CN212173665U - Connecting machine capable of transmitting guide - Google Patents

Abstract

The utility model relates to a material conveyor field, especially a can transmit junctor of direction. The utility model discloses a relatively set up two sets of guides on the mount table, every group guide includes synchronous slide rail, synchronous slide block, synchronous mounting, the connecting plate, extension board and guide roller, set up the hold-in range through synchronous motor drive in addition on the mount table, thereby make guide roller slide on synchronous slide rail under the effect of hold-in range, and further set up the transmission pivot and help the cover establishment piece that are used for transmitting the plate on the mount table, thereby realize transmission and direction, through setting up connecting device, thereby can also connect two equipment that exist the discrepancy in elevation. It can be rectified effectively and spacing to being located the plate on supports such as cylinder, gyro wheel to make the product transport between two conveyor that have the difference in height, make the plate can stabilize, swiftly and accurately arrive and wait to process the region or go up the unloading region.

Description

Connecting machine capable of transmitting guide

Technical Field

The utility model relates to a material conveyor field, especially a can transmit junctor of direction.

Background

Before and after the film coating and cleaning of the light guide plate and other plates by the film coating machine and the cleaning machine, the light guide plate may be in an incorrect position before and after the film coating or cleaning due to the fact that the light guide plate and other plates are inclined when being placed, thereby causing the conditions of coating film dislocation, unclean cleaning or abnormal blanking caused by the dislocation of the plates such as the light guide plate and the like, which often need rework treatment after the conditions occur, the reworking treatment wastes time and labor, and the coated wire body and the cleaning wire body can not normally run under serious conditions, so that the plates such as the light guide plate can be well limited, has extremely important influence on the film covering, cleaning and blanking of plates such as a light guide plate and the like, and various conveying devices are combined in a linear form at present, because conveying equipment often has the difference in height in the line body, consequently often need be equipped with the manpower or the manipulator of high price carries out the transportation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can transmit junctor of direction can rectify effectively and spacing to being located the plate on supports such as cylinder, gyro wheel to make the product transport between two conveyor that have the difference in height, make the plate can stabilize, swiftly and accurately arrive and treat the processing area or go up the unloading region.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the connecting machine capable of transmitting the guide comprises a synchronous guide feeding device and connecting equipment located on at least one side of a material placing side or a material discharging side of the synchronous guide feeding device, wherein the connecting equipment is used for connecting the synchronous guide feeding device with a conveying device, the synchronous guide feeding device comprises an installation table and installation side plates, the two installation side plates are respectively arranged on two sides of the installation table, a plurality of transmission rotating shafts are connected between the two installation side plates in an equidistant rotating mode along the horizontal direction, the same end of each transmission rotating shaft is respectively connected with a belt pulley, a transmission belt is arranged on each belt pulley, one belt pulley is connected with a transmission motor, a boosting sleeve part is fixedly connected onto each transmission rotating shaft, a group of guide parts are arranged at the positions close to the two installation side plates, each group of guide parts respectively comprises a synchronous slide rail, a synchronous slide block, a synchronous fixing, The connecting plate, the extending plate and the guide rollers, two parallel synchronous slide rails are respectively arranged in each group of guide pieces, the synchronous slide rails are respectively provided with synchronous slide blocks, the two synchronous slide blocks are connected with a connecting plate, the connecting plate is provided with extension plates in the same direction, the extension plates are evenly provided with a plurality of guide rollers at equal intervals, the guide roller is positioned between the boosting sleeve parts, the height of the guide roller is higher than that of the boosting sleeve parts, two synchronous belt wheels are horizontally arranged on the mounting table, synchronous belts are arranged on the two synchronous belt wheels, the moving direction of the synchronous belt is parallel to the synchronous slide rail, one synchronous belt wheel is connected with a synchronous motor, the connecting plates in the two groups of guide pieces are respectively connected with synchronous fixing pieces, and the two synchronous fixing pieces are respectively arranged in areas with opposite moving directions of the synchronous belts.

In the connecting machine capable of transmitting guidance, the boosting sleeve component is a roller coaxially and fixedly sleeved on the transmission rotating shaft.

In the connecting machine capable of transmitting guidance, the boosting sleeve is a roller, and the plurality of rollers are fixedly sleeved on the transmission rotating shaft at equal intervals.

