CN214526101U - Single-row oblique roller table - Google Patents

Abstract

The utility model discloses a single oblique roller platform, including frame and first drive assembly, both ends are provided with the girder respectively about the frame, two be equipped with first straight roller set, oblique roller set and the straight roller set of second along the direction of delivery of work piece in proper order between the girder, first straight roller set, oblique roller set and the straight roller set of second all include a plurality of conveying rollers that set up side by side, the conveying roller of oblique roller set with first straight roller set with be the contained angle setting between the conveying roller of the straight roller set of second, one of them the girder is provided with the guiding ruler subassembly, the guiding ruler subassembly with the work piece is carried jointly to the conveying roller. The single-row oblique roller table is simple in driving structure, strong in driving stability, capable of effectively saving equipment space, capable of reducing equipment cost and capable of solving the problems that the existing oblique roller table is complex in driving structure, large in equipment occupied space and high in equipment cost.

Description

Single-row oblique roller table

Technical Field

The utility model relates to a conveying equipment technical field especially relates to a single oblique roller platform.

Background

When carrying out plank processing, need process between the equipment of difference usually, when the conveying orbit of plank is the straight line, lead to the butt joint of the work piece between two stations to go wrong easily, in order to guarantee the butt joint stationarity of work piece, use oblique roller platform to carry out the transport of work piece at present, make the work piece can change the orbit of carrying in transportation process, current oblique roller platform generally includes straight roller set and oblique roller set, and to different straight roller set and oblique roller set, adopt the rotation of every transport roller set of a plurality of different actuating mechanism independent drive usually, the drive structure is complicated, and a plurality of actuating mechanism greatly increased the occupation space and the cost of equipment, bring very big inconvenience for the use of oblique roller platform.

SUMMERY OF THE UTILITY MODEL

Problem to the background art provides, the utility model aims to provide a single oblique roller platform, drive simple structure, drive stability is strong, effectively saves equipment space, reduces equipment cost, has solved the problem that present oblique roller platform drive structure is complicated, equipment occupation space is big, equipment cost is high.

To achieve the purpose, the utility model adopts the following technical proposal:

a single-row oblique roller table comprises a frame and a first driving assembly, wherein main beams are arranged at the left end and the right end of the frame respectively, a first straight roller group, an oblique roller group and a second straight roller group are sequentially arranged between the two main beams along the conveying direction of a workpiece, the first straight roller group, the oblique roller group and the second straight roller group respectively comprise a plurality of conveying rollers which are arranged side by side, the conveying rollers of the oblique roller group and the conveying rollers of the first straight roller group and the second straight roller group form an included angle, one of the main beams is provided with a guiding rule assembly, and the guiding rule assembly and the conveying rollers jointly convey the workpiece;

the first driving assembly is arranged on the rack and comprises a first driving device and a plurality of transmission shafts, the conveying rollers of the first straight roller group, the oblique roller group and the second straight roller group are in transmission connection with the corresponding transmission shafts through transmission belts, and the first driving device drives the transmission shafts to rotate so as to drive the conveying rollers of the first straight roller group, the oblique roller group and the second straight roller group to rotate.

More specifically, the transmission shafts include a first transmission shaft, a second transmission shaft, a third transmission shaft and a fourth transmission shaft;

the first transmission shaft and the second transmission shaft are respectively arranged at the left side and the right side below the oblique roller group, and the conveying rollers of the oblique roller group are in transmission connection with the first transmission shaft or the second transmission shaft through transmission belts;

the third transmission shaft is arranged below the first straight roller group, and the conveying rollers of the first straight roller group are in transmission connection with the third transmission shaft through a transmission belt;

the fourth transmission shaft is arranged below the second straight roller group, and the conveying rollers of the second straight roller group are in transmission connection with the fourth transmission shaft through a transmission belt.

More specifically, the length of the first transmission shaft is smaller than that of the second transmission shaft, and the first transmission shaft is disposed below the rear end of the skew roller set.

More specifically, the first transmission shaft and the second transmission shaft, the second transmission shaft and the fourth transmission shaft, and the first transmission shaft and the third transmission shaft are in transmission connection through gears and chains;

the output end of the first driving device is in transmission connection with the second transmission shaft, and the first driving device drives the second transmission shaft to rotate so as to drive the first transmission shaft, the third transmission shaft and the fourth transmission shaft to rotate.

