CN217830861U - Air suction roller material arranging device - Google Patents

Abstract

The utility model discloses a cylinder reason material device induced drafts, include: the intermittent material sorting device comprises a back plate, an intermittent material sorting device and an air suction roller module, wherein the air suction roller module comprises a first air suction roller and a second air suction roller; the feeder above the intermittent material arranging device transmits the materials to the intermittent material arranging device, qualified materials are transferred to a joint of the first air suction roller and the second air suction roller through the first air suction roller to be exchanged to the second air suction roller to be continuously rotated and finally sent to the qualified product collecting box below the second air suction roller, and the unqualified materials are identified and blown down in the transmission process; the technical scheme of the utility model uses two air suction drums to transfer materials, and the industrial camera is matched to realize the full-angle visual detection of the materials, thereby improving the accuracy of the detection; the intermittent material arranging device reciprocates back and forth on the roller, so that the die entering rate of the materials is improved, and the material arranging speed is accelerated.

Description

Air suction roller material arranging device

Technical Field

The utility model relates to an automation equipment's technical field particularly, relates to a cylinder reason material device induced drafts.

Background

Modern industry adopts mechanical assembly line to produce basically, wherein need carry out the quality control to the all kinds of materials of making, and the quality control divide into sampling quality control roughly and detects two kinds one by one, and there is the precision in present automation equipment low, the poor scheduling problem of efficiency, some or even lack the automatic function of rejecting of defective work, and the enterprise need consume a large amount of manpowers and carry out the quality control work.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the utility model provides a satisfy full-automatic reason material device of all-round visual detection.

The technical scheme of the utility model is that: the utility model provides a suction drum reason material device, the device includes: the device comprises a back plate, an intermittent material arranging device and an air suction roller module;

the air suction roller module comprises a first air suction roller and a second air suction roller, the first air suction roller rotates clockwise, and the second air suction roller rotates anticlockwise;

the intermittent material arranging device, the first air suction roller and the second air suction roller are all fixed on the back plate, and the intermittent material arranging device is installed on the upper side of the first air suction roller and used for conveying materials into the first air suction roller;

the second air suction roller is arranged at the lower side of the first air suction roller and is tightly attached to the bottommost end of the first air suction roller, and the bottom of the second air suction roller is used for waste removal and blanking;

first cylinder and the second cylinder that induced drafts all include: an outer cylinder and an inner cylinder;

the inner cylinder is a uncovered cylinder with a plurality of linear hole grooves along the circumferential direction on the surface, and the solid part of the inner cylinder surface without the linear hole grooves is a non-air suction area; the outer cylinder is a uncovered cylinder with a plurality of rows of holes on the surface, the outer side of each hole is provided with a groove, and the size of each groove is matched with that of the material;

the outer cylinder of the first air suction roller is sleeved outside the corresponding inner cylinder and can rotate clockwise; the second air suction rotary drum is sleeved outside the corresponding inner drum and can rotate along the anticlockwise direction; the joint of the first air suction roller and the second air suction roller is used for connecting and transferring materials;

the non-air-suction area of the first air-suction roller extends from one end of the intermittent material arranging device to the joint of the bottom end of the first air-suction roller and the second air-suction roller in a counterclockwise manner; the non-suction area of the second suction drum extends to the blanking position from the connection part of the top end of the second suction drum and the first suction drum.

In any one of the above technical solutions, further, the first air suction drum and the second air suction drum each include: the device comprises an outer cover plate, an inner cover plate, an air suction pipe, a hollow shaft, a transmission shaft, a gear ring, a driving gear, a driving shaft, a planetary reducer and an air suction roller bearing;

an opening on one side of the inner cylinder is sealed by an inner cover plate, and the same side of the outer cylinder is sealed by an outer cover plate;

the hollow shaft and the transmission shaft are both irregular cylinders, wherein the radius of the hollow shaft is smaller than that of the transmission shaft, and the length of the hollow shaft is longer than that of the transmission shaft;

the opening side of the inner cylinder is connected with a hollow shaft, the other end of the hollow shaft is connected with an air suction pipe, and the air suction pipe is connected with an air suction fan; the opening side of the outer cylinder is connected with a transmission shaft, the surface of the other end of the transmission shaft is provided with a gear ring, the gear ring is meshed with a driving gear, the driving gear is fixed at one end of a driving shaft, and the other end of the driving shaft is connected with a planetary reducer; the transmission shaft and the hollow shaft are nested together and are connected by two air suction roller bearings positioned at two ends of the inner side of the transmission shaft.

