CN210418642U - Transmission correcting device for conveyor - Google Patents

Abstract

The utility model relates to a transmission mechanism technical field that reforms discloses a transmission device that reforms for on conveyer, be in including supporting baseplate and parallel arrangement the support curb plate of supporting baseplate both sides, be provided with the transmission device who is used for the transmission in the middle of the supporting baseplate, the supporting baseplate is last and to be located transmission device's both sides parallel arrangement is used for the device that reforms of reforming, the device that reforms is on a parallel with the support curb plate sets up, be provided with the drive arrangement who is used for driving transmission device and reforms the device and carries out work on the support curb plate. The utility model discloses make the material can rectify through the transmission automatically from crooked state, and when proofreading and correct automatically through the mode of transmission, this transmission device of reforming transmits the operation continuously, need not shut down, makes the output in the unit interval improve to transmission production efficiency has been improved.

Description

Transmission correcting device for conveyor

Technical Field

The utility model relates to a transmission mechanism technical field that reforms especially relates to a transmission device that reforms for on conveyer.

Background

Most of the conveying and receiving machines in the current market adopt manual operation to perform material reforming; or adopt direction belt or cylinder extrusion technique to carry out the material and return, adopt direction belt or cylinder extrusion technique to carry out the material and return when correct, tablet ejection of compact back conveying to the position of returning, rethread direction belt or cylinder extrusion play the effect of returning. Although the two modes can correct the materials with small skew dimension, the problems of poor correction and low correction efficiency often occur when the skew dimension of the material sheet is large, so that the whole material receiving efficiency is influenced; in addition, the above two ways of material correction usually require stopping the machine to correct the material, so that the yield in unit time is reduced, and the productivity is affected to a certain extent.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a transmission device that reforms for on conveyer makes the material correct through the transmission can be automatic from crooked state, and when proofreading and correct through the mode of transmission is automatic, and this transmission device that reforms transmits the operation continuously, need not shut down, makes the output improvement in the unit interval to transmission production efficiency has been improved.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a transmission device that reforms for on conveyer, is in including supporting baseplate and parallel arrangement the support curb plate of supporting baseplate both sides, be provided with the transmission device who is used for the transmission in the middle of the supporting baseplate, the supporting baseplate is last and be located transmission device's both sides parallel arrangement has the device that reforms that is used for reforming, the device that reforms is on a parallel with the support curb plate sets up, be provided with the drive arrangement who is used for driving transmission device and reforms the device and carries out work on the support curb plate.

Further, the transmission device comprises an upper section transmission mechanism connected to the discharge end, a middle section transmission mechanism which is in contact with the upper section transmission mechanism and is parallel to the supporting bottom plate and a lower section transmission mechanism connected to the receiving end, wherein the lower section transmission mechanism is in contact with the middle section transmission mechanism, the upper section transmission mechanism is obliquely installed relative to the middle section transmission mechanism, and a certain included angle is formed between the upper section transmission mechanism and the middle section transmission mechanism.

Furthermore, the upper section transmission mechanism comprises a rotary connecting strip fixedly arranged between the upper section transmission mechanism and the supporting side plate, a rotary fixing seat is fixed on the rotary connecting strip, and the rotary fixing seat is installed on the driving device; the rotary connecting strip is also provided with an upper section supporting plate, one end of the upper section supporting plate is fixedly provided with an upper section shaft mounting seat, a first rotary shaft is mounted on the upper section shaft mounting seat, and a first upper belt pulley is mounted on the first rotary shaft; the driving device is provided with a second upper belt pulley, and the first upper belt pulley and the second upper belt pulley are in transmission connection with an upper belt.

Furthermore, the last first mounting hole of multiunit of having seted up along axial equidistance of swivelling joint strip, the middle multiunit second mounting hole of having seted up along axial equidistance of upper segment backup pad.

Further, middle section transmission device is including installing round belt action wheel and round belt on the drive arrangement are followed the driving wheel, round belt action wheel and round belt are followed the transmission and are connected with round belt from driving wheel.

