CN114852630B - Belt cleaning device - Google Patents

Abstract

The invention provides a belt cleaning device, which is applied to a belt conveyor to clean a belt, and comprises the following components: the brush roller is arranged on the lower surface of the belt in a fitting way, so that the surface of the belt is cleaned, and the brush roller is provided with a hollow inner cavity; the rotating mechanism comprises a rotating shaft penetrating through the inner cavity of the brush roller, and the brush roller is driven to rotate by driving the rotating shaft to rotate; and the vibration mechanism is arranged on the rotating shaft and is used for driving the brush roller to vibrate. The surface of the belt is cleaned by the rotating brush roller, so that the cleanliness of the surface of the belt is ensured, and the belt conveying efficiency is improved; and drive the brush through vibrating mechanism and vibrate in step that the rotation was cleaned, make detain or card fine foam between the brush hair can drop naturally, prevent that fine foam from cementng on the brush hair or the card is dead between the brush hair and influence clean effect, realize the self-cleaning of brush roller, avoid the brush roller to harden or take place to mould.

Description

Belt cleaning device

Technical Field

The invention belongs to the technical field of cigarette production equipment, and particularly relates to a belt cleaning device.

Background

In the tobacco shredding process, the belt conveyor is widely applied and mainly used for conveying materials, and in the process of conveying the materials, as the materials are contacted with the belt, a small part of the materials can be adhered to the belt, and in order to keep the belt clean, a hair roller brush is arranged below the belt, so that the adhered matter on the belt is brushed off.

Because the materials adhered to the belt are usually scraps, the scraps are very easy to clamp and pile on the hairbrush, and the hairbrush is hardened and damaged due to scale deposition after a long time, so that the cleaning effect is lost.

To this problem, there are some tobacco processing enterprises to replace the brush with the film, install the film on the roller, scrape the adhesion thing on the belt through the rotation of roller, after the time has been long, the film will age and break the back and drop, can't play clear effect.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a belt cleaning device which can effectively clean a belt in a belt conveyor in a rotating and vibrating mode, has a simple structure and can effectively improve the cleaning efficiency.

In order to solve the technical problems, the invention adopts the following technical scheme:

a belt cleaning apparatus for use in a belt conveyor to clean a belt, comprising:

the brush roller is arranged on the lower surface of the belt in a fitting way, so that the surface of the belt is cleaned, and the brush roller is provided with a hollow inner cavity;

the rotating mechanism comprises a rotating shaft penetrating through the inner cavity of the brush roller, and the brush roller is driven to rotate by driving the rotating shaft to rotate;

and the vibration mechanism is arranged on the rotating shaft and is used for driving the brush roller to vibrate.

Preferably, the belt cleaning device further comprises:

the fixed seat is provided with two fixed plates penetrated by the rotating shaft so as to position the brush roller between the two fixed plates;

the driving mechanism is arranged on the outer side wall of any fixed plate, and the output end of the driving mechanism is connected with the rotating shaft and used for driving the rotating shaft to rotate.

Preferably, the length of the brush roller is smaller than the width of the belt, and the belt cleaning device further comprises a reciprocating mechanism, wherein the reciprocating mechanism is arranged in an area between the driving mechanism and the brush roller, and the reciprocating mechanism is used for driving the brush roller to reciprocate along the length direction of the shaft rod so as to cover the cleaning surface of the belt along the width direction of the belt.

Preferably, the reciprocating mechanism comprises a shaft lever driven to rotate by the driving mechanism, a moving body movably arranged along the length direction of the shaft lever, and a connecting piece for connecting the moving body and the brush roller.

Preferably, the moving body is provided with a poking piece,

the fixed seat is provided with a limiting mechanism, the limiting mechanism comprises a limiting rod which penetrates through the fixed plate close to the driving mechanism and is arranged corresponding to the rotating shaft, a first stop block and a second stop block which are fixedly arranged on the limiting rod at a preset interval,

the poking piece is arranged between the first stop block and the second stop block so as to limit the moving range of the moving body and drive the brush roller to reciprocate.

Preferably, the rotating shaft is multiplexed into the shaft lever, and the connecting piece is a coupler sleeved on the rotating shaft.