Further, the guiding rule assembly comprises a second driving device, two synchronizing gears and a synchronous belt, the two synchronizing gears are sleeved with the second driving device and meshed with the two synchronizing gears, the output end of the second driving device is connected with one of the synchronizing gears, the second driving device drives the synchronizing gears to rotate so as to drive the synchronous belt to move, and the moving direction of the synchronous belt is consistent with the moving direction of a workpiece conveyed by the conveying roller.

Further, the timing belt is a toothed timing belt.

It is further described that the guiding rule assembly further comprises a plurality of synchronous belt limiting parts, the synchronous belt limiting parts are arranged at intervals along the synchronous belt, each synchronous belt limiting part comprises a supporting rod and a limiting baffle fixed on the supporting rod, the supporting rod is fixedly connected with the main beam, and the limiting baffle is abutted to the surface of the synchronous belt.

The first pinch roller assembly is arranged at the rear end of the rack and located between the first straight roller group and the inclined roller group, the first pinch roller assembly comprises a first pinch roller group and a third driving device, and the third driving device drives a first pinch roller of the first pinch roller group to abut against the upper surface of the workpiece transported by the conveying roller.

Further, the device also comprises a second pinch roller assembly, the second pinch roller assembly is arranged at the front end of the rack and is positioned between the oblique roller set and the second straight roller set, the second pinch roller assembly comprises a pinch roller seat, a second pinch roller set, a lead screw and a hand wheel, the second pinch roller set is fixedly arranged on the pinch roller seat, and a spring is connected between a second pinch roller of the second pinch roller set and the pinch roller seat;

the lead screw rotate set up in the frame, the top of lead screw is equipped with the hand wheel, the bottom fixedly connected with of lead screw the pinch roller seat rotates the hand wheel makes the lead screw rotates, the lead screw rotates and drives the pinch roller seat is the oscilaltion motion, thereby drives the second pinch roller of second pinch roller group is kept away from or is close to the motion of conveying roller.

The roller set assembly is arranged in the area of the inclined roller group, the roller set assembly comprises a roller set and a fourth driving device, the roller set is located between two conveying rollers of the inclined roller group, the roller set is located at one end, close to the first straight roller group, of the inclined roller group, and the fourth driving device drives the roller set to move up or down between the two conveying rollers of the inclined roller group.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the transmission shaft is driven to rotate by the first driving device provided with the first driving assembly, the transmission shaft drives the conveying rollers of the first straight roller group, the inclined roller group and the second straight roller group to rotate by the transmission belt, and the driving rotation of all the conveying rollers can be completed by a single driving device;

2. by arranging the first transmission shaft, the second transmission shaft, the third transmission shaft and the fourth transmission shaft, the conveying rollers of the first straight roller set, the oblique roller set and the second straight roller set can be in transmission connection with the corresponding conveying rollers, so that all the conveying rollers can rotate, and the smoothness and stability of workpiece conveying of the single-row oblique roller table are ensured;

3. through setting up the guiding rule subassembly, just the moving direction of hold-in range with the moving direction of the work piece that the conveying roller carried is unanimous, because the hold-in range of guiding rule subassembly has the translation rate for the transportation of work piece is more steady, if the hold-in range is static, then when carrying the work piece, the work piece with the friction can be produced when the hold-in range contacts, influences the transport of work piece.

Drawings

The accompanying drawings are provided to further illustrate the present invention, but the content in the accompanying drawings does not constitute any limitation to the present invention.

Fig. 1 is a schematic perspective view of a single-row oblique roller table according to an embodiment of the present invention;

fig. 2 is a bottom view of a single row diagonal roll table in accordance with an embodiment of the present invention;

fig. 3 is a schematic perspective view of a single-row oblique roller table according to an embodiment of the present invention;

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

FIG. 5 is an enlarged schematic view at B of FIG. 3;