Further, hypomere transmission device including install in drive arrangement is last first belt pulley and rotates the mount pad, the tip fixedly connected with lower backup pad of rotation mount pad, the backup pad is kept away from down the one end of rotating the mount pad is provided with the second axis of rotation, install belt pulley under the second in the second axis of rotation, belt pulley transmission is connected with down the belt under first belt pulley and the second.

Further, be provided with the journal stirrup in the backup pad, the one end of journal stirrup is fixed with branch, branch is connected on the journal stirrup that is located supporting baseplate, just logical groove has been seted up along the axial on the branch.

Furthermore, the correcting device comprises a correcting bottom plate and a correcting top plate which are arranged on the supporting bottom plate in parallel, three correcting shafts are arranged between the correcting bottom plate and the correcting top plate in parallel, a first correcting belt wheel, a second correcting belt wheel and a third correcting belt wheel are respectively arranged on the three correcting shafts, correcting belts are connected to the first correcting belt wheel, the second correcting belt wheel and the third correcting belt wheel in a transmission mode, a correcting driven wheel is coaxially arranged below the first correcting belt wheel, the correcting driven wheel is meshed with a correcting driving wheel, and the correcting driving wheel is arranged on the driving device.

Further, the first correcting pulley, the second correcting pulley and the third correcting pulley are not on the same straight line.

Further, drive arrangement includes driving motor, driving shaft and driven shaft all run through two and support the curb plate setting and rotate and install support the curb plate and be close to the position at both ends, the one end and the driving motor of driving shaft are connected, and its other end of keeping away from driving motor installs the action wheel, the one end of driven shaft install with the driven driving wheel of action wheel cooperation transmission, action wheel and driven epaxial transmission have drive belt, the number of teeth of action wheel is greater than from the number of teeth of driving wheel makes to form the speed difference between driving shaft and the driven shaft.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1) the utility model discloses make the material can rectify through the transmission automatically from crooked state, and when proofreading and correct automatically through the mode of transmission, this transmission device of reforming transmits the operation continuously, need not shut down, makes the output in the unit interval improve to transmission production efficiency has been improved.

2) The utility model has simple structure and convenient operation, and the driving control is carried out through two gears with different tooth numbers, namely the driving wheel and the driven wheel, so that the rotating speeds between the driving shaft and the driven shaft are different, thereby forming speed difference, further leading the transmission speeds of the upper-section transmission mechanism and the middle-section transmission mechanism to be different, and when the material falls down, the material is automatically corrected in the transmission process under the influence of the speed; meanwhile, the upper section transmission mechanism is obliquely arranged relative to the middle section transmission mechanism, a certain included angle is formed between the upper section transmission mechanism and the middle section transmission mechanism, a certain height difference is formed between the upper section transmission mechanism and the middle section transmission mechanism, and the upper section transmission mechanism moves from a high position to a low position in the material transmission process due to the influence of the height difference; the material will be automatically corrected from a skewed appearance.

3) The utility model discloses the cooperation degree of difficulty is low, and installation low in manufacturing cost, its whole transmission return device drive the action wheel that two tooth counts are different simultaneously by servo drive motor and carry out drive work from the driving wheel, have reduced the cooperation degree of difficulty of speed difference between each device, and the running performance is high.

4) The utility model discloses seted up multiunit second mounting hole along axial equidistance in the middle of the upper segment backup pad, according to the high difference of discharge end, the inclination that the installation formed between upper segment transmission device and the middle section transmission device can freely be adjusted to better and discharging equipment butt joint, promoted the commonality of equipment.

5) The utility model discloses the first mounting hole of multiunit has been seted up along axial equidistance on the swivelling joint strip, sets up the first mounting hole of multiunit and is convenient for the distance adjustment between two rotatory fixing bases to the round belt of installing different quantity from the driving wheel, and then according to material size variation in size, adjusts the quantity of round belt, in order to satisfy the transmission demand to various materials.