Preferably, the reciprocating mechanism further comprises a first bearing sleeved on the rotating shaft and arranged corresponding to the moving body, and the inner side wall of the moving body is matched with the outer side wall of the first bearing through a thread structure so as to drive the moving body to move along the length direction of the rotating shaft.

Preferably, the reciprocating mechanism further comprises a plurality of second bearings sleeved on the rotating shaft and arranged corresponding to the two end areas of the brush roller, and the side walls of the inner cavity of the brush roller are matched with the corresponding outer side walls of the second bearings through a thread structure so as to drive the brush roller to axially move along the rotating shaft.

Preferably, the plurality of second bearings comprise two left-handed unidirectional bearings and two right-handed unidirectional bearings which are respectively and correspondingly arranged at two ends of the brush roller.

Compared with the prior art, the invention has the beneficial effects that: the brush roller is driven to rotate through the rotating mechanism so as to clean the surface of the belt in the conveying process, and the cleanliness of the surface of the belt is ensured, so that the conveying efficiency of the belt is improved; in the cleaning process of the brush roller, the vibration mechanism drives the brush to vibrate synchronously in the cleaning process of rotation, so that fine foam remained or clamped between the brush hairs can naturally fall off, the fine foam is prevented from adhering to the brush hairs or being clamped between the brush hairs to influence the cleaning effect, the brush roller is cleaned, and the brush roller is prevented from being hardened or moldy.

Drawings

Fig. 1 is a schematic view of a belt cleaning apparatus in accordance with an embodiment of the present invention.

Wherein, 100-belt cleaning device 10-brush roller 20-rotary mechanism 11-inner chamber 21-rotation axis 30-vibration mechanism 40-fixing base 41-fixed plate 50-driving mechanism 60-reciprocating mechanism 61-movable body 62-connecting piece 611-left-hand plectrum 612-right-hand plectrum 63-first bearing 64-second bearing 641-left-hand unidirectional bearing 642-right-hand unidirectional bearing 71-damping sleeve.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings.

As shown in fig. 1, the present embodiment discloses a belt cleaning device 100, which is applied to a belt conveyor to clean a belt. In the belt conveyor, a belt is sleeved on a driving wheel and a driven wheel to form an annular structure, and the driving wheel and the driven wheel are driven to rotate to drive the belt to synchronously rotate, so that the objects are conveyed. As a specific implementation scenario, the belt conveyor is applied to a cigarette production line and is used for conveying tobacco shreds, so that impurities such as tobacco dust attached to the belt need to be cleaned, and efficient conveying of tobacco shreds is continuously performed.

Specifically, the belt cleaning apparatus 100 includes: a brush roller 10 and a rotation mechanism 20.

The brush roller 10 is arranged to be attached to the lower surface of the belt, and is rotated to clean the surface of the belt, so that impurities such as tobacco dust and the like remained on the belt after the tobacco shred is conveyed are removed, and continuous conveying of the tobacco shred is facilitated. Specifically, as shown in fig. 1, the brush roller 10 has a hollow inner cavity 11 so as to facilitate rotation of the brush roller 10 by a rotation mechanism 20 provided through the inner cavity 11.

The rotating mechanism 20 comprises a rotating shaft 21 penetrating through the inner cavity 11 of the brush roller 10, so that the brush roller 10 can be driven to rotate by driving the rotating shaft 21 to rotate, and the surface of the belt is cleaned.

In the process of rotating and executing the brush roller 10 by the rotating mechanism 20, impurities such as tobacco foam cleaned by the brush roller 10 from the belt are easy to stay on or block between bristles of the brush roller 10, if the brush roller 10 is not cleaned in time, the cleaning effect of the brush roller 10 on the belt is greatly reduced, tobacco foam impurities and the like attached to the brush roller 10 can not continuously clean the tobacco foam impurities on the belt, and on the contrary, the tobacco foam impurities and the like on the brush roller 10 also easily cause secondary pollution to the belt.