In any one of the above technical solutions, further, the transmission shaft penetrates through the back plate, the back surface of the back plate is connected with a connecting plate, the connecting plate is provided with an air suction drum mounting plate, and the air suction drum mounting plate is connected and fixed with the first air suction drum.

In any one of the above technical solutions, further, the first air suction drum and the second air suction drum each further include: the connecting ring, the ball plunger, the spring steel ball and the fastening nail are arranged on the connecting ring;

the connecting ring is sleeved at the junction of the outer cylinder and the transmission shaft and is fixedly connected with the outer cylinder through the fastening nails; a ball plunger is arranged on the circumference of the connecting ring at intervals, and a spring steel ball is arranged at the bottom end of the ball plunger; the ball plunger is embedded into the connecting ring, and the side surface of the ball plunger is fixed by a clinch nail.

In any one of the above technical solutions, further, the transmission shaft has a circular groove on its surface, the size of which matches with the size of the steel ball of the spring, for clamping the connection ring.

Among any one of the above-mentioned technical scheme, furtherly, the second cylinder that induced drafts still includes kicking the waste gas nozzle, kicks the waste gas nozzle and installs the bottom at the second cylinder that induced drafts for blow off unqualified material.

In any of the above technical solutions, further, the back plate is provided with a first industrial camera set and a second industrial camera set;

the lens of the first industrial camera set is aligned with the first air suction roller, and the lens of the second industrial camera set is aligned with the second air suction roller and used for identifying unqualified materials.

In any one of the above technical solutions, further, the intermittent material handling device includes: intermittent type reason material device includes: the device comprises a first baffle, a second baffle, a scraping brush and a mounting side plate;

the material stacking area is formed by connecting the first baffle plate, the second baffle plate and the two mounting side plates in a pairwise mode, the bottom ends of the first baffle plate and the two mounting side plates are attached to the outer barrel of the first air suction roller, the bottom end of the second baffle plate keeps a certain distance from the outer barrel, the scraping brush is tightly attached to the second baffle plate and fixedly arranged in the material stacking area, and the distance from the bottom end of the scraping brush to the outer barrel keeps a distance not larger than two times of the diameter of the material, so that the overlapped material can be removed.

In any one of the above technical solutions, further, the intermittent material handling device further includes: the device comprises a linear bearing, a guide rod, a copper sleeve, a fixed handle, a guide rod connecting plate, a connecting block, a first rotating shaft, a second rotating shaft, a connecting rod, a cover plate, an eccentric shaft and a motor;

the two linear bearings are embedded into the back plate, the two guide rods respectively penetrate through the two linear bearings and penetrate through the mounting side plate, the first baffle plate and the second baffle plate, one end, penetrating through the mounting side plate, of each guide rod is provided with a fixed handle, and copper sleeves are sleeved at junctions of the guide rods, the first baffle plate and the second baffle plate; the other end of the guide rod is fixed on a guide rod connecting plate, a connecting block is fixed in the middle of the guide rod connecting plate, the top end of the connecting block is connected with a protruding shaft of a first rotating shaft facing downwards, the first rotating shaft is connected with a second rotating shaft through a connecting rod, and the bottom of the connecting rod is sealed by a cover plate;

the eccentric shaft includes: the motor drives the shaft center A to link the shaft center B to move back and forth, and finally the material reciprocates back and forth on the first air suction drum.

The utility model has the advantages that:

the technical scheme of the utility model uses two air suction drums to transfer materials, and the industrial camera is matched to realize the full-angle visual detection of the materials, thereby improving the accuracy of detection; the design of the roller ring interface is convenient to disassemble, so that workers can replace or clean parts conveniently; the intermittent material arranging device reciprocates back and forth on the roller, so that the die entering rate of the material is improved, and the material arranging speed is accelerated; the second induced draft cylinder has set up and has played the waste gas mouth, rejects unqualified material automatically, has improved degree of automation.