Drawings

Fig. 1 is a perspective view of the transmission correcting device of the present invention;

fig. 2 is a top view of the transmission reforming device of the present invention;

fig. 3 is a left side view of the transmission correcting device of the present invention;

fig. 4 is a schematic structural view of a transmission device and a driving device in the transmission reforming device of the present invention;

fig. 5 is a bottom view of the transmission device and the driving device of the transmission and restoring device of the present invention;

fig. 6 is a schematic structural view of the correcting device and the driving device in the transmission correcting device of the present invention;

fig. 7 is a schematic structural view of an upper support plate in the transmission correcting device of the present invention;

fig. 8 is a schematic structural view of a rotary connecting strip in the transmission correcting device of the present invention;

fig. 9 is a schematic structural view of a fourth embodiment of the transmission correcting device of the present invention.

In the figure: 1-a supporting bottom plate, 2-a supporting side plate, 3-a transmission device, 4-a correcting device, 5-a driving device and 6-a material baffle;

3-transmission device: 31-upper section conveying mechanism: 311-rotating connecting bar: 3131-first mounting hole, 312-rotary fixing seat, 313-upper supporting plate: 3131-second mounting hole, 314-upper section shaft mounting seat, 315-first rotating shaft, 316-first upper belt pulley, 317-second upper belt pulley, 318-upper belt, 32-middle section transmission mechanism: 321-round belt driving wheel, 322-round belt driven wheel, 323-round belt, 33-lower section transmission mechanism: 331-a first lower belt pulley, 332-a rotary mounting seat, 333-a lower support plate, 334-a second rotary shaft, 335-a second lower belt pulley, 336-a lower belt, 337-a lug and 338-a support rod;

4-a righting device: 41-a correcting bottom plate, 42-a correcting top plate, 43-a correcting shaft, 44-a first correcting belt pulley, 45-a second correcting belt pulley and 46-a third correcting belt pulley;

5-a driving device: 51-driving motor, 52-driving shaft, 53-driven shaft, 54-driving wheel, 55-driven wheel, 56-driving belt and 57-tension wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, other embodiments obtained by a person of ordinary skill in the art without creative work all belong to the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

The embodiment of the utility model provides a one:

please refer to fig. 1-3, the utility model provides a transmission device that reforms for on conveyer, including supporting baseplate 1 and parallel arrangement at the support curb plate 2 of this supporting baseplate 1 both sides, the intermediate position of supporting baseplate 1 is provided with the transmission device 3 that is used for the transmission, and the both sides parallel arrangement who just is located transmission device 3 on supporting baseplate 1 is used for the device 4 that reforms, and the device 4 that reforms is on a parallel with the setting of support curb plate 2 is provided with on the support curb plate 2 and is used for driving transmission device 3 and the drive arrangement 5 that reforms device 4 and carry out work.

Specifically, referring to fig. 1 to 6, the driving device 5 includes a driving motor 51, a driving shaft 52 and a driven shaft 53, the driving shaft 52 and the driven shaft 53 are both disposed through the two supporting side plates 2 and rotatably mounted at positions near two ends of the two supporting side plates 2 through bearings, one end of the driving shaft 52 is connected to the driving motor 51, one end of the driving shaft 52 and an output shaft of the driving motor 51 may be directly connected or connected through a coupling, according to production requirements, the connection mode is not limited to the mode only mentioned in the specification, and other connection modes can be adopted, wherein the other end of the driving shaft 52, which is far away from the driving motor 51, is fixedly provided with a driving wheel 54 through key connection, one end of the driven shaft 53 is fixedly provided with a driven wheel 55 which is in matched transmission with the driving wheel 54 through key connection, and a driving belt 56 is in transmission connection with the driving wheel 54 and the driven wheel 55; the most important is that the number of teeth of the driving wheel 54 is greater than that of the driven wheel 55, so that the rotating speeds between the driving shaft 52 and the driven shaft 53 are different, and a speed difference is formed, so that when materials fall down, the materials are automatically corrected in the transmission process under the influence of the speed; the driving motor 51 is preferably a sinkawa motor, and its type is selected according to the design requirements of the transmission return device, and is not particularly limited herein.