FIG. 6 is an enlarged schematic view at C of FIG. 3;

wherein: the device comprises a rack 1, a main beam 11, a first driving device 21, a first transmission shaft 22, a second transmission shaft 23, a third transmission shaft 24, a fourth transmission shaft 25, a gear 26, a first straight roller group 3, an inclined roller group 4, a second straight roller group 5, a conveying roller 6, a running rule assembly 7, a second driving device 71, a synchronous belt 72, a synchronous belt limiting part 73, a supporting rod 74, a limiting baffle 75, a first pinch roller assembly 8, a first pinch roller group 81, a first pinch roller 811, a third driving device 82, a second pinch roller assembly 9, a pinch roller seat 91, a second pinch roller group 92, a second pinch roller 921, a spring 922, a screw rod 93, a hand wheel 94, a guide rod 95, a pinch roller assembly 10 and a pinch roller group 101.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "bottom", "top", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1 to 6, a single-row oblique roller table comprises a frame 1 and a first driving assembly, wherein main beams 11 are respectively arranged at the left end and the right end of the frame 1, a first straight roller group 3, an oblique roller group 4 and a second straight roller group 5 are sequentially arranged between the two main beams 11 along the conveying direction of a workpiece, the first straight roller group 3, the oblique roller group 4 and the second straight roller group 5 respectively comprise a plurality of conveying rollers 6 which are arranged side by side, an included angle is formed between the conveying rollers 6 of the oblique roller group 4 and the conveying rollers 6 of the first straight roller group 3 and the second straight roller group 5, one main beam 11 is provided with a guiding rule assembly 7, and the guiding rule assembly 7 and the conveying rollers 6 convey the workpiece together;

the first driving assembly is arranged on the rack 1 and comprises a first driving device 21 and a plurality of transmission shafts, the conveying rollers 6 of the first straight roller group 3, the inclined roller group 4 and the second straight roller group 5 are in transmission connection with the corresponding transmission shafts through transmission belts, and the first driving device 21 drives the transmission shafts to rotate so as to drive the conveying rollers 6 of the first straight roller group 3, the inclined roller group 4 and the second straight roller group 5 to rotate.

When a workpiece is conveyed, the workpiece enters from the first straight roller group 3, the workpiece enters the inclined roller group 4 under the driving of the first straight roller group 3, the conveying rollers 6 of the inclined roller group 4 and the conveying rollers 6 of the first straight roller group 3 form an included angle, so that the speed direction of the workpiece is changed, the workpiece approaches the guiding rule component 7 in the forward moving process and is in contact with the guiding rule component 7, and then the workpiece moves forwards against the guiding rule component 7, so that the workpiece can be in butt joint with equipment in the next process when the workpiece leaves the single-row inclined roller table.

Through setting up the drive of first drive arrangement 21 of first drive assembly the transmission shaft rotates, the transmission shaft passes through driving belt drives the conveying roller 6 of first straight roller group 3, oblique roller group 4 and second straight roller group 5 rotates, can accomplish the drive rotation of all conveying rollers 6 through single drive arrangement, and drive simple structure, drive stability is strong, and need not set up a plurality of drive arrangement according to conveying roller 6's group number, effectively saves equipment space, reduction equipment cost.

More specifically, the transmission shafts include a first transmission shaft 22, a second transmission shaft 23, a third transmission shaft 24 and a fourth transmission shaft 25;

the first transmission shaft 22 and the second transmission shaft 23 are respectively arranged at the left side and the right side below the oblique roller group 4, and the conveying rollers 6 of the oblique roller group 4 are in transmission connection with the first transmission shaft 22 or the second transmission shaft 23 through transmission belts;

the third transmission shaft 24 is arranged below the first straight roller group 3, and the conveying rollers 6 of the first straight roller group 3 are in transmission connection with the third transmission shaft 24 through a transmission belt;

the fourth transmission shaft 25 is arranged below the second straight roller group 5, and the conveying rollers 6 of the second straight roller group 5 are in transmission connection with the fourth transmission shaft 25 through a transmission belt.

Through setting up first transmission shaft 22, second transmission shaft 23, third transmission shaft 24 and fourth transmission shaft 25 guarantee the conveying roller 6 homoenergetic of first straight roller group 3, oblique roller group 4 and second straight roller group 5 can be connected with the conveying roller 6 transmission that corresponds to guarantee all conveying roller 6 can rotate, has guaranteed the work piece of single-row oblique roller platform is carried smoothness nature and stability.

More specifically, the length of the first transmission shaft 22 is smaller than the length of the second transmission shaft 23, and the first transmission shaft 22 is disposed below the rear end of the skew roller group 4.

