller 2 designed and installed can remove floccules from the end face of the bottle cap, and meanwhile, the guide groove formed in the first friction roller 2 can help the bottle cap to adjust the moving direction in the process of passing through the first friction roller 2, so that the bottle cap can enter the first area F more accurately and contact the second friction roller 3 and the third friction roller 5.

In order to facilitate guiding the removed floccules to be separated from the bottle caps, a first cavity 40 is formed inside the first adsorption structure 4, a first opening 41 of the first cavity 40 is arranged towards the belt 11 of the belt conveyor 1, a second opening 42 of the first cavity 40 is arranged towards the outside of the belt conveyor 1, a suction pump can be connected to the second opening 42 so as to suck out the floccules of the bottle caps on the belt 11 of the belt conveyor 1, the first opening 41 is arranged along the edge of the belt conveyor 1 in parallel with the moving direction of the belt conveyor 1, the bottle caps can be guided to move in a direction parallel to the belt conveyor 1 to avoid falling of the bottle caps, and simultaneously the bottle caps can be clamped together with the second adsorption structure 6 to further improve the removing effect.

In order to facilitate the installation of the first adsorption structure 4, a first installation hole 43 is formed in the outer wall of the first adsorption structure 4, a first positioning hole 10 is formed in the frame 12 of the belt conveyor 1, the first installation hole 43 and the first positioning hole 10 are coaxially arranged, and the first adsorption structure 4 and the frame 12 of the belt conveyor 1 are fixedly connected through bolts penetrating through the first installation hole 43 and the first positioning hole 10. The angle of the first suction structure 4 relative to the frame 12 of the belt conveyor 1 can also be adjusted by means of bolts to fine-tune the angle and the extension direction of the first suction structure 4.

In order to rub and clean the side of the bottle cap, the second rubbing roller 3 includes a second connecting shaft 31 and a second body 32, the upper end of the second connecting shaft 31 is rotatably connected to the first opening 41, the lower end of the second connecting shaft 31 is rotatably connected to the second body 32, and the second body 32 rotates in a horizontal plane.

In order to facilitate the guiding of the removed flocs off the caps from the other side, a second cavity 60 is formed inside the second suction structure 6, a third opening 61 of the second cavity 60 is disposed toward the belt 11 of the belt conveyor 1, a fourth opening 62 of the second cavity 60 is disposed toward the outside of the belt conveyor 1, and a suction pump may be connected to the fourth opening 62 to suck out the flocs of the caps on the belt 11 of the belt conveyor 1 and the flocs falling on the belt 11 of the belt conveyor 1, and the third opening 61 extends from the edge of the belt conveyor 1 to the center of the belt conveyor 1, so that the caps can be guided toward the caps clamped by the first suction structure 4 and the second suction structure 6 together to further improve the removing effect.

In order to facilitate the installation of the second adsorption structure 6, a second installation hole 63 is formed in the outer wall of the second adsorption structure 6, a second positioning hole is formed in the frame 12 of the belt conveyor 1, the second installation hole 63 and the second positioning hole are coaxially arranged, and the second adsorption structure 6 and the frame 12 of the belt conveyor 1 are fixedly connected by bolts penetrating through the second installation hole 63 and the second positioning hole. The angle of the second adsorption structure 6 relative to the frame 12 of the belt conveyor 1 can be adjusted through bolts to adjust the angle and the extending direction of the second adsorption structure 6, so that the bottle caps are guided to move more accurately and adsorb the belt 11 of the belt conveyor 1.

In order to rub and clean the side of the bottle cap, the third rubbing roller 5 includes a third connecting shaft 51 and a third body 52, the upper end of the third connecting shaft 51 is rotatably connected with the third opening 61, the lower end of the third connecting shaft 51 is rotatably connected with the third body 52, and the third body 52 rotates in a horizontal plane.

In order to guide the bottle cap to change direction while cleaning the end face of the bottle cap, a first guide groove 21 for guiding the bottle cap to enter a first area F along a straight line direction and a second guide groove 2 for guiding the bottle cap to enter the first area F along an oblique line direction are formed on the peripheral side face of the first friction roller 2, the first guide groove 21 is arranged in parallel with the moving direction of the belt conveyor 1, an included angle arranged at an acute angle is formed between the second guide groove 2 and the moving direction of the belt conveyor 1, and the extension line of the second guide groove 2 extends into the first area F, so that the bottle cap is guided to directly and accurately move into the first area F.

Specifically, one end of the first friction roller 2 is rotatably connected with one side of the frame 12 of the belt conveyor 1, the other end of the first friction roller 2 is rotatably connected with the other side of the frame 12 of the belt conveyor 1, and the circumferential side surface of the first friction roller 2 is opposite to the height of the belt 11 of the belt conveyor 1 and the thickness of the bottle cap are the same.