Specifically, referring to fig. 1 to 5, the above-mentioned transmission device 3 includes an upper section transmission mechanism 31 connected to the discharge end, a middle section transmission mechanism 32 in contact with the upper section transmission mechanism 31 and arranged parallel to the supporting base plate 1, and a lower section transmission mechanism 33 connected to the receiving end, the lower section transmission mechanism 33 is in contact with the middle section transmission mechanism 32, and the upper section transmission mechanism 31 is installed in an inclined manner relative to the middle section transmission mechanism 32, and a certain included angle is formed therebetween, so that a certain height difference is formed between the upper section transmission mechanism 31 and the middle section transmission mechanism 32, and the material moves from a high position to a low position in the material transmission process due to the influence of the height difference; the material can be automatically corrected from a skew appearance.

Specifically, referring to fig. 4 and 5, the upper section transmission mechanism 31 includes a rotary connecting bar 311 fixedly disposed between the two supporting side plates 2, two rotary fixing seats 312 oppositely disposed are fixed on the rotary connecting bar 311, and both the two rotary fixing seats 312 are sleeved on the driven shaft 52; the rotary connecting bar 311 is also provided with an upper section supporting plate 313, one end of the upper section supporting plate 313 is fixedly provided with an upper section shaft mounting seat 314, the upper section shaft mounting seat 314 is provided with a first rotary shaft 315 through a bearing, and the first rotary shaft 315 is fixedly provided with a first upper belt pulley 316 through key connection; the driven shaft 52 is provided with a second upper belt pulley 317 through key connection, the first upper belt pulley 316 and the second upper belt pulley 317 are connected with an upper belt 318 in a transmission manner, the driving device 5 drives the driven shaft 52 to rotate, the second upper belt pulley 317 arranged on the driven shaft 52 rotates at a high speed to drive the first upper belt pulley 316 and the upper belt 318 to rotate for transmission, the fixed installation or the fixed connection related in the upper section transmission mechanism 31 is preferably connected by bolts, and besides, the fixed connection can also be performed by a fixing manner commonly used in the industry.

Specifically, referring to fig. 4 and 5, the middle transmission mechanism 32 includes a circular belt driving wheel 321 fixedly mounted on the driving shaft 52 through a key connection and a circular belt driven wheel 322 fixedly mounted on the driven shaft 53 through a key connection, the circular belt driving wheel 321 and the circular belt driven wheel 322 are in transmission connection with a circular belt 323, and the driving device 5 works to drive the driving shaft 52 and the driven shaft 53 to rotate, so as to drive the circular belt 323 in the middle transmission mechanism 32 to rotate for transmission.

Specifically, referring to fig. 4 and 5, the lower transmission mechanism 33 includes a first lower pulley 331 and a rotating mounting seat 332 installed on the driving shaft 52, the first lower pulley 331 is fixedly installed on the driving shaft 52 through a key connection, the rotating mounting seat 332 is installed on the driving shaft 52 through a bearing, an end of the rotating mounting seat 332 is fixedly connected with a lower support plate 333, one end of the lower support plate 333 away from the rotating mounting seat 332 is provided with a second rotating shaft 334, the second rotating shaft 334 is rotatably connected on the rotating mounting seat 332 through a bearing, a second lower pulley 335 is fixedly installed on the second rotating shaft 334 through a key connection, a lower belt 336 is connected to the first lower pulley 331 and the second lower pulley 335 in a transmission manner, and the driving device 5 drives the driving shaft 52 to rotate at a low speed, thereby driving the entire lower transmission mechanism 33 to rotate.

In the embodiment of the present invention, the supporting plate 333 is provided with the supporting lug 337, one end of the supporting lug 337 is fixed with the supporting rod 338, the supporting lug 338 is connected to the supporting lug located on the supporting base plate 1, and the supporting rod 338 is provided with the through groove along the axial direction, and the installation angle of the lower section transmission mechanism 33 can be adjusted by changing the installation position of the supporting lug 337 in the through groove of the supporting rod 338.