Because there is some conveying roller 6's length shorter in the rear end of oblique roller set 4, be difficult to through driving belt with second transmission shaft 23 transmission is connected, sets up first transmission shaft 22 makes the conveying roller 6 of the rear end of oblique roller set 4 with first transmission shaft 22 transmission is connected, has guaranteed the rotation of conveying roller 6 of oblique roller set 4, thereby has guaranteed the work piece of single-row oblique roller platform carries stability.

More specifically, the first transmission shaft 22 and the second transmission shaft 23, the second transmission shaft 23 and the fourth transmission shaft 25, and the first transmission shaft 22 and the third transmission shaft 24 are in transmission connection through a gear 26 and a chain;

the output end of the first driving device 21 is in transmission connection with the second transmission shaft 23, and the first driving device 21 drives the second transmission shaft 23 to rotate so as to drive the first transmission shaft 22, the third transmission shaft 24 and the fourth transmission shaft 25 to rotate.

Through first drive arrangement 21 drive second transmission shaft 23 rotates to drive first transmission shaft 22, third transmission shaft 24 and fourth transmission shaft 25 rotate, and single drive arrangement can drive the rotation of all transmission shafts, has simplified the drive structure, makes the occupation space of equipment littleer, effectively reduces equipment cost.

Preferably, the first driving device 21 is a motor, and has a simple driving structure and high driving stability.

Further, the guiding rule assembly 7 includes a second driving device 71, two synchronizing gears and a synchronous belt 72 sleeved on the two synchronizing gears and meshed therewith, an output end of the second driving device 71 is connected to one of the synchronizing gears, the second driving device 71 drives the synchronizing gear to rotate so as to drive the synchronous belt 72 to move, and a moving direction of the synchronous belt 72 is consistent with a moving direction of the workpiece conveyed by the conveying roller 6.

Through setting up guiding rule subassembly 7, just the moving direction of hold-in range 72 with the moving direction of the work piece that conveying roller 6 carried is unanimous, because the hold-in range 72 of guiding rule subassembly 7 has the translation rate for the transportation of work piece is more steady, if hold-in range 72 is static, then when carrying the work piece, the work piece with the friction probably produces during the hold-in range 72 contact, influences the transport of work piece.

Specifically, the second driving device 71 adopts a combination of a motor and a speed reducer, and has high driving efficiency and reliability.

Preferably, the timing belt 72 is a toothed timing belt.

Hold-in range 72 adopts the profile of tooth hold-in range, makes hold-in range 72 can better with the synchromesh gear meshing avoids hold-in range 72 off tracking or the problem of wearing and tearing guarantee the work piece can stably be carried to hold-in range 72, and has prolonged hold-in range 72's life has reduced the maintenance cost of equipment.

It is further illustrated that the guiding rule assembly 7 further includes a plurality of synchronous belt limiting members 73, the synchronous belt limiting members 73 are arranged at intervals along the synchronous belt 72, each synchronous belt limiting member 73 includes a supporting rod 74 and a limiting baffle 75 fixed to the supporting rod 74, the supporting rod 74 is fixedly connected to the main beam 22, and the limiting baffle 75 is abutted to the surface of the synchronous belt 72.

Through setting up limit baffle 75, just limit baffle 75 with the surperficial butt of hold-in range 72, when the work piece is close to when the hold-in range 72, probably with hold-in range 72 bumps, through setting up hold-in range locating part 73 can prevent hold-in range 72 from following hold-in range gear drops, guarantees hold-in range 72 is to the transport effect of work piece.

Further, the workpiece conveying device further comprises a first pinch roller assembly 8, the first pinch roller assembly 8 is arranged at the rear end of the frame 1 and is located between the first straight roller group 3 and the inclined roller group 4, the first pinch roller assembly 8 comprises a first pinch roller group 81 and a third driving device 82, and the third driving device 82 drives a first pinch roller 811 of the first pinch roller group 81 to abut against the upper surface of the workpiece conveyed by the conveying roller 6.

Through setting up first pinch roller subassembly 8, the first pinch roller 811 of first pinch roller group 81 is pressed on the work piece, and the bottom surface of work piece is placed on conveying roller 6 for when the work piece gets into skewed roller group 4 from first straight roller group 3, the equal powerful supporting role in surface and the bottom surface of work piece makes the transport of work piece when getting into skewed roller group 4 more steady.