Drawings

The above and additional aspects of the invention will be apparent from and readily appreciated by reference to the following description of the embodiments taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic front view of an induced draft roller material arranging device according to an embodiment of the present invention;

fig. 2 is a schematic back view of an induced draft roller material arranging device according to an embodiment of the present invention;

fig. 3 is a schematic cross-sectional view of a suction drum according to an embodiment of the present invention;

figure 4 is a schematic view of an outer barrel according to one embodiment of the present invention;

figure 5 is a schematic cross-sectional view of an outer barrel according to one embodiment of the present invention;

fig. 6 is a schematic view of an inner barrel according to an embodiment of the present invention;

fig. 7 is a schematic cross-sectional view of the front of the suction drum material arranging device according to one embodiment of the present invention;

fig. 8 is a front view of an induced draft roller material organizing device according to one embodiment of the present invention;

fig. 9 is a schematic view of a connection ring according to an embodiment of the present invention;

fig. 10 is a schematic back view of an intermittent material handling device according to an embodiment of the present invention;

fig. 11 is a schematic cross-sectional view of an intermittent material handling device according to an embodiment of the present invention;

fig. 12 is another schematic cross-sectional view of an intermittent material management device according to an embodiment of the present invention;

fig. 13 is a schematic cross-sectional view of an eccentric shaft according to an embodiment of the present invention.

100-back plate, 101-first industrial camera set, 102-second industrial camera set, 103-connecting plate, 200-intermittent material arranging device, 201-first baffle plate, 202-second baffle plate, 203-scraping brush, 204-mounting side plate, 205-linear bearing, 206-guide rod, 207-copper sleeve, 208-fixed handle, 209-guide rod connecting plate, 210-connecting block, 211-first rotating shaft, 212-second rotating shaft, 213-connecting rod, 214-cover plate, 215-eccentric shaft, 216-motor, 300-suction roller module, 301-first suction roller, 302-second suction roller, 303-outer barrel, 304-inner barrel, 305-outer cover plate, 306-inner cover plate, 307-suction pipe, 308-hollow shaft, 309-transmission shaft, 310-toothed ring, 311-driving gear, 312-driving shaft, 313-planetary reducer, bulb-suction roller bearing, 315-suction roller mounting plate, 320-airless area, 321-feeder kicking nozzle, 331-feeder, 332-connecting ring, 332-400-plunger pin, 333-fastening pin, 334-steel ball.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present invention may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the scope of the present invention is not limited by the specific embodiments disclosed below.

As shown in fig. 1 and 2, the present embodiment provides an induced draft roller material arranging device, which includes: a back plate 100, an intermittent material arranging device 200 and a suction roller module 300.

Wherein the suction drum module 300 comprises a first suction drum 301 and a second suction drum 302, and the second suction drum 302 comprises all the components of the first suction drum 301; in addition, the first suction drum 301 rotates clockwise, and the second suction drum 302 rotates counterclockwise.

The intermittent material arranging device 200, the first air suction roller 301 and the second air suction roller 302 are all fixed on the back plate 100, wherein the intermittent material arranging device 200 is installed on the upper side of the first air suction roller 301, and the second air suction roller 302 is installed on the lower side of the first air suction roller 301 and clings to the first air suction roller 301; the material is transmitted to the intermittent material arranging device 200 by the external feeder 400, the qualified material rotates clockwise through the first air suction roller 301, the qualified material is conveyed to the qualified product collecting box through being exchanged to the second air suction roller 302 at the joint of the first air suction roller 301 and the second air suction roller 302 and rotates anticlockwise, and the unqualified material is identified and blown down in the conveying process.

As shown in fig. 3, the first and second suction rollers 301 and 302 include: the outer cylinder 303, the inner cylinder 304, the outer cover plate 305, the inner cover plate 306, the air suction pipe 307, the hollow shaft 308, the transmission shaft 309, the toothed ring 310, the driving gear 311, the driving shaft 312, the planetary reducer 313, the air suction roller bearing 314 and the air suction roller mounting plate 315.