The connecting device capable of transmitting and guiding comprises a support frame, a first support plate, a second support plate and a rotary conveying assembly, wherein the support frame is hung on the feeding side or the discharging side of the synchronous guiding feeding device, the support frame is provided with the pair of first support plates and the pair of second support plates, the rotary conveying assembly comprises support side plates, a transmission rotating shaft, a transmission belt and a transmission motor, the two ends of the two support side plates are rotatably connected with the transmission rotating shaft, the transmission rotating shaft is detachably connected with a plurality of rotating wheels which are uniformly distributed at equal intervals through bolts, the rotating wheels on the two transmission rotating shafts are connected through the transmission belt, the support side plate between the two transmission rotating shafts is also rotatably connected with a plurality of driven rollers, one transmission rotating shaft is rotatably connected with the two first support plates and is connected with the transmission motor, the two supporting side plates are positioned outside the two first supporting side plates and in the two second supporting side plates, and supporting blocks for limiting the supporting side plates are arranged in the second supporting plates in a sliding mode.

Aforementioned junctor that can transmit direction still includes fixed plate, conveying belt wheel and conveyor belt, the fixed plate can be dismantled the connection through the bolt and support on the curb plate, the transmission motor can be dismantled the connection through the bolt and on the fixed plate, transmission motor and rotation are connected and are all connected with conveying belt wheel in the transmission pivot in first backup pad, the last conveyor belt that is provided with of conveying belt wheel.

According to the connecting machine capable of transmitting the guide, the second supporting plate is provided with the limiting clamping groove in the vertical direction, and the two supporting blocks are detachably connected in the limiting clamping groove through bolts respectively.

In the connecting machine capable of transmitting guidance, the two supporting blocks are connected with a synchronous plate.

In the connecting machine capable of transmitting and guiding, the rotation assisting cylinder is connected below the synchronous plate.

According to the connecting machine capable of transmitting guide, the clamping plates are further connected between the supporting side plates.

Compared with the prior art, the utility model discloses an useful part lies in:

1) the utility model provides a connecting machine capable of transmitting guide, which can effectively correct and limit plates on supports such as a roller and a roller, and can transfer products between two conveying devices with height difference, so that the plates can stably, quickly and accurately reach areas to be processed or areas for loading and unloading;

2) the boosting sleeve is arranged as the roller, so that the stress area is large, and the plate can be stably and effectively transported;

3) the boosting sleeve is set to be the roller, and the plurality of rollers are fixedly sleeved on the transmission rotating shaft at equal intervals, so that the contact area with the plate is smaller, the abrasion to the plate is reduced, and the dust attached to the plate can be reduced due to the smaller contact area, so that the plate can be better cleaned;

4) the mounting table is provided with a row of limiting threaded holes parallel to the guide slide rail, the limiting threaded holes are uniformly distributed at equal intervals, the limiting threaded holes are detachably connected with limiting blocks through bolts, and the limiting blocks are interfered with the guide slide blocks positioned on the sliding path, so that the stroke of the guide slide blocks on the guide slide rail can be preset at different positions of the limiting threaded holes through the limiting blocks, and the plate can be better corrected and limited; the distance sensor is arranged to further monitor the moving distance of the guide roller;

5) the guide roller is arranged to comprise the support shaft, the bearing and the guide sleeve, so that the guide sleeve can rotate on the bearing better, the friction coefficient is lower, and the collision and the abrasion between the plate and the sleeve can be effectively reduced;

6) the synchronous fixing piece is arranged in a mode that the clamping light plate, the clamping plate and the clamping top plate are mutually connected, the clamping light plate and the clamping plate can clamp the synchronous belt, and the clamping light plate is fixed on the connecting plate through the clamping top plate, so that the guide rollers relatively fixed on the connecting plate can slide along the arrangement direction of the guide slide rail under the transmission action of the synchronous belt, and the correction and the limitation of the plate are finally realized;

7) the side face of the guide sleeve is surrounded with the annular clamping groove at equal intervals, so that the guide sleeve can correct the plate and limit the plate in the vertical direction while limiting the plate in the horizontal direction.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention;

fig. 2 is a schematic structural diagram of embodiment 2 of the present invention;

FIG. 3 is a schematic structural view of two sets of guides of the present invention;

FIG. 4 is an enlarged view A of FIG. 3;

FIG. 5 is a schematic view of the structure at the guide roller;

fig. 6 is a schematic structural diagram of the connection device of the present invention;

fig. 7 is a schematic view of the structure at the support block in the connecting device.