Preferably, the third driving device 82 adopts an air cylinder, so that the driving efficiency is high, the driving effect is good, and the thickness of the workpiece during feeding is possibly different greatly, so that the workpiece is pressed and adjusted in a pneumatic mode during feeding, and the conveying effect of the workpiece is ensured.

Further, the device further comprises a second pinch roller assembly 9, the second pinch roller assembly 9 is arranged at the front end of the rack 1 and is located between the oblique roller set 4 and the second straight roller set 5, the second pinch roller assembly 9 comprises a pinch roller seat 91, a second pinch roller set 92, a screw 93 and a hand wheel 94, the second pinch roller set 92 is fixedly arranged on the pinch roller seat 91, and a spring 922 is connected between a second pinch roller 921 of the second pinch roller set 92 and the pinch roller seat 91;

the lead screw 93 rotate set up in frame 1, the top of lead screw 93 is equipped with hand wheel 94, the bottom fixedly connected with of lead screw 93 pinch roller seat 91 rotates hand wheel 94 makes lead screw 93 rotates, lead screw 93 rotates and drives pinch roller seat 91 is oscilaltion motion, thereby drives the second pinch roller 921 of second pinch roller group 92 is kept away from or is close to the motion of conveying roller 6.

By arranging the second pinch roller assembly 9, the second pinch roller 921 of the second pinch roller set 92 presses on a workpiece, and the bottom surface of the workpiece is placed on the conveying roller 6, so that when the workpiece enters the second straight roller set 5 from the inclined roller set 4, the surface and the bottom surface of the workpiece are both strongly supported, the conveying of the workpiece when the workpiece enters the second straight roller set 5 is more stable, and by arranging the spring 922, the second pinch roller set 92 has a damping effect, the vibration of the workpiece in the conveying process is avoided, and the conveying stability is ensured;

in addition, the hand wheel 94 is manually rotated, so that the second pressing wheel group 92 is manually adjusted to ascend and descend, a manual adjusting mode is adopted, the structure is simple, and the cost is effectively reduced.

Preferably, the second pinch roller assembly 9 further includes two guide rods 95, two of the guide rods 95 are respectively disposed on the front side and the rear side of the lead screw 93, the guide rods 95 are rotatably disposed on the frame 1, and the bottoms of the guide rods 95 are fixedly connected to the pinch roller seat 91.

Through setting up guide bar 95, can play the guide effect to the lift of second pinch roller set 92, guarantee the stationarity of going up and down.

More specifically, the carrier roller assembly 10 is further included, the carrier roller assembly 10 is disposed in the area of the skew roller group 4, the carrier roller assembly 10 includes a carrier roller group 101 and a fourth driving device, the carrier roller group 101 is located between two conveying rollers 6 of the skew roller group 4, the carrier roller group 101 is located at one end of the skew roller group 4 close to the first straight roller group 3, and the fourth driving device drives the carrier roller group 101 to move up or down between two conveying rollers 6 of the skew roller group 4.

When a workpiece enters the inclined roller group 4, a part of the workpiece may be on the inclined roller group 4, another part of the workpiece is on the first straight roller group 3, at this time, the fourth driving device drives the carrier roller group 101 to ascend, the carrier roller group 101 supports the front end of the workpiece from the lower side of the workpiece, so that the front end of the workpiece is supported by the carrier roller group 101, and the rear half part of the workpiece is conveyed on the first straight roller group 3, thereby ensuring the transition smoothness of the workpiece from the first straight roller group 3 to the first inclined roller group 4.

Preferably, the fourth driving device adopts an air cylinder, so that the driving efficiency is high and the driving effect is good.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. A single-row oblique roller table is characterized by comprising a frame and a first driving assembly, wherein main beams are arranged at the left end and the right end of the frame respectively, a first straight roller group, an oblique roller group and a second straight roller group are sequentially arranged between the two main beams along the conveying direction of a workpiece, the first straight roller group, the oblique roller group and the second straight roller group respectively comprise a plurality of conveying rollers which are arranged side by side, the conveying rollers of the oblique roller group and the conveying rollers of the first straight roller group and the second straight roller group form an included angle, one main beam is provided with a guiding rule assembly, and the guiding rule assembly and the conveying rollers jointly convey the workpiece;

the first driving assembly is arranged on the rack and comprises a first driving device and a plurality of transmission shafts, the conveying rollers of the first straight roller group, the oblique roller group and the second straight roller group are in transmission connection with the corresponding transmission shafts through transmission belts, and the first driving device drives the transmission shafts to rotate so as to drive the conveying rollers of the first straight roller group, the oblique roller group and the second straight roller group to rotate.