Based on this, the belt cleaning apparatus 100 further includes a vibration mechanism 30, and the vibration mechanism 30 is provided on the rotation shaft 21, specifically, is sleeved on the rotation shaft 21, and does not rotate synchronously with the rotation shaft 21, and the vibration mechanism 30 drives the brush roller 10 to vibrate by conduction of the rotation shaft 21. Like this, at brush roller 10 rotatory in-process, vibrate in step, realize will detaining or card fine foam impurity between the brush hair can drop naturally, prevent that fine foam from cementing on the brush hair or the card is dead between the brush hair and influence clean effect, realize cleaning the self of brush roller, avoid the brush roller to harden or take place to mould. A high-frequency vibrator motor is arranged in the brush cleaner, so that the brush cleaner can vibrate in a high-frequency and low-amplitude manner during rotary cleaning, and fine foam clamped between the brushes can naturally fall off. As a specific implementation example, the vibration mechanism 30 adopts a high-frequency vibrator motor, so that the brush roller 10 is vibrated at a high frequency and a low amplitude during rotation cleaning, and as the adhesion of the adhesion objects such as the tobacco foam impurities and the like on the brush is poor, the fine foam which is retained and clamped between the hairs is not easy to retain and block due to the high-frequency vibration effect, and the tobacco foam impurities naturally fall off due to vibration while the brush roller rotates, so that the cleaning of the brush roller is maintained, and the brush roller is prevented from being hardened or mildewed.

In another embodiment, as a specific mounting structure of the brush roller 10, the belt cleaning apparatus 100 further includes a fixing base 40, as shown in fig. 1, the fixing base 40 having two fixing plates 41 penetrated by the rotation shaft 21, thereby positioning the brush roller 10 between the two fixing plates 41. In an actual belt conveyor, the housings on both sides of the belt can be respectively multiplexed into two fixing plates 41, so that the brush roller 10 is installed and positioned, the brush roller 10 is sealed inside the housing, and the safety and the aesthetic property are improved.

In a specific embodiment, the belt cleaning apparatus 100 further includes a drive mechanism 50 for providing rotational power to the rotating shaft 21. The driving mechanism 50 may be disposed on an outer sidewall of an arbitrary fixing plate 41, and an output end of the driving mechanism 50 is connected with the rotation shaft 21 for driving the rotation shaft 21 to rotate, thereby driving the brush roller 10 to rotate. Specifically, the drive mechanism 50 includes a drive motor and a speed reducer.

In another embodiment, in order to enable the belt cleaning apparatus 100 to be adapted to clean a plurality of types of belts, that is, to clean the entire surface of the belt with high efficiency even when the length of the brush roller 10 is smaller than the width of the belt, the belt cleaning apparatus 100 further includes a reciprocating mechanism 60 for driving the brush roller 10 to reciprocate along the length direction of the rotation shaft 21, thereby realizing covering the cleaning surface thereof along the width direction of the belt, and cleaning the belt without omission. The reciprocating mechanism 60 is disposed in a region between the driving mechanism 50 and the brush roller 10, and comprises a shaft driven to rotate by the driving mechanism 50, a moving body 61 movably disposed along the shaft, and a connecting piece 62 connecting the moving body 61 and the brush roller 10, wherein the moving body 61 is driven to move by the rotation of the driving shaft, so that the brush roller is driven to synchronously move. As a preferred embodiment, the rotation shaft 21 is multiplexed as a shaft, that is, the moving body 61 is movably provided on the rotation shaft 21 and between the driving mechanism 50 and the brush roller 10. The coupling 62 is a coupling fitted over the rotary shaft 21.

Further, in order to limit the moving range of the brush roller 10, that is, to limit the brush roller 10 to move back and forth within the width range of the belt, the moving body 61 is provided with a left-hand pulling piece 611 and a right-hand pulling piece 612, and the belt cleaning apparatus 100 further includes a limiting mechanism provided on the fixing base 40, specifically, a limiting mechanism including a limiting rod provided through the fixing plate 41 near the driving mechanism 50 and provided corresponding to the rotation shaft 21, a first stopper and a second stopper fixedly provided on the limiting rod at a predetermined interval, and the moving body 61 is limited to move within the range defined by the first stopper and the second stopper by disposing the left-hand pulling piece 611 and the right-hand pulling piece 612 between the first stopper and the second stopper, thereby driving the brush roller 10 to reciprocate. It is obvious that the distance between the first stop and the second stop is here set to match the gap between the length of the brush roll 10 and the width of the belt.

Specifically, as a specific structural form of the reciprocating mechanism for realizing the movement, the reciprocating mechanism 60 further includes a first bearing 63 sleeved on the rotary shaft 21 and disposed corresponding to the moving body 61, and an inner side wall of the moving body 61 is engaged with an outer side wall of the first bearing 63 through a screw structure, so as to drive the moving body 61 to move back and forth along a length direction of the rotary shaft 21.

