1. A device for removing a large amount of impurities on the surface of a cylindrical material is characterized by comprising:

the device comprises a base (1), wherein a hollow fixed frame (2) is arranged on one side of the base (1);

the first fixing frame (3), the first fixing frame (3) is installed on the base (1);

the arc-shaped guide frame (21), the arc-shaped guide frame (21) is respectively arranged on the hollow fixed frame (2) and the first fixed frame (3);

the driving mechanism (4) is arranged between the base (1) and the hollow fixed frame (2), and a groove rolling drum (31) is arranged on the driving mechanism (4) and used for providing power;

and the sliding mechanism (5) is arranged on the hollow fixed frame (2) and is used for driving the material to move.

2. The apparatus for removing a large amount of impurities from the surface of a cylindrical material as claimed in claim 1, wherein the driving mechanism (4) comprises:

the motor (41), the motor (41) is installed on the base (1);

the first rotating shaft (42), the first rotating shaft (42) is installed on the motor (41);

the second fixing frame (43), the second fixing frame (43) is installed on the hollow fixed frame (2);

the third fixing frame (44), the third fixing frame (44) is symmetrically installed on the hollow fixing frame (2);

the second rotating shaft (45) is rotatably arranged between the second fixing frame (43) and one of the third fixing frames (44);

the first transmission assembly (46), the first transmission assembly (46) is installed between the second rotating shaft (45) and the first rotating shaft (42);

the fourth fixing frame (47), the fourth fixing frame (47) is installed on the third fixing frame (44);

the third rotating shaft (48), the third rotating shaft (48) is installed between two fourth fixing frames (47) in a symmetrical and rotating manner;

the second transmission assembly (49), the second transmission assembly (49) is installed between one of the third rotating shafts (48) and the second rotating shaft (45);

and the third transmission assembly (410), and the third transmission assembly (410) is arranged between the two third rotating shafts (48).

3. The apparatus for removing a large amount of impurities from the surface of a cylindrical material as claimed in claim 2, wherein the sliding mechanism (5) comprises:

the slotting frame (51), the slotting frame (51) is installed on the hollow fixed frame (2);

the sliding block (52), the sliding block (52) is installed on the slotted frame (51) in a sliding way;

the first fixing block (53), the first fixing block (53) is installed on the slide block (52);

the arc-shaped grooving block (54), the arc-shaped grooving block (54) is installed on the first fixing block (53);

the hinging block (56), the hinging block (56) is hinged on the arc-shaped slotted block (54);

the first spring (55), the first spring (55) is installed between articulated piece (56) and arc fluting piece (54).

4. The apparatus for removing a large amount of impurities from the surface of a cylindrical material according to claim 3, further comprising an automatic reversing mechanism (6), wherein the automatic reversing mechanism (6) comprises:

the hollow column (61), the hollow column (61) is installed on the slide block (52) in a rotating mode;

the first shifting block (62), the first shifting block (62) is installed on the hollow column (61);

the second shifting block (63), the second shifting block (63) is installed on the hollow column (61);

the second spring (64), the second spring (64) is installed between the first stirring block (62) and the second stirring block (63);

the second fixing block (65), the second fixing block (65) is installed on the hollow column (61);

the roller (66), the roller (66) is installed on the second fixed block (65) in a rotating mode;

the third fixing blocks (67) are arranged on the sliding block (52) at intervals;

the limiting blocks (68), the limiting blocks (68) are symmetrically arranged on the slotted frame (51);

the fourth rotating shaft (69), the fourth rotating shaft (69) is rotatably installed on the hollow fixed frame (2), and the fourth rotating shaft (69) is in contact fit with the roller (66);

and the fourth transmission assembly (610), wherein the fourth transmission assembly (610) is arranged between the fourth rotating shaft (69) and the first rotating shaft (42).

