CN213949728U - Silence module area conveyor - Google Patents

Abstract

The utility model discloses a silence module area conveyor, including identification device and letter sorting conveyer of making a video recording, letter sorting conveyer is including the conveying frame, module area and a plurality of jacking drive arrangement, the both ends of conveying frame are equipped with drive shaft and middle part respectively and are equipped with and hold the chamber, the module area is cyclic annular and walk around the drive shaft and the return stroke section at both ends not with the drive shaft contact, the module area is formed by the concatenation of a plurality of conveyer belt modules, the conveyer belt module includes the sheet, the apparatus further comprises a rotating shaft, running roller and first bearing, the running roller both ends are equipped with first bearing, the running roller is passed in the pivot and is made the running roller set up in the sheet with first bearing, the roll direction of running roller is certain angle with the direction of delivery in module area. This scheme is through the return stroke section that makes the module area not with the drive shaft contact and at the first bearing of pivot both ends installation, and the area of contact of minimize module area and drive shaft also makes no longer have the clearance between running roller and pivot, can effectively reduce conveyor's vibration and noise when guaranteeing the high-efficient transport of conveyor.

Description

Silence module area conveyor

Technical Field

The utility model belongs to the technical field of module conveyor, especially, relate to a silence module area conveyor.

Background

In the next place, the fast-moving production industry in China develops rapidly, which brings great vigor to the development of the packaging industry, wherein the most obvious situation is the updating iteration of the conveying device. With the high-speed development of the technology level, the conveying device is gradually developed towards the direction of serialization, specialization, automation and scale, wherein the module conveying belt technology thoroughly innovates the packaging and carrying mode.

Module conveying device, alias: the module net and net belt are semi-finished modules formed by thermoplastic moulding of plastics, and then the modules are assembled according to requirements, and the module net and net belt are installed on a conveyer belt for bearing and conveying materials. Conveyor belts employing this technology typically have built-in rollers that are often angled with respect to the direction of travel of the belt and extend below the bottom surface of the belt. When the rollers in the conveyor belt are activated, the conveyed articles move at an angle to the direction of the roller shafts, and the device generally adopts an automatic control program to guide the moving direction of the conveyed articles to realize the intelligent sorting and conveying function. But there is the clearance between this kind of module conveyor's running roller and the pivot, in the use, running roller itself can receive goods weight's pushing down, leads to the running roller to constantly bump with the pivot at the rotation in-process, especially under the great condition of goods weight, and the conveyer belt can produce very big vibration and noise. In the past, the physical and psychological health of workshop workers is affected, so that a silent module belt conveying device is urgently needed to solve the problem.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a silence module belt conveying device, which comprises a camera identification device for identifying information of conveyed objects and a sorting and conveying device for controlling the conveying direction of the conveyed objects, wherein the sorting and conveying device comprises a conveying rack, a module belt and a plurality of jacking driving devices for activating the module belt, two ends of the conveying rack are respectively provided with a driving shaft for being connected with a motor, the middle part of the conveying rack is provided with an accommodating cavity for accommodating the jacking driving devices, the module belt is annular and bypasses the driving shafts at the two ends, a return section of the module belt is not contacted with the driving shaft, and the jacking driving devices are arranged in the accommodating cavity and are positioned below the conveying section of the module belt; the module area is formed by the concatenation of a plurality of conveyer belt modules, and the conveyer belt module includes sheet, pivot, running roller and first bearing, and the running roller groove has been seted up to the sheet, and the nested first bearing that is equipped with in running roller both ends, the pivot pass running roller and first bearing and make the running roller rotatable set up in the running roller inslot, and the direction of roll of running roller is certain angle setting with the direction of delivery in module area. This scheme is through the return stroke section that makes the module area not with the drive shaft contact and at the first bearing of pivot both ends installation, and the area of contact of minimize module area and drive shaft also makes no longer have the clearance between running roller and pivot, can effectively reduce conveyor's vibration and noise when guaranteeing the high-efficient transport of conveyor.