As shown in fig. 4, the outer cylinder 303 is a uncovered cylinder with a plurality of rows of holes on the surface, and as shown in fig. 5, a groove is formed on the outer side of each hole for placing materials.

As shown in fig. 6, the inner cylinder 304 is a uncovered cylinder with a plurality of linear slots along the circumferential direction, and the length of the linear slots is less than the circumference of the inner cylinder 304 and more than half of the circumference of the inner cylinder 304.

As shown in fig. 3, the hollow shaft 308 and the driving shaft 309 are irregular cylinders, wherein the radius of the hollow shaft 308 is smaller than that of the driving shaft 309, and the length of the hollow shaft 308 is larger than that of the driving shaft 309.

The outer cylinder 303 is sleeved outside the inner cylinder 304, after the two are combined, a hole on the surface of the outer cylinder 303 is aligned with a linear hole groove on the surface of the inner cylinder 304, an opening on one side of the inner cylinder 304 is sealed by an inner cover plate 306, the same side of the outer cylinder 303 is sealed by an outer cover plate 305, and two cylinders which are nested together and have openings on one side are formed; the opening side of the inner cylinder 304 is connected with a hollow shaft 308, the other end of the hollow shaft 308 is connected with an air suction pipe 307, the air suction pipe 307 is connected with a suction fan, air is sucked from the cavity to generate negative pressure suction, and materials in the groove of the outer cylinder 303 are adsorbed on the outer cylinder 303 and do not fall off; the opening side of the outer cylinder 303 is connected with a transmission shaft 309, the other end surface of the transmission shaft 309 is provided with a gear ring 310, the gear ring 310 is meshed with a driving gear 311, the driving gear 311 is fixed at one end of a driving shaft 312, the other end of the driving shaft 312 is connected with a planetary reducer 313, the planetary reducer 313 provides power to enable the driving gear 311 to rotate, and the driving gear 311 drives the transmission shaft 309, the outer cylinder 303 and an outer cover plate 305 to rotate outside the inner cylinder 304 to convey materials; the drive shaft 309 and hollow shaft 308 are nested together and are connected by two suction roller bearings 314 located at the inner ends of the drive shaft 309.

The transmission shaft 309 penetrates through the back plate 100, the connecting plate 103 is connected to the back surface of the back plate 100, an air suction roller mounting plate 315 is mounted on the connecting plate 103, and the air suction roller mounting plate 315 is connected and fixed with the first air suction roller 301 and the second air suction roller 302.

In addition, the solid part of the surface of the inner cylinder 304 without the linear hole groove is the non-suction area 320, as shown in fig. 7, the non-suction area 320 of the first suction drum 301 extends from one end of the intermittent material arranging device 200 to the joint of the bottom end of the first suction drum 301 and the second suction drum 302 in the counterclockwise direction; the non-suction area 320 of the second suction drum 302 extends from the connection of the top end of the second suction drum 302 and the first suction drum 301 to the blanking position. Specifically, when the outer cylinder 303 of the first air suction drum 301 rotates while carrying the material and moves to the bottom end to coincide with the non-air suction area 320, the material loses the suction force and begins to fall down, is captured by the outer cylinder 303 of the second air suction drum 302 and continues to rotate, and when the material is conveyed to the non-air suction area of the second air suction drum 302, the material loses the suction force and falls into the qualified product collecting box below.

As shown in fig. 8, the back plate 100 further includes a first industrial camera set 101 and a second industrial camera set 102, a lens of the first industrial camera set 101 is aligned with the first air suction roller 301, and a lens of the second industrial camera set 102 is aligned with the second air suction roller 302; due to the double-roller design, in the process of exchanging the material from the first air suction roller 301 to the second air suction roller 302, the exposed surface of the material changes, and the first industrial camera unit 101 and the second industrial camera unit 102 can shoot all visual angles of the material, so that whether the material is qualified or not can be judged more accurately; the second suction drum 302 further includes a kickoff air nozzle 321 installed at the bottom end of the second suction drum 302 for blowing off the unqualified materials.

