CN114472187A - Anilox roller conveying equipment - Google Patents

Abstract

The invention belongs to the technical field of conveying equipment, and particularly relates to anilox roller conveying equipment, which comprises: when the first specification anilox roller travels to the screening mechanism, two ends of the roller shaft are pressed against the screening mechanism to be lifted so that the screening mechanism blows and coats the first specification anilox roller with oil; when the second specification anilox roller travels to the screening mechanism, the screening mechanism is abutted against one end of the roller shaft, the other end of the roller shaft of the second specification anilox roller is emptied, and the second specification anilox roller slides to the first collecting mechanism or the second collecting mechanism; according to the invention, the positions of the rollers of the anilox roller on the conveying mechanism are kept consistent by matching the feeding mechanism with the conveying mechanism, so that the anilox roller can be detected when passing through the screening mechanism, the screened qualified anilox roller is continuously conveyed along with the conveying mechanism, and the screened unqualified anilox roller is collected by the first collecting mechanism and the second collecting mechanism, so that the automatic detection function is realized, the qualified anilox roller is blown and oiled, and the subsequent processes are facilitated to be processed again.

Description

Anilox roller conveying equipment

Technical Field

The invention belongs to the technical field of conveying equipment, and particularly relates to anilox roller conveying equipment.

Background

The roll shaft is required to be inserted into the roller in the machining process of the anilox roller, the roll shafts on two sides of the roller on the qualified anilox roller are equidistant, the roll shafts on two sides of the roller on the unqualified anilox roller are not equidistant, and the sizes of the roll shafts and the roller are constant.

Because little workshop equipment precision is not high, has the error moreover when manual operation, needs to detect the reticulation roller, and the tradition adopts artifical detection mode, and is inefficient.

Therefore, it is necessary to develop a new anilox roller conveying apparatus to solve the above problems.

Disclosure of Invention

The invention aims to provide an anilox roller conveying device.

In order to solve the above technical problem, the present invention provides an anilox roller conveying apparatus comprising: the device comprises a feeding mechanism, a conveying mechanism, a screening mechanism, a first collecting mechanism and a second collecting mechanism; the feeding mechanism is arranged at the feeding position of the conveying mechanism, the screening mechanism is hoisted above the conveying mechanism, and the first collecting mechanism and the second collecting mechanism are positioned below the screening mechanism and are respectively and correspondingly arranged on two sides of the conveying mechanism; the feeding mechanism sequentially puts rollers of the anilox roller on the conveying mechanism aiming at the corresponding limiting areas so as to limit the anilox roller on the conveying mechanism and be transversely vertical to the conveying direction; when the first specification anilox roller on the conveying mechanism moves to the screening mechanism, two ends of a roller shaft of the first specification anilox roller are pressed against the screening mechanism to be lifted, so that the screening mechanism blows and coats the first specification anilox roller until the screening mechanism resets after the first specification anilox roller is separated; when the second specification anilox roller on the conveying mechanism moves to the screening mechanism, the screening mechanism is pressed against one end of the roller shaft of the second specification anilox roller, and the other end of the roller shaft of the second specification anilox roller is emptied, so that the second specification anilox roller is pressed by the screening mechanism to incline towards the first collecting mechanism or the second collecting mechanism, namely the second specification anilox roller is separated from the conveying mechanism and slides to the first collecting mechanism or the second collecting mechanism.

Further, the feed mechanism includes: a feeding box and a feeding motor; the bottom of the feeding box is arranged in an inclined plane, the feeding box is provided with a feeding hole, and the feeding motor is fixed with the feeding box; the material loading motor vibrates the material loading box so that the material loading box is internally provided with the anilox roller which is put into the conveying mechanism from the material loading opening, and the roller of the anilox roller with the first specification and the roller of the anilox roller with the second specification are aligned to the corresponding limiting area by the material loading opening and are clamped into the corresponding limiting area.

Further, the conveying mechanism includes: a conveyor belt; and each limiting area on the conveying belt is respectively provided with two parallel and vertically fixed limiting plates, namely the roller of the first specification anilox roller and the roller of the second specification anilox roller are clamped into two limiting plates, so that the roller shaft of the first specification anilox roller and the roller shaft of the second specification anilox roller are exposed out of the two limiting plates.