5. The apparatus for removing a large amount of impurities on the surface of a cylindrical material according to claim 4, further comprising a blanking mechanism (7), wherein the blanking mechanism (7) comprises:

a first magnet (71), wherein the first magnet (71) is arranged on the first fixed block (53);

the feed hopper (72), the feed hopper (72) is installed on the arc-shaped guide frame (21);

the special-shaped plate (73), the special-shaped plate (73) is installed on the feed hopper (72) in a sliding manner;

a third spring (74), wherein the third spring (74) is arranged between the feed hopper (72) and the special-shaped plate (73);

the fourth fixing block (75), the fourth fixing block (75) is installed on the arc-shaped guide frame (21);

the first guide rod (76), the first guide rod (76) is installed on the fourth fixed block (75);

the pushing block (78), the pushing block (78) is installed on the first guide rod (76) in a sliding mode;

the fourth spring (77), the fourth spring (77) is installed between the push block (78) and the fourth fixed block (75), and the fourth spring (77) is wound on the first guide rod (76);

the special-shaped rod (79), the special-shaped rod (79) is installed on the push block (78);

a second magnet (710), the second magnet (710) is mounted on the profiled bar (79), and the second magnet (710) is matched with the first magnet (71).

6. An apparatus for removing a large number of impurities from the surface of a cylindrical material according to claim 5, further comprising a collecting device (8), the collecting device (8) comprising:

a collecting frame (81), wherein the collecting frame (81) is placed on the base (1);

the number of the fifth springs (82) is four, and the fifth springs (82) are installed on the collecting frame (81) at intervals;

and the buffer cushion (83), and the buffer cushion (83) is arranged between the tail ends of the four fifth springs (82).

7. An apparatus for removing a large number of impurities from the surface of a cylindrical material according to claim 6, further comprising a cleaning device (9), wherein the cleaning device (9) comprises:

the second guide rods (91), the second guide rods (91) are symmetrically arranged between the two fourth fixing frames (47);

the sliding brush (93), the sliding brush (93) is installed between the two second guide rods (91) in a sliding way;

a handle (94), the handle (94) is arranged on the sliding brush (93);

and a sixth spring (92), wherein the sixth spring (92) is installed between the sliding brush (93) and the second guide rod (91).

8. The apparatus for removing a large amount of impurities from the surface of a cylindrical material as claimed in claim 7, wherein the grip (94) is made of rubber to increase the friction force with the hand.

Background

For the subsequent use of the new cylindrical material, impurities are removed from the surface of the material. At present, the instrument of holding is held to cylindrical material to the manual work most all, and at first people fix the material, and start the instrument, hold the instrument again and remove it along material circumferential surface and get rid of impurity, so the operation is more troublesome, and work efficiency is still low, and because the hand need incessantly remove, and time is one long, and is more hard.

Therefore, a device for removing a large amount of impurities on the surface of a cylindrical material, which is convenient for people to remove impurities, high in working efficiency, time-saving and labor-saving, is particularly needed to solve the problems in the prior art.

Disclosure of Invention

In order to overcome the defects that the operation is troublesome and the working efficiency is low when a tool is held to move along the surface of a material to remove impurities, and the time is long and the labor is laborious because hands need to move ceaselessly, the invention has the technical problems that: the equipment for removing the impurities on the surface of the cylindrical material is convenient for people to remove the impurities from the cylindrical material, high in working efficiency, time-saving and labor-saving.

The technical implementation scheme of the invention is as follows: a device for removing a large amount of impurities on the surface of a cylindrical material comprises: a hollow fixing frame is arranged on one side of the base; the first fixing frame is arranged on the base; the arc-shaped guide frame is respectively arranged on the hollow fixed frame and the first fixed frame; the driving mechanism is arranged between the base and the hollow fixed frame, and is provided with a roller groove drum for providing power; and the sliding mechanism is arranged on the hollow fixed frame and is used for driving the material to move.

Optionally, the driving mechanism comprises: the motor is arranged on the base; the first rotating shaft is arranged on the motor; the second fixing frame is arranged on the hollow fixing frame; the third fixing frame is symmetrically arranged on the hollow fixing frame; the second rotating shaft is rotatably arranged between the second fixing frame and one of the third fixing frames; the first transmission assembly is arranged between the second rotating shaft and the first rotating shaft; the fourth fixing frame is arranged on the third fixing frame; the third rotating shaft is symmetrically and rotatably arranged between the two fourth fixing frames; the second transmission assembly is arranged between one third rotating shaft and the second rotating shaft; and the third transmission assembly is arranged between the two third rotating shafts.

Optionally, the sliding mechanism comprises: the slotting frame is arranged on the hollow fixed frame; the sliding block is arranged on the slotted frame in a sliding manner; the first fixed block is arranged on the sliding block; the arc-shaped grooving block is arranged on the first fixing block; the hinge block is mounted on the arc-shaped slotted block in a hinged manner; the first spring is installed between the hinge block and the arc-shaped slotting block.