The meaning of the reference numerals: 401. a support frame; 402. a first support plate; 403. a second support plate; 404. a rotating transfer assembly; 405. supporting the side plates; 406. a transmission rotating shaft; 407. a transfer belt; 408. a transmission motor; 409. a rotating wheel; 410. a driven drum; 411. a support block; 412. a fixing plate; 413. a conveyor belt pulley; 414. a conveyor belt; 415. a limiting clamping groove; 416. A synchronization board; 417. a rotation-assisting cylinder; 418. clamping a plate; 1. a guide member; 2. a synchronous slide rail; 3. a synchronous slide block; 4. a synchronous fixing member; 5. a connecting plate; 6. an extension plate; 7. a guide roller; 8. a synchronous pulley; 9. a synchronous belt; 10. a synchronous motor; 11. A limiting threaded hole; 12. a limiting block; 13. a support shaft; 14. a bearing; 15. a guide sleeve; 16. an annular neck; 17. clamping a light plate; 18. a clamping plate; 19. clamping the top plate; 20. a distance sensor; 21. an installation table; 22. installing a side plate; 23. a transmission rotating shaft; 24. a belt pulley; 25. a drive belt; 26. a drive motor; 27. a boost sleeve; 28. a synchronous guiding feeding device; 29. and connecting the equipment.

The present invention will be further described with reference to the accompanying drawings and the detailed description.

Detailed Description

Embodiment 1 of the utility model: a connecting machine capable of transmitting guide comprises a synchronous guide feeding device 28 and a connecting device 29 located on at least one side of the feeding side or the discharging side of the synchronous guide feeding device 28, wherein the connecting device 29 connects the synchronous guide feeding device 28 with a conveying device, the synchronous guide feeding device 28 comprises an installation table 21 and installation side plates 22, two installation side plates 22 are respectively arranged on two sides of the installation table 21, a plurality of transmission rotating shafts 23 are rotatably connected between the two installation side plates 22 at equal intervals along the horizontal direction, the same ends of the transmission rotating shafts 23 are respectively connected with belt pulleys 24, transmission belts 25 are arranged on the belt pulleys 24, one belt pulley 24 is connected with a transmission motor 26, and a boosting sleeve part 27 is fixedly connected on the transmission rotating shaft 23, a group of guide parts 1 are respectively arranged near the two installation side plates 22, each group of guide parts 1 comprises a synchronous slide rail 2, a synchronous slide block 3, a synchronous fixing part 4, a connecting plate 5, an extension plate 6 and guide rollers 7, two parallel synchronous slide rails 2 are respectively arranged in each group of guide parts 1, the synchronous slide rails 2 are respectively provided with the synchronous slide blocks 3, the two synchronous slide blocks 3 are connected with the connecting plate 5, the extension plates 6 are arranged on the connecting plate 5 in the same direction, a plurality of guide rollers 7 are uniformly arranged on the extension plates 6 at equal distances, the guide rollers 7 are positioned between the boosting sleeve parts 27, the height of the guide rollers 7 is higher than that of the boosting sleeve parts 27, two synchronous belt 9 wheels 8 are horizontally arranged on the installation table 21, synchronous belts 9 are arranged on the two synchronous belt 9 wheels 8, the moving direction of the synchronous belts 9 is parallel to the synchronous slide rails 2, one of them hold-in range 9 wheel 8 is connected with synchronous machine 10, connecting plate 5 in two sets of guides 1 is connected with synchronous mounting 4 respectively, two synchronous mounting 4 set up respectively in hold-in range 9 opposite direction's region of removal.

The boosting sleeve piece 27 is a roller which is coaxially and fixedly sleeved on the transmission rotating shaft 23, and the boosting sleeve piece 27 is arranged as the roller, so that the stress area is large, and the plate can be stably and effectively transported.

The mounting table 21 is provided with a row of limiting threaded holes 11 parallel to the guide sliding rail, the limiting threaded holes 11 are uniformly distributed at equal intervals, limiting blocks 12 are detachably connected to the limiting threaded holes 11 through bolts, the limiting blocks 12 interfere with the guide sliding blocks located on the sliding path, the mounting table 21 is provided with a row of limiting threaded holes 11 parallel to the guide sliding rail, the limiting threaded holes 11 are uniformly distributed at equal intervals, the limiting blocks 12 are detachably connected to the limiting threaded holes 11 through bolts, the limiting blocks 12 interfere with the guide sliding blocks located on the sliding path, and therefore the stroke of the guide sliding blocks on the guide sliding rail can be preset through the positions of the limiting blocks 12 on different limiting threaded holes 11, and plate correction and limiting can be better carried out; the connecting machine capable of transmitting the guide is characterized in that a distance sensor 20 is arranged between the two groups of guide pieces 1, and the distance sensor 20 is arranged to further monitor and limit the moving distance of the guide roller 7.