Further, the screening mechanism includes: the first screening assembly, the second screening assembly, the hinged plate, the first air blowing assembly, the second air blowing assembly and the bow spring; the two sides of the hinged plate are respectively hinged with the first screening component and the second screening component, the hinged plate is fixed above the conveying belt, the first air blowing component and the second air blowing component are respectively arranged at the top of the first screening component and the top of the second screening component, and two ends of the bow spring are respectively contacted with the first air blowing component and the second air blowing component, namely when two ends of a roll shaft of the first specification anilox roller on the conveying belt respectively press the first screening component and the second screening component to be lifted, the first air blowing component and the second air blowing component respectively move towards two ends of the bow spring so that the bow spring respectively extrudes the first air blowing component and the second air blowing component to blow air to the first specification anilox roller until the first screening component and the second screening component reset after the first specification anilox roller is separated; when one end of the roll shaft of the anilox roll with the second specification on the conveying belt is pressed by the first screening assembly or the second screening assembly, the other end of the roll shaft of the anilox roll with the second specification is emptied, inclines and slides to the first collecting mechanism or the second collecting mechanism.

Further, the screening mechanism further comprises: the oiling device comprises an oiling component, a first moving plate and a second moving plate; the first moving plate and the second moving plate are movably arranged at the bottom of the hinged plate, an oil coating hole is formed in the hinged plate, one end of the oil coating assembly is fixed to the bottom of the bow spring, and the other end of the oil coating assembly extends into the oil coating hole to abut against the first moving plate and the second moving plate; the two ends of the bow spring abut against the first blowing assembly and the second blowing assembly to deform, the first screening assembly and the second screening assembly drive the first movable plate and the second movable plate to move in the reverse direction to form an oiling port, namely, the bow spring drives the oiling assembly to press down from the oiling port to oil the first specification anilox roller.

Further, the first screening component includes: the first longitudinal hinge block and the first transverse hinge block are connected with each other; two ends of the first transverse hinging block are respectively hinged with the first longitudinal hinging block and the hinging plate, a first sliding groove is formed in the top of the first transverse hinging block, and a plurality of first air holes communicated with the first sliding groove are formed in the bottom of the first transverse hinging block; the second screening assembly includes: the second longitudinal hinge block and the second transverse hinge block; two ends of the second transverse hinging block are respectively hinged with the second longitudinal hinging block and the hinging plate, a second sliding groove is formed in the top of the second transverse hinging block, and a plurality of second air holes communicated with the second sliding groove are formed in the bottom of the second transverse hinging block; the first air blowing assembly and the second air blowing assembly are movably arranged in the first sliding groove and the second sliding groove respectively, namely the first longitudinal hinged block and/or the second longitudinal hinged block are/is lifted up to drive the first transverse hinged block and/or the second transverse hinged block to swing, and then the bow-shaped spring is driven to extrude the first air blowing assembly and/or the second air blowing assembly to blow air from the first air hole and/or the second air hole to align to the corresponding anilox roller.

Further, the first blow assembly includes: a first compression plate and a first air bag; two ends of the first air bag are respectively connected with the inner side wall of the first sliding groove and the first extrusion plate, and the first extrusion plate is contacted with the bow spring; the bow spring pushes the first extrusion plate to extrude the first air bag to vent from the first air hole; the second air-blowing assembly includes: a second compression plate and a second air bag; two ends of the second air bag are respectively connected with the inner side wall of the second sliding groove and a second extrusion plate, and the second extrusion plate is contacted with the bow spring; the bow-shaped spring pushes the second extrusion plate to extrude the second air bag to vent air from the second air hole.

Further, the oiling subassembly includes: the oil coating device comprises an oil coating block, an oil coating air bag and an oil storage tank; the oil storage tank is fixed above the bow spring, the oil coating air bag is fixed at the bottom of the oil coating block, an oil inlet channel is longitudinally formed in the oil coating block, the top of the oil inlet channel is exposed out of the bow spring through an oil inlet pipe, and the bottom of the oil inlet channel is communicated with the oil coating air bag; the arch spring drives the oiling block to be pressed down from the oiling port, so that the oiling air bag extrudes the first specification anilox roller to oil the surface of the first specification anilox roller; when the bow spring drives the oiling block to reset, the oiling block is inserted into the one-way valve at the bottom of the oil storage tank through the oil inlet pipe, so that the oil storage tank is filled with oil into the oiling air bag.

Furthermore, a moving groove is formed in the inner side of the lower portion of the hinged plate, the first moving plate and the second moving plate form a protruding portion towards the moving groove, a first groove and a second groove are formed in the hinged position of the first transverse hinged block and the first moving plate and the hinged position of the second transverse hinged block and the second moving plate respectively, namely the first transverse hinged block and the second transverse hinged block swing to move the first moving plate and the second moving plate into the first groove and the second groove and are matched with the corresponding protruding portions to move in the moving groove, so that the first moving plate and the second moving plate are driven to move reversely to form an oil coating port.