Optionally, the automatic reversing mechanism is further included, and the automatic reversing mechanism includes: the hollow column is rotatably arranged on the sliding block; the first shifting block is arranged on the hollow column; the second shifting block is arranged on the hollow column; the second spring is arranged between the first toggle block and the second toggle block; the second fixed block is arranged on the hollow column; the roller is rotatably arranged on the second fixed block; the third fixing blocks are arranged on the sliding block at intervals; the limiting blocks are symmetrically arranged on the slotted frame; the fourth rotating shaft is rotatably arranged on the hollow fixed frame and is in contact fit with the roller; and the fourth transmission assembly is arranged between the fourth rotating shaft and the first rotating shaft.

Optionally, still including unloading mechanism, unloading mechanism is including: the first magnet is arranged on the first fixed block; the feeding hopper is arranged on the arc-shaped guide frame; the special-shaped plate is arranged on the feed hopper in a sliding manner; the third spring is arranged between the feed hopper and the special-shaped plate; the fourth fixed block is arranged on the arc-shaped guide frame; the first guide rod is arranged on the fourth fixed block; the pushing block is arranged on the first guide rod in a sliding mode; the fourth spring is arranged between the push block and the fourth fixed block and is wound on the first guide rod; the special-shaped rod is arranged on the push block; and the second magnet is arranged on the special-shaped rod and matched with the first magnet.

Optionally, the device further comprises a collecting device, wherein the collecting device comprises: the collecting frame is placed on the base; the number of the fifth springs is four, and the fifth springs are arranged on the collecting frame at intervals; and the buffer cushion is arranged between the tail ends of the four fifth springs.

Optionally, the cleaning device is further included, and the cleaning device includes: the second guide rods are symmetrically arranged between the two fourth fixing frames; the sliding brush is arranged between the two second guide rods in a sliding manner; a grip mounted on the sliding brush; and the sixth spring is arranged between the sliding brush and the second guide rod.

Optionally, the grip is made of rubber, so that friction force between the grip and a hand is increased.

The invention has the following advantages:

1. according to the invention, through the matching of the driving mechanism and the sliding mechanism, a material is placed between the rear parts of the arc-shaped guide frames on the left side and the right side, the motor is started, the first fixing block is pulled to move forwards to drive the material to move forwards, the material moves forwards to be contacted with the rolling groove cylinders, and the rolling groove cylinders on the left side and the right side are in rotating fit to remove impurities from the material, so that the impurities of the cylindrical material can be conveniently removed by people, and the working efficiency is high.

2. According to the feeding device, the material in the feeding hopper can move backwards to the rear side of the first fixing frame and roll into the arc-shaped guide frame under the action of the blanking mechanism, so that people do not need to manually feed the material.

3. According to the invention, the sliding brush moves back and forth to clean the slot rolling drum under the action of the cleaning device, and after the slot rolling drum is cleaned, excessive impurities remained on the slot rolling drum can be avoided.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is a schematic perspective view of the driving mechanism of the present invention.

Fig. 5 is a schematic perspective view of the sliding mechanism of the present invention.

Fig. 6 is an enlarged schematic view of part a of the present invention.

Fig. 7 is a schematic perspective view of a first automatic reversing mechanism of the present invention.

Fig. 8 is a schematic perspective view of a second automatic reversing mechanism of the present invention.

Fig. 9 is a schematic perspective view of a third embodiment of the automatic reversing mechanism of the present invention.

Fig. 10 is a schematic perspective view of a first blanking mechanism according to the present invention.

Fig. 11 is a schematic perspective view of a second blanking mechanism according to the present invention.

Fig. 12 is an enlarged view of part B of the present invention.

Fig. 13 is a third schematic perspective view of the blanking mechanism of the present invention.

Fig. 14 is a schematic diagram of a fourth three-dimensional structure of the blanking mechanism of the present invention.

Fig. 15 is a schematic perspective view of a collecting device and a cleaning device according to the present invention.