The purpose of the utility model is realized by adopting the following technical scheme:

a silent module belt conveying device comprises a camera identification device for identifying information of conveyed objects and a sorting and conveying device for controlling the conveying direction of the conveyed objects;

the camera shooting identification device comprises a plurality of conveyor belts connected end to end, a mounting rack arranged above the conveyor belts, a plurality of camera shooting devices arranged on the mounting rack and used for shooting images of conveyed objects and a plurality of mirrors used for assisting the camera shooting devices to shoot the images, wherein the plurality of camera shooting devices shoot the conveyed objects on the conveyor belts at different angles and are arranged facing the mirrors one by one, the plurality of mirrors are fixed on the mounting rack and arranged at a certain angle with the conveyor belts, and the plurality of mirrors project the images of the conveyed objects to the camera shooting devices;

the sorting and conveying device comprises a conveying rack, a module belt and a plurality of jacking driving devices for activating the module belt, wherein two ends of the conveying rack are respectively provided with a driving shaft for being connected with a motor, the middle part of the conveying rack is provided with an accommodating cavity for accommodating the jacking driving devices, the module belt is annular and bypasses the driving shafts at the two ends, a return section of the module belt is not contacted with the driving shaft, and the jacking driving devices are arranged in the accommodating cavities and positioned below the module belt conveying section; the module belt is formed by splicing a plurality of conveying belt modules, each conveying belt module comprises a sheet, a rotating shaft, a roller and a first bearing, a roller groove is formed in the sheet, the first bearings are nested at two ends of the roller, the rotating shaft penetrates through the roller and the first bearings, the roller can be rotatably arranged in the roller groove, and the rolling direction of the roller and the conveying direction of the module belt are arranged at a certain angle;

the driving shaft is provided with a plurality of rotating discs, a plurality of convex teeth are distributed on the side wall of each rotating disc at intervals in an annular mode, the back of each sheet is provided with a clamping groove matched with the convex teeth, and when the driving shaft rotates, the plurality of convex teeth and the clamping grooves drive the module belt to rotate;

the jacking driving device comprises a jacking plate, a power device used for driving the jacking plate to lift, a transmission mechanism used for connecting the jacking plate and the power device, and a plurality of roller modules fixed on the jacking plate.

Furthermore, the sorting and conveying device further comprises a plurality of return riding wheels for supporting the module belt, and the return riding wheels are arranged in the accommodating cavity and support a return section of the module belt.

Further, the return idler is same water flat line and the mutual interval sets up, the return idler includes the perpendicular to installation axle and a plurality of rotatable settings that module area direction of delivery set up install epaxial pulley, the pulley with module area direct contact.

Further, the roller module comprises a plurality of fixed U-shaped frames arranged on the jacking plate and a plurality of rotary cylinders rotatably arranged on the U-shaped frames, two ends of each rotary cylinder are fixed on the U-shaped frames through second bearings, and the rotary cylinders are arranged in parallel and form acute angles beta with the arrangement direction of the rollers.

Further, the rolling direction of the roller is perpendicular to the conveying direction of the module belt, the arrangement directions of the rotating cylinders in the adjacent jacking driving devices can be the same or mirror image arrangement, and the acute angle beta is 40-80 degrees.

Furthermore, be equipped with a plurality of stripes that are used for increasing frictional force on the lateral wall of rotatory section of thick bamboo, rotatory section of thick bamboo is contradicted during the running roller, the frictional force that the module area was carried and is produced drives running roller and rotatory section of thick bamboo rotate.

Further, power device is the motor, drive mechanism including be fixed in hold the slide bar of intracavity, a plurality of slidable set up in linear bearing on the slide bar, fixed set up in a plurality of linear bearing top the push pedal, with motor shaft fixed eccentric wheel and connect the push pedal and the push rod of eccentric wheel, the both ends of push rod respectively with push pedal and eccentric wheel are articulated, the push pedal top is equipped with rubber coating bearing, the jacking board bottom is equipped with the mount, the bar guide way has been seted up to the mount, the extreme position height at bar guide way both ends is different, the motor rotates can drive rubber coating bearing along the bar guide way slides in order to realize the lift reciprocating motion of jacking board.

Furthermore, the conveying speeds of the plurality of conveying belts are different, the conveying speed of the front end conveying belt is larger than that of the conveying belt located on the camera shooting recognition device, and a plurality of baffles used for preventing conveyed articles from falling are arranged on two sides of the conveying belt.