Further, the first longitudinal hinge block is provided with a first inclined surface part and a first plane part; the second longitudinal hinge block is provided with a second inclined plane part and a second plane part; when the first specification anilox roller moves along the first inclined plane part and the second inclined plane part, the bow-shaped spring respectively extrudes the first air blowing assembly and the second air blowing assembly to blow air to the first specification anilox roller; when the first specification anilox roller advances along the first plane part and the second plane part, the two ends of the bow-shaped spring abut against the first blowing assembly and the second blowing assembly to deform, and the oiling assembly is driven to press down from the oiling port so as to oil the first specification anilox roller.

The automatic detection device has the beneficial effects that the positions of the rollers of the anilox roller on the conveying mechanism are kept consistent by matching the feeding mechanism with the conveying mechanism, so that the anilox roller can be detected when passing through the screening mechanism, the screened qualified anilox roller is conveyed along with the conveying mechanism, the screened unqualified anilox roller is collected by the first collecting mechanism and the second collecting mechanism, the automatic detection function is realized, and meanwhile, the screening mechanism blows and coats the qualified anilox roller, so that the subsequent processes can be conveniently processed again.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

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, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a self-contained view of the anilox roll delivery apparatus of the present invention;

FIG. 2 is an enlarged view of the invention at A in FIG. 1;

FIG. 3 is an enlarged view of a portion of the feed mechanism of the present invention;

FIG. 4 is a block diagram of a screening mechanism of the present invention;

FIG. 5 is an exploded view of the screening mechanism of the present invention;

FIG. 6 is a partial block diagram of a first transverse hinge block of the present invention;

FIG. 7 is a blow state diagram of the present invention;

fig. 8 is a diagram of the oiling state of the present invention.

In the figure:

1. a feeding mechanism; 11. feeding a material box; 111. a feeding port; 12. a feeding motor;

2. a conveying mechanism; 21. a conveyor belt; 211. a limiting area; 212. a limiting plate;

3. a screening mechanism; 31. a first screening component; 311. a first longitudinal hinge block; 3111. a first inclined surface part; 3112. a first planar portion; 312. a first transverse hinge block; 3121. a first groove; 32. a second screening component; 321. a second longitudinal hinge block; 3211. a second inclined surface part; 3212. a second planar section; 322. a second transverse hinge block; 33. a hinge plate; 331. an oil inlet channel; 332. a moving groove; 34. a first blowing assembly; 341. a first squeeze plate; 342. a first air bag; 35. a second insufflation assembly; 351. a second compression plate; 352. a second air bag; 36. a bow spring; 37. an oiling component; 371. coating oil blocks; 372. an oil storage tank; 38. a first moving plate; 381. a boss portion; 39. a second moving plate;

4. a first collection mechanism;

5. a second collection mechanism.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. 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.

Example 1

In the present embodiment, as shown in fig. 1 to 8, the present embodiment provides an anilox roller conveying apparatus including: the device comprises a feeding mechanism 1, a conveying mechanism 2, a screening mechanism 3, a first collecting mechanism 4 and a second collecting mechanism 5; the feeding mechanism 1 is arranged at the feeding position of the conveying mechanism 2, the screening mechanism 3 is hung above the conveying mechanism 2, and the first collecting mechanism 4 and the second collecting mechanism 5 are positioned below the screening mechanism 3 and are respectively and correspondingly arranged at two sides of the conveying mechanism 2; a plurality of limiting regions 211 are sequentially arranged on the conveying mechanism 2 at intervals along the conveying direction, and the feeding mechanism 1 sequentially puts rollers of the anilox roller on the conveying mechanism 2 in alignment with the corresponding limiting regions 211 so as to limit the anilox roller on the conveying mechanism 2 and transversely vertical to the conveying direction; when the first specification anilox roller on the conveying mechanism 2 moves to the screening mechanism 3, two ends of a roller shaft of the first specification anilox roller are pressed against the screening mechanism 3 to be lifted, so that the screening mechanism 3 blows and coats the first specification anilox roller until the screening mechanism 3 resets after the first specification anilox roller is separated; when the second specification anilox roller on the conveying mechanism 2 moves to the screening mechanism 3, the screening mechanism 3 abuts against one end of the roller shaft of the second specification anilox roller, and the other end of the roller shaft of the second specification anilox roller is emptied, so that the second specification anilox roller is inclined towards the first collecting mechanism 4 or the second collecting mechanism 5 under the abutting of the screening mechanism 3, namely the second specification anilox roller is separated from the conveying mechanism 2 and slides to the first collecting mechanism 4 or the second collecting mechanism 5.

In the embodiment, the first specification anilox roller refers to a qualified anilox roller, and roller shafts on two sides of a roller on the first specification anilox roller are equidistant; the anilox roller with the second specification refers to an unqualified anilox roller, and roller shafts on two sides of the roller are not equidistant.