The meaning of the reference symbols in the figures: 1: base, 2: hollow fixed frame, 21: arc leading truck, 3: first mount, 31: grooved drum, 4: drive mechanism, 41: motor, 42: first rotating shaft, 43: second mount, 44: third mount, 45: second rotating shaft, 46: first transmission assembly, 47: fourth mount, 48: third rotating shaft, 49: second transmission assembly, 410: third transmission assembly, 5: sliding mechanism, 51: slotted frame, 52: slider, 53: first fixing block, 54: arc grooving piece, 55: first spring, 56: hinge block, 6: automatic reversing mechanism, 61: hollow column, 62: first dial block, 63: second toggle block, 64: second spring, 65: second fixed block, 66: roller, 67: third fixed block, 68: stopper, 69: fourth rotation shaft, 610: fourth transmission assembly, 7: blanking mechanism, 71: first magnet, 72: feed hopper, 73: shaped plate, 74: third spring, 75: fourth fixing block, 76: first guide bar, 77: fourth spring, 78: push block, 79: shaped bar, 710: second magnet, 8: collecting device, 81: collection frame, 82: fifth spring, 83: cushion, 9: cleaning device, 91: second guide lever, 92: sixth spring, 93: sliding brush, 94: a handle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

Example 1

The utility model provides a cylindrical material surface bulk impurity removes equipment, as shown in fig. 1-6, including base 1, hollow fixed frame 2, arc leading truck 21, first mount 3, a slot rolling section of thick bamboo 31, actuating mechanism 4 and slide mechanism 5, 1 top left side rigid coupling of base has hollow fixed frame 2, 1 top right side rigid coupling of base has first mount 3, 2 lateral surface upper portions of hollow fixed frame and 3 upper portion left sides of first mount all are equipped with arc leading truck 21, be equipped with actuating mechanism 4 between base 1 and the hollow fixed frame 2, be equipped with a slot rolling section of thick bamboo 31 on the actuating mechanism 4, be equipped with slide mechanism 5 on the hollow fixed frame 2.

The driving mechanism 4 comprises a motor 41, a first rotating shaft 42, a second fixing frame 43, a third fixing frame 44, a second rotating shaft 45, a first transmission component 46, a fourth fixing frame 47, a third rotating shaft 48, a second transmission component 49 and a third transmission component 410, the motor 41 is fixedly connected with the front left side of the top of the base 1, the first rotating shaft 42 is connected with an output shaft of the motor 41, the second fixing frame 43 is fixedly connected with the front side of the outer top of the hollow fixing frame 2, the third fixing frames 44 are fixedly connected with the front and back of the outer top of the hollow fixing frame 2 symmetrically, the third rotating shaft 48 is rotatably arranged between the right part of the second fixing frame 43 and the right part of the front third fixing frame 44, the first transmission component 46 is connected between the front circumferential direction of the third rotating shaft 48 and the circumferential direction of the rear part of the first rotating shaft 42, the fourth fixing frame 47 is fixedly connected with the right side of the inner top of the third fixing frame 44, the third rotating shaft 48 is rotatably arranged between the fourth fixing frames 47 at the front and back sides symmetrically, the third rotating shaft 48 is fixedly connected with the slot rolling cylinder 31, a second transmission assembly 49 is connected between the front circumference of the left third rotating shaft 48 and the rear circumference of the second rotating shaft 45, and a third transmission assembly 410 is connected between the front circumferences of the left and right third rotating shafts 48.

Slide mechanism 5 is including slotting frame 51, slider 52, first fixed block 53, arc slotting block 54, first spring 55 and articulated piece 56, hollow fixed frame 2 medial surface upper portion rigid coupling has slotting frame 51, slotting frame 51 internal sliding type is equipped with slider 52, slider 52 right flank rigid coupling has first fixed block 53, first fixed block 53 top rigid coupling has arc slotting block 54, arc slotting block 54 front portion articulated formula is equipped with articulated piece 56, be equipped with first spring 55 between articulated piece 56 medial surface and the arc slotting block 54 medial surface.