Further, a gap exists between the adjacent conveyor belts, the gap is smaller than the width of the conveyed articles, the mirror is further arranged below the conveyor belts in an alignment mode with the gap, and the camera shooting device is arranged at the mirror projection angle.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses a silence module area conveyor, including the letter sorting conveyer who is used for discerning the camera identification device who carries article information and is used for controlling the transport direction of carrying the article, letter sorting conveyer includes the conveying frame, module area and a plurality of jacking drive arrangement that are used for activating the module area, the both ends of conveying frame are equipped with the drive shaft that is used for being connected with the motor respectively and the middle part is equipped with the chamber that holds that is used for placing jacking drive arrangement, the module area is cyclic annular and walks around the drive shaft at both ends, the return stroke section of module area does not contact with the drive shaft, jacking drive arrangement sets up in holding the chamber and is located the below of module area conveying section; the module area is formed by the concatenation of a plurality of conveyer belt modules, and the conveyer belt module includes sheet, pivot, running roller and first bearing, and the running roller groove has been seted up to the sheet, and the nested first bearing that is equipped with in running roller both ends, the pivot pass running roller and first bearing and make the running roller rotatable set up in the running roller inslot, and the direction of roll of running roller is certain angle setting with the direction of delivery in module area. This scheme is through the return stroke section that makes the module area not with the drive shaft contact and at the first bearing of pivot both ends installation, and the area of contact of minimize module area and drive shaft also makes no longer have the clearance between running roller and pivot, can effectively reduce conveyor's vibration and noise when guaranteeing the high-efficient transport of conveyor.

Drawings

Fig. 1 is a schematic structural view of a preferred embodiment of a silent module belt conveyor according to the present invention;

fig. 2 is a schematic structural diagram of a preferred embodiment of the camera recognition device of the present invention;

fig. 3 is a schematic structural view of another view angle of the preferred embodiment of the camera recognition device of the present invention;

fig. 4 is an enlarged view of a portion of fig. 3 according to the present invention;

fig. 5 is a partial schematic structure diagram of a preferred embodiment of the sorting conveyor of the present invention;

fig. 6 is an enlarged partial view of B of fig. 5 according to the present invention;

fig. 7 is a partially disassembled schematic view of a preferred embodiment of the sorting conveyor of the present invention;

fig. 8 is a schematic structural diagram of a preferred embodiment of the jacking driving device of the present invention;

figure 9 is an enlarged view of a portion of C of figure 8 in accordance with the present invention;

FIG. 10 is a schematic structural view of a preferred embodiment of the rotary cylinder of the present invention;

fig. 11 is a schematic back structural view of a preferred embodiment of the jacking driving device of the present invention;

fig. 12 is a partially disassembled schematic view of a preferred embodiment of the jacking driving device of the present invention;

FIG. 13 is a schematic view of the back side of a preferred embodiment of the jacking plate of the present invention;

FIG. 14 is a schematic structural view of a preferred embodiment of the modular belt of the present invention;

FIG. 15 is a schematic structural view of a preferred embodiment of a conveyor belt module of the present invention;

fig. 16 is a schematic back side view of a preferred embodiment of the conveyor belt module of the present invention.

In the figure: 100. a silent module belt conveyor; 1. a camera recognition device; 11. a conveyor belt; 12. a mounting frame; 13. a camera device; 14. a mirror; 2. a sorting conveyor; 21. a conveyor frame; 211. a drive shaft; 212. rotating the disc; 2121. a convex tooth; 213. an accommodating chamber; 22. a modular belt; 221. a sheet material; 222. a rotating shaft; 223. a roller; 224. a first bearing; 225. a roller groove; 226. a card slot; 3. a jacking driving device; 31. a jacking plate; 311. a fixed mount; 3111. a guide groove; 32. a transmission mechanism; 321. a slide bar; 322. a linear bearing; 323. pushing the plate; 324. an eccentric wheel; 325. a push rod; 326. encapsulating the bearing; 33. a power plant; 34. a roller module; 341. a U-shaped frame; 342. a rotary drum; 3421. stripes; 343. a second bearing; 4. a return riding wheel; 41. installing a shaft; 42. a pulley; 5. and a baffle plate.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

The utility model relates to a silence module area conveyor 100 is as shown in fig. 1-16, including control system, a letter sorting conveyer 2 for discerning the recognition device 1 of carrying article information and being used for controlling and carry article direction of delivery, the transport article of this scheme is at first through the information of discerning the article of carrying of discerning 1 and carry this information to control system, control system carries out the classification to this transport article and carries out the road setting with this transport article again according to the information of discerning, feed back the road to letter sorting conveyer 2 last, after this transport article slides again to letter sorting conveyer 2, letter sorting conveyer 2 will carry article and sort out from main conveyer belt, get into other transfer passage or classify.