… explain ….

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. A bottle cap surface rust removing device suitable for Chinese herbal medicine preparations comprises a belt conveyor for guiding and driving bottle caps to move, and is characterized in that: the bottle cap side surface floc removing device further comprises a first friction roller for removing bottle cap side surface floc, a second friction roller for removing bottle cap side surface floc, a first adsorption structure for adsorbing and removing bottle cap side surface floc and dropping the surface floc on the belt conveyor, a third friction roller for removing bottle cap side surface floc, and a second adsorption structure for adsorbing and removing bottle cap side surface floc, wherein the first friction roller is rotationally connected with the belt conveyor, the first friction roller crosses over a belt of the belt conveyor and is arranged in a suspension manner, the first adsorption structure extends in parallel with the moving direction of the belt conveyor, the second friction roller is rotationally connected with the first adsorption structure and is arranged in a suspension manner relative to the belt of the belt conveyor, the second adsorption structure extends in an inclined manner relative to the moving direction of the belt conveyor, and the third friction roller is rotationally connected with the second adsorption structure and is arranged in a suspension manner relative to the belt of the belt conveyor, the first friction roller, the plurality of second friction rollers and the plurality of third friction rollers collectively enclose a first area above the belt conveyor for removing floes on a surface of a bottle cap.

2. The bottle cap surface rust removing apparatus suitable for Chinese herbal medicine preparation as claimed in claim 1, wherein: and forming a first cavity in the first adsorption structure, wherein a first opening of the first cavity is arranged towards a belt of the belt conveyor, a second opening of the first cavity is arranged towards the outside of the belt conveyor, and the first opening is arranged along the edge of the belt conveyor and is parallel to the moving direction of the belt conveyor.

3. The bottle cap surface rust removing apparatus suitable for Chinese herbal medicine preparation as claimed in claim 2, wherein: the outer wall of the first adsorption structure is provided with a first mounting hole, a first positioning hole is formed in the rack of the belt conveyor, the first mounting hole and the first positioning hole are coaxially arranged, and the first adsorption structure and the rack of the belt conveyor are fixedly connected through a bolt penetrating through the first mounting hole and the first positioning hole.

4. The bottle cap surface rust removing apparatus suitable for Chinese herbal medicine preparation as claimed in claim 2, wherein: the second friction roller comprises a second connecting shaft and a second body, the upper end of the second connecting shaft is rotatably connected with the first opening, the lower end of the second connecting shaft is rotatably connected with the second body, and the second body rotates in the horizontal plane.

5. The bottle cap surface rust removing apparatus suitable for Chinese herbal medicine preparation as claimed in claim 1, wherein: and a second cavity is formed in the second adsorption structure, a third opening of the second cavity faces the belt of the belt conveyor, a fourth opening of the second cavity faces the outside of the belt conveyor, and a third opening extends from the edge of the belt conveyor to the center of the belt conveyor.

6. The bottle cap surface rust removing apparatus suitable for Chinese herbal medicine preparation as claimed in claim 5, wherein: and a second mounting hole is formed in the outer wall of the second adsorption structure, a second positioning hole is formed in the frame of the belt conveyor, the second mounting hole and the second positioning hole are coaxially arranged, and the second adsorption structure and the frame of the belt conveyor are fixedly connected through a bolt penetrating through the second mounting hole and the second positioning hole.

7. The bottle cap surface rust removing apparatus suitable for Chinese herbal medicine preparation as claimed in claim 5, wherein: the third friction roller comprises a third connecting shaft and a third body, the upper end of the third connecting shaft is rotatably connected with the third opening, the lower end of the third connecting shaft is rotatably connected with the third body, and the third body rotates in the horizontal plane.

8. The bottle cap surface rust removing apparatus suitable for Chinese herbal medicine preparation as claimed in claim 1, wherein: the side face of week of first friction roller is formed with the first guide way that is used for guiding the bottle lid to get into first region along the straight line direction and is used for guiding the bottle lid to get into the second guide way in first region along oblique line direction, the direction of movement of the parallel belt conveyor of first guide way sets up, form the contained angle that sets up to the acute angle between the direction of movement of second guide way and belt conveyor, the extension line of second guide way extends to in the first region.

9. The bottle cap surface rust removing apparatus suitable for Chinese herbal medicine preparation as claimed in claim 1, wherein: one end of the first friction roller is rotatably connected with one side of the rack of the belt conveyor, the other end of the first friction roller is rotatably connected with the other side of the rack of the belt conveyor, and the peripheral side face of the first friction roller is opposite to the height of a belt of the belt conveyor and the thickness of a bottle cap are arranged in the same mode.

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