Specifically, referring to fig. 1 and 6, the above-mentioned righting device 4 is located at two sides of the transmission device 3, and two sets are symmetrically arranged, and includes a righting bottom plate 41 and a righting top plate 42 which are arranged on the supporting bottom plate 1 in parallel, three sets of righting shafts 43 are arranged between the righting bottom plate 41 and the righting top plate 42 in parallel, a first righting belt pulley 44, a second righting belt pulley 45 and a third righting belt pulley 46 are respectively installed on the three sets of righting shafts 43, a righting belt 47 is connected on the first righting belt pulley 44, the second righting belt pulley 45 and the third righting belt pulley 46 in a transmission manner, a righting driven wheel 48 is coaxially arranged below the first righting belt pulley 44, the righting driven wheel 48 is engaged on a righting driving wheel 49, the righting driving wheel 49 is fixedly installed on a driving shaft 52 through a key connection, both the righting driven wheel 48 and the righting driving wheel 49 are bevel, the main driving shaft 52 is controlled to rotate, the main driving shaft 52 drives the reforming driving wheel 49 to rotate, and then the reforming driven wheel 48 meshed with the reforming driving wheel rotates to drive the whole reforming device 4 to carry out transmission reforming. The first correcting belt pulley 44, the second correcting belt pulley 45 and the third correcting belt pulley 46 are not on the same straight line, a circle center connecting line of the first correcting belt pulley 44 and the second correcting belt pulley 45 is parallel to the middle section transmission mechanism 32 and the supporting side plate 2, a certain included angle is formed between the circle center connecting line of the second correcting belt pulley 45 and the third correcting belt pulley 46 and the middle section transmission mechanism 32, so that the relative distance between the two groups of correcting devices 4 close to the upper section transmission mechanism 31 is larger than the relative distance between the two groups of correcting devices 4 close to the lower section transmission mechanism 33, when the material skew size is large, a buffer is arranged above the material, the material changes the skew size and enters the two correcting devices 4 to correct the material along with the transmission of the transmission device 3, and the distance between the two correcting devices 4 can be adjusted and installed according to the size of the material.

The embodiment of the utility model provides a two:

referring to fig. 1 and fig. 7, a difference from the above embodiment is that a plurality of sets of first mounting holes 3111 are formed on the rotary connecting strip 311 at equal intervals along the axial direction, the plurality of sets of first mounting holes 3111 are arranged to facilitate the distance adjustment between the two rotary fixing seats 312, so as to mount different numbers of circular belt driven wheels 322, and further, the number of the circular belts 323 is adjusted according to the size of the material, so as to meet the transmission requirements of various materials.

Please refer to fig. 1 and 8, set up multiunit second mounting hole 3131 along axial equidistance in the middle of upper segment backup pad 313, according to the high difference of discharge end, the inclination of installation formation can freely be adjusted between upper segment transmission device 31 and the middle section transmission device 32, fixes through second mounting hole 3131 after adjusting, is convenient for better with discharging equipment butt joint, has improved the utility model discloses the commonality of device reforms, can judge whether to further reform by on-the-spot actual conditions after the transmission reforms in addition, otherwise directly receives the material.

The embodiment of the utility model provides a three:

referring to fig. 1-4, unlike the first and second embodiments, in order to achieve a better restoring effect of the transmission restoring device of the present invention, the speeds of the circular belts 323 on the middle section transmission mechanism 32 are adjusted to be different, i.e., have a certain speed difference. Specifically, the circular belt driving wheel 321 and the circular belt driven wheel 322 are fixedly mounted on the driving shaft 52 and the driven shaft 53 respectively through key connection at intervals.

For example, the circular belt driving wheel 321 of the first circular belt 323 from left to right is fixedly mounted on the driving shaft 52 through a key connection, the circular belt driven wheel 322 thereof is rotatably connected on the driven shaft 53 through a bearing, the circular belt driving wheel 321 of the second circular belt 323 is rotatably connected on the driving shaft 52 through a bearing, and the circular belt driven wheel 322 thereof is fixedly mounted on the driven shaft 53 through a key connection, so that a fast circular belt 323 and a slow circular belt 323 are formed, and after the materials reach the middle section transmission mechanism 32, a certain correction rotation can be carried out in the transmission process due to the speed difference between the circular belts 323, thereby facilitating the correction of the correcting device.