The information of the conveyed articles in this embodiment may be various, that is, the image captured by the camera 13 may be a barcode, a two-dimensional code or even an image of the conveyed articles, and the information control system may obtain the information of the type, destination, specification and size of the conveyed articles, and may complete the classification of the conveyed articles according to the set classification rules. In the present embodiment, a barcode of an article is taken as an example for description.

Meanwhile, in the packaging industry, the sizes and specifications of conveyed articles cannot be kept consistent, meanwhile, most of the existing conveying lines are automated, bar codes of the conveyed articles are usually attached by an automatic device, in such a case, the bar codes cannot be attached to a fixed position, and the bar codes can not be ensured to be right opposite to a camera device 13 when the conveyed articles are placed on a conveying belt 11 (the bar codes can be arranged on the side surface, obliquely above or even at the bottom of the conveyed articles), for the above situation, the camera recognition device 1 is arranged in the embodiment and comprises a plurality of conveying belts 11 connected end to end, a plurality of mounting frames 12 arranged above the plurality of conveying belts 11, a plurality of camera devices 13 arranged on the mounting frames 12 and used for shooting images of the conveyed articles, and a plurality of mirrors 14 used for assisting the camera devices 13 to shoot images, a plurality of camera device 13 is different angles and shoots transport article on the conveyer belt 11 and face one by one mirror 14 sets up, and a plurality of mirror 14 is fixed in mounting bracket 12 and with conveyer belt 11 is certain angle setting, and a plurality of mirror 14 throws the image of transport article extremely camera device 13. The mounting rack 12 is erected around the conveyor belt 11, and the plurality of cameras 13 are respectively arranged at different positions of the mounting rack 12, and part of the cameras are arranged at the top of the conveyor belt 11 to capture the conveyed articles on the conveyor belt 11 at different angles.

Preferably, in order to prevent some dead corners where the camera 13 cannot capture images, mirrors 14 are further disposed on two sides of the conveyor belt 11, and the camera 13 is disposed in one-to-one correspondence with the image positions refracted by the mirrors 14, so that the angles at which the camera 13 cannot capture images are clearly shown through the mirrors 14. Meanwhile, as mentioned above, when the conveyed articles are conveyed onto the conveyor belt 11 and the bar code is covered by the articles, the present embodiment is provided with the mirror 14 below the conveyor belt 11 in alignment with the gap, and the mirror 14 has the projection angle provided with the image pickup device 13, by leaving a gap between adjacent conveyor belts 11, and the gap is smaller than the minimum length of the conveyed articles (preventing the conveyed articles from falling from the gap, and at the same time ensuring that the adjacent conveyor belts 11 can carry the conveyed articles end to end without affecting the conveyance of the articles behind). Through this setting, guarantee can the omnidirectional acquire the image information who carries article, guarantee that control system can accomplish the design of carrying the road and follow-up smooth going on of letter sorting flow.

Preferably, in this embodiment, the camera recognition device 1 is formed by splicing a plurality of conveyor belts 11, the conveyor belts 11 have different conveying speeds, the conveying speed of the conveyor belt 11 at the front end is greater than that of the conveyor belt 11 located in the camera recognition device 1, and the rotating speed of the conveyor belt 11 at different stages of the camera recognition device 1 is reduced by adjusting, so that the conveyed objects can be clearly captured by the camera device 13 to obtain useful information at the stage, and meanwhile, the stacked conveyed objects are separated from each other by the distance, thereby preventing two conveyed objects from entering the camera recognition stage at the same time and affecting the accuracy of information acquisition. Although the scheme can also adopt only one section of the conveyor belt 11 and set the rotating speed of the conveyor belt 11 to be lower so as to meet the image shooting in the shooting and identifying stage, if the situation is the case, the conveying time is prolonged, the camera device 13 and the rear sorting and conveying device 2 both have larger empty window periods, and the conveying efficiency is lower.

Meanwhile, due to the arrangement of the plurality of conveyors 11 with different rotating speeds, conveyed articles can be deviated at the alternate positions of the two conveyors 11 due to the different rotating speeds of the front conveyor 11 and the rear conveyor 11. For this, a plurality of baffles 5 for preventing the conveyed articles from falling are provided on both sides of the conveyor belt 11, and the baffles 5 ensure smooth proceeding of the subsequent process.