As shown in fig. 9, the first and second suction rollers 301 and 302 further include: a connecting ring 331, a ball plunger 332, a spring steel ball 333 and a fastening nail 334; the connecting ring 331 is sleeved at the junction of the outer cylinder 303 and the transmission shaft 309, and the connecting ring 331 is fixedly connected with the outer cylinder 303 through a fastening nail 334; the ball plunger 332 is arranged on the circumference of the connecting ring 331 at certain intervals, the ball plunger 332 is embedded into the connecting ring 331, the side face of the ball plunger 332 is fixed by a fastening nail 334, a spring steel ball 333 is arranged at the bottom end of the ball plunger 332, a circular groove with the size matched with the spring steel ball 333 is arranged at the corresponding position on the surface of the transmission shaft 309, the spring steel ball 333 is tightly clamped in the circular groove on the surface of the transmission shaft 309 under the pressure effect to fix the outer cylinder 303, and the detachable structure can realize the quick installation and detachment of the outer cylinder 303 and is convenient for workers to change models and clean.

As shown in fig. 10 to 12, the intermittent tidying device includes: the device comprises a first baffle plate 201, a second baffle plate 202, a scraper brush 203, a mounting side plate 204, a linear bearing 205, a guide rod 206, a copper sleeve 207, a fixed handle 208, a guide rod connecting plate 209, a connecting block 210, a first rotating shaft 211, a second rotating shaft 212, a connecting rod 213, a cover plate 214, an eccentric shaft 215 and a motor 216.

As shown in fig. 11, the first baffle 201, the second baffle 202 and the two mounting side plates 204 are connected two by two to form a material accumulation area, wherein the bottom ends of the first baffle 201 and the two mounting side plates 204 are attached to the outer cylinder 303, and the bottom end of the second baffle 202 keeps a certain distance from the outer cylinder 303; the scraping brush 203 is fixedly arranged in the material accumulation area and is tightly attached to the second baffle 202, the distance between the bottom end of the scraping brush 203 and the outer barrel 303 is not more than two times of the diameter of the material, the scraping brush is used for removing overlapped materials, and only one material is ensured in one hole of the outer barrel 303.

Two linear bearings 205 are embedded in the back plate 100, two guide rods 206 respectively penetrate through the two linear bearings 205 and penetrate through the mounting side plate 204, the first baffle plate 201 and the second baffle plate 202, a fixing handle 208 is mounted at one end of each guide rod 206 and used for fixing the guide rod 206, and a copper sleeve 207 is sleeved at the junction of each guide rod 206, the first baffle plate 201 and the second baffle plate 202 and used for being fixed more tightly; the other end of the guide rod 206 is fixed on the guide rod connection plate 209, as shown in fig. 12, a connection block 210 is fixed in the middle of the guide rod connection plate 209, the top end of the connection block 210 is connected with a protruding shaft of the first rotating shaft 211 facing downward, the first rotating shaft 211 is connected with the second rotating shaft 212 through a connecting rod 213, the bottom of the connecting rod 213 is sealed by a cover plate 214, the protruding shaft of the second rotating shaft 212 faces upward and is fixedly connected with the lower end of an eccentric shaft 215, the upper end of the eccentric shaft 215 is fixedly connected with the central shaft of a motor 216, and the motor is installed on the connection plate 103.

As shown in fig. 13, the distance between the upper end axis a and the lower end axis B of the eccentric shaft 215 is S, the driving motor 216 drives the axis a of the eccentric shaft 215 to move back and forth, and finally the driving causes the guide rod 206 to drive the material accumulation area to move back and forth on the outer cylinder 303, so that the material which is not sucked into the hole of the outer cylinder 303 moves back and forth to enter the hole, thereby increasing the mold-entering rate, and the whole mold-entering rate of the device is as high as more than 95% through actual tests.

In the present invention, the terms "mounting", "connecting", "fixing" and the like are used in a broad sense, for example, "connecting" may be a fixed connection, a detachable connection, or an integral connection; "connected" may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The shapes of the various components in the drawings are schematic and do not preclude the existence of certain differences from their true shapes, and the drawings are intended only to illustrate the principles of the present invention and are not intended to limit the invention.