Feed mechanism 1

Feeding mechanism 1 mainly plays the effect of throwing the reticulation roller onto conveying mechanism 2, carries on spacingly through feeding mechanism 1 to the reticulation roller, can make the roller of reticulation roller just in time block and set for the position on conveying mechanism 2 to can ensure that screening mechanism 3 detects the reticulation roller.

Conveying mechanism 2

Conveying mechanism 2 mainly plays the effect of carrying the anilox roller, can cooperate screening mechanism 3 to work, realizes the screening to the anilox roller for qualified anilox roller carries to the finished product region along with conveying mechanism 2, makes unqualified anilox roller landing in first collection mechanism 4, second collection mechanism 5.

Screening mechanism 3

The screening mechanism 3 mainly plays a role in screening, cleaning and oiling, blows air on the surface of the anilox roller to ensure the cleanness of the anilox roller, and simultaneously oils the surface of the anilox roller to ensure the lubrication of the anilox roller.

A first collecting mechanism 4 and a second collecting mechanism 5

The first collecting mechanism 4 and the second collecting mechanism 5 mainly play a role of collecting anilox rollers with unqualified roller shaft and roller barrel assembly.

In this embodiment, this embodiment makes the position of the roller of reticulation roller on conveying mechanism 2 keep unanimous through 1 cooperation conveying mechanism 2 of feed mechanism, and then can detect the reticulation roller when passing through screening mechanism 3, select qualified reticulation roller and continue to carry along with conveying mechanism 2, select unqualified reticulation roller and collect through first collection mechanism 4, second collection mechanism 5, realize the automated inspection function, blow to qualified reticulation roller by screening mechanism 3 simultaneously, the fat liquoring, make things convenient for subsequent handling to process once more.

In this embodiment, the feeding mechanism 1 includes: a feeding box 11 and a feeding motor 12; the bottom of the feeding box 11 is arranged in an inclined plane, the feeding box 11 is provided with a feeding hole 111, and the feeding motor 12 is fixed with the feeding box 11; feed bin 11 is gone up in the vibration of material loading motor 12, so that 11 inside the material loading bin the anilox roller is put in to conveying mechanism 2 from material loading mouth 111, and the roller of first specification anilox roller, the roller warp of second specification anilox roller material loading mouth 111 is aimed at corresponding spacing region 211 and is gone into the card.

In this embodiment, the feeding motor 12 is arranged to vibrate the feeding box 11 to enable the anilox roller to be just thrown into the conveying mechanism 2 from the feeding port 111, meanwhile, the feeding port 111 is divided into a first shaft part, a cylinder part and a second shaft part, wherein the cylinder part is overlapped with the roller of the anilox roller, and the first shaft part and the second shaft part are slightly longer than the roller shafts exposed from two sides of the roller on the anilox roller, so that the positions of the roller of the anilox rollers with different specifications on the conveying mechanism 2 can be kept consistent, and screening of the anilox rollers with different specifications is achieved.

In the present embodiment, the conveying mechanism 2 includes: a conveyor belt 21; each limit region 211 on the conveyer belt 21 sets up two parallel vertical fixed limiting plate 212 respectively, and the roller of first specification anilox roller, the roller card of second specification anilox roller are two promptly between the limiting plate 212 to make the roller of first specification anilox roller, the roller of second specification anilox roller follow two limiting plate 212 exposes.

In this embodiment, every spacing region 211 all sets up two limiting plates 212 on conveyer belt 21 to carry on spacingly to the anilox roller, guarantee simultaneously that the roller of every anilox roller all blocks between two limiting plates 212, make things convenient for screening mechanism 3 to filter.

In the present embodiment, the screening mechanism 3 includes: a first screening assembly 31, a second screening assembly 32, a hinge plate 33, a first blow assembly 34, a second blow assembly 35 and a bow spring 36; the two sides of the hinged plate 33 are respectively hinged with the first screening component 31 and the second screening component 32, the hinge plate 33 is fixed above the conveyer belt 21, the first blowing assembly 34 and the second blowing assembly 35 are respectively arranged on the top of the first screening assembly 31 and the top of the second screening assembly 32, the two ends of the bow spring 36 are respectively contacted with the first blowing assembly 34 and the second blowing assembly 35, namely, when the two ends of the roll shaft of the first specification anilox roll on the conveyer belt 21 respectively press against the first screening component 31 and the second screening component 32 to lift, the first air blowing assembly 34 and the second air blowing assembly 35 move towards the two ends of the bow spring 36 respectively, so that the bow springs 36 respectively press the first air blowing assembly 34 and the second air blowing assembly 35 to blow air to the anilox roller with the first specification until the first screening assembly 31 and the second screening assembly 32 reset after the anilox roller with the first specification is separated; when one end of the roller shaft of the second-specification anilox roller on the conveying belt 21 is pressed by the first screening component 31 or the second screening component 32, the other end of the roller shaft of the second-specification anilox roller is emptied, inclines and slides to the first collecting mechanism 4 or the second collecting mechanism 5.