Preferably, after the flow of the image pickup and recognition device 1 is completed, the control system receives the information of the conveyed article and performs route planning, and when entering the front end of the sorting and conveying device 2, the control system can make the sorting and conveying device 2 carry out one-time pre-guiding conveying (the sorting and conveying process is generally to convey the conveyed articles out from the two sides of the module belt 22, the conveyed articles positioned in the middle or on the other side can be guided to one side of a destination firstly through the pre-guiding conveying, the conveying time is saved, the efficiency is improved, meanwhile, the conveyed articles can be accurately conveyed to a target channel, baffle plates 5 are also arranged on the two sides of the module belt 22 of the pre-guiding conveying section, the conveyed articles can be prevented from directly falling on the two sides of the module belt 22 in the pre-guiding process, better classification of the conveyed articles can be ensured, and damage to the conveyed articles is prevented.

The sorting and conveying device 2 in this embodiment includes a conveying frame 21, a module belt 22 and a plurality of jacking driving devices 3 for activating the module belt 22, two ends of the conveying frame 21 are respectively provided with a driving shaft 211 for being connected with a motor, and the middle part of the conveying frame is provided with an accommodating cavity 213 for accommodating the jacking driving devices 3, and the jacking driving devices 3 are arranged below the accommodating cavity 213 and the conveying section of the module belt 22. The conveyed objects are placed above the module belt 22 in the conveying, sorting and conveying process, and do main conveying motion along the conveying direction of the module belt 22, meanwhile, the control system makes the plan of the conveying route according to the information of the conveyed objects which is equipped corresponding to the front-end camera shooting identification device 1, when the conveyed objects reach the position to be sorted, the lifting driving device 3 below the conveying section (the section bearing the conveyed objects) of the module belt 22 starts to lift upwards, at the moment, the modules on the module belt 22 are activated, and the conveyed objects can be sorted and discharged from any side of the module belt 22 after the modules are operated.

In this embodiment, the module belt 22 is formed by splicing a plurality of conveyor belt modules (in the drawing, only a part of the modules are illustrated due to the inconvenience of pattern conversion, and the module belt 22 should be a ring-shaped module which is fully paved on the whole sorting and conveying section), the conveyor belt modules include a sheet 221, a rotating shaft 222, rollers 223 and a first bearing 224, the sheet 221 is provided with a roller groove 225, the two ends of the rollers 223 are nested with the first bearing 224, and the rotating shaft 222 penetrates through the rollers 223 and the first bearing 224 and enables the rollers 223 to be rotatably arranged in the roller groove 225. Through the above design, the rotating shaft 222 is fixed in the roller groove 225 and does not rotate, the shaft 41 bearing 224 is mounted on the rotating shaft 222, the inner ring of the first bearing 224 is tightly sleeved on the rotating shaft 222, and the roller 223 is tightly sleeved on the outer ring of the first bearing 224; the inner ring and the outer ring of the first bearing 224 can roll relatively, so that the roller 223 can still ensure good rotation on the rotating shaft 222, and ensure the original function of driving and conveying articles. The roller 223, the first bearing 224 and the rotating shaft 222 are in close fit, no gap exists, mutual looseness cannot occur among positions, and the roller 223 cannot frequently collide with the rotating shaft 222 due to the gravity of goods in the goods transmission process, so that the vibration and the noise of the whole conveying belt are effectively reduced, and the field working environment is improved; secondly, the installation mode reduces the abrasion between the roller 223 and the rotating shaft 222 caused by the original gap, greatly prolongs the service life of the conveyor belt module, and has longer maintenance and replacement period of parts.

Preferably, the rolling direction of the roller 223 and the conveying direction of the module belt 22 are set at a certain angle, and the rolling direction of the roller 223 is the direction for conveying the objects to be sorted, and the included angle formed between the direction and the conveying direction of the module belt 22 can ensure that the conveyed objects cannot be conveyed forwards along the module belt 22 during sorting and conveying.

Preferably, a plurality of stripes 3421 for increasing friction force are disposed on the side wall of the rotating drum 342, and when the rotating drum 342 abuts against the roller 223, the module belt 22 transmits the generated friction force to drive the roller 223 and the rotating drum 342 to rotate.