The embodiment of the utility model provides a four:

referring to fig. 9, different from the first, second and third embodiments, in order to prevent the material from sliding out from the two sides of the material receiving end, damaging the material and affecting the material receiving efficiency, the material baffle plates 6 are fixedly disposed at the two sides of the material receiving end and located at the lower section of the conveying mechanism, and the material baffle plates 6 are fixedly mounted on the aligning top plate 42.

The working process of the present invention is as follows (the first embodiment is taken as an example for explanation):

after the transmission correcting device of the utility model is connected with the discharge end of a conveyor, a driving motor 51 is started, the driving motor 51 drives a driving shaft 52 and a driven shaft 53 as well as a driving belt 56 to synchronously rotate, the driven shaft 53 drives an upper section transmission mechanism 31 to transmit, the driving shaft 52 drives a middle section transmission mechanism 32 and a lower section transmission mechanism 33 to transmit, materials firstly enter the upper section transmission mechanism 31, as the upper section transmission mechanism 31 is obliquely installed relative to the middle section transmission mechanism 32, a certain included angle is formed between the upper section transmission mechanism 31 and the middle section transmission mechanism 32, the materials move from a high position to a low position in the material transmission process, due to the influence of the height difference, the materials can be automatically corrected from a sample, and the materials are not necessarily guaranteed to be corrected after the correction; when the materials are continuously transmitted between the two groups of correcting devices 4, because the relative distance between the two groups of correcting devices 4 and close to the upper section transmission mechanism 31 is larger than the relative distance between the two groups of correcting devices 4 and close to the lower section transmission mechanism 33, when the skew dimension of the materials is large, a buffer is arranged above the materials, the materials change the skew dimension and enter the two groups of correcting devices 4 to correct the materials along with the transmission movement of the transmission device 3, and the corrected materials enter the lower section transmission mechanism 33 to be collected.

The utility model discloses reduced the complexity of design, controlled portably, degree of automation is high, and the operation performance is good, has overcome the current device of reforming and can't reform the crooked great problem of yardstick of material, and the transmission of the most important thing is rectified, can realize in succession, operate at a high speed, is showing and is improving transmission productivity ratio, can effectively promote the productivity that the mill received the material.

The utility model discloses a transmission device of reforming is provided with the sensor in each position of equipment in the in-service use process of production, detects the position of feeding, opens through opening of PLC control servo drive motor, rotational speed, turns to for driving motor drives driving shaft, driven shaft, action wheel, from driving wheel and driving belt work, makes the material at the operation in-process, rectifies automatically.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a transmission device of reforming for on conveyer, includes supporting baseplate (1) and parallel arrangement support curb plate (2) in supporting baseplate (1) both sides, its characterized in that: the utility model discloses a transmission device, including supporting baseplate (1), supporting baseplate (1) middle transmission device (3) that are used for the transmission, supporting baseplate (1) is last and is located the both sides parallel arrangement of transmission device (3) has the device of reforming (4) that is used for reforming, the device of reforming (4) is on a parallel with supporting side plate (2) set up, be provided with on supporting side plate (2) and be used for driving transmission device (3) and the drive arrangement (5) that the device of reforming (4) carries out work.

2. The transmission-correcting device for use on a conveyor according to claim 1, wherein: the conveying device (3) comprises an upper section conveying mechanism (31) connected to the discharge end, and a lower section conveying mechanism (33) connected to the receiving end, wherein the upper section conveying mechanism (31) is in contact with the middle section conveying mechanism (32) arranged on the supporting bottom plate (1) in a parallel mode, the lower section conveying mechanism (33) is in contact with the middle section conveying mechanism (32), the upper section conveying mechanism (31) is installed in an inclined mode relative to the middle section conveying mechanism (32), and a certain included angle is formed between the upper section conveying mechanism (31) and the middle section conveying mechanism.