Similarly, the reciprocating mechanism 60 further includes a plurality of second bearings 64 sleeved on the rotating shaft 21 and disposed corresponding to the two end regions of the brush roller 10, and the side walls of the inner cavity 11 of the brush roller 10 are matched with the outer side walls of the corresponding second bearings 64 through a screw structure, so as to drive the brush roller 10 to move along the axial direction of the rotating shaft 21, i.e. to move back and forth.

In another embodiment, the plurality of second bearings 64 include two left-hand one-way bearings 641 and two right-hand one-way bearings 642 respectively provided at both ends of the brush roller 10, thereby preventing the brush roller 10 from rotating due to an external force applied to the cleaning contact of the belt during the one-way movement of the brush roller 10.

In another embodiment, since the vibration mechanism is added, in order not to cause vibration to affect the transmission system, and the vibration absorbing mechanism is added to buffer, the vibration absorbing mechanism comprises a vibration absorbing sleeve 71 arranged at the position where two ends of the rotating shaft 21 penetrate through the fixed plate 41, and vibration is prevented from being transmitted to the transmission system by arranging the vibration absorbing sleeve 71, and meanwhile, the brush roller can be better contacted with the surface of the belt, so that better cleaning effect is achieved.

The scope of the present invention is not limited to the above-described embodiments, and it is apparent that various modifications and variations can be made to the present invention by those skilled in the art without departing from the scope and spirit of the invention. It is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (5)

1. A belt cleaning apparatus for use in a belt conveyor to clean a belt, comprising:

the brush roller is arranged on the lower surface of the belt in a fitting way, so that the surface of the belt is cleaned, and the brush roller is provided with a hollow inner cavity;

the rotating mechanism comprises a rotating shaft penetrating through the inner cavity of the brush roller, and the brush roller is driven to rotate by driving the rotating shaft to rotate;

the vibration mechanism is arranged on the rotating shaft and is used for driving the brush roller to vibrate;

the fixed seat is provided with two fixed plates penetrated by the rotating shaft so as to position the brush roller between the two fixed plates;

the driving mechanism is arranged on the outer side wall of any fixed plate, and the output end of the driving mechanism is connected with the rotating shaft and is used for driving the rotating shaft to rotate;

the length of the brush roller is smaller than the width of the belt, the belt cleaning device also comprises a reciprocating mechanism which is arranged in the area between the driving mechanism and the brush roller,

the reciprocating mechanism is used for driving the brush roller to reciprocate along the length direction of the rotating shaft so as to cover the cleaning surface of the belt along the width direction of the belt;

the reciprocating mechanism comprises a moving body movably arranged along the length direction of the rotating shaft, a connecting piece for connecting the moving body with the brush roller, and a first bearing sleeved on the rotating shaft and arranged corresponding to the moving body, wherein the inner side wall of the moving body is matched with the outer side wall of the first bearing through a thread structure so as to drive the moving body to move along the length direction of the rotating shaft.

2. The belt cleaning apparatus as in claim 1, wherein:

the moving body is provided with a poking piece,

the fixed seat is provided with a limiting mechanism, the limiting mechanism comprises a limiting rod which penetrates through the fixed plate close to the driving mechanism and is arranged corresponding to the rotating shaft, a first stop block and a second stop block which are fixedly arranged on the limiting rod at a preset interval,

the poking piece is arranged between the first stop block and the second stop block so as to limit the moving range of the moving body and drive the brush roller to reciprocate.

3. The belt cleaning apparatus as in claim 1, wherein:

the connecting piece is a coupler sleeved on the rotating shaft.

4. A belt cleaning apparatus as claimed in claim 3, wherein:

the reciprocating mechanism further comprises a plurality of second bearings sleeved on the rotating shaft and arranged corresponding to the two end areas of the brush roller, and the side walls of the inner cavity of the brush roller are matched with the corresponding outer side walls of the second bearings through screw thread structures so as to drive the brush roller to move along the axial direction of the rotating shaft.

5. The belt cleaning apparatus as in claim 4, wherein:

the plurality of second bearings comprise two left-handed unidirectional bearings and two right-handed unidirectional bearings which are respectively and correspondingly arranged at two ends of the hairbrush roller.