Firstly, an operator places a piece of material between the rear parts of the left and right arc-shaped guide frames 21, starts the motor 41, the motor 41 drives the first rotating shaft 42 to rotate, the first rotating shaft 42 rotates to drive the first transmission component 46 to rotate, the first transmission component 46 rotates to drive the second rotating shaft 45 to rotate, the second rotating shaft 45 rotates to drive the second transmission component 49 to rotate, the second transmission component 49 rotates to drive the left third rotating shaft 48 to rotate, the left third rotating shaft 48 rotates to drive the left slotted cylinder 31 to rotate, the left third rotating shaft 48 also rotates to drive the third transmission component 410 to rotate, the third transmission component 410 rotates to drive the right third rotating shaft 48 to rotate, the right third rotating shaft 48 rotates to drive the right slotted cylinder 31 to rotate, then the first fixing block 53 is pulled to move forward, the arc-shaped slotting block 54 moves forward to drive the hinged block 56 to move forward, articulated piece 56 moves forward and drives the material and move forward, first spring 55 plays the cushioning effect, the material moves forward and rolls a groove section of thick bamboo 31 contact, and then left and right sides groove section of thick bamboo 31 normal running fit carries out impurity to the material and gets rid of, articulated piece 56 continues to drive the material and moves forward, the material drops to base 1 when moving forward to the maximum stroke, take up the material and carries out subsequent processing, pull first fixed block 53 again and drive arc slotting block 54 and move backward and reset, so relapse, can constantly carry out impurity removal to the material, after whole material impurity gets rid of and accomplish, close motor 41, first pivot 42 stops to drive second pivot 45 through first transmission assembly 46 and rotates, groove section of thick bamboo 31 also stall.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 7, 8, 9, 10, 11, 12, 13 and 14, the automatic reversing mechanism 6 further comprises an automatic reversing mechanism 6, wherein the automatic reversing mechanism 6 comprises a hollow column 61, a first shifting block 62, a second shifting block 63, a second spring 64, a second fixed block 65, a roller 66, a third fixed block 67, a limit block 68, a fourth rotating shaft 69 and a fourth transmission assembly 610, the hollow column 61 is rotatably arranged in the middle of the slider 52, the first shifting block 62 is rotatably arranged on the right side of the upper portion of the hollow column 61, the second shifting block 63 is arranged on the left side of the upper portion of the hollow column 61, the second spring 64 is arranged between the right side of the first shifting block 62 and the left side of the second shifting block 63, the second fixed block 65 is fixedly connected to the bottom end of the hollow column 61, the roller 66 is rotatably arranged on the lower portion of the second fixed block 65, the third fixed block 67 is arranged at intervals on the top of the slider 52, the limit blocks 68 are symmetrically fixedly connected to the front and back of the left side of the top of the slotted frame 51, the middle side of the lower part of the hollow fixed frame 2 is rotatably provided with a fourth rotating shaft 69, the fourth rotating shaft 69 is in contact fit with the roller 66, and a fourth transmission assembly 610 is connected between the front circumference of the fourth rotating shaft 69 and the rear circumference of the first rotating shaft 42.

The blanking mechanism 7 comprises a first magnet 71, a feed hopper 72, a special-shaped plate 73, a third spring 74, a fourth fixed block 75, a first guide rod 76, a fourth spring 77, a push block 78, a special-shaped rod 79 and a second magnet 710, the first magnet 71 is fixedly connected to the right side surface of the first fixed block 53, the feed hopper 72 is fixedly connected to the front side of the top of the arc-shaped guide frame 21, the special-shaped plate 73 is slidably arranged on the lower side of the front part of the feed hopper 72, the third spring 74 is wound between the lower middle part of the front side surface of the arc-shaped guide frame 21 and the upper part of the special-shaped plate 73, the fourth fixed block 75 is fixedly connected to the right side of the bottom in the arc-shaped guide frame 21, the first guide rod 76 is arranged between the front side and the rear side of the fourth fixed block 75, the push block 78 is slidably arranged on the first guide rod 76, the fourth spring 77 is arranged between the lower part of the front side surface of the push block 78 and the inner front side surface of the fourth fixed block 75, a special-shaped rod 79 is fixedly connected to the lower portion of the left side face of the push block 78, a second magnet 710 is fixedly connected to the left portion of the special-shaped rod 79 in the circumferential direction, and the second magnet 710 is matched with the first magnet 71.

When the motor 41 is started, the first rotating shaft 42 rotates to drive the fourth transmission assembly 610 to rotate, the fourth transmission assembly 610 rotates to drive the fourth rotating shaft 69 to rotate, the fourth rotating shaft 69 rotates to drive the second fixed block 65 to move forward through the roller 66, the second fixed block 65 moves forward to drive the hollow column 61 to move forward, the hollow column 61 moves forward to drive the sliding block 52 to move forward, the sliding block 52 moves forward to drive the first fixed block 53 to move forward, the hinge block 56 also drives the material to move forward, the hollow column 61 moves forward to drive the second shifting block 63 to move forward, the second shifting block 63 moves forward to contact with the front limiting block 68, the front limiting block 68 enables the second shifting block 63 to swing backward, the second spring 64 plays a buffering role, the second shifting block 63 swings backward to rotate forward to drive the hollow column 61, the forward rotating column 61 drives the roller 66 to swing backward, and the fourth rotating shaft 69 continues to rotate to drive the second fixed block 65 to move backward to reset through the roller 66, first fixed block 53 also drives articulated piece 56 and moves backward and resets, and similarly, second is dialled the piece 63 and is moved backward and contact with rear stopper 68, rear stopper 68 makes second dial piece 63 swing forward, gyro wheel 66 also swings forward, after all material impurity gets rid of the completion, close motor 41, first pivot 42 stops to drive fourth pivot 69 through fourth transmission assembly 610 and rotates, hollow post 61 stops to drive slider 52 back-and-forth movement, first fixed block 53 also stops the back-and-forth movement, so, need not people's manual pulling first fixed block 53 back-and-forth movement.