3. The transmission-correcting device for use on a conveyor according to claim 2, wherein: the upper section transmission mechanism (31) comprises a rotary connecting strip (311) fixedly arranged between the upper section transmission mechanism and the supporting side plate (2), a rotary fixing seat (312) is fixed on the rotary connecting strip (311), and the rotary fixing seat (312) is installed on the driving device (5); an upper section supporting plate (313) is further arranged on the rotary connecting bar (311), an upper section shaft mounting seat (314) is fixedly mounted at one end of the upper section supporting plate (313), a first rotary shaft (315) is mounted on the upper section shaft mounting seat (314), and a first upper belt pulley (316) is mounted on the first rotary shaft (315); the driving device (5) is provided with a second upper belt pulley (317), and an upper belt (318) is in transmission connection with the first upper belt pulley (316) and the second upper belt pulley (317).

4. The transmission-correcting device for use on a conveyor according to claim 3, wherein: the rotary connecting strip (311) is provided with a plurality of groups of first mounting holes (3111) along the axial direction at equal intervals, and a plurality of groups of second mounting holes (3131) along the axial direction at equal intervals are arranged in the middle of the upper section supporting plate (313).

5. The transmission-correcting device for use on a conveyor according to claim 2, wherein: middle section transmission device (32) are including installing round belt action wheel (321) and round belt on drive arrangement (5) are from driving wheel (322), round belt action wheel (321) and round belt are from driving wheel (322) on transmission connection have round belt (323).

6. The transmission-correcting device for use on a conveyor according to claim 2, wherein: lower section transmission device (33) including install in first belt pulley (331) and rotation mount pad (332) on drive arrangement (5), tip fixedly connected with lower backup pad (333) of rotation mount pad (332), lower backup pad (333) are kept away from the one end of rotating mount pad (332) is provided with second axis of rotation (334), install belt pulley (335) under the second on second axis of rotation (334), the transmission is connected with down belt (336) on first belt pulley (331) and the second belt pulley (335).

7. The transmission-correcting device for use on a conveyor according to claim 6, wherein: the supporting plate (333) is provided with a support lug (337), one end of the support lug (337) is fixed with a support rod (338), the support rod (338) is connected to the support lug on the supporting base plate (1), and a through groove is formed in the support rod (338) along the axial direction.

8. The transmission-correcting device for use on a conveyor according to claim 1, wherein: the correcting device (4) comprises a correcting bottom plate (41) and a correcting top plate (42) which are arranged on a supporting bottom plate (1) in parallel, three groups of correcting shafts (43) are arranged between the correcting bottom plate (41) and the correcting top plate (42) in parallel, a first correcting belt wheel (44), a second correcting belt wheel (45) and a third correcting belt wheel (46) are respectively installed on the correcting shafts (43), the first correcting belt wheel (44), the second correcting belt wheel (45) and the third correcting belt wheel (46) are in transmission connection with a correcting belt (47), a correcting driven wheel (48) is coaxially arranged below the first correcting belt wheel (44), the correcting driven wheel (48) is meshed with a correcting driving wheel (49), and the correcting driving wheel (49) is installed on the driving device (5).

9. The transmission-correcting device for use on a conveyor according to claim 8, wherein: the first correcting belt pulley (44), the second correcting belt pulley (45) and the third correcting belt pulley (46) are not on the same straight line.

10. The transmission correcting device for use on a conveyor according to any one of claims 1 to 9, characterized in that: drive arrangement (5) include driving motor (51), driving shaft (52) and driven shaft (53) all run through support curb plate (2) setting and rotate and install support curb plate (2) are close to the position at both ends, the one end of driving shaft (52) is connected with driving motor (51), and driving wheel (54) are installed to its other end of keeping away from driving motor (51), the one end of driven shaft (53) install with driven round (55) of driving wheel (54) cooperation transmission, driving wheel (54) and driven round (55) go up the transmission and are connected with driving belt (56), the number of teeth of driving wheel (54) is greater than the number of teeth of driven round (55), make and form speed difference between driving shaft (52) and driven shaft (53).

Images