In this embodiment, the module belt 22 is annular and passes around the driving shafts 211 at both ends, and the return segment of the module belt 22 (i.e., the module belt 22 rotates to the lower end portion of the driving shaft 211 and does not carry the conveyed articles) does not contact with the driving shaft 211, which reduces the contact area between the module belt 22 and the driving shaft 211 as much as possible and drives the module belt 22 only by the outer diameter of about one fourth of the driving shaft 211, compared with the conventional module belt 22, so that the noise generated by friction between the module belt 22 and the driving shaft 211 is greatly reduced.

Meanwhile, due to the above design, in order to prevent the return section of the module belt 22 from contacting the driving shaft 211, the length of the module belt 22 is longer than before, and the module belt can be rotated to the lower part of the driving shaft 211 by self weight and tension allowance to prevent the module belt 22 from contacting. However, this also results in the module belt 22 slipping due to insufficient tension, which affects the normal transport of the transported articles, for which purpose the sorting conveyor 2 further comprises return idlers 4 for supporting the module belt 22, the return idlers 4 being arranged in the accommodating chamber 213 and supporting the return section of the module belt 22. Wherein the return idler 4 is same horizontal line and the mutual interval sets up, the return idler 4 includes the perpendicular to installation axle 41 and a plurality of rotatable settings that the module area 22 direction of delivery set up in install epaxial pulley 42 of axle 41, pulley 42 with module area 22 direct contact. Through the arrangement of the return idler wheels 4, the module belt 22 can keep good tension, and the phenomenon of skidding cannot occur.

Preferably, the driving shaft 211 is provided with a plurality of rotating discs 212, the side wall of the rotating discs 212 is divided into a plurality of teeth 2121 at intervals, the back of the sheet 221 is provided with a plurality of slots 226 adapted to the teeth 2121, and when the driving shaft 211 rotates, the plurality of teeth 2121 and the slots 226 are configured to drive the module belt 22 to rotate. The same is true of the design to reduce the contact area of the modular belt 22 with the drive shaft 211, which is achieved by the engagement of the teeth 2121 with the pockets 226 of the sheet 221 during rotation of the drive shaft 211. Further, the rotating disks 212 can be disposed only at the two ends of the driving shaft 211, so as to reduce the contact area with the module belt 22 by reducing the number of disks, thereby achieving the noise reduction effect.

The jacking driving device 3 in this embodiment includes a jacking plate 31, a power device 33 for driving the jacking plate 31 to go up and down, a transmission mechanism 32 for connecting the jacking plate 31 and the power device 33, and a plurality of roller modules 34 fixed on the jacking plate 31, each roller module 34 includes a plurality of fixed U-shaped frames 341 arranged on the jacking plate 31 and a plurality of rotary drums 342 correspondingly and rotatably arranged on the U-shaped frames 341, and the rotary drums 342 are all arranged in parallel and are acute angles β with the arrangement direction of the rollers 223. The jacking driving devices 3 in the present scheme are multiple and all arranged in the accommodating cavity 213 and located below the conveying section of the module belt 22, when conveyed articles reach a channel to be sorted, the power device 33 drives the transmission mechanism 32 to drive the lifting plate 31 to lift upwards, at the moment, the roller module 34 on the lifting plate 31 also moves upwards until the rotating cylinder 342 abuts against the roller 223 on the module belt 22, at the moment, because the module belt 22 has power in the main conveying direction and the rotating cylinder 342 forms a certain angle beta with the arrangement direction of the roller 223, so that the module belt 22 has a forward component force acting on the rotary cylinder 342 to drive the rotary cylinder 342 to rotate, meanwhile, the rotating cylinder 342 is abutted against the roller 223, the roller 223 starts to rotate under the action of friction force, and the conveyed articles on the module belt 22 start to move along with the rotation direction of the roller 223, so that the purpose of sorting is achieved.

Preferably, both ends of the rotating cylinder 342 are recessed inwards to form a cylindrical groove, a second bearing 343 is nested in the cylindrical grooves at both ends, an outer ring of the second bearing 343 is fixedly connected with the rotating cylinder 342, and an inner ring of the second bearing 343 is fixedly sleeved on both ends of the U-shaped frame 341. Because the back is moved upwards to the jacking board 31, in order to rotate a section of thick bamboo 342 and directly to butt the running roller 223 of module area 22, the distance of ascending of jacking board 31 can be longer than the distance between the actual rotatory section of thick bamboo 342 and the running roller 223, consequently also lead to rotatory section of thick bamboo 342 after bearing the weight of upper module area 22, can extrude the rotatory section of thick bamboo 342 of U type frame 341 and cause great noise when rotating, and through the setting of above-mentioned second bearing 343, alright reduce the frictional force between rotatory section of thick bamboo 342 and the U type frame 341, make rotatory section of thick bamboo 342 rotate more smoothly and smooth, reach the effect of making an uproar, also can increase the life of rotatory section of thick bamboo 342 and U type frame 341 simultaneously.