2. The single row oblique roller table of claim 1, wherein said drive shafts comprise a first drive shaft, a second drive shaft, a third drive shaft, and a fourth drive shaft;

the first transmission shaft and the second transmission shaft are respectively arranged at the left side and the right side below the oblique roller group, and the conveying rollers of the oblique roller group are in transmission connection with the first transmission shaft or the second transmission shaft through transmission belts;

the third transmission shaft is arranged below the first straight roller group, and the conveying rollers of the first straight roller group are in transmission connection with the third transmission shaft through a transmission belt;

the fourth transmission shaft is arranged below the second straight roller group, and the conveying rollers of the second straight roller group are in transmission connection with the fourth transmission shaft through a transmission belt.

3. The single row skew roller table of claim 2 wherein said first drive shaft has a length less than a length of said second drive shaft and said first drive shaft is disposed below a rear end of said skew roller set.

4. The single row oblique roller table of claim 2, wherein said first drive shaft and said second drive shaft, said second drive shaft and said fourth drive shaft, and said first drive shaft and said third drive shaft are in geared connection via gears and chains;

the output end of the first driving device is in transmission connection with the second transmission shaft, and the first driving device drives the second transmission shaft to rotate so as to drive the first transmission shaft, the third transmission shaft and the fourth transmission shaft to rotate.

5. The single-row oblique roller table according to claim 1, wherein the guiding rule assembly comprises a second driving device, two synchronizing gears and a synchronous belt sleeved on and meshed with the two synchronizing gears, an output end of the second driving device is connected with one of the synchronizing gears, the second driving device drives the synchronizing gears to rotate so as to drive the synchronous belt to move, and the moving direction of the synchronous belt is consistent with the moving direction of the workpiece conveyed by the conveying roller.

6. The single row oblique roller table of claim 5, wherein said timing belt is a toothed timing belt.

7. The single-row oblique roller table according to claim 5, wherein said guiding rule assembly further comprises a plurality of synchronous belt position-limiting members, said plurality of synchronous belt position-limiting members are arranged along said synchronous belt at intervals, said synchronous belt position-limiting members comprise a supporting rod and a position-limiting baffle fixed on said supporting rod, said supporting rod is fixedly connected with said main beam, and said position-limiting baffle is abutted to the surface of said synchronous belt.

8. The single-row oblique roller table according to claim 1, further comprising a first pinch roller assembly, wherein the first pinch roller assembly is arranged at the rear end of the frame and located between the first straight roller group and the oblique roller group, the first pinch roller assembly comprises a first pinch roller group and a third driving device, and the third driving device drives a first pinch roller of the first pinch roller group to abut against the upper surface of the workpiece transported by the transport roller.

9. The single-row oblique roller table according to claim 1, further comprising a second pinch roller assembly, wherein the second pinch roller assembly is arranged at the front end of the frame and is positioned between the oblique roller group and the second straight roller group, the second pinch roller assembly comprises a pinch roller seat, a second pinch roller group, a lead screw and a hand wheel, the second pinch roller group is fixedly arranged on the pinch roller seat, and a spring is connected between a second pinch roller of the second pinch roller group and the pinch roller seat;

the lead screw rotate set up in the frame, the top of lead screw is equipped with the hand wheel, the bottom fixedly connected with of lead screw the pinch roller seat rotates the hand wheel makes the lead screw rotates, the lead screw rotates and drives the pinch roller seat is the oscilaltion motion, thereby drives the second pinch roller of second pinch roller group is kept away from or is close to the motion of conveying roller.

10. The single row oblique roller table according to claim 1, further comprising a carrier roller assembly disposed in a region of the oblique roller group, wherein the carrier roller assembly includes a carrier roller group and a fourth driving device, the carrier roller group is located between two of the conveying rollers of the oblique roller group, the carrier roller group is located at an end of the oblique roller group close to the first straight roller group, and the fourth driving device drives the carrier roller group to move up or down between two of the conveying rollers of the oblique roller group.

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