Firstly, an operator puts a proper amount of materials into the feeding hopper 72, one material falls into the first fixing frame 3, the special-shaped plate 73 limits the rest materials, when the motor 41 is started, the first fixing block 53 moves forwards to drive the first magnet 71 to move forwards, the first magnet 71 moves forwards to be correspondingly contacted with the second magnet 710, the first magnet 71 and the second magnet 710 attract each other, then the first fixing block 53 moves backwards to drive the first magnet 71 to move backwards, the first magnet 71 moves backwards to drive the second magnet 710 to move backwards, the second magnet 710 moves backwards to drive the special-shaped rod 79 to move backwards, the special-shaped rod 79 moves backwards to drive the push block 78 to move backwards, the fourth spring 77 is stretched, the push block 78 moves backwards to drive the material to move backwards, the material moves backwards to roll into the arc-shaped guide frame 21 at the rear side of the first fixing frame 3, and the first magnet 71 continues to move backwards to be separated from the second magnet 710, because of the effect of fourth spring 77, ejector pad 78 drives dysmorphism pole 79 and moves forward and reset, ejector pad 78 moves forward and resets and contacts with dysmorphism board 73, ejector pad 78 makes dysmorphism board 73 move forward a certain distance and stops spacingly, a material just also drops to first mount 3, then because of the effect of third spring 74, dysmorphism board 73 moves backward and resets and continues to carry on spacingly to remaining material, after all material impurity got rid of and accomplish, close motor 41, first fixed block 53 stops to drive second magnet 710 back-and-forth movement through first magnet 71, ejector pad 78 just also stops the back-and-forth movement, so, need not people's manual material loading.

Example 3

On the basis of embodiment 1 and embodiment 2, as shown in fig. 1 and 15, the collecting device 8 is further included, the collecting device 8 includes a collecting frame 81, a fifth spring 82 and a buffer pad 83, the collecting frame 81 is placed on the right side of the top of the base 1, four fifth springs 82 are arranged at intervals on the bottom in the collecting frame 81, and the buffer pad 83 is fixedly connected between the tail ends of the four fifth springs 82.

The cleaning device 9 comprises a second guide rod 91, a sixth spring 92, a sliding brush 93 and a handle 94, the second guide rod 91 is fixedly connected between the inner sides of the fourth fixing frames 47 on the front side and the rear side in a bilateral symmetry mode, the sliding brush 93 is arranged between the second guide rods 91 on the left side and the right side in a sliding mode, the handle 94 is fixedly connected to the inner side of the top of the sliding brush 93, and the sixth spring 92 is wound between the front side of the sliding brush 93 and the front portion of the second guide rod 91.

When articulated piece 56 continues to drive the material and moves along, the material drops to collecting in the frame 81 when moving along to the biggest stroke, and blotter 83 plays the cushioning effect through fifth spring 82, collects and is equipped with the right amount material in the frame 81 after, takes up and collects frame 81 and carries out subsequent processing to the material, and then puts back collecting frame 81 to base 1 on, so, can make things convenient for people to collect the material.

When excessive impurities are remained on the rolling groove drum 31, the handle 94 can be pulled to pull the sliding brush 93 to move back and forth repeatedly, the sixth spring 92 plays a role in buffering, the sliding brush 93 moves back and forth to clean the rolling groove drum 31, and after the rolling groove drum 31 is cleaned, the handle 94 stops being pulled to move back and forth, so that the excessive impurities remained on the rolling groove drum 31 can be avoided.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made herein without departing from the principles and spirit of the invention as defined by the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the remainder of the disclosure, but rather to limit the scope of the disclosure to the full extent set forth in the appended claims.