Guide roller 7 includes bearing 14 and guide sleeve 15, equidistant evenly is provided with back shaft 13 on extending board 6, back shaft 13 upper portion is rotated and is connected with bearing 14, bearing 14 outer lane cover is equipped with guide sleeve 15, guide sleeve 15's upper surface is higher than helping and impels cover establishment of parts 27, through setting up guide roller 7 to the form including back shaft 13, bearing 14 and guide sleeve 15 to make guide sleeve 15 can rotate better on bearing 14, coefficient of friction is lower, can effectively reduce collision and wearing and tearing between plate and the sleeve.

Synchronous fixing piece 4 includes centre gripping worn-out fur 17, grip block 18 and centre gripping roof 19, centre gripping worn-out fur 17 and grip block 18 centre gripping are on hold-in range 9, set up on the grip block 18 with hold-in range 9 insection assorted latch, centre gripping roof 19 is connected with centre gripping worn-out fur 17 and connecting plate 5 respectively, and through setting up synchronous fixing piece 4 to centre gripping worn-out fur 17, grip block 18 and the form of centre gripping roof 19 interconnect, centre gripping worn-out fur 17 and grip block 18 can press from both sides tight hold-in range 9, and centre gripping worn-out fur 17 fixes on the link through centre gripping roof 19 to can realize that the guide roller 7 on the link of relative fixation slides along the direction that sets up of guide slide under the drive effect of hold-in range 9, finally realize correction and spacing to the plate.

The side of guide sleeve 15 is equidistant to encircle and is provided with ring groove 16, encircles through the side at guide sleeve 15 and sets up ring groove 16 to make guide sleeve 15 can carry out vertical direction's spacing to the panel when proofreading and correct and the horizontal direction is spacing.

The connecting device 29, which is shown in detail in fig. 6 and 7, comprises a support frame 401, a first support plate 402, a second support plate 403 and a rotary conveying assembly 404, wherein the support frame 401 is hung on a mounting table 21 on the feeding side or the discharging side of the conveying device, the support frame 401 is provided with a pair of first support plates 402 and a pair of second support plates 403, the rotary conveying assembly 404 comprises support side plates 405, a transmission rotating shaft 406, a transmission belt 407 and a transmission motor 408, two ends of the two support side plates 405 are rotatably connected with the transmission rotating shaft 406, the transmission rotating shaft 406 is detachably connected with a plurality of rotating wheels 409 which are uniformly distributed at equal intervals through bolts, the rotating wheels 409 on the two transmission rotating shafts 406 are connected through the transmission belt 407, and the support side plate 405 between the two transmission rotating shafts 406 is also rotatably connected with a plurality of driven rollers 410, one of the transmission rotating shafts 406 is rotatably connected to the two first supporting plates 402 and is connected with a transmission motor 408, the two supporting side plates 405 are positioned outside the two first supporting side plates 405 and inside the two second supporting side plates 405, and the inner side of the second supporting plate 403 is slidably provided with a supporting block 411 for limiting the supporting side plates 405.

The height of the end, far away from the conveying device, of the rotary conveying assembly 404 can be freely adjusted by rotatably arranging the rotary conveying assembly 404 at one end of the conveying device, so that the height difference between the two conveying devices can be transited and transmitted through the rotary conveying assembly 404.

By arranging the rotary conveying assembly 404 between the supporting side plates 405, the conveying rotating shaft 406, the conveying belt 407 and the conveying motor 408 are arranged, so that the conveying motor 408 can drive the conveying belt 407 to convey products through the conveying rotating shaft 406, and the rotating conveying belt 407 is beneficial to conveying the products from a lower position to a higher position and reducing friction and other damages to the products in the conveying process.

Adapting to different transfer heights's jointing equipment 29, still include fixed plate 412, conveyor belt wheel 413 and conveyor belt 414, fixed plate 412 can dismantle the connection on supporting the curb plate 405 through the bolt, transmission motor 408 can dismantle the connection on fixed plate 412 through the bolt, transmission motor 408 all is connected with conveyor belt wheel 413 with rotating on the transmission pivot 406 of connecting on first backup pad 402, be provided with conveyor belt 414 on the conveyor belt wheel 413, through the rotatory one end that sets up at conveyor with rotatory conveying assembly 404, the one end that makes rotatory conveying assembly 404 keep away from conveyor can the free adjustment height to can pass through rotatory conveying assembly 404 with two conveyor's discrepancy in elevation and pass through and transmit.

The second supporting plate 403 is provided with a limiting clamping groove 415 along the vertical direction, the two supporting blocks 411 are detachably connected to the limiting clamping groove 415 through bolts respectively, the second supporting plate 403 is provided with the limiting clamping groove 415 along the vertical direction, and therefore the supporting blocks 411 can be directly arranged on the lower side of the second supporting plate 403 through the bolts, and the second supporting plate 403 is supported.