In the embodiment, because the hinge plate 33 is fixed above the conveyer belt 21, when the anilox roller is screened by the first screening assembly 31 and the second screening assembly 32, the first screening assembly 31 is activated or the second screening assembly 32 is activated or the first screening assembly 31 and the second screening assembly 32 are simultaneously activated; when the first screening assembly 31 moves or the second screening assembly 32 moves independently, the roll shafts on the two sides of the roller of the detected anilox roll are not equidistant, and the anilox roll is an unqualified product; when the first screening assembly 31 and the second screening assembly 32 are simultaneously activated, the roll shafts on the two sides of the roller of the detected anilox roll are equidistant, which indicates that the anilox roll is a qualified product.

In this embodiment, the bow spring 36 and the first screening component 31, the second screening component 32, the hinge plate 33, the first air blowing component 34 and the second air blowing component 35 all have a movable connection relationship, so that when the first screening component 31 and the second screening component 32 are lifted up, the bow spring 36 extrudes the first air blowing component 34 and the second air blowing component 35, and simultaneously when the first screening component 31 and the second screening component 32 are not stressed, the first air blowing component 34 and the second air blowing component 35 push the bow spring 36 to reset.

In this embodiment, the screening mechanism 3 further includes: an oiling assembly 37, a first moving plate 38 and a second moving plate 39; the first moving plate 38 and the second moving plate 39 are movably arranged at the bottom of the hinge plate 33, oil coating holes are formed in the hinge plate 33, one end of the oil coating assembly 37 is fixed at the bottom of the bow spring 36, and the other end of the oil coating assembly 37 extends into the oil coating holes to abut against the first moving plate 38 and the second moving plate 39; the two ends of the bow spring 36 are pressed against the first blowing assembly 34 and the second blowing assembly 35 to deform, the first screening assembly 31 and the second screening assembly 32 drive the first moving plate 38 and the second moving plate 39 to move in opposite directions to form an oil coating port, namely, the bow spring 36 drives the oil coating assembly 37 to press down from the oil coating port to coat oil on the anilox roller with the first specification.

In this embodiment, the first screening assembly 31 includes: a first longitudinal hinge block 311, a first transverse hinge block 312; two ends of the first transverse hinge block 312 are respectively hinged with the first longitudinal hinge block 311 and the hinge plate 33, a first sliding groove is formed in the top of the first transverse hinge block 312, and a plurality of first air holes communicated with the first sliding groove are formed in the bottom of the first transverse hinge block 312; the second screening assembly 32 includes: a second longitudinal hinge block 321, a second transverse hinge block 322; two ends of the second transverse hinge block 322 are respectively hinged with the second longitudinal hinge block 321 and the hinge plate 33, the top of the second transverse hinge block 322 is provided with a second sliding groove, and the bottom of the second transverse hinge block 322 is provided with a plurality of second air holes communicated with the second sliding groove; the first air blowing assembly 34 and the second air blowing assembly 35 are movably arranged in the first sliding groove and the second sliding groove respectively, that is, the first longitudinal hinge block 311 and/or the second longitudinal hinge block 321 are lifted to drive the first transverse hinge block 312 and/or the second transverse hinge block 322 to swing, so as to drive the bow spring 36 to extrude the first air blowing assembly 34 and/or the second air blowing assembly 35 to blow air from the first air hole and/or the second air hole to align to the corresponding anilox roller.

In the embodiment, when the anilox roller with the first specification is detected, the first longitudinal hinge block 311 and the second longitudinal hinge block 321 are lifted simultaneously and drive the first transverse hinge block 312 and the second transverse hinge block 322 to swing, so that the bow springs 36 extrude the first air blowing assembly 34 and the second air blowing assembly 35 to blow air from the first air holes and the second air holes in alignment with the anilox roller.

In the embodiment, when the anilox roller with the second specification is detected, the first longitudinal hinged block 311 or the second longitudinal hinged block 321 is lifted independently and drives the first transverse hinged block 312 or the second transverse hinged block 322 to swing independently, so that the bow springs 36 extrude the first air blowing assembly 34 or the second air blowing assembly 35 to blow air from the first air holes or the second air holes in alignment with the anilox roller.