Preferably, the rolling direction of the roller 223 is perpendicular to the conveying direction of the module belt 22, and this arrangement makes the rotating direction of the roller 223 on the module belt 22 perpendicular to the main conveying direction when performing the sorting process, so that the conveyed articles can be accurately sorted and discharged from the side of the module belt 22. Meanwhile, the arrangement directions of the rotating cylinders 342 in the adjacent jacking driving devices 3 can be the same or mirror image arrangement, and the acute angle beta is 40-80 degrees. Because the rolling direction of the roller 223 is perpendicular to the conveying direction of the module belt 22, that is, the length direction of the roller 223 is arranged along the conveying direction of the module belt 22, the rotating cylinder 342 and the roller 223 are not parallel to each other due to the existence of the included angle, and the rotating cylinder 342 forms a certain angle with the main conveying direction of the module belt 22, so that when the rotating cylinder 342 contacts the module belt 22, the rotating cylinder starts to rotate due to the component force of the main conveying direction, and the roller 223 on the module belt 22 starts to rotate.

The embodiment of the present invention for driving the lifting plate 31 to move upwards is various, and the various embodiments are all within the protection scope of the present invention, and the following is an achievable embodiment: the power device 33 is a motor, the transmission mechanism 32 includes a sliding rod 321 fixed in the accommodating cavity 213, a plurality of linear bearings 322 slidably disposed on the sliding rod 321, a push plate 323 fixedly disposed above the plurality of linear bearings 322, an eccentric wheel 324 fixed with the motor shaft 222, and a push rod 325 connecting the push plate 323 and the eccentric wheel 324, two ends of the push rod 325 are respectively hinged to the push plate 323 and the eccentric wheel 324, a rubber-covered bearing 326 is disposed above the push plate 323, a fixed frame 311 is disposed at the bottom of the lifting plate 31, a strip-shaped guide groove 3111 is disposed on the fixed frame 311, the heights of the limit positions at two ends of the strip-shaped guide groove 3111 are different, and the rubber-covered bearing 326 can reciprocate in the strip-shaped guide groove 3111 to reach the limit positions at two ends of the strip-shaped guide groove 3111.

When sorting is needed, when the motor rotates, the eccentric wheel 324 on the conveying shaft of the motor also rotates and drives the push rod 325 to move forward, the push rod 325 also pushes the push plate 323 to slide along the sliding rod 321, at this time, the rubber-covered bearing 326 on the push plate 323 slides to a higher extreme limit along the strip-shaped guide groove 3111, and drives the lifting plate 31 to lift upwards so that the rotating cylinder 342 contacts the module belt 22. After the sorting process is finished, the motor continues to rotate to drive the eccentric wheel 324 to rotate to pull the push rod 325 backwards, at this time, the push plate 323 also retreats along the sliding rod 321, the rubber-covered bearing 326 on the push plate 323 slides to a lower limit position along the strip-shaped guide groove 3111, and the jacking plate 31 descends to ensure that the rotary cylinder 342 does not contact the module belt 22.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (9)

1. The utility model provides a silence module area conveyor which characterized in that: the device comprises a camera identification device for identifying information of conveyed objects and a sorting and conveying device for controlling the conveying direction of the conveyed objects;

the camera shooting identification device comprises a plurality of conveyor belts connected end to end, a mounting rack arranged above the conveyor belts, a plurality of camera shooting devices arranged on the mounting rack and used for shooting images of conveyed objects and a plurality of mirrors used for assisting the camera shooting devices to shoot the images, wherein the plurality of camera shooting devices shoot the conveyed objects on the conveyor belts at different angles and are arranged facing the mirrors one by one, the plurality of mirrors are fixed on the mounting rack and arranged at a certain angle with the conveyor belts, and the plurality of mirrors project the images of the conveyed objects to the camera shooting devices;