A synchronizing plate 416 is connected between the two supporting blocks 411, and the two supporting blocks 411 are connected with the synchronizing plate 416, so that the supporting blocks 411 can be maintained at the same horizontal height, and a better supporting effect is achieved on the supporting side plate 405 and the belt on the supporting side plate 405.

The auxiliary rotating cylinder 417 is connected below the synchronous plate 416, and the auxiliary rotating cylinder 417 is arranged below the synchronous plate 416, so that the auxiliary rotating cylinder 417 can lift the synchronous plate 416 and the supporting side plate 405 connected with the synchronous plate 416 in a high-low mode, the belt can be located at different heights conveniently and quickly, and the height difference between conveying devices is eliminated.

The support side plates 405 are also connected with a clamping plate 418, and the clamping plate 418 is arranged between the support side plates 405, so that the support side plates 405 and the conveying rotating shafts, the driven rollers 410 and the like on the support side plates 405 can be connected more stably.

Example 2: a connecting machine capable of transmitting guide comprises a synchronous guide feeding device 28 and a connecting device 29 positioned on at least one side of the feeding side or the discharging side of the synchronous guide feeding device 28, wherein the connecting device 29 connects the synchronous guide feeding device 28 with a conveying device, the synchronous guide feeding device 28 comprises an installation table 21 and installation side plates 22, two installation side plates 22 are respectively arranged on two sides of the installation table 21, a plurality of transmission rotating shafts 23 are rotatably connected between the two installation side plates 22 at equal intervals along the horizontal direction, belt pulleys 24 are respectively connected with the same end of each transmission rotating shaft 23, a transmission belt 25 is arranged on each belt pulley 24, one belt pulley 24 is connected with a transmission motor 26, a boosting sleeve part 27 is fixedly connected on each transmission rotating shaft 23, a group of guide parts 1 is respectively arranged at the position close to the two installation side plates 22, each group of guide parts 1 comprises a synchronous slide rail 2, a synchronous slide block 3, a synchronous fixing part 4, a connecting plate 5, an extension plate 6 and guide rollers 7, wherein two parallel synchronous slide rails 2 are respectively arranged in each group of guide parts 1, the synchronous slide rails 2 are respectively provided with the synchronous slide blocks 3, the two synchronous slide blocks 3 are connected with the connecting plate 5, the connecting plate 5 is provided with the extension plate 6 in the same direction, a plurality of guide rollers 7 are uniformly arranged on the extension plate 6 at equal distances, the guide rollers 7 are positioned between boosting sleeve parts 27, the height of the guide rollers 7 is higher than that of the boosting sleeve parts 27, two synchronous belt 9 wheels 8 are horizontally arranged on the installation table 21, synchronous belts 9 are arranged on the two synchronous belt 9 wheels 8, the motion direction of the synchronous belts 9 is parallel to the synchronous slide rails 2, one synchronous belt 9 wheel 8 is connected with a synchronous motor 10, the connecting plates 5 in the two groups of guide pieces 1 are respectively connected with synchronous fixing pieces 4, and the two synchronous fixing pieces 4 are respectively arranged in the areas with opposite moving directions of the synchronous belts 9.

The piece 27 is established to the boosting cover, a plurality of gyro wheel equidistant fixed cover is established on transmission pivot 23, establishes the piece 27 to the gyro wheel through establishing the boosting cover, and a plurality of gyro wheel equidistant fixed cover is established on transmission pivot 23 for the area with the plate contact is littleer, thereby reduces the wearing and tearing to the plate, and because area of contact is littleer, can reduce the plate and be stained with the dust that attaches, thereby can play clean effect betterly to the plate.

The mounting table 21 is provided with a row of limiting threaded holes 11 parallel to the guide sliding rail, the limiting threaded holes 11 are uniformly distributed at equal intervals, limiting blocks 12 are detachably connected to the limiting threaded holes 11 through bolts, the limiting blocks 12 interfere with the guide sliding blocks located on the sliding path, the mounting table 21 is provided with a row of limiting threaded holes 11 parallel to the guide sliding rail, the limiting threaded holes 11 are uniformly distributed at equal intervals, the limiting blocks 12 are detachably connected to the limiting threaded holes 11 through bolts, the limiting blocks 12 interfere with the guide sliding blocks located on the sliding path, and therefore the stroke of the guide sliding blocks on the guide sliding rail can be preset through the positions of the limiting blocks 12 on different limiting threaded holes 11, and plate correction and limiting can be better carried out; the connecting machine capable of transmitting the guide is characterized in that a distance sensor 20 is arranged between the two groups of guide pieces 1, and the distance sensor 20 is arranged to further monitor and limit the moving distance of the guide roller 7.