Although the present invention has been disclosed in detail with reference to the accompanying drawings, it is to be understood that such description is merely illustrative of and not restrictive on the broad invention. The scope of the invention is defined by the appended claims and may include various modifications, adaptations and equivalents of the invention without departing from its scope and spirit.

Claims (9)

1. The utility model provides an induced draft cylinder reason material device which characterized in that, the device includes: the device comprises a back plate (100), an intermittent material arranging device (200) and an air suction roller module (300);

the suction drum module (300) comprises a first suction drum (301) and a second suction drum (302), wherein the first suction drum (301) rotates clockwise, and the second suction drum (302) rotates anticlockwise;

the intermittent material arranging device (200), the first air suction roller (301) and the second air suction roller (302) are all fixed on the back plate (100), and the intermittent material arranging device (200) is installed on the upper side of the first air suction roller (301) and used for conveying materials into the first air suction roller (301);

the second air suction roller (302) is arranged on the lower side of the first air suction roller (301) and is tightly attached to the bottommost end of the first air suction roller (301), and the bottom of the second air suction roller (302) is used for waste removal and blanking;

the first suction drum (301) and the second suction drum (302) each comprise: an outer cylinder (303) and an inner cylinder (304);

the inner cylinder (304) is a uncovered cylinder with a plurality of linear hole grooves along the circumferential direction on the surface, and the solid part of the surface of the inner cylinder (304) without the linear hole grooves is a non-air suction area (320); the outer barrel (303) is a uncovered barrel with a plurality of rows of holes on the surface, the outer side of each hole is provided with a groove, and the size of the groove is matched with that of a material;

the outer cylinder (303) of the first air suction roller (301) is sleeved outside the corresponding inner cylinder (304) and can rotate clockwise; the outer cylinder (303) of the second air suction roller (302) is sleeved outside the corresponding inner cylinder (304) and can rotate along the anticlockwise direction; the joint of the first air suction roller (301) and the second air suction roller (302) is used for connecting and connecting materials;

the non-suction area (320) of the first suction drum (301) extends from one end of the intermittent material arranging device (200) to the position where the bottom end of the first suction drum (301) is connected with the second suction drum (302) in a counterclockwise manner; the non-suction area (320) of the second suction roller (302) extends from the connection position of the top end of the second suction roller (302) and the first suction roller (301) to the blanking position.

2. The suction drum material handling device according to claim 1, wherein the first suction drum (301) and the second suction drum (302) each comprise: the device comprises an outer cover plate (305), an inner cover plate (306), an air suction pipe (307), a hollow shaft (308), a transmission shaft (309), a toothed ring (310), a driving gear (311), a driving shaft (312), a planetary reducer (313) and an air suction roller bearing (314);

the opening of one side of the inner cylinder (304) is sealed by the inner cover plate (306), and the same side of the outer cylinder (303) is sealed by the outer cover plate (305);

the hollow shaft (308) and the transmission shaft (309) are both irregular cylinders, wherein the radius of the hollow shaft (308) is smaller than that of the transmission shaft (309), and the length of the hollow shaft (308) is larger than that of the transmission shaft (309);

the open side of the inner cylinder (304) is connected with the hollow shaft (308), the other end of the hollow shaft (308) is connected with the air suction pipe (307), and the air suction pipe (307) is connected with a suction fan; the opening side of the outer cylinder (303) is connected with the transmission shaft (309), the other end surface of the transmission shaft (309) is provided with a gear ring (310), the gear ring (310) is meshed with the driving gear (311), the driving gear (311) is fixed at one end of the driving shaft (312), and the other end of the driving shaft (312) is connected with the planetary reducer (313); the transmission shaft (309) and the hollow shaft (308) are nested together and are connected by two air suction roller bearings (314) which are positioned at the two ends of the inner side of the transmission shaft (309).

3. The suction drum material arranging device according to claim 2, characterized in that the transmission shaft (309) penetrates through the back plate (100), the back surface of the back plate (100) is connected with a connecting plate (103), a suction drum mounting plate (315) is mounted on the connecting plate (103), and the suction drum mounting plate (315) is fixedly connected with the first suction drum (301).