In the present embodiment, the first blowing assembly 34 includes: a first pressing plate 341 and a first air bladder 342; both ends of the first air bag 342 are respectively connected with the inner side wall of the first sliding groove and the first pressing plate 341, and the first pressing plate 341 is in contact with the bow spring 36; the bow-shaped spring 36 pushes against the first pressing plate 341 to press the first air bag 342 to vent out of the first air hole; the second air-blowing assembly 35 includes: the second pressing plate 351 and the second air bag 352; both ends of the second air bag 352 are respectively connected with the inner side wall of the second sliding groove and a second pressing plate 351, and the second pressing plate 351 is in contact with the bow spring 36; the bow spring 36 pushes against the second pressing plate 351 to press the second air bag 352 to vent air from the second air hole.

In the present embodiment, on the one hand, the first air bag 342 is inflated when being pressed by the first pressing plate 341, and on the other hand, the first air bag 342 pushes the first pressing plate 341 to be reset when being reset; on the one hand, the second air bag 352 is inflated when being pressed by the second pressing plate 351, and on the other hand, the second air bag 352 pushes the second pressing plate 351 to reset when being reset.

In this embodiment, the oiling assembly 37 includes: an oiling block 371, an oiling air bag and an oil storage tank 372; the oil storage tank 372 is fixed above the bow spring 36, the oiling air bag is fixed at the bottom of the oiling block 371, an oil inlet channel 331 is longitudinally formed in the oiling block 371, the top of the oil inlet channel 331 is exposed out of the bow spring 36 through an oil inlet pipe, and the bottom of the oil inlet channel 331 is communicated with the oiling air bag; the bow-shaped spring 36 drives the oiling block 371 to press downwards from the oiling port, so that the oiling air bag extrudes the first specification anilox roller to oil the surface of the first specification anilox roller; when the bow spring 36 drives the oil coating block 371 to reset, the oil coating block 371 is inserted into the one-way valve at the bottom of the oil storage tank 372 through the oil inlet pipe, so that the oil storage tank 372 injects oil into the oil coating air bag.

In this embodiment, the oiling block 371 is driven by the bow spring 36 to oil the anilox roller or is inserted into the check valve to be replenished with oil from the oil storage tank 372, so as to lubricate and replenish oil automatically to the anilox roller.

In this embodiment, a moving slot 332 is formed in the inner side of the lower portion of the hinge plate 33, the first moving plate 38 and the second moving plate 39 both face the moving slot 332 to form a protrusion 381, a first groove 3121 and a second groove are respectively formed at the hinge joint of the first transverse hinge block 312 and the first moving plate 38 and at the hinge joint of the second transverse hinge block 322 and the second moving plate 39, that is, the first transverse hinge block 312 and the second transverse hinge block 322 swing to move the first moving plate 38 and the second moving plate 39 into the first groove 3121 and the second groove, and the protrusion 381 is matched with the first groove 3121 and the second groove to move in the moving slot 332, so as to drive the first moving plate 38 and the second moving plate 39 to move in the opposite direction to form an oil coating port.

In the present embodiment, the first moving plate 38 and the second moving plate 39 are matched with the first groove 3121 and the second groove to realize the opening or closing of the first moving plate 38 and the second moving plate 39; meanwhile, a moving groove 332 is formed in the lower inner side of the hinge plate 33, and the first moving plate 38 and the second moving plate 39 both form a protruding portion 381 facing the moving groove 332, so that the first moving plate 38 and the second moving plate 39 can be movably limited in the lower inner side of the hinge plate 33.

In this embodiment, the first longitudinal hinge block 311 is provided with a first bevel portion 3111 and a first plane portion 3112; the second longitudinal hinge block 321 is provided with a second inclined surface portion 3211 and a second flat surface portion 3212; when the first specification anilox roller travels along the first inclined surface portion 3111 and the second inclined surface portion 3211, the bow spring 36 presses the first air blowing assembly 34 and the second air blowing assembly 35 respectively to blow air to the first specification anilox roller; when the first specification anilox roller advances along the first flat surface portion 3112 and the second flat surface portion 3212, two ends of the bow spring 36 press the first blowing assembly 34 and the second blowing assembly 35 to deform, and drive the oiling assembly 37 to press down from the oiling port to oil the first specification anilox roller.

In this embodiment, the air blowing function is realized during the process that the anilox roller with the first specification travels along the first inclined surface portion 3111 and the second inclined surface portion 3211; the oiling function is realized in the process that the first specification anilox roller advances along the first flat surface portion 3112 and the second flat surface portion 3212.

In the present embodiment, the first collection mechanism 4 includes: a first collection tank; the second collecting mechanism 5 includes: a second collection tank; the first collecting box and the second collecting box are positioned below the screening mechanism 3 and are respectively and correspondingly arranged on two sides of the conveying mechanism 2.

In this embodiment, first collecting box, second collecting box all receive the anilox roller through corresponding guide board, prevent to cause secondary damage to the anilox roller.