Guide roller 7 includes bearing 14 and guide sleeve 15, equidistant evenly is provided with back shaft 13 on extending board 6, back shaft 13 upper portion is rotated and is connected with bearing 14, bearing 14 outer lane cover is equipped with guide sleeve 15, guide sleeve 15's upper surface is higher than helping and impels cover establishment of parts 27, through setting up guide roller 7 to the form including back shaft 13, bearing 14 and guide sleeve 15 to make guide sleeve 15 can rotate better on bearing 14, coefficient of friction is lower, can effectively reduce collision and wearing and tearing between plate and the sleeve.

Synchronous fixing piece 4 includes centre gripping worn-out fur 17, grip block 18 and centre gripping roof 19, centre gripping worn-out fur 17 and grip block 18 centre gripping are on hold-in range 9, set up on the grip block 18 with hold-in range 9 insection assorted latch, centre gripping roof 19 is connected with centre gripping worn-out fur 17 and connecting plate 5 respectively, and through setting up synchronous fixing piece 4 to centre gripping worn-out fur 17, grip block 18 and the form of centre gripping roof 19 interconnect, centre gripping worn-out fur 17 and grip block 18 can press from both sides tight hold-in range 9, and centre gripping worn-out fur 17 fixes on the link through centre gripping roof 19 to can realize that the guide roller 7 on the link of relative fixation slides along the direction that sets up of guide slide under the drive effect of hold-in range 9, finally realize correction and spacing to the plate.

The side of guide sleeve 15 is equidistant to encircle and is provided with ring groove 16, encircles through the side at guide sleeve 15 and sets up ring groove 16 to make guide sleeve 15 can carry out vertical direction's spacing to the panel when proofreading and correct and the horizontal direction is spacing.

The connecting device 29, which is shown in detail in fig. 6 and 7, comprises a support frame 401, a first support plate 402, a second support plate 403 and a rotary conveying assembly 404, wherein the support frame 401 is hung on a mounting table 21 on the feeding side or the discharging side of the conveying device, the support frame 401 is provided with a pair of first support plates 402 and a pair of second support plates 403, the rotary conveying assembly 404 comprises support side plates 405, a transmission rotating shaft 406, a transmission belt 407 and a transmission motor 408, two ends of the two support side plates 405 are rotatably connected with the transmission rotating shaft 406, the transmission rotating shaft 406 is detachably connected with a plurality of rotating wheels 409 which are uniformly distributed at equal intervals through bolts, the rotating wheels 409 on the two transmission rotating shafts 406 are connected through the transmission belt 407, and the support side plate 405 between the two transmission rotating shafts 406 is also rotatably connected with a plurality of driven rollers 410, one of the transmission rotating shafts 406 is rotatably connected to the two first supporting plates 402 and is connected with a transmission motor 408, the two supporting side plates 405 are positioned outside the two first supporting side plates 405 and inside the two second supporting side plates 405, and the inner side of the second supporting plate 403 is slidably provided with a supporting block 411 for limiting the supporting side plates 405.

The height of the end, far away from the conveying device, of the rotary conveying assembly 404 can be freely adjusted by rotatably arranging the rotary conveying assembly 404 at one end of the conveying device, so that the height difference between the two conveying devices can be transited and transmitted through the rotary conveying assembly 404.

By arranging the rotary conveying assembly 404 between the supporting side plates 405, the conveying rotating shaft 406, the conveying belt 407 and the conveying motor 408 are arranged, so that the conveying motor 408 can drive the conveying belt 407 to convey products through the conveying rotating shaft 406, and the rotating conveying belt 407 is beneficial to conveying the products from a lower position to a higher position and reducing friction and other damages to the products in the conveying process.

Adapting to different transfer heights's jointing equipment 29, still include fixed plate 412, conveyor belt wheel 413 and conveyor belt 414, fixed plate 412 can dismantle the connection on supporting the curb plate 405 through the bolt, transmission motor 408 can dismantle the connection on fixed plate 412 through the bolt, transmission motor 408 all is connected with conveyor belt wheel 413 with rotating on the transmission pivot 406 of connecting on first backup pad 402, be provided with conveyor belt 414 on the conveyor belt wheel 413, through the rotatory one end that sets up at conveyor with rotatory conveying assembly 404, the one end that makes rotatory conveying assembly 404 keep away from conveyor can the free adjustment height to can pass through rotatory conveying assembly 404 with two conveyor's discrepancy in elevation and pass through and transmit.