4. The suction drum material handling device of claim 2, wherein the first suction drum (301) and the second suction drum (302) each further comprise: the connecting ring (331), the ball plunger (332), the spring steel ball (333) and the fastening nail (334);

the connecting ring (331) is sleeved at the junction of the outer cylinder (303) and the transmission shaft (309), and the connecting ring (331) is fixedly connected with the outer cylinder (303) through the tacking nail (334); the ball plunger (332) is arranged on the circumference of the connecting ring (331) at intervals, and the spring steel ball (333) is arranged at the bottom end of the ball plunger (332); the ball plunger (332) is embedded in the connecting ring (331), and the side surface of the ball plunger (332) is fixed by the fastening nail (334).

5. The suction drum material arranging device as claimed in claim 4, characterized in that the surface of the transmission shaft (309) is provided with a circular groove with a size matched with the spring steel balls (333) for clamping the connecting ring (331).

6. The suction drum material arranging device according to claim 1, wherein the second suction drum (302) further comprises a kick waste gas nozzle (321), and the kick waste gas nozzle (321) is installed at the bottom end of the second suction drum (302) and is used for blowing off unqualified materials.

7. The suction roll tidying device according to claim 1, characterized in that a first industrial camera set (101) and a second industrial camera set (102) are installed on the back plate (100);

the lens of the first industrial camera set (101) is aligned with the first air suction drum (301), and the lens of the second industrial camera set (102) is aligned with the second air suction drum (302) for identifying unqualified materials.

8. The suction roll material arranging device according to claim 1, wherein the intermittent material arranging device comprises: the device comprises a first baffle plate (201), a second baffle plate (202), a scraping brush (203) and a mounting side plate (204);

the first baffle (201), the second baffle (202) and the two mounting side plates (204) are connected in pairs to enclose a material accumulation area, wherein the bottom ends of the first baffle (201) and the two mounting side plates (204) are attached to the outer barrel (303) of the first air suction roller (301), the bottom end of the second baffle (202) is kept at a certain distance from the outer barrel (303), the scraping brush (203) is tightly attached to the second baffle (202) and fixedly arranged in the material accumulation area, and the distance from the bottom end of the scraping brush (203) to the outer barrel (303) is kept at a distance not more than twice of the diameter of a material, so that overlapped materials can be removed.

9. The suction roll material arranging device according to claim 8, wherein the intermittent material arranging device further comprises: the device comprises a linear bearing (205), a guide rod (206), a copper sleeve (207), a fixed handle (208), a guide rod connecting plate (209), a connecting block (210), a first rotating shaft (211), a second rotating shaft (212), a connecting rod (213), a cover plate (214), an eccentric shaft (215) and a motor (216);

the two linear bearings (205) are embedded into the back plate (100), the two guide rods (206) respectively penetrate through the two linear bearings (205) and penetrate through the installation side plate (204), the first baffle plate (201) and the second baffle plate (202), one end, penetrating through the installation side plate (204), of each guide rod (206) is provided with the fixed handle (208), and the copper sleeve (207) is sleeved at the junction of each guide rod (206) and the first baffle plate (201) and the second baffle plate (202); the other end of the guide rod (206) is fixed on the guide rod connecting plate (209), the connecting block (210) is fixed in the middle of the guide rod connecting plate (209), the top end of the connecting block (210) is connected with a protruding shaft of the first rotating shaft (211) facing downwards, the first rotating shaft (211) is connected with the second rotating shaft (212) through the connecting rod (213), and the bottom of the connecting rod (213) is sealed by the cover plate (214);

the eccentric shaft (215) comprises: the shaft center A is connected with a central shaft of the motor (216), the motor is installed on a connecting plate (103), the shaft center B is connected with a protruding shaft of the second rotating shaft (212) facing upwards, the distance between the shaft center A and the shaft center B is S, the motor (216) drives the shaft center A to link the shaft center B to move back and forth, and finally the material moves back and forth on the first air suction drum (301).

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