In conclusion, the positions of the rollers of the anilox rollers on the conveying mechanism are kept consistent by matching the feeding mechanism with the conveying mechanism, so that the anilox rollers can be detected when passing through the screening mechanism, the screened qualified anilox rollers are conveyed continuously along with the conveying mechanism, the screened unqualified anilox rollers are collected by the first collecting mechanism and the second collecting mechanism, the automatic detection function is realized, and meanwhile, the screening mechanism blows and coats the qualified anilox rollers, so that the subsequent processes can be conveniently processed again.

The components selected for use in the present application (components not illustrated for specific structures) are all common standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experimentation.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. An anilox roller conveying apparatus, characterized by comprising:

the device comprises a feeding mechanism, a conveying mechanism, a screening mechanism, a first collecting mechanism and a second collecting mechanism; wherein

The feeding mechanism is arranged at the feeding position of the conveying mechanism, the screening mechanism is hoisted above the conveying mechanism, and the first collecting mechanism and the second collecting mechanism are positioned below the screening mechanism and are respectively and correspondingly arranged at two sides of the conveying mechanism;

the feeding mechanism sequentially puts rollers of the anilox roller on the conveying mechanism aiming at the corresponding limiting areas so as to limit the anilox roller on the conveying mechanism and be transversely vertical to the conveying direction;

when the first specification anilox roller on the conveying mechanism moves to the screening mechanism, two ends of a roller shaft of the first specification anilox roller are pressed against the screening mechanism to be lifted, so that the screening mechanism blows and coats the first specification anilox roller until the screening mechanism resets after the first specification anilox roller is separated;

when the second specification anilox roller on the conveying mechanism moves to the screening mechanism, the screening mechanism is abutted against one end of the roll shaft of the second specification anilox roller, and the other end of the roll shaft of the second specification anilox roller is emptied, so that the second specification anilox roller is inclined towards the first collecting mechanism or the second collecting mechanism under the abutting of the screening mechanism, namely

The anilox roller with the second specification is separated from the conveying mechanism and slides to the first collecting mechanism or the second collecting mechanism.

2. Anilox roll conveying apparatus as claimed in claim 1,

the feed mechanism includes: a feeding box and a feeding motor;

the bottom of the feeding box is arranged in an inclined plane, the feeding box is provided with a feeding port, and the feeding motor is fixed with the feeding box;

the material loading motor vibrates the material loading box so that the material loading box is internally provided with the anilox roller which is put into the conveying mechanism from the material loading opening, and the roller of the anilox roller with the first specification and the roller of the anilox roller with the second specification are aligned to the corresponding limiting area by the material loading opening and are clamped into the corresponding limiting area.

3. Anilox roll conveying apparatus as claimed in claim 2,

the conveying mechanism includes: a conveyor belt;

two parallel vertically fixed limiting plates are respectively arranged in each limiting area on the conveying belt, namely

The roller of the first specification anilox roller and the roller of the second specification anilox roller are clamped into the two limiting plates, so that the roller shaft of the first specification anilox roller and the roller shaft of the second specification anilox roller are exposed out of the two limiting plates.

4. Anilox roll conveying apparatus as claimed in claim 3,

the screening mechanism includes: the first screening assembly, the second screening assembly, the hinged plate, the first air blowing assembly, the second air blowing assembly and the bow spring;

the two sides of the hinged plate are respectively hinged with the first screening assembly and the second screening assembly, the hinged plate is fixed above the conveying belt, the first air blowing assembly and the second air blowing assembly are respectively arranged at the top of the first screening assembly and the top of the second screening assembly, and two ends of the bow spring are respectively contacted with the first air blowing assembly and the second air blowing assembly, namely

When two ends of a roll shaft of the first specification anilox roll on the conveying belt respectively press the first screening assembly and the second screening assembly to lift, the first air blowing assembly and the second air blowing assembly respectively move towards two ends of the bow spring so that the bow spring respectively extrudes the first air blowing assembly and the second air blowing assembly to blow air to the first specification anilox roll until the first screening assembly and the second screening assembly reset after the first specification anilox roll is separated;

when one end of the roll shaft of the anilox roll with the second specification on the conveying belt is pressed by the first screening assembly or the second screening assembly, the other end of the roll shaft of the anilox roll with the second specification is emptied, inclines and slides to the first collecting mechanism or the second collecting mechanism.