The second supporting plate 403 is provided with a limiting clamping groove 415 along the vertical direction, the two supporting blocks 411 are detachably connected to the limiting clamping groove 415 through bolts respectively, the second supporting plate 403 is provided with the limiting clamping groove 415 along the vertical direction, and therefore the supporting blocks 411 can be directly arranged on the lower side of the second supporting plate 403 through the bolts, and the second supporting plate 403 is supported.

A synchronizing plate 416 is connected between the two supporting blocks 411, and the two supporting blocks 411 are connected with the synchronizing plate 416, so that the supporting blocks 411 can be maintained at the same horizontal height, and a better supporting effect is achieved on the supporting side plate 405 and the belt on the supporting side plate 405.

The auxiliary rotating cylinder 417 is connected below the synchronous plate 416, and the auxiliary rotating cylinder 417 is arranged below the synchronous plate 416, so that the auxiliary rotating cylinder 417 can lift the synchronous plate 416 and the supporting side plate 405 connected with the synchronous plate 416 in a high-low mode, the belt can be located at different heights conveniently and quickly, and the height difference between conveying devices is eliminated.

The support side plates 405 are also connected with a clamping plate 418, and the clamping plate 418 is arranged between the support side plates 405, so that the support side plates 405 and the conveying rotating shafts, the driven rollers 410 and the like on the support side plates 405 can be connected more stably.

The utility model discloses a theory of operation:

the utility model discloses a through set up two sets of guides 1 relatively on mount table 21, every group guide 1 includes synchronous slide rail 2, synchronous slide block 3, synchronous mounting 4, connecting plate 5, extension board 6 and guide roller 7, set up via synchronous machine 10 driven hold-in range 9 on mount table 21 in addition, thereby make guide roller 7 slide on synchronous slide rail 2 under the effect of hold-in range 9, and further set up transmission pivot 23 and the boosting cover setting 27 that is used for transmitting the plate on mount table 21, thereby realize transmission and direction, through setting up connecting device 29, thereby can also connect two equipment that have the difference in height, in order to form a connecting machine that can transmit the direction, can rectify effectively and spacing the plate that is located on supports such as cylinder, gyro wheel, and make the product transport between two conveyor that have the difference in height, make the plate can stabilize, Quickly and accurately reach the area to be processed or the loading and unloading area. The utility model sets the boosting sleeve part 27 as a roller, so that the stress area is large, and the plate can be stably and effectively transported; the boosting sleeve 27 is set to be a roller, and a plurality of rollers are fixedly sleeved on the transmission rotating shaft 23 at equal intervals, so that the contact area with the plate is smaller, the abrasion to the plate is reduced, and the dust attached to the plate can be reduced due to the smaller contact area, so that the plate can be better cleaned; the mounting table 21 is provided with a row of limiting threaded holes 11 parallel to the guide sliding rail, the limiting threaded holes 11 are uniformly distributed at equal intervals, the limiting blocks 12 are detachably connected in the limiting threaded holes 11 through bolts, and the limiting blocks 12 are interfered with the guide sliding blocks positioned on the sliding path, so that the strokes of the guide sliding blocks on the guide sliding rail can be preset through the positions of the limiting blocks 12 at different limiting threaded holes 11, and the plate is corrected and limited better; the distance sensor 20 is arranged to further monitor the moving distance of the guide roller 7; by arranging the guide roller 7 in a form including the support shaft 13, the bearing 14 and the guide sleeve 15, the guide sleeve 15 can better rotate on the bearing 14, the friction coefficient is lower, and the collision and the abrasion between the plate and the sleeve can be effectively reduced; the synchronous fixing piece 4 is arranged in a mode that the clamping light plate 17, the clamping plate 18 and the clamping top plate 19 are connected with each other, the clamping light plate 17 and the clamping plate 18 can clamp the synchronous belt 9, the clamping light plate 17 is fixed on the connecting plate through the clamping top plate 19, so that the guide roller 7 relatively fixed on the connecting plate can slide along the arrangement direction of the guide slide rail under the transmission action of the synchronous belt 9, and the plate is corrected and limited finally; through the equidistant ring groove 16 that encircles that sets up in the side at guide sleeve 15 to make guide sleeve 15 can carry out vertical direction's spacing to the panel when proofreading and horizontal direction is spacing to the panel.