the sorting and conveying device comprises a conveying rack, a module belt and a plurality of jacking driving devices for activating the module belt, wherein two ends of the conveying rack are respectively provided with a driving shaft for being connected with a motor, the middle part of the conveying rack is provided with an accommodating cavity for accommodating the jacking driving devices, the module belt is annular and bypasses the driving shafts at the two ends, a return section of the module belt is not contacted with the driving shaft, and the jacking driving devices are arranged in the accommodating cavities and positioned below the module belt conveying section; the module belt is formed by splicing a plurality of conveying belt modules, each conveying belt module comprises a sheet, a rotating shaft, a roller and a first bearing, a roller groove is formed in the sheet, the first bearings are nested at two ends of the roller, the rotating shaft penetrates through the roller and the first bearings, the roller can be rotatably arranged in the roller groove, and the rolling direction of the roller and the conveying direction of the module belt are arranged at a certain angle;

the driving shaft is provided with a plurality of rotating discs, a plurality of convex teeth are distributed on the side wall of each rotating disc at intervals in an annular mode, the back of each sheet is provided with a clamping groove matched with the corresponding convex teeth, and when the driving shaft rotates, the plurality of convex teeth and the clamping grooves drive the module belt to rotate;

the jacking driving device comprises a jacking plate, a power device used for driving the jacking plate to lift, a transmission mechanism used for connecting the jacking plate and the power device, and a plurality of roller modules fixed on the jacking plate.

2. The silent module belt conveyor as claimed in claim 1, wherein: the sorting and conveying device further comprises a plurality of return riding wheels for supporting the module belt, and the return riding wheels are arranged in the accommodating cavity and support a return section of the module belt.

3. A silent module belt conveyor as claimed in claim 2 wherein: the return-stroke riding wheel is same water flat line and the mutual interval sets up, the return-stroke riding wheel includes the perpendicular to the installation axle and a plurality of rotatable settings that module area direction of delivery set up in install epaxial pulley, the pulley with module area direct contact.

4. The silent module belt conveyor as claimed in claim 1, wherein: the roller module comprises a plurality of fixed U-shaped frames arranged on the jacking plate and a plurality of rotary cylinders arranged on the U-shaped frames in a corresponding rotatable mode, wherein two ends of each rotary cylinder are fixed on the U-shaped frames through second bearings, and the rotary cylinders are arranged in parallel and are arranged at acute angles beta with the arrangement direction of the rollers.

5. The silent module belt conveyor as claimed in claim 4, wherein: the rolling direction of the roller is perpendicular to the conveying direction of the module belt, the arrangement directions of the rotating cylinders in the adjacent jacking driving devices can be the same or mirror image arrangement, and the acute angle beta is 40-80 degrees.

6. The silent module belt conveyor as claimed in claim 4, wherein: be equipped with a plurality of stripes that are used for increasing frictional force on the lateral wall of rotatory section of thick bamboo, rotatory section of thick bamboo is contradicted during the running roller, the frictional force that the module area was carried and is produced drives running roller and rotatory section of thick bamboo rotate.

7. The silent module belt conveyor as claimed in claim 4, wherein: the power device is a motor, the transmission mechanism comprises a sliding rod, a plurality of slidable sliding rods, a plurality of linear bearings, a push plate, an eccentric wheel and a push rod, the sliding rod is fixed in the accommodating cavity, the linear bearings are arranged on the sliding rod, the push plate is fixedly arranged above the linear bearings, the eccentric wheel is fixed to a motor rotating shaft, the push rod is connected with the push plate and the eccentric wheel, two ends of the push rod are hinged to the push plate and the eccentric wheel respectively, a rubber-coated bearing is arranged above the push plate, a fixing frame is arranged at the bottom of the jacking plate, a bar-shaped guide groove is formed in the fixing frame, the heights of the limit positions at two ends of the bar-shaped guide groove are different, and the motor can drive the rubber-coated bearing to slide along the bar-shaped guide groove to realize the lifting reciprocating movement of the jacking plate.

8. The silent module belt conveyor as claimed in claim 1, wherein: the conveying speeds of the conveying belts are different, the conveying speed of the front end of each conveying belt is larger than that of the corresponding conveying belt located on the camera shooting identification device, and a plurality of baffles used for preventing conveyed articles from falling are arranged on two sides of each conveying belt.

9. The silent module belt conveyor as claimed in claim 1, wherein: there is the clearance adjacent between the conveyer belt, the clearance is less than the big or small width of transported substance article, the conveyer belt below is aimed at the clearance still is equipped with the mirror, the mirror throws the angle and is equipped with camera device.

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