5. Anilox roll conveying apparatus as claimed in claim 4,

the screening mechanism further comprises: the oiling device comprises an oiling component, a first moving plate and a second moving plate;

the first moving plate and the second moving plate are movably arranged at the bottom of the hinged plate, an oil coating hole is formed in the hinged plate, one end of the oil coating assembly is fixed to the bottom of the bow spring, and the other end of the oil coating assembly extends into the oil coating hole to abut against the first moving plate and the second moving plate;

the two ends of the bow-shaped spring are abutted against the first blowing assembly and the second blowing assembly to deform, and the first screening assembly and the second screening assembly drive the first moving plate and the second moving plate to move in opposite directions to form a coating port, namely

The bow spring drives the oiling component to press down from the oiling port so as to oil the first specification anilox roller.

6. Anilox roll conveying apparatus as claimed in claim 5,

the first screening assembly includes: the first longitudinal hinge block and the first transverse hinge block are connected with each other;

two ends of the first transverse hinging block are respectively hinged with the first longitudinal hinging block and the hinging plate, a first sliding groove is formed in the top of the first transverse hinging block, and a plurality of first air holes communicated with the first sliding groove are formed in the bottom of the first transverse hinging block;

the second screening assembly includes: the second longitudinal hinge block and the second transverse hinge block;

two ends of the second transverse hinging block are respectively hinged with the second longitudinal hinging block and the hinging plate, a second sliding groove is formed in the top of the second transverse hinging block, and a plurality of second air holes communicated with the second sliding groove are formed in the bottom of the second transverse hinging block;

the first air blowing assembly and the second air blowing assembly are respectively and movably arranged in the first sliding groove and the second sliding groove, namely

The first longitudinal hinged block and/or the second longitudinal hinged block are lifted up to drive the first transverse hinged block and/or the second transverse hinged block to swing, and then the bow-shaped spring is driven to extrude the first air blowing assembly and/or the second air blowing assembly to blow air from the first air hole and/or the second air hole to align to the corresponding anilox roller.

7. Anilox roll conveying apparatus as claimed in claim 6,

the first blow assembly includes: a first compression plate and a first air bag;

two ends of the first air bag are respectively connected with the inner side wall of the first sliding groove and the first extrusion plate, and the first extrusion plate is contacted with the bow spring;

the bow spring pushes the first extrusion plate to extrude the first air bag to vent from the first air hole;

the second air-blowing assembly includes: a second compression plate and a second air bag;

two ends of the second air bag are respectively connected with the inner side wall of the second sliding groove and a second extrusion plate, and the second extrusion plate is contacted with the bow spring;

the bow-shaped spring pushes the second extrusion plate to extrude the second air bag to vent air from the second air hole.

8. Anilox roll conveying apparatus as claimed in claim 7,

the oiling subassembly includes: the oil coating device comprises an oil coating block, an oil coating air bag and an oil storage tank;

the oil storage tank is fixed above the bow spring, the oil coating air bag is fixed at the bottom of the oil coating block, an oil inlet channel is longitudinally formed in the oil coating block, the top of the oil inlet channel is exposed out of the bow spring through an oil inlet pipe, and the bottom of the oil inlet channel is communicated with the oil coating air bag;

the arch spring drives the oiling block to be pressed down from the oiling port, so that the oiling air bag extrudes the first specification anilox roller to oil the surface of the first specification anilox roller;

when the bow spring drives the oiling block to reset, the oiling block is inserted into the one-way valve at the bottom of the oil storage tank through the oil inlet pipe, so that the oil storage tank can inject oil into the oiling air bag.

9. Anilox roll conveying apparatus as claimed in claim 8,

the hinge plate is characterized in that a moving groove is formed in the inner side of the lower portion of the hinge plate, the first moving plate and the second moving plate face the moving groove to form a protruding portion, a first groove and a second groove are formed in the hinged position of the first transverse hinge block and the first moving plate and the hinged position of the second transverse hinge block and the second moving plate respectively, namely the first groove and the second groove are formed in the hinged position of the first transverse hinge block and the first moving plate

The first transverse hinging block and the second transverse hinging block swing to move the first moving plate and the second moving plate into the first groove and the second groove and are matched with the corresponding protrusions to move in the moving grooves so as to drive the first moving plate and the second moving plate to move reversely to form the oil coating ports.

10. Anilox roll conveying apparatus as claimed in claim 9,

the first longitudinal hinge block is provided with a first inclined plane part and a first plane part;

the second longitudinal hinge block is provided with a second inclined plane part and a second plane part;

when the first specification anilox roller moves along the first inclined plane part and the second inclined plane part, the bow-shaped spring respectively extrudes the first air blowing assembly and the second air blowing assembly to blow air to the first specification anilox roller;

when the first specification anilox roller advances along the first plane part and the second plane part, the two ends of the bow-shaped spring abut against the first blowing assembly and the second blowing assembly to deform, and the oiling assembly is driven to press down from the oiling port so as to oil the first specification anilox roller.

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