Claims (9)

1. The connecting machine capable of transmitting the guide is characterized by comprising a synchronous guide feeding device (28) and connecting equipment (29) located on at least one side of the feeding side or the discharging side of the synchronous guide feeding device (28), wherein the connecting equipment (29) connects the synchronous guide feeding device (28) with a conveying device, the synchronous guide feeding device (28) comprises an installation table (21) and installation side plates (22), the two sides of the installation table (21) are respectively provided with one installation side plate (22), a plurality of transmission rotating shafts (23) are rotationally connected between the two installation side plates (22) at equal intervals along the horizontal direction, the same end of each transmission rotating shaft (23) is respectively connected with a belt pulley (24), the belt pulley (24) is provided with a transmission belt (25), one belt pulley (24) is connected with a transmission motor (26), and a boosting sleeve part (27) is fixedly connected to the transmission rotating shaft (23), a group of guide parts (1) are respectively arranged at positions close to the two installation side plates (22), each group of guide parts (1) comprises a synchronous slide rail (2), a synchronous slide block (3), a synchronous fixing part (4), a connecting plate (5), an extension plate (6) and guide rollers (7), two parallel synchronous slide rails (2) are respectively arranged in each group of guide parts (1), the synchronous slide rails (2) are respectively provided with the synchronous slide blocks (3), the two synchronous slide blocks (3) are connected with the connecting plate (5), the connecting plate (5) is provided with the extension plate (6) in the same direction, the extension plate (6) is uniformly provided with a plurality of guide rollers (7) at equal distance, the guide rollers (7) are positioned between the boosting sleeve parts (27), and the height of the guide rollers (7) is higher than that of the boosting sleeve parts (27), the utility model discloses a synchronous belt (9) and synchronous slide rail (2) are installed on installation platform (21), it is provided with two hold-in range (9) wheels (8) still to go back the level on mount table (21), be provided with hold-in range (9) on two hold-in range (9) wheels (8), the direction of motion of hold-in range (9) is parallel with synchronous slide rail (2), one of them hold-in range (9) wheel (8) are connected with synchronous machine (10), connecting plate (5) in two sets of guides (1) are connected with synchronous fixing part (4) respectively, two synchronous fixing part (4) set up respectively in hold-in range (.

2. Connecting machine capable of transmission guiding according to claim 1, characterised in that said thrust sleeve (27) is a roller coaxially fixed on the transmission shaft (23).

3. The connecting machine capable of transmitting guide according to claim 1, wherein the boosting sleeve member (27) is a roller, and the plurality of rollers are fixedly sleeved on the transmission rotating shaft (23) at equal intervals.

4. The connecting machine capable of transmitting the guide according to claim 2 or 3, wherein the connecting device (29) comprises a support frame (401), a first support plate (402), a second support plate (403) and a rotary transmission component (404), the support frame (401) is hung on the feeding side or the discharging side of the synchronous guide feeding device (28), the support frame (401) is provided with a pair of first support plates (402) and a pair of second support plates (403), the rotary transmission component (404) comprises a support side plate (405), a transmission rotating shaft (406), a transmission belt (407) and a transmission motor (408), the two ends of the two support side plates (405) are rotatably connected with the transmission rotating shaft (406), the transmission rotating shaft (406) is detachably connected with a plurality of rotating wheels (409) which are uniformly distributed at equal intervals through bolts, the rotating wheels (409) on the two transmission rotating shafts (406) are connected through the transmission belt (407), the supporting side plates (405) between the two transmission rotating shafts (406) are further rotatably connected with a plurality of driven rollers (410), one transmission rotating shaft (406) is rotatably connected to the two first supporting plates (402) and is connected with a transmission motor (408), the two supporting side plates (405) are positioned outside the two first supporting side plates (405) and in the two second supporting side plates (405), and the inner sides of the second supporting plates (403) are slidably provided with supporting blocks (411) for limiting the supporting side plates (405).

5. The connecting machine capable of transmitting the guide according to claim 4, further comprising a fixing plate (412), a conveying belt wheel (413) and a conveying belt (414), wherein the fixing plate (412) is detachably connected to the supporting side plate (405) through a bolt, the conveying motor (408) is detachably connected to the fixing plate (412) through a bolt, the conveying belt wheel (413) is connected to the conveying motor (408) and the conveying rotating shaft (406) rotatably connected to the first supporting plate (402), and the conveying belt wheel (414) is arranged on the conveying belt wheel (413).

6. The connecting machine capable of transmitting guide according to claim 5, wherein the second supporting plate (403) is provided with a limiting slot (415) along a vertical direction, and the two supporting blocks (411) are detachably connected in the limiting slot (415) through bolts respectively.

7. Connecting machine capable of transmitting guides according to claim 6, characterized in that a synchronizing plate (416) is connected between said two support blocks (411).

8. Connecting machine capable of transmitting guides according to claim 7, characterized in that a rotation-aiding cylinder (417) is connected below the synchronization plate (416).

9. Connecting machine capable of transmitting guides according to claim 8, characterized in that between said supporting side plates (405) there is also connected a clamping plate (418).

Images